Spring-loaded batcher

• Autorzy: Naginevičius V. , Kalisinskas D. , Adomavičius S.

Identyfikatory

DOI

10.20858/tp.2017.12.4.5

• Języki publikacji: EN

Abstrakty

EN

On the base of the analysis of the application of vibration mechanisms in the motor transport vehicles, considering the possibilities of fuel injection systems, the study presents survey of possibilities the usage of the devices micro-dosing and spraying apparatus, the construction and the principle of the operation of vibration-assisted spring-loaded batcher, the necessary for its functioning vibration operation forms and the dependences of measured fuel amount on the leakage chamber width and how it is related to vibration frequency and amplitude. The results of mathematical modeling and experimental analysis based on laser holographic interferometry are presented.

Słowa kluczowe

EN

batcher; spring vibration; transverse vibrations; vibration wave; vibration frequency

PL

dozownik; drganie sprężyny; drgania poprzeczne; drgania fali; częstotliwość drgań

• Wydawca: Wydawnictwo Politechniki Śląskiej
• Czasopismo: Transport Problems
• Rocznik: 2017
• Tom: T. 12, z. 4
• Strony: 51--59
• Opis fizyczny: Bibliogr. 15 poz.

Twórcy

autor

Naginevičius V.

• Kaunas Technical University of Applied Sciences Tvirtovės al. 35, LT-50155, Kaunas, Lithuania

autor

Kalisinskas D.

• Kaunas Technical University of Applied Sciences Tvirtovės al. 35, LT-50155, Kaunas, Lithuania

autor

Adomavičius S.

Bibliografia

• 1. Bahattin, M. & Çelik, B. Özdalyan. Gasoline direct injection. 2010. P. 19. Available at: http://www.intechopen.com/books/fuelinjection/gasoline-direct-injection.
• 2. Bubulis, A. & Naginevičius, V. & Vasiliauskas, R. & Busilas, A. & Palevičius, A. Experimental investigation of micro spray systems. In: Vibroengineering 2006: proceedings of the 6th International Conference, October 12-14, 2006. Kaunas, Lithuania / Lithuanian Academy of Sciences, IFToMM National Committee, Kaunas University of Technology. Kaunas: Technologija, 2006. P. 183-186. ISSN 1822-1262.
• 3. Enright, N. Basic principles of operation and applications of fuel injection systems in petrol-powered cars. Department of Mechanical & Automobile engineering Limerick institute of technology. 25 p.
• 4. Naginevičius, V. & Ragulskis, M.K. & Palevičius, A. Analysis of the dynamics of the vibratory valve-injector. In: Mechatronic Systems and Materials: 3rd international conference, 27-29 September, 2007. Kaunas, Lithuania: abstracts of reviewed papers. Kaunas University of Technology. Vilnius Gediminas Technical University. Lithuanian Academy of Science, Kaunas: Technologija. 2007. 220 p. ISSN 1822-8283.
• 5. Naginevičius, V. & Speičys, V. & Avotins, J. Vibratory Distribution Nozzle. In: Transport Means - 2009: proceedings of the 13th international conference. October 22-23, 2009. Kaunas University of Technology, Lithuania / Kaunas University of Technology, IFToMM National Committee of Lithuania, SAE Lithuanian Branch, The Division of Technical Sciences of Lithuanian Academy of Sciences. Klaipėda University. Vilnius Gediminas Technical University. Kaunas: Technologija. 2010. P. 99-103. ISSN 1822-296X.
• 6. Ragulskis, M.K & Palevičius, A. Theoretical and experimental studies of tubular valve dynamics. International Journal of Acoustics and Vibration: a quarterly publication of the International Institute of Acoustics and Vibration. 2002. Vol. 7. No. 1. P. 53-57. ISSN 1027-5851.
• 7. Sadegh, D. Effect of temperature and thermal cycles on PZT ceramic performance in fuel injector applications. Department of Mechanical and Industrial Engineering University of Toronto. 2012. P. 7-10.
• 8. Wen-Chang, T. & Peng-Cheng, Yu. Design of the Electrical drive for the high-pressure GDI injector in a 500cc motorbike engine. International Journal of Engineering and Industries. 2011. Vol. 2. No. 1. P. 70-83.
• 9. Polak, J.F. Ultrasound energy and the dissolution of thrombus. N Engl J Med. 2004. Vol. 351. P. 2154-2155. Available at: http://dx.doi.org/10.1056.NEJMp048249.
• 10. Grube, E. & Sutsch. & Lim, V.Y. & Buellesfield, L. & Iakovou, I. & Vitrella, G. High-frequency mechanical vibration to recanalize chronic total occlusions after failure to cross with conventional guidewires. Journal of Invasive Cardiol. 2006. Vol. 18. P. 85-91.
• 11. Dubinsky, T.J. & Cuevas, C & Dighe, M.K & Kolokythas, O. & Hwang, J.H. High frequency focused ultrasound: current potential and oncologic applications. AJR Am Journal of Roentgenol. 2008. Vol. 190(1). P. 191-199. Available at: http://dx.doi.org/10.2214/AJR.07.2671.
• 12. Tzai, T. & Minchenya, V.T. & Vladimirskuya, T & Mrochek, A.G. Progress on research of ultrasound angioplasty. Journal of Chinese Medicine Research. 2005. Vol. 5(2). P. 135-136.
• 13. Palevicius, A. & Bansevičius, R. & Dragasius, E. & Ragulskis, M. Development of smart piezoceramic transducers for detection of solidification in composite materials. In: Proceedings of SPIE: Smart Structures and Materials 2004: Smart Sensors Technology and Measurement Systems. Bellingham: SPIE / 15-17 March 2004, San Diego, California, USA. 2004. Vol. 5384. P. 71-79. ISSN 0277-786X.
• 14. Bansevičius, R. & Dragašius, E. & Palevičius, A. & Daugėla, A. & Ragulskis, M. Development of smart sensors for solidification detection in composite materials. Mechanika. 2004. No. 5 (49). P. 50-54. ISSN 1392-1207.
• 15. Ostasevicius, V. & Palevicius, A. & Daugėla, A. & Ragulskis, M. & Palevicius, R. Holographic Imagining technique for characterization of MEMS switch dynamics. In: Proceedings of SPIE: Smart Structures and Materials 2004: Smart Electronics, MEMS, BioMEMS, and Nanotechnology. 15-18 March 2004. San Diego, California, USA. 2004. Vol. 5389. P. 73-84. ISSN 0277-786X.

Uwagi

PL

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018)