KIEE International Transaction on Electrical Machinery and Energy Conversion Systems

The Korean Institute of Electrical Engineers (대한전기학회)
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Empirical Design of an On and Off Type Solenoid Actuator For Valve Operation

  • Sung, Baek-Ju (Dept. of Industrial Technology, Korea Institute of machinery & Materials) ;
  • Lee, Eun-Woong (Dept. of Electrical Engineering, Chungnam National University) ;
  • Kim, Hyoung-Eui (Dept. of Industrial Technology, Korea Institute of machinery & Materials)
  • Published : 2004.06.01
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Abstract

Modern users demand that the on and off type solenoid actuator should be smaller, lighter in weight, lower in consumption power, and higher in response time. The complete design satisfying such requirements can be achieved when electromagnetic theories and empirical knowledge are combined. This paper presents various types of empirical coefficients essentially needed for optimal design of a solenoid actuator. The values of these empirical coefficients are obtained through extensive experiments over a great length of time for various kinds of solenoid actuators. We have developed a design program that is composed by combination of governing equations and empirical coefficients, and have also manufactured a prototype solenoid actuator based on the final results of the design program. The propriety of the design program and empirical coefficients have been proven by experiments.

Keywords

References

  1. C. Roters, 'Electro magnetic device', John Wiley & Sons, Inc, 1970
  2. B. J. Sung, E. W. Lee, H. E. Kim, 'Development of design Program for on and off type solenoid actuator', Proceedings of the KIEE Summer Annual Conference 2002(B), pp929-931, 2002. 7. 10
  3. B. S. Kang, S. N. Yun, B. J. Sung, H. E. Kim, 'Study on characteristics of high-speed magnet for PWM control', Annual Papers of Korea Institute of Machinery & Materials, Volume 27, pp141-pp151, 1997.12
  4. Hydraulic and Pneumatic Lab. of KIMM, 'Development of low consumption power type solenoid valve', KIMM-CSI Annual Report, 2001. 12
  5. H. Hayt, 'Engineering electromagnetics', Mc. Grawhill, 1986
  6. S. N. Yun, B. J. Sung, 'The study on characteristics for flow controlled force feedback type servo valve', Proceedings of the KSME Fall Annual Conference, 1999. 11. 6
  7. K. Ogata, 'Systemdynamics', Prentice Hall, 1998.1
  8. T. Kajima, 'Dynamic model of the plunger type solenoid at deenergizing state', IEEE Transactions on Magnetics, Vol.31, No.3, pp2315-2323, May 1995
  9. T. Kajima, S. Satoh, R. Sagawa, 'Development of high-speed solenoid valve', JIEE(Part C) Volume 60, No. 576, pp254-261, 1994. 8