Design of a Soft Gripper Hand for a Quadruped Robot

2023 IEEE 15th International Symposium on Autonomous Decentralized System (ISADS) Pub Date : 2023-03-15 DOI:10.1109/ISADS56919.2023.10091976

J. Gonzalez, J. Poza, Jacobo Robles, Hiram Ponce, J. Brieva, E. Moya-Albor

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Abstract

This work aims to solve a current balancing problem for a quadruped robot by proposing a soft gripper. The main problem for the project is the lack of modules to make a quadruped robot walk through tough environments, which is designed to help in accidents to look for people and maintenance in factories. Viable solutions for the main body were found with a look alike chameleon robot. With that premise, the goal for the chameleon robot is to have a capable of moving through difficult surfaces and to have enough movement so to get better results in the displacement. To fulfill this requirement, the proposed key idea presented here is to design a gripper capable of helping the main body to achieve difficult places being as safe as possible. Furthermore, the gripper is an actual module for the main robot, and should be easy to substitute and build, in case it is needed in other situations. Because of that, the gripper is designed with the help of soft robotics. Experimental results in lab show the effectiveness of the soft gripper. We anticipate this system will help the robot to use the force effectively through each step.

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四足机器人软抓取手的设计

本工作旨在通过提出一种软夹持器来解决当前四足机器人的平衡问题。该项目的主要问题是缺乏使四足机器人在恶劣环境中行走的模块，这是为了帮助在事故中寻找人员和工厂维护。主体的可行解决方案是用一个看起来像变色龙的机器人。在此前提下，变色龙机器人的目标是能够在困难的表面上移动，并且有足够的运动来获得更好的位移结果。为了满足这一要求，本文提出的关键思想是设计一个能够帮助主体尽可能安全地到达困难场所的抓手。此外，夹持器是主机器人的一个实际模块，应该易于替换和制造，以备在其他情况下需要。因此，在软体机器人的帮助下设计了夹持器。室内实验结果表明了该软夹持器的有效性。我们预计这个系统将帮助机器人在每一步中有效地使用力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE 15th International Symposium on Autonomous Decentralized System (ISADS)

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