Design of a Cable Driven Floating Robotic Arm with Continuum Joints

2019 IEEE International Conference on Real-time Computing and Robotics (RCAR) Pub Date : 2019-08-01 DOI:10.1109/RCAR47638.2019.9044130

Zhonghao Wu, Marco Cederle, E. Giani, Kai Xu

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引用次数: 1

Abstract

Long-reach manipulator shows potentials in inspection, search and rescue. However, the reach of such a manipulator is often limited, due to fact that the distal structures become payloads of the proximal joints. This research hence focuses on a proof-of-concept study of a slim long-reach robotic arm designed with continuum joints and floating links. A float link and a continuum joint constitute a module that is weightless due to buoyancy. The reach hence becomes unlimited in theory. The actuation of each joint is decoupled via a transmission arrangement, providing a simple kinematic model no matter how many robotic modules are used. Each floating link is composed of a from-the-shelf helium-filled Mylar balloon that is caged by acrylic rings. Each of the two-degree-of-freedom continuum joints is made from a super-elastic nitinol (nickel-titanium alloy) rod and actuated by three cables pulled by three stepper motors. Preliminary experimental results on this constructed 3-meter prototype show that the floating robotic arm can move with acceptable accuracy in still air, validating the proposed concept.

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具有连续关节的缆索驱动漂浮机械臂的设计

长臂机械手在检查、搜救等方面显示出潜力。然而，由于远端结构成为近端关节的有效载荷，这种机械臂的活动范围往往受到限制。因此，本研究的重点是设计具有连续关节和浮动链接的细长长臂机械臂的概念验证研究。由于浮力的作用，浮杆和连续接头构成了一个无重力的模块。因此，从理论上讲，这一范围是无限的。每个关节的驱动通过传动装置解耦，无论使用多少个机器人模块，都能提供一个简单的运动学模型。每个浮动链接都是由一个现成的充满氦气的聚酯薄膜气球组成的，这个气球被丙烯酸环笼起来。每个两自由度连续关节由超弹性镍钛诺(镍钛合金)杆制成，由三个步进电机牵引的三根电缆驱动。在这个3米长的原型上的初步实验结果表明，漂浮机械臂可以在静止空气中以可接受的精度移动，验证了提出的概念。

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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来源期刊

2019 IEEE International Conference on Real-time Computing and Robotics (RCAR)

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