Analysis of bending-torsion-axis coupled nonlinear vibration characteristics of a two-gear pair AMT helical gear system
SONG Qiang1,2, SUN Danting1,2, ZHANG Wei1,2
1. School of Mechanical Engineering, Beijing Institute of Technology, Beijing 100081, China;
2. National Engineering Laboratory for Electric Vehicles, Beijing Institute of Technology, Beijing 100081, China
Abstract:In a two-gear pair AMT of pure electric vehicle, nonlinear vibration of helical gear transmission system can cause vibration and noise of the transmission. Here, in order to study nonlinear vibration characteristics of the two-gear pair AMT helical gear system, considering time-varying meshing stiffness, tooth side clearance, static transmission error and bearing support stiffness of the system, the bending-torsion-axis coupled dynamic model of the system was established to analyze bifurcation diagram and its phase diagram features of the coupled vibration characteristics. The results showed that when the transmission is operating with the first gear pair, the meshing frequency increases with increase in speed, and the system has periodic motion and chaos; when the load-bearing gear pair is in a single-period motion, torsional vibration intensity of the gear pair without load-bearing increases with increase in speed; appropriately increasing gear pair mesh damping ratio and meshing stiffness is helpful to reduce the amplitude of the maximum torsional vibration point of the load-bearing gear pair; the study results can provide a technical support for structural design, dynamic analysis and gearshift application of two-gear pair AMT of pure electric vehicle.
宋强,孙丹婷,章伟. 两挡AMT斜齿轮弯扭轴耦合非线性振动特性分析[J]. 振动与冲击, 2021, 40(15): 18-25.
SONG Qiang, SUN Danting, ZHANG Wei. Analysis of bending-torsion-axis coupled nonlinear vibration characteristics of a two-gear pair AMT helical gear system. JOURNAL OF VIBRATION AND SHOCK, 2021, 40(15): 18-25.
[1]王建军,李其汉,李润方.齿轮系统非线性振动研究进展[J].力学进展,2005,35(1):37-51.
WANG Jianjun, LI Qihan, LI Runfang. Research advances for nonlinear vibration of gear trasmission systems[J]. Advances in Mechanics,2005,35(1):37-51.
[2]HAN L,XU L X,QI H J. Influences of friction and mesh misalignment on time-varying mesh stiffness of helical gears[J].Journal of Mechanical Science and Technology,2017,31(7):3121-3130.
[3]LIU C Z, QIN D T, WEI J, et al. Investigation of nonlinear characteristics of the motor-gear transmission system by trajectory-based stability preserving dimension reduction methodology[J].Nonlinear Dynamics,2018,94:1835-1850.
[4]OUYANG T C, SU Z X, LI S Y, et al. Experimental and numerical investigations on dynamic characteristics of gear-roller-bearing system[J]. Mechanism and Machine Theory,2019,140:730-746.
[5]杜进辅,王峥嵘,刘凯,等.纯电动汽车高速斜齿轮传动振动特性分析[J].中国机械工程,2020,31(15):1808-1814.
DU Jinfu, WANG Zhengrong, LIU Kai, et al. Analysis on vibration characteristics of high-speed helical gear transmission for pure electric vehicles [J]. China Mechanical Engineering,2020,31(15):1808-1814.
[6]任朝晖,谢吉祥,周世华,等.斜齿轮-转子-轴承弯扭轴耦合振动特性分析[J].机械工程学报,2015,51(15):75-89.
REN Zhaohui, XIE Jixiang, ZHOU Shihua, et al. Vibration characteristic analysis of helical gear-rotor-bearing system with coupled lateral-torsional-axial[J].Journal of Mechanical Engineering,2015,51(15):75-89.
[7]魏静,赖育彬,秦大同,等.齿廓修形斜齿轮副啮合刚度解析计算模型[J].振动与冲击,2018,37(10):94-101.
WEI Jing, LAI Yubin, QIN Datong, et al. Analytical model of the mesh stiffness of helical gear pair after tooth profile modification[J]. Journal of Vibration and Shock,2018,37 (10)94-101.
[8]LIU J W, LIU J P, SHU X B, et al. An efficient multibody dynamic model of three-dimensional meshing contacts in helical gear-s-haft system and its solution[J]. Mechanism and Machine Theory,2019,142:103607.
[9]林腾蛟,郭松龄,赵子瑞,等.裂纹故障对斜齿轮时变啮合刚度及振动响应的影响分析[J].振动与冲击,2019,38(16):29-36.
LIN Tengjiao, GUO Songling, ZHAO Zirui, et al. Influence of crack faults on time-varying mesh stiffness and vibration response of helical gears[J]. Journal of Vibration and Shock,2019,38(16):29-36.
[10]马辉,王奇斌,黄婧,等.不同自由度耦合斜齿轮转子系统的振动特性[J].振动.测试与诊断,2014,34(4):650-657.
MA Hui, WANG Qibin, HUANG Jing, et al. Vibration characteristics analysis of a helical gear rotor system considering different degrees of freedom coupling[J]. Journal of Vibration, Measurement & Diagnosis,2014,34(4):650-657.
[11]张建州.变速器拍击动力学分析及实验研究[D].重庆:重庆大学,2015.
[12]周云山,金红光.多种动载荷激励下变速器箱体的动态响应分析[J].机械传动,2015,39(8):122-125.
ZHOU Yunshan, JIN Hongguang. Dynamic response analysis of gearbox housing under the multi-source dynamic excitation[J]. Journal of Mechanical Transmission, 2015, 39(8):122-125.
[13]林何,王三民,董金城.内、外啮合刚度激励下人字齿行星齿轮传动振动特性[J].西北工业大学学报,2016,34(5):893-899.
LIN He, WANG Sanmin, DONG Jincheng. Vibration characteristics of herringbone planetary gear train with internal and external meshing stiffness excitation[J]. Journal of Northwestern Polytechnical University,2016,34(5):893-899.
[14]程联社,陈润霖.斜齿轮系统多自由度耦合模型及非线性因素表征[J].机械与电子,2014(6):57-60.
CHENG Lianshe, CHEN Runlin. Helical gears bending-torsion-shaft coupling model and characterization of nonlinear factors[J]. Machinery & Electronics,2014(6):57-60.
[15]秦保庆. 基于非线性动力学的纯电动汽车AMT换挡过程研究[D]. 北京:北京理工大学, 2019.
[16]MO W C,JIAO Y H,CHEN Z B. Dynamic analysis of helical gears with sliding friction and gear errors[J].IEEE Access, 2018,6:60467-60477.
[17]SONG Q, SUI P Y. Nonlinear dynamic coupling analysis on gear system of automated mechanical transmission[C]∥3rd International Conference on Material Engineering and Application. Shanghai:ICMEA,2016.
[18]沈岗,向东,牟鹏,等.增速传动系统齿轮拍击振动特性研究[J].振动与冲击,2015,34(7):76-80.
SHEN Gang, XIANG Dong, MOU Peng, et al. Vibration characteristics of gear rattling in speed increasing transmission system[J]. Journal of Vibration and Shock,2015,34(7):76-80.
