基于TPA和遗传算法的动力总成悬置系统优化设计

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振动与冲击 ›› 2021, Vol. 40 ›› Issue (14) : 279-286.

论文

潘公宇1，2，付博文1，王功强1,2，陈清爽2，朱瑞1，李东1,2

作者信息 +

Optimization design of a powertrain mount-system based on the TPA and genetic algorithm

PAN Gongyu1,2, FU Bowen1, WANG Gongqiang1,2, CHEN Qingshuang2, ZHU Rui1, LI Dong1,2

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文章历史 +

摘要

针对某前置前驱(FF)的乘用车的怠速抖动问题，提出了基于传递路径分析(TPA)和遗传算法的动力总成悬置系统优化设计方法。利用TPA技术，将悬置系统固有特性和车内目标点振动响应相联系，并综合利用悬置系统6自由度模型，考虑其解耦率和固有频率分布，建立了悬置系统优化数学模型，进而利用NSGA-II遗传算法对其进行多目标优化，获取最优的刚度参数，通过悬置试制，进行整车匹配测试。实验结果表明，优化后的悬置系统隔振性能大幅提升，车内目标的振动响应量表现较优，有效解决了乘用车的怠速抖动问题，验证了所提出的优化方法的有效性。

Abstract

Aiming at the idle jitter problem of a passenger car with front engine front wheeldrive（FF） installation, an optimal design method of its powertrain mount system based on the transfer path analysis（TPA） and genetic algorithm was proposed.By the TPA technology, the inherent characteristics of the mount-system were correlated to the associated vibration response at target points of the vehicle.Comprehensively utilizing a six degrees of freedom model of the mount-system and considering the decoupling rate and the inherent frequency distribution,a mount-system optimization mathematical model was established.Then the NSGA-II genetic algorithm was used in the multi-objective optimization and the optimal stiffness parameters were obtained.The optimal results were used to remake the mount-system and to do the test.The experimental results show that the vibration isolation performance of the optimized mount-system is greatly improved, the vibration response is better than that of the original target car, the idling jitter problem of the passenger car is effectively solved, and the effectiveness of the proposed optimization method is verified.

导出引用

潘公宇，付博文，王功强，陈清爽，朱瑞，李东. 基于TPA和遗传算法的动力总成悬置系统优化设计[J]. 振动与冲击, 2021, 40(14): 279-286

PAN Gongyu, FU Bowen, WANG Gongqiang, CHEN Qingshuang, ZHU Rui, LI Dong. Optimization design of a powertrain mount-system based on the TPA and genetic algorithm[J]. Journal of Vibration and Shock, 2021, 40(14): 279-286

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