Piezo actuators injector of common rail fuel injection system

• Autorzy: Kirichenko I. , Strilets O. , Koshovy M.

Warianty tytułu

P'iezoaktuator forsunki sistemy vpryska common rail

• Języki publikacji: EN

Abstrakty

EN

The problem of determination of expedience of the use of piezoelectric sensors in piezo actuators, connected with the scheme of DD-TR, is considered. The transitional characteristics and amplitude of output signal also is determinate.

RU

В статье рассматриваются вопросы целесообразности применения в пьезоэлектрических актуаторах пьезоэлементов, выполненных по схеме ДД- ТР. Определена переходная характеристика и амплитуда выходного сигнала.

Słowa kluczowe

EN

piezoelectric valve; electromagnetic valve; piezoelectric sensor; piezoelectric transformer; diesel engine; injection pressure; electromagnetic radiation; fuel injection system

• Wydawca: -
• Czasopismo: Teka Komisji Motoryzacji i Energetyki Rolnictwa
• Rocznik: 2012
• Tom: 12
• Numer: 3
• Opis fizyczny: p.62-67,fig.,ref.

Twórcy

autor

Kirichenko I.

• Volodymyr Dahl East Ukrainian National University, Lugansk, Ukraine

autor

Strilets O.

autor

Koshovy M.

Bibliografia

• 1. Koshovy M., Strilets O. 2010.: Piezo actuator. The Ukrainian patent № 54009. Bulletin № 20.
• 2. Koshovy M., Strilets O. 2008.: Control device of fuel injection systems. The Ukrainian patent № 34947. Bulletin № 16.
• 3. Sharapov V., Minaev I. , Bondarenco Y., T. Kysyl T., Musienko M., Rotte S., Chudaeva I. 2004.: Piezoelectric converter, p. 435. Cherkasy State Technological University. Sharapov V., Musienko M., Sharapova E. 2006: Piezoelectric sensors, p.632. The Moscow publishing house “Tehnosfera”.
• 4. Sharapov V., Sotula Z., Tuz V. 2008.: Dynamic characteristics of bimorph domain-dissipative converters. Bulletin of Cherkasy State Technological University №3.
• 5. Sharapov V., Bubley A. 2007.: The research of amplitude-frequency characteristics of disk piezoelectric transformers. Bulletin of Cherkasy State Technological University №3-4.
• 6. Strilets A. 2011.: Definition of an optimum arrangement of electrodes of piezo actuators injector. The journal “Electrical engineering and Electromechanics” № 4, the department “Electrical apparatus” NTU “KhPI”.
• 7. Derevyanko В. 2000.: Bosh fuel injection system, p.200. The Moscow publishing house “Petit”.
• 8. Munk E.C. 1965.: The Equivalent electrical circuit for radial modes of a piezoelectric ceramic disk with concentric electrodes, p. 170-189. Philips, Res. Repts. 20.
• 9. Gyunter G. 2004.: Diagnostics of diesel engines, p.176. The publishing house “Za rulyom”.
• 10. Litvinenko V. 1995.: Electrical equipment of cars.Diagnostics and elimination of malfunctions.
• 11. Kim, J. D., Nam, S. R. 1997.: Development of a micro-depth control system for an ultra-precision lathe using a piezoelectric actuator , Int. J. of Machine Tools and Manufacture, , Vo.37, No.4, p.495-500.
• 12. Shamoto E., Moriwaki T. 1997.: Development of a “walking drive” ultraprecision positioner, Precision Engineering,Vol.20, No.2, p.85-90.
• 13. Liu Y.T. 2006.: Nano-Positioning and Sensing Technologies. Encyclopedia of sensors, American Scientific Publishers, ISBN: 1-58883-062-4, Vol.6, Me-N, p.435-500.
• 14. Higuchi T., Watanabe M., Kudoh K. 1988.: Precise positioner utilizing rapid deformations of a piezo electric element, J. Jap. Soc. Prec. Eng.,vol. 54, no. 11, p. 75-80.
• 15. Liu Y. T., Wang C. W. 2002.: A self-moving precision positioning stage utilizing impact force of spring-mounted piezoelectric actuator,” Sensors and Actuators, A: Physical;102, Issues 1-2, p. 83-92.
• 16. Munk E.C. 1965.: The Equivalent electrical circuit for radial modes of a piezoelectric ceramic disk with concentric electrodes, p. 170-189. Philips, Res. Repts. 20.
• 17. Gyunter G. 2004.: Diagnostics of diesel engines, p.176. The publishing house “Za rulyom”.
• 18. Litvinenko V. 1995.: Electrical equipment of cars. Diagnostics and elimination of malfunctions.
• 19. Kim, J. D., Nam, S. R. 1997.: Development of a micro-depth control system for an ultra-precision lathe using a piezoelectric actuator , Int. J. of Machine Tools and Manufacture, , Vo.37, No.4, p.495-500.
• 20. Shamoto E., Moriwaki T. 1997.: Development of a “walking drive” ultraprecision positioner, Precision Engineering,Vol.20, No.2, p.85-90.
• 21. Liu Y. T. 2006.: Nano-Positioning and Sensing Technologies. Encyclopedia of sensors, American Scientific Publishers, ISBN: 1-58883-062-4, Vol.6, Me-N, p.435-500.
• 22. Higuchi T., Watanabe M., Kudoh K. 1988.: Precise positioner utilizing rapid deformations of a piezo electric element, J. Jap. Soc. Prec. Eng.,vol. 54, no. 11, p. 75-80.
• 23. Liu Y. T., Wang C. W. 2002.: A self-moving precision positioning stage utilizing impact force of spring-mounted piezoelectric actuator,” Sensors and Actuators, A: Physical;102, Issues 1-2, p. 83-92.
• 24. Kaluzhnyi G., Kovalenko A., Lyshtvan E. 2010.: Physical effects for constructing temperature sensors. TEKA. Commission of motorization and power industry in agriculture. Lublin, volume XC, p.95-104.
• 25. Magdalena Kachel-Jaubowska, Grzegorz Zajac. 2010.: Influence of rapeseed oil fuel temperature on energetic parameters of an engine. TEKA. Commission of motorization and power industry in agriculture. Lublin, volume XC, p.145-153.
• 26. Phakamach P., Akkaraphong C. 2004.: An optimal feedforward integral variable structure controller for the electrohydraulic position servo control systems, in Proc. IEEE Int. Conf. on Tencon, vol. 4, Nov 21- 24, p. 459–462.
• 27. Kouremenos D.T. 1999.: Development and validation of a detailed fuel injection system simulation model for diesel engines. SAE 1999-01- 0527.
• 28. Engja H., Aesoy V., Skarboe L.A. 1999.: Fuel injection System Design, Analysis and Testing Using Bond Graphs as an Efficient Modelling Tool, Conference paper.
• 29. Sonam Y., Kyungwoo L., Honghee K, 2004.: Development of the Pneumatic Valve with Birmorph Type Piezoelectric Actuator, 1st International Workshop on Piezoelectric Materials & Applications in Actuator, p.118.
• 30. Sonam Y., Jae-Seop R., Byung-Kyu A., Mi-Ran S., Chang-Seop K. 2005.: Optimal design of electromagnetic proportional solenoid using genetic algorithm, Proceeding of the 50th national conference on fluid power, , p.243-247.