RESEARCH OF BRAKING MODES OF ASYNCHRONOUS VIBRATION MOTOR DEBELYANOVO
https://doi.org/10.30724/1998-9903-2018-20-3-4-82-88
Abstract
The possibility of braking the asynchronous unbalanced vibration motor through the capacitor of the opposition. The results of mathematical modeling modes, coasting and braking by condensing opposition asynchronous vibration motor.
About the Authors
V. N. Dmitriev
Ulyanovsk State Technical University
Russian Federation
Russian Federation
dr. tech. sciences, professor, Department of electrical and APU, Ulyanovsk state technical University
A. L. Kislitsyn
Ulyanovsk State Technical University
Russian Federation
Russian Federation
cand. tech. sciences, professor, Department of electrical and APU, Ulyanovsk state technical University
D. I. Dunaev
Ulyanovsk State Technical University
Russian Federation
Russian Federation
postgraduate student, Department of electrical and APU, Ulyanovsk state technical University
References
1. Blekhman I.I. Teoriya vibratsionnykh protsessov i ustroistv. Vibratsionnaya mekhanika i vibratsionnaya tekhnika. SPb: ID «Ruda i Metally», 2013. 640 s.
2. Jnoue J. The self-synchronization of mechanical vibrators of the resonance type vibrating machinery with multidegree of freedom / J. Jnoue, Y. Araki, M. Hirakawa. «Dyn. Multibody Syst. Symp., Munich, 1977», Berlin e.a., 1978. P. 75–86.
3. Alimkhadzhaev K.T. Vzaimnoe vliyanie elektromagnitnykh i mekhanicheskikh perekhodnykh protsessov v asinkhronnykh vibrodvigatelyakh // Elektrotekhnika. 2003. №8. S. 20-24.
4. Shestakov V.M., Belokuzov E.V., Epishkin A.E. Sintez zakonov upravleniya rezhimami raboty avtomatizirovannykh vibratsionnykh ustanovok // Elektrichestvo. 2013. №11. S. 31-35.
5. Krakinovskii L.M. Opredelenie maksimal'noi amplitudy kolebanii pri vybege vibromashin // Vibratsionnaya tekhnika: materialy seminara. M.: MDNTP, 1971. № 2. S. 129-136.
6. Dmitriev V.N., Gavrilov E.N. Perekhodnye protsessy zarezonansnykh vibratsionnykh mashin // Elektrotekhnicheskie kompleksy i sistemy upravleniya. 2011. № 4. S. 52-55.
7. Gavrilov E.N. Dinamicheskie protsessy zarezonansnykh vibratsionnykh mashin // Vestnik Kazanskogo tekhnologicheskogo universiteta. Kazan': Izd-vo KNITU. 2013. T. 16. № 12. S. 87–90.
8. Gavrilov E.N. Issledovanie tormoznykh rezhimov zarezonansnykh vibratsionnykh transportiruyushchikh mashin // Vestnik Kazanskogo tekhnologicheskogo universiteta. Kazan': Izd-vo KNITU. 2013. T. 16. № 12. S. 84–87.
9. Gavrilov E.N. Matematicheskoe opisanie odnomassovoi vibratsionnoi transportiruyushchei mashiny // Vestnik Kazanskogo tekhnologicheskogo universiteta. 2015. T. 18. № 1. S. 339–343.
10. Dmitriev V.N., Kislitsyn A.L. Sudovye elektromekhanicheskie ustroistva vvoda – vyvoda informatsii. M.: Energoatomizdat, 2006. 253 s.
Review
For citations:
Dmitriev V.N., Kislitsyn A.L., Dunaev D.I. RESEARCH OF BRAKING MODES OF ASYNCHRONOUS VIBRATION MOTOR DEBELYANOVO. Power engineering: research, equipment, technology. 2018;20(3-4):82-88. (In Russ.) https://doi.org/10.30724/1998-9903-2018-20-3-4-82-88
Views:
461
Email this article 