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Layer jamming-based soft robotic hand with variable stiffness for compliant and effective grasping

机译:基于干扰的软机器人,具有可变刚度的符合刚度和有效的抓握

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摘要

A novel variable stiffness soft robotic hand (SRH) consists of three pieces of layer jamming structure (LJS) is proposed. The mechanism is driven by the motor-based tendon along the surface of the pieces that connect to individual gas channel. Each LJS is optimised by adhering a thin layer of hot melt adhesive and overlapping the spring steel sheet as inner layer material. It can be switched between rigid and compliant independently. The structures of variable stiffness and tendon-driven lead to various deformation poses. Then the control system of SRH and the performance analysis of the LJS are introduced. Finally, the experiments are implemented to prove the superiority of the proposed LJS and the demonstrations show that the designed robotic hand has multiple configurations to successfully grasp various objects.
机译:一种新的可变刚度软机器人(SRH)由三个层干扰结构(LJS)组成。该机构由电动机的肌腱驱动,沿着连接到单独的气体通道的片材的表面。通过粘附薄的热熔粘合剂并将弹簧钢板重叠为内层材料来优化每个LJ。它可以在刚性并符合独立之间切换。可变刚度和肌腱驱动的结构导致各种变形姿势。然后,介绍了SRH的控制系统和LJS的性能分析。最后,实施实验以证明所提出的LJS的优越性,并且演示表明,设计的机器人手有多种配置来成功掌握各种物体。

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  • 来源
    《Cognitive Computation and Systems》 |2020年第2期|44-49|共6页
  • 作者

    Xiangxiang Wang; Linyuan Wu; Bin Fang; Xiangrong Xu; Haiming Huang; Fuchun Sun;

  • 作者单位

    Institute of Mechanical Engineering Anhui University of Technology Ma'anshan Anhui People's Republic of China;

    Institute of Electronics and Information Engineering Shenzhen University Shenzhen People's Republic of China;

    Tsinghua National Laboratory for Information Science and Technology Tsinghua University Department of Computer Science and Technology Beijing People's Republic of China;

    Institute of Mechanical Engineering Anhui University of Technology Ma'anshan Anhui People's Republic of China;

    Institute of Electronics and Information Engineering Shenzhen University Shenzhen People's Republic of China;

    Institute of Electronics and Information Engineering Shenzhen University Shenzhen People's Republic of China;

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  • 原文格式 PDF
  • 正文语种 eng
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  • 关键词

    adhesion; springs (mechanical); jamming; steel; dexterous manipulators; medical robotics; adhesives;

    机译:粘合力;弹簧(机械);干扰;钢;Dexterous操纵器;医疗机器人;粘合剂;

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