Kinematic Analysis and Manipulability Evaluation of a 4-DOF Parallel Gripper for Dexterous Manipulation

Proceedings of the 2nd International Conference on Artificial Intelligence and Advanced Manufacture Pub Date : 2020-10-15 DOI:10.1145/3421766.3421861

Xiaodong Zhou, Jianfeng Li, Shiping Zuo

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Abstract

This paper presents a novel design for a robotic end-effector. In particular, the design features a 4-DOF parallel gripper potential of applying for industrial automation. This gripper mainly consists of two parallelogram mechanisms and two grasp sliders, which can perform in-hand twisting action (in-hand manipulation) and in-plane horizontal and vertical transmission. Moreover, the proposed gripper adopts parallel grasping mode and can provide stable ability to maintain force closure on an object with large ranges of size. The kinematic analysis which includes position solution and velocity solution is derived. The velocity manipulability that possesses the physical significance of energy transfer efficiency is defined. A numerical example is presented to evaluate the performance of the gripper. The results indicate that the gripper can achieve horizontal transmission to supplement the workspace of the robot arm, and possess relatively better performance on in-hand manipulation and in-plane vertical transmission.

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一种用于灵巧操作的四自由度并联夹持器的运动学分析与可操纵性评价

提出了一种机器人末端执行器的新设计。特别是，该设计具有四自由度并联夹持器的特点，具有应用于工业自动化的潜力。该夹持器主要由两个平行四边形机构和两个夹持滑块组成，可以实现手握扭转动作(手握操作)和面内水平和垂直传动。此外，所提出的夹持器采用平行夹持方式，能够对大尺寸范围的物体提供稳定的力闭合能力。导出了包括位置解和速度解在内的运动学分析。定义了具有能量传递效率物理意义的速度可操纵性。给出了一个数值算例，对夹持器的性能进行了评价。结果表明，该夹持器可以实现水平传动，以补充机械臂的工作空间，并且在手握操作和面内垂直传动方面具有较好的性能。

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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Proceedings of the 2nd International Conference on Artificial Intelligence and Advanced Manufacture

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