Soft crawling caterpillar driven by electrohydrodynamic pumps

IF 4.2 2区 计算机科学 Q2 ROBOTICS
Tianyu Zhao, Cheng Wang, Zhongbao Luo, Weiqi Cheng, Nan Xiang
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引用次数: 0

Abstract

Soft crawling robots are usually driven by bulky and complex external pneumatic or hydraulic actuators. In this work, we proposed a miniaturized soft crawling caterpillar based on electrohydrodynamic (EHD) pumps. The caterpillar was mainly composed of a flexible EHD pump for providing the driving force, an artificial muscle for performing the crawling, a fluid reservoir, and several stabilizers and auxiliary feet. To achieve better crawling performances for our caterpillar, the flow rate and pressure of the EHD pump were improved by using a curved electrode design. The electrode gap, electrode overlap length, channel height, electrode thickness, and electrode pair number of the EHD pump were further optimized for better performance. Compared with the EHD pumps with conventional straight electrodes, our EHD pump showed a 50% enhancement in driving pressure and a 60% increase in flow rate. The bending capability of the artificial muscles was also characterized, showing a maximum bending angle of over 50°. Then, the crawling ability of the soft crawling caterpillar is also tested. Finally, our caterpillar owns the advantages of simple fabrication, low-cost, fast movement speed, and small footprint, which has robust and wide potential for practical use, especially over various terrains.

由电动流体动力泵驱动的软履带履带车
软爬行机器人通常由笨重而复杂的外部气动或液压致动器驱动。在这项工作中,我们提出了一种基于电流体动力(EHD)泵的微型软爬行履带式机器人。毛毛虫主要由提供驱动力的柔性 EHD 泵、执行爬行的人造肌肉、储液器以及多个稳定器和辅助脚组成。为了使我们的履带式机器人获得更好的爬行性能,我们采用了弧形电极设计,从而提高了 EHD 泵的流速和压力。为了获得更好的性能,还进一步优化了 EHD 泵的电极间隙、电极重叠长度、通道高度、电极厚度和电极对数。与使用传统直电极的 EHD 泵相比,我们的 EHD 泵的驱动压力提高了 50%,流速提高了 60%。我们还对人造肌肉的弯曲能力进行了鉴定,结果显示其最大弯曲角度超过 50°。然后,还测试了软爬行毛毛虫的爬行能力。最后,我们的毛毛虫具有制造简单、成本低廉、移动速度快、占地面积小等优点,在实际应用中,特别是在各种地形上,具有强大而广泛的潜力。
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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来源期刊
Journal of Field Robotics
Journal of Field Robotics 工程技术-机器人学
CiteScore
15.00
自引率
3.60%
发文量
80
审稿时长
6 months
期刊介绍: The Journal of Field Robotics seeks to promote scholarly publications dealing with the fundamentals of robotics in unstructured and dynamic environments. The Journal focuses on experimental robotics and encourages publication of work that has both theoretical and practical significance.
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