Dual Printable T-Slot nut for MendelMax

Created by RichRap, source
  3D view
3D Compare
richrap
created 03/06/14 16:57


Download shape

This is a test sheet of T-nuts.

Some are of the original type posted by kludgineer and some have been elongated for greater support when attaching things to the frame.

The main difference that should help with MendelMAX assembly is a dual t-Nut spaced at 20mm, most things on the frame are spaced for this to assist.

User Prints

If you printed this shape, share it!

I printed this!

Instructions

Print out a sheet and experiment, you should be able to fit a M4 nut into the recess after drilling out the hole and use it as a T-nut.


Tags

Comments

You must be logged in to comment, log in now
dual_t_nuts_4_testplate.stl
(ver 1)

Latest Changes

Jun 03, 2014

  • Add file dual_t_nuts_4_testplate.stl
    By richrap at 16:57
network map more

Forks

Fork

License


Dual Printable T-Slot nut for MendelMax by richrap is licensed under the GNU - GPL license.

Print Tag

If you printed this shape, please give your attribution by print this tag

Shape Tag
  1. Welcome Tutorial - The shape page

    This is a shape page, a shape can contain one or more STL files as well as extra instructions helper files..
    Press Next to continue.

  2. This is the shape gallery. Like in many sites you can see a 3D view of this shape by clicking the "3D view" button. This button appears when an image is linked to an STL file.

  3. In case you missed it, this download button would let you download the shape.

  4. Here comes the magic of ShapeDo, lets start by forking this shape.
    Forking a shape creates a full copy of the shape in your account, one which you an edit and improve on.
    Try forking this shape!

  1. Welcome Tutorial - The shape page

    This is a shape page, a shape can contain one or more STL files as well as extra instructions helper files..
    Press Next to continue.

  2. This is the shape gallery. Like in many sites you can see a 3D view of this shape by clicking the "3D view" button. This button appears when an image is linked to an STL file.

  3. In case you missed it, this download button would let you download the shape.

  4. Here comes the magic of ShapeDo, lets start by forking this shape.
    Forking a shape creates a full copy of the shape in your account, one which you an edit and improve on.

  5. Note there are extra details calculated for the shape, such as volume and file size, useful for when you want to print.

  6. Shapes can have many revisions, here you can see the version count with the latest first. By clicking on the version you can see live what has been changed in the 3D viewer or download older versions.

  7. This box will show you the history of changes made on this shape.

  8. You can see a visual representation of the history by clicking on the "network map" link, the "network map" shows the entire fork and shape history, its a powerful tool finding the exact version you want, and seeking who has the latest changes. You can also view it by clicking on the 'forks' message at the top of the page

  9. This box will show the users who forked this shape. Forks can take shapes in unusual directions.

  10. Don't forget to upload your shapes and thanks for participating our tour. We can't wait to see what you will create!

  11. Your feedback is important, please take a minute to make us get better.

  1. Congratulations

    You have created your first fork, good job!
    You made your first important step.

    Lets continue our tour...

  2. This shape is yours, you can edit and update it in any way you want.

    You can get new changes from other users that forked the original shape by pulling from them. Using the arrow on the right of the edit button opens the pull action.

    When you make changes and want to contribute back to the origin, just use the merge request to create a request to the original author. They will get an e-mail that their shape has a request, they can comment on it in case a change needs to be made.

  3. You can see here where the shape was forked from and who will get the request.

  4. Note there are extra details calculated for the shape, such as volume and file size, useful for when you want to print.

  5. Shapes can have many revisions, here you can see the version count with the latest first. By clicking on the version you can see live what has been changed in the 3D viewer or download older versions.

  6. This box will show you the history of changes made on this shape.

  7. You can see a visual representation of the history by clicking on the "network map" link, the "network map" shows the entire fork and shape history, its a powerful tool finding the exact version you want, and seeking who has the latest changes. You can also view it by clicking on the 'forks' message at the top of the page

  8. This box will show the users who forked this shape. Forks can take shapes in unusual directions.

  9. Don't forget to upload your shapes and thanks for participating our tour. We can't wait to see what you will create!

  10. Your feedback is important, please take a minute to make us get better.