tree: cfad279680a32e339ac3ee66011d9f9de5970085 [path history] [tgz]
  1. NUC-foot-over-button-v1.stl
  2. NUC-foot-standard-v1.stl
  3. NUC-foot-v1-photo-1.jpg
  4. NUC-foot-v1-photo-2.jpg
  5. NUC-foot-v1.md
  6. README.md
  7. chromebook-rack-v1.stl
  8. chromebook-rack-v2.stl
  9. raspirack_pi_holder.stl
  10. raspirack_v1.stl
  11. raspirack_v2.stl
  12. raspirack_v3.stl
  13. raspirack_v4.stl
  14. raspirack_v5.stl
  15. raspirack_v5_extended.stl
  16. raspirack_v6.stl
  17. raspirack_v6_extended.stl
  18. raspirack_v6_narrow.stl
  19. raspirack_v7_extended.stl
  20. raspirack_v7_narrow.stl
skolo/3dmodels/README.md

3D Models

This directory contains the the 3D model files in STL format for 3D printable designs to house a Raspberry Pi (RPi) and Android device for testing. The units of all models are in millimeters (mm). This is relevant when importing them into a tool like Tinkercad.

The holder is designed to hold a RPi in this specific case:

http://www.amazon.com/SB-Components-Clear-Case-Raspberry/dp/B00MQLB1N6

and (up through v5) this specific USB hub:

http://www.amazon.com/Sabrent-Individual-Switches-included-HB-UMP3/dp/B00TPMEOYM

It would be very simple to adapt it to other cases and hubs. The separate raspirack_pi_holder model is a good example for a stand alone component that is specific to a case.

raspirack_v5 adds a way to connect two racks together. The extenders on the sides have holes that line up and can be fastened with a 3/32 by 2.5 inch wire hair pin clip (aka cotter pin). Similar in shape to this:

http://www.amazon.com/Koch-Industries-4022333-8-Inch-10-Piece/dp/B00OV7TO0U

Starting in v7, only 1 cotter pin on each side is required to join the racks together, further narrowing the design.

Contents:

raspirack_*.stl : Contains different versions of a rack to hold a RaspberryPi (in a translucent case) with a dedicated USB hub and an arbitrary Android devices. Should work with any device up to a Nexus 10.

raspirack_*_extended.stl : A variant of the rack that has a larger “payload” to accomodate bigger devices (e.g. NVIDIA Shield). The payload width is 25mm, compared to 11mm on the standard rack.

raspirack_*_narrow.stl : A variant of the rack with the same size “payload” as normal, but has only one pin spot on each side to connect with other racks. Additionally, the depth of the rack is about half of normal. This should allow for more rpi density and faster batch printing.

raspirack_pi_holder.stl : Holder for the RPi. This is incorporated into all versions starting with raspirack_v4.