基于嵌套结构的新型高收缩比软作动器设计与分析

Qing Zhu, Yitian Li, Qingyun Liu, Mengqian Tian
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引用次数: 0

摘要

针对现有软作动器在狭窄的非结构化空间中使用时膨胀比较低、驱动力较小的缺点,设计了一种高拉伸比的软作动器。执行机构以TPU(热塑性聚氨酯)安全气囊为基础,采用嵌套结构结合绳机构设计,在保证执行机构剩余尺寸的前提下,实现了较大的膨胀比(115%)。然后,根据执行机构的结构特点,采用解析和几何方法推导了TPU气囊和执行机构绳机构的静态驱动特性。得到了作动器输出力的静态模型。最后,提出了用位移驱动变载荷代替绳索机构构建仿真模型的建模方法。本研究为后续的作动器动态特性和控制策略的研究奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and Analysis of a Novel Soft Actuator with High Contraction Ratio Based on Nested Structure
Considering the drawbacks of existing soft actuators used in narrow unstructured space, such as lower expansion ratio and smaller driving force, a soft actuator with high stretch-draw ratio is designed in this paper. Based on TPU(Thermoplastic polyurethanes) airbags, the actuator is designed by the use of nested structure combined with rope mechanism, which achieves a large expansion ratio (115%) on the premise of ensuring the rest size of the actuator. Then, according to the structural characteristics of the actuator, the static driving characteristics of TPU airbag and rope mechanism of the actuator are deduced by analytical and geometric methods. So the static model of output force of the actuator is obtained. Finally, a modeling method of using displacement-driven variable load instead of rope mechanism to construct simulation model is proposed. This research lays the foundation for the follow-up study of the actuator's dynamic characteristics and control strategy.
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