Configuration design and grasping contact accuracy analysis of a four-finger manipulator used for grasping fragile objects of elliptic cross section

A type of manipulator configuration with four-fingers is put forward, for grasping fragile hollow workpieces, with adjustable finger length and finger pad shape. Within a certain range, the manipulator can be used to grasp the internal cross section of fragile objects with different size of circular...

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Bibliographic Details
Published inInternational journal of advanced robotic systems Vol. 20; no. 2; p. 172988062311573
Main Authors Wang, Dongxia, Wang, Liangwen, Xie, Hongchang, Wu, Zhenzhen, Xie, Guizhong, Wang, Caidong, Zheng, Huadong, Wang, Zhuang
Format Journal Article
LanguageEnglish
Published London, England SAGE Publications 01.03.2023
Sage Publications Ltd
SAGE Publishing
Subjects
Chebyshev approximation
Configuration management
Cross-sections
Design optimization
Fingers
Finite element method
Impact loads
Internal forces
Interpolation
Workpieces
grasping elliptic shape internal section object
adjustable finger length
four-finger structure
finger pad
Manipulator
internal brace grasping
Chebyshev interpolation
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Summary:A type of manipulator configuration with four-fingers is put forward, for grasping fragile hollow workpieces, with adjustable finger length and finger pad shape. Within a certain range, the manipulator can be used to grasp the internal cross section of fragile objects with different size of circular and oval shape. The design idea and structure of the manipulator are introduced, while the join positions between the finger pad and the finger body, as determined by uniform interpolation or Chebyshev interpolation, are comparatively analyzed and researched regarding forming force contact with workpiece. During the process of grasping, the internal forces and deformations between finger pad and workpiece are analyzed, based on a constructed finite element analysis model. The calculation example shows that, under the same grasping parameters, the maximum impact force on the workpiece is reduced by 63%, when the curvature adjustment points for the finger pad are distributed according to the Chebyshev interpolation, compared to their equal spacing distribution. Research has provided a theoretical basis for the design optimization of the finger pad structure and the connection point positions. For using manipulator to grasp objects with different size of circular and oval shape, the working space of the proposed manipulator is studied. The experiments show that, the manipulator structure, as presented in this article, can meet the requirements of relevant tasks.
ISSN:1729-8806
1729-8814
DOI:10.1177/17298806231157339