Design of a direct-driven linear actuator for development of a cheetaroid robot

2013 IEEE International Conference on Robotics and Automation Pub Date : 2013-05-06 DOI:10.1109/ICRA.2013.6631144

Byeonghun Na, H. Choi, Kyoungchul Kong

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引用次数: 7

Abstract

Quadruped robots are regarded as a new trend in robotics due to their superior gait stability and robustness to disturbances. More recently, many robotics researchers are making their best efforts to improve the locomotion speed, as well as the stability and robustness, of quadruped robots. The high-speed locomotion creates various challenges in the development of actuators, mechanical design, and control algorithms of the robot. In this paper, a linear actuation system for the high-speed locomotion of a quadruped robot is introduced. The proposed actuator is designed based on the principle of brushed direct-current electric motor systems. For the minimal impedance and improved force capacity, the actuator is designed with dual layers of cores, which are aligned parallel to permanent magnets. The mechanical and electrical properties of the actuation system, such as back-drivability, controllability, and response time, are verified by experimental results. A robotic leg, which is the rear leg of a cheetah-like robot, is designed with the proposed actuator, and is introduced briefly in this paper also.

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猎豹机器人直接驱动线性执行器的设计

四足机器人由于具有良好的步态稳定性和对干扰的鲁棒性，被认为是机器人技术发展的新趋势。最近，许多机器人研究人员正在尽最大努力提高四足机器人的运动速度、稳定性和鲁棒性。高速运动给机器人的执行器、机械设计和控制算法的发展带来了各种挑战。本文介绍了一种用于四足机器人高速运动的线性驱动系统。所提出的执行器是基于有刷直流电机系统的原理设计的。为了实现最小的阻抗和更好的受力能力，驱动器采用了与永磁体平行排列的双层磁芯设计。实验结果验证了驱动系统的机械和电气性能，如反驾驶性、可控性和响应时间。利用所提出的驱动器设计了一种机器人腿，即仿猎豹机器人的后腿，并对其进行了简要介绍。

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

2013 IEEE International Conference on Robotics and Automation

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