3D Printed Robotic Arm: Difference between revisions
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=Team Switzerland= | =Team Switzerland= | ||
*Good one - RAMPS controlled. Need to program it via code. | |||
*No feedback. | |||
*Practical use case - if we can create software to generate toolpaths, this would be a practical welding robot when scaled up. | |||
*Easy concept - 6 degrees of freedom, + 6 stepper drivers. Scalable - as drivers can be whatever size required. | |||
*Great project for open source TB6600, open source Arduinos, 3D printing, 3d printed belts and bearings for larger size machines. | |||
[[File:youtube.png|50px]] | [[File:youtube.png|50px]] | ||
Revision as of 15:01, 7 August 2020
Team Germany
https://hackaday.io/project/3800-3d-printable-robot-arm
Team Switzerland
- Good one - RAMPS controlled. Need to program it via code.
- No feedback.
- Practical use case - if we can create software to generate toolpaths, this would be a practical welding robot when scaled up.
- Easy concept - 6 degrees of freedom, + 6 stepper drivers. Scalable - as drivers can be whatever size required.
- Great project for open source TB6600, open source Arduinos, 3D printing, 3d printed belts and bearings for larger size machines.
Download all files, GPLv3, from here:
git clone https://github.com/SkyentificGit/SmallRobotArm
Scalability
- Mechanically, this can be scaled up to whatever size stepper motor is available. with proper geometry, allowed forces can be large.
- Basics: if we have a 50lb force with a 1/2" pulley and 15mm GT2 belt - we can get to 500 lb pull readily on a 5" pulley! Good forces are allowed. We can probably get 5 kg load on the end effector for an industrial welding robot.