# Anycubic Kossel Plus Set-up guide and related things for the Anycubic Kossel Linear Plus 3D Printer. ## Getting started ### Build Marlin * [Marlin Repository](https://github.com/MarlinFirmware/Marlin) * [Instructions for Anycubic Kossel](https://github.com/MarlinFirmware/Marlin/tree/bugfix-2.0.x/config/examples/delta/Anycubic/Kossel) ```bash git clone https://github.com/MarlinFirmware/Marlin.git -b 2.0.x cd Marlin cp config/examples/delta/Anycubic/Kossel/Configuration.h Marlin/ cp config/examples/delta/Anycubic/Kossel/Configuration_adv.h Marlin/ ``` Adjust the `Marlin/Configuration.h` for your model: #define ANYCUBIC_KOSSEL_PLUS #define ANYCUBIC_PROBE_VERSION 2 #define ANYCUBIC_KOSSEL_ENABLE_BED 1 optional: ( #if ANYCUBIC_PROBE_VERSION == 2 #define NOZZLE_TO_PROBE_OFFSET { 0, 0, -15.10 } ) ```bash virtualenv -p python --no-site-packages . source bin/activate pip install -U platformio pio run pio run --target upload ``` ### Set up the 3d printer * `Configuration > Advanced Settings > Initialize EEPROM` * `Configuration > Delta Calibration > Set Delta Height` ( G33 P1 ) * `Configuration > Delta Configuration > Probe Z-offset` ( Set manually to 15.10 ) * `Configuration > Delta Calibration > Set Delta Height` ( G33 P1 ) * connect the Z-Probe and start `Configuration > Delta Calibration > Auto Calibration` * `Configuration > Delta Calibration > Store Settings` * `Motion > Bed Leveling > Level bed` followed by `Store Settings` use `Configuration > Advanced Settings > Probe Z Offset` to correct the difference and execute the calibration again ### optional: tune PID #### Nozzle (DEFAULT_Kp 22.36 DEFAULT_Ki 1.63 DEFAULT_Kd 76.48) * run the following G-Code (e.g. in Proterface) with the nozzle cold: 'M106 S255' & 'M303 E0 C10 S200' * store measured values: 'M301 P17.96 I1.44 D55.90' #### Bed (DEFAULT_bedKp 374.03 DEFAULT_bedKi 72.47 DEFAULT_bedKd 482.59) * run 'M303 E-1 C8 S60' * store measured values: 'M304 P254.09 I44.31 D971.39' #### store values in eeprom: 'M500' ### Configure Cura [Cura Profiles](https://www.thingiverse.com/thing:2367365) Download the profiles and put the json-Files into: `$HOME/.local/share/cura/4.4/definitions/` ## Cura settings #### Shell * alternate_extra_perimeter = True #### Infill * infill_sparse_density = 10 * infill_pattern = gyroid * zig_zaggify_infill = True #### Material * material_print_temperature = 204 * material_bed_temperature = 30 * material_bed_temperature_layer_0 = 55 * retraction_amount = 5 * retraction_speed = 65 #### Speed * speed_print = 60 * speed_layer_0 = 20 * speed_equalize_flow_enabled = True * speed_z_hop = 60 #### Travel * retraction_combing = infill * retraction_combing_max_distance = 20 * retraction_hop = 0.2 * retraction_hop_enabled = True * retraction_hop_only_when_collides = True #### Cooling * cool_fan_speed = 60 * cool_fan_speed_0 = 20 * cool_lift_head = True #### Support * support_z_distance = 0.2 * support_angle = 50 #### Build Plate Adhesion * adhesion_type = skirt * skirt_line_count = 2 * skirt_brim_minimal_length = 250 #### Experimental * coasting_enable = True * bridge_settings_enabled = True ### To test * line_width = 0.38 (for 0.15 else: 0.4) * optimize wall printing order = True * infill_enable_travel_optimization = True * use adaptive layers * print thin walls ## Snippets ### Firmware backup avrdude -p m2560 -c avrispmkII -P /dev/ttyUSB0 -b 115200 -D -U flash:r:factory_kossel.hex:i avrdude -p m2560 -c avrispmkII -P /dev/ttyUSB0 -b 115200 -D -U eeprom:r:factory_kossel_eeprom.hex:i ### Litophanes: [3dp.rocks Image to Litophane Converter](http://3dp.rocks/lithophane/) ### TPU Generally not enjoyable with bowden-type extruders. Buy another printer. Print and mount the [extruder mod](https://www.thingiverse.com/thing:2672773), otherwise the filament will jam between the extruder gear and the Ptfe-tube. Print slowly, not too small layer height, reduce retraction distance as it won't work anyways. Disable fan, disable heated bed. Avoid models that require many travel moves. ### Plotting use Inkscape and the included [Gcodetools](https://github.com/cnc-club/gcodetools). A 3d-printable pen holder (to use with rubber-bands) is attached in the `addons/` folder. #### Prepare Image * Make sure to have everything on a single layer * At the top bar leave units at px but treat them as mm! * scale object to desired size * `Path -> Object to Path` * `Path -> Combine` * `Path -> Union` * `View -> Display mode -> Outline` to preview * if there are too many nodes: `Path -> Simplify` #### Gcodetools * `Extensions -> Gcodetools -> Tools library...` select `default` tool * Diameter: 1.0 * Feed: 2400 * Penetration feed: 2400 * Passing feed: 3600 * Depth step: 1.0 * `Extensions -> Gcodetools -> Orientation points` * 2-points mode * Z surface: 0.0 * Z depth: -1.0 * move to center of object (0,0 is center of print-bed) and a bit to the right, as the pen is mounted right from the effector (45mm) * select object * `Extensions -> Gcodetools -> Path to Gcode * Offset along Z axis: 11.0 * Z safe height for G00 move over blank: 3.0 * Units: mm #### Print * home printer * print #### Experimental Cura settings: * Layer Height: 10 mm * Initial Layer Height: 10 mm * Wall Line Count: 1 * Top/Bottom Thickness: 10 mm * Print Thin Walls: True * Infill Density: 0 % * Default Printing Temperature: 0 °C * Build Plate Temperature: 0 °C * Enable Retraction: True * Retraction Minimum Travel: 2 mm * Combing Mode: off * Z Hop When Retracted: True * Z Hop Height: 2 mm * Enable Print Cooling: False * Generate Support: False * Build Plate Adhesion Type: none * Slicing Tolerance: Inclusive * Maximum Resolution: 0.2 mm ### LEDs (WS2812) print [rails](https://www.thingiverse.com/thing:3076641) and connect the led-strip to the trigorilla board at D11, +5V and GND if you connect more than a few leds, a step-down converter is needed! don't supply them via the trigorilla's 5V rail. In the Marlin/Configuration.h uncomment: #define NEOPIXEL_LED #define NEOPIXEL_TYPE NEO_GRB + NEO_KHZ800 #define NEOPIXEL_PIN 11 #define NEOPIXEL_PIXELS 35 In the Marlin/Configuration_adv.h uncomment: #define LED_CONTROL_MENU ## Original Anycubic Links * https://github.com/ANYCUBIC-3D/ANYCUBIC_Kossel_Source_Code