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齿轮泵主从动齿轮腔压力分布的非对称性分析 被引量:6

Asymmetric Analysis of Pressure Distribution in the Gear Pump's Master-Slave Gear Cavity
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摘要 在解析齿轮泵工作腔流场分布特点的基础上,主要研究了主从动齿轮腔压力分布非对称现象.以某型号高压齿轮泵为研究对象,通过分析齿轮轴挠度与径向间隙的关系和建立过渡区压力非线性微分方程,对比相应位置的压力值得出主从动齿轮腔压力非对称分布的结论.试验数据表明:额定工况下试验数值与理论值误差小于5.0%,过渡区压力相差4.17 MPa,高压槽末端压力相差1.55 MPa.该研究为高压齿轮泵工作腔压力分布非对称解析及侧板倾覆力矩计算提供了理论基础. Based on the distribution features of a gear pump' s flow field, the asymmetric pressure distribution in the master-slave gear cavity was analyzed. Taking a certain type high-pressure gear pump as the research object, the relationship between the radial clearance and the deflection of gear shaft was analyzed. The nonlinear differential equation of pressure in the transition zone was established. Comparing the corresponding position pressures of both master and slave gear side cavities, it could be concluded that the pressure distribution of a gear pump' s master-slave gear cavity is asymmetric. The experimental data showed that the corresponding point pressure value between the experimental and theoretical error is less than 5.0%. The master and slave pressure difference is 4. 17 MPa in the transition zone, and the pressure difference is 1.55 MPa at the end of high-pressure groove under the rated conditions. This study provides a theoretical basis on the asymmetric analysis of pressure distribution in the high-pressure gear pump' s gear cavity and on the calculation of floating end plates' overturning torque.
作者 刘巍 王安麟 单学文 张小路
机构地区 同济大学机械与能源工程学院
出处 《东北大学学报(自然科学版)》 EI CAS CSCD 北大核心 2015年第9期1327-1330,1336,共5页 Journal of Northeastern University(Natural Science)
基金 工业和信息化部2011年科技成果转化项目-工程机械用高压柱塞泵及液压马达传动装置产业化子项目(财办建[2011]30号)
关键词 齿轮泵 齿轮轴 非对称 侧板 倾覆力矩 gear pump gear shaft asymmetry end plate overturning torque
分类号 TH137.52 [机械工程—机械制造及自动化]
  • 相关文献

参考文献8

  • 1Dhar S, Andrea V. A novel CFD-axial motion coupled model for the axial balance of lateral bushings in external gear machines [ J ]. Simulation Modeling Practice and Theory,2012,26(8) :60 - 76.
  • 2Wang S, Sakurai H, Kasarekar A. The optimal design in external gear pumps and motors [ J ]. Mechatronics, 2011,16(5) :945 -952.
  • 3Mucchi E,D' Elia G,Dalpiaz G. Simulation of the running in process in external gear pumps and experimental verification [ J ]. Meccanica ,2012,47 (3) :621 - 637.
  • 4Baksi S. Dynamic stress analysis of an epicyclic gear pump [ D ]. Long Beach: California State University,2003.
  • 5Castilla R, Wojciechowski J, Gamez-Montero P J, et al. Analysis of the turbulence in the suction chamber of an external gear pump using time resolved particle image velocimetry [ J ]. Flow Measurement and Instrumentation, 2008,19 (6) : 377 - 384.
  • 6Erturk N,Vernet A, CastiUa R, et al. Experimental analysis of the flow dynamics in the suction chamber of an external gear pump [ J ]. International Journal of Mechanical Sciences,2011,53 (2) :135 - 144.
  • 7刘巍,王安麟,张小路,单学文,杨远禄.高压齿轮泵过渡区阻尼结构参数化[J].农业机械学报,2013,44(6):280-286. 被引量:8
  • 8王安麟,单学文,刘巍,张小路.全空化模型齿轮泵进口腔分析[J].机械设计,2013,30(9):33-36. 被引量:11

二级参考文献27

  • 1李玉龙,许泽银,徐强.齿轮泵补偿面设计的参数化研究[J].农业机械学报,2005,36(8):70-73. 被引量:18
  • 2Sujan Dhar, Andrea Vacca. A novel CFD-axial motion coupled model for the axial balance of lateral bushings in external gear machines[J]. Simulation Modelling Practice and Theory, 2012, 26:60 - 76.
  • 3Castilla R, Gutes M, Gamez-Montero P J, et al. Experimental study of the shaft motion in the journal bearing of a gear pump[ J ]. ASME Journal of Engineering for Gas Turbines and Power,2009,131 (9) :052502-1 -052502-9.
  • 4Hooke C J, Koc E. End plate balance in gear pumps[J]. Proc. IMchE, Part B: Journal of Engineering Manufacture, 1984, 198(1) :55 -60.
  • 5Castilla R,Wojciechowski J,Vernet A, et al. Analysis of the turbulence in the suction chamber of an external gear pump using time resolved particle image velocimetry[ J]. Flow Measurement and Instrumentation,2008,19 (6) :377 -384.
  • 6Frith R H, Scott W. Comparison of an external gear pump wear model with test data[J]. Wear,1996,196(l -2) :64-71.
  • 7Erturk N, Vernet A, Castilla R, et al. Experimental analysis of the flow dynamics in the suction chamber of an external gear pump [ J ]. International Journal of Mechanical Sciences, 2011,53 ( 2 ) : 135 - 144.
  • 8Shu Wang, Hisatoshi Sakurai, Aditya Kasarekar. The optimal design in external gear pumps and motors [ J 1. IEEE/ASME Transactions on Mechatronies, 2011 , 16 (5) :945 - 952.
  • 9Koc E, Hooke C J. An experimental investigation into the design and performance of hydrostatically loaded floating wear plates in gear pumps[J]. Wear, 1997,209(1 -2) :184-192.
  • 10Eaton M,Keogh P S,Edge K A.The modeling,prediction and experimental evaluation of gear pump meshing pressures with particular reference to aero-engine fuel pumps[J].Proceeding of the Institution of Mechanical Engineers Part Ⅰ-Journal of Systems and Control Engineering,2008,220 (5):365-379.

共引文献16

同被引文献55

引证文献6

二级引证文献19

东北大学学报(自然科学版)
2015年 第9期

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