Difference between revisions of "Equipment/Dahlgren Wizzard 2000 ST"
Line 20: | Line 20: | ||
This is a project to convert a CNC engraver to also allow it to operate as a CNC pcb drill. The Engraver is a Dahlgren Wizzard 2000 ST. Currently, the engraver is actively worked on by [[User:Martin_p|Martin_p]], and for the time being lives on the floor in the arts/crafts corner. The original roadmap/discussion has been moved to [[Talk:Equipment/Dahlgren_Wizzard_2000_ST|discussion]] for this page. | This is a project to convert a CNC engraver to also allow it to operate as a CNC pcb drill. The Engraver is a Dahlgren Wizzard 2000 ST. Currently, the engraver is actively worked on by [[User:Martin_p|Martin_p]], and for the time being lives on the floor in the arts/crafts corner. The original roadmap/discussion has been moved to [[Talk:Equipment/Dahlgren_Wizzard_2000_ST|discussion]] for this page. | ||
− | This wiki page is not written in a chronological order, and relevant sections will be updated as the work progresses. Please feel free to contact me with any suggestions, or correct any errors or omissions. | + | This wiki page is not written in a chronological order, and relevant sections will be updated as the work progresses. I am using my phone camera for taking the pictures, so please excuse their poor documentation-only quality. Please feel free to contact me with any suggestions, or correct any errors or omissions. |
Revision as of 23:23, 28 October 2013
This is a project to convert a CNC engraver to also allow it to operate as a CNC pcb drill. The Engraver is a Dahlgren Wizzard 2000 ST. Currently, the engraver is actively worked on by Martin_p, and for the time being lives on the floor in the arts/crafts corner. The original roadmap/discussion has been moved to discussion for this page.
This wiki page is not written in a chronological order, and relevant sections will be updated as the work progresses. I am using my phone camera for taking the pictures, so please excuse their poor documentation-only quality. Please feel free to contact me with any suggestions, or correct any errors or omissions.
Resources
All resources, PCB designs and arduino C++ files live on GitHub. Feel free to look around and/or contribute (but please email me first).
Mechanics
Original state
Apart from lots of dirt and a bit of rust, the mechanical parts were in a reasonable order. The most important missing bits were:
- 3x NEMA 23 motors
- 2x 6mm flexible coupling
- z-axis pulley (6mm shaft)
- working bed
- main motor and belt between the rotary tool bit and the motor
- bit mounting mechanism (only a torso of it left)
Electronics
Original state
Electronics was split into 3 boards - driver/power source, a 386 controlling board and a front display/buttons board.
Driver board
The driver board was in a good shape, and seemed to be relatively easy to hack. The power source is 35V (motors) and 5V (electronics, stabilised), and works beautifully. The middle part contains a 6-phase motor driver, and will probably not end up used in the end. The stepper motor drivers are older versions, but fully functional, hardwired to use 1/10 substeps, and 800mA peak current.
Control board
The 386 machine refused to cooperate because of the missing main motor, and as it would be very hard to reverse-engineer it anyway, I went with the suggestion from the original discussion and ditched it.
Display/buttons board
The front board contains a set of buttons, a HD44780-compatible two lines LCD display and 3 pots, all in a very hackable working order.
Software
All sources live on GitHub, both for Arduino and for Linux side (not yet implemented).
Original state
Because I decided to ditch the 386-based control board early on, the original state was non-existent.
Arduino
The main part of hard work is done by an Arduino Nano. It is connected directly to the motor drivers, endstops, display and buttons. It receives its data via a USB/RS232 serial port.