original body came from a MYDIYCNC that was left on a beach.
now try the software side.
z stepper motor is broken - nema17 replacement need to install.
- connect the dremel to the RAMPS board
- limit switch
- z-probe - repetier z-probing
generating models and gcode
Can use pronsole / direct g code to serial port (example in firmware, need to move here)
RepetierHost (git) for Fedora - this is an aside, I'm working on fixing the situation for fedora with this software (supposed to be good since we are using it's firmware part)
- OpenTK requires a newer release (see fedora bz 1157173 I opened, and 1032883) which requires packaging mono-cecil (1058765)
- RepetierHost needs a newer version, 0.9 is packaged but that doesn't work with our firmware, we need the newer 1.0.6
Repertier-Host (git) is used for firmware and optionally for controlling software. Version 0.9 (current on fedora 21) isn't good enough. But [pronsole (printrun) works fine, so does this python snippet: (using pyserial only, and very basic gcode gleened from pronsole source):
import serial s = serial.Serial('
$ cat rectral.py import serial s = serial.Serial(port='/dev/ttyACM0', baudrate=250000) d = [('X', 1), ('Y', 1), ('X', -1), ('Y', -1)] l = [100, 200, 300, 400, 500, 600, 700, 800, 1000, 1100] for le in l: for axis, direc in d: s.write('G%s%s F3000\n' % (axis, direc * le))
firmware "configuration.h" file pastebin as of 2014-10-25
enabled support for z-probing,the settings are at ball park esp.
// distance/difference between activated probe and nuzzle height #define Z_PROBE_HEIGHT 40
on hold this needs a adaptation for using our arduino shield (RAMPS1.4) there is a custom firmware (GRBL_RAMPS1_4) for this but it doesn't seem to be actively developed, or work.
one of the popular firmware for controlling stepper drivers and parsing G-CODE
- compile and upload -https://github.com/grbl/grbl/wiki/Compiling-Grbl
- connecting to an MCU - https://github.com/grbl/grbl/wiki/Connecting-Grbl
- machine manual, good mostly for historical, mechanical design