Modeling and Applications of a Family of Five-Degree-of-Freedom Parallel Mechanisms With Kinematic and Actuation Redundancy-Reference-Cited by-同舟云学术

Modeling and Applications of a Family of Five-Degree-of-Freedom Parallel Mechanisms With Kinematic and Actuation Redundancy

Published:2018-07-03 Issue:5 Volume:10 Page:
ISSN:1942-4302
Container-title:Journal of Mechanisms and Robotics
language:en
Short-container-title:

Author:

Kang Long¹,Kim Wheekuk²,Yi Byung-Ju³

Affiliation:

1. Department of Electronic Systems Engineering, Hanyang University, Ansan 15588, Gyeonggi-do, South Korea e-mail:

2. Professor Department of Electro-Mechanical Systems Engineering, Korea University, 2511, Sejong-ro, Sejong 339-700, South Korea e-mail:

3. Professor Department of Electronic Systems Engineering, Hanyang University, Ansan 15588, Gyeonggi-do, South Korea e-mail:

Abstract

This paper introduces a family of statically balanced five-degree-of-freedom (5DOF) parallel mechanisms (PMs) with kinematic and actuation redundancy. Moving platforms of this family of PMs can provide 4DOF Schönflies motion. Three applications are considered in this work. The first and second applications use kinematic redundancy to avoid parallel singularities and perform an auxiliary grasping task in sequence. The third application incorporates actuation redundancy into a kinematically redundant manipulator to increase the load-carrying capacity. Screw theory was used to derive the Jacobian of the 5DOF PM with kinematic and actuation redundancy. Parallel singularities can be completely alleviated by controlling the orientation of the redundant link, thereby obtaining a large rotational workspace, and actuation redundancy increases the load-carrying capacity. Using a commercially available multibody dynamic simulator, an example of trajectory was performed to illustrate the large rotational workspace of the first and second applications and compare the Euclidean norm of the vector of actuation torque of nonredundant and redundant PMs. Three prototypes were also developed to demonstrate the output motion and static balancing property.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/mechanismsrobotics/article-pdf/doi/10.1115/1.4040462/6375978/jmr_010_05_051004.pdf

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