Skip to content

MiniSkybot Robot V1.0

Download free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3dDownload free 3D printing templates MiniSkybot Robot V1.0, Ogrod3d

3D model description

The MiniSkybot is a new mobile robot aimed for educational purposes. It has three new important features: 3D-printable, fully open-source (mechanics + electronics) and designed exclusively with Open source tools (OpenScad, Freecad and Kicad)

This robotic platform allows the students not only to learn robot programming, but also to modify easily the chassis and create new custom parts. Being open source the robot can be freely modified, copied, and shared across the Internet. In addition, it is extremely cheap, being the cost almost exclusively determined by the cost of the servos, electronics and sensors.

This work is being done between three professors from the Robotics Lab at Carlos III University of Madrid and one part-time teacher at Universidad Autonoma the Madrid:

  • Dr. Juan Gonzalez-Gomez (UC3M)
  • Andres Prieto-Moreno (UAM)
  • Dr. Alberto Valero (UC3M)
  • Dr. Mohammed Abderrahim (UC3M)

Also, there are serveral engineering students involved.

The robot chassis has been design with Openscad. More information can be found on this link: http://www.iearobotics.com/wiki/index.php?title=Mini-Skybot_v1.0

The electronics consist of the open-source hardware Skycube board (http://www.iearobotics.com/wiki/index.php?title=Skycube), a small board with an PIC16F876A micro-controller designed with the open-source Kicad EDA tool.

The following things previously designed and uploaded to thingiverse have been used:

  • Servo wheels: http://www.thingiverse.com/thing:4767
  • Parameterized battery pack: http://www.thingiverse.com/thing:5079

The Chassis is an evolution of the proof of concept minimal chassis:

http://www.thingiverse.com/thing:4954

We want to thank to all our students who are testing and improving this robot. Special thanks to Olalla Bravo ( http://www.thingiverse.com/Olalla ) for the design of the Castor wheel.

This preliminary work will be presented soon at the 6th International Symposium on Autonomous Minirobots for Research and Edutainment ( http://www.amiresymposia.org/amire2011/ )

UPDATE 2011/May/28

The paper and slides about the MiniSkybot, presented at the Amire 2011 conference can be found at http://www.iearobotics.com/wiki/index.php?title=Paper:2011-Amire-Miniskybot

Video: http://www.youtube.com/watch?v=RSO1v0a-HO8

UPDATE 2011/Jun/23

A new video of CW Kreimer explaining and showing his Miniskybot: http://www.youtube.com/watch?v=2EqvuPXYKf0

UPDATE 2011/Dec/05

The new skymega board (Arduino compatible) is now being using for controlling the robot: http://www.thingiverse.com/thing:14197

UPDATE 2013/March/18

New Miniskybot 2: http://www.thingiverse.com/thing:63165

3D printing settings

The robot assembly is easy. More detailed instrucctions can be found on this link:

http://www.iearobotics.com/wiki/index.php?title=Mini-Skybot_v1.0

Even though the instructions are written in Spanish, there are a lot of pictures (I will translate into English in the future)

The steps are the following:

1) Print all the parts:
- 1x front part
- 1x rear part
- 1x battery pack holder
- 1x battery pack
- 1x Castor wheel part 1
- 1x Castor wheel part 2
- 1x Castor wheel part 3
- 2x Servo wheels

2) Mount the servo wheels ( http://www.thingiverse.com/thing:4767 )
3) Mount the battery pack ( http://www.thingiverse.com/thing:5079 )
4) Hack the servos (so that they can turn 360 degrees)
4-bis) Attach the front and rear parts to the servos
5) Mount and attach the castor wheel
6) Screw the spacers and the electronics
7) Insert the battery pack
8) Connect everything
9) The robot is ready for programming!

  • 3D model format: STL and ZIP

Tags

Creator

License

CC BY SA

Related contents


Add a comment