From 039a693b2521a7f380541396c6082802766efec6 Mon Sep 17 00:00:00 2001 From: paxx12 <245230251+paxx12@users.noreply.github.com> Date: Tue, 10 Feb 2026 03:54:57 +0100 Subject: [PATCH] Update Snapmaker U1 printer profile and G-code sequences (#12219) * Sync Snapmaker U1 profiles with upstream v2.2.1 * Customize Snapmaker U1 start gcode: auto bed leveling and adaptive mesh * fix bed mesh min/max regression issues --------- Co-authored-by: SoftFever --- ...er U1_texture.svg => Snapmaker U1_bed.svg} | 0 .../machine/Snapmaker U1 (0.4 nozzle).json | 26 +++++++++++-------- .../profiles/Snapmaker/machine/fdm_U1.json | 11 ++++---- 3 files changed, 21 insertions(+), 16 deletions(-) rename resources/profiles/Snapmaker/{Snapmaker U1_texture.svg => Snapmaker U1_bed.svg} (100%) diff --git a/resources/profiles/Snapmaker/Snapmaker U1_texture.svg b/resources/profiles/Snapmaker/Snapmaker U1_bed.svg similarity index 100% rename from resources/profiles/Snapmaker/Snapmaker U1_texture.svg rename to resources/profiles/Snapmaker/Snapmaker U1_bed.svg diff --git a/resources/profiles/Snapmaker/machine/Snapmaker U1 (0.4 nozzle).json b/resources/profiles/Snapmaker/machine/Snapmaker U1 (0.4 nozzle).json index 3c7d6fa7aa..6422735955 100644 --- a/resources/profiles/Snapmaker/machine/Snapmaker U1 (0.4 nozzle).json +++ b/resources/profiles/Snapmaker/machine/Snapmaker U1 (0.4 nozzle).json @@ -1,14 +1,14 @@ { "type": "machine", + "setting_id": "SM_U1", "name": "Snapmaker U1 (0.4 nozzle)", - "inherits": "fdm_U1", "from": "system", - "setting_id": "1591507869", "instantiation": "true", + "inherits": "fdm_U1", "printer_model": "Snapmaker U1", "printer_variant": "0.4", "auxiliary_fan": "1", - "change_filament_gcode": "; Change Tool[previous_extruder] -> Tool[next_extruder] (layer [layer_num])\n{\nlocal max_speed_toolchange = 350.0;\nlocal wait_for_extruder_temp = true;\nposition[2] = position[2] + 2.0;\n\nlocal speed_toolchange = max_speed_toolchange;\nif travel_speed < max_speed_toolchange then\n speed_toolchange = travel_speed;\nendif\n\"G91\nG0 Z1.5 F600\nG90\n\";\n\"G1 F\" + (speed_toolchange * 60) + \"\n\";\nif wait_for_extruder_temp and not((layer_num < 0) and (next_extruder == initial_tool)) then\n \"\n\";\n \"; \" + layer_num + \"\n\";\n if layer_num == 0 then\n \"M109 S\" + first_layer_temperature[next_extruder] + \" T\" + next_extruder + \"\n\";\n else\n \"M109 S\" + temperature[next_extruder] + \" T\" + next_extruder + \"\n\";\n endif\nendif\n\"T\" + next_extruder + \"\n\";\n}\nM400\n{if filament_type[next_extruder] == \"PVA\"}\nSET_VELOCITY_LIMIT ACCEL=3000\n{else}\n{endif}", + "change_filament_gcode": ";===== date: 20251213=====================\n; Change Tool[previous_extruder] -> Tool[next_extruder] (layer [layer_num])\n{\nlocal max_speed_toolchange = 350.0;\nlocal wait_for_extruder_temp = true;\nposition[2] = position[2] + 2.0;\nlocal speed_toolchange = max_speed_toolchange;\nif travel_speed < max_speed_toolchange then\n speed_toolchange = travel_speed;\nendif\n\"G91\nG1 Z1.5 F1800\nG90\n\";\n\"G1 F\" + (speed_toolchange * 60) + \"\n\";\nif wait_for_extruder_temp and not((layer_num < 0) and (next_extruder == initial_tool)) then\n \"\n\";\n \"; \" + layer_num + \"\n\";\n if layer_num == 0 then\n \"M109 S\" + first_layer_temperature[next_extruder] + \" T\" + next_extruder + \"\n\";\n else\n \"M109 S\" + temperature[next_extruder] + \" T\" + next_extruder + \"\n\";\n endif\nendif\n\"M400\" + \"\n\";\n\"T\" + next_extruder + \"\n\";\nif filament_type[next_extruder] == \"PVA\" then\n\"SET_VELOCITY_LIMIT ACCEL=3000\n\";\nelse\nendif\nif previous_extruder != next_extruder and initial_extruder != next_extruder then\n\"SM_PRINT_PREEXTRUDE_FILAMENT INDEX=\" + next_extruder + \"\n\";\nendif\n\"G90\n\";\n}\n", "extruder_colour": [ "#FCE94F", "#FCE94F", @@ -41,6 +41,7 @@ "20", "12" ], + "machine_start_gcode": "SET_PRINT_AUTO_BED_LEVELING ENABLE=1\nSET_TIME_LAPSE_CAMERA ENABLE=1\n;===== date: 20251222 =====================\n\nPRINT_START\nDEFECT_DETECTION_START\nSET_PRINT_STATS_INFO TOTAL_LAYER={total_layer_count}\nSET_PRINT_STATS_INFO CURRENT_LAYER=0\nTIMELAPSE_START\nM140 S{bed_temperature_initial_layer_single}\nM104 T{initial_extruder} S140\nM204 S10000\n\nG28 X Y\n;===== 床面异物检测 ========\nT{initial_extruder}\nG90\nDEFECT_DETECTION_DETECT_BED\n;===== 取放头检测 =================\nSM_PRINT_CHECK_SWITCH_EXTRUDER\n\n;===== 自动进料 & 挤出流量 & 预挤出 ======================\nSM_PRINT_EXTRUDER_PREHEAT EXTRUDER=1 TEMP=140\nSM_PRINT_AUTO_FEED EXTRUDER=0\nSM_PRINT_FLOW_CALIBRATE EXTRUDER=0\nSM_PRINT_EXTRUDER_PREHEAT EXTRUDER=2 TEMP=140\nSM_PRINT_AUTO_FEED EXTRUDER=1\nSM_PRINT_FLOW_CALIBRATE EXTRUDER=1\nSM_PRINT_EXTRUDER_PREHEAT EXTRUDER=3 TEMP=140\nSM_PRINT_AUTO_FEED EXTRUDER=2\nSM_PRINT_FLOW_CALIBRATE EXTRUDER=2\nSM_PRINT_AUTO_FEED EXTRUDER=3\nSM_PRINT_FLOW_CALIBRATE EXTRUDER=3\nM104 S0 T0 A0\nM104 S0 T1 A0\nM104 S0 T2 A0\nM104 S0 T3 A0\nM104 T{initial_extruder} S{nozzle_temperature[initial_extruder] - 90}\n\n;===== 粗回零 =================\nT{initial_extruder}\nM106 S255\nM106 P2 S0\nMOVE_TO_DISCARD_FILAMENT_POSITION\nM109 T{initial_extruder} S{nozzle_temperature[initial_extruder] - 90}\nROUGHLY_CLEAN_NOZZLE_WITH_DISCARD\nMOVE_TO_XY_IDLE_POSITION_EXTRUDER\nG28 Z I140 J140\n\n;===== 检测钢板 =================\nDETECT_BED_PLATE\n\n;===== 深度清洁喷嘴 =================\nG90\nG0 Z5 F10000\nMOVE_TO_DISCARD_FILAMENT_POSITION\nM109 S{nozzle_temperature[initial_extruder] - 50}\nROUGHLY_CLEAN_NOZZLE\nMOVE_TO_XY_IDLE_POSITION_EXTRUDER\nFINELY_CLEAN_NOZZLE_STAGE_1\nM104 S{nozzle_temperature[initial_extruder] - 90}\nG0 Z5 F10000\nMOVE_TO_DISCARD_FILAMENT_POSITION\nROUGHLY_CLEAN_NOZZLE\nMOVE_TO_XY_IDLE_POSITION_EXTRUDER\nFINELY_CLEAN_NOZZLE_STAGE_2\n\n;===== 精回零 =================\nM106 S255\nM109 S{nozzle_temperature[initial_extruder] - 90}\nM190 S{bed_temperature_initial_layer_single}\nM107 P2\nG90\nG0 Z5 F10000\nG28 Z\n\n;===== 热床调平 =================\n; Always pass `ADAPTIVE_MARGIN=0` because Orca has already handled `adaptive_bed_mesh_margin` internally\n; Make sure to set ADAPTIVE to 0 otherwise Klipper will use it's own adaptive bed mesh logic\nBED_MESH_CALIBRATE mesh_min={adaptive_bed_mesh_min[0]},{adaptive_bed_mesh_min[1]} mesh_max={adaptive_bed_mesh_max[0]},{adaptive_bed_mesh_max[1]} ALGORITHM=[bed_mesh_algo] PROBE_COUNT={bed_mesh_probe_count[0]},{bed_mesh_probe_count[1]} ADAPTIVE=0 ADAPTIVE_MARGIN=0\n; Original upstream: BED_MESH_CALIBRATE PROBE_COUNT=11,11\n\n;===== 画起始线 =================\nG90\nG1 Z1.5\nG0 X10 Y3 Z2 F18000\nM109 S{nozzle_temperature_initial_layer[initial_extruder]}\nG1 Z0.2\nM83\nG1 X110 E15 F360\nG1 Z1.5\n\nG90\nM106 S0", "machine_tool_change_time": "5", "max_layer_height": [ "0.32", @@ -60,14 +61,14 @@ "0.4", "0.4" ], - "nozzle_type": "hardened_steel", + "nozzle_type": "stainless_steel", "printable_area": [ - "-0.5x-1", - "270.5x-1", + "0.5x1", + "270.5x1", "270.5x271", - "-0.5x271" + "0.5x271" ], - "printable_height": "270", + "printable_height": "270.05", "printer_settings_id": "MyToolChanger 0.4 nozzle - Copy", "retract_before_wipe": [ "0%", @@ -183,7 +184,7 @@ "extruder_clearance_radius": "72.5", "machine_load_filament_time": "0", "machine_unload_filament_time": "0", - "before_layer_change_gcode": ";BEFORE_LAYER_CHANGE\n;[layer_z]\nG92 E0\nTIMELAPSE_TAKE_FRAME", + "before_layer_change_gcode": ";BEFORE_LAYER_CHANGE\n;[layer_z]\nG92 E0\nTIMELAPSE_TAKE_FRAME\nDEFECT_DETECTION_DETECT", "z_hop_when_prime": [ "0", "0", @@ -192,6 +193,9 @@ ], "ramming_pressure_advance_value": "0.02", "tool_change_temprature_wait": "0", - "printer_notes": "1、修改幅面坐标,原点坐标\n2、修改换头时间,5S", - "machine_pause_gcode": "M600" + "printer_notes": "", + "machine_pause_gcode": "M600", + "default_bed_type": "Textured PEI Plate", + "layer_change_gcode": ";AFTER_LAYER_CHANGE\n;[layer_z]\nSET_PRINT_STATS_INFO TOTAL_LAYER={total_layer_count}\nSET_PRINT_STATS_INFO CURRENT_LAYER={layer_num+1}", + "nozzle_volume": "143" } \ No newline at end of file diff --git a/resources/profiles/Snapmaker/machine/fdm_U1.json b/resources/profiles/Snapmaker/machine/fdm_U1.json index fca1592792..ab6170bf60 100644 --- a/resources/profiles/Snapmaker/machine/fdm_U1.json +++ b/resources/profiles/Snapmaker/machine/fdm_U1.json @@ -7,7 +7,7 @@ "gcode_flavor": "klipper", "single_extruder_multi_material": "0", "bed_model": "Snapmaker U1_bed.stl", - "bed_texture": "Snapmaker U1_texture.svg", + "bed_texture": "Snapmaker U1_bed.svg", "max_layer_height": [ "0.32", "0.32", @@ -180,9 +180,10 @@ "bed_mesh_min": "3,3", "purge_in_prime_tower": "0", "machine_pause_gcode": "M601", - "change_filament_gcode": "", - "machine_start_gcode": ";===== machine: PR2 ========================\n;===== date: 20250717 =====================\nPRINT_START\n;===== 预热热床和第一个挤出头 =================\nM140 S{bed_temperature_initial_layer_single}\nM104 T{initial_extruder} S140\n\n;===== 粗回零 =================\nG28 X Y\nT{initial_extruder}\nM109 T{initial_extruder} S140\nG28 Z\nG90\nG0 Z10 F10000\nMOVE_TO_DISCARD_FILAMENT_POSITION\nM109 S{nozzle_temperature[initial_extruder] - 50}\nROUGHLY_CLEAN_NOZZLE_WITH_DISCARD\nM104 S{nozzle_temperature[initial_extruder] - 90}\nG4 P2000\nROUGHLY_CLEAN_NOZZLE\nMOVE_TO_XY_IDLE_POSITION_EXTRUDER\n\n;===== 检测钢板 =================\nDETECT_BED_PLATE\nMOVE_TO_XY_IDLE_POSITION_EXTRUDER\n\n;===== 自动进料 ======================\nSM_PRINT_AUTO_FEED EXTRUDER=0\nSM_PRINT_AUTO_FEED EXTRUDER=1\nSM_PRINT_AUTO_FEED EXTRUDER=2\nSM_PRINT_AUTO_FEED EXTRUDER=3\n\n;===== 挤出流量 ======================\n{if (is_extruder_used[0])}\nSM_PRINT_FLOW_CALIBRATE INDEX=0 TARGET_TEMP={nozzle_temperature[0]}\n{endif}\n{if (is_extruder_used[1])}\nSM_PRINT_FLOW_CALIBRATE INDEX=1 TARGET_TEMP={nozzle_temperature[1]}\n{endif}\n{if (is_extruder_used[2])}\nSM_PRINT_FLOW_CALIBRATE INDEX=2 TARGET_TEMP={nozzle_temperature[2]}\n{endif}\n{if (is_extruder_used[3])}\nSM_PRINT_FLOW_CALIBRATE INDEX=3 TARGET_TEMP={nozzle_temperature[3]}\n{endif}\n\n;===== 取出第一个挤出头 =================\nT{initial_extruder}\nSET_VELOCITY_LIMIT ACCEL=10000\nM204 S10000\n\n;===== 深度清洁喷嘴 =================\nG90\nG0 Z10 F10000\nROUGHLY_CLEAN_NOZZLE_WITH_DISCARD\nG0 Z5 F10000\nFINELY_CLEAN_NOZZLE_STAGE_1\nG0 Z5 F10000\nROUGHLY_CLEAN_NOZZLE\nG0 Z5 F10000\nFINELY_CLEAN_NOZZLE_STAGE_2\nM83\n\n;===== 第一个挤出头降温 =================\nM109 S{nozzle_temperature[initial_extruder] - 90}\nM190 S{bed_temperature_initial_layer_single}\nM106 S0\nG90\nG0 Z5 F10000\nMOVE_TO_DISCARD_FILAMENT_POSITION\nINNER_CUTOFF_BASE_DISCARD\nINNER_ROUGHLY_CLEAN_NOZZLE_BASE_DISCARD\nINNER_ROUGHLY_CLEAN_NOZZLE_BASE_DISCARD\nMOVE_TO_XY_IDLE_POSITION_EXTRUDER\n\n;===== 精回零 =================\nG28 Z\n;===== 热床调平 =================\n; Always pass `ADAPTIVE_MARGIN=0` because Orca has already handled `adaptive_bed_mesh_margin` internally\n; Make sure to set ADAPTIVE to 0 otherwise Klipper will use it's own adaptive bed mesh logic\nBED_MESH_CALIBRATE mesh_min={adaptive_bed_mesh_min[0]},{adaptive_bed_mesh_min[1]} mesh_max={adaptive_bed_mesh_max[0]},{adaptive_bed_mesh_max[1]} ALGORITHM=[bed_mesh_algo] PROBE_COUNT={bed_mesh_probe_count[0]},{bed_mesh_probe_count[1]} ADAPTIVE=0 ADAPTIVE_MARGIN=0\n\n;BED_MESH_CALIBRATE PROBE_COUNT=7,7\n\n\n;======== 预挤出/划线 ================\n{if (is_extruder_used[0]) and 0 != initial_extruder}\nSM_PRINT_START_LINE INDEX=0 TARGET_TEMP={nozzle_temperature_initial_layer[0]}\nM83\nM104 S{nozzle_temperature[0] - 90}\n{endif}\n\n{if (is_extruder_used[1]) and 1 != initial_extruder}\nSM_PRINT_START_LINE INDEX=1 TARGET_TEMP={nozzle_temperature_initial_layer[1]}\nM83\nM104 S{nozzle_temperature[1] - 90}\n{endif}\n\n{if (is_extruder_used[2]) and 2 != initial_extruder}\nSM_PRINT_START_LINE INDEX=2 TARGET_TEMP={nozzle_temperature_initial_layer[2]}\nM83\nM104 S{nozzle_temperature[2] - 90}\n{endif}\n\n{if (is_extruder_used[3]) and 3 != initial_extruder}\nSM_PRINT_START_LINE INDEX=3 TARGET_TEMP={nozzle_temperature_initial_layer[3]}\nM83\nM104 S{nozzle_temperature[3] - 90}\n{endif}\n\n{if (is_extruder_used[initial_extruder])}\nSM_PRINT_START_LINE INDEX={initial_extruder} TARGET_TEMP={nozzle_temperature_initial_layer[initial_extruder]}\n{endif}\nM109 S{nozzle_temperature_initial_layer[initial_extruder]} T{initial_extruder}\nM106 S0\n\nTIMELAPSE_START", + "change_filament_gcode": "", + "machine_start_gcode": "PRINT_START TOOL_TEMP={first_layer_temperature[initial_tool]} {if is_extruder_used[0]}T0_TEMP={first_layer_temperature[0]}{endif} {if is_extruder_used[1]}T1_TEMP={first_layer_temperature[1]}{endif} {if is_extruder_used[2]}T2_TEMP={first_layer_temperature[2]}{endif} {if is_extruder_used[3]}T3_TEMP={first_layer_temperature[3]}{endif} {if is_extruder_used[4]}T4_TEMP={first_layer_temperature[4]}{endif} {if is_extruder_used[5]}T5_TEMP={first_layer_temperature[5]}{endif} BED_TEMP=[first_layer_bed_temperature] TOOL=[initial_tool]\n\nM83\n; set extruder temp\n{if first_layer_temperature[0] > 0 and (is_extruder_used[0])}M104 T0 S{first_layer_temperature[0]}{endif}\n{if first_layer_temperature[1] > 0 and (is_extruder_used[1])}M104 T1 S{first_layer_temperature[1]}{endif}\n{if first_layer_temperature[2] > 0 and (is_extruder_used[2])}M104 T2 S{first_layer_temperature[2]}{endif}\n{if first_layer_temperature[3] > 0 and (is_extruder_used[3])}M104 T3 S{first_layer_temperature[3]}{endif}\n{if first_layer_temperature[4] > 0 and (is_extruder_used[4])}M104 T4 S{first_layer_temperature[4]}{endif}\n{if (is_extruder_used[0]) and initial_tool != 0}\n;\n; purge first tool\n;\nG1 F{travel_speed * 60}\nM109 T0 S{first_layer_temperature[0]}\nT0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(0 == 0 ? 0 : (0 == 1 ? 120 : (0 == 2 ? 180 : 300)))} Y{(0 < 4 ? 0 : 3)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if filament_multitool_ramming[0]}10{else}30{endif} X40 Z0.2 F{if filament_multitool_ramming[0]}500{else}170{endif} ; purge while moving towards the sheet\nG0 X40 E9 F800 ; continue purging and wipe the nozzle\nG0 X{40 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{40 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG1 E{- 1.5 * retract_length[0]} F2400 ; retract\n{e_retracted[0] = 1.5 * retract_length[0]} ; update slicer internal retract variable\nG92 E0 ; reset extruder position\n\nM104 S{(idle_temperature[0] == 0 ? (first_layer_temperature[0] + standby_temperature_delta) : (idle_temperature[0]))} T0\n{endif}\n{if (is_extruder_used[1]) and initial_tool != 1}\n;\n; purge second tool\n;\nG1 F{travel_speed * 60}\nM109 T1 S{first_layer_temperature[1]}\nT1; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(1 == 0 ? 0 : (1 == 1 ? 120 : (1 == 2 ? 180 : 300)))} Y{(1 < 4 ? 0 : 3)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if filament_multitool_ramming[1]}10{else}30{endif} X120 Z0.2 F{if filament_multitool_ramming[1]}500{else}170{endif} ; purge while moving towards the sheet\nG0 X80 E9 F800 ; continue purging and wipe the nozzle\nG0 X{80 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{80 - 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG1 E{- 1.5 * retract_length[1]} F2400 ; retract\n{e_retracted[1] = 1.5 * retract_length[1]} ; update slicer internal retract variable\nG92 E0 ; reset extruder position\n\nM104 S{(idle_temperature[1] == 0 ? (first_layer_temperature[1] + standby_temperature_delta) : (idle_temperature[1]))} T1\n{endif}\n{if (is_extruder_used[2]) and initial_tool != 2}\n;\n; purge third tool\n;\nG1 F{travel_speed * 60}\nM109 T2 S{first_layer_temperature[2]}\nT2; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(2 == 0 ? 0 : (2 == 1 ? 120 : (2 == 2 ? 180 : 300)))} Y{(2 < 4 ? 0 : 3)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if filament_multitool_ramming[2]}10{else}30{endif} X220 Z0.2 F{if filament_multitool_ramming[2]}500{else}170{endif} ; purge while moving towards the sheet\nG0 X220 E9 F800 ; continue purging and wipe the nozzle\nG0 X{220 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{220 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG1 E{- 1.5 * retract_length[2]} F2400 ; retract\n{e_retracted[2] = 1.5 * retract_length[2]} ; update slicer internal retract variable\nG92 E0 ; reset extruder position\n\nM104 S{(idle_temperature[2] == 0 ? (first_layer_temperature[2] + standby_temperature_delta) : (idle_temperature[2]))} T2\n{endif}\n{if (is_extruder_used[3]) and initial_tool != 3}\n;\n; purge fourth tool\n;\nG1 F{travel_speed * 60}\nM109 T3 S{first_layer_temperature[3]}\nT3; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(3 == 0 ? 0 : (3 == 1 ? 120 : (3 == 2 ? 180 : 300)))} Y{(3 < 4 ? 0 : 3)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if filament_multitool_ramming[3]}10{else}30{endif} X290 Z0.2 F{if filament_multitool_ramming[3]}500{else}170{endif} ; purge while moving towards the sheet\nG0 X260 E9 F800 ; continue purging and wipe the nozzle\nG0 X{260 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{260 - 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG1 E{- 1.5 * retract_length[3]} F2400 ; retract\n{e_retracted[3] = 1.5 * retract_length[3]} ; update slicer internal retract variable\nG92 E0 ; reset extruder position\n\nM104 S{(idle_temperature[3] == 0 ? (first_layer_temperature[3] + standby_temperature_delta) : (idle_temperature[3]))} T3\n{endif}\n{if (is_extruder_used[4]) and initial_tool != 4}\n;\n; purge fifth tool\n;\nG1 F{travel_speed * 60}\nM109 T4 S{first_layer_temperature[4]}\nT4; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(4 == 0 ? 0 : (4 == 1 ? 120 : (4 == 2 ? 180 : 300)))} Y{(4 < 4 ? 0 : 3)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if filament_multitool_ramming[4]}10{else}30{endif} X290 Z0.2 F{if filament_multitool_ramming[4]}500{else}170{endif} ; purge while moving towards the sheet\nG0 X260 E9 F800 ; continue purging and wipe the nozzle\nG0 X{260 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{260 - 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG1 E{- 1.5 * retract_length[4]} F2400 ; retract\n{e_retracted[4] = 1.5 * retract_length[4]} ; update slicer internal retract variable\nG92 E0 ; reset extruder position\n\nM104 S{(idle_temperature[4] == 0 ? (first_layer_temperature[4] + standby_temperature_delta) : (idle_temperature[4]))} T4\n{endif}\n;\n; purge initial tool\n;\nG1 F{travel_speed * 60}\nM109 T{initial_tool} S{first_layer_temperature[initial_tool]}\nT{initial_tool}; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(initial_tool == 0 ? 0 : (initial_tool == 1 ? 120 : (initial_tool == 2 ? 180 : 300)))} Y{(initial_tool < 4 ? 0 : 3)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if filament_multitool_ramming[initial_tool]}10{else}30{endif} X{(initial_tool == 0 ? 0 : (initial_tool == 1 ? 120 : (initial_tool == 2 ? 180 : 300))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 10)} Z0.2 F{if filament_multitool_ramming[initial_tool]}500{else}170{endif} ; purge while moving towards the sheet\nG0 X{(initial_tool == 0 ? 0 : (initial_tool == 1 ? 120 : (initial_tool == 2 ? 180 : 300))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 40)} E9 F800 ; continue purging and wipe the nozzle\nG0 X{(initial_tool == 0 ? 0 : (initial_tool == 1 ? 120 : (initial_tool == 2 ? 180 : 300))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 40) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 3)} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{(initial_tool == 0 ? 0 : (initial_tool == 1 ? 120 : (initial_tool == 2 ? 180 : 300))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 40) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 3 * 2)} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG1 E{- 1.5 * retract_length[initial_tool]} F2400 ; retract\n{e_retracted[initial_tool] = 1.5 * retract_length[initial_tool]}\nG92 E0 ; reset extruder position\n", "scan_first_layer": "0", - "nozzle_type": "hardened_steel", - "auxiliary_fan": "0" + "nozzle_type": "undefine", + "auxiliary_fan": "0", + "default_bed_type": "Textured PEI Plate" } \ No newline at end of file