diff --git a/.config/iterm2/com.googlecode.iterm2.plist b/.config/iterm2/com.googlecode.iterm2.plist
index e91004a..525bcb1 100644
--- a/.config/iterm2/com.googlecode.iterm2.plist
+++ b/.config/iterm2/com.googlecode.iterm2.plist
@@ -11,7 +11,7 @@
AutoHideTmuxClientSession
Command
- /bin/zsh
+
CommandSelection
Control
@@ -563,6 +563,10 @@
NeverWarnAboutShortLivedSessions_2349d567-c033-4dbd-9d61-e6d0a7677d5a_selection
0
+ NeverWarnAboutShortLivedSessions_2349d567-c033-4dbd-9d61-e6d0a7677d5b
+
+ NeverWarnAboutShortLivedSessions_2349d567-c033-4dbd-9d61-e6d0a7677d5b_selection
+ 0
NeverWarnAboutShortLivedSessions_A5239E6F-F0D2-4CEB-87C7-B08E139F0CB1
NeverWarnAboutShortLivedSessions_A5239E6F-F0D2-4CEB-87C7-B08E139F0CB1_selection
@@ -1329,7 +1333,7 @@
Visual Bell
Window Type
- 0
+ 12
Working Directory
/Users/kdb424
@@ -1601,7 +1605,7 @@
Blur
Blur Radius
- 9
+ 5
Bold Color
Alpha Component
@@ -2105,7 +2109,7 @@
Visual Bell
Window Type
- 0
+ 12
Working Directory
/Users/kdb424
@@ -3657,7 +3661,7 @@
Visual Bell
Window Type
- 0
+ 12
Working Directory
/Users/kdb424
diff --git a/.config/mpv/mpv.conf b/.config/mpv/mpv.conf
index 93a5001..d83ca94 100644
--- a/.config/mpv/mpv.conf
+++ b/.config/mpv/mpv.conf
@@ -1,3 +1,2 @@
#coreaudio-change-physical-format=yes
-
-audio-display=no
+#audio-display=no
diff --git a/Library/Application Support/OrcaSlicer/OrcaSlicer.conf b/Library/Application Support/OrcaSlicer/OrcaSlicer.conf
index 0819121..8093e68 100644
--- a/Library/Application Support/OrcaSlicer/OrcaSlicer.conf
+++ b/Library/Application Support/OrcaSlicer/OrcaSlicer.conf
@@ -2,8 +2,10 @@
"app": {
"allow_ip_resolve": "1",
"auto_calculate": true,
+ "auto_calculate_when_filament_change": true,
"backup_interval": "60",
"backup_switch": true,
+ "camera_navigation_style": "0",
"check_stable_update_only": false,
"curr_bed_type": "3",
"dark_color_mode": "1",
@@ -12,6 +14,7 @@
"download_path": "/Users/kdb424/Downloads",
"drop_project_action": true,
"dump_video": false,
+ "enable_multi_machine": false,
"enable_ssl_for_ftp": true,
"enable_ssl_for_mqtt": true,
"flush_multiplier": "1.000000",
@@ -21,13 +24,15 @@
"iot_environment": "3",
"keyboard_supported": "none/alt/control/shift",
"language": "en_US",
- "last_backup_path": "/var/folders/9x/mjvqdwwj2gb9j1jz_f_wn0k80000gn/T/orcaslicer_model/Mon_May_20/12_51_59#93345#55",
+ "last_backup_path": "/var/folders/9x/mjvqdwwj2gb9j1jz_f_wn0k80000gn/T/orcaslicer_model/Thu_Oct_17/14_28_21#3370#49",
"last_export_path": "/Users/kdb424/Downloads/seeed-xiao-ble-case-model_files",
"log_severity_level": "warning",
"max_recent_count": "18",
+ "max_send": "3",
"mouse_supported": "mouse left/mouse middle/mouse right",
"mouse_wheel": "0",
"move_view": "none/mouse left",
+ "open_device_tab_post_upload": true,
"precise_control": "none/mouse left",
"preset_folder": "",
"print_host_queue_dialog_column_0": "80",
@@ -42,7 +47,10 @@
"print_host_queue_dialog_y": "607",
"privacy_version": "00.00.00.00",
"region": "North America",
+ "remember_printer_config": true,
+ "reverse_mouse_wheel_zoom": false,
"rotate_view": "none/mouse left",
+ "sending_interval": "5",
"show_3d_navigator": true,
"show_build_edgets": false,
"show_daily_tips": true,
@@ -55,7 +63,7 @@
"show_printable_box": true,
"show_splash_screen": true,
"single_instance": false,
- "skip_version": "1.7.0-beta",
+ "skip_version": "2.2.0.0-Preview",
"slicer_uuid": "c0c98063-b586-420e-9a76-f89c2e81017a",
"staff_pick_switch": true,
"stealth_mode": true,
@@ -68,9 +76,9 @@
"use_perspective_camera": true,
"use_retina_opengl": true,
"user_mode": "advanced",
- "version": "01.08.04.51",
+ "version": "01.09.03.50",
"window_layout": "layout2|name=sidebar;caption=;state=1996;dir=4;layer=0;row=0;pos=0;prop=100000;bestw=421;besth=900;minw=-1;minh=-1;maxw=-1;maxh=-1;floatx=-1;floaty=-1;floatw=-1;floath=-1|name=main;caption=;state=256;dir=5;layer=0;row=0;pos=0;prop=100000;bestw=20;besth=20;minw=-1;minh=-1;maxw=-1;maxh=-1;floatx=-1;floaty=-1;floatw=-1;floath=-1|dock_size(5,0,0)=20|dock_size(4,0,0)=423|",
- "window_mainframe": "10; 35; 2473; 1395; 0",
+ "window_mainframe": "10; 35; 3420; 1395; 0",
"zoom_to_mouse": false,
"zoom_view": "none/mouse left"
},
@@ -115,7 +123,7 @@
"firstguide": {
"finish": true
},
- "header": "OrcaSlicer 2.0.0",
+ "header": "OrcaSlicer 2.1.1",
"models": [
{
"model": "Bambu Lab X1 Carbon",
@@ -136,6 +144,15 @@
"flush_volumes_matrix": "0.000000",
"flush_volumes_vector": "140.000000|140.000000",
"machine": "Micron 0.4 nozzle",
+ "process": "Speed Micron"
+ },
+ {
+ "curr_bed_type": "3",
+ "filament": "KVP ABS Micron",
+ "filament_colors": "#F2754E",
+ "flush_volumes_matrix": "0.000000",
+ "flush_volumes_vector": "140.000000|140.000000",
+ "machine": "Micron 0.6 nozzle",
"process": "Standard Micron"
},
{
@@ -150,7 +167,7 @@
],
"presets": {
"filaments": null,
- "machine": "Voron 0.1 0.5 nozzle"
+ "machine": "Micron 0.4 nozzle"
},
"print": {
"bed_leveling": "1",
@@ -158,28 +175,28 @@
"timelapse": "1"
},
"recent": {
- "last_opened_folder": "/Users/kdb424/src/Klicky-Probe/Probes/KlickyProbe/STL",
+ "last_opened_folder": "/Users/kdb424/Downloads",
"printhost_path": "",
- "settings_folder": "/Users/kdb424/printers/Doom Micron 180"
+ "settings_folder": "/Users/kdb424/Downloads/More kitchen_plate drawer organizers - 3311956/files"
},
"recent_projects": {
- "01": "/Users/kdb424/src/Klicky-Probe/Probes/KlickyProbe/STL/KlickyProbe_v2.stl",
- "02": "/Users/kdb424/Downloads/guss67/ethernet-rj45-clip-to-secure-repair-fix-broken-tab/rj45-clip_04.9.stl",
- "03": "/Users/kdb424/src/Roborock-CPAP/stls/mount_plate.stl",
- "04": "/Users/kdb424/src/Armchair-Usermods/files/Archetype/Archetype_For_Ants/STLs/mgn9_right.stl",
- "05": "/Users/kdb424/Downloads/archetype/[a]_beacon_medium.stl",
- "06": "/Applications/OrcaSlicer.app/Contents/Resources/calib/tolerance_test/OrcaToleranceTest.stl",
- "07": "/Users/kdb424/Downloads/seeed-xiao-ble-case-model_files/xiao_dongle_top.3mf",
- "08": "/Users/kdb424/Downloads/DooMicron180SkirtsLike90Percentcomplete-ish_v2.3mf",
- "09": "/Users/kdb424/printers/Doom Micron 180/BedFan.3mf",
- "10": "/Users/kdb424/printers/Doom Micron 180/BeaconMount.3mf",
- "11": "/Users/kdb424/printers/Doom Micron 180/FrontMiddleSkirt.3mf",
- "12": "/Users/kdb424/Downloads/SwagDoom180/Trim.3mf",
- "13": "/Users/kdb424/Downloads/SwagDoom180/Bottom Skirts.3mf",
- "14": "/Users/kdb424/Downloads/Skirt4.3mf",
- "15": "/Users/kdb424/printers/Doom Micron 180/Chain_Custom.3mf",
- "16": "/Users/kdb424/Downloads/DoorBottomTopPanel.3mf",
- "17": "/Users/kdb424/Downloads/DoorRightLeftPanel.3mf",
- "18": "/Users/kdb424/Downloads/VerticalSide.3mf"
+ "01": "/Users/kdb424/Downloads/canyon-stand-240816.stp",
+ "02": "/Users/kdb424/Downloads/Begleri display stand.stl",
+ "03": "/Users/kdb424/Downloads/btt-ebb36-umbilical-strain-relief-for-stealthburner-model_files/EBB36-Umbilical-SB-70mm.stl",
+ "04": "/Users/kdb424/Downloads/Customized Stackable Container Bins - 5153356/files/Stackable_Container_bin_Stripes.stl",
+ "05": "/Users/kdb424/Downloads/the-vulp-balisong-inserts-model_files/bite-side.step",
+ "06": "/Users/kdb424/src/Voron-0/STLs/A_Idler_Lower_x1.stl",
+ "07": "/Users/kdb424/Downloads/DooMicron BZI v2.stl",
+ "08": "/Users/kdb424/Downloads/Provok3d_Nozzle_ADXL_inserT.stl",
+ "09": "/Users/kdb424/src/VoronBFI/STLs/BFI-V2.4_Housing_x2.stl",
+ "10": "/Users/kdb424/Downloads/More kitchen_plate drawer organizers - 3311956/files/plateHolder4.3mf",
+ "11": "/Users/kdb424/src/voron/V0/Rapid_Burner/STLs/v0.2/Goliath/Orbiter2_Extruder_Mount.stl",
+ "12": "/Users/kdb424/src/Voron-0/STLs/Tools/BMG_Shaft_Mod_Spacer_x1.STL",
+ "13": "/Users/kdb424/src/Voron-0/STLs/Rear_Bed_Mount_Right_x1.stl",
+ "14": "/Users/kdb424/Downloads/yggdrasil-jewlery-box-model_files/jewlery-box-lid-2.stl",
+ "15": "/Users/kdb424/Downloads/More kitchen_plate drawer organizers - 3311956/files/plateHolder4.stl",
+ "16": "/Users/kdb424/Downloads/voron-v0-frame-brace-model_files/Frame Brace.stl",
+ "17": "/Applications/OrcaSlicer.app/Contents/Resources/calib/tolerance_test/OrcaToleranceTest.stl",
+ "18": "/Users/kdb424/Downloads/5.25_to_10x2.5v8.stl"
}
}
diff --git a/Library/Application Support/OrcaSlicer/system/BBL.json b/Library/Application Support/OrcaSlicer/system/BBL.json
index 4c70999..775288c 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL.json
@@ -1,7 +1,7 @@
{
"name": "Bambulab",
"url": "http://www.bambulab.com/Parameters/vendor/BBL.json",
- "version": "01.08.00.25",
+ "version": "01.09.00.14",
"force_update": "0",
"description": "the initial version of BBL configurations",
"machine_model_list": [
@@ -625,6 +625,10 @@
"name": "fdm_filament_pc",
"sub_path": "filament/fdm_filament_pc.json"
},
+ {
+ "name": "fdm_filament_pctg",
+ "sub_path": "filament/fdm_filament_pctg.json"
+ },
{
"name": "fdm_filament_asa",
"sub_path": "filament/fdm_filament_asa.json"
@@ -649,6 +653,26 @@
"name": "fdm_filament_ppa",
"sub_path": "filament/fdm_filament_ppa.json"
},
+ {
+ "name": "fdm_filament_pe",
+ "sub_path": "filament/fdm_filament_pe.json"
+ },
+ {
+ "name": "fdm_filament_pp",
+ "sub_path": "filament/fdm_filament_pp.json"
+ },
+ {
+ "name": "fdm_filament_eva",
+ "sub_path": "filament/fdm_filament_eva.json"
+ },
+ {
+ "name": "fdm_filament_pha",
+ "sub_path": "filament/fdm_filament_pha.json"
+ },
+ {
+ "name": "fdm_filament_bvoh",
+ "sub_path": "filament/fdm_filament_bvoh.json"
+ },
{
"name": "Bambu PLA Matte @base",
"sub_path": "filament/Bambu PLA Matte @base.json"
@@ -745,6 +769,10 @@
"name": "Bambu PLA Galaxy @base",
"sub_path": "filament/Bambu PLA Galaxy @base.json"
},
+ {
+ "name": "Bambu Support For PLA/PETG @base",
+ "sub_path": "filament/Bambu Support For PLA-PETG @base.json"
+ },
{
"name": "Bambu TPU 95A @base",
"sub_path": "filament/Bambu TPU 95A @base.json"
@@ -789,6 +817,10 @@
"name": "Bambu PETG Translucent @base",
"sub_path": "filament/Bambu PETG Translucent @base.json"
},
+ {
+ "name": "Generic PCTG @base",
+ "sub_path": "filament/Generic PCTG @base.json"
+ },
{
"name": "Bambu ABS @base",
"sub_path": "filament/Bambu ABS @base.json"
@@ -801,6 +833,10 @@
"name": "PolyLite ABS @base",
"sub_path": "filament/PolyLite ABS @base.json"
},
+ {
+ "name": "Bambu ABS-GF @base",
+ "sub_path": "filament/Bambu ABS-GF @base.json"
+ },
{
"name": "Bambu PC @base",
"sub_path": "filament/Bambu PC @base.json"
@@ -821,6 +857,10 @@
"name": "PolyLite ASA @base",
"sub_path": "filament/PolyLite ASA @base.json"
},
+ {
+ "name": "Bambu ASA-Aero @base",
+ "sub_path": "filament/Bambu ASA-Aero @base.json"
+ },
{
"name": "Generic PVA @base",
"sub_path": "filament/Generic PVA @base.json"
@@ -865,6 +905,10 @@
"name": "Bambu PA6-CF @base",
"sub_path": "filament/Bambu PA6-CF @base.json"
},
+ {
+ "name": "Bambu PA6-GF @base",
+ "sub_path": "filament/Bambu PA6-GF @base.json"
+ },
{
"name": "Generic HIPS @base",
"sub_path": "filament/Generic HIPS @base.json"
@@ -885,6 +929,38 @@
"name": "Generic PPA-GF @base",
"sub_path": "filament/Generic PPA-GF @base.json"
},
+ {
+ "name": "Generic PE @base",
+ "sub_path": "filament/Generic PE @base.json"
+ },
+ {
+ "name": "Generic PE-CF @base",
+ "sub_path": "filament/Generic PE-CF @base.json"
+ },
+ {
+ "name": "Generic PP @base",
+ "sub_path": "filament/Generic PP @base.json"
+ },
+ {
+ "name": "Generic PP-CF @base",
+ "sub_path": "filament/Generic PP-CF @base.json"
+ },
+ {
+ "name": "Generic PP-GF @base",
+ "sub_path": "filament/Generic PP-GF @base.json"
+ },
+ {
+ "name": "Generic EVA @base",
+ "sub_path": "filament/Generic EVA @base.json"
+ },
+ {
+ "name": "Generic PHA @base",
+ "sub_path": "filament/Generic PHA @base.json"
+ },
+ {
+ "name": "Generic BVOH @base",
+ "sub_path": "filament/Generic BVOH @base.json"
+ },
{
"name": "Bambu PLA Matte @BBL X1C",
"sub_path": "filament/Bambu PLA Matte @BBL X1C.json"
@@ -1553,6 +1629,38 @@
"name": "Bambu PLA Galaxy @BBL A1M 0.2 nozzle",
"sub_path": "filament/Bambu PLA Galaxy @BBL A1M 0.2 nozzle.json"
},
+ {
+ "name": "Bambu Support For PLA/PETG @BBL X1C",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL X1C.json"
+ },
+ {
+ "name": "Bambu Support For PLA/PETG @BBL X1C 0.2 nozzle",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL X1C 0.2 nozzle.json"
+ },
+ {
+ "name": "Bambu Support For PLA/PETG @BBL P1P",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL P1P.json"
+ },
+ {
+ "name": "Bambu Support For PLA/PETG @BBL P1P 0.2 nozzle",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL P1P 0.2 nozzle.json"
+ },
+ {
+ "name": "Bambu Support For PLA/PETG @BBL A1M",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL A1M.json"
+ },
+ {
+ "name": "Bambu Support For PLA/PETG @BBL A1M 0.2 nozzle",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL A1M 0.2 nozzle.json"
+ },
+ {
+ "name": "Bambu Support For PLA/PETG @BBL A1",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL A1.json"
+ },
+ {
+ "name": "Bambu Support For PLA/PETG @BBL A1 0.2 nozzle",
+ "sub_path": "filament/Bambu Support For PLA-PETG @BBL A1 0.2 nozzle.json"
+ },
{
"name": "Bambu TPU 95A @BBL X1C",
"sub_path": "filament/Bambu TPU 95A @BBL X1C.json"
@@ -1761,6 +1869,18 @@
"name": "Bambu PETG Translucent @BBL A1",
"sub_path": "filament/Bambu PETG Translucent @BBL A1.json"
},
+ {
+ "name": "Generic PCTG @BBL X1C",
+ "sub_path": "filament/Generic PCTG @BBL X1C.json"
+ },
+ {
+ "name": "Generic PCTG @BBL A1",
+ "sub_path": "filament/Generic PCTG @BBL A1.json"
+ },
+ {
+ "name": "Generic PCTG @BBL A1M",
+ "sub_path": "filament/Generic PCTG @BBL A1M.json"
+ },
{
"name": "Bambu ABS @BBL X1C",
"sub_path": "filament/Bambu ABS @BBL X1C.json"
@@ -1829,6 +1949,18 @@
"name": "PolyLite ABS @BBL A1 0.2 nozzle",
"sub_path": "filament/PolyLite ABS @BBL A1 0.2 nozzle.json"
},
+ {
+ "name": "Bambu ABS-GF @BBL X1C",
+ "sub_path": "filament/Bambu ABS-GF @BBL X1C.json"
+ },
+ {
+ "name": "Bambu ABS-GF @BBL P1P",
+ "sub_path": "filament/Bambu ABS-GF @BBL P1P.json"
+ },
+ {
+ "name": "Bambu ABS-GF @BBL A1",
+ "sub_path": "filament/Bambu ABS-GF @BBL A1.json"
+ },
{
"name": "Bambu PC @BBL X1C",
"sub_path": "filament/Bambu PC @BBL X1C.json"
@@ -1957,6 +2089,18 @@
"name": "PolyLite ASA @BBL A1",
"sub_path": "filament/PolyLite ASA @BBL A1.json"
},
+ {
+ "name": "Bambu ASA-Aero @BBL X1C",
+ "sub_path": "filament/Bambu ASA-Aero @BBL X1C.json"
+ },
+ {
+ "name": "Bambu ASA-Aero @BBL P1P",
+ "sub_path": "filament/Bambu ASA-Aero @BBL P1P.json"
+ },
+ {
+ "name": "Bambu ASA-Aero @BBL A1",
+ "sub_path": "filament/Bambu ASA-Aero @BBL A1.json"
+ },
{
"name": "Generic PVA @0.2 nozzle",
"sub_path": "filament/Generic PVA @0.2 nozzle.json"
@@ -2093,6 +2237,18 @@
"name": "Bambu PA6-CF @BBL A1",
"sub_path": "filament/Bambu PA6-CF @BBL A1.json"
},
+ {
+ "name": "Bambu PA6-GF @BBL X1C",
+ "sub_path": "filament/Bambu PA6-GF @BBL X1C.json"
+ },
+ {
+ "name": "Bambu PA6-GF @BBL P1P",
+ "sub_path": "filament/Bambu PA6-GF @BBL P1P.json"
+ },
+ {
+ "name": "Bambu PA6-GF @BBL A1",
+ "sub_path": "filament/Bambu PA6-GF @BBL A1.json"
+ },
{
"name": "Generic HIPS @BBL X1C",
"sub_path": "filament/Generic HIPS @BBL X1C.json"
@@ -2141,6 +2297,94 @@
"name": "Generic PPA-GF @BBL X1E",
"sub_path": "filament/Generic PPA-GF @BBL X1E.json"
},
+ {
+ "name": "Generic PE @BBL X1C",
+ "sub_path": "filament/Generic PE @BBL X1C.json"
+ },
+ {
+ "name": "Generic PE @BBL A1",
+ "sub_path": "filament/Generic PE @BBL A1.json"
+ },
+ {
+ "name": "Generic PE @BBL A1M",
+ "sub_path": "filament/Generic PE @BBL A1M.json"
+ },
+ {
+ "name": "Generic PE-CF @BBL X1C",
+ "sub_path": "filament/Generic PE-CF @BBL X1C.json"
+ },
+ {
+ "name": "Generic PE-CF @BBL A1",
+ "sub_path": "filament/Generic PE-CF @BBL A1.json"
+ },
+ {
+ "name": "Generic PE-CF @BBL A1M",
+ "sub_path": "filament/Generic PE-CF @BBL A1M.json"
+ },
+ {
+ "name": "Generic PP @BBL X1C",
+ "sub_path": "filament/Generic PP @BBL X1C.json"
+ },
+ {
+ "name": "Generic PP @BBL A1",
+ "sub_path": "filament/Generic PP @BBL A1.json"
+ },
+ {
+ "name": "Generic PP @BBL A1M",
+ "sub_path": "filament/Generic PP @BBL A1M.json"
+ },
+ {
+ "name": "Generic PP-CF @BBL X1C",
+ "sub_path": "filament/Generic PP-CF @BBL X1C.json"
+ },
+ {
+ "name": "Generic PP-CF @BBL A1",
+ "sub_path": "filament/Generic PP-CF @BBL A1.json"
+ },
+ {
+ "name": "Generic PP-GF @BBL X1C",
+ "sub_path": "filament/Generic PP-GF @BBL X1C.json"
+ },
+ {
+ "name": "Generic PP-GF @BBL A1",
+ "sub_path": "filament/Generic PP-GF @BBL A1.json"
+ },
+ {
+ "name": "Generic EVA @BBL X1C",
+ "sub_path": "filament/Generic EVA @BBL X1C.json"
+ },
+ {
+ "name": "Generic EVA @BBL A1",
+ "sub_path": "filament/Generic EVA @BBL A1.json"
+ },
+ {
+ "name": "Generic EVA @BBL A1M",
+ "sub_path": "filament/Generic EVA @BBL A1M.json"
+ },
+ {
+ "name": "Generic PHA @BBL X1C",
+ "sub_path": "filament/Generic PHA @BBL X1C.json"
+ },
+ {
+ "name": "Generic PHA @BBL A1M",
+ "sub_path": "filament/Generic PHA @BBL A1M.json"
+ },
+ {
+ "name": "Generic PHA @BBL A1",
+ "sub_path": "filament/Generic PHA @BBL A1.json"
+ },
+ {
+ "name": "Generic BVOH @BBL X1C",
+ "sub_path": "filament/Generic BVOH @BBL X1C.json"
+ },
+ {
+ "name": "Generic BVOH @BBL A1M",
+ "sub_path": "filament/Generic BVOH @BBL A1M.json"
+ },
+ {
+ "name": "Generic BVOH @BBL A1",
+ "sub_path": "filament/Generic BVOH @BBL A1.json"
+ },
{
"name": "PolyTerra PLA @BBL X1C 0.2 nozzle",
"sub_path": "filament/PolyTerra PLA @BBL X1C 0.2 nozzle.json"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.2 nozzle.json
index 3949e18..f21efe7 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.2 nozzle.json
@@ -5,9 +5,15 @@
"from": "system",
"setting_id": "GFSB00_00",
"instantiation": "true",
+ "fan_max_speed": [
+ "60"
+ ],
"filament_max_volumetric_speed": [
"2"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
"Bambu Lab X1 0.2 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.8 nozzle.json
index 10bfd25..6145a91 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C 0.8 nozzle.json
@@ -5,12 +5,18 @@
"from": "system",
"setting_id": "GFSB00_01",
"instantiation": "true",
+ "fan_max_speed": [
+ "60"
+ ],
"filament_max_volumetric_speed": [
"18"
],
"nozzle_temperature": [
"260"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"slow_down_min_speed": [
"10"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C.json
index 80f4f7c..88ad1a4 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ABS @BBL X1C.json
@@ -5,9 +5,15 @@
"from": "system",
"setting_id": "GFSB00",
"instantiation": "true",
+ "fan_max_speed": [
+ "60"
+ ],
"filament_max_volumetric_speed": [
"16"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.2 nozzle.json
index abaa62c..90b80ac 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.2 nozzle.json
@@ -5,9 +5,6 @@
"from": "system",
"setting_id": "GFSB01_03",
"instantiation": "true",
- "fan_max_speed": [
- "80"
- ],
"filament_max_volumetric_speed": [
"2"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.6 nozzle.json
index e98e027..5e6a678 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1 0.6 nozzle.json
@@ -5,9 +5,6 @@
"from": "system",
"setting_id": "GFSB01_04",
"instantiation": "true",
- "fan_max_speed": [
- "90"
- ],
"fan_min_speed": [
"25"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1C.json
index 5693a2c..4c9c47f 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @BBL X1C.json
@@ -8,9 +8,6 @@
"fan_min_speed": [
"25"
],
- "fan_max_speed": [
- "90"
- ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.6 nozzle",
"Bambu Lab X1 Carbon 0.8 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @base.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @base.json
index 4eb5718..7ae3050 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @base.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu ASA @base.json
@@ -5,28 +5,31 @@
"from": "system",
"filament_id": "GFB01",
"instantiation": "false",
- "filament_density": [
- "1.05"
+ "fan_max_speed": [
+ "35"
],
"filament_cost": [
"31.99"
],
- "nozzle_temperature_initial_layer": [
- "270"
- ],
- "nozzle_temperature": [
- "270"
+ "filament_density": [
+ "1.05"
],
"filament_flow_ratio": [
"0.95"
],
- "fan_max_speed": [
- "50"
- ],
"filament_max_volumetric_speed": [
"18"
],
"filament_vendor": [
"Bambu Lab"
+ ],
+ "nozzle_temperature": [
+ "270"
+ ],
+ "nozzle_temperature_initial_layer": [
+ "270"
+ ],
+ "slow_down_layer_time": [
+ "12"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.2 nozzle.json
index 31d13f4..fd33b77 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.2 nozzle.json
@@ -5,12 +5,18 @@
"from": "system",
"setting_id": "GFSC00_02",
"instantiation": "true",
+ "fan_max_speed": [
+ "40"
+ ],
"filament_max_volumetric_speed": [
"1"
],
"nozzle_temperature": [
"260"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
"Bambu Lab X1 0.2 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.6 nozzle.json
index 3b5399e..ec8d95d 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.6 nozzle.json
@@ -5,9 +5,15 @@
"from": "system",
"setting_id": "GFSC00_01",
"instantiation": "true",
+ "fan_max_speed": [
+ "40"
+ ],
"nozzle_temperature": [
"260"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.6 nozzle",
"Bambu Lab X1 0.6 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.8 nozzle.json
index b1cc742..6cd58cc 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C 0.8 nozzle.json
@@ -5,9 +5,15 @@
"from": "system",
"setting_id": "GFSC00_00",
"instantiation": "true",
+ "fan_max_speed": [
+ "40"
+ ],
"nozzle_temperature": [
"260"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.8 nozzle",
"Bambu Lab X1 0.8 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C.json
index 7ee2131..cccf6aa 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PC @BBL X1C.json
@@ -5,6 +5,12 @@
"from": "system",
"setting_id": "GFSC00",
"instantiation": "true",
+ "fan_max_speed": [
+ "40"
+ ],
+ "slow_down_layer_time": [
+ "12"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.2 nozzle.json
index c7dd992..24857fa 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.2 nozzle.json
@@ -8,6 +8,12 @@
"filament_max_volumetric_speed": [
"1"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
"Bambu Lab X1 0.2 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.8 nozzle.json
index 0a24cb5..73d7aab 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C 0.8 nozzle.json
@@ -11,6 +11,12 @@
"fan_min_speed": [
"20"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"filament_max_volumetric_speed": [
"16"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C.json
index d68745b..18b87c5 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PETG Basic @BBL X1C.json
@@ -8,6 +8,12 @@
"filament_max_volumetric_speed": [
"13"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Aero @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Aero @BBL X1C.json
index f316058..fd83a7d 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Aero @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Aero @BBL X1C.json
@@ -21,5 +21,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1.json
index 3a70c80..6f01602 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1.json
@@ -8,6 +8,12 @@
"filament_max_volumetric_speed": [
"21"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"slow_down_layer_time": [
"8"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.2 nozzle.json
index ddaeb7a..0ef0264 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.2 nozzle.json
@@ -5,6 +5,12 @@
"from": "system",
"setting_id": "GFSA00_00",
"instantiation": "true",
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"filament_max_volumetric_speed": [
"2"
],
@@ -13,5 +19,8 @@
"Bambu Lab X1 0.2 nozzle",
"Bambu Lab P1S 0.2 nozzle",
"Bambu Lab X1E 0.2 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.8 nozzle.json
index d8d8307..671e010 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C 0.8 nozzle.json
@@ -8,9 +8,18 @@
"filament_max_volumetric_speed": [
"21"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.8 nozzle",
"Bambu Lab P1S 0.8 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C.json
index 2cb005d..8619d45 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Basic @BBL X1C.json
@@ -8,6 +8,12 @@
"filament_max_volumetric_speed": [
"21"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 Carbon 0.6 nozzle",
@@ -15,5 +21,8 @@
"Bambu Lab P1S 0.6 nozzle",
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Impact @base.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Impact @base.json
index 7cdc6f3..029a5f6 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Impact @base.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Impact @base.json
@@ -5,13 +5,16 @@
"from": "system",
"filament_id": "GFA03",
"instantiation": "false",
- "filament_vendor": [
- "Bambu Lab"
- ],
"filament_cost": [
"25.4"
],
"filament_flow_ratio": [
"0.95"
+ ],
+ "filament_vendor": [
+ "Bambu Lab"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Marble @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Marble @BBL X1C.json
index 4199fd9..29592f9 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Marble @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Marble @BBL X1C.json
@@ -15,5 +15,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1.json
index 7721eac..c0b3df5 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1.json
@@ -15,5 +15,8 @@
"Bambu Lab X1 0.4 nozzle",
"Bambu Lab X1 0.6 nozzle",
"Bambu Lab X1 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.2 nozzle.json
index 824e96a..04b51f8 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.2 nozzle.json
@@ -13,5 +13,8 @@
"Bambu Lab X1 0.2 nozzle",
"Bambu Lab P1S 0.2 nozzle",
"Bambu Lab X1E 0.2 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.8 nozzle.json
index 7e2d1f4..fc0962c 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C 0.8 nozzle.json
@@ -12,5 +12,8 @@
"Bambu Lab X1 Carbon 0.8 nozzle",
"Bambu Lab P1S 0.8 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C.json
index a7e1e76..0987393 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Matte @BBL X1C.json
@@ -15,5 +15,8 @@
"Bambu Lab P1S 0.6 nozzle",
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C 0.2 nozzle.json
index 7ed6ab8..8a1934d 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C 0.2 nozzle.json
@@ -13,5 +13,8 @@
"Bambu Lab X1 0.2 nozzle",
"Bambu Lab P1S 0.2 nozzle",
"Bambu Lab X1E 0.2 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C.json
index 91995ef..81e5b51 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Metal @BBL X1C.json
@@ -18,5 +18,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C 0.2 nozzle.json
index 85c560f..31478a9 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C 0.2 nozzle.json
@@ -13,5 +13,8 @@
"Bambu Lab X1 0.2 nozzle",
"Bambu Lab P1S 0.2 nozzle",
"Bambu Lab X1E 0.2 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C.json
index 5d75934..33d9312 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Silk @BBL X1C.json
@@ -15,5 +15,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Sparkle @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Sparkle @BBL X1C.json
index fdc02d0..40ef931 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Sparkle @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Sparkle @BBL X1C.json
@@ -15,5 +15,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C 0.2 nozzle.json
index eb6f63a..ea19cfc 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C 0.2 nozzle.json
@@ -13,5 +13,8 @@
"Bambu Lab X1 0.2 nozzle",
"Bambu Lab P1S 0.2 nozzle",
"Bambu Lab X1E 0.2 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C.json
index 418cc8f..d2b9a46 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA Tough @BBL X1C.json
@@ -18,5 +18,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C 0.8 nozzle.json
index 3b5c25a..2042375 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C 0.8 nozzle.json
@@ -23,5 +23,8 @@
"Bambu Lab P1S 0.8 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C.json
index c917e07..2e4aa2e 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Bambu PLA-CF @BBL X1C.json
@@ -19,5 +19,8 @@
"Bambu Lab X1 0.4 nozzle",
"Bambu Lab P1S 0.4 nozzle",
"Bambu Lab X1E 0.4 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\nM142 P1 R35 S40\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA High Speed @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA High Speed @BBL X1C.json
index f2e6828..7263d42 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA High Speed @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA High Speed @BBL X1C.json
@@ -21,5 +21,8 @@
"Bambu Lab P1S 0.8 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA Silk.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA Silk.json
index c1011d7..40fa7b2 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA Silk.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Generic PLA Silk.json
@@ -24,5 +24,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1.json
index cedb6ba..ba16728 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1.json
@@ -12,5 +12,8 @@
"Bambu Lab X1 0.6 nozzle",
"Bambu Lab X1 0.8 nozzle",
"Bambu Lab X1 0.4 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1C.json
index 7d5a7ec..bdfcdee 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture Matte PLA @BBL X1C.json
@@ -15,5 +15,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1.json
index c36384a..28b917c 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1.json
@@ -12,5 +12,8 @@
"Bambu Lab X1 0.4 nozzle",
"Bambu Lab X1 0.8 nozzle",
"Bambu Lab X1 0.6 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1C.json
index 15c06a2..62a0d4d 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/Overture PLA @BBL X1C.json
@@ -15,5 +15,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P 0.2 nozzle.json
index e703e3d..f99a91c 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P 0.2 nozzle.json
@@ -20,6 +20,9 @@
"reduce_fan_stop_start_freq": [
"0"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"textured_plate_temp": [
"100"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P.json
index b1206b1..63d6bb3 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu ABS @BBL P1P.json
@@ -20,6 +20,9 @@
"reduce_fan_stop_start_freq": [
"0"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"textured_plate_temp": [
"100"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P 0.2 nozzle.json
index b4bcf75..bbf4b7e 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P 0.2 nozzle.json
@@ -29,6 +29,9 @@
"reduce_fan_stop_start_freq": [
"0"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"textured_plate_temp": [
"100"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P.json
index a34eef3..2a57694 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PC @BBL P1P.json
@@ -23,6 +23,9 @@
"reduce_fan_stop_start_freq": [
"0"
],
+ "slow_down_layer_time": [
+ "12"
+ ],
"textured_plate_temp": [
"100"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P 0.2 nozzle.json
index 815cca5..bca893a 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P 0.2 nozzle.json
@@ -11,6 +11,12 @@
"fan_min_speed": [
"50"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"filament_max_volumetric_speed": [
"2"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P.json
index d64ab7e..a54e7be 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/Bambu PLA Basic @BBL P1P.json
@@ -8,6 +8,12 @@
"fan_cooling_layer_time": [
"80"
],
+ "filament_long_retractions_when_cut": [
+ "1"
+ ],
+ "filament_retraction_distances_when_cut": [
+ "18"
+ ],
"fan_min_speed": [
"50"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/PolyTerra PLA @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/PolyTerra PLA @BBL P1P.json
index 7504020..5728ac0 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/PolyTerra PLA @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/P1P/PolyTerra PLA @BBL P1P.json
@@ -33,5 +33,8 @@
"Bambu Lab P1P 0.4 nozzle",
"Bambu Lab P1P 0.6 nozzle",
"Bambu Lab P1P 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1.json
index 4ed5821..77a037e 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1.json
@@ -15,5 +15,8 @@
"Bambu Lab X1 0.4 nozzle",
"Bambu Lab X1 0.6 nozzle",
"Bambu Lab X1 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1C.json
index c9c27d9..a240217 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyLite PLA @BBL X1C.json
@@ -18,5 +18,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1.json
index d3fd225..46e2144 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1.json
@@ -15,5 +15,8 @@
"Bambu Lab X1 0.4 nozzle",
"Bambu Lab X1 0.6 nozzle",
"Bambu Lab X1 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1C.json
index c344443..7237849 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/PolyTerra PLA @BBL X1C.json
@@ -18,5 +18,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab X1E 0.8 nozzle"
+ ],
+ "filament_start_gcode": [
+ "; filament start gcode\n{if (bed_temperature[current_extruder] >55)||(bed_temperature_initial_layer[current_extruder] >55)}M106 P3 S200\n{elsif(bed_temperature[current_extruder] >50)||(bed_temperature_initial_layer[current_extruder] >50)}M106 P3 S150\n{elsif(bed_temperature[current_extruder] >45)||(bed_temperature_initial_layer[current_extruder] >45)}M106 P3 S50\n{endif}\n\n{if activate_air_filtration[current_extruder] && support_air_filtration}\nM106 P3 S{during_print_exhaust_fan_speed_num[current_extruder]} \n{endif}"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_abs.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_abs.json
index 461dd5e..74eb871 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_abs.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_abs.json
@@ -5,7 +5,7 @@
"from": "system",
"instantiation": "false",
"activate_air_filtration": [
- "1"
+ "0"
],
"cool_plate_temp": [
"0"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_asa.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_asa.json
index ac7a929..a0da767 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_asa.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_asa.json
@@ -5,7 +5,7 @@
"from": "system",
"instantiation": "false",
"activate_air_filtration": [
- "1"
+ "0"
],
"cool_plate_temp": [
"0"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_common.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_common.json
index 6f1291c..6ec95db 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_common.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_common.json
@@ -57,6 +57,9 @@
"filament_is_support": [
"0"
],
+ "filament_long_retractions_when_cut": [
+ "nil"
+ ],
"filament_max_volumetric_speed": [
"0"
],
@@ -72,6 +75,9 @@
"filament_retract_when_changing_layer": [
"nil"
],
+ "filament_retraction_distances_when_cut": [
+ "nil"
+ ],
"filament_retraction_length": [
"nil"
],
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_pc.json b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_pc.json
index 5729114..03bc9e5 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_pc.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/filament/fdm_filament_pc.json
@@ -7,76 +7,76 @@
"cool_plate_temp": [
"0"
],
- "eng_plate_temp": [
- "110"
- ],
- "hot_plate_temp": [
- "110"
- ],
- "textured_plate_temp": [
- "110"
- ],
"cool_plate_temp_initial_layer": [
"0"
],
+ "eng_plate_temp": [
+ "110"
+ ],
"eng_plate_temp_initial_layer": [
"110"
],
- "hot_plate_temp_initial_layer": [
- "110"
- ],
- "textured_plate_temp_initial_layer": [
- "110"
- ],
"fan_cooling_layer_time": [
"30"
],
- "filament_max_volumetric_speed": [
- "23.2"
- ],
- "filament_type": [
- "PC"
- ],
- "filament_density": [
- "1.04"
- ],
- "filament_cost": [
- "20"
- ],
- "nozzle_temperature_initial_layer": [
- "270"
- ],
- "reduce_fan_stop_start_freq": [
- "1"
- ],
"fan_max_speed": [
"60"
],
"fan_min_speed": [
"10"
],
- "overhang_fan_threshold": [
- "25%"
+ "filament_cost": [
+ "20"
],
- "overhang_fan_speed": [
- "60"
+ "filament_density": [
+ "1.04"
+ ],
+ "filament_max_volumetric_speed": [
+ "18"
+ ],
+ "filament_type": [
+ "PC"
+ ],
+ "hot_plate_temp": [
+ "110"
+ ],
+ "hot_plate_temp_initial_layer": [
+ "110"
],
"nozzle_temperature": [
"280"
],
- "temperature_vitrification": [
- "120"
- ],
- "nozzle_temperature_range_low": [
- "260"
+ "nozzle_temperature_initial_layer": [
+ "270"
],
"nozzle_temperature_range_high": [
"290"
],
- "slow_down_min_speed": [
- "20"
+ "nozzle_temperature_range_low": [
+ "260"
+ ],
+ "overhang_fan_speed": [
+ "60"
+ ],
+ "overhang_fan_threshold": [
+ "25%"
+ ],
+ "reduce_fan_stop_start_freq": [
+ "1"
],
"slow_down_layer_time": [
"2"
+ ],
+ "slow_down_min_speed": [
+ "20"
+ ],
+ "temperature_vitrification": [
+ "120"
+ ],
+ "textured_plate_temp": [
+ "110"
+ ],
+ "textured_plate_temp_initial_layer": [
+ "110"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.2 nozzle.json
index 6252662..e13f52b 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.2 nozzle.json
@@ -30,5 +30,5 @@
"Bambu Lab X1E 0.2 nozzle",
"Bambu Lab A1 0.2 nozzle"
],
- "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z-0.04 ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression"
+ "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z-0.04 ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.4 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.4 nozzle.json
index d7e4726..b947c06 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.4 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.4 nozzle.json
@@ -21,11 +21,13 @@
"Bambu PLA Basic @BBL X1"
],
"default_print_profile": "0.20mm Standard @BBL P1P",
+ "enable_long_retraction_when_cut": "2",
"extruder_offset": [
"0x2"
],
"machine_load_filament_time": "29",
"machine_unload_filament_time": "28",
+ "nozzle_height": "4.2",
"nozzle_type": "stainless_steel",
"scan_first_layer": "0",
"upward_compatible_machine": [
@@ -35,7 +37,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab A1 0.4 nozzle"
],
- "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression",
+ "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression",
+ "machine_end_gcode": ";===== date: 20230428 =====================\nM400 ; wait for buffer to clear\nG92 E0 ; zero the extruder\nG1 E-0.8 F1800 ; retract\nG1 Z{max_layer_z + 0.5} F900 ; lower z a little\nG1 X65 Y245 F12000 ; move to safe pos \nG1 Y265 F3000\n\nG1 X65 Y245 F12000\nG1 Y265 F3000\nM140 S0 ; turn off bed\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off remote part cooling fan\nM106 P3 S0 ; turn off chamber cooling fan\n\nG1 X100 F12000 ; wipe\n; pull back filament to AMS\nM620 S255\nG1 X20 Y50 F12000\nG1 Y-3\nT255\nG1 X65 F12000\nG1 Y265\nG1 X100 F12000 ; wipe\nM621 S255\nM104 S0 ; turn off hotend\n\nM622.1 S1 ; for prev firware, default turned on\nM1002 judge_flag timelapse_record_flag\nM622 J1\n M400 ; wait all motion done\n M991 S0 P-1 ;end smooth timelapse at safe pos\n M400 S3 ;wait for last picture to be taken\nM623; end of \"timelapse_record_flag\"\n\nM400 ; wait all motion done\nM17 S\nM17 Z0.4 ; lower z motor current to reduce impact if there is something in the bottom\n{if (max_layer_z + 100.0) < 250}\n G1 Z{max_layer_z + 100.0} F600\n G1 Z{max_layer_z +98.0}\n{else}\n G1 Z250 F600\n G1 Z248\n{endif}\nM400 P100\nM17 R ; restore z current\n\nM220 S100 ; Reset feedrate magnitude\nM201.2 K1.0 ; Reset acc magnitude\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 0\n\nM17 X0.8 Y0.8 Z0.5 ; lower motor current to 45% power\n",
"layer_change_gcode": "; layer num/total_layer_count: {layer_num+1}/[total_layer_count]\nM622.1 S1 ; for prev firware, default turned on\nM1002 judge_flag timelapse_record_flag\nM622 J1\n{if timelapse_type == 0} ; timelapse without wipe tower\nM971 S11 C10 O0\n{elsif timelapse_type == 1} ; timelapse with wipe tower\nG92 E0\nG1 E-[retraction_length] F1800\nG17\nG2 Z{layer_z + 0.4} I0.86 J0.86 P1 F20000 ; spiral lift a little\nG1 X65 Y245 F20000 ; move to safe pos\nG17\nG2 Z{layer_z} I0.86 J0.86 P1 F20000\nG1 Y265 F3000\nM400 P300\nM971 S11 C11 O0\nG92 E0\nG1 E[retraction_length] F300\nG1 X100 F5000\nG1 Y255 F20000\n{endif}\nM623\n; update layer progress\nM73 L{layer_num+1}\nM991 S0 P{layer_num} ;notify layer change",
- "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\n\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\nM400\n\nG92 E0\n{if flush_length_1 > 1}\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S220\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\n{if (flush_length_2 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_3 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_4 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
+ "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E-{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\n{else}\nM620.11 S0\n{endif}\nM400\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\nM628 S1\nG92 E0\nG1 E{retraction_distances_when_cut[previous_extruder]} F[old_filament_e_feedrate]\nM400\nM629 S1\n{else}\nM620.11 S0\n{endif}\nG92 E0\n{if flush_length_1 > 1}\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S260\n{elsif filament_type[next_extruder] == \"PVA\"}\nM109 S210\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.6 nozzle.json
index 528dcad..f29aeb7 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.6 nozzle.json
@@ -34,5 +34,5 @@
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab A1 0.6 nozzle"
],
- "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression"
+ "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.8 nozzle.json
index 1ae5c22..10bafbd 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1P 0.8 nozzle.json
@@ -34,5 +34,5 @@
"Bambu Lab X1E 0.8 nozzle",
"Bambu Lab A1 0.8 nozzle"
],
- "machine_start_gcode": ";===== machine: P1P ========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression"
+ "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ; turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.2 nozzle.json
index 8e02124..8ebf4fe 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.2 nozzle.json
@@ -30,5 +30,5 @@
"Bambu Lab X1E 0.2 nozzle",
"Bambu Lab A1 0.2 nozzle"
],
- "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z-0.04 ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
+ "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {elsif (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z-0.04 ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.4 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.4 nozzle.json
index 8da15f1..5cee189 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.4 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.4 nozzle.json
@@ -20,11 +20,13 @@
"Bambu PLA Basic @BBL X1C"
],
"default_print_profile": "0.20mm Standard @BBL X1C",
+ "enable_long_retraction_when_cut": "2",
"extruder_offset": [
"0x2"
],
"machine_load_filament_time": "29",
"machine_unload_filament_time": "28",
+ "nozzle_height": "4.2",
"nozzle_type": "stainless_steel",
"scan_first_layer": "0",
"upward_compatible_machine": [
@@ -34,7 +36,8 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab A1 0.4 nozzle"
],
- "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n",
+ "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n",
+ "machine_end_gcode": ";===== date: 20230428 =====================\nM400 ; wait for buffer to clear\nG92 E0 ; zero the extruder\nG1 E-0.8 F1800 ; retract\nG1 Z{max_layer_z + 0.5} F900 ; lower z a little\nG1 X65 Y245 F12000 ; move to safe pos \nG1 Y265 F3000\n\nG1 X65 Y245 F12000\nG1 Y265 F3000\nM140 S0 ; turn off bed\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off remote part cooling fan\nM106 P3 S0 ; turn off chamber cooling fan\n\nG1 X100 F12000 ; wipe\n; pull back filament to AMS\nM620 S255\nG1 X20 Y50 F12000\nG1 Y-3\nT255\nG1 X65 F12000\nG1 Y265\nG1 X100 F12000 ; wipe\nM621 S255\nM104 S0 ; turn off hotend\n\nM622.1 S1 ; for prev firware, default turned on\nM1002 judge_flag timelapse_record_flag\nM622 J1\n M400 ; wait all motion done\n M991 S0 P-1 ;end smooth timelapse at safe pos\n M400 S3 ;wait for last picture to be taken\nM623; end of \"timelapse_record_flag\"\n\nM400 ; wait all motion done\nM17 S\nM17 Z0.4 ; lower z motor current to reduce impact if there is something in the bottom\n{if (max_layer_z + 100.0) < 250}\n G1 Z{max_layer_z + 100.0} F600\n G1 Z{max_layer_z +98.0}\n{else}\n G1 Z250 F600\n G1 Z248\n{endif}\nM400 P100\nM17 R ; restore z current\n\nM220 S100 ; Reset feedrate magnitude\nM201.2 K1.0 ; Reset acc magnitude\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 0\n\nM17 X0.8 Y0.8 Z0.5 ; lower motor current to 45% power\n",
"layer_change_gcode": "; layer num/total_layer_count: {layer_num+1}/[total_layer_count]\nM622.1 S1 ; for prev firware, default turned on\nM1002 judge_flag timelapse_record_flag\nM622 J1\n{if timelapse_type == 0} ; timelapse without wipe tower\nM971 S11 C10 O0\n{elsif timelapse_type == 1} ; timelapse with wipe tower\nG92 E0\nG1 E-[retraction_length] F1800\nG17\nG2 Z{layer_z + 0.4} I0.86 J0.86 P1 F20000 ; spiral lift a little\nG1 X65 Y245 F20000 ; move to safe pos\nG17\nG2 Z{layer_z} I0.86 J0.86 P1 F20000\nG1 Y265 F3000\nM400 P300\nM971 S11 C11 O0\nG92 E0\nG1 E[retraction_length] F300\nG1 X100 F5000\nG1 Y255 F20000\n{endif}\nM623\n; update layer progress\nM73 L{layer_num+1}\nM991 S0 P{layer_num} ;notify layer change",
- "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\n\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\nM400\n\nG92 E0\n{if flush_length_1 > 1}\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S220\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\n{if (flush_length_2 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_3 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_4 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
+ "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E-{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\n{else}\nM620.11 S0\n{endif}\nM400\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\nM628 S1\nG92 E0\nG1 E{retraction_distances_when_cut[previous_extruder]} F[old_filament_e_feedrate]\nM400\nM629 S1\n{else}\nM620.11 S0\n{endif}\nG92 E0\n{if flush_length_1 > 1}\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S260\n{elsif filament_type[next_extruder] == \"PVA\"}\nM109 S210\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.6 nozzle.json
index 058eae3..e935d66 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.6 nozzle.json
@@ -34,5 +34,5 @@
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab A1 0.6 nozzle"
],
- "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
+ "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ;turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {elsif (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X18 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.8 nozzle.json
index ae62841..49cbe6e 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab P1S 0.8 nozzle.json
@@ -34,5 +34,5 @@
"Bambu Lab X1E 0.8 nozzle",
"Bambu Lab A1 0.8 nozzle"
],
- "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ; turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
+ "machine_start_gcode": ";===== machine: P1S ========================\n;===== date: 20231107 =====================\n;===== turn on the HB fan & MC board fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\nM710 A1 S255 ; turn on MC fan by default(P1S)\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X230 Y15\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_extruder]==\"PLA\"}\n {if (bed_temperature[initial_extruder] >50)||(bed_temperature_initial_layer[initial_extruder] >50)}\n M106 P3 S255\n {elsif (bed_temperature[initial_extruder] >45)||(bed_temperature_initial_layer[initial_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n\nM104 S{nozzle_temperature_initial_layer[initial_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== fmech mode fast check============================\n\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y15 E1.500 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.500\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X18 E15\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.2 nozzle.json
index af54617..9c1127e 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.2 nozzle.json
@@ -30,5 +30,5 @@
"Bambu Lab X1E 0.2 nozzle",
"Bambu Lab A1 0.2 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4"
+ "machine_start_gcode": ";===== machine: X1 ====================\n;===== date: 20240528 ==================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.4 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.4 nozzle.json
index 22c7cf4..9d9f5ea 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.4 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.4 nozzle.json
@@ -21,11 +21,13 @@
"Bambu PLA Basic @BBL X1"
],
"default_print_profile": "0.20mm Standard @BBL X1C",
+ "enable_long_retraction_when_cut": "2",
"extruder_offset": [
"0x2"
],
"machine_load_filament_time": "29",
"machine_unload_filament_time": "28",
+ "nozzle_height": "4.2",
"nozzle_type": "stainless_steel",
"scan_first_layer": "1",
"upward_compatible_machine": [
@@ -35,6 +37,7 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab A1 0.4 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.040\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.020\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4",
- "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\n\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\nM400\n\nG92 E0\n{if flush_length_1 > 1}\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S220\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\n{if (flush_length_2 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_3 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_4 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
+ "machine_start_gcode": ";===== machine: X1 ====================\n;===== date: 20240528 ==================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.040\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.020\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4\n",
+ "machine_end_gcode": ";===== date: 20240528 =====================\nM400 ; wait for buffer to clear\nG92 E0 ; zero the extruder\nG1 E-0.8 F1800 ; retract\nG1 Z{max_layer_z + 0.5} F900 ; lower z a little\nG1 X65 Y245 F12000 ; move to safe pos\nG1 Y265 F3000\n\nG1 X65 Y245 F12000\nG1 Y265 F3000\nM140 S0 ; turn off bed\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off remote part cooling fan\nM106 P3 S0 ; turn off chamber cooling fan\n\nG1 X100 F12000 ; wipe\n; pull back filament to AMS\nM620 S255\nG1 X20 Y50 F12000\nG1 Y-3\nT255\nG1 X65 F12000\nG1 Y265\nG1 X100 F12000 ; wipe\nM621 S255\nM104 S0 ; turn off hotend\n\nM622.1 S1 ; for prev firware, default turned on\nM1002 judge_flag timelapse_record_flag\nM622 J1\n M400 ; wait all motion done\n M991 S0 P-1 ;end smooth timelapse at safe pos\n M400 S3 ;wait for last picture to be taken\nM623; end of \"timelapse_record_flag\"\n\nM400 ; wait all motion done\nM17 S\nM17 Z0.4 ; lower z motor current to reduce impact if there is something in the bottom\n{if (max_layer_z + 100.0) < 250}\n G1 Z{max_layer_z + 100.0} F600\n G1 Z{max_layer_z +98.0}\n{else}\n G1 Z250 F600\n G1 Z248\n{endif}\nM400 P100\nM17 R ; restore z current\n\nM220 S100 ; Reset feedrate magnitude\nM201.2 K1.0 ; Reset acc magnitude\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 0\n;=====printer finish sound=========\nM17\nM400 S1\nM1006 S1\nM1006 A0 B20 L100 C37 D20 M40 E42 F20 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C46 D10 M80 E46 F10 N80\nM1006 A44 B20 L100 C39 D20 M60 E48 F20 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C39 D10 M60 E39 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C39 D10 M60 E39 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C48 D10 M60 E44 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A49 B20 L100 C44 D20 M100 E41 F20 N100\nM1006 A0 B20 L100 C0 D20 M60 E0 F20 N100\nM1006 A0 B20 L100 C37 D20 M30 E37 F20 N60\nM1006 W\n\nM17 X0.8 Y0.8 Z0.5 ; lower motor current to 45% power\nM960 S5 P0 ; turn off logo lamp\n",
+ "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E-{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\n{else}\nM620.11 S0\n{endif}\nM400\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\nM628 S1\nG92 E0\nG1 E{retraction_distances_when_cut[previous_extruder]} F[old_filament_e_feedrate]\nM400\nM629 S1\n{else}\nM620.11 S0\n{endif}\nG92 E0\n{if flush_length_1 > 1}\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S260\n{elsif filament_type[next_extruder] == \"PVA\"}\nM109 S210\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.6 nozzle.json
index 34b6e18..ec5a3b1 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.6 nozzle.json
@@ -34,5 +34,5 @@
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab A1 0.6 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X231 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.333\n G0 F1200.0 X226 Y15 Z0.2 E0.495\n G0 F1200.0 X226 Y8 Z0.2 E0.691\n G0 F1200.0 X216 Y8 Z0.2 E0.988\n G0 F1200.0 X216 Y1.5 Z0.2 E0.642\n\n G0 X48.0 E20.56 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.56 F1200.0\n G0 X35.0 Y6.0 E1.75 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E23.9 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4"
+ "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20240528 =====================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X231 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.333\n G0 F1200.0 X226 Y15 Z0.2 E0.495\n G0 F1200.0 X226 Y8 Z0.2 E0.691\n G0 F1200.0 X216 Y8 Z0.2 E0.988\n G0 F1200.0 X216 Y1.5 Z0.2 E0.642\n\n G0 X48.0 E20.56 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.56 F1200.0\n G0 X35.0 Y6.0 E1.75 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E23.9 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.8 nozzle.json
index 06b1cdc..fd1aa6b 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 0.8 nozzle.json
@@ -34,5 +34,5 @@
"Bambu Lab X1E 0.8 nozzle",
"Bambu Lab A1 0.8 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y11 E1.364 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.300\nG0 X231 E1.160 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.482\n G0 F1200.0 X226 Y15 Z0.2 E0.550\n G0 F1200.0 X226 Y8 Z0.2 E0.768\n G0 F1200.0 X216 Y8 Z0.2 E1.098\n G0 F1200.0 X216 Y1.5 Z0.2 E0.714\n\n G0 X48.0 E25.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.70 F1200.0\n G0 X35.0 Y6.0 E1.90 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X129 E14 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4"
+ "machine_start_gcode": ";===== machine: X1 ====================\n;===== date: 20240528 ==================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y11 E1.364 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.300\nG0 X231 E1.160 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.482\n G0 F1200.0 X226 Y15 Z0.2 E0.550\n G0 F1200.0 X226 Y8 Z0.2 E0.768\n G0 F1200.0 X216 Y8 Z0.2 E1.098\n G0 F1200.0 X216 Y1.5 Z0.2 E0.714\n\n G0 X48.0 E25.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.70 F1200.0\n G0 X35.0 Y6.0 E1.90 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X129 E14 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json
index 61bdacb..a0b5416 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.2 nozzle.json
@@ -31,5 +31,5 @@
"Bambu Lab X1E 0.2 nozzle",
"Bambu Lab A1 0.2 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4"
+ "machine_start_gcode": ";===== machine: X1 ====================\n;===== date: 20240528 ==================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n\t{if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.160\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.080\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.080 K0.160\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.08 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.08}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json
index 5b13c5a..c6188a2 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.4 nozzle.json
@@ -20,11 +20,13 @@
"Bambu PLA Basic @BBL X1C"
],
"default_print_profile": "0.20mm Standard @BBL X1C",
+ "enable_long_retraction_when_cut": "2",
"extruder_offset": [
"0x2"
],
"machine_load_filament_time": "29",
"machine_unload_filament_time": "28",
+ "nozzle_height": "4.2",
"scan_first_layer": "1",
"upward_compatible_machine": [
"Bambu Lab P1S 0.4 nozzle",
@@ -33,6 +35,7 @@
"Bambu Lab X1E 0.4 nozzle",
"Bambu Lab A1 0.4 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.040\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.020\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4",
- "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\n\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\nM400\n\nG92 E0\n{if flush_length_1 > 1}\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S220\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\n{if (flush_length_2 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_3 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\n{if (flush_length_4 > 1) && (filament_type[next_extruder]==\"PLA-CF\" || filament_type[next_extruder]==\"PETG\")}\nM106 P1 S255\nM400 S3\nM106 P1 S0\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y245 F21000\nG1 X65 \nG1 Y265 F3000\n{endif}\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\nG1 X80 F15000\nG1 X60 F15000\nG1 X80 F15000\nG1 X60 F15000; shake to put down garbage\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
+ "machine_start_gcode": ";===== machine: X1 ====================\n;===== date: 20240528 ==================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y11 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E0.700\nG0 X231 E0.700 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n T1000\n\n G0 F1200.0 X231 Y15 Z0.2 E0.741\n G0 F1200.0 X226 Y15 Z0.2 E0.275\n G0 F1200.0 X226 Y8 Z0.2 E0.384\n G0 F1200.0 X216 Y8 Z0.2 E0.549\n G0 F1200.0 X216 Y1.5 Z0.2 E0.357\n\n G0 X48.0 E12.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E0.92 F1200.0\n G0 X35.0 Y6.0 E1.03 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E9.35441 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.040\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.020\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E14.3 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.020 K0.040\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E1.24726 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.02 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.02}\n M623\n\n G1 X140.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.31181 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4",
+ "machine_end_gcode": ";===== date: 20240528 =====================\nM400 ; wait for buffer to clear\nG92 E0 ; zero the extruder\nG1 E-0.8 F1800 ; retract\nG1 Z{max_layer_z + 0.5} F900 ; lower z a little\nG1 X65 Y245 F12000 ; move to safe pos\nG1 Y265 F3000\n\nG1 X65 Y245 F12000\nG1 Y265 F3000\nM140 S0 ; turn off bed\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off remote part cooling fan\nM106 P3 S0 ; turn off chamber cooling fan\n\nG1 X100 F12000 ; wipe\n; pull back filament to AMS\nM620 S255\nG1 X20 Y50 F12000\nG1 Y-3\nT255\nG1 X65 F12000\nG1 Y265\nG1 X100 F12000 ; wipe\nM621 S255\nM104 S0 ; turn off hotend\n\nM622.1 S1 ; for prev firware, default turned on\nM1002 judge_flag timelapse_record_flag\nM622 J1\n M400 ; wait all motion done\n M991 S0 P-1 ;end smooth timelapse at safe pos\n M400 S3 ;wait for last picture to be taken\nM623; end of \"timelapse_record_flag\"\n\nM400 ; wait all motion done\nM17 S\nM17 Z0.4 ; lower z motor current to reduce impact if there is something in the bottom\n{if (max_layer_z + 100.0) < 250}\n G1 Z{max_layer_z + 100.0} F600\n G1 Z{max_layer_z +98.0}\n{else}\n G1 Z250 F600\n G1 Z248\n{endif}\nM400 P100\nM17 R ; restore z current\n\nM220 S100 ; Reset feedrate magnitude\nM201.2 K1.0 ; Reset acc magnitude\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 0\n;=====printer finish sound=========\nM17\nM400 S1\nM1006 S1\nM1006 A0 B20 L100 C37 D20 M40 E42 F20 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C46 D10 M80 E46 F10 N80\nM1006 A44 B20 L100 C39 D20 M60 E48 F20 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C39 D10 M60 E39 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C39 D10 M60 E39 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A0 B10 L100 C48 D10 M60 E44 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A49 B20 L100 C44 D20 M100 E41 F20 N100\nM1006 A0 B20 L100 C0 D20 M60 E0 F20 N100\nM1006 A0 B20 L100 C37 D20 M30 E37 F20 N60\nM1006 W\n\nM17 X0.8 Y0.8 Z0.5 ; lower motor current to 45% power\nM960 S5 P0 ; turn off logo lamp\n",
+ "change_filament_gcode": "M620 S[next_extruder]A\nM204 S9000\n{if toolchange_count > 1 && (z_hop_types[current_extruder] == 0 || z_hop_types[current_extruder] == 3)}\nG17\nG2 Z{z_after_toolchange + 0.4} I0.86 J0.86 P1 F10000 ; spiral lift a little from second lift\n{endif}\nG1 Z{max_layer_z + 3.0} F1200\n\nG1 X70 F21000\nG1 Y245\nG1 Y265 F3000\nM400\nM106 P1 S0\nM106 P2 S0\n{if old_filament_temp > 142 && next_extruder < 255}\nM104 S[old_filament_temp]\n{endif}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E-{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\n{else}\nM620.11 S0\n{endif}\nM400\nG1 X90 F3000\nG1 Y255 F4000\nG1 X100 F5000\nG1 X120 F15000\nG1 X20 Y50 F21000\nG1 Y-3\n{if toolchange_count == 2}\n; get travel path for change filament\nM620.1 X[travel_point_1_x] Y[travel_point_1_y] F21000 P0\nM620.1 X[travel_point_2_x] Y[travel_point_2_y] F21000 P1\nM620.1 X[travel_point_3_x] Y[travel_point_3_y] F21000 P2\n{endif}\nM620.1 E F[old_filament_e_feedrate] T{nozzle_temperature_range_high[previous_extruder]}\nT[next_extruder]\nM620.1 E F[new_filament_e_feedrate] T{nozzle_temperature_range_high[next_extruder]}\n\n{if next_extruder < 255}\n{if long_retractions_when_cut[previous_extruder]}\nM620.11 S1 I[previous_extruder] E{retraction_distances_when_cut[previous_extruder]} F{old_filament_e_feedrate}\nM628 S1\nG92 E0\nG1 E{retraction_distances_when_cut[previous_extruder]} F[old_filament_e_feedrate]\nM400\nM629 S1\n{else}\nM620.11 S0\n{endif}\nG92 E0\n{if flush_length_1 > 1}\nM83\n; FLUSH_START\n; always use highest temperature to flush\nM400\n{if filament_type[next_extruder] == \"PETG\"}\nM109 S260\n{elsif filament_type[next_extruder] == \"PVA\"}\nM109 S210\n{else}\nM109 S[nozzle_temperature_range_high]\n{endif}\n{if flush_length_1 > 23.7}\nG1 E23.7 F{old_filament_e_feedrate} ; do not need pulsatile flushing for start part\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{old_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\nG1 E{(flush_length_1 - 23.7) * 0.02} F50\nG1 E{(flush_length_1 - 23.7) * 0.23} F{new_filament_e_feedrate}\n{else}\nG1 E{flush_length_1} F{old_filament_e_feedrate}\n{endif}\n; FLUSH_END\nG1 E-[old_retract_length_toolchange] F1800\nG1 E[old_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_2 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\nG1 E{flush_length_2 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_2 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_3 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\nG1 E{flush_length_3 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_3 * 0.02} F50\n; FLUSH_END\nG1 E-[new_retract_length_toolchange] F1800\nG1 E[new_retract_length_toolchange] F300\n{endif}\n\n{if flush_length_4 > 1}\n\nG91\nG1 X3 F12000; move aside to extrude\nG90\nM83\n\n; FLUSH_START\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\nG1 E{flush_length_4 * 0.18} F{new_filament_e_feedrate}\nG1 E{flush_length_4 * 0.02} F50\n; FLUSH_END\n{endif}\n; FLUSH_START\nM400\nM109 S[new_filament_temp]\nG1 E2 F{new_filament_e_feedrate} ;Compensate for filament spillage during waiting temperature\n; FLUSH_END\nM400\nG92 E0\nG1 E-[new_retract_length_toolchange] F1800\nM106 P1 S255\nM400 S3\n\nG1 X70 F5000\nG1 X90 F3000\nG1 Y255 F4000\nG1 X105 F5000\nG1 Y265 F5000\nG1 X70 F10000\nG1 X100 F5000\nG1 X70 F10000\nG1 X100 F5000\n\nG1 X70 F10000\nG1 X80 F15000\nG1 X60\nG1 X80\nG1 X60\nG1 X80 ; shake to put down garbage\nG1 X100 F5000\nG1 X165 F15000; wipe and shake\nG1 Y256 ; move Y to aside, prevent collision\nM400\nG1 Z{max_layer_z + 3.0} F3000\n{if layer_z <= (initial_layer_print_height + 0.001)}\nM204 S[initial_layer_acceleration]\n{else}\nM204 S[default_acceleration]\n{endif}\n{else}\nG1 X[x_after_toolchange] Y[y_after_toolchange] Z[z_after_toolchange] F12000\n{endif}\nM621 S[next_extruder]A\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json
index eb4bd94..2dffc6f 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.6 nozzle.json
@@ -33,5 +33,5 @@
"Bambu Lab X1E 0.6 nozzle",
"Bambu Lab A1 0.6 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X231 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.333\n G0 F1200.0 X226 Y15 Z0.2 E0.495\n G0 F1200.0 X226 Y8 Z0.2 E0.691\n G0 F1200.0 X216 Y8 Z0.2 E0.988\n G0 F1200.0 X216 Y1.5 Z0.2 E0.642\n\n G0 X48.0 E20.56 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.56 F1200.0\n G0 X35.0 Y6.0 E1.75 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E23.9 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4"
+ "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20240528 =====================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{+0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y1.0 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X240 E25 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nG0 Y15 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\nG0 X239.5\nG0 E0.2\nG0 Y1.5 E1.166\nG0 X231 E1.166 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.333\n G0 F1200.0 X226 Y15 Z0.2 E0.495\n G0 F1200.0 X226 Y8 Z0.2 E0.691\n G0 F1200.0 X216 Y8 Z0.2 E0.988\n G0 F1200.0 X216 Y1.5 Z0.2 E0.642\n\n G0 X48.0 E20.56 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.56 F1200.0\n G0 X35.0 Y6.0 E1.75 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X185.000 E16.9 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.030\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.015\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.9) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X18 E23.9 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.015 K0.030\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.25000 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X70.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X75.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X80.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X85.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X90.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X95.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X100.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X105.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X110.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X115.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X120.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X125.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X130.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X135.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.015 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*0.015}\n M623\n\n G1 X140.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X145.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X150.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X155.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X160.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X165.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X170.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X175.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X180.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X185.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X190.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X195.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X200.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X205.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X210.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X215.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G1 X220.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5)/ 4 * 60}\n G1 X225.000 E0.56250 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json
index 84fb5a1..4e22e6b 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon 0.8 nozzle.json
@@ -33,5 +33,5 @@
"Bambu Lab X1E 0.8 nozzle",
"Bambu Lab A1 0.8 nozzle"
],
- "machine_start_gcode": ";===== machine: X1 =========================\n;===== date: 20230707 =====================\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {elsif (bed_temperature[initial_no_support_extruder] >50)||(bed_temperature_initial_layer[initial_no_support_extruder] >50)}\n M106 P3 S255\n {endif};Prevent PLA from jamming\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== noozle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y11 E1.364 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.300\nG0 X231 E1.160 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.482\n G0 F1200.0 X226 Y15 Z0.2 E0.550\n G0 F1200.0 X226 Y8 Z0.2 E0.768\n G0 F1200.0 X216 Y8 Z0.2 E1.098\n G0 F1200.0 X216 Y1.5 Z0.2 E0.714\n\n G0 X48.0 E25.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.70 F1200.0\n G0 X35.0 Y6.0 E1.90 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X129 E14 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4"
+ "machine_start_gcode": ";===== machine: X1 ====================\n;===== date: 20240528 ==================\n;===== start printer sound ================\nM17\nM400 S1\nM1006 S1\nM1006 A0 B10 L100 C37 D10 M60 E37 F10 N60\nM1006 A0 B10 L100 C41 D10 M60 E41 F10 N60\nM1006 A0 B10 L100 C44 D10 M60 E44 F10 N60\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N60\nM1006 A46 B10 L100 C43 D10 M70 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A43 B10 L100 C0 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A41 B10 L100 C0 D10 M100 E41 F10 N100\nM1006 A44 B10 L100 C0 D10 M100 E44 F10 N100\nM1006 A49 B10 L100 C0 D10 M100 E49 F10 N100\nM1006 A0 B10 L100 C0 D10 M100 E0 F10 N100\nM1006 A48 B10 L100 C44 D10 M60 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A44 B10 L100 C0 D10 M90 E39 F10 N100\nM1006 A0 B10 L100 C0 D10 M60 E0 F10 N100\nM1006 A46 B10 L100 C43 D10 M60 E39 F10 N100\nM1006 W\n;===== turn on the HB fan =================\nM104 S75 ;set extruder temp to turn on the HB fan and prevent filament oozing from nozzle\n;===== reset machine status =================\nM290 X40 Y40 Z2.6666666\nG91\nM17 Z0.4 ; lower the z-motor current\nG380 S2 Z30 F300 ; G380 is same as G38; lower the hotbed , to prevent the nozzle is below the hotbed\nG380 S2 Z-25 F300 ;\nG1 Z5 F300;\nG90\nM17 X1.2 Y1.2 Z0.75 ; reset motor current to default\nM960 S5 P1 ; turn on logo lamp\nG90\nM220 S100 ;Reset Feedrate\nM221 S100 ;Reset Flowrate\nM73.2 R1.0 ;Reset left time magnitude\nM1002 set_gcode_claim_speed_level : 5\nM221 X0 Y0 Z0 ; turn off soft endstop to prevent protential logic problem\nG29.1 Z{0.0} ; clear z-trim value first\nM204 S10000 ; init ACC set to 10m/s^2\n\n;===== heatbed preheat ====================\nM1002 gcode_claim_action : 2\nM140 S[bed_temperature_initial_layer_single] ;set bed temp\nM190 S[bed_temperature_initial_layer_single] ;wait for bed temp\n\n{if scan_first_layer}\n;=========register first layer scan=====\nM977 S1 P60\n{endif}\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\n;===== prepare print temperature and material ==========\nM104 S[nozzle_temperature_initial_layer] ;set extruder temp\nG91\nG0 Z10 F1200\nG90\nG28 X\nM975 S1 ; turn on\nG1 X60 F12000\nG1 Y245\nG1 Y265 F3000\nM620 M\nM620 S[initial_no_support_extruder]A ; switch material if AMS exist\n M109 S[nozzle_temperature_initial_layer]\n G1 X120 F12000\n\n G1 X20 Y50 F12000\n G1 Y-3\n T[initial_no_support_extruder]\n G1 X54 F12000\n G1 Y265\n M400\nM621 S[initial_no_support_extruder]A\nM620.1 E F{filament_max_volumetric_speed[initial_no_support_extruder]/2.4053*60} T{nozzle_temperature_range_high[initial_no_support_extruder]}\n\n\nM412 S1 ; ===turn on filament runout detection===\n\nM109 S250 ;set nozzle to common flush temp\nM106 P1 S0\nG92 E0\nG1 E50 F200\nM400\nM104 S[nozzle_temperature_initial_layer]\nG92 E0\nG1 E50 F200\nM400\nM106 P1 S255\nG92 E0\nG1 E5 F300\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20} ; drop nozzle temp, make filament shink a bit\nG92 E0\nG1 E-0.5 F300\n\nG1 X70 F9000\nG1 X76 F15000\nG1 X65 F15000\nG1 X76 F15000\nG1 X65 F15000; shake to put down garbage\nG1 X80 F6000\nG1 X95 F15000\nG1 X80 F15000\nG1 X165 F15000; wipe and shake\nM400\nM106 P1 S0\n;===== prepare print temperature and material end =====\n\n\n;===== wipe nozzle ===============================\nM1002 gcode_claim_action : 14\nM975 S1\nM106 S255\nG1 X65 Y230 F18000\nG1 Y264 F6000\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]-20}\nG1 X100 F18000 ; first wipe mouth\n\nG0 X135 Y253 F20000 ; move to exposed steel surface edge\nG28 Z P0 T300; home z with low precision,permit 300deg temperature\nG29.2 S0 ; turn off ABL\nG0 Z5 F20000\n\nG1 X60 Y265\nG92 E0\nG1 E-0.5 F300 ; retrack more\nG1 X100 F5000; second wipe mouth\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X100 F5000\nG1 X70 F15000\nG1 X90 F5000\nG0 X128 Y261 Z-1.5 F20000 ; move to exposed steel surface and stop the nozzle\nM104 S140 ; set temp down to heatbed acceptable\nM106 S255 ; turn on fan (G28 has turn off fan)\n\nM221 S; push soft endstop status\nM221 Z0 ;turn off Z axis endstop\nG0 Z0.5 F20000\nG0 X125 Y259.5 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y262.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y260.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.5\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 Z0.5 F20000\nG0 X125 Y261.0\nG0 Z-1.01\nG0 X131 F211\nG0 X124\nG0 X128\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\nG2 I0.5 J0 F300\n\nM109 S140 ; wait nozzle temp down to heatbed acceptable\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\nG2 I0.5 J0 F3000\n\nM221 R; pop softend status\nG1 Z10 F1200\nM400\nG1 Z10\nG1 F30000\nG1 X128 Y128\nG29.2 S1 ; turn on ABL\n;G28 ; home again after hard wipe mouth\nM106 S0 ; turn off fan , too noisy\n;===== wipe nozzle end ================================\n\n;===== check scanner clarity ===========================\nG1 X128 Y128 F24000\nG28 Z P0\nM972 S5 P0\nG1 X230 Y15 F24000\n;===== check scanner clarity end =======================\n\n;===== bed leveling ==================================\nM1002 judge_flag g29_before_print_flag\nM622 J1\n\n M1002 gcode_claim_action : 1\n G29 A X{first_layer_print_min[0]} Y{first_layer_print_min[1]} I{first_layer_print_size[0]} J{first_layer_print_size[1]}\n M400\n M500 ; save cali data\n\nM623\n;===== bed leveling end ================================\n\n;===== home after wipe mouth============================\nM1002 judge_flag g29_before_print_flag\nM622 J0\n\n M1002 gcode_claim_action : 13\n G28\n\nM623\n;===== home after wipe mouth end =======================\n\nM975 S1 ; turn on vibration supression\n\n;=============turn on fans to prevent PLA jamming=================\n{if filament_type[initial_no_support_extruder]==\"PLA\"}\n {if (bed_temperature[initial_no_support_extruder] >45)||(bed_temperature_initial_layer[initial_no_support_extruder] >45)}\n M106 P3 S180\n {endif};Prevent PLA from jamming\n M142 P1 R35 S40\n{endif}\nM106 P2 S100 ; turn on big fan ,to cool down toolhead\n\nM104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; set extrude temp earlier, to reduce wait time\n\n;===== mech mode fast check============================\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q1 A7 B30 C80 H15 K0\nM974 Q1 S2 P0\n\nG1 X128 Y128 Z10 F20000\nM400 P200\nM970.3 Q0 A7 B30 C90 Q0 H15 K0\nM974 Q0 S2 P0\n\nM975 S1\nG1 F30000\nG1 X230 Y15\nG28 X ; re-home XY\n;===== mech mode fast check============================\n\n{if scan_first_layer}\n;start heatbed scan====================================\nM976 S2 P1\nG90\nG1 X128 Y128 F20000\nM976 S3 P2 ;register void printing detection\n{endif}\n\n;===== nozzle load line ===============================\nM975 S1\nG90\nM83\nT1000\nG1 X18.0 Y0.5 Z0.8 F18000;Move to start position\nM109 S{nozzle_temperature[initial_no_support_extruder]}\nG1 Z0.2\nG0 E2 F300\nG0 X129 E15 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\nG0 X240 E15\nG0 Y11 E1.364 F{outer_wall_volumetric_speed/(0.3*1.0)/ 4 * 60}\nG0 X239.5\nG0 E0.3\nG0 Y1.5 E1.300\nG0 X231 E1.160 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM400\n\n;===== for Textured PEI Plate , lower the nozzle as the nozzle was touching topmost of the texture when homing ==\n;curr_bed_type={curr_bed_type}\n{if curr_bed_type==\"Textured PEI Plate\"}\nG29.1 Z{-0.04} ; for Textured PEI Plate\n{endif}\n\n;===== draw extrinsic para cali paint =================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M1002 gcode_claim_action : 8\n\n G0 F1200.0 X231 Y15 Z0.2 E1.482\n G0 F1200.0 X226 Y15 Z0.2 E0.550\n G0 F1200.0 X226 Y8 Z0.2 E0.768\n G0 F1200.0 X216 Y8 Z0.2 E1.098\n G0 F1200.0 X216 Y1.5 Z0.2 E0.714\n\n G0 X48.0 E25.0 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\n G0 X48.0 Y14 E1.70 F1200.0\n G0 X35.0 Y6.0 E1.90 F1200.0\n\n ;=========== extruder cali extrusion ==================\n T1000\n M83\n {if default_acceleration > 0}\n {if outer_wall_acceleration > 0}\n M204 S[outer_wall_acceleration]\n {else}\n M204 S[default_acceleration]\n {endif}\n {endif}\n G0 X35.000 Y6.000 Z0.300 F30000 E0\n G1 F1500.000 E0.800\n M106 S0 ; turn off fan\n G0 X110.000 E9.35441 F4800\n G0 X185.000 E9.35441 F4800\n G0 X187 Z0\n G1 F1500.000 E-0.800\n G0 Z1\n G0 X180 Z0.3 F18000\n\n M900 L1000.0 M1.0\n M900 K0.020\n G0 X45.000 F30000\n G0 Y8.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.010\n G0 X45.000 F30000\n G0 Y10.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n M400\n\n G0 X45.000 F30000\n M900 K0.000\n G0 X45.000 F30000\n G0 Y12.000 F30000\n G1 F1500.000 E0.800\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 F1500.000 E-0.800\n G1 X183 Z0.15 F30000\n G1 X185\n G1 Z1.0\n G0 Y6.000 F30000 ; move y to clear pos\n G1 Z0.3\n\n G0 X45.000 F30000 ; move to start point\n\nM623 ; end of \"draw extrinsic para cali paint\"\n\nM1002 judge_flag extrude_cali_flag\nM622 J0\n G0 X231 Y1.5 F30000\n G0 X129 E14 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G0 X18 E15 F{outer_wall_volumetric_speed/(0.3*0.5) * 60}\nM623\n\nM104 S140\n\n\n;=========== laser and rgb calibration ===========\nM400\nM18 E\nM500 R\n\nM973 S3 P14\n\nG1 X120 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nT1100\nG1 X235.0 Y1.0 Z0.3 F18000.0;Move to first extrude line pos\nM400 P100\nM960 S1 P1\nM400 P100\nM973 S6 P0; use auto exposure for horizontal laser by xcam\nM960 S0 P0\n\nG1 X240.0 Y6.0 Z0.3 F18000.0;Move to vertical extrude line pos\nM960 S2 P1\nM400 P100\nM973 S6 P1; use auto exposure for vertical laser by xcam\nM960 S0 P0\n\n;=========== handeye calibration ======================\nM1002 judge_flag extrude_cali_flag\nM622 J1\n\n M973 S3 P1 ; camera start stream\n M400 P500\n M973 S1\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G0 F6000 X228.500 Y4.500 Z0.000\n M960 S0 P1\n M973 S1\n M400 P800\n M971 S6 P0\n M973 S2 P0\n M400 P500\n G0 Z0.000 F12000\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P200\n M971 S5 P1\n M973 S2 P1\n M400 P500\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P3\n G0 Z0.500 F12000\n M960 S0 P0\n M960 S2 P1\n G0 X228.5 Y11.0\n M400 P200\n M971 S5 P4\n M973 S2 P0\n M400 P500\n M960 S0 P0\n M960 S1 P1\n G0 X221.00 Y4.50\n M400 P500\n M971 S5 P2\n M963 S1\n M400 P1500\n M964\n T1100\n G1 Z3 F3000\n\n M400\n M500 ; save cali data\n\n M104 S{nozzle_temperature_initial_layer[initial_no_support_extruder]} ; rise nozzle temp now ,to reduce temp waiting time.\n\n T1100\n M400 P400\n M960 S0 P0\n G0 F30000.000 Y10.000 X65.000 Z0.000\n M400 P400\n M960 S1 P1\n M400 P50\n\n M969 S1 N3 A2000\n G0 F360.000 X181.000 Z0.000\n M980.3 A70.000 B{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60/4} C5.000 D{outer_wall_volumetric_speed/(1.75*1.75/4*3.14)*60} E5.000 F175.000 H1.000 I0.000 J0.010 K0.020\n M400 P100\n G0 F20000\n G0 Z1 ; rise nozzle up\n T1000 ; change to nozzle space\n G0 X45.000 Y4.000 F30000 ; move to test line pos\n M969 S0 ; turn off scanning\n M960 S0 P0\n\n\n G1 Z2 F20000\n T1000\n G0 X45.000 Y4.000 F30000 E0\n M109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\n G0 Z0.3\n G1 F1500.000 E3.600\n G1 X65.000 E2.4945 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X70.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X75.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X80.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X85.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X90.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X95.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X100.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X105.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X110.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X115.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X120.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X125.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X130.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X135.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n\n ; see if extrude cali success, if not ,use default value\n M1002 judge_last_extrude_cali_success\n M622 J0\n M400\n M900 K0.01 M{outer_wall_volumetric_speed/(1.75*1.75/4*3.14) *0.01}\n M623\n\n G1 X140.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X145.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X150.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X155.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X160.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X165.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X170.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X175.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X180.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X185.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X190.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X195.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X200.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X205.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X210.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X215.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n G1 X220.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) / 4 * 60}\n G1 X225.000 E0.6236 F{outer_wall_volumetric_speed/(0.3*1.0) * 60}\n M973 S4\n\nM623\n\n;========turn off light and wait extrude temperature =============\nM1002 gcode_claim_action : 0\nM973 S4 ; turn off scanner\nM400 ; wait all motion done before implement the emprical L parameters\n;M900 L500.0 ; Empirical parameters\nM109 S[nozzle_temperature_initial_layer]\nM960 S1 P0 ; turn off laser\nM960 S2 P0 ; turn off laser\nM106 S0 ; turn off fan\nM106 P2 S0 ; turn off big fan\nM106 P3 S0 ; turn off chamber fan\n\nM975 S1 ; turn on mech mode supression\nG90\nM83\nT1000\nG1 E{-retraction_length[initial_no_support_extruder]} F1800\nG1 X128.0 Y253.0 Z0.2 F24000.0;Move to start position\nG1 E{retraction_length[initial_no_support_extruder]} F1800\nM109 S{nozzle_temperature_initial_layer[initial_no_support_extruder]}\nG0 X253 E6.4 F{outer_wall_volumetric_speed/(0.3*0.6) * 60}\nG0 Y128 E6.4\nG0 X252.5\nG0 Y252.5 E6.4\nG0 X128 E6.4\n"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon.json
index 8407b6e..3b36361 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1 Carbon.json
@@ -4,7 +4,7 @@
"nozzle_diameter": "0.4;0.2;0.6;0.8",
"bed_model": "bbl-3dp-X1.stl",
"bed_texture": "bbl-3dp-logo.svg",
- "default_bed_type": "Cool Plate",
+ "default_bed_type": "Textured PEI Plate",
"family": "BBL-3DP",
"machine_tech": "FFF",
"model_id": "BL-P001",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1.json
index aca4485..d8e4794 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/Bambu Lab X1.json
@@ -4,7 +4,7 @@
"nozzle_diameter": "0.4;0.2;0.6;0.8",
"bed_model": "bbl-3dp-X1.stl",
"bed_texture": "bbl-3dp-logo.svg",
- "default_bed_type": "Cool Plate",
+ "default_bed_type": "Textured PEI Plate",
"family": "BBL-3DP",
"machine_tech": "FFF",
"model_id": "BL-P002",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/machine/fdm_machine_common.json b/Library/Application Support/OrcaSlicer/system/BBL/machine/fdm_machine_common.json
index 067e53b..59c372c 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/machine/fdm_machine_common.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/machine/fdm_machine_common.json
@@ -12,6 +12,7 @@
"deretraction_speed": [
"40"
],
+ "enable_long_retraction_when_cut" : "0",
"extruder_colour": [
"#FCE94F"
],
@@ -20,6 +21,9 @@
],
"gcode_flavor": "marlin",
"silent_mode": "0",
+ "long_retractions_when_cut": [
+ "0"
+ ],
"machine_max_acceleration_e": [
"5000"
],
@@ -76,7 +80,7 @@
],
"printable_height": "250",
"extruder_clearance_radius": "65",
- "extruder_clearance_height_to_rod": "36",
+ "extruder_clearance_height_to_rod": "34",
"extruder_clearance_height_to_lid": "140",
"printer_settings_id": "",
"retraction_minimum_travel": [
@@ -88,6 +92,9 @@
"retract_when_changing_layer": [
"1"
],
+ "retraction_distances_when_cut": [
+ "18"
+ ],
"retraction_length": [
"5"
],
@@ -106,7 +113,7 @@
"retraction_speed": [
"60"
],
- "single_extruder_multi_material": "1",
+ "single_extruder_multi_material": "0",
"support_air_filtration": "0",
"wipe": [
"1"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.06mm Standard @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.06mm Standard @BBL X1C 0.2 nozzle.json
index 06a7a9e..5ffde15 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.06mm Standard @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.06mm Standard @BBL X1C 0.2 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP024",
"instantiation": "true",
+ "description": "Compared with the default profile of 0.2 mm nozzle, it has a smaller layer height, and results in minimal layer lines and higher printing quality, but shorter printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL P1P.json
index bc9f93e..080e400 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL P1P.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP018",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in almost negligible layer lines and longer printing time.",
"compatible_printers": [
"Bambu Lab P1P 0.4 nozzle"
]
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL X1C.json
index f591722..ddb3858 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Extra Fine @BBL X1C.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP001",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in almost negligible layer lines and longer printing time.",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Standard @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Standard @BBL X1C 0.2 nozzle.json
index 7c8e7bb..4d1c9fa 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Standard @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.08mm Standard @BBL X1C 0.2 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP025",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.2 mm nozzle, it has a smaller layer height, and results in almost invisible layer lines and higher printing quality, but shorter printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL P1P 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL P1P 0.2 nozzle.json
index 0b50342..227fb04 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL P1P 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL P1P 0.2 nozzle.json
@@ -5,8 +5,10 @@
"from": "system",
"setting_id": "GP014",
"instantiation": "true",
+ "description": "It has a small layer height, and results in almost negligible layer lines and high printing quality. It is suitable for most general printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
- "Bambu Lab P1P 0.2 nozzle"
+ "Bambu Lab P1P 0.2 nozzle",
+ "Bambu Lab P1S 0.2 nozzle"
]
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL X1C 0.2 nozzle.json
index 9b04506..241c0a3 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.10mm Standard @BBL X1C 0.2 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP007",
"instantiation": "true",
+ "description": "It has a small layer height, and results in almost negligible layer lines and high printing quality. It is suitable for most general printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL P1P.json
index 03afc8b..172d506 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL P1P.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP019",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in almost negligible layer lines and higher printing quality, but longer printing time.",
"compatible_printers": [
"Bambu Lab P1P 0.4 nozzle"
]
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL X1C.json
index 16c75d8..d42c4dc 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Fine @BBL X1C.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP002",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in almost negligible layer lines and higher printing quality, but longer printing time.",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Standard @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Standard @BBL X1C 0.2 nozzle.json
index 5d3d9b8..e909017 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Standard @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.12mm Standard @BBL X1C 0.2 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP026",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.2 mm nozzle, it has a slightly bigger layer height, and results in almost negligible layer lines, and slightly shorter printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.14mm Standard @BBL X1C 0.2 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.14mm Standard @BBL X1C 0.2 nozzle.json
index 2279402..b6d8ecc 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.14mm Standard @BBL X1C 0.2 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.14mm Standard @BBL X1C 0.2 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP027",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.2 mm nozzle, it has a bigger layer height, and results in slightly visible layer lines, but shorter printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.2 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL P1P.json
index 1e0462d..6df7fae 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL P1P.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP020",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in less apparent layer lines and higher printing quality, but longer printing time.",
"compatible_printers": [
"Bambu Lab P1P 0.4 nozzle"
]
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL X1C.json
index 2465e38..0d12d4d 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.16mm Optimal @BBL X1C.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP003",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a smaller layer height, and results in less apparent layer lines and higher printing quality, but longer printing time.",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.18mm Standard @BBL X1C 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.18mm Standard @BBL X1C 0.6 nozzle.json
index ae327ef..15ebedb 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.18mm Standard @BBL X1C 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.18mm Standard @BBL X1C 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP028",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.6 mm nozzle, it has a smaller layer height, and results in less apparent layer lines and higher printing quality, but longer printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.6 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL P1P.json
index 1b60746..cea5a44 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL P1P.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP015",
"instantiation": "true",
+ "description": "It has a general layer height, and results in general layer lines and printing quality. It is suitable for most general printing cases.",
"compatible_printers": [
"Bambu Lab P1P 0.4 nozzle"
]
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL X1C.json
index 1d05bdf..2f38b67 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Standard @BBL X1C.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP004",
"instantiation": "true",
+ "description": "It has a general layer height, and results in general layer lines and printing quality. It is suitable for most general printing cases.",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL P1P.json
index c38f5f7..9edb034 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL P1P.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP021",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has more wall loops and a higher sparse infill density. So, it results in higher strength of the prints, but more filament consumption and longer printing time.",
"outer_wall_speed": "60",
"sparse_infill_density": "25%",
"wall_loops": "6",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL X1C.json
index 27b9c03..a621376 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.20mm Strength @BBL X1C.json
@@ -5,9 +5,10 @@
"from": "system",
"setting_id": "GP013",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has more wall loops and a higher sparse infill density. So, it results in higher strength of the prints, but more filament consumption and longer printing time.",
"outer_wall_speed": "60",
- "wall_loops": "6",
"sparse_infill_density": "25%",
+ "wall_loops": "6",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL P1P.json
index 87866d4..ed3bd53 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL P1P.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP022",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but slightly shorter printing time.",
"compatible_printers": [
"Bambu Lab P1P 0.4 nozzle"
]
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL X1C.json
index 4ef6dae..01505bf 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Draft @BBL X1C.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP005",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but slightly shorter printing time.",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.6 nozzle.json
index 47ee336..992bb0f 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP029",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.6 mm nozzle, it has a smaller layer height, and results in less apparent layer lines and slight higher printing quality, but longer printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.6 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.8 nozzle.json
index a451239..9be5eed 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.24mm Standard @BBL X1C 0.8 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP032",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.8 mm nozzle, it has a smaller layer height, and results in less but still apparent layer lines and slightly higher printing quality, but longer printing time in some printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.8 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL P1P.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL P1P.json
index ca64d1e..4f9bb7b 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL P1P.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL P1P.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP023",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but shorter printing time.",
"compatible_printers": [
"Bambu Lab P1P 0.4 nozzle"
]
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL X1C.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL X1C.json
index 211a43a..8c2e794 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL X1C.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.28mm Extra Draft @BBL X1C.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP006",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.4 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but shorter printing time.",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.4 nozzle",
"Bambu Lab X1 0.4 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL P1P 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL P1P 0.6 nozzle.json
index 37b7593..164c038 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL P1P 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL P1P 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP016",
"instantiation": "true",
+ "description": "It has a big layer height, and results in apparent layer lines and ordinary printing quality and printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab P1P 0.6 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1 0.6 nozzle.json
index f537208..e501731 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP011",
"instantiation": "true",
+ "description": "It has a big layer height, and results in apparent layer lines and ordinary printing quality and printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 0.6 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1C 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1C 0.6 nozzle.json
index c09f04e..3f0a4da 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1C 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Standard @BBL X1C 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP010",
"instantiation": "true",
+ "description": "It has a big layer height, and results in apparent layer lines and ordinary printing quality and printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.6 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Strength @BBL X1C 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Strength @BBL X1C 0.6 nozzle.json
index 08493a2..affc545 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Strength @BBL X1C 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.30mm Strength @BBL X1C 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP036",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.6 mm nozzle, it has more wall loops and a higher sparse infill density. So, it results in higher strength of the prints, but more filament consumption and longer printing time.",
"elefant_foot_compensation": "0.15",
"sparse_infill_density": "25%",
"wall_loops": "4",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.32mm Standard @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.32mm Standard @BBL X1C 0.8 nozzle.json
index 0a61d6a..a756377 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.32mm Standard @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.32mm Standard @BBL X1C 0.8 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP033",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.8 mm nozzle, it has a slightly smaller layer height, and results in slightly less but still apparent layer lines and slightly higher printing quality, but longer printing time in some printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.8 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.36mm Standard @BBL X1C 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.36mm Standard @BBL X1C 0.6 nozzle.json
index 24acdeb..f259218 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.36mm Standard @BBL X1C 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.36mm Standard @BBL X1C 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP030",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.6 mm nozzle, it has a bigger layer height, and results in more apparent layer lines and lower printing quality, but shorter printing time in some printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.6 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL P1P 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL P1P 0.8 nozzle.json
index 547915d..a647b30 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL P1P 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL P1P 0.8 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP017",
"instantiation": "true",
+ "description": "It has a very big layer height, and results in very apparent layer lines, low printing quality and general printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab P1P 0.8 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1 0.8 nozzle.json
index 649f3e8..f5115f4 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1 0.8 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP012",
"instantiation": "true",
+ "description": "It has a very big layer height, and results in very apparent layer lines, low printing quality and general printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 0.8 nozzle"
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1C 0.8 nozzle.json
index ed00b16..2c7cb9b 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.40mm Standard @BBL X1C 0.8 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP009",
"instantiation": "true",
+ "description": "It has a very big layer height, and results in very apparent layer lines, low printing quality and general printing time.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.8 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.42mm Standard @BBL X1C 0.6 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.42mm Standard @BBL X1C 0.6 nozzle.json
index 38b9039..dbf8255 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.42mm Standard @BBL X1C 0.6 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.42mm Standard @BBL X1C 0.6 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP031",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.6 mm nozzle, it has a bigger layer height, and results in much more apparent layer lines and much lower printing quality, but shorter printing time in some printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.6 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.48mm Standard @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.48mm Standard @BBL X1C 0.8 nozzle.json
index 4075696..77c2585 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.48mm Standard @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.48mm Standard @BBL X1C 0.8 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP034",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.8 mm nozzle, it has a bigger layer height, and results in very apparent layer lines and much lower printing quality, but shorter printing time in some printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.8 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/0.56mm Standard @BBL X1C 0.8 nozzle.json b/Library/Application Support/OrcaSlicer/system/BBL/process/0.56mm Standard @BBL X1C 0.8 nozzle.json
index 48cb2aa..64d3187 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/0.56mm Standard @BBL X1C 0.8 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/0.56mm Standard @BBL X1C 0.8 nozzle.json
@@ -5,6 +5,7 @@
"from": "system",
"setting_id": "GP035",
"instantiation": "true",
+ "description": "Compared with the default profile of a 0.8 mm nozzle, it has a much bigger layer height, and results in extremely apparent layer lines and much lower printing quality, but much shorter printing time in some printing cases.",
"elefant_foot_compensation": "0.15",
"compatible_printers": [
"Bambu Lab X1 Carbon 0.8 nozzle",
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.06_nozzle_0.2.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.06_nozzle_0.2.json
index c01ea54..0857a48 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.06_nozzle_0.2.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.06_nozzle_0.2.json
@@ -21,5 +21,7 @@
"initial_layer_speed": "40",
"initial_layer_infill_speed": "70",
"sparse_infill_speed": "100",
- "top_surface_speed": "150"
+ "top_surface_speed": "150",
+ "support_top_z_distance": "0.06",
+ "support_bottom_z_distance": "0.06"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08.json
index 836980d..61897f7 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08.json
@@ -20,5 +20,7 @@
"overhang_1_4_speed": "60",
"overhang_2_4_speed": "30",
"overhang_3_4_speed": "10",
- "support_threshold_angle": "15"
+ "support_threshold_angle": "15",
+ "support_top_z_distance": "0.08",
+ "support_bottom_z_distance": "0.08"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08_nozzle_0.2.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08_nozzle_0.2.json
index 43a8b60..80670ce 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08_nozzle_0.2.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.08_nozzle_0.2.json
@@ -21,5 +21,7 @@
"initial_layer_speed": "40",
"initial_layer_infill_speed": "70",
"sparse_infill_speed": "100",
- "top_surface_speed": "150"
+ "top_surface_speed": "150",
+ "support_top_z_distance": "0.08",
+ "support_bottom_z_distance": "0.08"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.10_nozzle_0.2.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.10_nozzle_0.2.json
index cc7d773..9d54d14 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.10_nozzle_0.2.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.10_nozzle_0.2.json
@@ -21,5 +21,7 @@
"initial_layer_speed": "40",
"initial_layer_infill_speed": "70",
"sparse_infill_speed": "100",
- "top_surface_speed": "150"
+ "top_surface_speed": "150",
+ "support_top_z_distance": "0.1",
+ "support_bottom_z_distance": "0.1"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12.json
index e76673b..e22593f 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12.json
@@ -20,5 +20,7 @@
"overhang_1_4_speed": "60",
"overhang_2_4_speed": "30",
"overhang_3_4_speed": "10",
- "support_threshold_angle": "20"
+ "support_threshold_angle": "20",
+ "support_top_z_distance": "0.12",
+ "support_bottom_z_distance": "0.12"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12_nozzle_0.2.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12_nozzle_0.2.json
index 040df9f..9d35f25 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12_nozzle_0.2.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.12_nozzle_0.2.json
@@ -21,5 +21,7 @@
"initial_layer_speed": "40",
"initial_layer_infill_speed": "70",
"sparse_infill_speed": "100",
- "top_surface_speed": "150"
+ "top_surface_speed": "150",
+ "support_top_z_distance": "0.12",
+ "support_bottom_z_distance": "0.12"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.14_nozzle_0.2.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.14_nozzle_0.2.json
index be12c21..573669d 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.14_nozzle_0.2.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.14_nozzle_0.2.json
@@ -21,5 +21,7 @@
"initial_layer_speed": "40",
"initial_layer_infill_speed": "70",
"sparse_infill_speed": "100",
- "top_surface_speed": "150"
+ "top_surface_speed": "150",
+ "support_top_z_distance": "0.14",
+ "support_bottom_z_distance": "0.14"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.16.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.16.json
index ecc31c5..3d60b01 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.16.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.16.json
@@ -20,5 +20,7 @@
"overhang_1_4_speed": "60",
"overhang_2_4_speed": "30",
"overhang_3_4_speed": "10",
- "support_threshold_angle": "25"
+ "support_threshold_angle": "25",
+ "support_top_z_distance": "0.16",
+ "support_bottom_z_distance": "0.16"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.18_nozzle_0.6.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.18_nozzle_0.6.json
index 3baf1fd..0220f43 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.18_nozzle_0.6.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_bbl_0.18_nozzle_0.6.json
@@ -20,5 +20,7 @@
"sparse_infill_speed": "100",
"top_surface_speed": "150",
"bridge_speed": "30",
- "overhang_3_4_speed": "15"
+ "overhang_3_4_speed": "15",
+ "support_top_z_distance": "0.18",
+ "support_bottom_z_distance": "0.18"
}
\ No newline at end of file
diff --git a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_common.json b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_common.json
index 921718b..fd909fd 100644
--- a/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_common.json
+++ b/Library/Application Support/OrcaSlicer/system/BBL/process/fdm_process_common.json
@@ -17,7 +17,7 @@
"line_width": "0.45",
"infill_direction": "45",
"sparse_infill_density": "15%",
- "sparse_infill_pattern": "grid",
+ "sparse_infill_pattern": "crosshatch",
"initial_layer_line_width": "0.42",
"initial_layer_print_height": "0.2",
"initial_layer_speed": "20",
diff --git a/Library/Application Support/OrcaSlicer/system/Voron.json b/Library/Application Support/OrcaSlicer/system/Voron.json
index 5208f72..f726fcc 100644
--- a/Library/Application Support/OrcaSlicer/system/Voron.json
+++ b/Library/Application Support/OrcaSlicer/system/Voron.json
@@ -1,6 +1,6 @@
{
"name": "Voron",
- "version": "02.00.02.00",
+ "version": "02.01.01.00",
"force_update": "0",
"description": "Voron configurations",
"machine_model_list": [
diff --git a/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_common.json b/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_common.json
index e22d2e5..b89db3c 100644
--- a/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_common.json
+++ b/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_common.json
@@ -19,7 +19,7 @@
"line_width": "0.45",
"infill_direction": "45",
"sparse_infill_density": "15%",
- "sparse_infill_pattern": "grid",
+ "sparse_infill_pattern": "crosshatch",
"initial_layer_line_width": "0.42",
"initial_layer_print_height": "0.2",
"initial_layer_speed": "20",
@@ -58,7 +58,7 @@
"support_base_pattern": "rectilinear",
"support_base_pattern_spacing": "2",
"support_speed": "40",
- "support_threshold_angle": "40",
+ "support_threshold_angle": "30",
"support_object_xy_distance": "0.5",
"detect_thin_wall": "0",
"top_surface_line_width": "0.4",
diff --git a/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_voron_common.json b/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_voron_common.json
index d993c7b..241b984 100644
--- a/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_voron_common.json
+++ b/Library/Application Support/OrcaSlicer/system/Voron/process/fdm_process_voron_common.json
@@ -30,7 +30,7 @@
"line_width": "0.4",
"infill_direction": "45",
"sparse_infill_density": "15%",
- "sparse_infill_pattern": "grid",
+ "sparse_infill_pattern": "crosshatch",
"initial_layer_acceleration": "500",
"initial_layer_line_width": "0.5",
"initial_layer_print_height": "0.2",
@@ -84,7 +84,7 @@
"tree_support_branch_angle": "45",
"tree_support_wall_count": "0",
"detect_thin_wall": "0",
- "top_surface_pattern": "monotonic",
+ "top_surface_pattern": "monotonicline",
"top_surface_line_width": "0.4",
"top_shell_layers": "3",
"top_shell_thickness": "0.8",
diff --git a/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS Micron.json b/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS Micron.json
index d694762..a9878e5 100644
--- a/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS Micron.json
+++ b/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS Micron.json
@@ -1,6 +1,9 @@
{
"chamber_temperature": [
- "60"
+ "45"
+ ],
+ "dont_slow_down_outer_wall": [
+ "1"
],
"enable_overhang_bridge_fan": [
"0"
@@ -15,7 +18,7 @@
"100"
],
"fan_min_speed": [
- "70"
+ "40"
],
"filament_cost": [
"22"
diff --git a/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS.json b/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS.json
index eca5f72..0ff9aad 100644
--- a/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS.json
+++ b/Library/Application Support/OrcaSlicer/user/default/filament/KVP ABS.json
@@ -1,5 +1,10 @@
{
- "chamber_temperature": "40",
+ "chamber_temperature": [
+ "40"
+ ],
+ "dont_slow_down_outer_wall": [
+ "1"
+ ],
"enable_overhang_bridge_fan": [
"0"
],
@@ -7,7 +12,7 @@
"1"
],
"fan_max_speed": [
- "100"
+ "90"
],
"filament_cost": [
"22"
@@ -38,10 +43,10 @@
"0.015"
],
"slow_down_layer_time": [
- "5"
+ "1"
],
"slow_down_min_speed": [
- "30"
+ "50"
],
"version": "1.5.1.2"
}
diff --git a/Library/Application Support/OrcaSlicer/user/default/machine/Micron 0.4 nozzle.json b/Library/Application Support/OrcaSlicer/user/default/machine/Micron 0.4 nozzle.json
index af3e44c..68aa009 100644
--- a/Library/Application Support/OrcaSlicer/user/default/machine/Micron 0.4 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/user/default/machine/Micron 0.4 nozzle.json
@@ -8,7 +8,7 @@
"is_custom_defined": "0",
"layer_change_gcode": ";AFTER_LAYER_CHANGE\n;[layer_z]\nM117 Layer {layer_num+1}/[total_layer_count]",
"machine_max_acceleration_z": [
- "1000",
+ "5000",
"200"
],
"machine_max_jerk_x": [
@@ -19,6 +19,10 @@
"15",
"12"
],
+ "machine_max_speed_e": [
+ "100",
+ "25"
+ ],
"machine_max_speed_x": [
"600",
"200"
@@ -27,13 +31,19 @@
"600",
"200"
],
+ "machine_max_speed_z": [
+ "100",
+ "12"
+ ],
"machine_start_gcode": "M104 S0 ; Stops PS/SS from sending temp waits separately\nM140 S0\n\n\n;ESTIMATOR_ADD_TIME 22 Print start\nPRINT_START HOTEND=[first_layer_temperature] BED=[first_layer_bed_temperature] CHAMBER=[chamber_temperature]",
+ "manual_filament_change": "1",
"max_layer_height": [
"0.3"
],
"name": "Micron 0.4 nozzle",
"nozzle_type": "brass",
"nozzle_volume": "33",
+ "preferred_orientation": "45",
"print_host": "http://192.168.25.81/",
"printable_area": [
"0x0",
@@ -41,7 +51,7 @@
"180x180",
"0x180"
],
- "printable_height": "150",
+ "printable_height": "135",
"printer_settings_id": "Micron 0.4 nozzle",
"retract_length_toolchange": [
"0.4"
diff --git a/Library/Application Support/OrcaSlicer/user/default/machine/Voron 0.1 0.5 nozzle.json b/Library/Application Support/OrcaSlicer/user/default/machine/Voron 0.1 0.5 nozzle.json
index 666930c..d4ccc2d 100644
--- a/Library/Application Support/OrcaSlicer/user/default/machine/Voron 0.1 0.5 nozzle.json
+++ b/Library/Application Support/OrcaSlicer/user/default/machine/Voron 0.1 0.5 nozzle.json
@@ -11,7 +11,16 @@
"inherits": "Voron 0.1 0.4 nozzle",
"is_custom_defined": "0",
"layer_change_gcode": ";AFTER_LAYER_CHANGE\n;[layer_z]\nM117 Layer {layer_num+1}/[total_layer_count]",
+ "machine_max_jerk_x": [
+ "20",
+ "12"
+ ],
+ "machine_max_jerk_y": [
+ "20",
+ "12"
+ ],
"machine_start_gcode": "; ACCEL: 8000/8000/8 for First Layer\n; ACCEL: 30000/30000/20 for Travel\n; ACCEL: 10000/10000/8 for TYPE:External perimeter\n; ACCEL: 15000/15000/8 for TYPE:Overhang perimeter\n; ACCEL: 15000/15000/8 for TYPE:Internal perimeter\n; ACCEL: 15000/15000/8 for TYPE:Top solid infill\n; ACCEL: 25000/25000/8 for TYPE:Solid infill\n; ACCEL: 40000/40000/10 for TYPE:Internal infill\n; ACCEL: 10000/10000/8 for TYPE:Bridge infill\n; ACCEL: 10000/10000/8 for TYPE:Internal bridge infill\n; ACCEL: 10000/10000/8 for TYPE:Thin wall\n; ACCEL: 10000/10000/8 for TYPE:Gap fill\n; ACCEL: 10000/10000/15 for TYPE:Skirt\n; ACCEL: 10000/10000/8 for TYPE:Support material\n; ACCEL: 10000/10000/8 for TYPE:Support material interface\n\nM104 S0 ; Stops PS/SS from sending temp waits separately\nM140 S0\n\n\n;ESTIMATOR_ADD_TIME 12 Print start\nPRINT_START HOTEND=[first_layer_temperature] BED=[first_layer_bed_temperature] CHAMBER=[chamber_temperature]",
+ "manual_filament_change": "1",
"max_layer_height": [
"0.4"
],
@@ -21,6 +30,7 @@
],
"nozzle_type": "hardened_steel",
"nozzle_volume": "24",
+ "preferred_orientation": "45",
"print_host": "http://192.168.2.81/",
"print_host_webui": "http://192.168.2.81/",
"printable_area": [
@@ -31,6 +41,9 @@
],
"printable_height": "110",
"printer_settings_id": "Voron 0.1 0.5 nozzle",
+ "retract_lift_above": [
+ "1"
+ ],
"retraction_length": [
"0.4"
],
diff --git a/Library/Application Support/OrcaSlicer/user/default/process/Speed Micron.json b/Library/Application Support/OrcaSlicer/user/default/process/Speed Micron.json
index 751068e..9b44ca6 100644
--- a/Library/Application Support/OrcaSlicer/user/default/process/Speed Micron.json
+++ b/Library/Application Support/OrcaSlicer/user/default/process/Speed Micron.json
@@ -1,30 +1,28 @@
{
"accel_to_decel_enable": "0",
"bottom_shell_layers": "4",
- "bottom_surface_pattern": "monotonicline",
"bridge_acceleration": "70%",
"bridge_flow": "0.85",
"bridge_speed": "100",
"brim_type": "no_brim",
"default_acceleration": "7000",
- "enable_arc_fitting": "1",
"from": "User",
"gap_infill_speed": "200",
"infill_combination": "1",
+ "infill_direction": "0",
"inherits": "0.20mm Standard @Voron",
"initial_layer_acceleration": "6000",
"initial_layer_infill_speed": "200",
- "initial_layer_line_width": "0.6",
- "initial_layer_print_height": "0.25",
+ "initial_layer_line_width": "110%",
+ "initial_layer_print_height": "0.3",
"initial_layer_speed": "100",
"initial_layer_travel_speed": "50%",
"inner_wall_acceleration": "8000",
- "inner_wall_line_width": "0.5",
+ "inner_wall_line_width": "100%",
"inner_wall_speed": "300",
"internal_bridge_speed": "150",
"internal_solid_infill_acceleration": "10000",
- "internal_solid_infill_line_width": "0.6",
- "internal_solid_infill_pattern": "monotonicline",
+ "internal_solid_infill_line_width": "100%",
"internal_solid_infill_speed": "250",
"is_custom_defined": "0",
"line_width": "0",
@@ -32,6 +30,7 @@
"only_one_wall_first_layer": "1",
"only_one_wall_top": "1",
"outer_wall_acceleration": "6000",
+ "outer_wall_line_width": "100%",
"outer_wall_speed": "300",
"overhang_1_4_speed": "90%",
"overhang_2_4_speed": "70",
@@ -43,18 +42,21 @@
"print_settings_id": "Speed Micron",
"skirt_distance": "3",
"small_perimeter_speed": "80%",
+ "solid_infill_direction": "0",
"sparse_infill_acceleration": "10000",
"sparse_infill_density": "40%",
- "sparse_infill_line_width": "0.7",
+ "sparse_infill_line_width": "175%",
+ "sparse_infill_pattern": "zig-zag",
"sparse_infill_speed": "400",
"support_interface_top_layers": "0",
+ "support_line_width": "100%",
"support_on_build_plate_only": "1",
"support_threshold_angle": "7",
"support_top_z_distance": "0",
"support_type": "tree(auto)",
"top_shell_layers": "5",
"top_surface_acceleration": "6000",
- "top_surface_pattern": "monotonicline",
+ "top_surface_line_width": "100%",
"top_surface_speed": "300",
"travel_acceleration": "10000",
"travel_speed": "600",
diff --git a/Library/Application Support/OrcaSlicer/user/default/process/Standard Micron.json b/Library/Application Support/OrcaSlicer/user/default/process/Standard Micron.json
index 21e112d..c6cdd2e 100644
--- a/Library/Application Support/OrcaSlicer/user/default/process/Standard Micron.json
+++ b/Library/Application Support/OrcaSlicer/user/default/process/Standard Micron.json
@@ -1,43 +1,48 @@
{
- "accel_to_decel_enable": "1",
"accel_to_decel_factor": "100%",
"bottom_shell_layers": "4",
"bridge_acceleration": "100%",
"bridge_flow": "0.85",
"bridge_speed": "100",
+ "brim_type": "no_brim",
"default_acceleration": "4000",
- "enable_arc_fitting": "1",
"from": "User",
"infill_combination": "1",
+ "infill_direction": "0",
"inherits": "0.20mm Standard @Voron",
"initial_layer_acceleration": "2000",
"initial_layer_infill_speed": "120",
- "initial_layer_line_width": "0.6",
+ "initial_layer_line_width": "110%",
"initial_layer_print_height": "0.3",
"initial_layer_speed": "80",
"initial_layer_travel_speed": "50%",
- "inner_wall_line_width": "0.4",
+ "inner_wall_line_width": "100%",
+ "internal_solid_infill_line_width": "100%",
"internal_solid_infill_speed": "250",
"is_custom_defined": "0",
"line_width": "0",
"name": "Standard Micron",
"only_one_wall_first_layer": "1",
"only_one_wall_top": "1",
+ "outer_wall_line_width": "100%",
"outer_wall_speed": "200",
"post_process": [
"/Users/kdb424/src/klipper_estimator/target/release/klipper_estimator --config_moonraker_url http://micron.home post-process"
],
"print_settings_id": "Standard Micron",
"skirt_distance": "3",
+ "solid_infill_direction": "0",
"sparse_infill_density": "40%",
- "sparse_infill_line_width": "0.7",
+ "sparse_infill_line_width": "175%",
"sparse_infill_speed": "250",
"support_interface_top_layers": "0",
+ "support_line_width": "100%",
"support_on_build_plate_only": "1",
"support_threshold_angle": "7",
"support_top_z_distance": "0",
"support_type": "tree(auto)",
"top_shell_layers": "5",
+ "top_surface_line_width": "100%",
"top_surface_speed": "120",
"travel_acceleration": "5000",
"travel_speed": "500",
diff --git a/Library/Application Support/OrcaSlicer/user/default/process/Standard T0.json b/Library/Application Support/OrcaSlicer/user/default/process/Standard T0.json
index 4529112..c14fdb5 100644
--- a/Library/Application Support/OrcaSlicer/user/default/process/Standard T0.json
+++ b/Library/Application Support/OrcaSlicer/user/default/process/Standard T0.json
@@ -5,9 +5,13 @@
"bridge_speed": "50",
"brim_type": "no_brim",
"default_acceleration": "8000",
- "enable_arc_fitting": "1",
+ "extra_perimeters_on_overhangs": "1",
+ "filter_out_gap_fill": "1",
+ "flush_into_infill": "1",
"from": "User",
+ "gap_fill_target": "topbottom",
"infill_combination": "1",
+ "infill_direction": "0",
"inherits": "0.20mm Standard @Voron",
"initial_layer_acceleration": "3000",
"initial_layer_infill_speed": "120",
@@ -23,6 +27,7 @@
"internal_solid_infill_speed": "250",
"is_custom_defined": "0",
"line_width": "0",
+ "make_overhang_printable_angle": "65",
"name": "Standard T0",
"only_one_wall_first_layer": "1",
"only_one_wall_top": "1",
@@ -36,9 +41,11 @@
"/Users/kdb424/src/klipper_estimator/target/release/klipper_estimator --config_moonraker_url http://v0.home post-process"
],
"print_settings_id": "Standard T0",
+ "solid_infill_direction": "0",
"sparse_infill_acceleration": "10000",
"sparse_infill_density": "40%",
"sparse_infill_line_width": "0.7",
+ "sparse_infill_pattern": "zig-zag",
"sparse_infill_speed": "700",
"support_interface_top_layers": "0",
"support_on_build_plate_only": "1",
diff --git a/Library/Application Support/SuperSlicer/SuperSlicer.ini b/Library/Application Support/SuperSlicer/SuperSlicer.ini
index 29b39cc..4f32b69 100644
--- a/Library/Application Support/SuperSlicer/SuperSlicer.ini
+++ b/Library/Application Support/SuperSlicer/SuperSlicer.ini
@@ -1,4 +1,4 @@
-# generated by SuperSlicer 2.5.59 on 2024-05-17 at 15:10:21 UTC
+# generated by SuperSlicer 2.5.59 on 2024-09-08 at 20:24:48 UTC
allow_ip_resolve = 1
auto_switch_preview = 2
auto_toolbar_size = 100
@@ -70,8 +70,8 @@ use_retina_opengl = 1
use_rich_tooltip = 0
version = 2.5.59.2
version_check = 1
-version_online = 2.5.59.9
-version_online_seen = 2.5.59.9
+version_online = 2.5.60.0
+version_online_seen = 2.5.60.0
view_mode = expert
window_mainframe = 10; 35; 3420; 1395; 0
window_settings_dialog = 0; 25; 3440; 1415; 1
@@ -100,7 +100,7 @@ sla_print =
[recent]
config_directory = /Users/kdb424/Downloads
printhost_path =
-skein_directory = /Users/kdb424/src/Vz-Printhead-Printed/STLs/carriage/VzBoT/MGN9
+skein_directory = /Users/kdb424/Downloads/vz-hextrudort-low-cnc-ebb36-mount-vz-toolhead-pg7-gland-cable-holder-model_files
[recent_projects]
1 = /Users/kdb424/Downloads/BeaconMount.3mf
diff --git a/Library/Application Support/wallust/colors-wal-iterm.plist b/Library/Application Support/wallust/colors-wal-iterm.plist
index a5ad733..ec8142d 100644
--- a/Library/Application Support/wallust/colors-wal-iterm.plist
+++ b/Library/Application Support/wallust/colors-wal-iterm.plist
@@ -166,6 +166,7 @@
},
"Transparency" : 0.35,
"Blur Radius" : 5.0,
+ "Window Type" : 12,
}
]
}