以发电机碳刷与转轴之间发生的摩擦振动为对象,研究这类特殊周向多点全周摩擦振动机理。根据碳刷工作原理,建立多点全周摩擦力计算模型,采用热弹性力学方法建立摩擦截面温度场和转子热弯曲计算模型,将热弯曲模型与转子振动有限元模型耦合求解振动响应。以某发电机为例进行分析,仿真分析和试验研究了碳刷轴全周摩擦振动特征。研究表明,发电机碳刷与转轴之间的多点全周摩擦会引发振动周期性波动和爬升,不稳定现象与不平衡力、碳刷-转轴不同心度和碳刷摩擦系数有关,可以通过精细动平衡、适当增大碳刷-转轴不同心度和减小碳刷摩擦系数来消除。
Abstract
Here, the vibration characteristics induced by full annular rub between carbon brushes and rotor in a generator were analyzed. According to carbon brushes working principle, a rub force model was set up. The rub cross-section temperature field and the rotor's thermal bending model were built based on the theory of thermoelasticity. The rotor thermal bending model was coupled with the rotor FE dynamic model, and the system vibration responses were computed with the coupled model. Vibration characteristics were analyzed with a generator rotor model. Results showed that the rub between carbon brushes and the rotor can cause the systems spiral or divergent unstable vibration. The effects of unbalance force, carbon brushesrotor non-concentricity and brushers friction coeficient on the sytem vibration were studied. It was shown that unstable vibration can be eliminated through using more refined dynamic balance, increasing carbon brushesrotor non-concentricity, or reducing brushers friction coeficient.
关键词
碳刷 /
摩擦 /
旋转机械
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Key words
carbon brush /
rub /
rotating machinery
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参考文献
[1] 褚福磊,汤晓瑛,唐云. 碰摩转子系统的稳定性[J].清华大学学报(自然科学版),2000,40(4):119-123
CHU Fulei, TANG Xiaoying, TANG Yun. Stability of a rub-impact rotor system[J]. Journal of Tsinghua University (Sci & Tech),2000,40(4):119-123
[2] Cai Wan, Chang Jian, Chao Kuang Chen. Chaos and bifurcation of a flexible rub-impact rotor supported by oil film bearings with nonlinear suspension[J]. Mechanism and Machine Theory, 2007(42):312-333
[3] 张雷克,马震岳. 不平衡磁拉力作用下水轮发电机组转子系统碰摩动力学分析[J]. 振动与冲击,2013,32(8):48-54
ZHANG Lei-ke, MA Zhen-yue. Dynamic analysis for rotor system with rub-impact of a hydraulic generating set under unbalanced magnetic pull[J]. Journal of Vibration and Shock, 2013,32(8):48-54
[4] Larsson B. Heat separation in frictional rotor-seal contact[J].ASME Journal of Tribology. 2003, 125(3):600-607
[5] Jerzy T Sawicki, Alberto Montilla,etc. Thermomechanical Behavior of Rotor with Rubbing[J]. International Journal of Rotating Machinery,2003,9(1):41-47
[6] Bachschmid N, Pennacchi P, Vania A. Thermally induced vibrations due to rub in real rotors [J].Journal of Sound and Vibration, 2007, 299(4-5), 683-719
[7] 杨建刚,黄葆华,高伟. 摩擦热冲击问题的建模、仿真与振动特性分析[J]. 中国电机工程学报,1999,19(6):68-73
Yang Jiangang, Guang Baohua, Gao wei. Modeling simulation and vibration analysis of rub-induced thermal impact problem[J]. Proceedings of the CSEE, 1999,19(6):68-73
[8] 黄葆华,杨建刚,高伟.摩擦热弯曲对转子稳定性的影响[J].振动工程学报,2001,14(1): 23-28
Huang Baohua, Yang Jiangang, Gao Wei. Influence of thermal bow on the stability of rubbing bearing-rotor system[J]. Journal of vibration engineering, 2001,14(1): 23-28
[9] J.J.Yu,P. Goldman, D.E. bently,etl. Rotor Seal experimental and analytical study on full annular rub[J]. Journal of engineering for gas turbines and power,2002,124:340-350
[10]赵建民,安志勇等. 北重330MW机组间隙性振动原因分析及处理[J].热力发电,2014,43(8):158-160
Zhao Jianmin, An Zhiyong, etc. Carbon deposition and rubbing of oil baffle in a 330MW unit turbine: reason analysis and treatment[J]. Thermal power generation, 2014,43(8):158-160
[11]赵智慧,刘立军.引进型300MW汽轮发电机组7号轴承振动分析[J].汽轮机技术,2007,49(3):228-229
Zhao Zhihui, Liu Lijun. Research of the No.7 bearing’s vibration of 300MW introduced turbine-generator unit[J]. Turbine technology, 2007,49(3):228-229
[12]宋光雄,杨涛等.汽轮机组轴颈碰摩故障分析与研究[J].汽轮机技术,2011,53(3):213-216
Song Guangxiong, Yang Tao, etc. Analysis and study on bearing location rub-impact fault of turbine generator units[J]. Turbine technology, 2011,53(3):213-216
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