Development of a Cable-Driven Bionic Spherical Joint for a Robot Wrist.

IF 3.9 3区医学 Q1 ENGINEERING, MULTIDISCIPLINARY Biomimetics Pub Date : 2025-01-14 DOI:10.3390/biomimetics10010052

Zixun He, Yutaka Ito, Shotaro Saito, Sakura Narumi, Yousun Kang, Duk Shin

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Abstract

Wrist movements play a crucial role in upper-limb motor tasks. As prosthetic and robotic hand technologies have evolved, increasing attention has been focused on replicating the anatomy and functionality of the wrist. Closely imitating the biomechanics and movement mechanisms of human limbs is expected to enhance the overall performance of bionic robotic hands. This study presents the design of a tendon-driven bionic spherical robot wrist, utilizing two pairs of cables that mimic antagonist muscle pairs. The cables are actuated by pulleys driven by servo motors, allowing for two primary wrist motions: flexion-extension and ulnar-radial deviation. The performance Please confirm if the "1583 Iiyama" is necessary. Same as belowof the proposed robot wrist is validated through manipulation experiments using a prototype, demonstrating its capability to achieve a full range of motion for both ulnar and radial deviation. This wrist mechanism is expected to be integrated into robotic systems, enabling greater flexibility and more human-like movement capabilities.

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机器人腕部索驱动仿生球面关节的研制。

手腕运动在上肢运动任务中起着至关重要的作用。随着假肢和机械手技术的发展，越来越多的注意力集中在复制手腕的解剖结构和功能上。仿生机械手的整体性能有望通过密切模仿人体肢体的生物力学和运动机制来提高。本研究提出了一种肌腱驱动的仿生球形机器人手腕的设计，利用两对电缆模拟拮抗肌肉对。电缆由伺服电机驱动的滑轮驱动，允许两种主要的手腕运动：屈伸和尺桡偏移。请确认是否需要“1583 Iiyama”。与下图一样，通过使用原型的操作实验验证了所提出的机器人手腕，证明了它能够实现尺骨和桡骨偏差的全范围运动。这种手腕机制有望集成到机器人系统中，实现更大的灵活性和更像人类的运动能力。

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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