Programmable inflatable origami

2023 IEEE International Conference on Soft Robotics (RoboSoft) Pub Date : 2023-04-03 DOI:10.1109/RoboSoft55895.2023.10122007

Saravana Prashanth Murali Babu, Riddhi Das, B. Mazzolai, A. Rafsanjani

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Abstract

Origami is a practical approach for developing soft robots and deployable structures. If the folding and stiffness are actively adjustable, we can program the motion of the resulting origami structure. Here, we propose an entirely soft inflatable origami actuator with variable stiffness and multimodal deformation. The programmable inflatable origami consists of a prismatic chamber based on the Kresling pattern with miniature fluidic channels at the mountain folds. Applying a vacuum to the central chamber provides the main actuation force, while the selective inflation of the fluidic channels controls the motion and changes the stiffness. We formulated a geometric description for the origami module to optimize the design parameters. Then, we fabricated the origami actuators from elastomeric rubber using a multistep single-material fabrication technique. Finally, we characterized the axial contraction and rotation angle and demonstrated variable stiffness and omnidirectional bending. Our work imbues origami actuators with embodied behavior presenting an integrated versatile soft robotic building block applicable to manipulation and locomotion scenarios.

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可编程充气折纸

折纸是一种开发软机器人和可展开结构的实用方法。如果折叠和刚度是可主动调节的，我们就可以对折纸结构的运动进行编程。本文提出了一种具有可变刚度和多模态变形的全软充气折纸驱动器。可编程充气折纸由一个基于Kresling图案的棱柱腔和位于山褶皱处的微型流体通道组成。对中心腔室施加真空提供主要的驱动力，而流体通道的选择性膨胀控制运动并改变刚度。为优化设计参数，对折纸模块进行了几何描述。然后，我们采用多步骤单材料制造技术，从弹性橡胶中制造出折纸驱动器。最后，我们描述了轴向收缩和旋转角度，并演示了变刚度和全方位弯曲。我们的工作为折纸驱动器注入了具体的行为，提出了一个集成的多功能软机器人构建块，适用于操作和运动场景。

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

2023 IEEE International Conference on Soft Robotics (RoboSoft)

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