Study on Anti-vibration Performance of Marine Medium Voltage AC Circuit Breaker

2023 5th Asia Energy and Electrical Engineering Symposium (AEEES) Pub Date : 2023-03-23 DOI:10.1109/AEEES56888.2023.10114284

Y. Tu, Xinle Sha, Hongqiao Zhu, Lei Huang, Wenzhi Shen

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Abstract

In this paper, according to the structural characteristics of marine medium voltage AC circuit breaker, a finite element model is established and harmonic response analysis is carried out. The transverse, longitudinal and vertical resonant frequencies and resonant points are pointed out respectively. The vibration test results are consistent with the simulation results, and the problem of component damage occurs in the longitudinal direction. Then, the prototype is improved according to the simulation results. When the frequency of the improved prototype is 30 Hz, the peak acceleration at the resonance point is reduced from 60 m/s2 to 40 m/s2; At 57 Hz, the peak acceleration at the resonance point is reduced from 40 m/s2 to 30 m/s2. The improved prototype successfully passed the vibration test. The vibration analysis method effectively solves the problem that the anti-vibration design of medium voltage AC circuit breaker completely depends on the test results and needs to be improved repeatedly, which has guiding significance for the anti-vibration design of similar equipment.

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船用中压交流断路器抗振性能研究

本文根据船用中压交流断路器的结构特点，建立了其有限元模型，并进行了谐波响应分析。分别指出了横向、纵向和纵向的谐振频率和谐振点。振动试验结果与仿真结果一致，构件损伤问题出现在纵向上。然后，根据仿真结果对样机进行了改进。当改进样机的频率为30 Hz时，谐振点处的峰值加速度从60 m/s2减小到40 m/s2;在57hz时，谐振点处的峰值加速度从40 m/s2减小到30 m/s2。改进后的样机顺利通过了振动试验。该振动分析方法有效地解决了中压交流断路器的抗振设计完全依靠试验结果，需要反复改进的问题，对同类设备的抗振设计具有指导意义。

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2023 5th Asia Energy and Electrical Engineering Symposium (AEEES)

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