Modeling and analysis of magnetic adhesion module for wall-climbing robot
Magnetic wall-climbing robots have wide applications due to their large adhesive force and loading capacity. However, researches have seldom focused on the magnet patterns and magnetic characteristics of the adhesive module, which may influence the output performance of the robot greatly. Therefore,...
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sg-ntu-dr.10356-1645072023-01-30T04:43:27Z Modeling and analysis of magnetic adhesion module for wall-climbing robot Gao, Xiaoshan Yan, Liang Wang, Gang Chen, I-Ming School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Curved Surface Equivalent Magnetic Circuit Method Magnetic wall-climbing robots have wide applications due to their large adhesive force and loading capacity. However, researches have seldom focused on the magnet patterns and magnetic characteristics of the adhesive module, which may influence the output performance of the robot greatly. Therefore, the purpose of this study is to analyze the magnet array, flux distribution and magnetic adhesive force of wall-climbing robot in both quantitative and qualitative ways. It helps to improve the magnetic force and loading capacity significantly. The concept design of the wall-climbing robot is introduced and the system stability is analyzed. Following that, four magnet patterns are presented and the magnetic flux distribution is numerically simulated. The comparison among them shows that the alternatively magnetization pattern can generate larger magnetic flux density relatively. Subsequently, the magnetic field and adhesive force are both formulated analytically. It is worth noting that the curved surface is considered for the analytical modeling in this study. Thus, the modeling approach can be implemented to the magnetic characteristic analysis of other similar magnetic adhesive robots. Then, the numerical simulation is conducted on the magnetic field and force output to validate the analytical models. One research prototype of the magnetic wall-climbing robot is developed, and the system hardware architecture is introduced. Experiments are carried out to validate the analytical model and output performance of the robot system. The experimental result is consistent with the analytical model and numerical computation. This work was supported in part by the National Natural Science Foundation of China (NSFC) under Grant 52205044, Grant 52130505, and Grant 51875013; in part by China Postdoctoral Science Foundation under Grant 2022M720351; in part by the National Key Research and Development Program under Grant 2022YFE0113700; in part by the Ningbo Key Scientific and Technological Project under Grant 2022Z040; and in part by the Science and Technology on Aircraft Control Key Laboratory and Fundamental Research Funds for the Central Universities. 2023-01-30T04:43:27Z 2023-01-30T04:43:27Z 2022 Journal Article Gao, X., Yan, L., Wang, G. & Chen, I. (2022). Modeling and analysis of magnetic adhesion module for wall-climbing robot. IEEE Transactions On Instrumentation and Measurement, 72, 7500209-. https://dx.doi.org/10.1109/TIM.2022.3224522 0018-9456 https://hdl.handle.net/10356/164507 10.1109/TIM.2022.3224522 2-s2.0-85144040661 72 7500209 en IEEE Transactions on Instrumentation and Measurement © 2022 IEEE. All rights reserved. |
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Engineering::Mechanical engineering Curved Surface Equivalent Magnetic Circuit Method Gao, Xiaoshan Yan, Liang Wang, Gang Chen, I-Ming Modeling and analysis of magnetic adhesion module for wall-climbing robot |
| description |
Magnetic wall-climbing robots have wide applications due to their large adhesive force and loading capacity. However, researches have seldom focused on the magnet patterns and magnetic characteristics of the adhesive module, which may influence the output performance of the robot greatly. Therefore, the purpose of this study is to analyze the magnet array, flux distribution and magnetic adhesive force of wall-climbing robot in both quantitative and qualitative ways. It helps to improve the magnetic force and loading capacity significantly. The concept design of the wall-climbing robot is introduced and the system stability is analyzed. Following that, four magnet patterns are presented and the magnetic flux distribution is numerically simulated. The comparison among them shows that the alternatively magnetization pattern can generate larger magnetic flux density relatively. Subsequently, the magnetic field and adhesive force are both formulated analytically. It is worth noting that the curved surface is considered for the analytical modeling in this study. Thus, the modeling approach can be implemented to the magnetic characteristic analysis of other similar magnetic adhesive robots. Then, the numerical simulation is conducted on the magnetic field and force output to validate the analytical models. One research prototype of the magnetic wall-climbing robot is developed, and the system hardware architecture is introduced. Experiments are carried out to validate the analytical model and output performance of the robot system. The experimental result is consistent with the analytical model and numerical computation. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Gao, Xiaoshan Yan, Liang Wang, Gang Chen, I-Ming |
| format |
Article |
| author |
Gao, Xiaoshan Yan, Liang Wang, Gang Chen, I-Ming |
| author_sort |
Gao, Xiaoshan |
| title |
Modeling and analysis of magnetic adhesion module for wall-climbing robot |
| title_short |
Modeling and analysis of magnetic adhesion module for wall-climbing robot |
| title_full |
Modeling and analysis of magnetic adhesion module for wall-climbing robot |
| title_fullStr |
Modeling and analysis of magnetic adhesion module for wall-climbing robot |
| title_full_unstemmed |
Modeling and analysis of magnetic adhesion module for wall-climbing robot |
| title_sort |
modeling and analysis of magnetic adhesion module for wall-climbing robot |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164507 |
| _version_ |
1757048209263296512 |