3D Printed Geometry Connectors

by fozzy13

15K24718

Intro: 3D Printed Geometry Connectors

My life hasn't quite been the same since as a student, I was able to access 3D printers. This was a fun quick project to blend 3D printed items with more traditional crafting materials. Using a 3D printer allows for small connectors with precise angles to be made. While an icosahedron would normally be a difficult shape to create, it was easily manageable with this technique.

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  1. Introduction
  2. Video
  3. Printing
  4. Assembly
  5. Conclusion

STEP 1: Video!


STEP 2: Printing

After designing using Autodesk's Fusion 360, connectors were printed using a Makerbot 5th Generation for the icosahedron and equilateral pyramid, while a Makerbot Replicator 2X was used for the cube. This was really based on wanting to utilize different machines to compare tolerances, and what was available at the time in the makerspace.

If I remember correctly, I printed these at about 15% infill, with 3 shells. I wanted to be able to Dremel out the insides of the connectors if necessary. It wasn't necessary after they were printed. The dowels fit just fine.

Go grab the files from Thingiverse!: http://www.thingiverse.com/thing:1159875

P.S. If you want to make one of these, but don't have access to a 3D printer, 3D Hubs can help! They connect you to someone locally who has a printer and is willing to run prints for you. Use coupon code MKSHWHBVCV to get 15% off your order!

STEP 3: Assembly

Quarter-inch dowel rods will need to be cut to equal lengths. You can choose whatever length you wish depending on the desired size of the object. Depending on which shape you are making will determine the number of dowels you need to cut.

For an icosahedron, you will need 30 pieces, for a cube you will need 12, and for the equilateral pyramid you will need 6.

Once cut, the pieces slide in to the slots on the connectors to create the shapes.

STEP 4: Conclusion

Thank you for reading! Leave a comment letting me know what you think, and any ideas to use this technique to make something awesome, or create new shapes!

15 Comments

rl777 3 months ago

Would love to make these but the thingiverse link does not work. Any chance of you making these files available again? Thanks.

tgoggans 1 year ago

The thingiverse link does not work. Is there a way to get the files another way?

edwin-chege 2 years ago

I really need the STL files for something similar I'm working on but the link you provided doesn't work.any help?

DonC171 4 years ago

What's the stick diameter???

weareplasmas 4 years ago

I tried splicing the tetrahedron ones of these and Cura made them 10,000% bigger.. When I reduced to 100%, the shape disapeared. Is there something I am missing in terms of resizing these? Thanks!

fozzy13 4 years ago

hm this is the first I've heard of the issue. Make sure the import units in Cura are correct. These were modeled in millimeters if that helps.

enauman1 6 years ago

I'm finally getting around to printing these. It looks awesome, thank you for making them and sharing! We will use them in my school definitely. The numbers you mention to make each shape are off. Pyramid = 4, cube = 8, icosahedron = 12.

enauman1 6 years ago

Oh, sorry you were talking about how many edges, not vertices. My bad!

sdavé8 8 years ago

Great idea! Can you buy these anywhere? I've been looking for something like this to build models but I don't have a 3D printer.

makendo 8 years ago

Really nice. Any plans to do the other platonic solids? Or any other polyhedra?

fozzy13 8 years ago

Thank you! At this point I do not, but I may get inspired in the future. Making an icosahedron was the goal at the beginning, and then the other two shapes were tacked on afterward.

jayludden 8 years ago

these are awesome! Do you think straws would fit?

fozzy13 8 years ago

Thank you! Straws should be about the right size, and would be flexible enough to squish in. However I would be a little worried about how sturdy they would be.
Thanks for the comment!