![cubify design trial cubify design trial](https://hobbybotics.files.wordpress.com/2012/09/cubify-invent.jpeg)
As such, I intend to document my journey into the world of 3D fabrication. Since then, I have been working with it so much that I have neglected many of my other project(s). Next time I’ll continue the Ecksbot build with a discussion of how I intend to mount the electronics along with what hot-end I chose and how I mounted it.īack in June 2012 I posted about purchasing a Makerbot Replicator 3D printer with dual extruders. This wraps up the discussion of my first experience with using Cubify Invent. WW-1230A 12VDC 30A Switching Power Supply (search for 12V DC 30A 360W Regulated Switching Power Supply) I’m using the following component from Ebay: I’m using the following components from Mouser Electronics: Use M4 x 16 mm bolts to secure mount plate to 3D printer frame. Snap the three pieces together and use super glue or acetone/ABS glue to bond. The mounting plate is made from three pieces:
![cubify design trial cubify design trial](https://3dprint.com/wp-content/uploads/2015/02/q1.png)
Print 4 mount brackets from thing:10621 – /thing:10621 I printed the design files on the MakerBot Replicator with the following settings: The design was created with Cubify Invent and available here on Thingiverse.įollow the below instructions if you want to duplicate this project: As such, I present a front cover, rear cover and mounting plate for the WW-1230A 12VDC 30A switching power supply. I also wanted to add more protection against accidental contact with the AC wiring than what is afforded by the barrier strip cover. I’m looking for portability so, I decided to mount the power supply onto the printer. I decided to clean up the mounting scheme for the electronics during the initial phases of the Ecksbot build. The Ramps electronics and power supply can be found for a great price on Ebay. I decided to go with the Ramps 1.4 electronics and power it all with a WW1230A 12VDC 30A switching power supply. Since the introduction I have aligned the frame, installed the stepper motors and selected the control electronics. In the first installment I stated I was using my Replicator 3D printer to build a Ecksbot 3D printer. I found Cubify Invent easy to understand and within a couple of hours I had enough knowledge to create my first design.
#CUBIFY DESIGN TRIAL MANUALS#
I believe that basic user experience should become routine within the first 30 minutes of use with more time reserved for tutorials and manuals once I have buy-in.
![cubify design trial cubify design trial](https://image.slidesharecdn.com/1231134c-1b6a-4be0-9b83-2b18299537c9-141212081533-conversion-gate02/95/3dprinting-1-638.jpg)
#CUBIFY DESIGN TRIAL SOFTWARE#
You can also checkout Cubify Fans blog for more in depth tutorials (my favorite).Īs a personal rule-of-thumb, I typically give myself roughly 30 minutes to figure out the basics of new software without having to reference a manual.
#CUBIFY DESIGN TRIAL TRIAL#
There is a 15 day trial so you can test it out.Ĭubify offers some basic video tutorials to get you started.
![cubify design trial cubify design trial](https://img.informer.com/screenshots/2642/2642252_1_3.png)
You start your design by drawing a sketch in a 2D plane and selecting extrude or many of the other tools to convert the drawing into a 3D representation. The work flow is similar to 123D by AutoDesk (free software). In the first installment of my adventures with 3D printers I talked briefly about Cubify Invent from the makers of the Cube 3D printer.įor just $49 you can pick up Cubify Invent which has many features that are contained in more expensive 3D packages such as Solid Works.