| Literature DB >> 31990630 |
Zhiguang Xing1, Junming Zhang1, David McCoul2, Yanzhen Cui1, Lining Sun3, Jianwen Zhao1.
Abstract
Some applications are very sensitive to the weight of the robot, such as space manipulation or any untethered mobile manipulation. In this article, we designed a five-module unilaterally bending serial manipulator with length of 32 cm and a weight of only 18 g. The manipulator is driven by dielectric elastomer actuators (DEAs). Each module consists of a spatially closed tubular structure, which has the capability of large deformation while simultaneously maintaining torsional rigidity. The design is based on the buckling of columns. To achieve global deformation continuously, each module was controlled independently by a multichannel high-voltage power supply. As a demo, the manipulator was able to enter and exit a narrow L-shaped pipe. Experiments demonstrate that the manipulator driven by spatial DEAs can be super lightweight and can realize large continuous deformation.Entities:
Keywords: dielectric elastomer actuators; soft actuators; soft manipulators; soft robotics
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Year: 2020 PMID: 31990630 DOI: 10.1089/soro.2018.0134
Source DB: PubMed Journal: Soft Robot ISSN: 2169-5172 Impact factor: 8.071