Study on Vibration Analysis of High-speed Cylindrical Roller Bearing with Elastic Support

PDF(2398 KB)

Journal of Vibration and Shock ›› 2017, Vol. 36 ›› Issue (18) : 20-28.

SUN Xue1,2, DENG Sier2,3, CHEN Guoding1, ZHANG Wenhu1

Author information +

History +

Abstract

Based on dynamic analysis of rolling bearing, dynamic differential equations for high-speed cylindrical roller bearing with elastic support were established. Predict-correct Gear stiff(GSTIFF) integer algorithm with variable step was applied to solve the dynamic equations, and the influence of structural parameters of elastic ring support and working conditions on the vibration characteristics of cylindrical roller bearing was investigated. The results show: The inter-groove number, thickness circular beam and transition angle of elastic support have significantly effect on the vibration of bearings, but gap of groove has little effect on it. Choosing parameters of elastic support reasonably can reduce the radial vibration of rolling bearing effectively. In a certain range of load and revolving speed, elastic ring can effectively decrease the vibration of bearing and elastic support with lesser inter-grooves can enlarge its impact-absorb range of load and speed.

Key words

Elastic support / Bearing dynamics / High-speed cylindrical roller bearing / Vibration characteristic

Cite this article

EndNote

Ris (Procite)

Bibtex

Download Citations

SUN Xue1,2, DENG Sier2,3, CHEN Guoding1, ZHANG Wenhu1 . Study on Vibration Analysis of High-speed Cylindrical Roller Bearing with Elastic Support[J]. Journal of Vibration and Shock, 2017, 36(18): 20-28

References

[1] 马纯, 刘春浩, 赵联春. 滚动轴承的结构振动[J]. 哈尔滨轴承, 2003, 24(2):17-22.
MAChun, LIU Chunhao, ZHAOLian chun. Vibration of rolling bearing on structure[J]. Journal of Harbin Bearing, 2003, 24(2):17-22(in Chinese).
[2] SHARMA A, AMARNATH M, KANKAR P K. Effect    of varying the number of rollers on dynamics of a cylindrical roller bearing[C]// ASME 2014 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2014: V008T11A067-V008T11A067.
[3] ALEXANDRE Leblanc, DANIEL Nelias, CYRIL Defaye. Nonlinear dynamic analysis of cylindrical roller bearing with flexible rings[J]. Journal of sound and vibration, 2009,325:145-160.
[4] CHEN Long, XIA Xintao, ZHENG Haotian, et al..Chaotic Dynamics of Cage Behavior in a High-Speed Cylindrical Roller Bearing[J]. Shock & Vibration, 2016,3:1-12.
[5] NAKAI M, YOKOI M. Squealing of cylindrical roller bearing[J]. Transactions of the Japan Society of Mechanical Engineers C, 1990, 56(525):1244-1252.
[6] Elmidany T, Hedia H, Kohail A, et tl. Optimal interference in radial cylindrical roller bearings[J]. Journal of Engineering and Applied Scince, 2007, 54(2):189-204
[7] Barabas S, Fota A. Analysis of Hollow Rollers Implementation in Flexible Manufacturing of Large Bearings[J]. World Academy of Science Engineering & Technology, 2011(80):512.
[8] 鄢闯, 杨霞. 基于不同修形曲线的圆柱滚子振动特性分析[J]. 机械设计与研究，2016,32(2):89-96.
YAN Chuang, YANG Xia. Vibration Characteristics Analysis of Cylindrical Roller Bearings Based on Different Modification Generatrix[J]. Machine Design and Research, 2016,32(2):89-96(in Chinese).
[9] Byoung-Hoo Rho, Dae-Gon Kim, Kyung-Woong Kim. A Noise Analysis of Cylindrical Roller Bearings Operating Under Zero External Load[J]. Tribology Transactions, 2005, 48(2):238-244.
[10] BAN J E, RHO B H, KIM K W. A study on the sound of roller bearings operating under radial load[J]. Tribology International, 2007, 40(1):21-28.
[11] SERRATO R, MARU M M, PADOVESE L R. Effect of lubricant viscosity grade on mechanical vibration of roller bearings[J]. Tribology International, 2007, 40(8):1270-1275.
[12] LEBLANC A, NELIAS D, DEFAYE C. Nonlinear dynamic analysis of cylindrical roller bearing with flexible rings[J]. Journal of Sound & Vibration, 2009, 325(1–2):145-160.
[13] BERGER THOMAS. Cold run noise: Hoot-noise low-temperature characteristics of special lubricants and noise development in roller bearings[J]. VDI Berichte, 2006, 1942: 471-484.
[14] WANG Fengtao, JING Minqing, YI Jun et al. Dynamic modelling for vibration analysis of a cylindrical roller bearing due to localized defects on raceways[J]. Proceedings of the Institution of Mechanical Engineers Part K Journal of Multi-body Dynamics, 2014, 229(1):39-64.
[15] SINGH S, KÖPKE U G, HOWARD C Q, et al. Analyses of contact forces and vibration response for a defective rolling element bearing using an explicit dynamics finite element model[J]. Journal of Sound & Vibration, 2014, 333(21):5356-5377.
[16] 刘静, 邵毅敏, 秦晓猛,等. 基于非理想Hertz线接触特性的圆柱滚子轴承局部故障动力学建模[J]. 机械工程学报, 2014, 50(01):91-97.
   LIU Jing, SHAO Yimin, QIN Xiaomeng, ZHOU Jianji. Dynamic modeling on localized defect of cylindrical roller bearing based on non-Hertz line contact characteristics[J]. Journal of mechanical engineering, 2014, 50(1): 91-97(in Chinese).
[17] 彭超英, 高燕伟. 弹性支承结构用于高速纺纱锭子的减振与降噪[J]. 振动与冲击, 1997(3):70-72.
   PENG Chaoying, GAO Yanwei. Vibration and noise reduction of high speed spinning spindle on spring support[J]. Journal of vibration and shock, 1997, 16(3):70-72 (in Chinese).
[18] 邓四二, 闫亚超, 王燕霜,等. 弹性支承下的双半内圈角接触球轴承振动分析[J]. 航空动力学报, 2013, 28(2):241-251.
DENG Sier, YAN Yachao, WANG Yanshuang, et al. Vibration analysis of two-piece inner ring angular contact ball bearing with elastic support[J]. Journal of Aerospace Power, 2013, 28(2):241-249(in Chinese).
[19] 萧允徽，张来仪.结构力学I[M], 机械工业出版社, 北京: 2013
   XIAO Yunhui, ZHANG Laiyi. Structural mechanics I[M], China Matchine Press, Being: 2013(in Chinese).
[20] ZHANG Wenhu, DENG Sier, CHEN Guoding, et al. Study on the impact of roller convexity excursion of high-speed cylindrical roller bearing on roller's dynamic characteristics[J]. Mechanism & Machine Theory, 2016, 103:21-39.
[21] 邓四二, 贾群义. 滚动轴承设计原理[M]. 北京: 中国标准出版社, 2014.
     DENG Sier, JIA Qunyi. Rolling bearing design principle[M]. Beijing: China Standards Press, 2014(in Chinese).
[22] JB/T 5314-1991, 滚动轴承振动(加速度)测量方法[S].北京：机械科学研究院, 1991
JB/T 5314-1991, Rolling bearing vibration measuring method[S]. Beijing: Academy of Machinery Science and Technology, 1991(in Chinese)