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Experimental Study on the Forming Limit Curve of SECC Sheet Material Read chapter Read first chapter

2024 | OriginalPaper | Chapter

A Lightweight Design of End Effector for Industrial Robot

Authors : Giang-Nam Le, Thanh-Xuan Nguyen

Published in: Proceedings of the 3rd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2022)

Publisher: Springer Nature Switzerland

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Abstract

Reducing end-effector weight is significant for industrial robots, especially for transport robots. This article will present an approach to solving the above problem through the finite element method and topology optimization. The result is a general process for the lightweight design of the robot’s end-effector. This process applied to the grip structure of the auxiliary robot, which plays the role of material transport in the automatic machining system of the car rim. Although this method requires more time and cost than the conventional design process, it effectively solves the problem of overloading for low-load robots, while still ensuring manufacturability by traditional machining methods to be suitable for industrial applications.

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Literature
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M. Wilson, in Implementation of Robot Systems (Butterworth-Heinemann, 2015), pp. 75–102
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G. Lakshmi Srinivas, A. Javed, Multi-body dynamic optimization for upper arm of industrial manipulation, in AIP Conference Proceedings (2020)
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C.G. Pedersen, J.J. Lund, L. Damkilde, A. Kristensen, Anders, Topology optimization—improved checker-board filtering with sharp contours, in Proceedings of the 19th Nordic Seminar on Computational Mechanics (Esbjerg, 2006)
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R. Larsson, Methodology for topology and shape optimization: application to a rear lower control arm (Department of Applied Mechanics, Göteborg, 2016)
Metadata
Title
A Lightweight Design of End Effector for Industrial Robot
Authors
Giang-Nam Le
Thanh-Xuan Nguyen
Copyright Year
2024
Book
Proceedings of the 3rd Annual International Conference on Material, Machines and Methods for Sustainable Development (MMMS2022)

Print ISBN: 978-3-031-57459-7

Electronic ISBN: 978-3-031-57460-3

Copyright Year: 2024

DOI
https://doi.org/10.1007/978-3-031-57460-3_39