Design of A Novel Flexible Spherical Hinge and Its Application in Continuum Robot

IF 2.2 4区 计算机科学 Q2 ENGINEERING, MECHANICAL Journal of Mechanisms and Robotics-Transactions of the Asme Pub Date : 2023-09-07 DOI:10.1115/1.4063370
Guoxin Li, Jingjun Yu, Jie Pan, X. Pei
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Abstract

Compliant mechanisms, which can be integrally machined and without assembly, are well suited as joints for continuum robots (CRs), but how to incorporate the advantages of the compliant mechanism into the arm design is a key issue in this work. In this paper, a novel type of flexible spherical-hinged (FSH) joint composed of tetrahedron elements with a fixed virtual remote center of motion (RCM) at the bottom is proposed, and then extended to the CR and end-effector. In the arm design, the error compensation principle is used to offset the parasitic motion of the CR under external load (pressure and torque) and improve the bending and torsional isotropy of the arm through different series combinations, and then the stiffness model of the FSH joint and the statics model of the CR are developed using the 3D chain pseudo-rigid body model (3D-CPRBM) and tested. The results show that the 3D-CPRBM can effectively predict the deformation of the FSH joint and the CR. Moreover, the maximum standard deviation of the bending angle of the FSH joint in each direction is only 0.26 degree, the repeatable positioning accuracy of the CR can reach 0.5 degree, and the end-effector has good gripping ability and self-adaptive capability.
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一种新型柔性球面铰链的设计及其在连续体机器人中的应用
柔性机构可以整体加工,无需组装,非常适合作为连续体机器人(CR)的关节,但如何将柔性机构的优势融入手臂设计是这项工作的关键问题。本文提出了一种新型的柔性球铰(FSH)关节,该关节由底部具有固定虚拟远程运动中心(RCM)的四面体单元组成,并将其扩展到CR和末端执行器。在臂的设计中,利用误差补偿原理,通过不同的串联组合来抵消CR在外载荷(压力和扭矩)下的寄生运动,改善臂的弯扭各向同性,然后利用三维链拟刚体模型(3D-CPRBM)建立了FSH关节的刚度模型和CR的静力学模型,并进行了测试。结果表明,3D-CPRBM可以有效预测FSH关节和CR的变形。此外,FSH关节在每个方向上的弯曲角度的最大标准偏差仅为0.26度,CR的可重复定位精度可达0.5度,末端执行器具有良好的抓握能力和自适应能力。
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来源期刊
CiteScore
5.60
自引率
15.40%
发文量
131
审稿时长
4.5 months
期刊介绍: Fundamental theory, algorithms, design, manufacture, and experimental validation for mechanisms and robots; Theoretical and applied kinematics; Mechanism synthesis and design; Analysis and design of robot manipulators, hands and legs, soft robotics, compliant mechanisms, origami and folded robots, printed robots, and haptic devices; Novel fabrication; Actuation and control techniques for mechanisms and robotics; Bio-inspired approaches to mechanism and robot design; Mechanics and design of micro- and nano-scale devices.
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