Embedded Files
Prototyping
Prototyping
Top View of Preliminary CAD
Top View of Preliminary CAD
Simflied cad made to generalize the shape of the robot.
Bottom View of Preliminary CAD
Bottom View of Preliminary CAD
The bottom features a central axle for pivoting wheels.
Differentiating Mechanism
Differentiating Mechanism
Animation
Animation
This animation showcases how the front wheels can pivot independently from the back wheels. In the competition, one of the obstacles to overcome is soccer cones, and this pivoting feature helps maintain 4-wheel contact.
Preliminary Competition
Preliminary Competition
Qualifiers
Qualifiers
The qualifiers track includes a ramp and the soccer cones obstacle. Our rover successfully completed the entire course and the 2 laps within 22 seconds, positioning us 6th on the school leaderboard.
To the right is the electronic array.
Final
Final
Final Performance
Final Performance
We competed across the course for a finalist position and, with a few modifications, brought our gift-wrapped robot to the final track.
The rover can be seen clearing bumps and taking sharp corners with ease. Overall, our robot successfully completed the course with quite a fast time, and this was in part due to the unique axle design and low center of gravity.
Thank you for visiting my Remote Controlled Rover mini project. Check out my extras and manufacturing down below.
Final Rover Wrapped up with Gift Box
Final Rover Wrapped up with Gift Box
Nearly at the end of my Engineering Portfolio.
Nearly at the end of my Engineering Portfolio.
Get in Touch
Get in Touch
LinkedIn: https://www.linkedin.com/in/amanshaik/
Instagram: https://www.instagram.com/amanshaik04/
Phone: [425] 305 8470
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