Convert Laser: Difference between revisions

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{| class='wikitable'
{| class='wikitable'
|-
|-
| [https://inkscape.org Inkscape ](Design)
| [https://inkscape.org Inkscape ]
| Design<br>Optionally, our [https://github.com/KnoxMakers/KM-Laser KM-Laser Bundle]
| Design<br>Optionally, our [https://github.com/KnoxMakers/KM-Laser KM-Laser Bundle]
|-
|-
| Custom Web interface
| [https://github.com/KnoxMakers/cncfm cncfm]
| Upload to laser + CAM<br>Name and link coming
| Web File Manager and Vector+Raster CAM
|-
|-
| [http://linuxcnc.org LinuxCNC]
| [http://linuxcnc.org LinuxCNC]
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{| class='wikitable'
{| class='wikitable'
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| Motherboard/RAM/CPU
| Computer
| 2 NICS
| [https://www.gigabyte.com/us/Motherboard/GA-J1900N-D3V-rev-1x#ov Gigabyte-J1900N-D3V]<br/>4GB SODIMM<br/>Parallel Port Card
|-
|-
| Hard drive
| Break Out Board
| Just big enough to hold LinuxCNC with some room left over for gcode and raster images
| [https://www.cnc4pc.com/c10-bi-directional-parallel-port-interface-card.html C10 Parallel Port Breakout Board]
|-
| Power Supply
| Something that supports 220v and will power the motherboard
|-
| LinuxCNC compatible I/O card
| We chose a [http://store.mesanet.com/index.php?route=product/product&path=83_85&product_id=290 Mesa 7176E]<br>It cost a little more than other options but we can use the extra NIC on the motherboard instead of having to add a parallel port.
|}
|}


=Implementation=


[[Image:Laser-Electronics-Examine.jpg|500px]]<br>
The wiring diagram, design files for the panels, and LinuxCNC config can be found on our github in the [https://github.com/KnoxMakers/Moonraker Moonraker Repository]
 
=Progress=
 
The electronics as they started.<br>
[[Image:Moonraker_electronics_before.jpg|500px]]
 
 
The controller removed.<br>
[[Image:Moonraker_electronics_removed.jpg|500px]]
 
 
Searching through our well organized choas to find standoffs for the new electronics.<br>
[[Image:Moonraker_standoffs.jpg|500px]]
 
 
More to come....

Latest revision as of 14:54, 30 November 2022

The purpose of this page is to document the conversion of our Chinese laser to use our preferred firmware, LinuxCNC.

Importing

See our page on importing the laser.

Why

Changing the firmware gives us a few advantages.

  • As an organization, we strongly value open source and this gives us the option of using a full open source stack to go from design to cut.
  • We have years of experience, training, and development on the current stack and have had a really positive experience with it.

Plan

The plan is to remove the controller and display panel that came with the laser and replace them with a computer running LinuxCNC, a I/O card, and a panel of our own design and needs. Our goal is to fit this all into in the new laser using the existing structure in a neat and beautiful way.

Software

Inkscape Design
Optionally, our KM-Laser Bundle
cncfm Web File Manager and Vector+Raster CAM
LinuxCNC Firmware to run laser

Hardware

Computer Gigabyte-J1900N-D3V
4GB SODIMM
Parallel Port Card
Break Out Board C10 Parallel Port Breakout Board

Implementation

The wiring diagram, design files for the panels, and LinuxCNC config can be found on our github in the Moonraker Repository

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