Design and kinematics of a lightweight cruciform continuum robot

IF 1 4区工程技术 Q4 ENGINEERING, MECHANICAL Mechanical Sciences Pub Date : 2023-03-02 DOI:10.5194/ms-14-99-2023

Pan Zhou, Jiantao Yao, Hongyu Zhang, Xuanhao Zhang, Shuaiqi Kong, Kunming Zhu

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Abstract

Abstract. The design of new lightweight and dexterous configurations is a major research focus for continuum robotics. This work proposes a cruciform continuum robot. Its unique feature is that it is formed by multiple cruciform-arranged elastic sheets with a single dimension of motion connected in series, and thus it has low-coupling motion characteristics. In addition, the cruciform continuum robot has the advantages of lighter weight (65 g), better dexterity, and higher motion accuracy. In this paper, the forward and inverse kinematics models of the cruciform continuum robot are established by geometric methods based on the assumption of constant curvature, and its workspace is analysed. It is experimentally verified that the tip position errors are less than 1 mm, and the cable length errors are less than 0.4 mm. Further, the cruciform continuum robot is successfully used for the nucleic acid detection simulation experiment, which confirms its good dexterity and man–machine safety. The main contribution of this paper is to provide a new configuration for the lightweight and dexterous continuum robots, and to further provide a reference method for improving their modelling accuracy from the perspective of structure.

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轻型十字形连续体机器人的设计与运动学

摘要新型轻量化灵巧结构的设计是连续体机器人的研究热点。本工作提出了一种十字形连续体机器人。它的独特之处在于，它是由多个具有单维运动的弹性片按十字形排列串联而成，因而具有低耦合的运动特性。此外，十字形连续体机器人具有重量更轻(65克)、灵巧性更好、运动精度更高的优点。基于常曲率假设，采用几何方法建立了十字形连续体机器人的正运动学和逆运动学模型，并对其工作空间进行了分析。通过实验验证，尖端位置误差小于1 mm，电缆长度误差小于0.4 mm。并将该十字连续体机器人成功用于核酸检测仿真实验，验证了其良好的灵巧性和人机安全性。本文的主要贡献在于为轻量化灵巧连续体机器人提供了一种新的构型，并进一步从结构角度为提高连续体机器人的建模精度提供了参考方法。

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来源期刊

Mechanical Sciences ENGINEERING, MECHANICAL-

CiteScore

2.20

自引率

7.10%

发文量

审稿时长

29 weeks

期刊介绍： The journal Mechanical Sciences (MS) is an international forum for the dissemination of original contributions in the field of theoretical and applied mechanics. Its main ambition is to provide a platform for young researchers to build up a portfolio of high-quality peer-reviewed journal articles. To this end we employ an open-access publication model with moderate page charges, aiming for fast publication and great citation opportunities. A large board of reputable editors makes this possible. The journal will also publish special issues dealing with the current state of the art and future research directions in mechanical sciences. While in-depth research articles are preferred, review articles and short communications will also be considered. We intend and believe to provide a means of publication which complements established journals in the field.