The first 3D-printable (Rep-Rap alike) CNC machine, intended for PCB manufacture.
Disclaimer
===================
This hardware/software is provided “as is," and you use the hardware/software at your own risk. Under nocircumstances shall Carlosgs be liable for direct, indirect, special, incidental, or consequential damages resulting from the use, misuse, or inability to use this hardware/software, even if Carlosgs has been advised of the possibility of such damages.
News:
--
* First Z probing results are promising, read: https://plus.google.com/u/0/113437723819360223498/posts/9VCHqqnirj6 and https://plus.google.com/u/0/113437723819360223498/posts/89W2cv1fgQW
* Added the python probing script (v0.1) and Octave/Matlab visualizer
Videos:
--
- v0.9.5 Probing a PCB http://www.youtube.com/watch?v=m5zXL8k5T9E
- v0.9.5 Milling MDF http://www.youtube.com/watch?v=2QpxjheEjEc and http://www.youtube.com/watch?v=zjav0hBtmYA
- As shown in one of the pictures, a cheap dremel-like drill has nice bearings and is a good option as the main tool. **Finally it will be using a proper spindle** (check the BOM for the reference).
- Desired working range of >=100mm for the X axis and >=160mm for the Y axis.
- Parts are designed to be printable with the small volume of a Printrbot Jr
- Bed leveling will be done with probing and an appropriate software.
To-Do list:
--
- [99% DONE] Design parts for the X axis (this includes Z axis too, **will be using a proper spindle instead of a hand-drill**)
- [DONE] Design parts for the Y axis
- [DONE] Create template for the screws in the wood base
- Software, testing, milling a PCB (till then, it can't be v1.0 :P)...
Software
--
Here is a compilation of links that I find interesting for the software controller:
- Z axis concepts by **Quim Borras** and the spindle motor holder by **Misan** were really useful!! Also, **Diego Viejo**'s machine was of great inspiration for the Z axis (https://plus.google.com/u/0/photos/113930344830086538817/albums/5868944432651911713?authkey=CLDJgdehlN773gE) **Thank you all!!**
- This design woudn't have been possible without the encouragement of the **Panda CNC community** (https://plus.google.com/u/0/communities/102402711800402614517)
- Also, thanks to **Obijuan** (http://iearobotics.com) for naming the machine Cyclone :)
Credit for the ideas used
--
The origin of Cyclone took place while I was inside the __Panda CNC__ community (https://plus.google.com/u/0/communities/102402711800402614517). This is from December 2012 to mid-February 2013.
Here is the credit for the ideas that were used:
* __Let’s design a 3D-printable CNC for PCB milling, it will be named Panda:__ Guillermo Welch (mid-December, via Google Talk)
* __100x160mm workspace:__ David Martin https://dl.dropboxusercontent.com/u/16122275/PandaCNC_credit/workplace_size.png
* __Using gears to drive the X-Y axes:__ Guillermo Welch https://plus.google.com/u/0/101232926728463427403/posts/QjZGNcWcgGg
* __Regarding the woodbase:__ Guillermo Welch always contemplated the possibility of attaching the machine (optionally) to a woodbase. I decided to use the base as a main structural part instead. See https://dl.dropboxusercontent.com/u/16122275/PandaCNC_credit/woodbase.png (screenshot from https://plus.google.com/u/0/113437723819360223498/posts/8LDCSSVWqCS)
* __List of CNC endmill types:__ David Martin https://dl.dropboxusercontent.com/u/16122275/PandaCNC_credit/cnc_endmill_types.png
Please note I have taken screenshots of the post that are on the closed G+ Panda community (https://plus.google.com/u/0/communities/116318709564872967169). You can register and see by yourself.
**All other development present on Cyclone has nothing to do with Panda and is not related to the Panda project.**