Preferred Oil and Ceramics Options for EHA Drive Systems and Computed Torque Control of an EHA-Driven Robot Manipulator

Mitsuo Komagata, Yutaro Imashiro, Ko Yamamoto, Yoshihiko Nakamura
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引用次数: 3

Abstract

6-DOF robot manipulator Hydracer was developed to gain high output torque and high backdrivability by adopting electro-hydrostatic actuators, however control of overall system of Hydracer is not yet conducted. To achieve flexible force control of Hydracer, we worked on the system improvements: enhancement of reliability of ceramics components, reduction of internal leakage by considering the property of hydraulic oil, and the identification of inertial parameters to improve its controllability. By using identified parameters, flexible force control of Hydracer by zero-torque control with gravity compensation was realized which reveals the potential of safe human-robot interaction.
EHA驱动系统的优选油和陶瓷选择以及EHA驱动机器人机械手的计算扭矩控制
为了获得高输出扭矩和高反驱动性能,采用电静压作动器开发了6自由度机器人Hydracer,但目前还没有对Hydracer的整体系统进行控制。为了实现液化氢的柔性力控制,我们对系统进行了改进:提高陶瓷元件的可靠性,考虑液压油的特性减少内泄漏,识别惯性参数以提高其可控性。利用辨识出的参数,实现了基于重力补偿的零转矩柔性动力控制,揭示了人机安全交互的潜力。
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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