Investigations of viscoelastic liquid cooled actuators applied for dynamic motion control of legged systems

Donghyun Kim, Orion Campbell, Junhyeok Ahn, L. Sentis, N. Paine
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引用次数: 5

Abstract

To significantly improve actuation technology for legged systems, we design, build, and empirically test the viscoelastic liquid cooled actuator (VLCA) for use in a robotic leg. Unlike existing actuators, VLCAs excel in the following five critical axes of performance, which are essential for dynamic motion control of practical legged robots: energy efficiency, power density, impact-resistance, position controllability, and force controllability. In this paper, we explain design details with respect to the five criteria, and present results from our extensive study of a variety of viscoelastic materials. Position controllability and power density are experimentally evaluated by demonstrating dynamic motion with a single leg testbed, custom-built using VLCAs. In the experiment, the testbed shows 6.1 rad/s maximum velocity and 240 Nm maximum torque while accurately executing the commanded motions.
粘弹性液冷作动器在足式系统动态运动控制中的应用研究
为了显著改善腿系统的驱动技术,我们设计、制造并经验测试了用于机器人腿的粘弹性液冷驱动器(VLCA)。与现有的执行器不同,vlca在以下五个关键性能轴上表现出色,这对于实际腿式机器人的动态运动控制至关重要:能效、功率密度、抗冲击、位置可控性和力可控性。在本文中,我们解释了有关五个标准的设计细节,并介绍了我们对各种粘弹性材料的广泛研究的结果。通过使用VLCAs定制的单腿测试平台演示动态运动,对位置可控性和功率密度进行了实验评估。在实验中,该试验台在准确执行指令运动的同时,最大速度为6.1 rad/s,最大扭矩为240 Nm。
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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