The design and analysis of a six-degree of freedom robotic arm

Omar Olwan, A. Matan, Mohammad E. Abdullah, J. Abu-Khalaf
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引用次数: 5

Abstract

This paper aims to exploit technology in saving lives; a robotic arm is designed for EOD (Explosive Ordnance Disposal) applications that can rival the EOD robotic arms available in the market, in terms of both its capabilities and functionality, and still cost a small fraction of their price. Though there are many robotic arms that are commercially available, which can be used to handle different objects in various environments, our robotic arm has been designed to meet specific application-based requirements. The arm is required to reach 2 meters in every direction, to carry a maximum payload of 10 kilograms at that full extension, and to have 6 degrees of freedom for effective manipulation and complex movements by the end effector. In this paper, we present the design process as well as the analysis of the proposed robotic arm to be fixed on an UGV (Unmanned Ground Vehicle). The mobile robotic arm can then be operated remotely in dangerous zones, and deal with suspicious objects, without jeopardizing human lives.
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六自由度机械臂的设计与分析
本文旨在利用技术来拯救生命;机械臂设计用于EOD(爆炸性军械处理)应用,可以与市场上现有的EOD机械臂相媲美,就其性能和功能而言,其价格仍然是其价格的一小部分。虽然市面上有很多机械臂,可以用来处理各种环境中的不同物体,但我们的机械臂是为了满足特定的应用需求而设计的。手臂要求在每个方向达到2米,在完全延伸时携带10公斤的最大有效载荷,并具有6个自由度,以便有效地操纵和复杂的末端执行器运动。在本文中,我们介绍了机器人手臂的设计过程,并对其进行了分析,该机械手臂将被固定在UGV(无人地面车辆)上。然后,移动机械臂可以在危险区域远程操作,并处理可疑物体,而不会危及人类生命。
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