Underactuated Three-Finger Robot Hand with Human-Like Flexion

被引:0
|
作者
Hyo-Chan Kwon
Doo-Hyun Cho
Kwon-Hee Kim
机构
[1] Korea University,Department of Mechanical Engineering
[2] Korea University,Department of Mechanical Engineering, Graduate School
来源
International Journal of Precision Engineering and Manufacturing | 2021年 / 22卷
关键词
Robot hand; Tendon-driven mechanism; ADAMS finger model; Human hand kinesiology;
D O I
暂无
中图分类号
学科分类号
摘要
Numerous studies have been conducted on three-finger robot hands, which are widely used in industries. These studies led to the development of motorized prosthetic hands for amputees. Although many developers have focused on the functionality of motorized prosthetic hands, prosthetic users place more importance on the human-like motion of the device owing to social implications. Therefore, this study aims to achieve human-like flexion of a three-finger robot hand. Each finger contains three phalanges joined by pivots and torsional return springs. A tendon wire runs through guide pins inside the phalanges up to the linear actuator located in the forearm. When the tendon wire is pulled, the finger is flexed. The return springs are optimally selected based on ADAMS simulations and kinesiology of the human hand. The selection is then verified by experiments
引用
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页码:791 / 798
页数:7
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