ERRORS IN THE OPERATION OF DEVICES OF MULTI-FUNCTIONAL COMPLEX OF TECHNICAL MEANS IN COMPLEX TRANSPORT SYSTEMS AS A FACTOR OF TRAIN SAFETY AND RELIABILITY

Receipt date: 
10.09.2019
Bibliographic description of the article: 

Gromyshova S. S. Ekspluatatsiya ustroystv mnogofunkional'nogo kompleksa tekhnicheskikh sredstv v slozhnostrukturirovannykh transport-nykh sistemakh, kak faktor obespecheniya bezopasnosti dvizheniya poyezdov i nadezhnosti raboty [Errors in the operation of devices of multi-functional complex of technical means in complex transport systems as a factor of train safety and reliability]. Sovremennye tekhnologii. Sistemnyi analiz. Modelirovanie [Modern Technologies. System Analysis. Modeling], 2019. Vol. 64, No. 4. Pp. 167–173. DOI: 10.26731/1813-9108.2019.4(64).167-173

Section: 
Year: 
2019
Journal number: 
УДК: 
656
DOI: 

10.26731/1813-9108.2019.4(64).167–173

Article File: 
Pages: 
167
173
Abstract: 

The main railway transport activities are the development and implementation of measures aimed at increasing the throughput and carrying capacity of sections of railway lines and other infrastructure, as well as train safety control. This article investigates the errors at operation of devices of a multifunctional complex of technical means. It provides the statistics on MCTM failures for three years. The main element of MCTM is the floor equipment, 80% of failures of MCTM devices account for the receiving capsule of the floor chamber, bolometer, thermal image processing module and axis counting sensors. Increasing the use of systems for monitoring the technical condition of rolling stock MCTM-02 on the train during running conditions makes it possible to reduce train delays, reduce operating costs for repair and maintenance, and reduce the need for spare parts. Based on the results of the analysis of failures in the sector of automation and telemechanics, the article presents a set of measures to reduce the level of risks of traffic safety violations to continually improve the quality and reliability of railway devices and structural units as a whole. The introduction of microprocessor diagnostics will significantly increase the level of traffic safety due to modern and accurate determination of the technical condition of the rolling stock, while reducing resource costs for the rolling stock maintenance, improving the quality of information support and improving the working conditions of the operating staff.

List of references: 
  1. OAO «Rossiiskie zheleznye dorogi»: ofits. portal [OAO Russian Railways: the official portal]. URL: http://www.rzd.ru.
  2. Shvalov D.V., Shapovalov V. V. Sistema diagnostiki podvizhnogo sostava [Progressive technologies for ensuring the safety of train traffic and the safety of transported goods]. Moscow: Marshrut Publ., 2005. 268 p.
  3. Gapanovich V.A., Galiev I. I., Matyash Yu. I., Klyuka V. P. Progressivnye tekhnologii obespecheniya bezopasnosti dvizheniya poezdov i sokhrannosti perevozimykh gruzov [Progressive technologies for ensuring the safety of train traffic and the safety of transported goods]. Moscow: “The educational and methodical center for education in railway transport” Publ., 2008. 220 p.
  4. Blok upravleniya napol'nymi kamerami «BUNK» Rukovodstvo po ekspluatatsii IN7.354000 RE [Control unit for outdoor cameras "BUNK". Operation manual IN7.354000 RE]. Ekaterinburg: NPTs INFOTEKS Publ., 2002. 35 p.
  5. Kuznetsov K.B. et al. Bezopasnost' zhiznedeyatel'nosti. Ch.1. Bezopasnost' zhiznedeyatel'nosti na zheleznodorozhnom transporte : ucheb. posobie [Life safety. Part 1. Life safety in railway transport: a textbook]. Moscow: Marshrut Publ., 2005. 576 p.
  6. Balalaev S.V. Bezopasnost' dvizheniya na zheleznykh dorogakh. Ch.1. Osnovy bezopasnosti: ucheb. posobie [Traffic safety on the railways. Part 1. Safety Basics: a textbook]. Khabarovsk: DVGUPS Publ., 2008. 125 p.
  7. Analiz raboty ustroistv KTSM i UKSPS na zheleznykh dorogakh OAO «RZhD» v 2018godu. Upravlenie avtomatiki i telemekhaniki Tsentral'noi Direktsii Infrastruktury [Analysis of the operation of the  “Set of Technical Monitoring Equipment” and “Device for Monitoring the Rolling Stock Derailment” on the railways of OAO RZD in 2018. The automation and telemechanics department of the Central Directorate of Infrastructure]. Moscow: 2018. 23 p.
  8. Olentsevich V.A., Gud Yu.O. Neobkhodimost' ispol'zovaniya sistemnogo podkhoda k upravleniyu chelovecheskimi resursami v ZhDTS [The need to use a systematic approach to human resource management in the railway transport system]. Nauka segodnya: real'nost' i perspektivy : materialy mezhd. nauch.-prakt. konf. [Science today: reality and prospects: materials int. scientific-practical conf.]. Vologda, 2019, pp. 24-26.
  9. Olentsevich V.A. Sistematizatsiya faktorov vliyayushchikh na bezopasnost' perevozok gruzov na zheleznodorozhnom transporte [Systematization of factors affecting the safety of transportation of goods by rail] Bezopasnost' regionov - osnova ustoichivogo razvitiya : materialy Tret'ei mezhdunar. nauchn.-praktich. konf. [Security of the regions is the basis of sustainable development: materials of the Third Int. scientific and practical conf.]. Irkutsk: IrGUPS Publ., 2012, pp. 197-202.
  10. Shvalov D.V., Shapovalov V. V. Sistema diagnostiki podvizhnogo sostava [The system of rolling stock diagnostics]. Moscow: Marshrut Publ., 2005. 268 p.
  11. Dvoeglazov A.V., Khoperskii V. I. Naglyadno o strukture KTSM–02 [Visual information about the structure of KTSM – 02]. Avtomatika, svyaz', informatika [Automation, communication, informatics], 2010. No. 11, pp. 31–34.
  12. Gapanovich V. A., Galiev I. I., Matyash Yu. I., Klyuka V. P. Progressivnye tekhnologii obespecheniya bezopasnosti dvizheniya poezdov i sokhrannosti perevozimykh gruzov [Progressive technologies to ensure the safety of train traffic and the safety of transported goods]. Moscow: «Educational and methodical center for education on railway d. transport» Publ., 2008. 220 p.
  13. Ul'yanov V. A. Kontseptsiya razvitiya perspektivnykh napravlenii povysheniya tekhnologicheskoi bezopasnosti na zheleznodorozhnom transporte [The concept of development of promising areas of improving technological safety in rail transport]. Bezopasnost' zhiznedeyatel'nosti [Life safety], 2015, No. 8, pp. 28–31.
  14. Durnev R. A., Koleganov S. V. Kompleksnaya otsenka urovnya transportnoi bezopasnosti: poryadok provedeniya [A comprehensive assessment of the level of transport security: the order of conduct]. Bezopasnost' zhiznedeyatel'nosti [Life safety], 2015, No. 2, pp. 38–42.
  15. Rudanovskii V. M. Bezopasnost' i okhrana truda na zheleznodorozhnom transporte [Safety and labor protection in railway transport]. 2016, No.1, pp. 18–24.
  16. Sapozhnikov V.V., Sapozhnikov V.V., Shamanov V.I. Nadezhnost' sistem zheleznodorozhnoi avtomatiki, telemekhaniki i svyazi [Reliability of railway automation systems, telemechanics and communications]. Moscow: Marshrut Publ., 2003. 257 p.
  17. Semenov D.O. Povyshenie effektivnosti bezopasnosti i nadezhnosti na zheleznodorozhnom transporte [Improving the efficiency of safety and reliability in railway transport]. Transportnoe Delo Rossii [Transport Business of Russia], 2017. No.3, pp.102-104.
  18. Lebedeva O., Kripak M., Gozbenko V. Increasing effectiveness of the transportation network through by using the automation of a Voronoi diagram. Transportation Research Procedia, No. 36, pp. 427-433
  19. Kashtanov Yu.B., Pykhalov A.A., Kargapol'tsev S.K., Nezhivlyak A.E. Komp'yuternye tekhnologii inzhenernogo analiza: osnova obespecheniya bezopasnosti dvizheniya poezdov [Computer technology engineering analysis: the basis for ensuring the safety of train traffic]. V sbornike: Transsib: na ostrie reform materialy mezhdunarodnoi nauchno-prakticheskoi konferentsii [In the coll.: Transsiberian: on the cutting edge of the reform materials of the international scientific and practical conference]. Irkutsk State Transport University; Transbaikal Institute of Railway Transport, 2016, pp. 224-235.