Actuators (Sep 2021)

A Novel Design and Performance Evaluation Technique for a Spool-Actuated Pressure-Reducing Valve

  • Haroon Ahmad Khan,
  • So-Nam Yun,
  • Eun-A Jeong,
  • Jeong-Woo Park,
  • Byung-Il Choi

DOI
https://doi.org/10.3390/act10090232
Journal volume & issue
Vol. 10, no. 9
p. 232

Abstract

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Solenoid-actuated pressure-reducing valves are commonly used in hydraulic machinery. Most studies on solenoid-actuated pressure control devices are focused on the electrical input signals or on the control techniques for the solenoid valves, but no study has been done that determines the influence of the design parameters on the valve’s output. Before designing a controller, it is imperative to know the valve’s performance by determining the significance of each valve parameter. In this study, established physical laws from fluid dynamics and mechanics are used to build a model that is solved using the ODE 45 solver of Simulink in the time domain. The actuating force, up to 15 N, exerted on the spool and the inlet pressure, ranging from 50 to 80 bar, are obtained through experimentation. It is found that the output pressure fluctuates significantly if the outlet is blocked, while at the fully opened outlet condition, a flow rate of 12 (L/min) was obtained. A pin diameter of 2.15 mm enables us to vary the output pressure between 0 and 41 bar. We found that higher inlet pressure leads to lower output pressure as the outlet is opened. No linearization of the actual mathematical model is performed, which makes the study unique.

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