A bioinspired fishbone continuum robot with rigid-flexible-soft coupling structure
A bioinspired fishbone continuum robot with rigid-flexible-soft coupling structure
- Neue Suche nach: Zhou, Pan
- Neue Suche nach: Yao, Jiantao
- Neue Suche nach: Zhang, Shuai
- Neue Suche nach: Wei, Chunjie
- Neue Suche nach: Zhang, Hongyu
- Neue Suche nach: Qi, Shupeng
- Neue Suche nach: Zhou, Pan
- Neue Suche nach: Yao, Jiantao
- Neue Suche nach: Zhang, Shuai
- Neue Suche nach: Wei, Chunjie
- Neue Suche nach: Zhang, Hongyu
- Neue Suche nach: Qi, Shupeng
Rigid-flexible-soft coupled robots are an important development direction of robotics, which face many theoretical and technical challenges in their design, manufacture, and modeling. Inspired by fishbones, we propose a novel cable-driven single-backbone continuum robot which has a compact structure, is lightweight, and has high dexterity. In contrast to the existing single-backbone continuum robots, the middle backbone of the continuum robot is serially formed by multiple cross-arranged bioinspired fishbone units. The proposed bioinspired fishbone unit, having good one-dimensional bending properties, is a special rigid-flexible-soft structure mainly made by multi-material 3D printing technology. The unique design and manufacture of the middle backbone provide the continuum robot with excellent constant curvature characteristics and reduce the coupling between different motion dimensions, laying a foundation for the continuum robot to have a more accurate theoretical model as well as regular and controllable deformation. Moreover, we build the forward and inverse kinematics model based on the geometric analysis method, and analyze its workspace. Further, the comparison between the experimental and theoretical results shows that the prediction errors of the kinematics model are within the desired 0.5 mm. Also, we establish the relation between the cable driving force of the bioinspired fishbone unit and its bending angle, which can provide guidance for the optimization of the continuum robot in the future. The application demos prove that the continuum robot has good dexterity and compliance, and can perform tasks such as obstacle crossing locomotion and narrow space transportation. This work provides new ideas for the bioinspired design and high-precision modeling of continuum robots.
Dokumentinformationen
A bioinspired fishbone continuum robot with rigid-flexible-soft coupling structure
2022-10-18
Zhou , P , Yao , J , Zhang , S , Wei , C , Zhang , H & Qi , S 2022 , ' A bioinspired fishbone continuum robot with rigid-flexible-soft coupling structure ' , Bioinspiration and Biomimetics , vol. 17 , no. 6 , 066012 . https://doi.org/10.1088/1748-3190/ac8c10
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
| DDC: | 629 |
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