Transleg: A wire-driven leg-wheel robot with a compliant spine

2016 IEEE International Conference on Information and Automation (ICIA) Pub Date : 2016-08-01 DOI:10.1109/ICINFA.2016.7831789

Zhong Wei, G. Song, Ying Zhang, Huiyu Sun, Guifang Qiao

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引用次数: 8

Abstract

A novel leg-wheel robot, Transleg, is proposed in this paper. Differing from the existing leg-wheel robots, Transleg is driven by wire, so the transmission mechanism is simple and the weight is reduced. Transleg adopts a transformable leg-wheel mechanism which has two degrees of freedom in the legged mode and one degree of freedom in the wheeled mode. The motions in and switching between the two modes are achieved by the same actuators. That is to say only two actuators are needed in one leg-wheel mechanism. The spine contributes significantly to the motion of the quadrupeds, so a compliant spine mechanism is designed for Transleg, which is actuated by two actuators and can bend in yaw and pitch directions. The leg-wheel and spine mechanisms and their kinematic analysis are described in this paper. To verify the feasibility of the leg-wheel mechanisms, the motions of Transleg without spine bending in legged and wheeled modes and switching between the two modes are simulated. Experiments on the motion of the prototype of the leg-wheel and spine mechanisms are also performed to validate the effectiveness of the two proposed mechanisms.

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跨腿机器人:一种由线驱动的腿轮机器人，具有柔顺的脊柱

提出了一种新型的腿轮式机器人Transleg。与现有的腿轮机器人不同，Transleg采用钢丝驱动，传动机构简单，减轻了重量。跨腿采用一种可变形的腿-轮机构，该机构具有腿式两自由度和轮式一自由度。两种模式的运动和切换由相同的致动器实现。也就是说，在一个腿轮机构中只需要两个致动器。脊柱对四足动物的运动有重要作用，因此Transleg设计了一个柔性脊柱机构，由两个驱动器驱动，可以在偏航和俯仰方向弯曲。介绍了腿轮机构和脊柱机构及其运动学分析。为了验证腿-轮机构的可行性，对无脊柱弯曲的Transleg在腿-轮两种模式下的运动以及在两种模式之间的切换进行了仿真。对腿轮和脊柱机构的原型进行了运动实验，验证了两种机构的有效性。

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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2016 IEEE International Conference on Information and Automation (ICIA)

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