发动机冷却模块振动优化

doi:10.3785/j.issn.1008-973X.2012.12.009

2012, Vol. 46

Issue (12): 2194-2200 DOI: 10.3785/j.issn.1008-973X.2012.12.009

能源工程

发动机冷却模块振动优化

杨骥1, 郝志勇1, 葛如炜2, 郑康1, 郑旭1

1.浙江大学能源工程学系,浙江杭州 310027; 2. 泛亚汽车技术中心有限公司,上海201201

Optimization of engine cooling module vibration

YANG Ji1, HAO Zhi-yong1, GE Ru-wei2, ZHENG Kang1, ZHENG Xu1

1. Department of Energy Engineering, Zhejiang University, Hangzhou 310027, China;
2. Pan Asia Technical Automotive Center Co., Ltd, Shanghai 201201, China

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摘要：

针对某轿车搭载直列四缸(L4)发动机型在发动机怠速开空调且冷却风扇处于最高转速2 470 r/m时,方向盘(SW)振动剧烈的问题,对减振连接点和SW的振动进行了振动试验测量,识别出了影响该工况下SW振动的主要因素.运用数值仿真,分析了由冷却模块（CRFM)引起的振动,CRFM系统振动特性数值分析模型的搭建,借助于能量解耦理论和NewmarkBeta算法,该模型可分析CRFM搭载不同减振块组合后的模态频率及其在车架振动和风扇振动激励下的响应.振动优化针对搭载不同刚度性能减振连接块的CRFM振动特性进行仿真分析,优化后的CRFM可避开外部激励主要频段，且振动响应较小.

Abstract:

The steering wheel (SW) of an automobile with L4 engine vibrates greatly, when the engine is idling with air conditioner working and cooling fan rotating at its top speed 2 470 r/min. Series of experiments were taken to test the vibration of isolators’ connecting points and the SW so that the factors influencing SW vibration under specific working conditions could be identified. The vibration induced by the engine condenser-radiator-fan module (CRFM) was analyzed by numerical simulation. The numerical model of CRFM vibration was established with the help of energy decoupling and Newmark-Beta methodology, which could analyze the modal frequencies and vibration response of CRFM with different isolator groups under excitation of chassis and cooling fan vibration. The optimization investigates the stiffness of CRFM isolators so that CRFM can evade the external excitation frequency band and its vibration response can be reduced.

出版日期: 2012-12-01

TK 413.3

通讯作者: 郝志勇，男，教授，博导. E-mail: haozy@zju.edu.cn

作者简介: 杨骥（1988—），男，硕士生，从事发动机虚拟仿真设计和试验工作.E-mail：passion@zju.edu.cn

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引用本文:

杨骥, 郝志勇, 葛如炜, 郑康, 郑旭. 发动机冷却模块振动优化[J]. J4, 2012, 46(12): 2194-2200.

YANG Ji, HAO Zhi-yong, GE Ru-wei, ZHENG Kang, ZHENG Xu. Optimization of engine cooling module vibration. J4, 2012, 46(12): 2194-2200.

链接本文:

http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2012.12.009 或 http://www.zjujournals.com/eng/CN/Y2012/V46/I12/2194

［1］ WU S F, SU S, SHAH H. Modeling of noise spectrum from an axial flow fan in free space ［J］. Journal of Sound and Vibration, 1997,200（４）: 379-399.
［2］ WU S F, SUA S, SHAHB H. Noise radiation from engine cooling fans ［J］. Journal of Sound and Vibration, 1998, 216（１）: 107-132.
［3］贾继德,陈剑,邱峰.兼顾冷却和降噪要求的后置客车冷却风扇优化设计［J］.农业机械学报,2006,37（12）： 46-49.
JIA Jide, CHEN Jian, QIU Feng. Optimum design for the cooling fan in rear engine coach combined with cooling and low noise ［J］. Transactions of the Chinese Society for Agricultural Machinery, 2006, 37(12): 46-49.
［4］朱正,陶庆模.装甲车辆用冷却风扇的阻尼降噪试验研究［J］.华北工学院测试技术学报,2000（14）: 291-294.
ZHU Zheng, TAO Qingmo. Damping and reducing noise t,est research for cooling fan in use for armoured vehicle ［J］. Journal of Test and Measurement Technology of NCIT, 2000（14）: 291-294.
［5］朱正,李继新.发动机冷却风扇的振动测试［J］.测试技术学报,2002,16(z1)： 227-229.
ZHU Zheng, LI Jixin. Engine cooling fan vibration test ［J］. Journal of Test and Measurement Technology, 2002, 16(z1): 227-229.
［6］郑福林,王学军,王若云,等.由动不平衡引起的拍频振动的识别与控制［Ｃ］∥2006年LMS中国用户大会论文集.苏州：\
[s.n.\], 2006.
ZHENG Fulin, WANG Xuejun, WANG Ruoyun, CHEN Xiaoyu. The troubleshooting & control on the BeatVibration due to the rotating unbalance ［C］∥ LMS Annual Users’ Conference.Suzhou: \
[s.n.\], 2006.
［7］ MORGAN, WILLIAM. Vibration analysis of an electric motor fan assembly ［C］∥ Vehicle Thermal Management Systems Conference and Exposition.Indianapolis, USA：［s.n.］,1997.
［8］ SPIEKERMANN C E, RADCLIFFE C J, GOODMAN E D. Optimal design and simulation of vibration isolation system ［J］. Journal of Mechanisms, Transmissions, and Automation in Design, 1985, 107: 271-276.
［9］刘斌,刘轶娅,韩亚平.基于Matlab的发动机悬置系统的固有频率和主振型计算［J］.北京汽车,2006（6）： 24-27.
LIU Bin, LIU Yiya, HAN Yaping. Analysis of the natural frequency and main vibration mode for the engine mounting system based on Matlab ［J］. Beijing Automotive Engineering, 2006(6): 24-27.
［10］叶向好,郝志勇.基于MATLAB的发动机总成悬置系统设计研究［J］.小型内燃机与摩托车,2004, 33(5)： 12-15.
YE Xianghao, HAO Zhiyong. The study of powertrain mounting system design based on matlab ［J］. Small Internal Combustion Engine and Motorcycle, 2004, 33(5): 12-15.
［11］ Newmark’s beta method ［EB/OL］. ［20110106］. http:∥cobweb.ecn.purdue.edu/～ce571/downloads/newmarkbeta.pdf.
［12］ LIN T R, FARAG N H, PAN J. Evaluation of frequency dependent rubber mount stiffness and damping by impact test ［J］. Applied Acoustics, 2005, 66(7): 829-844.

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