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Prototype of 32-Joint Robot Hand Using Shape Memory Gel and Tendon-Driven Mechanism

2021 IEEE International Conference on Mechatronics (ICM) Pub Date : 2021-03-07 DOI:10.1109/ICM46511.2021.9385678
M. Yamano, A. Okamoto, Ryuhei Miyoshi, T. Yasuda, Yasutaka Nishioka, M. D. N. I. Shiblee, Kazunari Yoshida, H. Furukawa, R. Tadakuma
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Abstract

This paper presents the prototype of a robot hand using shape memory gel (SMG) and tendon-driven mechanism based on our concept. The finger of the robot hand can be designed to have many bendable parts which can be considered as joints. The number of the motors can be smaller than that of bendable parts. We can select a bending part of the finger as desired. Bending part of the SMG finger is heated by nichrome wires and becomes soft enough to be easily bent by tendon-driven mechanism. An efficient driver circuit for heating many parts of SMG by many nichrome wires is proposed. Examples of finger motion and grasping an object are performed to show the effectiveness of our concept.
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基于形状记忆凝胶和肌腱驱动机构的32关节机器人手原型
本文提出了基于形状记忆凝胶(SMG)和肌腱驱动机构的机械人手原型。机器人手的手指可以被设计成有许多可弯曲的部分,这些部分可以被认为是关节。电机的数量可以比可弯曲部件的数量少。我们可以根据需要选择手指弯曲的部分。SMG手指的弯曲部分被镍铬金属丝加热,变得足够柔软,可以通过肌腱驱动机制轻松弯曲。提出了一种用镍铬合金丝加热SMG多部件的高效驱动电路。通过手指运动和抓取物体的例子来展示我们概念的有效性。
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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来源期刊
2021 IEEE International Conference on Mechatronics (ICM)
2021 IEEE International Conference on Mechatronics (ICM)
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