Does not have any problem in cura. Failure to select the proper wiping temperature can lead to errors or potential damage. Advanced wipe and purge. Cura uses certain variables within the start and end GCODE. Now that the variable has a value, every time we use #101 in our program the machine will read it as 35.0. for example, we could say 'X#101' instead of 'X35.0' {filament_weight}: Mass of filament used (if density is known). Start GCODE Requirements Cura uses certain variables within the start and end GCODE. But once it gets to where it needs to be it just starts extruding like crazy, super fast and just builds up a big blob of filament. If you are using Slic3r, then you may want to check that you have the following lines in your start gcode. Permet de faire un mouvement sur un axe ou plusieurs. e.g. This is actually really annoying. In Cura/JGCreat, these are found in the machine settings. La cible principale est la fabrication additive en utilisant le processus FFF.Codes pour les mouvements de la tête d'impression suivent le NIST RS274NGC norme G-code, de sorte que les firmwares Reprap sont tout à fait utilisables pour le fraisage CNC et autres applications similaires. The purge and prime gets the filament flowing again ready for printing. M104 S{material_print_temperature_layer_0} M109 S{material_print_temperature_layer_0} M109 R{material_print_temperature_layer_0} I am getting a parsing error(not a variable name) in Prusa with this line of Gcode in the start section: M104 S{material_print_temperature_layer_0} and again in the end Gcode with this one: G1 X0 Y{machine_depth} ;Present print. He was also told about the differences in syntax between CURA and PrusaSlicer. But that would get executed at every extruder switch, not just at the start of the print. Failure to select the proper wiping temperature can lead to errors or potential damage. Do I have the correct variables in my starting script? Start GCODE Requirements. As the home positions on the A5 has the bed towards the back of the printer, one useful command to add to the end GCode, is a command to bring the Y-axis forward to the front once the print is finished. “acceleration_enabled”: false “acceleration_infill”: 3000 “acceleration_layer_0”: 3000 “acceleration_prime_tower”: 3000 “acceleration_print”: 3000 “acceleration_print_layer_0”: 3000 “acceleration_skirt_brim”: 3000 “acceleration_support”: 3000 “acceleration_support_infill”: 3000 “acceleration_support_interface”: 3000 “acceleration_topbottom”: 3000 “acceleration_travel”: 5000 “acceleration_travel_layer_0”: 5000.0 “acceleration_wall”: 3000 “acceleration_wall_0”: 3000 “acceleration_wall_x”: 3000 “adhesion_extruder_nr”: “0” “adhesion_type”: “brim” “alternate_extra_perimeter”: false “blackmagic”: 0 “bottom_layers”: 8 “bottom_thickness”: 0.8 “brim_line_count”: 20 “brim_outside_only”: true “brim_width”: 8.0 “coasting_enable”: false “coasting_min_volume”: 0.8 “coasting_speed”: 90 “coasting_volume”: 0.064 “conical_overhang_angle”: 50 “conical_overhang_enabled”: false “cool_fan_enabled”: true “cool_fan_full_at_height”: 0.3 “cool_fan_full_layer”: 2 “cool_fan_speed”: 100.0 “cool_fan_speed_max”: 100.0 “cool_fan_speed_min”: 100.0 “cool_lift_head”: false “cool_min_layer_time”: 5 “cool_min_layer_time_fan_speed_max”: 10 “cool_min_speed”: 10 “cooling”: 0 “draft_shield_dist”: 10 “draft_shield_enabled”: false “draft_shield_height”: 10 “draft_shield_height_limitation”: “full” “dual”: 0 “experimental”: 0 “extruder_prime_pos_abs”: false “extruder_prime_pos_x”: 0 “extruder_prime_pos_y”: 0 “extruder_prime_pos_z”: 0 “gantry_height”: 55 “gradual_infill_step_height”: 5.0 “gradual_infill_steps”: 0 “infill”: 0 “infill_before_walls”: true “infill_line_distance”: 4.0 “infill_line_width”: 0.4 “infill_mesh”: false “infill_mesh_order”: 0 “infill_overlap”: 10 “infill_overlap_mm”: 0.04 “infill_pattern”: “grid” “infill_sparse_density”: 20 “infill_sparse_thickness”: 0.1 “infill_wipe_dist”: 0.1 “jerk_enabled”: false “jerk_infill”: 20 “jerk_layer_0”: 20 “jerk_prime_tower”: 20 “jerk_print”: 20 “jerk_print_layer_0”: 20 “jerk_skirt_brim”: 20 “jerk_support”: 20 “jerk_support_infill”: 20 “jerk_support_interface”: 20 “jerk_topbottom”: 20 “jerk_travel”: 30 “jerk_travel_layer_0”: 30.0 “jerk_wall”: 20 “jerk_wall_0”: 20 “jerk_wall_x”: 20 “layer_0_z_overlap”: 0.15 “layer_height”: 0.1 “layer_height_0”: 0.3 “line_width”: 0.4 “machine_acceleration”: 4000 “machine_center_is_zero”: false “machine_depth”: 205 “machine_extruder_count”: 1 “machine_gcode_flavor”: “RepRap (Marlin/Sprinter)” “machine_heat_zone_length”: 16 “machine_heated_bed”: true “machine_height”: 200 “machine_max_acceleration_e”: 10000 “machine_max_acceleration_x”: 9000 “machine_max_acceleration_y”: 9000 “machine_max_acceleration_z”: 100 “machine_max_feedrate_e”: 45 “machine_max_feedrate_x”: 500 “machine_max_feedrate_y”: 500 “machine_max_feedrate_z”: 30 “machine_max_jerk_e”: 5.0 “machine_max_jerk_xy”: 20.0 “machine_max_jerk_z”: 0.4 “machine_min_cool_heat_time_window”: 50.0 “machine_minimum_feedrate”: 0.0 “machine_name”: “Ultimaker Original+” “machine_nozzle_cool_down_speed”: 2 “machine_nozzle_expansion_angle”: 45 “machine_nozzle_head_distance”: 3 “machine_nozzle_heat_up_speed”: 2 “machine_nozzle_size”: 0.4 “machine_nozzle_tip_outer_diameter”: 1 “machine_settings”: 0 “machine_show_variants”: false “machine_use_extruder_offset_to_offset_coords”: true “machine_width”: 205 “magic_fuzzy_skin_enabled”: false “magic_fuzzy_skin_point_density”: 1.25 “magic_fuzzy_skin_point_dist”: 0.8 “magic_fuzzy_skin_thickness”: 0.3 “magic_mesh_surface_mode”: “normal” “magic_spiralize”: false “material”: 0 “material_bed_temp_prepend”: true “material_bed_temp_wait”: true “material_bed_temperature”: 60 “material_diameter”: 2.85 “material_extrusion_cool_down_speed”: 0.5 “material_flow”: 100 “material_flow_dependent_temperature”: false “material_flow_temp_graph”: “[[3.5, 200], [7.0, 240]]” “material_guid”: “” “material_print_temp_prepend”: true “material_print_temp_wait”: true “material_print_temperature”: 200 “material_standby_temperature”: 175 “max_feedrate_z_override”: 0 “meshfix”: 0 “meshfix_extensive_stitching”: false “meshfix_keep_open_polygons”: false “meshfix_union_all”: true “meshfix_union_all_remove_holes”: false “multiple_mesh_overlap”: 0.15 “ooze_shield_angle”: 60 “ooze_shield_dist”: 2 “ooze_shield_enabled”: false “outer_inset_first”: false “platform_ The text was updated successfully, but these errors were encountered: 1 Copy link Member Ghostkeeper commented Jan 4, 2017. M140 S[first_layer_bed_temperature] ; Wait for bed temp. Les variables peuvent être utilisées dans PrusaSlicer MAIS il faut les encadrer avec [ et ] La notation avec des accolades { et } est utilisée par Cura. For Cura you can add additional wait commands to the start gcode if you want, but note that the format is slightly different (See here) : M190 S {print_bed_temperature} ; Set bed temp. Typically this contains several functions: The lift up and extrude is the “purge and prime” to ensure that filament is flowing correctly. But now comes the tricky part: Start and End G-code. M190 S{print_bed_temperature} ; Set bed temp. Voici le start gcode que je teste avec succès sur ma U30 depuis plusieurs impressions (modif du start gcode cura 4), le but étant seulement d'éviter le clip: ; -- START GCODE --G21 ;set units to millimetres G91 ;set to absolute positioning G1 Z20 ;move up 20mm End G-code is inserted at the end of a print job. It just looks at the global setting values. Posée par Nicolas Gaetti, Aout 20. Start G-code is inserted at the start of a print job. Simplified version. This is actually really annoying. Il est possible … (Prusa3D specific) G87 - Enable babystep correction after home G87: Enable babystep correction after home. Thanks to Rich Haubert for the suggestion to insert a small filament retraction. Great Start GCode Snippets at PrusaMK2.com. a placer dans le start gcode. Cura, and most slicers, have the ability to use placeholders (basically variables or maybe better: constants). A variable in G-Code starts with a '#' symbol and they start with no value. Here is the START Gcode from CURA's machine settings:; start_gcode. Your slicing software will need these variables replaced with specific values for your specific filament. Oozing and getting stuff stuck to the bed during homing should be a thing of the past. Start G-code is inserted at the start of a print job. M109 S[first_layer_temperature_0] ; Wait for all used extruders to reach temperature. I still have z axis tilt and my start and end gcode to figure out. Just taking the standard start gcode from slic3r and puting it in craftware doesn't work for some reason. So I created a video, linked above, detailing where custom start G Code can be set in Slic3r, Simplify3D & Cura, together with a description of the kind of things to look out for and insert in this start G Code. An example is: M190 S{material_bed_temperature} will produce something like: M190 S230. Proceed to the next section. {time}, {date}, {day}: Time of saving g-code, full date, day of the week. Start GCODE Requirements Cura uses certain variables within the start and end GCODE. Without doing so, it will do nothing but grind the gears on the filament (or crush flexible filament) unless it is still hot enough from a print immediately beforehand. Ultimaker Cura is free, easy-to-use 3D printing software trusted by millions of users. Cura 15.06 removed the ability to manually add start/end GCode in the GUI, but you can still do it by editing the machine specific .json file for your printer which includes separate lines for start/end gcode concatenated onto a single line with line breaks "\n" between statements. If the start gcode does not have command to do that, CuraEngine adds the three lines (M190, M104, M109) before your start gcode just to make sure that the hotend is not cold before starting the actual print. What I'm looking to do is when I hit print in cura or S3D, the printer homes X, Y, and Z, heats the bed, mesh bed leveling, heats the nozzle, draws the purge line, starts the print. Use this gcode to purge and wipe filiment before printing. For my TronXY I never bothered with changing it away from the "basic" settings that a "custom 3D printer" on Marlin gave, but this time I want to know what I type in there. G1 : mouvement manuel. {filament_weight}: Mass of filament used (if density is known). Copy the block below into a text editor. Any ideas why? Cura 15.06. wait for 30 seconds for bed to reach an even heating. Conditional G-code is a powerful feature of Slic3r that allows for arbitrary math to be done in Custom G-code fields as well as setting conditions for specific statements to appear in output from Custom G-code. in cura 14.12 it was differd by start.gcode and start2.gcode. Définition des termes de réglage Cura: onglet advenced Nozzle size (mm)*: ... Aller dans le menu Basculer en mode Expert puis dans l'onglet Start/End-GCode. voici aussi une liste des variables de cura : {time}, {date}, {day}: Time of saving g-code, full date, day of the week. Ce que tu cherches à faire ne peut se faire que manuellement via le boitier de contrôle ou en créant un fichier gcode (sans les variables Cura remplacées par les valeurs de chauffe souhaitées) et en demandant son impression à l'allumage de la machine (possible en modifiant le firmware Marlin) si le fichier se nomme : auto#.g (# pouvant prendre une valeur numérique [0-9+]. It's pretty well documented, but here's the gist of it: cura will insert preheat code before start code. This G-code will be performed at the start of a calibration script. You can add a “wipe” step to the starting gcode after the “purge”. If string variables are mixed with numeric variables, they are parsed as floats if they have a dot, or integers otherwise. This g-code works best if you set the first layer extruder temp to 0 in Slic3r. Slic3r will let you use variables in your start and end g-code, which I have done. However, the three lines below only have software-specific notation. We can give a variable a value like this: #101=35.0. ... Start Gcode temperature variable incorrect value #3106. For Cura you can add additional wait commands to the start gcode if you want, but note that the format is slightly different (See here): Thanks to Poikilos for info on Wait for temperature. my Cura Start and End GCode, presents print when finished I don't know if anyone cares, but here is the start/end gcode that I use with cura. M109 S {print_temperature} ; Wait for all used extruders to reach temperature. When the start_gcode already contains nozzle temperature commands Cura … So I got the gcode remade and the extruder moves to the correct place. Hello, I have been tinkering with Cura and couldn’t help but notice that although Cura has boxes to enter initial layer temperature for both the nozzle (material) and the bed, it doesn’t seem to actually use them. Gcode start bizare 0; Gcode start bizare. I don't want to bring my marlin habits if there is a better way. Then Cura will put some temps in before the start.gcode. I don't understand. Then the nozzle will not be ready for printing. If anyone is using CraftWare PLEASE give me your start gcode that works for you. {filament_cost}: Cost of filament used (if cost per kilo is known). I explained that Start G Code is fairly unique to a specific printer and the user’s requirements. " description ": " Whether to include nozzle temperature commands at the start of the gcode. Liste des GCODE principaux et couramment utilisés. $\begingroup$ Cura will skip emitting the heat-up gcode at the beginning if your custom start gcode contains variable expansions for temperature, but I don't know if there's anything comparable for end gcode. Re: Problems migrating cura start gcode to ideaMaker Post by Jetguy » Mon Nov 27, 2017 5:51 am FWIW, you aren't the first person to try this (putting variable names from Cura or another slicer into starting gcode) and then have errors. Below is the list of variables that can be placed in your CURA – Machine Settings start/end gcode. {print_time}: Duration of the print. There is machine_extruder_start_code, which is the g-code to use when switching to a certain extruder. So I created a video, linked above, detailing where custom start G Code can be set in Slic3r, Simplify3D & Cura, together with a description of the kind of things to look out for and insert in this start … But now I need to fix up my Cura for the machine coming in. ----- Original Message ----- Subject: Re: [Ultimaker/Cura] Add number of layers, or model height, as variables in gcode slicer From: Ian Paschal
Date: Wed, August 01, 2018 4:24 am To: Ultimaker/Cura Cc: Jean-Claude DeMars , Author There obviously is a variable for this, which CuraEngine inserts … If evaluation fails, the expression is silently left untouched. “G0 Y280 F600”. Failure to select the proper wiping temperature can lead to errors or potential damage. {filament_amount}: Length of filament used. Then it homes X Y and Z, and sets the hotend to the temp in your profile. Cura 15.06 removed the ability to manually add start/end GCode in the GUI, but you can still do it by editing the machine specific .json file for your printer which includes separate lines for start/end gcode concatenated onto a single line with line breaks "\n" between statements. Don't worry, it will still be heated appropriately for the first layer using this code. calibration de l’extruder: Le but ici est donc de calibrer correctement l'extrudeur et donc avoir la bonne quantité de matière qui entre dans l'extrudeur. These placeholders are substituted with the correct value upon slicing. 21.12.2017, 12:13 (Dieser Beitrag wurde zuletzt bearbeitet: 23.12.2017, 10:09 von Seb84.) Replace the start gcode listed above with the lines below - or watch the videos below. G1 Z15.0 F{speed_travel} ;move the platform down 15mm PrusaSlicer: G1 Z15.0 F[speed_travel] ;move the platform down 15mm turn the fan on. Any help in how to fix this in prusa. That variable will only work with Cura and the Creality slicer since it's a version of Cura. This is what my start GCODE does now for Marlin. Simple installation- Bolt it on, plug it in, adjust ESTEPs, and PRINT! CURA gcode variables (3D printer) Below is the list of variables that can be placed in your CURA – Machine Settings start/end gcode. We can give a variable a value like this: #101=35.0 Now that the variable has a value, every time we use #101 in our program the machine will read it as 35.0. for example, we could say 'X#101' instead of 'X35.0' This g-code works best if you set the first layer extruder temp to 0 in Slic3r. This is just a checkbox in Cura so it's easy to change. It is used to turn of heaters, park the nozzle and turn off stepper motors. Your slicing software will need these variables replaced with specific values for your specific filament. M140 S {print_bed_temperature} ; Wait for bed temp. Cura uses certain variables within the start and end GCODE. Pour le Start GCODE (Start Commands) : Start GCODE AstroPrint Dagoma DE200. Copy the block below into a text editor. Yes, that's what I was reading on a case reverse of what I'm doing. If you are using Cura, then you do not need to add these lines to your start gcode, they are automatically added. G90 ;absolute positioning M106 S250 G28 X Y G1 X50 M109 S180 G28 M104 S{print_temperature} ;Activation palpeur ;bloc palpeur G29 ;Auto level M107 ;start with the fan off G1 X100 Y20 F3000 G1 Z0.5 M109 S{print_temperature} M82 ;set extruder to absolute mode G92 E0 ;zero the extruded length G1 F200 … Cette page tente de décrire le 'G-code' que les firmwares Reprap utilisent et comment ils fonctionnent. Cura Documentation - gcode {keyword} list There is not an active list right now, but if you save a profile to an ini file, open that ini file, every keyword in there can be used as a substitute in the start/end-gcode. End G-code is inserted at the end of a print job. Avec PrusaSlicer les variables sont encadrées comme toi par des crochets [], pour Cura ce sont normalement des accolades {} mais les variables sont nommées autrement que toi pour Prusa et aussi pour Cura . S3D isn't an option for me because $150 is a little steep. M107 ;turn off fan G28 X0 Y0 Z0 ;home X, Y and Z axis end-stops G29 ;initiate z-probing G1 X0 Y0 Z.10 ;move to corner of bed G92 E0 ;zero the extruded length G1 F200 E3 ;extrude 3mm of feed stock G92 E0 ;zero the extruded length. It is used to heat the nozzle and bed, perform mesh bed leveling, print a prime line and any other steps that need to be done before a print starts. Application Version 3.1 Platform Linux - Appimage Display Driver Nvidia 387 Steps to Reproduce I have set the starting temperature to 200C and use this starting Gcode. It has some cura specific variables, so if you are going to use it with another slicer, you'll want to change them to actual values. Print solid and flexible filaments on your LulzBot® TAZ 3D printer without changing toolheads! Habe mal eine Frage bezüglich Cura. Hallo. Odd, since the only changes I made in the start g-code was to change the variable names from Cura format to Plicer format. Understanding G-code commands is the key to your 3D printer. Différents fabricants ont des réglages différents. " description ": " G-code commands to be executed at the very start - separated by \\ n. ", " default_value ": " G28 ;Home \n G1 Z15.0 F6000 ;Move the platform down 15mm \n;Prime the extruder … Cura se lance alors avec une fenêtre de bienvenue en vous indiquant le contenue de la release note. It is used to heat the nozzle and bed, perform mesh bed leveling, print a prime line and any other steps that need to be done before a print starts. In your slicer you will have a section for GCode commands that are run at the very start and end of every print. M109 S{print_temperature} ; Wait for all used extruders to reach temperature. Good luck and happy overriding… “acceleration_enabled”: false “acceleration_infill”: 3000 “acceleration_layer_0”: 3000 “acceleration_prime_tower”: 3000 Slic3r will let you use variables in your start and end g-code, which I have done. Start: For his Wanhao he used (for the video) just this start G-code script: G28 G1 Y-3 F500 ; Move out of print volume G1 X60 E9 F500 ; start purge line G1 X100 E12.5 F500 ; finish purge line This resulted in a nice line like this: In Ultimaker Cura, this piece of code is added via the preferences of a machine. adhesion”: 0 “prime_tower_enable”: false “prime_tower_flow”: 100 “prime_tower_line_width”: 0.4 “prime_tower_position_x”: 200 “prime_tower_position_y”: 200 “prime_tower_size”: 0 “prime_tower_wipe_enabled”: true “print_sequence”: “all_at_once” “raft_acceleration”: 3000 “raft_airgap”: 0.3 “raft_base_acceleration”: 3000 “raft_base_fan_speed”: 0 “raft_base_jerk”: 20 “raft_base_line_spacing”: 1.6 “raft_base_line_width”: 0.8 “raft_base_speed”: 22.5 “raft_base_thickness”: 0.36 “raft_fan_speed”: 0 “raft_interface_acceleration”: 3000 “raft_interface_fan_speed”: 0 “raft_interface_jerk”: 20 “raft_interface_line_spacing”: 1.0 “raft_interface_line_width”: 0.8 “raft_interface_speed”: 22.5 “raft_interface_thickness”: 0.15000000000000002 “raft_jerk”: 20 “raft_margin”: 15 “raft_speed”: 30.0 “raft_surface_acceleration”: 3000 “raft_surface_fan_speed”: 0 “raft_surface_jerk”: 20 “raft_surface_layers”: 2 “raft_surface_line_spacing”: 0.4 “raft_surface_line_width”: 0.4 “raft_surface_speed”: 30.0 “raft_surface_thickness”: 0.1 “resolution”: 0 “retraction_amount”: 6.5 “retraction_combing”: “all” “retraction_count_max”: 90 “retraction_enable”: true “retraction_extra_prime_amount”: 0 “retraction_extrusion_window”: 6.5 “retraction_hop”: 1 “retraction_hop_after_extruder_switch”: true “retraction_hop_enabled”: false “retraction_hop_only_when_collides”: false “retraction_min_travel”: 0.8 “retraction_prime_speed”: 25 “retraction_retract_speed”: 25 “retraction_speed”: 25 “shell”: 0 “skin_alternate_rotation”: false “skin_line_width”: 0.4 “skin_no_small_gaps_heuristic”: true “skin_outline_count”: 0 “skin_overlap”: 5 “skin_overlap_mm”: 0.02 “skirt_brim_line_width”: 0.4 “skirt_brim_minimal_length”: 250 “skirt_brim_speed”: 30 “skirt_gap”: 3 “skirt_line_count”: 1 “speed”: 0 “speed_equalize_flow_enabled”: false “speed_equalize_flow_max”: 150 “speed_infill”: 60 “speed_layer_0”: 30 “speed_prime_tower”: 60 “speed_print”: 60 “speed_print_layer_0”: 30 “speed_slowdown_layers”: 2.0 “speed_support”: 60 “speed_support_infill”: 60 “speed_support_interface”: 40.0 “speed_topbottom”: 30.0 “speed_travel”: 120 “speed_travel_layer_0”: 60.0 “speed_wall”: 30.0 “speed_wall_0”: 30.0 “speed_wall_x”: 60.0 “support”: 0 “support_angle”: 50 “support_bottom_distance”: 0.1 “support_bottom_height”: 1 “support_bottom_stair_step_height”: 0.3 “support_conical_angle”: 30 “support_conical_enabled”: false “support_conical_min_width”: 5.0 “support_connect_zigzags”: true “support_enable”: false “support_extruder_nr”: “0” “support_extruder_nr_layer_0”: “0” “support_infill_extruder_nr”: “0” “support_infill_rate”: 15 “support_interface_density”: 100 “support_interface_enable”: false “support_interface_extruder_nr”: “0” “support_interface_height”: 1 “support_interface_line_distance”: 0.4 “support_interface_line_width”: 0.4 “support_interface_pattern”: “concentric” “support_interface_skip_height”: 0.3 “support_join_distance”: 2.0 “support_line_distance”: 2.6666666666666665 “support_line_width”: 0.4 “support_minimal_diameter”: 3.0 “support_offset”: 0.2 “support_pattern”: “zigzag” “support_roof_height”: 1 “support_top_distance”: 0.1 “support_tower_diameter”: 3.0 “support_tower_roof_angle”: 65 “support_type”: “everywhere” “support_use_towers”: true “support_xy_distance”: 0.7 “support_xy_distance_overhang”: 0.2 “support_xy_overrides_z”: “z_overrides_xy” “support_z_distance”: 0.1 “switch_extruder_prime_speed”: 20 “switch_extruder_retraction_amount”: 16 “switch_extruder_retraction_speed”: 20 “switch_extruder_retraction_speeds”: 20 “top_bottom_pattern”: “lines” “top_bottom_thickness”: 0.8 “top_layers”: 8 “top_thickness”: 0.8 “travel”: 0 “travel_avoid_distance”: 0.625 “travel_avoid_other_parts”: true “travel_compensate_overlapping_walls_0_enabled”: true “travel_compensate_overlapping_walls_enabled”: true “travel_compensate_overlapping_walls_x_enabled”: true “wall_0_inset”: 0 “wall_line_count”: 2 “wall_line_width”: 0.4 “wall_line_width_0”: 0.4 “wall_line_width_x”: 0.4 “wall_thickness”: 0.8 “wireframe_bottom_delay”: 0 “wireframe_drag_along”: 0.6 “wireframe_enabled”: false “wireframe_fall_down”: 0.5 “wireframe_flat_delay”: 0.1 “wireframe_flow”: 100 “wireframe_flow_connection”: 100 “wireframe_flow_flat”: 100 “wireframe_height”: 3 “wireframe_nozzle_clearance”: 1 “wireframe_printspeed”: 5 “wireframe_printspeed_bottom”: 5 “wireframe_printspeed_down”: 5 “wireframe_printspeed_flat”: 5 “wireframe_printspeed_up”: 5 “wireframe_roof_drag_along”: 0.8 “wireframe_roof_fall_down”: 2 “wireframe_roof_inset”: 3 “wireframe_roof_outer_delay”: 0.2 “wireframe_straight_before_down”: 20 “wireframe_strategy”: “compensate” “wireframe_top_delay”: 0 “wireframe_top_jump”: 0.6 “wireframe_up_half_speed”: 0.3 “xy_offset”: 0 “z_seam_type”: “shortest”.
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