드라이브 ㆍ 컨트롤 (Journal of Drive and Control)

  • 제14권1호
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  • Pages.14-22
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  • 2017
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  • 2671-7972(pISSN)
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  • 2671-7980(eISSN)
유공압건설기계학회 (The Korean Society for Fluid Power and Construction Equipment)
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CFD를 이용한 EPPR 밸브 유동력 특성 분석 및 시뮬레이션

Simulation of EPPR Valve Flow Force Characteristic using CFD Analysis

  • 투고 : 2016.11.29
  • 심사 : 2017.02.02
  • 발행 : 2017.03.01
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초록

Flow force is the additional unbalanced force acting on the valve spool by fluid flow, excluding the static pressure force that is offset on the spool land wall at the same magnitude. When designing the valve spool, it is assumed that the same average value of static pressure is applied to the inlet and outlet spool land wall in one chamber. However, the high velocity of the fluid flow by the inlet or outlet metering orifice creates unbalanced pressure distribution and generates additional force in the opposite direction to that of the solenoid attraction force. This flow force has a negative effect on the control performance of the EPPR valve, which needs to develop uniform output pressure along the entire spool control range. In this study, we developed a 3D model of the EPPR valve and conducted flow force characteristic analysis using CFD S/W (ANSYS FLUENT). The alleviated flow force model was derived by adjusting the design parameters of the spool notch.

키워드

참고문헌

  1. W. G. Shin, H. Y. Choi, H. P. Shin and E. J. Moon, "Flow Force Compensation by Stepped Spool Valve", J. of the Korean Society for Precision Engineering, Vol.20, No.6, pp. 145-150, 2003.
  2. M. G. Cho and H. J. Yang, "A Study on the Hydraulic Characteristic of EPPR Valve for Forklift", Graduate school of Korea Polytechnic University, Master's degree thesis, 2011.
  3. J. H. Yoon and K. K. Ahn, "Optimizations of Design Parameters of a EPPR Valve Solenoid using Artificial Neural Network", J. of the Korea Fluid Power Systems Society, pp. 7-12, 2016.6.
  4. E. Lisowski, "Three dimensional CFD analysis and experimental test of flow force acting on the spool of solenoid operated directional control valve", J. of Energy Conversion and Management, Vol.70, pp. 220-229, 2013. https://doi.org/10.1016/j.enconman.2013.02.016
  5. I. Y. Lee, "Hydraulic Engineering", Mun Un Dang, pp. 210-219, 2012.
  6. R. N. Clark, "Compensation of Steady-State Flow Forces in Spool-Type Hydraulic Valves", Trans. ASME, Vol.79, No.8, pp. 1784-1788, 1957.
  7. S. N. Yoon, J. S. Ryu and B. K. Ahn "Understanding of the Proportional Solenoid Characteristics", J. of the Korean Society of Mechanical Engineers, Vol.9, No.3, pp. 76-85, 2005.
  8. ANSYS/Fluent: Users guide, 13th ed.; 2011.
  9. J. F. Blackburn, G. Reethof and J. L. Shearer, "Fluid Power Control", The M.I.T. Press, 1960.

피인용 문헌

  1. Independent Metering Valve: A Review of Advances in Hydraulic Machinery vol.17, pp.4, 2017, https://doi.org/10.7839/ksfc.2020.17.4.054
  2. 변탄성 스프링을 이용한 고정밀 직동형 릴리프 밸브 vol.17, pp.4, 2017, https://doi.org/10.7839/ksfc.2020.17.4.087