employee
Kolomna, Moscow, Russian Federation
Work objective is to develop an algorithm for automatic speed regulation and to ensure its integration into the system of adaptive combined control of the power equipment of the locomotive TEM7A. Research methods: methods of the theory of automatic control, modern programming methods, trial trips. Research results and novelty. For the first time, the problem of automatic maintenance of "creeping" train speeds with high accuracy has been solved in the practice of domestic locomotive construction. It is established that the developed algorithm for automatic control of the humping speed and splitting up of shunting locomotive TEM7A allows maintaining a given speed in the range of operating speeds up to 8 km / h. Conclusion. The developed algorithm is integrated into the microprocessor control system of the power equipment of TEM7A shunting locomotive and does not require additional costs when through the locomotive operation. Maintaining a uniform speed of movement can also be used in the mode of manual control of the locomotive by the driver, while the value of the stipulated rate is set by the driver using the display module of the control panel.
automatic speed regulation, shunting locomotive, system of control, trial trip
1. Grishchenko, A.V. Evaluation of the economic efficiency of a diesel multiple engine power equipment with a combined cooling system, A.V. Grishchenko, V.A. Kruchek, V.V. Kruchek. Izvestiya of St.Petersburg State Railway University, 2012, no. 1, pp. 46-51.
2. Pugachev, A.A. Efficiency increasing of induction motor scalar control systems / A. Pugachev // International Conference on Industrial Engineering, Applications and Manufacturing (ICIEM), St. Petersburg, Russia, 1-5 (16-19 May 2017). - DOI:https://doi.org/10.1109/ICIEAM.2017.8076317.
3. Vorobyov, V.I. Search for rational engineering soluttions of diesel locomotives for the easten range. Bulletin of Bryansk state technical university, 2021, no. 10, pp. 53-63.
4. Inkov, Yu.M. Efficiency Increasing of Traction Electric Drives with Induction Motors and Vector Control System / Yu.M. Inkov, A.S. Kosmodamianskiy, A.A. Pugachev, S.V. Morozov // Russian Electrical Engineering, 2021, vol. 92, no. 9, pp. 476 - 480. https://doi.org/10.3103/S1068371221090066
5. Shelukhin, V.I. Automation and mechanization of humps: textbook for railway transport colleges. Moscow, Marshrut, 2005, 240 p.
6. Kim, S.I. The control system of a mountain locomotive with the implementation of the technology of automatic speed control of the pushing and detaching (CAD GL) of the locomotive TEM7A, S.I. Kim, A.A. Pronin, S.N. Zhuravlev. Vestnik RSRDERSI, 2017, no. 100, pp. 76-79.
7. Kim, S.I. Shunting locomotive and the method of its operation without a driver, S.I. Kim, V.I. Kharitonov, A.A. Pronin, S.N. Zhuravlev, A.B. Fedotov, S.V. Kim. Patent RU2630859C1, publ. 13.09.2017, bul. no. 26.
8. Kim, S.I. The system of automatic maintenance of a stipulated rate of a switcher, S.I. Kim, A.A., Pronin, S.N. Zhuravlev, V.I. Kharitonov, V.V. Grachev, F.Yu. Bazilevsky, DN. Kurilkin. Vestnik RSRDERSI, 2017, no. 100, pp. 80 - 86.
9. Kim, S.I. Method of speed regulation for diesel locomotives with electric transmission, S.I. Kim, S.N. Zhuravlev, A.A. Pronin, L.M. Voronkova, V.I. Kharitonov, V.V. Grachev. Patent RU2616111C, publ. 12.04.2017, bul. no. 11.
10. Kim, S.I. Method of speed regulation for locomotives when electric braking mode, S.I. Kim, V.I. Kharitonov, A.A. Pronin, S.N. Zhuravlev, S.V. Kim. Patent RU2652481, publ. 26.04.2018, bul. No. 12.
11. Kim, S.I. Automatic speed control device for diesel locomotives with electric transmission, S.I. Kim, S.N. Zhuravlev, A.A. Pronin, V.V. Grachev, F.Y. Bazilevsky, D.N. Kurilkin. Patent RU2588400, publ. 27.06.2016, bul. no. 18.
12. Kim, S.I. Automatic speed control device for diesel locomotives with electric transmission, S.I. Kim, M.V. Fedotov, Patent RU2481202, publ.10.05.2013, bul. no.13.
13. Faronov, V.V. Turbo Pascal,V.V. Faronov. St. Petersburg: BHV-Petersburg, 2004, 368 p.
14. Pudovikov, O.E. A microprocessor system of automatic control by pneumatic braking of freight long trains, O.E. Pudovikov, S.A. Murov. Russ. Electr. Engin. 85, 505-508 (2014). https://doi.org/10.3103/S1068371214080094.