Hybrid Soft-Rigid Deployable Structure Inspired by Thick-Panel Origami

Volume 10: 44th Mechanisms and Robotics Conference (MR) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22246

Chenying Liu, P. Maiolino, Yunfang Yang, Z. You

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引用次数: 2

Abstract

Recently, the techniques of origami have become the subject of scientific research. Such methods of folding plates are suitable for practical engineering applications. This paper proposes a novel structure, inspired by thick-panel origami, with hybrid rigid bodies and flexible hinges. Able to be expanded, flipped, and rotated, the waterbomb origami pattern has been chosen to produce a large number of configurations. The mechanism and motion analysis of a single unit and its basic assembly are conducted theoretically and also simulated. An additive fabrication method based on 3D printing makes it a one-step process to achieve a balance between rigidity and flexibility in the structure. Different configurations are demonstrated in three assemblies that exhibit good transformability, reconfigurability, and scalability. With the expansion/packaging ratio ranging from 0.11 to 7.2 in a modular unit, a mechanical metamaterial of negative Poisson’s ratio can be obtained at any spatial size. In addition, our design’s potential for robotic applications is also validated by an adaptable gripper with tendon-driven systems.

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受厚板折纸启发的混合软-刚性可展开结构

近年来，折纸技术已成为科学研究的课题。这种折板方法适合于实际工程应用。本文以厚板折纸为灵感，提出了一种刚体与柔性铰链混合的新型结构。可以展开、翻转和旋转，水弹折纸图案被选择来产生大量的配置。对单个单元及其基本总成进行了理论分析和仿真分析。一种基于3D打印的增材制造方法使得它在一步的过程中实现了结构刚度和柔韧性之间的平衡。在三个程序集中演示了不同的配置，这些程序集中展示了良好的可转换性、可重构性和可伸缩性。当模组单元的膨胀/封装比在0.11 ~ 7.2之间时，可以在任何空间尺寸下获得负泊松比的机械超材料。此外，我们的设计在机器人应用方面的潜力也通过带有肌腱驱动系统的适应性抓手得到了验证。

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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Volume 10: 44th Mechanisms and Robotics Conference (MR)

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