Cycloidal Geartrain In-Use Efficiency Study

Volume 5B: 42nd Mechanisms and Robotics Conference Pub Date : 2018-08-26 DOI:10.1115/DETC2018-85275

Logan Farrell, James Holley, W. Bluethmann, M. O'Malley

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引用次数: 2

Abstract

Currently, harmonic drives are the primary speed reducer for robotic applications where a high reduction in a small package is required. Cycloidal drives are an alternative option for high reduction, small package, use-cases with the advantage of a higher specific torque and the ability to customize and integrate the drive for the application. These compact style cycloidal drives have been well studied in theory and simulation for their performance, but very little data is available on their actual performance over time. This paper presents experimental data on performance of a cycloidal drive designed for a Lunar or Martian rover application. Burn-in time efficiency curves and torque/speed efficiency profiles are computed after running the drive through 129k output cycles (7.6M input cycles) over the course of 300+ hours of testing. The study finds that substantial burn-in time may be required for steady-state performance, but peak efficiencies of 81% can be achieved. Also, the efficiency is shown to be dependent on the torque through the actuator. This work demonstrates a customized cycloidal drive in a space application that is comparable to a harmonic drive in efficiency performance, with a 2x increase in specific torque, suggesting the application of cycloidal drives could grow tremendously in robotic designs.

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摆线齿轮传动在用效率研究

目前，谐波驱动器是机器人应用的主要减速机，其中需要在小封装中进行高减速。摆线轮驱动是高减速、小封装、具有更高比扭矩和定制和集成应用驱动能力的用例的另一种选择。这些紧凑型摆线轮驱动器已经在理论和模拟中对其性能进行了很好的研究，但很少有数据可用于其实际性能随时间的变化。本文介绍了用于月球或火星探测车的摆线轮传动性能的实验数据。在300多个小时的测试过程中，通过129k输出周期(7.6M输入周期)运行驱动器后，计算出老化时间效率曲线和扭矩/速度效率曲线。研究发现，稳态性能可能需要大量的老化时间，但可以实现81%的峰值效率。此外，效率显示依赖于通过执行机构的扭矩。这项工作展示了在空间应用中的定制摆线驱动，其效率性能与谐波驱动相当，比扭矩增加了2倍，这表明摆线驱动在机器人设计中的应用可能会大幅增长。

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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Volume 5B: 42nd Mechanisms and Robotics Conference

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