Research on the Forced Vibration Characteristic of the Dual Mode Multistage Gear Transmission based on the Objective Parameter Optimization

Xiaoci Huang

doi:10.16578/j.issn.1004.2539.2020.11.024

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Research on the Forced Vibration Characteristic of the Dual Mode Multistage Gear Transmission based on the Objective Parameter Optimization

Test·Analysis | 更新时间：2022-11-10

- Research on the Forced Vibration Characteristic of the Dual Mode Multistage Gear Transmission based on the Objective Parameter Optimization
- Journal of Mechanical Transmission Vol. 44, Issue 11, Pages: 145-151(2020)
- 作者机构：
  
  1.上海工程技术大学机械与汽车工程学院，上海 201620
- 作者简介：
- 基金信息：
- DOI：10.16578/j.issn.1004.2539.2020.11.024
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黄孝慈.基于目标参数优化的双模式多级齿轮传动机构受迫振动特性分析[J].机械传动,2020,44(11):145-151.

Huang Xiaoci.Research on the Forced Vibration Characteristic of the Dual Mode Multistage Gear Transmission based on the Objective Parameter Optimization[J].Journal of Mechanical Transmission,2020,44(11):145-151.
黄孝慈.基于目标参数优化的双模式多级齿轮传动机构受迫振动特性分析[J].机械传动,2020,44(11):145-151. DOI： 10.16578/j.issn.1004.2539.2020.11.024.

Huang Xiaoci.Research on the Forced Vibration Characteristic of the Dual Mode Multistage Gear Transmission based on the Objective Parameter Optimization[J].Journal of Mechanical Transmission,2020,44(11):145-151. DOI： 10.16578/j.issn.1004.2539.2020.11.024.

摘要

为了分析混合动力汽车双模式多级齿轮动力传动机构扭转振动产生的原因及其影响因素，基于SIMPACK建立了整车动力学模型。通过对动力学模型施加激励和设置输出通道，构建了扭振仿真系统。应用扭振仿真系统分析了多级齿轮传动机构的振型，并与理论计算和实验结果进行了对比验证。扭振仿真系统振型分析的结果与理论计算的传动系统固有频率以及噪声实验获得的主噪声频率一致，证明了构建系统的正确性。在此基础上，分析了阻尼减振器的阻尼、刚度的变化等目标优化参数对多级齿轮传动机构产生的扭转振动的影响。结果表明，将扭转减振器参数调整在适当范围内，对多级齿轮传动机构部分阶次的扭转振动有较好的衰减作用。

Abstract

In order to analyze the cause and influence factors of the torsional vibration of the dual mode multistage gear transmission， a hybrid electric vehicle dynamic model is established based on SIMPACK. By means of imposed excitation on the dynamics model and set output channel on it， a simulation system for torsional vibration is constructed. The vibration mode of transmission is analyzed as a torsional vibration simulation system， and is validated by the results of theoretical calculation and experimentation， which verified the effectiveness of the established simulation system. On this basis， some objective parameters， such as stiffness and damping of torsional damper， are analyzed for the effect of dampen vibration. The result shows that it has a good effect on the attenuation of torsional vibration in certain frequency through adjustments to characteristic parameters of torsional damper in a proper range.

关键词

双模式齿轮传动机构扭振特性

Keywords

Dual modeGearTransmission mechanismTorsional vibration characteristic

references

杨远，刘海，陈勇，等.电驱动动力总成噪声识别与优化［J］.噪声与振动控制，2017，37（6）：102-106.

YANG Yuan，LIU Hai，CHEN Yong，et al.Noise identification and optimization of electric drive powertrain［J］.Noise and Vibration Control，2017，37（6）：102-106.

CHANG I D，KIM B S.An experimental study on the torsional excitation source of the vehicle driveline［J］.Transactions of the Korean Society for Noise and Vibration Engineering，2005，15（7）：865-870.

YUE D P，LIU Y.Vibration research of electromechanical coupling system on HEV［J］.Advanced Materials Research，2012，518：3869-3873.

PAUL D W，ZHANG N.Active damping of transient vibration in dual clutch transmission equipped powertrains：a comparison of conventional and hybrid electric vehicles［J］.Mechanism and Machine Theory，2014，77：1-12.

林新海，赵永强，马玉强，等.不同工况下动车组齿轮箱振动特性试验研究［J］.机械传动，2019，43（11）：139-142.

LIN Xinhai，ZHAO Yongqiang，MA Yuqiang，et al.Experimental study on vibration characteristics of gearbox of EMU under different working conditions［J］.Journal of Mechanical Transmission，2019，43（11）：139-142.

TANG X L，JIN Y J，ZHANG J W，et al.Torsional vibration and acoustic noise analysis of a compound planetary power-split hybrid electric vehicle［J］.Proceedings of the Institution of Mechanical Engineers，2014，228（1）：94-103.

曾虎，李江华.基于Pro/E与ADAMS的变速器斜齿轮三维造型与啮合仿真［J］.汽车与驾驶维修（维修版），2019（5）：91-93.

ZENG Hu，LI Jianghua.3D modeling and meshing simulation of transmission helical gear based on Pro/E and ADAMS［J］.Automobile and Driving Maintenance （Maintenance Version），2019（5）：91-93.

洪清泉，程颖.基于ADAMS的多级齿轮传动系统动力学仿真［J］.北京理工大学学报，2003，23（6）：690-693.

HONG Qingquan，CHENG Ying.Dynamic simulation of multistage gear train system in ADAMS［J］.BeiJing Institute of Technology，2003，23（6）：690-693.

ZHANG J W，TANG X L，YU H S，et al.Multi-body dynamics and noise analysis for the torsional vibration of a power-split hybrid driveline［J］.Proceedings of the Institution of Mechanical Engineers，Part K：Journal of Multi-body Dynamics，2014，228（4）：366-379.

于海生，张彤，马智涛，等.行星排式混合动力汽车传动系扭转振动分析［J］.农业工程学报，2013，29（15）：57-64.

YU Haisheng，ZHANG Tong，MA Zhitao，et al.Torsional vibration analysis of planetary hybrid electric vehicle driveline［J］.Transactions of the Chinese Society of Agricultural Engineering，2013，29（15）：57-64.

邹良，唐小林，于海生，等.混合动力轿车传动系的扭转振动与噪声分析［J］.汽车工程，2014，36（6）：709-714.

ZOU Liang，TANG Xiaolin，YU Haisheng，et al.Analyses on the torsional vibration and noise of transmission system in hybrid electric cars［J］.Automotive Engineering，2014，36（6）：709-714.

毕金亮，李静波，李宏成，等.动力传动系统扭转模态及灵敏度分析［J］.振动工程学报，2010，23（6）：676-680.

BI Jinliang，LI Jingbo，LI Hongcheng，et al.Torsional mode and sensitivity analysis of power transmission system［J］.Journal of Vibration Engineering，2010，23（6）：676-680.

KUBUR M，KAHRAMAN A，ZINI D M，et al.Dynamic analysis of a multi-shaft helical gear transmission by finite elements：model and experiment［J］.Journal of Vibration and Acoustics，2004，126（3）：398-406.

E J Q，QIAN C，LIU T，et al.Research on the vibration characteristics of the new type of passive super static vibratory platform based on the multiobjective parameter optimization［J］.Advances in Mechanical Engineering，2014：1-8.

GUO Y，PARKER R G.Sensitivity of general compound planetary gear natural frequencies and vibration modes to model parameters［J］.Journal of Vibration and Acoustics，2010，132（1）：1-13.

蔡仲昌，刘辉，项昌乐，等.车辆行星传动系统扭转振动固有特性及灵敏度分析［J］.中国机械工程，2011，22（1）：96-101.

CAI Zhongchang，LIU Hui，XIANG Changle，et al.The analysis of inherent characteristics and sensitivity for torsional vibration of vehicle planetary transmission system［J］.China Mechanical Engineering，2011，22（1）：96-101.

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