OrcaSlicer/resources/profiles/Prusa/machine/fdm_machine_common_xl_5t.json

{
	"type": "machine",
	"name": "fdm_machine_common_xl_5t",
	"inherits": "fdm_machine_common_xl",
	"from": "system",
	"instantiation": "false",
	"gcode_flavor": "marlin2",
	"purge_in_prime_tower": "0",
	"single_extruder_multi_material": "0",
	"extruder_clearance_radius": "67",
	"extruder_clearance_height_to_rod": "21",
	"extruder_clearance_height_to_lid": "21",
	"printer_variant": "0.4",
	"machine_pause_gcode": "M601",
	"machine_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 U6.0.3+14902\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 idle_temperature[initial_tool] == 0}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 filament_multitool_ramming[0]}10{else}30{endif} X40 Z0.2 F{if filament_multitool_ramming[0]}500{else}170{endif} ; purge while moving towards the sheet\nG0 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{(idle_temperature[0] == 0 ? (first_layer_temperature[0] + standby_temperature_delta) : (idle_temperature[0]))} T0\n{endif}\n{if (is_extruder_used[1]) and initial_tool != 1}\n;\n; purge second tool\n;\nG1 F{travel_speed * 60}\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 filament_multitool_ramming[1]}10{else}30{endif} X140 Z0.2 F{if 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{(idle_temperature[1] == 0 ? (first_layer_temperature[1] + standby_temperature_delta) : (idle_temperature[1]))} T1\n{endif}\n{if (is_extruder_used[2]) and initial_tool != 2}\n;\n; purge third tool\n;\nG1 F{travel_speed * 60}\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 filament_multitool_ramming[2]}10{else}30{endif} X220 Z0.2 F{if filament_multitool_ramming[2]}500{else}170{endif} ; purge while moving towards the sheet\nG0 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{(idle_temperature[2] == 0 ? (first_layer_temperature[2] + standby_temperature_delta) : (idle_temperature[2]))} T2\n{endif}\n{if (is_extruder_used[3]) and initial_tool != 3}\n;\n; purge fourth tool\n;\nG1 F{travel_speed * 60}\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 filament_multitool_ramming[3]}10{else}30{endif} X320 Z0.2 F{if 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{(idle_temperature[3] == 0 ? (first_layer_temperature[3] + standby_temperature_delta) : (idle_temperature[3]))} T3\n{endif}\n{if (is_extruder_used[4]) and initial_tool != 4}\n;\n; purge fifth tool\n;\nG1 F{travel_speed * 60}\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 filament_multitool_ramming[4]}10{else}30{endif} X320 Z0.2 F{if 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{(idle_temperature[4] == 0 ? (first_layer_temperature[4] + standby_temperature_delta) : (idle_temperature[4]))} T4\n{endif}\n;\n; purge initial tool\n;\nG1 F{travel_speed * 60}\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 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 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",
	"machine_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]",
	"change_filament_gcode": "; Change Tool[previous_extruder] -> Tool[next_extruder] (layer [layer_num])\n{\nlocal max_speed_toolchange = 350.0;\nlocal wait_for_extruder_temp = true;\nposition[2] = position[2] + 2.0;\n\nlocal speed_toolchange = max_speed_toolchange;\nif travel_speed < max_speed_toolchange then\n      speed_toolchange = travel_speed;\nendif\n\"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}",
	"before_layer_change_gcode": ";BEFORE_LAYER_CHANGE\nG92 E0.0\n;[layer_z]\n",
	"layer_change_gcode": ";AFTER_LAYER_CHANGE\n;[layer_z]",
	"printer_notes": "Do not remove the keywords below.\nPRINTER_VENDOR_PRUSA3D\nPRINTER_MODEL_XLIS\nPG\nINPUT_SHAPER"
}