Analysis on an Origami-structured Actuator that Enhances Both Backdriveability and Power Amplification

Dongwon Kim
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Abstract

In the author’s previous study, an origami-structured compliant actuator, named OSCA, was invented for human-robot interaction where sufficient moment output is required under a limited power supply. In this study, the compressibility of airflow within the actuator that essentially provides elasticity as well as backdriveability is in the spotlight. Elasticity can increase the actuator’s power output in the same way as does a series elastic actuator (SEA). This study demonstrates that an OSCA operated with a servo valve is equivalent to an SEA with a typical spring. That is, power output amplification can be achieved with congruent stiffness of the air within the actuator.
提高反驱动性能和功率放大的折纸结构作动器分析
在作者之前的研究中,发明了一种折纸结构的柔性执行器,命名为OSCA,用于人机交互,在有限的电源下需要足够的力矩输出。在这项研究中,致动器内气流的可压缩性是人们关注的焦点,它本质上提供了弹性和反驾驶性。弹性可以增加致动器的功率输出,其方式与串联弹性致动器(SEA)相同。本研究表明,与伺服阀操作的OSCA相当于具有典型弹簧的SEA。也就是说,在执行器内空气刚度一致的情况下,可以实现功率输出放大。
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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