|
|
Modified practical approximate method for testing source flow of piston pump |
SONG Yue-chao, XU Bing, YANG Hua-yong, ZHANG Jun-hui |
State Key Laboratory of Fluid Power and Transmission and Control, Zhejiang University, Hangzhou 310027, China |
|
|
Abstract A modified practical approximate method for the flow ripple measurement was proposed, in order to solve the problem that the test accuracy of the source flow of pump with complicated discharge pipe was low with the current method. A finite element model of test system utilizing practical approximate method was built based on the three-dimensional flow field of the axial piston pump, reference pipe and loading valve. The simulation accuracy of the pipe pressure is more than 90%. Based on the validated finite element model and dynamic boundary condition, the characteristic parameters of the complicated pump discharge pipe were obtained. The pump source impedance calculated by the proposed method was improved. Compared with the ISO secondary source method, the amplitude and minimum of the measured flow ripple of the proposed method was satisfying. Therefore, the modified practical approximate method can be used to test the source flow ripple of the hydraulic pump with complicated discharge pipe.
|
Published: 01 February 2014
|
|
改进的柱塞泵流量脉动“实用近似”测试法
针对现有“实用近似”法测试带有复杂出口管道液压泵的流量脉动精度低的问题,提出一种改进的柱塞泵流量脉动“实用近似”测试法.基于柱塞泵、参考管道和加载阀三维流场,建立“实用近似”法测试系统的有限元模型,该模型对参考管道压力信号仿真精度大于90%;采用该有限元模型和动边界理论获得柱塞泵复杂出口管道特征参数,提高“实用近似”法对泵源阻抗估算精度.对比改进的“实用近似”法和ISO“二次源”法测试的泵源流量脉动,结果表明,脉动幅值和最小流量值基本相同,因此,改进的“实用近似”法适于测试带有复杂出口管道的柱塞泵流量脉动.
|
|
[1] 马吉恩. 轴向柱塞泵流量脉动及配流盘优化设计研究[D]. 杭州:浙江大学, 2009: 12-36.
MA Ji-en. Study on flow ripple and valve plate optimization of axial piston pump[D]. Hangzhou: Zhejiang University, 2009: 12-36.
[2] BOWNS D E, EDGE K A, McCANDLISH D. Factors affecting the choice of a standard method for the determination of pump pressure ripple[C]∥MechE Conference Quiet Oil Hydraulic Systems. London UK: [s. n.]. 1980: 141-148.
[3] EDGE K A, WING T J. The measurement of the fluid borne pressure ripple characteristics of hydraulic components [J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 1983, 197(4): 247-254.
[4] EDGE K A, JOHNSTON D N. The secondary source method for the measurement of pump pressure ripple characteristics 1. Description of method [J]. Proceedings of the Institution of Mechanical Engineers Part A-journal of Power and Energy, 1990, 204 (1): 33-40.
[5] EDGE K A, JOHNSTON D N. The secondary source method for the measurement of pump pressure ripple characteristics 2. Experimental results [J]. Proceedings of the Institution of Mechanical Engineers Part A-journal of Power and Energy, 1990, 204 (1): 41-46.
[6] KOJIMA E, NAGAKURA H. Characteristics of fluid borne noise generated by fluid power pumps: 1st report, mechanism of generation of pressure pulsation in axial piston pump[J]. Bulletin of JSME, 1982, 199(25): 46-53.
[7] KOJIMA E. Experimental determining and theoretical predicting of source flow ripple generated by fluid power piston pumps[C]∥SAE International Off-Highway and Power plant Congress and Exposition. Milwaukee: SAE Special Publ. Topics in Hydraulics SP-1554, 2000: 73-82.
[8] PETTERSSON M, WEDDFELT K, PALMBERG J O. Methods of reducing flow ripple from fluid power piston pumps: a theoretical approach[J]. SAE Transactions, 1991, 100(2): 158-167.
[9] WEDDFELT K. Measurement of pump source characteristics by the two-microphone method [C]∥The Second Tampere International Conference on Fluid Power. Tampere Finland: [s. n.], 1991: 1-12.
[10] ERICSON L. Measurement system for hydrostatic pump flow pulsations[D]. Sweden: Linkpings Universitet, 2005: 56-82.
[11] JOHANSSON A. Design principles for noise reduction in hydraulic piston pumps-simulation, optimization and experimental verification[D]. Sweden: Linkpings Universitet, 2005: 31-52.
[12] 余经洪. 柱塞泵动态模型与降噪[D]. 上海:上海交通大学,1990: 41-92.
YU Jing-hong. Dynamic model and noise reduction of piston pump[D]. Shanghai: Shanghai Jiaotong University, 1990: 41-92.
[13] 盛敬超. 液压流体力学[M]. 北京:机械工业出版社, 1979: 102-135.
[14] ISO 10767-1-1996 Hydraulic fluid power-determination of pressure ripple levels generated in system and components part 1: precision method for pumps[S]. London: British Standards Institution, 1996.
[15] 徐兵,宋月超,杨华勇.复杂出口管道柱塞泵流量脉动测试原理研究[J].机械工程学报,2012.48(22): 162-167.
XU Bing, SONG Yue-chao, YANG Hua-yong. Investigation of Test principle of flow ripple generated by piston pump with complicated pipe [J]. Chinese Journal of Mechanical Engineering, 2012.48(22): 162-167. |
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
|
Shared |
|
|
|
|
|
Discussed |
|
|
|
|