Low-Impact Contact between Electrodes of Pneumatic Servo Welding Gun Using Segmented Sliding-Mode Control

Tao Wang; Shaoning Wang; Bo Wang

doi:10.1109/TMECH.2019.2911960

Low-Impact Contact between Electrodes of Pneumatic Servo Welding Gun Using Segmented Sliding-Mode Control

Tao Wang^*, Shaoning Wang, Bo Wang

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

In automobile manufacturing, improving the quality and efficiency of resistance spot welding and avoiding the damage caused by excessive impact force are of significance. This paper proposes a low-impact contact evaluation method for the pneumatic servo welding gun and the concept of optimal cushioning distance. A segmented sliding-mode control method is used. By analyzing the electrode contact mechanism, the gradual progress of spot welding is controlled by the method proposed in this paper. The cushioning effects of PID control, sliding-mode variable structure control, and segmented sliding-mode variable structure control are compared by experiments. The results show that the contact force during the 0.05 s after the electrode contact is not more than 10% of the welding force using sliding-mode control, approximately 0.2 kN, which satisfies the proposed low-impact contact requirements.

Original language	English
Article number	8693867
Pages (from-to)	1248-1258
Number of pages	11
Journal	IEEE/ASME Transactions on Mechatronics
Volume	24
Issue number	3
DOIs	https://doi.org/10.1109/TMECH.2019.2911960
Publication status	Published - Jun 2019

Keywords

Low-impact contact
optimal cushioning distance
pneumatic servo welding gun
sliding-mode control

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10.1109/TMECH.2019.2911960

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title = "Low-Impact Contact between Electrodes of Pneumatic Servo Welding Gun Using Segmented Sliding-Mode Control",

abstract = "In automobile manufacturing, improving the quality and efficiency of resistance spot welding and avoiding the damage caused by excessive impact force are of significance. This paper proposes a low-impact contact evaluation method for the pneumatic servo welding gun and the concept of optimal cushioning distance. A segmented sliding-mode control method is used. By analyzing the electrode contact mechanism, the gradual progress of spot welding is controlled by the method proposed in this paper. The cushioning effects of PID control, sliding-mode variable structure control, and segmented sliding-mode variable structure control are compared by experiments. The results show that the contact force during the 0.05 s after the electrode contact is not more than 10% of the welding force using sliding-mode control, approximately 0.2 kN, which satisfies the proposed low-impact contact requirements.",

keywords = "Low-impact contact, optimal cushioning distance, pneumatic servo welding gun, sliding-mode control",

author = "Tao Wang and Shaoning Wang and Bo Wang",

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AU - Wang, Shaoning

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AB - In automobile manufacturing, improving the quality and efficiency of resistance spot welding and avoiding the damage caused by excessive impact force are of significance. This paper proposes a low-impact contact evaluation method for the pneumatic servo welding gun and the concept of optimal cushioning distance. A segmented sliding-mode control method is used. By analyzing the electrode contact mechanism, the gradual progress of spot welding is controlled by the method proposed in this paper. The cushioning effects of PID control, sliding-mode variable structure control, and segmented sliding-mode variable structure control are compared by experiments. The results show that the contact force during the 0.05 s after the electrode contact is not more than 10% of the welding force using sliding-mode control, approximately 0.2 kN, which satisfies the proposed low-impact contact requirements.

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Low-Impact Contact between Electrodes of Pneumatic Servo Welding Gun Using Segmented Sliding-Mode Control

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Keywords

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