diff --git a/resources/profiles/PrusaResearch.idx b/resources/profiles/PrusaResearch.idx index c0ce154a2b..f1053366cb 100644 --- a/resources/profiles/PrusaResearch.idx +++ b/resources/profiles/PrusaResearch.idx @@ -1,7 +1,7 @@ -min_slic3r_version = 2.7.5-alpha0 -1.14.0-alpha1 Added SLA material profiles. -1.14.0-alpha0 Added SLA material profiles. +min_slic3r_version = 2.7.5-rc +1.14.0 Added new settings for SLA material profiles. min_slic3r_version = 2.7.3-beta1 +1.13.4 Updated FW version notification (6.0.1). Added ROSA3D filaments. Updated print profiles for 0.6 nozzle. Updated perimeter speeds in "0.10mm FAST DETAIL" profile (MK4/XL). Slightly increased nozzle temperature for Generic PETG/Prusa PETG/Prusament PETG (0.6n). 1.13.3 Updated FW version notification. 1.13.2 Added material profiles for Prusament Resin Flex Anatomic Red and Prusament Resin Flex Gingiva Mask. 1.13.1 Added material profile for Prusament Resin Model Transparent Clear. Enabled stealth mode support for MINI, XL, MK3.5, MK3.9, MK4 (this mode will be available in FW 6.0.0). diff --git a/resources/profiles/PrusaResearch.ini b/resources/profiles/PrusaResearch.ini index 021826da60..b9ad3c13c0 100644 --- a/resources/profiles/PrusaResearch.ini +++ b/resources/profiles/PrusaResearch.ini @@ -5,7 +5,7 @@ name = Prusa Research # Configuration version of this file. Config file will only be installed, if the config_version differs. # This means, the server may force the PrusaSlicer configuration to be downgraded. -config_version = 1.14.0-alpha1 +config_version = 1.14.0 # Where to get the updates from? config_update_url = https://files.prusa3d.com/wp-content/uploads/repository/PrusaSlicer-settings-master/live/PrusaResearch/ changelog_url = https://files.prusa3d.com/?latest=slicer-profiles&lng=%1% @@ -4089,6 +4089,7 @@ bottom_solid_min_thickness = 0.6 infill_anchor = 2.5 infill_anchor_max = 20 support_material_speed = 90 +fill_density = 20% [print:*MK4IS_common08*] inherits = *MK4IS_common* @@ -4135,6 +4136,7 @@ perimeter_speed = 80 external_perimeter_speed = 45 small_perimeter_speed = 45 infill_speed = 120 +solid_infill_speed = 140 gap_fill_speed = 60 top_solid_infill_speed = 80 support_material_speed = 120 @@ -4164,6 +4166,7 @@ solid_infill_acceleration = 3500 top_solid_infill_acceleration = 1500 default_acceleration = 3000 overhang_speed_3 = 80% +bridge_speed = 45 [print:0.15mm STRUCTURAL @MK4IS 0.4] inherits = 0.20mm STRUCTURAL @MK4IS 0.4 @@ -4173,12 +4176,16 @@ bottom_solid_layers = 5 support_material_contact_distance = 0.17 raft_contact_distance = 0.15 infill_speed = 110 +bridge_speed = 45 [print:0.10mm FAST DETAIL @MK4IS 0.4] inherits = 0.15mm SPEED @MK4IS 0.4 layer_height = 0.1 top_solid_layers = 8 bottom_solid_layers = 7 +perimeter_speed = 140 +external_perimeter_speed = 140 +small_perimeter_speed = 140 support_material_contact_distance = 0.17 raft_contact_distance = 0.15 external_perimeter_acceleration = 2000 @@ -4513,10 +4520,10 @@ top_solid_layers = 6 perimeter_speed = 70 external_perimeter_speed = 45 small_perimeter_speed = 45 -solid_infill_speed = 165 -infill_speed = 130 +solid_infill_speed = 160 +infill_speed = 100 top_solid_infill_speed = 70 -bridge_speed = 40 +bridge_speed = 30 gap_fill_speed = 80 external_perimeter_acceleration = 1500 perimeter_acceleration = 2500 @@ -4542,8 +4549,8 @@ top_solid_layers = 5 perimeter_speed = 125 external_perimeter_speed = 125 small_perimeter_speed = 125 -solid_infill_speed = 125 -infill_speed = 200 +solid_infill_speed = 110 +infill_speed = 110 top_solid_infill_speed = 70 bridge_speed = 40 gap_fill_speed = 80 @@ -4569,8 +4576,8 @@ top_solid_layers = 5 perimeter_speed = 80 external_perimeter_speed = 45 small_perimeter_speed = 45 -infill_speed = 120 -solid_infill_speed = 120 +infill_speed = 100 +solid_infill_speed = 110 top_solid_infill_speed = 70 bridge_speed = 30 gap_fill_speed = 80 @@ -4586,7 +4593,7 @@ layer_height = 0.25 perimeter_speed = 90 external_perimeter_speed = 80 small_perimeter_speed = 80 -infill_speed = 200 +infill_speed = 100 solid_infill_speed = 90 top_solid_infill_speed = 60 support_material_speed = 80 @@ -4607,7 +4614,7 @@ perimeter_speed = 80 external_perimeter_speed = 45 small_perimeter_speed = 45 top_solid_infill_speed = 60 -bridge_speed = 40 +bridge_speed = 30 external_perimeter_acceleration = 1500 perimeter_acceleration = 2500 top_solid_infill_acceleration = 1500 @@ -4623,7 +4630,7 @@ top_solid_layers = 4 perimeter_speed = 70 external_perimeter_speed = 70 small_perimeter_speed = 70 -infill_speed = 200 +infill_speed = 100 solid_infill_speed = 70 top_solid_infill_speed = 60 bridge_speed = 40 @@ -4640,6 +4647,8 @@ support_material_contact_distance = 0.25 [print:0.32mm STRUCTURAL @MK4IS 0.6] inherits = 0.32mm SPEED @MK4IS 0.6 +bottom_solid_layers = 4 +top_solid_layers = 5 perimeter_speed = 70 external_perimeter_speed = 45 small_perimeter_speed = 45 @@ -4995,6 +5004,7 @@ infill_anchor_max = 20 bridge_speed = 40 support_tree_angle_slow = 25 support_tree_branch_diameter_double_wall = 5 +fill_density = 20% [print:*XLIS_common08*] inherits = *XLIS_common* @@ -5046,6 +5056,7 @@ perimeter_speed = 80 external_perimeter_speed = 45 small_perimeter_speed = 45 infill_speed = 120 +solid_infill_speed = 140 gap_fill_speed = 65 top_solid_infill_speed = 75 support_material_speed = 120 @@ -5091,6 +5102,7 @@ solid_infill_acceleration = 3500 top_solid_infill_acceleration = 1500 default_acceleration = 2500 overhang_speed_3 = 80% +bridge_speed = 45 [print:0.15mm STRUCTURAL @XLIS 0.4] inherits = 0.20mm STRUCTURAL @XLIS 0.4 @@ -5100,18 +5112,21 @@ bottom_solid_layers = 5 support_material_contact_distance = 0.17 raft_contact_distance = 0.15 infill_speed = 110 +bridge_speed = 45 [print:0.10mm FAST DETAIL @XLIS 0.4] inherits = 0.15mm SPEED @XLIS 0.4 layer_height = 0.1 top_solid_layers = 8 bottom_solid_layers = 7 +perimeter_speed = 140 +external_perimeter_speed = 140 +small_perimeter_speed = 140 support_material_contact_distance = 0.17 raft_contact_distance = 0.15 external_perimeter_acceleration = 2000 perimeter_acceleration = 2000 solid_infill_acceleration = 2500 -small_perimeter_speed = 150 infill_speed = 140 perimeters = 3 top_infill_extrusion_width = 0.4 @@ -5387,8 +5402,8 @@ top_solid_layers = 6 perimeter_speed = 80 external_perimeter_speed = 45 small_perimeter_speed = 45 -solid_infill_speed = 165 -infill_speed = 120 +solid_infill_speed = 160 +infill_speed = 105 top_solid_infill_speed = 70 gap_fill_speed = 75 external_perimeter_acceleration = 1500 @@ -5415,8 +5430,8 @@ top_solid_layers = 5 perimeter_speed = 120 external_perimeter_speed = 120 small_perimeter_speed = 120 -solid_infill_speed = 125 -infill_speed = 200 +solid_infill_speed = 110 +infill_speed = 120 top_solid_infill_speed = 70 gap_fill_speed = 75 external_perimeter_acceleration = 2500 @@ -5440,7 +5455,7 @@ layer_height = 0.2 bottom_solid_layers = 4 top_solid_layers = 5 infill_speed = 120 -solid_infill_speed = 120 +solid_infill_speed = 110 [print:0.25mm SPEED @XLIS 0.6] inherits = *XLIS_common06* @@ -5448,8 +5463,8 @@ layer_height = 0.25 perimeter_speed = 80 external_perimeter_speed = 80 small_perimeter_speed = 80 -infill_speed = 200 -solid_infill_speed = 95 +infill_speed = 100 +solid_infill_speed = 90 top_solid_infill_speed = 60 support_material_speed = 80 gap_fill_speed = 70 @@ -5503,9 +5518,9 @@ top_solid_layers = 4 perimeter_speed = 70 external_perimeter_speed = 70 small_perimeter_speed = 70 -infill_speed = 200 +infill_speed = 100 solid_infill_speed = 70 -top_solid_infill_speed = 65 +top_solid_infill_speed = 60 gap_fill_speed = 65 support_material_speed = 70 external_perimeter_acceleration = 2500 @@ -5520,8 +5535,8 @@ support_material_contact_distance = 0.25 [print:0.32mm STRUCTURAL @XLIS 0.6] inherits = 0.25mm STRUCTURAL @XLIS 0.6 layer_height = 0.32 -bottom_solid_layers = 3 -top_solid_layers = 4 +bottom_solid_layers = 4 +top_solid_layers = 5 perimeter_speed = 70 solid_infill_speed = 70 infill_speed = 70 @@ -5676,6 +5691,7 @@ small_perimeter_speed = 45 gap_fill_speed = 60 top_solid_infill_speed = 80 infill_speed = 115 +solid_infill_speed = 120 support_material_speed = 100 support_material_interface_speed = 50 external_perimeter_acceleration = 1500 @@ -5809,7 +5825,7 @@ perimeter_speed = 70 external_perimeter_speed = 45 small_perimeter_speed = 45 solid_infill_speed = 140 -infill_speed = 140 +infill_speed = 100 top_solid_infill_speed = 70 bridge_speed = 40 gap_fill_speed = 80 @@ -5838,7 +5854,7 @@ perimeter_speed = 115 external_perimeter_speed = 115 small_perimeter_speed = 115 solid_infill_speed = 100 -infill_speed = 120 +infill_speed = 110 top_solid_infill_speed = 70 bridge_speed = 40 gap_fill_speed = 80 @@ -5901,7 +5917,7 @@ external_perimeter_speed = 45 small_perimeter_speed = 45 infill_speed = 70 solid_infill_speed = 60 -top_solid_infill_speed = 55 +top_solid_infill_speed = 50 bridge_speed = 30 gap_fill_speed = 45 support_material_speed = 60 @@ -6051,6 +6067,7 @@ compatible_printers_condition = printer_notes=~/.*MK3.5.*/ and nozzle_diameter[0 [print:0.20mm STRUCTURAL @MK3.5 0.4] inherits = 0.20mm STRUCTURAL @MK4IS 0.4; *MK3.5_common* +solid_infill_speed = 120 compatible_printers_condition = printer_notes=~/.*MK3.5.*/ and nozzle_diameter[0]==0.4 and ! single_extruder_multi_material [print:0.15mm SPEED @MK3.5 0.4] @@ -6065,6 +6082,7 @@ compatible_printers_condition = printer_notes=~/.*MK3.5.*/ and nozzle_diameter[0 [print:0.15mm STRUCTURAL @MK3.5 0.4] inherits = 0.15mm STRUCTURAL @MK4IS 0.4; *MK3.5_common* +solid_infill_speed = 120 compatible_printers_condition = printer_notes=~/.*MK3.5.*/ and nozzle_diameter[0]==0.4 and ! single_extruder_multi_material [print:0.10mm FAST DETAIL @MK3.5 0.4] @@ -6375,7 +6393,7 @@ filament_max_volumetric_speed = 15 [filament:*PETPG*] compatible_printers_condition = printer_notes=~/.*MK4.*/ and nozzle_diameter[0]!=0.6 and nozzle_diameter[0]!=0.8 filament_max_volumetric_speed = 9.5 -start_filament_gcode = "M900 K{if nozzle_diameter[filament_extruder_id]==0.4}0.07{elsif nozzle_diameter[filament_extruder_id]==0.25}0.12{elsif nozzle_diameter[filament_extruder_id]==0.3}0.09{elsif nozzle_diameter[filament_extruder_id]==0.35}0.08{elsif nozzle_diameter[filament_extruder_id]==0.6}0.04{elsif nozzle_diameter[filament_extruder_id]==0.5}0.05{elsif nozzle_diameter[filament_extruder_id]==0.8}0.02{else}0{endif} ; Filament gcode\n\n{if printer_notes=~/.*(MK4IS|XLIS).*/}\nM572 S{if nozzle_diameter[filament_extruder_id]==0.4}0.055{elsif nozzle_diameter[filament_extruder_id]==0.5}0.042{elsif nozzle_diameter[filament_extruder_id]==0.6}0.032{elsif nozzle_diameter[filament_extruder_id]==0.8}0.018{elsif nozzle_diameter[filament_extruder_id]==0.25}0.18{elsif nozzle_diameter[filament_extruder_id]==0.3}0.1{else}0{endif} ; Filament gcode\n{endif}\n\nM142 S36 ; set heatbreak target temp" +start_filament_gcode = "M900 K{if nozzle_diameter[filament_extruder_id]==0.4}0.07{elsif nozzle_diameter[filament_extruder_id]==0.25}0.12{elsif nozzle_diameter[filament_extruder_id]==0.3}0.09{elsif nozzle_diameter[filament_extruder_id]==0.35}0.08{elsif nozzle_diameter[filament_extruder_id]==0.6}0.04{elsif nozzle_diameter[filament_extruder_id]==0.5}0.05{elsif nozzle_diameter[filament_extruder_id]==0.8}0.02{else}0{endif} ; Filament gcode\n\n{if printer_notes=~/.*(MK4IS|XLIS).*/}\nM572 S{if nozzle_diameter[filament_extruder_id]==0.4}0.053{elsif nozzle_diameter[filament_extruder_id]==0.5}0.042{elsif nozzle_diameter[filament_extruder_id]==0.6}0.032{elsif nozzle_diameter[filament_extruder_id]==0.8}0.018{elsif nozzle_diameter[filament_extruder_id]==0.25}0.18{elsif nozzle_diameter[filament_extruder_id]==0.3}0.1{else}0{endif} ; Filament gcode\n{endif}\n\nM142 S36 ; set heatbreak target temp" idle_temperature = 70 filament_retract_length = 0.8 filament_wipe = 1 @@ -7262,7 +7280,7 @@ renamed_from = "Kimya ABS Carbon @PG 0.8" filament_max_volumetric_speed = 14 [filament:Kimya ABS Carbon @MK4] -inherits = Kimya ABS Carbon; *ABSPG* +inherits = Kimya ABS Carbon; *ABSPG*; *04PLUSPG* filament_max_volumetric_speed = 6 [filament:Kimya ABS Carbon @MK4 0.6] @@ -7969,6 +7987,7 @@ inherits = Generic PETG filament_max_volumetric_speed = 14 slowdown_below_layer_time = 17 max_fan_speed = 60 +bridge_fan_speed = 60 compatible_printers_condition = nozzle_diameter[0]==0.6 and printer_model=="MK3.5" [filament:Generic PETG @PG] @@ -7978,7 +7997,9 @@ compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*M [filament:Generic PETG @PG 0.6] inherits = Generic PETG; *PET06PG* filament_max_volumetric_speed = 17 -temperature = 235 +temperature = 240 +max_fan_speed = 60 +bridge_fan_speed = 60 compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*MK4IS.*/ and nozzle_diameter[0]==0.6 [filament:Generic PETG @PG 0.8] @@ -7993,7 +8014,6 @@ filament_max_volumetric_speed = 9 [filament:Generic PETG @XL 0.6] inherits = Generic PETG @PG 0.6; *PET06XL* -temperature = 235 [filament:Generic PETG @XL 0.8] inherits = Generic PETG @PG 0.8; *PET08XL* @@ -12066,12 +12086,16 @@ compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*M [filament:Prusa PETG @PG 0.6] inherits = Prusa PETG; *PET06PG* +temperature = 240 +max_fan_speed = 60 +bridge_fan_speed = 60 compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*MK4IS.*/ and nozzle_diameter[0]==0.6 -temperature = 235 [filament:Prusa PETG @PG 0.8] inherits = Prusa PETG; *PET08PG* temperature = 250 +max_fan_speed = 60 +bridge_fan_speed = 60 compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*MK4IS.*/ and nozzle_diameter[0]==0.8 [filament:Prusa PETG @XL] @@ -12079,7 +12103,7 @@ inherits = Prusa PETG @PG; *PETXL* [filament:Prusa PETG @XL 0.6] inherits = Prusa PETG @PG 0.6; *PET06XL* -temperature = 235 +temperature = 240 [filament:Prusa PETG @XL 0.8] inherits = Prusa PETG @PG 0.8; *PET08XL* @@ -12100,7 +12124,7 @@ compatible_printers_condition = printer_notes=~/.*PG.*/ and printer_notes=~/.*MK [filament:Prusa PETG @PGIS 0.6] inherits = Generic PETG @PG 0.6 first_layer_temperature = 240 -temperature = 235 +temperature = 240 filament_retract_length = 0.8 filament_wipe = 1 filament_retract_before_wipe = 20 @@ -12162,11 +12186,15 @@ compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*M [filament:Prusament PETG @PG 0.6] inherits = Prusament PETG; *PET06PG* -temperature = 240 +temperature = 245 +max_fan_speed = 60 +bridge_fan_speed = 60 compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*MK4IS.*/ and nozzle_diameter[0]==0.6 [filament:Prusament PETG @PG 0.8] inherits = Prusament PETG; *PET08PG* +max_fan_speed = 60 +bridge_fan_speed = 60 compatible_printers_condition = printer_notes=~/.*MK4.*/ and printer_notes!~/.*MK4IS.*/ and nozzle_diameter[0]==0.8 [filament:Prusament PETG @XL] @@ -12174,7 +12202,6 @@ inherits = Prusament PETG @PG; *PETXL* [filament:Prusament PETG @XL 0.6] inherits = Prusament PETG @PG 0.6; *PET06XL* -temperature = 240 [filament:Prusament PETG @XL 0.8] inherits = Prusament PETG @PG 0.8; *PET08XL* @@ -13757,6 +13784,120 @@ temperature = 240 [filament:Fiberlogy PP @XL 0.8] inherits = Fiberlogy PP @PG 0.8; *ABS08XL* +[filament:ROSA3D PLA Starter] +inherits = *PLA* +filament_vendor = ROSA3D Filaments +temperature = 215 +filament_cost = 74.90 +filament_density = 1.24 +filament_spool_weight = 250 + +[filament:ROSA3D PLA Starter @PG] +inherits = ROSA3D PLA Starter; *PLAPG* +first_layer_temperature = 220 +temperature = 220 +slowdown_below_layer_time = 8 + +[filament:ROSA3D PLA Starter @PG 0.6] +inherits = ROSA3D PLA Starter; *PLA06PG* +first_layer_temperature = 225 +temperature = 225 + +[filament:ROSA3D PLA Starter @PG 0.8] +inherits = ROSA3D PLA Starter; *PLA08PG* +first_layer_temperature = 225 +temperature = 225 + +[filament:ROSA3D PLA Starter @XL] +inherits = ROSA3D PLA Starter @PG; *PLAXL* + +[filament:ROSA3D PLA Starter @XL 0.6] +inherits = ROSA3D PLA Starter @PG 0.6; *PLA06XL* +filament_max_volumetric_speed = 15.5 + +[filament:ROSA3D PLA Starter @XL 0.8] +inherits = ROSA3D PLA Starter @PG 0.8; *PLA08XL* + +[filament:ROSA3D PLA Silk] +inherits = *PLA* +filament_vendor = ROSA3D Filaments +temperature = 215 +filament_max_volumetric_speed = 7 +filament_cost = 109.90 +filament_density = 1.24 +filament_spool_weight = 250 +start_filament_gcode = "M900 K{if nozzle_diameter[0]==0.4}0.05{elsif nozzle_diameter[0]==0.25}0.14{elsif nozzle_diameter[0]==0.3}0.07{elsif nozzle_diameter[0]==0.35}0.06{elsif nozzle_diameter[0]==0.6}0.03{elsif nozzle_diameter[0]==0.5}0.035{elsif nozzle_diameter[0]==0.8}0.015{else}0{endif} ; Filament gcode\n\n{if printer_notes=~/.*(MK4IS|XLIS).*/}\nM572 S{if nozzle_diameter[0]==0.4}0.03{elsif nozzle_diameter[0]==0.5}0.022{elsif nozzle_diameter[0]==0.6}0.018{elsif nozzle_diameter[0]==0.8}0.012{elsif nozzle_diameter[0]==0.25}0.12{elsif nozzle_diameter[0]==0.3}0.075{else}0{endif} ; Filament gcode\n{endif}\n\nM142 S36 ; set heatbreak target temp" + +[filament:ROSA3D PLA Silk @PG] +inherits = ROSA3D PLA Silk; *PLAPG* +filament_max_volumetric_speed = 7 +slowdown_below_layer_time = 10 +first_layer_temperature = 225 +temperature = 225 + +[filament:ROSA3D PLA Silk @PG 0.6] +inherits = ROSA3D PLA Silk; *PLA06PG* +filament_max_volumetric_speed = 9 +temperature = 225 + +[filament:ROSA3D PLA Silk @PG 0.8] +inherits = ROSA3D PLA Silk; *PLA08PG* +first_layer_temperature = 225 +temperature = 225 + +[filament:ROSA3D PLA Silk @XL] +inherits = ROSA3D PLA Silk @PG; *PLAXL* +filament_max_volumetric_speed = 7 + +[filament:ROSA3D PLA Silk @XL 0.6] +inherits = ROSA3D PLA Silk @PG 0.6; *PLA06XL* +filament_max_volumetric_speed = 9 +first_layer_temperature = 225 +temperature = 225 + +[filament:ROSA3D PLA Silk @XL 0.8] +inherits = ROSA3D PLA Silk @PG 0.8; *PLA08XL* +filament_max_volumetric_speed = 12 + +[filament:ROSA3D PETG Standard] +inherits = *PET* +filament_vendor = ROSA3D Filaments +first_layer_temperature = 235 +temperature = 235 +filament_cost = 89.90 +filament_density = 1.29 +filament_spool_weight = 250 +filament_type = PETG + +[filament:ROSA3D PETG Standard @PG] +inherits = ROSA3D PETG Standard; *PETPG* + +[filament:ROSA3D PETG Standard @PG 0.6] +inherits = ROSA3D PETG Standard; *PET06PG* +filament_max_volumetric_speed = 15 + +[filament:ROSA3D PETG Standard @PG 0.8] +inherits = ROSA3D PETG Standard; *PET08PG* + +[filament:ROSA3D PETG Standard @XL] +inherits = ROSA3D PETG Standard @PG; *PETXL* + +[filament:ROSA3D PETG Standard @XL 0.6] +inherits = ROSA3D PETG Standard @PG 0.6; *PET06XL* +filament_max_volumetric_speed = 15 + +[filament:ROSA3D PETG Standard @XL 0.8] +inherits = ROSA3D PETG Standard @PG 0.8; *PET08XL* + +[filament:ROSA3D PETG Standard @MINI] +inherits = ROSA3D PETG Standard; *PETMINI* +filament_vendor = ROSA3D Filaments +first_layer_temperature = 240 +temperature = 240 +filament_cost = 89.90 +filament_density = 1.27 +filament_spool_weight = 250 + [filament:Filament PM PLA] inherits = *PLA* renamed_from = "Plasty Mladec PLA" @@ -14491,7 +14632,7 @@ first_layer_temperature = 230 temperature = 225 filament_max_volumetric_speed = 7.5 slowdown_below_layer_time = 8 -start_filament_gcode = "M900 K{if nozzle_diameter[0]==0.4}0.05{elsif nozzle_diameter[0]==0.25}0.14{elsif nozzle_diameter[0]==0.3}0.07{elsif nozzle_diameter[0]==0.35}0.06{elsif nozzle_diameter[0]==0.6}0.03{elsif nozzle_diameter[0]==0.5}0.035{elsif nozzle_diameter[0]==0.8}0.015{else}0{endif} ; Filament gcode\n\n{if printer_notes=~/.*(MK4IS|XLIS).*/}\nM572 S{if nozzle_diameter[0]==0.4}0.033{elsif nozzle_diameter[0]==0.5}0.022{elsif nozzle_diameter[0]==0.6}0.018{elsif nozzle_diameter[0]==0.8}0.012{elsif nozzle_diameter[0]==0.25}0.12{elsif nozzle_diameter[0]==0.3}0.075{else}0{endif} ; Filament gcode\n{endif}\n\nM142 S36 ; set heatbreak target temp" +start_filament_gcode = "M900 K{if nozzle_diameter[filament_extruder_id]==0.4}0.05{elsif nozzle_diameter[filament_extruder_id]==0.25}0.14{elsif nozzle_diameter[filament_extruder_id]==0.3}0.07{elsif nozzle_diameter[filament_extruder_id]==0.35}0.06{elsif nozzle_diameter[filament_extruder_id]==0.6}0.03{elsif nozzle_diameter[filament_extruder_id]==0.5}0.035{elsif nozzle_diameter[filament_extruder_id]==0.8}0.015{else}0{endif} ; Filament gcode\n\n{if printer_notes=~/.*(MK4IS|XLIS).*/}\nM572 S{if nozzle_diameter[filament_extruder_id]==0.4}0.033{elsif nozzle_diameter[filament_extruder_id]==0.5}0.022{elsif nozzle_diameter[filament_extruder_id]==0.6}0.018{elsif nozzle_diameter[filament_extruder_id]==0.8}0.012{elsif nozzle_diameter[filament_extruder_id]==0.25}0.12{elsif nozzle_diameter[filament_extruder_id]==0.3}0.075{else}0{endif} ; Filament gcode\n{endif}\n\nM142 S36 ; set heatbreak target temp" compatible_printers_condition = printer_notes=~/.*PG.*/ and printer_notes=~/.*MK4IS.*/ and nozzle_diameter[0]!=0.8 and nozzle_diameter[0]!=0.6 [filament:Prusament PLA Blend @PGIS 0.6] @@ -15132,8 +15273,8 @@ temperature = 210 [filament:Verbatim BVOH @PG] inherits = Verbatim BVOH; *ABSPG* -first_layer_temperature = 215 -temperature = 210 +first_layer_temperature = 220 +temperature = 220 idle_temperature = 70 filament_max_volumetric_speed = 4 @@ -20513,7 +20654,7 @@ machine_max_feedrate_y = 400,180 retract_length = 2.5 retract_lift = 0.2 wipe = 0 -start_gcode = M862.3 P "MINI" ; printer model check\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.0+14794\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\nM104 S170 ; set extruder temp for bed leveling\nM140 S[first_layer_bed_temperature] ; set bed temp\nM109 R170 ; wait for bed leveling temp\nM190 S[first_layer_bed_temperature] ; wait for bed temp\nM569 S1 X Y ; set stealthchop for X Y\nM204 T1250 ; set travel acceleration\nG28 ; home all without mesh bed level\nG29 ; mesh bed leveling \nM104 S[first_layer_temperature] ; set extruder temp\nG92 E0\n\nG1 X0 Y-2 Z3 F2400\n\nM109 S[first_layer_temperature] ; wait for extruder temp\n\n; intro line\nG1 X10 Z0.2 F1000\nG1 X70 E8 F900\nG1 X140 E10 F700\nG92 E0\n\nM569 S0 X Y ; set spreadcycle for X Y\nM204 T[machine_max_acceleration_travel] ; restore travel acceleration\nM572 W0.06 ; set smooth time\nM221 S95 ; set flow\n +start_gcode = M862.3 P "MINI" ; printer model check\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.1+14848\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\nM104 S170 ; set extruder temp for bed leveling\nM140 S[first_layer_bed_temperature] ; set bed temp\nM109 R170 ; wait for bed leveling temp\nM190 S[first_layer_bed_temperature] ; wait for bed temp\nM569 S1 X Y ; set stealthchop for X Y\nM204 T1250 ; set travel acceleration\nG28 ; home all without mesh bed level\nG29 ; mesh bed leveling \nM104 S[first_layer_temperature] ; set extruder temp\nG92 E0\n\nG1 X0 Y-2 Z3 F2400\n\nM109 S[first_layer_temperature] ; wait for extruder temp\n\n; intro line\nG1 X10 Z0.2 F1000\nG1 X70 E8 F900\nG1 X140 E10 F700\nG92 E0\n\nM569 S0 X Y ; set spreadcycle for X Y\nM204 T[machine_max_acceleration_travel] ; restore travel acceleration\nM572 W0.06 ; set smooth time\nM221 S95 ; set flow\n end_gcode = {if max_layer_z < max_print_height}G1 Z{z_offset+min(max_layer_z+2, max_print_height)} F720 ; Move print head up{endif}\nG1 X170 Y170 F4200 ; park print head\n{if max_layer_z < max_print_height}G1 Z{z_offset+min(max_layer_z+50, max_print_height)} F720 ; Move print head further up{endif}\nG4 ; wait\nM104 S0 ; turn off temperature\nM140 S0 ; turn off heatbed\nM107 ; turn off fan\nM221 S100 ; reset flow\nM572 S0 ; reset PA\nM569 S1 X Y ; reset to stealthchop for X Y\nM84 ; disable motors\n; max_layer_z = [max_layer_z] printer_notes = Don't remove the following keywords! These keywords are used in the "compatible printer" condition of the print and filament profiles to link the particular print and filament profiles to this printer profile.\nPRINTER_VENDOR_PRUSA3D\nPRINTER_MODEL_MINIIS\nNO_TEMPLATES\n before_layer_gcode = ;BEFORE_LAYER_CHANGE\nG92 E0.0\n;[layer_z]\nM201 X{interpolate_table(extruded_weight_total, (0,4000), (1000,1700), (10000,1700))} Y{interpolate_table(extruded_weight_total, (0,4000), (1000,1700), (10000,1700))}\n{if ! spiral_vase}M74 W[extruded_weight_total]{endif}\n @@ -20593,7 +20734,7 @@ retract_before_travel = 1.5 retract_before_wipe = 80% retract_layer_change = 1 retract_length = 0.8 -start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM115 U6.0.0+14794\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\nM862.1 P[nozzle_diameter]\n; set & wait for bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n; home carriage, pick tool, home all\nG28 XY\nM84 E ; turn off E motor\nG28 Z\nM190 S[first_layer_bed_temperature] ; wait for bed temp\nG29 G ; absorb heat\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F4800\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z10 F480 ; move away in Z\n{if first_layer_bed_temperature[0] > 60}\nG0 Z70 F480 ; move away (a bit more) in Z\nG0 X30 Y{print_bed_min[1]} F6000 ; move away in X/Y for higher bed temperatures\n{endif}\nM106 S100 ; cool off the nozzle\nM107 ; stop cooling off the nozzle - turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nM104 S[first_layer_temperature] ; set extruder temp\nG1 Z10 F720 ; move away in Z\nG0 X30 Y-8 F6000 ; move next to the sheet\n; wait for extruder temp\nM109 T0 S{first_layer_temperature[0]}\n;\n; purge\n;\nG92 E0 ; reset extruder position\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -8 : -5.5)} ; move close to the sheet's edge\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E10 X40 Z0.2 F500 ; purge\nG0 X70 E9 F800 ; purge\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG92 E0 ; reset extruder position\n +start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM115 U6.0.1+14848\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\nM862.1 P[nozzle_diameter]\n; set & wait for bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n; home carriage, pick tool, home all\nG28 XY\nM84 E ; turn off E motor\nG28 Z\nM190 S[first_layer_bed_temperature] ; wait for bed temp\nG29 G ; absorb heat\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F4800\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z10 F480 ; move away in Z\n{if first_layer_bed_temperature[0] > 60}\nG0 Z70 F480 ; move away (a bit more) in Z\nG0 X30 Y{print_bed_min[1]} F6000 ; move away in X/Y for higher bed temperatures\n{endif}\nM106 S100 ; cool off the nozzle\nM107 ; stop cooling off the nozzle - turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nM104 S[first_layer_temperature] ; set extruder temp\nG1 Z10 F720 ; move away in Z\nG0 X30 Y-8 F6000 ; move next to the sheet\n; wait for extruder temp\nM109 T0 S{first_layer_temperature[0]}\n;\n; purge\n;\nG92 E0 ; reset extruder position\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -8 : -5.5)} ; move close to the sheet's edge\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E10 X40 Z0.2 F500 ; purge\nG0 X70 E9 F800 ; purge\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG92 E0 ; reset extruder position\n default_print_profile = 0.20mm QUALITY @XL 0.4 default_filament_profile = "Prusament PLA @PG" thumbnails = 16x16/QOI, 313x173/QOI, 440x240/QOI, 480x240/QOI, 640x480/PNG @@ -20621,7 +20762,7 @@ machine_max_feedrate_e = 100,100 machine_max_feedrate_x = 400,140 machine_max_feedrate_y = 400,140 printer_notes = Do not remove the keywords below.\nPRINTER_VENDOR_PRUSA3D\nPRINTER_MODEL_XLIS\nPG\nINPUT_SHAPER -start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.0+14794\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\nM862.1 P[nozzle_diameter]\n; set & wait for bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n; home carriage, pick tool, home all\nG28 XY\nM84 E ; turn off E motor\nG28 Z\n\nM104 T{initial_tool} S{if is_nil(idle_temperature[initial_tool])}70{else}{idle_temperature[initial_tool]}{endif}\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nG29 G ; absorb heat\n\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} \n; wait for temp\n\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F4800\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z10 F480 ; move away in Z\n{if first_layer_bed_temperature[0] > 60}\nG0 Z70 F480 ; move away (a bit more) in Z\nG0 X30 Y{print_bed_min[1]} F6000 ; move away in X/Y for higher bed temperatures\n{endif}\nM106 S100 ; cool off the nozzle\nM107 ; stop cooling off the nozzle - turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nM104 S[first_layer_temperature] ; set extruder temp\nG1 Z10 F720 ; move away in Z\nG0 X30 Y-8 F6000 ; move next to the sheet\n; wait for extruder temp\nM109 T0 S{first_layer_temperature[0]}\n;\n; purge\n;\nG92 E0 ; reset extruder position\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -8 : -5.5)} ; move close to the sheet's edge\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E10 X40 Z0.2 F500 ; purge\nG0 X70 E9 F800 ; purge\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG92 E0 ; reset extruder position\n\nM593 X T2 F38.4\nM593 Y T2 F39.2\n +start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.1+14848\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\nM862.1 P[nozzle_diameter]\n; set & wait for bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n; home carriage, pick tool, home all\nG28 XY\nM84 E ; turn off E motor\nG28 Z\n\nM104 T{initial_tool} S{if is_nil(idle_temperature[initial_tool])}70{else}{idle_temperature[initial_tool]}{endif}\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nG29 G ; absorb heat\n\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} \n; wait for temp\n\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F4800\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z10 F480 ; move away in Z\n{if first_layer_bed_temperature[0] > 60}\nG0 Z70 F480 ; move away (a bit more) in Z\nG0 X30 Y{print_bed_min[1]} F6000 ; move away in X/Y for higher bed temperatures\n{endif}\nM106 S100 ; cool off the nozzle\nM107 ; stop cooling off the nozzle - turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nM104 S[first_layer_temperature] ; set extruder temp\nG1 Z10 F720 ; move away in Z\nG0 X30 Y-8 F6000 ; move next to the sheet\n; wait for extruder temp\nM109 T0 S{first_layer_temperature[0]}\n;\n; purge\n;\nG92 E0 ; reset extruder position\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -8 : -5.5)} ; move close to the sheet's edge\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E10 X40 Z0.2 F500 ; purge\nG0 X70 E9 F800 ; purge\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\nG92 E0 ; reset extruder position\n default_print_profile = 0.20mm SPEED @XLIS 0.4 default_filament_profile = "Prusament PLA @XLIS" @@ -20644,7 +20785,7 @@ retract_restart_extra = 0,0,0,0,0 retract_restart_extra_toolchange = 0,0,0,0,0 wipe = 1,1,1,1,1 extruder_colour = #FF8000;#DB5182;#3EC0FF;#FF4F4F;#FBEB7D -start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM115 U6.0.0+14794\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\n{if (is_extruder_used[0])}M862.1 T0 P{nozzle_diameter[0]}{endif}\n{if (is_extruder_used[1])}M862.1 T1 P{nozzle_diameter[1]}{endif}\n{if (is_extruder_used[2])}M862.1 T2 P{nozzle_diameter[2]}{endif}\n{if (is_extruder_used[3])}M862.1 T3 P{nozzle_diameter[3]}{endif}\n{if (is_extruder_used[4])}M862.1 T4 P{nozzle_diameter[4]}{endif}\n\n; turn off unused heaters\n{if ! is_extruder_used[0]} M104 T0 S0 {endif}\n{if ! is_extruder_used[1]} M104 T1 S0 {endif}\n{if num_extruders > 2 and ! is_extruder_used[2]} M104 T2 S0 {endif}\n{if num_extruders > 3 and ! is_extruder_used[3]} M104 T3 S0 {endif}\n{if num_extruders > 4 and ! is_extruder_used[4]} M104 T4 S0 {endif}\n\nM217 Z{max(zhop, 2.0)} ; set toolchange z hop to 2mm, or zhop variable from slicer if higher\n; set bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nG0 Z5 ; add Z clearance\nM109 T{initial_tool} S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\n; Home XY\nG28 XY\n; try picking tools used in print\nG1 F{travel_speed * 60}\n{if (is_extruder_used[0]) and (initial_tool != 0)}T0 S1 L0 D0{endif}\n{if (is_extruder_used[1]) and (initial_tool != 1)}T1 S1 L0 D0{endif}\n{if (is_extruder_used[2]) and (initial_tool != 2)}T2 S1 L0 D0{endif}\n{if (is_extruder_used[3]) and (initial_tool != 3)}T3 S1 L0 D0{endif}\n{if (is_extruder_used[4]) and (initial_tool != 4)}T4 S1 L0 D0{endif}\n; select tool that will be used to home & MBL\nT{initial_tool} S1 L0 D0\n; home Z with MBL tool\nM84 E ; turn off E motor\nG28 Z\nG0 Z5 ; add Z clearance\nM190 S[first_layer_bed_temperature] ; wait for bed temp\nG29 G ; absorb heat\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F{(travel_speed * 60)}\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z5 F480 ; move away in Z\nM107 ; turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W{(((is_extruder_used[4]) or ((is_extruder_used[3]) or (is_extruder_used[2]))) ? "300" : ((is_extruder_used[1]) ? "130" : "50"))} H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nG1 Z10 F720 ; move away in Z\nG1 F{travel_speed * 60}\nP0 S1 L1 D0; park the tool\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}\nP0 S1 L2 D0; park the tool\nM109 T0 S{first_layer_temperature[0]}\nT0 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[0])}10{else}30{endif} X40 Z0.2 F{if is_nil(filament_multitool_ramming[0])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X70 E9 F800 ; continue purging and wipe the nozzle\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 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{(is_nil(idle_temperature[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}\nP0 S1 L2 D0; park the tool\nM109 T1 S{first_layer_temperature[1]}\nT1 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(1 == 0 ? 30 : (1 == 1 ? 150 : (1 == 2 ? 210 : 330)))} Y{(1 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[1])}10{else}30{endif} X140 Z0.2 F{if is_nil(filament_multitool_ramming[1])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X110 E9 F800 ; continue purging and wipe the nozzle\nG0 X{110 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{110 - 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{(is_nil(idle_temperature[1]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T2 S{first_layer_temperature[2]}\nT2 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(2 == 0 ? 30 : (2 == 1 ? 150 : (2 == 2 ? 210 : 330)))} Y{(2 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[2])}10{else}30{endif} X220 Z0.2 F{if is_nil(filament_multitool_ramming[2])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X250 E9 F800 ; continue purging and wipe the nozzle\nG0 X{250 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{250 + 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{(is_nil(idle_temperature[2]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T3 S{first_layer_temperature[3]}\nT3 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(3 == 0 ? 30 : (3 == 1 ? 150 : (3 == 2 ? 210 : 330)))} Y{(3 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[3])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[3])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[3]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T4 S{first_layer_temperature[4]}\nT4 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(4 == 0 ? 30 : (4 == 1 ? 150 : (4 == 2 ? 210 : 330)))} Y{(4 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[4])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[4])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[4]) ? (first_layer_temperature[4] + standby_temperature_delta) : (idle_temperature[4]))} T4\n{endif}\n;\n; purge initial tool\n;\nG1 F{travel_speed * 60}\nP0 S1 L2 D0; park the tool\nM109 T{initial_tool} S{first_layer_temperature[initial_tool]}\nT{initial_tool} S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330)))} Y{(initial_tool < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[initial_tool])}10{else}30{endif} X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 10)} Z0.2 F{if is_nil(filament_multitool_ramming[initial_tool])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 40)} E9 F800 ; continue purging and wipe the nozzle\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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 +start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM115 U6.0.1+14848\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\n{if (is_extruder_used[0])}M862.1 T0 P{nozzle_diameter[0]}{endif}\n{if (is_extruder_used[1])}M862.1 T1 P{nozzle_diameter[1]}{endif}\n{if (is_extruder_used[2])}M862.1 T2 P{nozzle_diameter[2]}{endif}\n{if (is_extruder_used[3])}M862.1 T3 P{nozzle_diameter[3]}{endif}\n{if (is_extruder_used[4])}M862.1 T4 P{nozzle_diameter[4]}{endif}\n\n; turn off unused heaters\n{if ! is_extruder_used[0]} M104 T0 S0 {endif}\n{if ! is_extruder_used[1]} M104 T1 S0 {endif}\n{if num_extruders > 2 and ! is_extruder_used[2]} M104 T2 S0 {endif}\n{if num_extruders > 3 and ! is_extruder_used[3]} M104 T3 S0 {endif}\n{if num_extruders > 4 and ! is_extruder_used[4]} M104 T4 S0 {endif}\n\nM217 Z{max(zhop, 2.0)} ; set toolchange z hop to 2mm, or zhop variable from slicer if higher\n; set bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nG0 Z5 ; add Z clearance\nM109 T{initial_tool} S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\n; Home XY\nG28 XY\n; try picking tools used in print\nG1 F{travel_speed * 60}\n{if (is_extruder_used[0]) and (initial_tool != 0)}T0 S1 L0 D0{endif}\n{if (is_extruder_used[1]) and (initial_tool != 1)}T1 S1 L0 D0{endif}\n{if (is_extruder_used[2]) and (initial_tool != 2)}T2 S1 L0 D0{endif}\n{if (is_extruder_used[3]) and (initial_tool != 3)}T3 S1 L0 D0{endif}\n{if (is_extruder_used[4]) and (initial_tool != 4)}T4 S1 L0 D0{endif}\n; select tool that will be used to home & MBL\nT{initial_tool} S1 L0 D0\n; home Z with MBL tool\nM84 E ; turn off E motor\nG28 Z\nG0 Z5 ; add Z clearance\nM190 S[first_layer_bed_temperature] ; wait for bed temp\nG29 G ; absorb heat\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F{(travel_speed * 60)}\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z5 F480 ; move away in Z\nM107 ; turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W{(((is_extruder_used[4]) or ((is_extruder_used[3]) or (is_extruder_used[2]))) ? "300" : ((is_extruder_used[1]) ? "130" : "50"))} H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nG1 Z10 F720 ; move away in Z\nG1 F{travel_speed * 60}\nP0 S1 L1 D0; park the tool\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}\nP0 S1 L2 D0; park the tool\nM109 T0 S{first_layer_temperature[0]}\nT0 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[0])}10{else}30{endif} X40 Z0.2 F{if is_nil(filament_multitool_ramming[0])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X70 E9 F800 ; continue purging and wipe the nozzle\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 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{(is_nil(idle_temperature[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}\nP0 S1 L2 D0; park the tool\nM109 T1 S{first_layer_temperature[1]}\nT1 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(1 == 0 ? 30 : (1 == 1 ? 150 : (1 == 2 ? 210 : 330)))} Y{(1 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[1])}10{else}30{endif} X140 Z0.2 F{if is_nil(filament_multitool_ramming[1])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X110 E9 F800 ; continue purging and wipe the nozzle\nG0 X{110 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{110 - 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{(is_nil(idle_temperature[1]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T2 S{first_layer_temperature[2]}\nT2 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(2 == 0 ? 30 : (2 == 1 ? 150 : (2 == 2 ? 210 : 330)))} Y{(2 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[2])}10{else}30{endif} X220 Z0.2 F{if is_nil(filament_multitool_ramming[2])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X250 E9 F800 ; continue purging and wipe the nozzle\nG0 X{250 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{250 + 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{(is_nil(idle_temperature[2]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T3 S{first_layer_temperature[3]}\nT3 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(3 == 0 ? 30 : (3 == 1 ? 150 : (3 == 2 ? 210 : 330)))} Y{(3 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[3])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[3])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[3]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T4 S{first_layer_temperature[4]}\nT4 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(4 == 0 ? 30 : (4 == 1 ? 150 : (4 == 2 ? 210 : 330)))} Y{(4 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[4])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[4])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[4]) ? (first_layer_temperature[4] + standby_temperature_delta) : (idle_temperature[4]))} T4\n{endif}\n;\n; purge initial tool\n;\nG1 F{travel_speed * 60}\nP0 S1 L2 D0; park the tool\nM109 T{initial_tool} S{first_layer_temperature[initial_tool]}\nT{initial_tool} S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330)))} Y{(initial_tool < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[initial_tool])}10{else}30{endif} X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 10)} Z0.2 F{if is_nil(filament_multitool_ramming[initial_tool])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 40)} E9 F800 ; continue purging and wipe the nozzle\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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 end_gcode = G4 ; wait\n\n{if max_layer_z < max_print_height}G1 Z{z_offset+min(max_layer_z+5, max_print_height)}{endif} ; Move bed down\n\nP0 S1 ; park tool\n\n{if max_layer_z < max_print_height}G1 Z{z_offset+min(max_layer_z+97, max_print_height)} F300{endif} ; Move bed further down\n\n; turn off extruder heaters\n{if is_extruder_used[0]} M104 T0 S0 {endif}\n{if is_extruder_used[1]} M104 T1 S0 {endif}\n{if is_extruder_used[2]} M104 T2 S0 {endif}\n{if is_extruder_used[3]} M104 T3 S0 {endif}\n{if is_extruder_used[4]} M104 T4 S0 {endif}\n\nM140 S0 ; turn off heatbed\nM107 ; turn off fan\nM221 S100 ; reset flow percentage\nM84 ; disable motors\nM77 ; stop print timer\n; max_layer_z = [max_layer_z] toolchange_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"G1 F" + (speed_toolchange * 60) + "\n";\nif wait_for_extruder_temp and not((layer_num < 0) and (next_extruder == initial_tool)) then\n "P0 S1 L2 D0\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 + " S1 L0 D0\n";\n} color_change_gcode = M600 @@ -20665,7 +20806,7 @@ machine_max_feedrate_e = 100,100 machine_max_feedrate_x = 400,140 machine_max_feedrate_y = 400,140 printer_notes = Do not remove the keywords below.\nPRINTER_VENDOR_PRUSA3D\nPRINTER_MODEL_XLIS\nPG\nINPUT_SHAPER -start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.0+14794\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\n{if (is_extruder_used[0])}M862.1 T0 P{nozzle_diameter[0]}{endif}\n{if (is_extruder_used[1])}M862.1 T1 P{nozzle_diameter[1]}{endif}\n{if (is_extruder_used[2])}M862.1 T2 P{nozzle_diameter[2]}{endif}\n{if (is_extruder_used[3])}M862.1 T3 P{nozzle_diameter[3]}{endif}\n{if (is_extruder_used[4])}M862.1 T4 P{nozzle_diameter[4]}{endif}\n\n; turn off unused heaters\n{if ! is_extruder_used[0]} M104 T0 S0 {endif}\n{if ! is_extruder_used[1]} M104 T1 S0 {endif}\n{if num_extruders > 2 and ! is_extruder_used[2]} M104 T2 S0 {endif}\n{if num_extruders > 3 and ! is_extruder_used[3]} M104 T3 S0 {endif}\n{if num_extruders > 4 and ! is_extruder_used[4]} M104 T4 S0 {endif}\n\nM217 Z{max(zhop, 2.0)} ; set toolchange z hop to 2mm, or zhop variable from slicer if higher\n; set bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nG0 Z5 ; add Z clearance\nM109 T{initial_tool} S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\n; Home XY\nG28 XY\n; try picking tools used in print\nG1 F{travel_speed * 60}\n{if (is_extruder_used[0]) and (initial_tool != 0)}T0 S1 L0 D0{endif}\n{if (is_extruder_used[1]) and (initial_tool != 1)}T1 S1 L0 D0{endif}\n{if (is_extruder_used[2]) and (initial_tool != 2)}T2 S1 L0 D0{endif}\n{if (is_extruder_used[3]) and (initial_tool != 3)}T3 S1 L0 D0{endif}\n{if (is_extruder_used[4]) and (initial_tool != 4)}T4 S1 L0 D0{endif}\n; select tool that will be used to home & MBL\nT{initial_tool} S1 L0 D0\n; home Z with MBL tool\nM84 E ; turn off E motor\nG28 Z\nG0 Z5 ; add Z clearance\n\nM104 T{initial_tool} S{if is_nil(idle_temperature[initial_tool])}70{else}{idle_temperature[initial_tool]}{endif} ; set idle temp\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nG29 G ; absorb heat\n\nM109 T{initial_tool} S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F{(travel_speed * 60)}\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z5 F480 ; move away in Z\nM107 ; turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W{(((is_extruder_used[4]) or ((is_extruder_used[3]) or (is_extruder_used[2]))) ? "300" : ((is_extruder_used[1]) ? "130" : "50"))} H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nG1 Z10 F720 ; move away in Z\nG1 F{travel_speed * 60}\nP0 S1 L1 D0; park the tool\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}\nP0 S1 L2 D0; park the tool\nM109 T0 S{first_layer_temperature[0]}\nT0 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[0])}10{else}30{endif} X40 Z0.2 F{if is_nil(filament_multitool_ramming[0])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X70 E9 F800 ; continue purging and wipe the nozzle\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 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{(is_nil(idle_temperature[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}\nP0 S1 L2 D0; park the tool\nM109 T1 S{first_layer_temperature[1]}\nT1 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(1 == 0 ? 30 : (1 == 1 ? 150 : (1 == 2 ? 210 : 330)))} Y{(1 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[1])}10{else}30{endif} X140 Z0.2 F{if is_nil(filament_multitool_ramming[1])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X110 E9 F800 ; continue purging and wipe the nozzle\nG0 X{110 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{110 - 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{(is_nil(idle_temperature[1]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T2 S{first_layer_temperature[2]}\nT2 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(2 == 0 ? 30 : (2 == 1 ? 150 : (2 == 2 ? 210 : 330)))} Y{(2 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[2])}10{else}30{endif} X220 Z0.2 F{if is_nil(filament_multitool_ramming[2])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X250 E9 F800 ; continue purging and wipe the nozzle\nG0 X{250 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{250 + 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{(is_nil(idle_temperature[2]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T3 S{first_layer_temperature[3]}\nT3 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(3 == 0 ? 30 : (3 == 1 ? 150 : (3 == 2 ? 210 : 330)))} Y{(3 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[3])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[3])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[3]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T4 S{first_layer_temperature[4]}\nT4 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(4 == 0 ? 30 : (4 == 1 ? 150 : (4 == 2 ? 210 : 330)))} Y{(4 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[4])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[4])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[4]) ? (first_layer_temperature[4] + standby_temperature_delta) : (idle_temperature[4]))} T4\n{endif}\n;\n; purge initial tool\n;\nG1 F{travel_speed * 60}\nP0 S1 L2 D0; park the tool\nM109 T{initial_tool} S{first_layer_temperature[initial_tool]}\nT{initial_tool} S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330)))} Y{(initial_tool < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[initial_tool])}10{else}30{endif} X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 10)} Z0.2 F{if is_nil(filament_multitool_ramming[initial_tool])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 40)} E9 F800 ; continue purging and wipe the nozzle\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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\nM593 X T2 F35.8\nM593 Y T2 F35.4\n +start_gcode = M17 ; enable steppers\nM862.3 P "XL" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.1+14848\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n; set print area\nM555 X{first_layer_print_min[0]} Y{first_layer_print_min[1]} W{(first_layer_print_max[0]) - (first_layer_print_min[0])} H{(first_layer_print_max[1]) - (first_layer_print_min[1])}\n; inform about nozzle diameter\n{if (is_extruder_used[0])}M862.1 T0 P{nozzle_diameter[0]}{endif}\n{if (is_extruder_used[1])}M862.1 T1 P{nozzle_diameter[1]}{endif}\n{if (is_extruder_used[2])}M862.1 T2 P{nozzle_diameter[2]}{endif}\n{if (is_extruder_used[3])}M862.1 T3 P{nozzle_diameter[3]}{endif}\n{if (is_extruder_used[4])}M862.1 T4 P{nozzle_diameter[4]}{endif}\n\n; turn off unused heaters\n{if ! is_extruder_used[0]} M104 T0 S0 {endif}\n{if ! is_extruder_used[1]} M104 T1 S0 {endif}\n{if num_extruders > 2 and ! is_extruder_used[2]} M104 T2 S0 {endif}\n{if num_extruders > 3 and ! is_extruder_used[3]} M104 T3 S0 {endif}\n{if num_extruders > 4 and ! is_extruder_used[4]} M104 T4 S0 {endif}\n\nM217 Z{max(zhop, 2.0)} ; set toolchange z hop to 2mm, or zhop variable from slicer if higher\n; set bed and extruder temp for MBL\nM140 S[first_layer_bed_temperature] ; set bed temp\nG0 Z5 ; add Z clearance\nM109 T{initial_tool} S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\n; Home XY\nG28 XY\n; try picking tools used in print\nG1 F{travel_speed * 60}\n{if (is_extruder_used[0]) and (initial_tool != 0)}T0 S1 L0 D0{endif}\n{if (is_extruder_used[1]) and (initial_tool != 1)}T1 S1 L0 D0{endif}\n{if (is_extruder_used[2]) and (initial_tool != 2)}T2 S1 L0 D0{endif}\n{if (is_extruder_used[3]) and (initial_tool != 3)}T3 S1 L0 D0{endif}\n{if (is_extruder_used[4]) and (initial_tool != 4)}T4 S1 L0 D0{endif}\n; select tool that will be used to home & MBL\nT{initial_tool} S1 L0 D0\n; home Z with MBL tool\nM84 E ; turn off E motor\nG28 Z\nG0 Z5 ; add Z clearance\n\nM104 T{initial_tool} S{if is_nil(idle_temperature[initial_tool])}70{else}{idle_temperature[initial_tool]}{endif} ; set idle temp\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nG29 G ; absorb heat\n\nM109 T{initial_tool} S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\n; move to the nozzle cleanup area\nG1 X{(min(((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))), first_layer_print_min[0])) + 32} Y{(min((first_layer_print_min[1] - 7), first_layer_print_min[1]))} Z{5} F{(travel_speed * 60)}\nM302 S160 ; lower cold extrusion limit to 160C\nG1 E{-(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; retraction for nozzle cleanup\n; nozzle cleanup\nM84 E ; turn off E motor\nG29 P9 X{((((first_layer_print_min[0] + first_layer_print_max[0]) / 2) < ((print_bed_min[0] + print_bed_max[0]) / 2)) ? (((first_layer_print_min[1] - 7) < -2) ? 70 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)) : (((first_layer_print_min[1] - 7) < -2) ? 260 : (min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)))} Y{(first_layer_print_min[1] - 7)} W{32} H{7}\nG0 Z5 F480 ; move away in Z\nM107 ; turn off the fan\n; MBL\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X30 Y0 W{(((is_extruder_used[4]) or ((is_extruder_used[3]) or (is_extruder_used[2]))) ? "300" : ((is_extruder_used[1]) ? "130" : "50"))} H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\nG1 Z10 F720 ; move away in Z\nG1 F{travel_speed * 60}\nP0 S1 L1 D0; park the tool\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}\nP0 S1 L2 D0; park the tool\nM109 T0 S{first_layer_temperature[0]}\nT0 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(0 == 0 ? 30 : (0 == 1 ? 150 : (0 == 2 ? 210 : 330)))} Y{(0 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[0])}10{else}30{endif} X40 Z0.2 F{if is_nil(filament_multitool_ramming[0])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X70 E9 F800 ; continue purging and wipe the nozzle\nG0 X{70 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{70 + 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{(is_nil(idle_temperature[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}\nP0 S1 L2 D0; park the tool\nM109 T1 S{first_layer_temperature[1]}\nT1 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(1 == 0 ? 30 : (1 == 1 ? 150 : (1 == 2 ? 210 : 330)))} Y{(1 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[1])}10{else}30{endif} X140 Z0.2 F{if is_nil(filament_multitool_ramming[1])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X110 E9 F800 ; continue purging and wipe the nozzle\nG0 X{110 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{110 - 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{(is_nil(idle_temperature[1]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T2 S{first_layer_temperature[2]}\nT2 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(2 == 0 ? 30 : (2 == 1 ? 150 : (2 == 2 ? 210 : 330)))} Y{(2 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[2])}10{else}30{endif} X220 Z0.2 F{if is_nil(filament_multitool_ramming[2])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X250 E9 F800 ; continue purging and wipe the nozzle\nG0 X{250 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{250 + 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{(is_nil(idle_temperature[2]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T3 S{first_layer_temperature[3]}\nT3 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(3 == 0 ? 30 : (3 == 1 ? 150 : (3 == 2 ? 210 : 330)))} Y{(3 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[3])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[3])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[3]) ? (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}\nP0 S1 L2 D0; park the tool\nM109 T4 S{first_layer_temperature[4]}\nT4 S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(4 == 0 ? 30 : (4 == 1 ? 150 : (4 == 2 ? 210 : 330)))} Y{(4 < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[4])}10{else}30{endif} X320 Z0.2 F{if is_nil(filament_multitool_ramming[4])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X290 E9 F800 ; continue purging and wipe the nozzle\nG0 X{290 - 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{290 - 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{(is_nil(idle_temperature[4]) ? (first_layer_temperature[4] + standby_temperature_delta) : (idle_temperature[4]))} T4\n{endif}\n;\n; purge initial tool\n;\nG1 F{travel_speed * 60}\nP0 S1 L2 D0; park the tool\nM109 T{initial_tool} S{first_layer_temperature[initial_tool]}\nT{initial_tool} S1 L0 D0; pick the tool\nG92 E0 ; reset extruder position\n\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330)))} Y{(initial_tool < 4 ? -7 : -4.5)} Z10 F{(travel_speed * 60)} ; move close to the sheet's edge\nG0 E{if is_nil(filament_multitool_ramming[initial_tool])}10{else}30{endif} X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 10)} Z0.2 F{if is_nil(filament_multitool_ramming[initial_tool])}500{else}170{endif} ; purge while moving towards the sheet\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((initial_tool == 0 or initial_tool == 2 ? 1 : -1) * 40)} E9 F800 ; continue purging and wipe the nozzle\nG0 X{(initial_tool == 0 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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 ? 30 : (initial_tool == 1 ? 150 : (initial_tool == 2 ? 210 : 330))) + ((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 default_print_profile = 0.20mm SPEED @XLIS 0.4 default_filament_profile = "Prusament PLA @XLIS" @@ -21204,7 +21345,7 @@ retract_before_travel = 1.5 retract_before_wipe = 80% retract_layer_change = 1 retract_length = 0.8 -start_gcode = M17 ; enable steppers\nM862.3 P "[printer_model]" ; printer model check\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM115 U6.0.0+14794\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% +start_gcode = M17 ; enable steppers\nM862.3 P "[printer_model]" ; printer model check\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM115 U6.0.1+14848\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% default_print_profile = 0.20mm QUALITY @MK4 0.4 default_filament_profile = "Prusament PLA @PG" thumbnails = 16x16/QOI, 313x173/QOI, 440x240/QOI, 480x240/QOI, 640x480/PNG @@ -21306,7 +21447,7 @@ wipe = 0 retract_before_wipe = 80 retract_speed = 35 deretract_speed = 25 -start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "MK4" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.0+14794\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% +start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "MK4" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.1+14848\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% end_gcode = {if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+1, max_print_height)} F720 ; Move print head up{endif}\nM104 S0 ; turn off temperature\nM140 S0 ; turn off heatbed\nM107 ; turn off fan\nG1 X241 Y170 F3600 ; park\n{if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+23, max_print_height)} F300 ; Move print head up{endif}\nG4 ; wait\nM572 S0 ; reset PA\nM593 X T2 F0 ; disable IS\nM593 Y T2 F0 ; disable IS\nM84 X Y E ; disable motors\n; max_layer_z = [max_layer_z] before_layer_gcode = ;BEFORE_LAYER_CHANGE\nG92 E0.0\n;[layer_z]\nM201 X{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))} Y{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))}\n{if ! spiral_vase}M74 W[extruded_weight_total]{endif}\n default_print_profile = 0.20mm SPEED @MK4IS 0.4 @@ -21333,7 +21474,7 @@ retract_before_wipe = 80,80,80,80,80 retract_speed = 35,35,35,35,35 deretract_speed = 25,25,25,25,25 retract_length_toolchange = 0,0,0,0,0 -start_gcode = M17 ; enable steppers\nM862.1 P0.4 ; nozzle diameter check\nM862.3 P "MK4" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P "Input shaper" ; FW feature check\nM862.6 P "MMU3" ; FW feature check\nM115 U6.0.0+14794\n\n; setup MMU\nM708 A0x0b X5 ; extra load distance\nM708 A0x0d X140 ; unload feeedrate\nM708 A0x11 X140 ; load feedrate\nM708 A0x14 X20 ; slow feedrate\nM708 A0x1e X12 ; Pulley current to ~200mA\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 R{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W130 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[initial_tool]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[initial_tool]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\nT[initial_tool]\nG1 E{parking_pos_retraction + extra_loading_move - 15} F1000 ; load to the nozzle\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[initial_tool] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X105 E36 F500 ; purge\nG0 X115 E4 F650 ; purge\nG0 X125 E4 F800 ; purge\nG0 X{125 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{125 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% +start_gcode = M17 ; enable steppers\nM862.1 P0.4 ; nozzle diameter check\nM862.3 P "MK4" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P "Input shaper" ; FW feature check\nM862.6 P "MMU3" ; FW feature check\nM115 U6.0.1+14848\n\n; setup MMU\nM708 A0x0b X5 ; extra load distance\nM708 A0x0d X140 ; unload feeedrate\nM708 A0x11 X140 ; load feedrate\nM708 A0x14 X20 ; slow feedrate\nM708 A0x1e X12 ; Pulley current to ~200mA\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 R{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W130 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[initial_tool]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[initial_tool]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\nT[initial_tool]\nG1 E{parking_pos_retraction + extra_loading_move - 15} F1000 ; load to the nozzle\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[initial_tool] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X105 E36 F500 ; purge\nG0 X115 E4 F650 ; purge\nG0 X125 E4 F800 ; purge\nG0 X{125 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{125 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% end_gcode = {if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+1, max_print_height)} F720 ; Move print head up{endif}\nM104 S0 ; turn off temperature\nM140 S0 ; turn off heatbed\nM107 ; turn off fan\nG1 X241 Y170 F3600 ; park\n{if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+23, max_print_height)} F300 ; Move print head up{endif}\nM702 ; unload the current filament\nG4 ; wait\nM572 S0 ; reset PA\nM593 X T2 F0 ; disable IS\nM593 Y T2 F0 ; disable IS\nM84 X Y E ; disable motors\n; max_layer_z = [max_layer_z] before_layer_gcode = ;BEFORE_LAYER_CHANGE\nG92 E0.0\n;[layer_z]\nM201 X{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))} Y{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))}\n{if ! spiral_vase}M74 W[extruded_weight_total]{endif}\n default_print_profile = 0.20mm SPEED @MK4IS 0.4 @@ -21435,7 +21576,7 @@ wipe = 0 retract_before_wipe = 80 retract_speed = 35 deretract_speed = 25 -start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "[printer_model]" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.0+14794\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W130 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% +start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "[printer_model]" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.1+14848\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 T0 R{((filament_notes[0]=~/.*HT_MBL10.*/) ? (first_layer_temperature[0] - 10) : (filament_type[0] == "PC" or filament_type[0] == "PA") ? (first_layer_temperature[0] - 25) : (filament_type[0] == "FLEX") ? 210 : (filament_type[0]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W130 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[0] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% end_gcode = {if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+1, max_print_height)} F720 ; Move print head up{endif}\nM104 S0 ; turn off temperature\nM140 S0 ; turn off heatbed\nM107 ; turn off fan\nG1 X241 Y170 F3600 ; park\n{if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+23, max_print_height)} F300 ; Move print head up{endif}\nG4 ; wait\nM572 S0 ; reset PA\nM593 X T2 F0 ; disable IS\nM593 Y T2 F0 ; disable IS\nM84 X Y E ; disable motors\n; max_layer_z = [max_layer_z] before_layer_gcode = ;BEFORE_LAYER_CHANGE\nG92 E0.0\n;[layer_z]\nM201 X{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))} Y{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))}\n{if ! spiral_vase}M74 W[extruded_weight_total]{endif}\n default_print_profile = 0.20mm SPEED @MK4IS 0.4 @@ -21447,7 +21588,7 @@ printer_model = MK3.9MMU3 multimaterial_purging = 80 printer_variant = 0.4 printer_notes = Don't remove the following keywords! These keywords are used in the "compatible printer" condition of the print and filament profiles to link the particular print and filament profiles to this printer profile. \n\nPRINTER_MODEL_MK3.9\nPRINTER_MODEL_MK4IS\nPRINTER_MODEL_MK3.9MMU3\nPG -start_gcode = M17 ; enable steppers\nM862.1 P0.4 ; nozzle diameter check\nM862.3 P "MK3.9" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P "Input shaper" ; FW feature check\nM862.6 P "MMU3" ; FW feature check\nM115 U6.0.0+14794\n\n; setup MMU\nM708 A0x0b X5 ; extra load distance\nM708 A0x0d X140 ; unload feeedrate\nM708 A0x11 X140 ; load feedrate\nM708 A0x14 X20 ; slow feedrate\nM708 A0x1e X12 ; Pulley current to ~200mA\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 R{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[initial_tool]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[initial_tool]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\nT[initial_tool]\nG1 E{parking_pos_retraction + extra_loading_move - 15} F1000 ; load to the nozzle\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[initial_tool] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X105 E36 F500 ; purge\nG0 X115 E4 F650 ; purge\nG0 X125 E4 F800 ; purge\nG0 X{125 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{125 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% +start_gcode = M17 ; enable steppers\nM862.1 P0.4 ; nozzle diameter check\nM862.3 P "MK3.9" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P "Input shaper" ; FW feature check\nM862.6 P "MMU3" ; FW feature check\nM115 U6.0.1+14848\n\n; setup MMU\nM708 A0x0b X5 ; extra load distance\nM708 A0x0d X140 ; unload feeedrate\nM708 A0x11 X140 ; load feedrate\nM708 A0x14 X20 ; slow feedrate\nM708 A0x1e X12 ; Pulley current to ~200mA\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 S{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; set extruder temp for bed leveling\nM109 R{((filament_notes[initial_tool]=~/.*HT_MBL10.*/) ? (first_layer_temperature[initial_tool] - 10) : (filament_type[initial_tool] == "PC" or filament_type[initial_tool] == "PA") ? (first_layer_temperature[initial_tool] - 25) : (filament_type[initial_tool] == "FLEX") ? 210 : (filament_type[initial_tool]=~/.*PET.*/) ? 175 : 170)} ; wait for temp\n\nM84 E ; turn off E motor\n\nG28 ; home all without mesh bed level\n\nG1 X{10 + 32} Y-4 Z5 F4800\n\nM302 S160 ; lower cold extrusion limit to 160C\n\n{if filament_type[initial_tool]=="FLEX"}\nG1 E-4 F2400 ; retraction\n{else}\nG1 E-2 F2400 ; retraction\n{endif}\n\nM84 E ; turn off E motor\n\nG29 P9 X10 Y-4 W32 H4\n\n{if first_layer_bed_temperature[initial_tool]<=60}M106 S100{endif}\n\nG0 Z40 F10000\n\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nM107\n\n;\n; MBL\n;\nM84 E ; turn off E motor\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X0 Y0 W50 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[initial_tool]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[initial_tool]}\n\nG92 E0\nM569 S0 E ; set spreadcycle mode for extruder\n\nT[initial_tool]\nG1 E{parking_pos_retraction + extra_loading_move - 15} F1000 ; load to the nozzle\n\n;\n; Extrude purge line\n;\nG92 E0 ; reset extruder position\nG1 E{(filament_type[initial_tool] == "FLEX" ? 4 : 2)} F2400 ; deretraction after the initial one before nozzle cleaning\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X105 E36 F500 ; purge\nG0 X115 E4 F650 ; purge\nG0 X125 E4 F800 ; purge\nG0 X{125 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{125 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; set flow to 100% [printer:Original Prusa MK3.9 0.25 nozzle] inherits = Original Prusa MK3.9 0.4 nozzle @@ -21539,7 +21680,7 @@ wipe = 1 retract_before_wipe = 0 retract_speed = 35 deretract_speed = 0 -start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "MK3.5" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.0+14794\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S170 ; set extruder temp for bed leveling\nM109 T0 R170 ; wait for temp\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nG28 ; home all\n\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X23 Y5 W80 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\n; Extrude purge line\n\nG92 E0 ; reset extruder position\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z0.05 F8000 ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F8000 ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; reset flow to 100%\n +start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "MK3.5" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM115 U6.0.1+14848\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S[first_layer_bed_temperature] ; set bed temp\nM104 T0 S170 ; set extruder temp for bed leveling\nM109 T0 R170 ; wait for temp\nM190 S[first_layer_bed_temperature] ; wait for bed temp\n\nG28 ; home all\n\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X23 Y5 W80 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[0]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[0]}\n\n; Extrude purge line\n\nG92 E0 ; reset extruder position\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X25 E4 F500 ; purge\nG0 X35 E4 F650 ; purge\nG0 X45 E4 F800 ; purge\nG0 X{45 + 3} Z0.05 F8000 ; wipe, move close to the bed\nG0 X{45 + 3 * 2} Z0.2 F8000 ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; reset flow to 100%\n end_gcode = {if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+1, max_print_height)} F720 ; Move print head up{endif}\nM104 S0 ; turn off temperature\nM140 S0 ; turn off heatbed\nM107 ; turn off fan\nG1 X241 Y201 F3600 ; park\n{if layer_z < max_print_height}G1 Z{z_offset+min(layer_z+23, max_print_height)} F300 ; Move print head up{endif}\nG4 ; wait\nM572 S0 ; reset PA\nM593 X T2 F0 ; disable IS\nM593 Y T2 F0 ; disable IS\nM84 X Y E ; disable motors\n; max_layer_z = [max_layer_z] before_layer_gcode = ;BEFORE_LAYER_CHANGE\nG92 E0.0\n;[layer_z]\nM201 X{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))} Y{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))}\n{if ! spiral_vase}M74 W[extruded_weight_total]{endif}\n default_print_profile = 0.20mm SPEED @MK3.5 0.4 @@ -21627,7 +21768,7 @@ retract_before_wipe = 0,0,0,0,0 retract_speed = 35,35,35,35,35 deretract_speed = 0,0,0,0,0 printer_notes = Don't remove the following keywords. \nPRINTER_VENDOR_PRUSA3D\nPRINTER_MODEL_MK3.5MMU\n -start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "MK3.5" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM862.6 P "MMU3" ; FW feature check\nM115 U6.0.0+14794\n; setup MMU\nM708 A0x1e X12 ; Pulley current to ~200mA\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S{first_layer_bed_temperature[initial_tool]} ; set bed temp\nM104 S170 ; set extruder temp for bed leveling\nM109 R170 ; wait for temp\nM190 S{first_layer_bed_temperature[initial_tool]} ; wait for bed temp\n\n\nG28 ; home all\n\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X23 Y5 W160 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[initial_tool]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[initial_tool]}\n\nT[initial_tool]\nG1 E{parking_pos_retraction + extra_loading_move} F1000 ; load to the nozzle\n\n; Extrude purge line\n\nG92 E0 ; reset extruder position\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X105 E36 F500 ; purge\nG0 X115 E4 F650 ; purge\nG0 X125 E4 F800 ; purge\nG0 X{125 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{125 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; reset flow to 100%\n +start_gcode = M17 ; enable steppers\nM862.1 P[nozzle_diameter] ; nozzle diameter check\nM862.3 P "MK3.5" ; printer model check\nM862.5 P2 ; g-code level check\nM862.6 P"Input shaper" ; FW feature check\nM862.6 P "MMU3" ; FW feature check\nM115 U6.0.1+14848\n; setup MMU\nM708 A0x1e X12 ; Pulley current to ~200mA\n\nM555 X{(min(print_bed_max[0], first_layer_print_min[0] + 32) - 32)} Y{(max(0, first_layer_print_min[1]) - 4)} W{((min(print_bed_max[0], max(first_layer_print_min[0] + 32, first_layer_print_max[0])))) - ((min(print_bed_max[0], first_layer_print_min[0] + 32) - 32))} H{((first_layer_print_max[1])) - ((max(0, first_layer_print_min[1]) - 4))}\n\nG90 ; use absolute coordinates\nM83 ; extruder relative mode\n\nM140 S{first_layer_bed_temperature[initial_tool]} ; set bed temp\nM104 S170 ; set extruder temp for bed leveling\nM109 R170 ; wait for temp\nM190 S{first_layer_bed_temperature[initial_tool]} ; wait for bed temp\n\n\nG28 ; home all\n\nG29 P1 ; invalidate mbl & probe print area\nG29 P1 X23 Y5 W160 H20 C ; probe near purge place\nG29 P3.2 ; interpolate mbl probes\nG29 P3.13 ; extrapolate mbl outside probe area\nG29 A ; activate mbl\n\n; prepare for purge\nM104 S{first_layer_temperature[initial_tool]}\nG0 X0 Y-4 Z15 F4800 ; move away and ready for the purge\nM109 S{first_layer_temperature[initial_tool]}\n\nT[initial_tool]\nG1 E{parking_pos_retraction + extra_loading_move} F1000 ; load to the nozzle\n\n; Extrude purge line\n\nG92 E0 ; reset extruder position\nG0 E7 X15 Z0.2 F500 ; purge\nG0 X105 E36 F500 ; purge\nG0 X115 E4 F650 ; purge\nG0 X125 E4 F800 ; purge\nG0 X{125 + 3} Z{0.05} F{8000} ; wipe, move close to the bed\nG0 X{125 + 3 * 2} Z0.2 F{8000} ; wipe, move quickly away from the bed\n\nG92 E0\nM221 S100 ; reset flow to 100%\n end_gcode = {if max_layer_z < max_print_height}G1 Z{z_offset+min(max_layer_z+1, max_print_height)} F720 ; Move print head up{endif}\nG1 X241 Y201 F7200 ; park\n{if max_layer_z < max_print_height}G1 Z{z_offset+min(max_layer_z+49, max_print_height)} F720 ; Move print head further up{endif}\n{if has_wipe_tower}\nG1 E-15 F3000\n{else}\nG1 E2 F5000\nG1 E2 F5500\nG1 E2 F6000\nG1 E-15 F5800\nG1 E-20 F5500\nG1 E10 F3000\nG1 E-10 F3100\nG1 E10 F3150\nG1 E-10 F3250\nG1 E10 F3300\n{endif}\n\nM140 S0 ; turn off heatbed\nM107 ; turn off fan\n\n; Unload filament\nM702\n\nG4 ; wait\nM221 S100 ; reset flow\nM572 S0 ; reset LA\nM104 S0 ; turn off temperature\nM84 ; disable motors\n; max_layer_z = [max_layer_z] before_layer_gcode = ;BEFORE_LAYER_CHANGE\nG92 E0.0\n;[layer_z]\nM201 X{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))} Y{interpolate_table(extruded_weight_total, (0,4000), (1400,2500), (10000,2500))}\n{if ! spiral_vase}M74 W[extruded_weight_total]{endif}\n default_print_profile = 0.20mm SPEED @MK3.5 0.4 @@ -21700,7 +21841,6 @@ min_initial_exposure_time = 1 max_initial_exposure_time = 300 printer_correction = 1,1,1 relative_correction = 1,1 -area_fill = 45 # The obsolete presets will be removed when upgrading from the legacy configuration structure (up to Slic3r 1.39.2) to 1.40.0 and newer. [obsolete_presets]