• Title/Summary/Keyword: Bent-axis type piston pump

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A Study on Pressure Ripple Characteristics in Bent-Axis Type Oil Hydraulic Piston Pump (사축식 유압 피스톤 펌프의 압력 맥동 특성에 관한 연구)

  • Cho, I.S.;Shin, C.G.;Jung, J.Y.
    • Tribology and Lubricants
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    • v.27 no.4
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    • pp.218-223
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    • 2011
  • To improve the performance of a bent-axis type axial piston pump driven by the tapered pistons, it is necessary to know the pressure ripple characteristics. The purpose of this paper is to understand the effect on the pressure ripple characteristics and the prediction by comparing experimental and theoretical results. The simulation model of the bent-axis type axial piston pump is developed in the AMESim environment using the geometrical dimension and the driving mechanism of the piston pump. The results can be obtained to predict the performance characteristics of the bent-axis type axial piston pump.

Experimental Analysis to Behavior of Swivel Angle in Bent-axis type Oil Hydraulic Piston Pump for Heavy Vehicle (대형차량용 사축식 유압 피스톤 펌프의 경전각 거동에 따른 실험적 해석)

  • Beak, I.H.;Cho, I.S.;Jung, J.Y.;Oh, S.H.;Jung, S.H.;Jang, D.H.
    • Transactions of The Korea Fluid Power Systems Society
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    • v.7 no.2
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    • pp.13-18
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    • 2010
  • To improve the performance of the bent-axis type axial piston pump driven by the tapered piston, it is necessary to know the driving characteristics and mechanism of the tapered piston and the cylinder block. Since each piston not only rotates on its axis and reciprocates in the cylinder bore, but also revolves around the axis of the driving shaft, it is difficult to analyze the driving mechanism theoretically. The theoretical mechanism for the bent-axis type axial piston pump is studied by using the geometrical method. The driving range of the tapered piston is determined by theoretical equations. The experimental results show that the cylinder block is driven by one tapered piston in a limited range and the core parameters such as driving factor of the piston and the ahead delay angle influenced performance of the bent-axis type axial piston pump.

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A Study on Driving Range of Cylinder Block to Eccentricity Ratio of Disk in Bent axis Type Oil Hydraulic Piston Pump (사축식 유압 피스톤 펌프의 디스크 편심률에 따른 실린더블록 구동영역에 대한 연구)

  • Jung, J.Y.;Baek, I.H.;Cho, I.S.;Song, K.K.;Oh, S.H.;Jeong, Y.W.
    • Transactions of The Korea Fluid Power Systems Society
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    • v.5 no.2
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    • pp.1-7
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    • 2008
  • To improve the performance of the bent axis type axial piston pump driven by the tapered piston, it is necessary to know the driving characteristics and mechanism of the tapered piston and the cylinder block. Since each piston not only rotates on its axis and reciprocates in the cylinder bore, but also revolves around the axis of the driving shaft, it is difficult to analyze the driving mechanism theoretically. The theoretical mechanism far the bent axis type axial piston pump is studied by using the geometrical method. The driving range of the tapered piston is determined by theoretical equations. The results show that the cylinder block is driven by one tapered piston in a limited range and the core parameters such as driving factor of the piston and the ahead delay angle influenced performance of the bent axis type axial piston pump.

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Analysis on the Friction Losses of a Bent-Axis Type Hydraulic Piston Pump

  • Hong, Yeh-Sun;Doh, Yoon-Ho
    • Journal of Mechanical Science and Technology
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    • v.18 no.9
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    • pp.1668-1679
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    • 2004
  • The design of an axial piston pump for electro-hydrostatic transmission systems requires accurate information where and how much the internal friction and flow losses are produced. This study is particularly focused on the friction losses of a bent-axis type hydraulic piston pump, aiming at finding out which design factors influence its torque efficiency most significantly. To this end, the friction coefficients of the pump parts such as piston heads, spherical joints, shaft bearings, and valve plate were experimentally identified by a specially constructed tribometer. Applying the experimental data to the equations of motion for pistons as well as to the theoretical friction models for the pump parts, the friction torques produced by them were computed. The accuracy of the computed results was confirmed by the comparison with the practical input torque of the pump. In this paper, it is shown that the viscous friction forces on the valve plate and input shaft bearing are the primary source of the friction losses of the bent-axis type pump, while the friction forces and moments on the piston are of little significance.

The analysis of driving mechanism of rods in bent-axis-type axial piston pump (사축식 Axial Piston Pump의 Rod 구동 메카니즘 해석)

  • 김종기;정재연
    • Proceedings of the Korean Society of Tribologists and Lubrication Engineers Conference
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    • 1997.10a
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    • pp.76-85
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    • 1997
  • Recently, bent-axis-type axial piston pumps drived by rod being in extensively used in the world, because of simple design, lightweight, effective cost. So, to guarantee the quality of bent-axis-type axial piston pumps drived by rods, it is necessary to know chracteristics of the forces applied to rods and the driving mechanism of rods. But, as they perform both reciprocating and spinning motions, it is difficult to understand driving mechanism. In this paper, I explained the theoretical driving mechanisms of cylinder block drived by rods through geometric method and the characteristics of the forces applied to them.

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A Study on the Driving of Rods in Hydraulic Bent-axis-type Axial Piston Pump Part 1: The Theoretical Analysis of Driving Mechanism (유압 사축식 액셜 피스톤 펌프의 로드 구동에 관한 연구 제1보: 구동 메카니즘의 이론해석)

  • 김종기;오석형;정재연
    • Tribology and Lubricants
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    • v.14 no.4
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    • pp.51-57
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    • 1998
  • Recently, bent-axis-type axial piston pumps driven by rods being in extensively used in the world, because of simple design, lightweight, effective cost. So, to guarantee the quality of bent-axis-type axial piston pumps driven by rods, it is necessary to know characteristics of the driving mechanism of rods. But, as they perform both reciprocating and spinning motions, it is difficult to understand driving mechanism. In this paper, I studied the theoretical driving mechanisms of cylinder block driven by rods through geometric method. I found that the cylinder block was driven by one rod in limited area and the driving area was changed by rod's tilting angle and cylinder block's swivel angle.

Analysis on the frictional loss of a bent-axis type hydraulic piston pump (사축식 유압 펌프의 마찰손실 해석)

  • Hong, Yeh-Sun;Doh, Yoon-Ho
    • Proceedings of the KSME Conference
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    • 2003.11a
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    • pp.1548-1553
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    • 2003
  • The design of a high speed axial piston pump for hydrostatic transmission systems requires specific understanding on where and how much its internal frictional and flow losses are generated. In this study, the frictional loss of a bentaxis type hydraulic piston pump was analyzed in order to find out which design factors influence the mechanical efficiency most significantly. To this end, the friction coefficients of the sliding components were experimentally identified by a specially constructed tribometer. Applying them to the three-dimensional dynamic model of the pump presented by Doh and Hong [1], the friction torques generated by the sliding components such as piston head , bearing and valve plate were theoretically computed. The accuracy of the computed results was confirmed by the comparison with the experimentally measured mechanical efficiency. In this paper, it is shown that the viscous friction on the valve plate and the drive shaft bearing is the primary sources of the frictional losses of the bent-axis type pump, while the friction forces on the piston contribute to them only slightly.

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Analysis on the Relationships Between the Valve Plate Geometry and the Housing Vibration of a Bent-Axis Type Hydraulic Piston Pump (사축식 유압 피스톤 펌프의 밸브 플레이트 형상과 하우징 진동간 상관관계에 대한 해석)

  • Kim Sung-Hun;Hong Yeh-Sun
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.30 no.1 s.244
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    • pp.52-59
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    • 2006
  • The vibration of hydraulic piston pumps is induced by the periodically changing cylinder chamber pressure whose waveform is significantly influenced by valve plate geometry. In this study, the force input to the housing of a bent-axis type hydraulic piston pump was computed by deriving the dynamic equations of its piston and cylinder barrel. The vibration intensity of the pump was represented by the acceleration amplitude of its housing. In order to comparatively evaluate the influence of valve plate geometry on the vibration of pump housing, two different types of valve plate were tested. The computed results showed good agreement with the experimental data, indicating that the vibration acceleration of pump housing is rather dependent on the variation amplitude of balance coefficient than the changing slope or overshoot of cylinder chamber pressure. It was also confirmed that the design effect of valve plates could be directly examined out by monitoring the vibration acceleration of pump housing.

Simulation on Hydraulic Control Characteristics of Regulator System in Bent-Axis Type Piston Pump

  • Kim, Jong Ki;Oh, Seok Hyung;Jung, Jae Youn
    • KSTLE International Journal
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    • v.1 no.2
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    • pp.101-106
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    • 2000
  • Variable displacement axial piston pumps are widely used for raising the energy level of the fluid in hydraulic systems. And the regulator is the device which regulates the discharge flow of the piston pump by controlling the swivel angle. The regulator receives the hydraulic pilot pressure and controls the pump output flow depending on the machine load and engine speed. This work deals with constant power control (horsepower control) in the design of a regulator by using a bent-axis type piston pump. In order to effectively use engine power, we must keep the horsepower from the engine to the pump constant. Therefore the regulator operates the constant power control. As a result, optimum power usage is obtained by accurately following the power hyperbola. This study focused on developing a simulation model of a regulator. First, the governing equations of the regulator are derived, and analysis is performed by computer simulation, which can identify significant parameters of regulator. As a result, the variation of the swivel angle, flow rate, hyperbolic curve, inner leakage and responsibility are simulated, and significant parameters of a regulator are identified.

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A study on lubrication characteristics between piston ring and cylinder bore of bent-axis type piston pump for vehicle (차량용 사축식 피스톤 펌프의 피스톤 링과 실린더 보어간의 윤활특성에 관한 연구)

  • Jung, Jae-Youn;Cho, Ihn-Sung;Song, Kyu-Keun;Baek, Il-Hyun;Oh, Seok-Hyung;Jung, Seok-Hoon;Jeong, Yong-Wook
    • Tribology and Lubricants
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    • v.23 no.5
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    • pp.201-206
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    • 2007
  • The bent-axis type piston pump which is driven by the piston rod works on the way that the piston rod drives the cylinder block, so the taper angle of the piston rod and the swivel angle between the cylinder block and the shaft are very important design factors. If the above factors cannot satisfy the conditions of optimum design, the friction loss between the cylinder bore and the piston increases, and the pump can even fail to work under conditions of severe friction and wear. Since the piston reciprocates in the cylinder bore with high velocity, and at the same time it rotates on its own axis and revolves on the center of the cylinder block, the decrease of the volume efficiency generated on account of the leakage between the cylinder bore and the piston. Therefore, to prevent this case, the piston ring is designed at the end of the piston, and the friction characteristics between the piston ring and the cylinder bore are in need of research due to its great influence on the performance of piston pump. Thus, in this paper, the elastic hydraulic oil's lubrication analyses of the film thickness, the pressure distribution, and the friction force, and so on, have been performed, and the lubrication characteristics between the piston ring and the cylinder bore are explored by the results of the numerical analysis, and it is contributed to realize the higher efficiency and the more advanced performance of the bent-axis type piston pump.