Design and Demonstration of Hingeless Pneumatic Actuators Inspired by Plants.

IF 3.4 3区 医学 Q1 ENGINEERING, MULTIDISCIPLINARY Biomimetics Pub Date : 2024-10-01 DOI:10.3390/biomimetics9100597
Xiangli Zeng, Yingzhe Wang, Keisuke Morishima
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Abstract

Soft robots have often been proposed for medical applications, creating human-friendly machines, and dedicated subject operation, and the pneumatic actuator is a representative example of such a robot. Plants, with their hingeless architecture, can take advantage of morphology to achieve a predetermined deformation. To improve the modes of motion, two pneumatic actuators that mimic the principles of the plants (the birds-of-paradise plant and the waterwheel plant) were designed, simulated, and tested using physical models in this study. The most common deformation pattern of the pneumatic actuator, bending deformation, was utilized and hingeless structures based on the plants were fabricated for a more complex motion of the lobes. Here, an ABP (actuator inspired by the birds-of-paradise plant) could bend its midrib downward to open the lobes, but an AWP (actuator inspired by the waterwheel plant) could bend its midrib upward to open the two lobes. In both the computational and physical models, the associated movements of the midrib and lobes could be observed and measured. As it lacks multiple parts that have to be assembled using joints, the actuator would be simpler to fabricate, have a variety of deformation modes, and be applicable in more fields.

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受植物启发的无铰链气动执行器的设计与演示。
软机器人经常被提议用于医疗应用、创造人类友好型机器和专用的主体操作,气动执行器就是此类机器人的一个代表。植物的无铰链结构可以利用形态学的优势实现预定的变形。为了改进运动模式,本研究设计了两个模仿植物原理的气动致动器(天堂鸟植物和水车植物),并使用物理模型对其进行了模拟和测试。我们采用了气动致动器最常见的变形模式--弯曲变形,并以植物为基础制作了无铰链结构,以实现更复杂的叶片运动。在这里,ABP(受天堂鸟植物启发的致动器)可以向下弯曲中脉打开叶片,而 AWP(受水车植物启发的致动器)可以向上弯曲中脉打开两个叶片。在计算模型和物理模型中,都可以观察和测量中脉和叶片的相关运动。由于该推杆不需要使用接头组装多个部件,因此制造起来更简单,具有多种变形模式,适用于更多领域。
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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来源期刊
Biomimetics
Biomimetics Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
3.50
自引率
11.10%
发文量
189
审稿时长
11 weeks
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