Create your own Ready RepRap 3D printer!

Create your own Ready RepRap 3D printer!

Now a project on!

With special thanks to the following contributors:

Donald Heinis
Brian Harding

Alexander Ose


Thanks to the support and encouragement of my wife and family, here it goes! Launching a crowdfunding campaign is always a bit of an unknown quantity in my mind. The dominating insecurity in my mind stands as, "will anybody want this?" This time, at least, I feel like it is something that a lot of people in the maker community, STEM educators, and hobbyists can get behind. That said, I'm finishing this book, and I need your help to publish it. :-)

Free open source content & downloads

I will update the following as links to the free resources as they are completed:

  • Firmware configurations -> Github
  • 3D Models to print -> Github, Thingiverse, Tinkercad
  • Parts Lists ->
  • Basic Instructions ->
  • Video Instructions Webinar -> YouTube
  • Notes & Updates -> and Github


Purchase the book online

Once the project is completed, you will be able to purchase the book here in my bookstore. I expect to have it there by the end of April 2017. Thank you for following this project and please stay tuned. 


About the project

This has been a project over a year in the making, and mostly a labor of love. I first got interested in RepRap 3D printers when I was working at the Pueblo City-County Library District. They had a couple MakerBot 3D printers, which are good but expensive. I was intrigued by the idea of making lower cost but decent printers using mostly off the shelf parts. The concept of a RepRap printer is cool because it incorporates 3D printed parts to make the 3D printer. In theory, one goal of the RepRap movement is to create machines that are capable of self replication with as few extraneous special part as possible.

My printer uses low-cost electrical conduit and beaded chain to form the structure, the linear motion components, and the power drive system. It's cool because you can buy most of the mechanics at a local hardware store, and there is not much to go wrong during assembly. 

The Ready RepRap is intended for use in classrooms, libraries, or teaching groups. It can be built using only hand tools at a table, and only costs about $200 in parts. It is also relatively easy to print. It takes a total of 15 hours to print the parts, which compares well to some of the most minimal print designs out there. 

My design is a delta type system, which has three vertical tracks for movement. Deltas have a lot going for them: Tall print volume for minimal structure, strength because three motors operate together, and also iterative design - design one leg, and just copy it three times. 

I explored the idea of designing my own extruder machine for pushing the filament, and my own hotend for melting and depositing the filament. In the end, at least for this project, I opted to purchase ready made parts. 

Now that the printer is finalized and up and running, I'm focusing on the next task:  Making the Book. I am going to publish the material as a hybrid of totally open-source and pay-to-read. It can be tricky to strike a balance that appeals to the DIY community, but also lets me continue doing what I do in the world of tech design.

If you find this book interesting, I hope that you will contribute to our online crowdfunding campaign. If you can't contribute funds, you can still help by sharing the project with your friends, educators, and makers in your life!  Thank you. 



Emergency digesters for a human world

Emergency digesters for a human world