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浙江大学学报(工学版)
JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE)
    
Slipper optimization model based on equilibrium coefficient
XU Bing, CHAO Qun, ZHANG Jun-hui, LI Ying
State Key Laboratory of Fluid Power Transmission and Control,Zhejiang University, Hangzhou 310027, China
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Abstract  

A slipper optimization model based on equilibrium coefficient was proposed in order to solve the problem of heavy wear and tear of slippers in an axial piston pump or motor. The impact of hydrodynamic effect, squeezing effect and hot-wedge effect were stuided by introducing equilibrium coefficient in the force balance equation. As for flow continuity equation,the impact of laminar flow initial segment effect of slipper orifice and local resistance loss caused by import contraction and expansion were stuided by introducing flow correction coefficient. Slipper optimization model provided mathematical expression of slipper’s equilibrium coefficient and flow correction coefficient.The value of slipper’s equilibrium coefficient was obtained by simulation procedure in the practical optimization process. The main dimensions of slipper could be verified and optimized.The slipper optimization model was validated by experiments, results showed that the problem of heavy wear and tear of slippers was solved successfully with the optimized model,resulting in a decrease of 14 ℃ in temperature and an increase of 4.6% in total efficiency in axial piston motor.

Published: 01 June 2015
CLC:  TH 137  
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Cite this article:

XU Bing, CHAO Qun, ZHANG Jun-hui, LI Ying. Slipper optimization model based on equilibrium coefficient. JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE), 2015, 49(6): 1009-1014.

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http://www.zjujournals.com/eng/10.3785/j.issn.1008-973X.2015.06.002     OR     http://www.zjujournals.com/eng/Y2015/V49/I6/1009


基于平衡系数的滑靴优化模型

为了解决轴向柱塞泵或马达的滑靴在工作中磨损严重的问题,提出基于平衡系数的滑靴优化模型.通过在力平衡方程中引入平衡系数,研究滑靴的动压效应、挤压效应以及热楔效应对滑靴受力的影响.通过在流量连续性方程中引入流量修正系数,研究滑靴阻尼孔的层流初始段效应、进口收缩与扩大引起的局部阻力损失对滑靴泄漏量的影响.该模型可以给出滑靴平衡系数和流量修正系数的数学表达式.在实际优化过程中,通过程序计算得出滑靴的平衡系数,校核并优化滑靴的主要尺寸.通过实验验证滑靴优化模型的正确性,结果表明:该模型可以解决滑靴磨损严重的问题,马达的温升降低14 ℃,总效率提高4.6%.

[1] KOC E, HOOKE C J, LI K Y. Slipper balance in axial piston pumps and motors [J].Transctions of the ASME,1992,114(4): 766-772.
[2] HOOKE C J.The lubrication of slippers in axial piston pumps and motors: the effect of tilting couples [J].Proceedings of the Institution of Mechanical Engineers,Part C: Journal of Mechanical Engineering Science, 1989, 203(5): 343-350.
[3] KOC E,HOOKE C J.Investigation into the effects of orifice size,offset and overclamp ratio on the lubrication of slipper bearings [J]. Tribology International, 1996, 29(4): 299-305.
[4] KOC E,HOOKE C J.Considerations in the design of partially hydrostatic slipper bearings [J].Tribology International, 1997, 30(11): 815-823.
[5] 许耀铭.油膜理论与液压泵和马达的摩擦副设计[M].北京:机械工业出版社,1987: 25-27
[6] 孙毅,姜继海,刘成强.剩余压紧力条件下滑靴副的油膜特性及功耗[J].华南理工大学学报:自然科学版,2011,39(1): 111-116.
SUN Yi,JIANG Ji-hai,LIU Cheng-qiang.Oil film characteristics and power consumption of slipper pair under redundant pressing force [J].Journal of South China University of Technology: Natural Science Edition, 2011,39(1): 111-116.
[7] 刘洪,苑士华,彭曾雄. 轴向柱塞泵滑靴油膜动态仿真[J].北京理工大学学报,2011,31(11): 1282-1286.
LIU Hong,YUAN Shi-hua,PENG Zeng-xiong.Dynamic simula-tion of slipper bearing in axial pistion pumps [J]. Transactions of Beijing Institute of Technology, 2011, 31(11): 1282-1286.
[8] IVANTYSYN J,IVANTYSYNOVA M.Hydrostatic pumps and motors [M].India: Akademia Books International, 2001: 200-201.
[9] 徐兵,李迎兵,张斌,等.轴向柱塞泵滑靴副倾覆现象数值分析[J].机械工程学报,2010,46(20): 161-168.
XU Bing,LI Ying-bing,ZHANG Bin,et al.Numerical simulation of overturning phenomenon of axial piston pump slipper pair [J].Chinese Journal of Mechanical Engineering,2010,46(20): 161-168.
[10] WIECZOREK U,IVANTYSYNOVA M.CASPAR: a computer aided design tool for axial piston machines [C]∥ Proceedings of the Bath Workshop on Power Transmission and Motion Control PTMC, Bath: Professional Engineering Publishing,2000: 113-126
[11] HOOKE C J.The effects of centrifugal load and ball friction on the lubrication of slippers in axial piston pumps [C]∥ Proceedings of the 6th International Fluid Power Symposium,Section D, Cambridge: British Hydromechanics Research Association,1981: 179-191.
[12] 韩德才,周铁农,潘永阁.实际工况下滑靴油膜动特性的实验研究[J].燕山大学学报,1989,13(1): 35-38.
HAN De-cai,ZHOU Tie-nong,PAN Yong-ge.Experimental study on dynamical characteristics of oil film between slipper and swash plate under practical working conditions [J].Journal of Yanshan University,1989, 13(1): 35-38.
[13] 王瑞杰.轴向柱塞马达连杆滑靴与斜盘摩擦副烧损原因判断和改进[J].润滑与密封,1994,19(1): 40-47.
WANG Rui-jie.Judgement on the reason of burning loss of friction pair of slipping shoe and swashplate in axial plunger motor and investigation into its improvement [J]. Lubrication Engineering,1994,19(1): 40-47.
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