A Variable Stiffness Soft Gripper Based on Rotational Layer Jamming.

IF 6.4 2区计算机科学 Q1 ROBOTICS

Soft Robotics Pub Date : 2024-02-01 Epub Date: 2023-08-21 DOI:10.1089/soro.2022.0232

Mingzhu Zhu, Mengying Xie, Yoshiki Mori, Junyue Dai, Sadao Kawamura, Xiaokui Yue

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引用次数: 0

Abstract

This article presents the design and fabrication of a variable stiffness soft gripper based on layer jamming. Traditional layer jamming units have some limitations, such as complicated multistep fabrication, difficulties in system integration, and diminishing in stiffen effect. In this article, a variable stiffness soft gripper is proposed based on the rotational jamming layers to reduce the slippery phenomenon between layers. To fabricate the proposed complex design, a two-step fabrication method is presented. First, multimaterial 3D printing is applied to directly print out the soft finger body with jamming layers. Second, mold casting is used to fabricate the outer vacuum chamber. The proposed gripper contains a main framework and three identical variable stiffness soft fingers. To demonstrate the effectiveness of the design, the soft gripper is mounted on a robotic arm to test its ability of grasping heavy objects while following complex grasping trajectory. The gripper can successfully grasp an object up to 360 g. Grasping robustness of the proposed gripper can be guaranteed when the robotic arm is moving at acceleration up to 7 m/s². The results prove that the proposed design of the soft gripper can improve the grippers grasping robustness during high-speed movement.

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基于旋转层干扰的可变刚度软抓手

本文介绍了基于层干扰的可变刚度软抓手的设计与制造。传统的层间干扰装置存在一些局限性，如多步制造复杂、系统集成困难、增刚效果减弱等。本文提出了一种基于旋转卡层的可变刚度软抓手，以减少层间滑动现象。为了制造所提出的复杂设计，本文介绍了一种分两步进行的制造方法。首先，采用多材料三维打印技术直接打印出带有干扰层的软指体。其次，采用模具铸造法制造外真空室。拟议的机械手包含一个主框架和三个相同的可变刚度软指。为了证明设计的有效性，我们将软抓手安装在机械臂上，测试其按照复杂的抓取轨迹抓取重物的能力。该机械手可成功抓取重达 360 克的物体。当机械臂以高达 7 m/s2 的加速度运动时，建议的抓手的抓取鲁棒性可以得到保证。结果证明，所提出的软抓手设计可以提高抓手在高速运动时的抓取鲁棒性。

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

Soft Robotics ROBOTICS-

CiteScore

15.50

自引率

5.10%

发文量

128

期刊介绍： Soft Robotics (SoRo) stands as a premier robotics journal, showcasing top-tier, peer-reviewed research on the forefront of soft and deformable robotics. Encompassing flexible electronics, materials science, computer science, and biomechanics, it pioneers breakthroughs in robotic technology capable of safe interaction with living systems and navigating complex environments, natural or human-made. With a multidisciplinary approach, SoRo integrates advancements in biomedical engineering, biomechanics, mathematical modeling, biopolymer chemistry, computer science, and tissue engineering, offering comprehensive insights into constructing adaptable devices that can undergo significant changes in shape and size. This transformative technology finds critical applications in surgery, assistive healthcare devices, emergency search and rescue, space instrument repair, mine detection, and beyond.