Make It Real CAD Engineering Challenge Sponsored by Autodesk ®
Have you ever wanted a particular component for your robot that was not included in the kit of parts? Do you want to design and make something unique that sets you apart from your peers? Then the “Make It Real CAD Engineering Challenge” is for you! Autodesk is sponsoring this challenge and giving you a chance to focus your passion for CAD and apply your skills to solve a real world design issue.
In this challenge, you will use the same Autodesk 3D design software used by professionals to conceptualize and model a new part for a robot that improves its functionality or overcomes an existing problem. The new part must be designed to fit an existing robot, and may consist of multiple pieces that form one part design. The robot may be a competition robot (VEX, FIRST, BEST, PLTW, SkillsUSA, TSA, etc.) or another robot that performs an interesting task. To make it even more exciting, you will also have the option to compete for a “bonus prize” by 3D printing your custom part! Note that your 3D printed part from this online challenge may be used in the VEX U competition, but not in VRC or VIQC.
To help you succeed, access to Autodesk software is available at no charge to students. In the Make It Real CAD Engineering Challenge, you must use either Autodesk® Fusion 360™, Autodesk® Inventor®, or Tinkercad™ to model your custom robot part. Whether you’ve used the software before or are brand new to CAD, the Autodesk Design Academy provides lessons and video tutorials for all skill levels.
To get started, carefully read the complete challenge requirements on this page. Then visit the Autodesk Design Academy challenge page to download software, watch tutorials and learn how to create custom parts. When you’re ready, return to this page to submit your entry.
The future is yours to design, and we can’t wait to see how you change the world!
Me and my team are creating a robot that can pick up a box and we decided in unison that it would be easier to design a part for a robot digitally because then we could make and place the measurments for a new set of wheels that allow the robot to stay stuck in place while peforming the actions it is programmed to do.
Michael Campes, Kenneth Aleman, Louis Jean, William Valle, Jeff Eliedor
This project is about making a chain tool that can make putting on chain go faster and a lot easier in cramped spaces. This tool will be designed to be easy to use, simple, fast to print, small, and customizable.
I used Fusion 360 to design this tool and this is my first time using it. I found the program pretty easy to learn but I am still getting the hang of it. My design was very simple but I can see how using Fusion 360 helps alot in 3D design and getting it done fast.
The tool I designed is used to keep the chain tight...
Introducing the “Three-Plane 45º Gusset”. This part has been created to make it possible to simultaneously connect C-Channel in the x-y-z plane in a strong, efficient, secure, and yet simple way. The Three-Plane 45º Gusset can easily be attached to any size piece of c-channel.
In applications where the existing 45º Gusset is used to make an angled connection, the Three-Plane 45º Gusset could be used if there is a need to create additional support or structure in the parallel plane, perpendicular plane - or both planes...
The model I have submitted is a perpendicular C-channel coupler. I have been involved in vex robotics for five years now and while designing this C-channel coupler I considered some of the bigger problems I have had when designing and testing robots for the games. One of the more tedious problems is trying to attach these pieces together without adding extra and unneeded metal that negatively affect the robot. This coupler allows teams to connect 2 C-channels perpendicularly, rather than attempting to bind them by laying metal on top of the bars. Since the resulting...
This adjustable standoff was created on Fusion 360 (version 2.0.6670) because its a part 507C wished they had for their robot. The main function is to be able to have an adjustable spacing whitch is secure. Hope you like this CAD online challenge.
It may seem simple at first, and it is. These 4 new c-channels could be used in multiple different building senarios and allow a builder to better construct their robot using these varying width c-channels. Currently there are 2,3 and 5 wide c-channel lengths available. Many robots can be constructed by these peices (cut or not). These new channels would allow builders to explore new pathways to build specialized mechanisms for their robot. Also, builders would not need to improvise with awkward combinations of current channels or create sharp edges by spitting 2, 3 and 5 wide...