50 Centimeter Weight Carry with robot Pu

Overview

Welcome to the Robot Pu Weight Carrying Competition! Inspired by the “strongman” contests, this event challenges Robot Pu to demonstrate its strength by carrying heavy objects across a 50-centimeter finish line. Participants can enhance Robot Pu’s capabilities by adding attachments and modifying its shoes to aid in balance. New mechanical pieces can be 3D printed or handcrafted, but no new motors can be added.

Competition Objectives

• Test Robot Pu’s ability to carry heavy loads.
• Encourage creativity in designing attachments and balance aids.
• Evaluate the overall performance and stability of Robot Pu under load.

Eligibility

• Participants must be registered teams consisting of at least one operator and one Robot Pu.
• Robots must meet the specifications outlined in the competition rules.

Robot Specifications

• Height: 20 cm
• Width: 8 cm
• Attachments: Participants can add attachments such as chest bags, huge backpacks, or head buckets to Robot Pu.
• Shoe Modifications: Participants can modify Robot Pu’s shoes to improve balance.
• Mechanical Pieces: New mechanical pieces can be 3D printed or handcrafted, but no new motors can be added.

Competition Setup

1. Track Setup: A flat and smooth surface with a marked starting line and a 50-centimeter finish line.
2. Weight Objects: Various objects of different weights that Robot Pu can carry using the attachments.
3. Robot Preparation: Ensure Robot Pu is equipped with the necessary attachments and modifications for carrying the weights.

Performance Procedure

1. Preparation: Attach the weight to Robot Pu using the designed attachments. Ensure the robot is balanced and stable.
2. Start of Race: Place Robot Pu at the starting line. The race begins with a signal from the referee.
3. Carrying the Weight: Robot Pu must carry the attached weight across the 50-centimeter finish line.
4. Completion: The race ends when Robot Pu successfully crosses the finish line with the weight.

Scoring and Judging

1. Weight Carried: The primary criterion is the heaviest object successfully carried across the finish line. The robot carrying the heaviest object wins.
2. Stability: Evaluation of Robot Pu’s stability and balance while carrying the weight.
3. Creativity: Assessment of the creativity and innovation demonstrated in the design of attachments and balance aids.
4. Technical Execution: The quality of the modifications and the overall performance of Robot Pu under load.

Safety Guidelines

• Ensure all attachments and modifications are securely fastened to Robot Pu.
• Design and operate Robot Pu safely to prevent damage and injury.
• Operators must remain behind safety barriers during the race.
• In case of an emergency, the race will be halted, and safety protocols will be followed.

Awards

• First Place: Trophy and a certificate of achievement.
• Second Place: Medal and a certificate of achievement.
• Third Place: Medal and a certificate of achievement.
• Innovation Award: Awarded to the team with the most creative and innovative attachments and modifications.

Conclusion

The Robot Pu Weight Carrying Competition is an exciting event that challenges participants to showcase their engineering skills and creativity. By designing innovative attachments and balance aids, participants will push Robot Pu to its limits in a display of strength and stability. The robot that successfully carries the heaviest object across the finish line will emerge victorious!

Good luck to all participants! May the strongest Robot Pu win! 🏆🤖

For any questions or clarifications, please refer to the competition officials. Happy competing! 🚀🎉