Journal of Drive and Control (드라이브 ㆍ 컨트롤)

The Korean Society for Fluid Power and Construction Equipment (유공압건설기계학회)
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Simulation Analysis for the Development of 3 Stage IMV

양방향 3단 IMV 개발을 위한 시뮬레이션 해석

  • Huh, Jun Young (School of Mechatronic Engineering, Korea University of Technology and Education)
  • Received : 2020.05.07
  • Accepted : 2020.05.27
  • Published : 2020.06.01
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Abstract

There are two types of IMV for MCV, the spool type and the poppet type. The spool type is used in the existing excavator MCV and easily meets large-capacity flow conditions, but has a flow force problem which affects the spool control. The poppet type stably blocks the flow and has excellent rapid response. However, the larger the capacity, the larger the diameter of the poppet needed, requiring a strong spring to withstand the oil pressure. In this study, a bi-directional three-stage IMV for MCV that can be used in medium and large hydraulic excavators was proposed. This is a poppet type, enabling bi-directional flow control and resolves the problem of proportional solenoid suction force limitation. To investigate the validity of the proposed valve, the system was mathematically modeled and the static and dynamic characteristics were investigated through the simulation using commercial software. It has been concluded that the reverse flow is possible in a regeneration circuit and that the proposed IMV can be used to perform various excavation modes.

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References

  1. I. Y. Lee, Hydraulic Engineering, Munundang Publishing Co., Seoul, 2012.
  2. G. H. Jung, "Static Analysis of Dedicated Proportional Flow Control Valve for IMV", Journal of Drive and Control, Vol.15, No.4, pp.39-47, 2018. https://doi.org/10.7839/KSFC.2018.15.4.039
  3. G. H. Jung, "Liner Analysis of IMV Proportional Flow Control Valve Static Characteristics", Journal of Drive and Control, Vol.16, No.4, pp.56-64, 2019. https://doi.org/10.7839/KSFC.2019.16.4.056
  4. H. A. Khan and S.-N. Yun, "Modeling and Simulation of an EPPR Valve Coupled with a Spool Valve", Journal of Drive and Control, Vol.16, No.2, pp.30-35, 2019. https://doi.org/10.7839/ksfc.2019.16.2.030
  5. J. Y. Huh and G. H. Jung, "Basic Design for Development of IMV for MCV", Journal of Drive and Control, Vol.15, No.3, pp.49-56, 2018. https://doi.org/10.7839/KSFC.2018.15.3.049
  6. H. A. Khan, C. N. Kang and S. N. Yun, "A Study on the Development of Mathematical Model of Three-stage Flow Control Valve," Journal of Drive and Control, Vol.15, No.2, pp.38-45, 2018. https://doi.org/10.7839/KSFC.2018.15.2.038
  7. C. N. Kang et al., "Dynamic Characteristics of Electro-hydraulic Proportional Valve for an Independent Metering Valve of Excavator", Journal of Drive and Control, Vol.15, No.2, pp.46-51, 2018. https://doi.org/10.7839/KSFC.2018.15.2.046
  8. A. Shenouda, "Quasi-Static Hydraulic Control Systems and Energy Savings Potential Using Independent Metering Four-Valve Assembly Configuration", Doctoral Dissertation, Georgia Institute of Technology, 2006.
  9. H. E. Merritt, Hydraulic Control Systems, John Wiley & Sons, Inc., New York, 1967.