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Warianty tytułu
Języki publikacji
Abstrakty
The researches have been carried out, where the object has been the set of two friction couples: valve stem - valve guide and valve seat - seat insert. The camless driven valve has been common for each of such cases. The analyzed valve has been driven by magnetoelectrical drive. The speciał research stand has been elaborated and its scheme has been presented in the article. It has been measured the valve lift and valve acceleration, the impact force, the friction force, temperature values for valve guide and for seat insert, sound level during impacting on the stand. The aim of researches has been to determine the dynamic parameters, the friction force between valve stem and valve guide, the impact force for valve impacting seat insert vs. frequency and valve lift. The analyzed valves have mated with seat inserts and valve guides made of cast iron, in oil absence. The valves have been made of TiAl6Zr4Sn2Mo2 alloy. The researched friction couples have operated in temperature equal 293 K. The increase of frequency has resulted in small changes for values of lift and in greater changes of acceleration, during valve impact into its seat insert. The greatest values of impact force and acceleration have been for the small, middle and high values of valve lift, either. The ratio of impact force and valve acceleration has changed in thin bands. The friction force has decreased slightly with frequency increase and has decreased with valve lift increase. The sound level has increased with the frequency increase, and has not been dependent upon valve lift.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
439--445
Opis fizyczny
Bibliogr. 9 poz., rys.
Twórcy
autor
autor
- The Technical University of Lodz, The Chair of Precise Design Stefanowskiego Street 1/15, 90-924 Lodz, Poland tel: 042 631 22 50,fax: 042 631 22 52, ks670907@p.lodz.pl
Bibliografia
- [1] Boie, C., Kemper, H., Kather, L., Corde, G., Method for Controlling a Electromagnetic Actuator for Achieving a Gas Exchange Valve On a Reciprocating Internal Combustion Engine, US Patent 6340008, 2000.
- [2] Haskara, I., Mianzo, L., Kokotovic, V., Method of Controlling an Electromagnetic Valve Actuator, US Patent 6644253, 2001.
- [3] Ma, J., Schock, H., Carlson, U., Hoglund, A., Hedman, M., Analysis and Modeling of an Electronically Controlled Pneumatic Hydraulic Valve for Automotive Engine, SAE 2006-01-0042.
- [4] Schneider, L., Electromagnetic Valve Actuator with Mechanical End Position Clamp or Latch, US Patent 6267351, 2001.
- [5] Sturman, O., Hydraulic Actuator for an Internal Combustion Engine, US Patent 5638781, 1994.
- [6] Sun, Z., Cleary, D., Dynamics and Control of an Elctro-Hydraulic Fully Flexible Valve Actuation System, Preceedings of American Control Conference, Denver, Colorado, June, 2003.
- [7] Theobald, M., Lequesns, B., Henry, R., Control of Engine Load via Electromagnetic Valve Actuators, SAE 940816, 1994.
- [8] Wright, G., Schecter, N., Levin, M., Integrated Hydraulic System for Electrohydraulic Valvetrain and Hydraulically Assisted Turbocharger, US Patent 5375419, 1994.
- [9] Zbierski, K., Bezkrzywkowy magnetoelektryczny rozrząd czterosuwowego silnika spalinowego, Monografia, Wydawnictwo Politechniki Łódzkiej, Łódź 2007.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ7-0017-0097