DOI: https://doi.org/10.32515/2664-262X.2022.5(36).1.263-278
Елементно-модульний метод системи технічного сервісу транспортних машин
Об авторах
А.В. Гриньків, кандидат технічних наук, Центральноукраїнський національний технічний університет, м. Кропивницький, Україна, e-mail: avgrinkiv@gmail.com, ORCID ID: 0000-0002-1888-6685
Анотація
В роботі запропоновано, що елементно-модульний метод системи технічного сервісу транспортних машин базується на характерних інтервалах зміни діагностичних параметрів, що визначають технічний стан їх вузлів, систем та агрегатів як елементів. Теоретично обґрунтовані зміни діагностичних параметрів з урахуванням ступеню відновлення технічного стану систем і агрегатів за операціями технічного сервісу. Розглянуто граничний ресурс елементів транспортної машини та закон розподілу цього показника. Доведено з економічної точки зору доцільність відновлення технічного стану елементів транспортних машин запропонованою системою технічного сервісу. Запропоновано критерій економічної доцільності застосування технічних дій по відновленню технічного стану транспортної машин. Показано, що запропонований елементно-модульний метод технічного сервісу дає можливість коректувати ті чи інші технічні операції забезпечення і відновлення належного рівня показників експлуатаційної надійності транспортних машин.
Елементно-модульний метод системи технічного сервісу транспортних машин
Об авторах
А.В. Гриньків, кандидат технічних наук, Центральноукраїнський національний технічний університет, м. Кропивницький, Україна, e-mail: avgrinkiv@gmail.com, ORCID ID: 0000-0002-1888-6685
Анотація
Ключові слова
Повний текст:
PDFПосилання
1. Makarova I.V., Habibullin R.G. & Belyaev E.I. (2013). Povyishenie koeffitsienta tehnicheskoy gotovnosti parka avtomobilnoy tehniki sredstvami intellektualizatsii transportnoy sistemyi [Increasing the coefficient of technical readiness of the fleet of automotive vehicles by means of intellectualization of the transport system]. Fundamentalnyie issledovaniya - Basic research, №10-2. S.282-287 [in Russian].
2. Kurochkin, V.N., Nikitchenko, S.L., Nesmiyan, A.Y. & Nazarenk, S.A. (2021). Reliability of technological systems: structure and modeling. In IOP Conference Series: Earth and Environmental Science. Production 27-28 August 2020, Rostov Region, Vol. 659, No. 1. P. 012-009 [in English].
3. Gollin, D. & Rogerson, R. (2014). Productivity, transport costs and subsistence agriculture. Journal of Development Economics, 107, 38-48 [in English].
4. Patel, K.K. & Schot, J. (2011). Twisted paths to European integration: comparing agriculture and transport policies in a transnational perspective. Contemporary European History. 20(4). Р. 383-403 [in English].
5. Sroka, Z. J. (2012). Some aspects of thermal load and operating indexes after downsizing for internal combustion engine. Journal of thermal analysis and calorimetry. 110(1). Р. 51-58 [in English].
6. Gruzdov, G.N. et al. (2015). Analiticheskie issledovaniya ekspluatatsii avtotransportnyih sredstv: monografiya [Analytical studies of the operation of vehicles: monograph]. Moskwa: RUSAYNS [in Russian].
7. Antoniuk, O.P. (2021) Pokrashchennia protsesu zabezpechennia zapasnymy chastynamy rukhomoho skladu avtotransportnoho pidpryiemstva [Improvement of the process of supplying spare parts of a crumbly warehouse of motor transport enterprises]: Candidate's thesis. Vinnytsia [in Ukrainian].
8. Repin, S., Evtiulov, S. & Rajczyk, J. (2016). Optimizing the service life of plant machinery and vehicles using information system for management of engineering status. Architecture and Engineering. Vol. 1(2). P. 53-57 [in English].
9. Kolobov, K.S. (2019). Udoskonalennia sposobu ekspres-diahnostuvannia tekhnichnoho stanu transportnykh dyzeliv [Improving the method of rapid diagnosis of the technical condition of transport diesels]. Candidate's thesis. Derzh. avtotransp. nauk.-dosl. ta proekt. in-t" [in Ukrainian].
10. Byshov N.V., Borychev S.N., Uspensky I.A. et al. (2013). Povyishenie gotovnosti k ispolzovaniyu po naznacheniyu mobilnoy selskohozyaystvennoy tehniki sovershenstvovaniem sistemyi diagnostirovaniya [Improving the readiness for the intended use of mobile agricultural machinery by improving the diagnostic system. Ryazan: RGATU - Ryazan: RGATU [in Russian].
11. Daniyarovich, B.D. (2020). Сreation and organization of a system of branded technical service for agricultural machines. international journal of discourse on innovation, integration and education. International journal of discourse on innovation, integration and education. Karshi. Karshi branch of the Tashkent institute of irrigation and agricultural mechanization engineers. Vol. 1. №4. 120-124 [in English].
12. Golubev, I.G., Fadeev, A.Yu. & Makuev, V.A. (2010). Otsenka kachestva tehnicheskogo servisa traktorov [Evaluation of the quality of technical service of tractors]. Tehnika i oborudovanie dlya sela - Machinery and equipment for the village, 7, 40-41 [in Russian].
13. Golubev, I.G. (2013). Organizatsiya servisnogo obsluzhivaniya selskohozyaystvennoy tehniki zarubezhnyimi firmami na rossiyskom ryinke [Organization of service maintenance of agricultural machinery by foreign firms in the Russian market]. Tehnika i oborudovanie dlya sela - Machinery and equipment for the village, 6, 36 -38 [in Russian].
14. Didmanidze, O.N. & Varnakov, D.V. (2013). Prognozirovanie parametricheskoy nadezhnosti dvigateley avtotransportnyih sredstv v normalnom i spetsialnom ekspluatatsionnyih rezhimah [Predicting the parametric reliability of motor vehicle engines in normal and special operating conditions]. Mezhdunarodnyiy tehniko-ekonomicheskiy zhurnal - International technical and economic journal, 3, 94-98 [in Russian].
15. Rybacki, P. (2011). The research of the quality of agricultural machines technical service by servqual method. Journal of Research and Applications in Agricultural Engineering, Vol. 56, № 2. P. 122-143 [in English].
16. Uspenskiy, I.A., Bezrukov, D.V. & Nikolotov, I.N. (2010). Rol diagnostirovaniya tormoznyih sistem v povyishenii bezopasnosti dvizheniya i effektivnosti tehnicheskoy ekspluatatsii [The role of diagnosing brake systems in improving traffic safety and the efficiency of technical operation]. Fundamentalnyie i prikladnyie problemyi sovershenstvovaniya porshnevyih dvigateley - Fundamental and applied problems of improving piston engines. XII Mezhdunarodnaya nauchno-prakticheskaya konferentsiya. Vladimir: VGTU. 2010. S. 329-331 [in Russian].
17. Osuch, A., Osuch, E., Rybacki, P., Przygodziński, P., Kozłowski, R. & Przybylak, A. (2020). A decision support method for choosing an agricultural machinery service workshop based on fuzzy logic. Agriculture, Vol. 10(3). P. 76-84 [in English].
18. Bigus, G.A., Daniev, Yu.F., Byistrova, N.A. & Galkin, D.I. (2014). Diagnostika tehnicheskih ustroystv [Diagnostics of technical devices]. Moskwa: Izd-vo MGTU im. N.E. Baumana [in Russian].
19. Filipczyk, J. & Madej, H. (2010). The application of on-board diagnostics systems for assessing the technical state of automotive vehicles. Journal of KONES, Vol. 17. P. 99-104 [in English].
20. Salmin, V.V. (2011). Obosnovanie evristicheskogo metoda otsenki elementov sistemyi VADS [Substantiation of the heuristic method for evaluating the elements of the VADS system]. Transport Urala - Ural transport, 4, 12-16 [in Russian].
21. Dalla Vedova, M.D. & Berri, P. C. (2019). Optimization techniques for prognostics of on-board electromechanical servomechanisms affected by progressive faults. International Review of Aerospace Engineering (I. RE. AS. E). India. Indian Institute of Technology Kanpur. Vol. 12(4). P 160-170 [in English].
22. Voronov, V.S. & Rouban, A.I. (2020). Identification of models using analog sensitivity functions. In Journal of Physics: Conference Series. Vol. 1679. No. 3. P. 032-045 [in English].
23. Tsymbal, S. V., Bilichenko, V. V., Kreshchenetskyi, V. L. et al. (2018). Vdoskonalennia metodyky formuvannia potuzhnosti zony potochnoho remontu avtomobiliv [Improving the method of forming the capacity of the current repair zone of cars]. Naukovi notatky - Scientific notes, Vol. 62, 44-47 [in Ukrainian].
24. Dubinin, Ye.O., Klets, D.M., Kholodov, A.P. & Slynchenko, I.V. (2020). Mobilnyi reiestratsiino-vymiriuvalnyi kompleks dlia otsiniuvannia ta pidvyshchennia ekspluatatsiinykh vlastyvostei kolisnykh mashyn [Mobile registration and measuring system for evaluating and improving the performance of wheeled vehicles]. Visnyk Kharkivskoho natsionalnoho avtomobilno-dorozhnoho universytetu - Bulletin of Kharkiv National Automobile and Road University, Vol. 2(88), 56-60 [in Ukrainian].
25. Ermakova, O.V., Kaloshina, M.N. & Dianova, E.V. (2019). Management of innovative projects over the life cycle of distributed aviation systems. Russian Engineering Research. Vol. 39(5). P. 439-442 [in English].
26. Korenevskiy, N.A. & Razumova, K.V. (2014). Sintez kollektivov gibridnyih nechetkih modeley otsenki sostoyaniya slozhnyih sistem [Synthesis of collectives of hybrid fuzzy models for assessing the state of complex systems]. Naukoemkie tehnologii - Science-intensive technologies, Vol. 15(12), 31-39 [in Russian].
27. Afanaseva, T.V. (2013). Modelirovanie nechYotkih tendentsiy vremennyih ryadov [Modeling fuzzy trends in time series Monograph]. Ulyanovsk: Izd-vo UlGTU [in Russian].
28. Yarushev, S.A., Averkin, A.N. & Pavlov, V.Yu. (2017). Kognitivnyie gibridnyie sistemyi podderzhki prinyatiya resheniy i prognozirovaniya [Cognitive hybrid decision support and forecasting systems]. Programmnyie produktyi i sistemyi - Software products and systems, Vol. 30(4), 57-68 [in Russian].
29. Voronina, V.V., Muhametzyanov, A.D. & Baldina, Yu.S. (2015). Razrabotka web-servisa dlya rabotyi s programmiruemyimi logicheskimi integralnyimi shemami [Development of a web service for working with programmable logic integrated circuits]. Automation of control Proce - Automation of control Process, 3(41), 98-105 [in Russian].
30. Gluschenko, A.A., Zeynetdinov, R.A., Vaychik & I.S. (2015). Diagnostirovanie dvigatelya po soderzhaniyu produktov iznosa v karternom masle [Engine diagnostics by the content of wear products in crankcase oil]. Izvestiya Sankt-Peterburgskogo gosudarstvennogo agrarnogo universiteta - Proceedings of the St. Petersburg State Agrarian University, Vol. 41, 48-51 [in Russian].
31. Gopal, K. & Prakash, R. (2012). Building the business case for telematics based diagnostics at Mahindra Reva. World electric vehicle journal. Vol. 5(3). P. 722-729 [in English].
32. Peskovatskov, D.N. (2018). K voprosu tehnicheskogo obsluzhivaniya traktorov v selskom hozyaystve za rubezhom [On the issue of maintenance of tractors in agriculture abroad]. Nauka bez granits - Science without borders, Vol. 10, № 27, 69-73 [in Russian].
33. Malyiha, E.F., Kataev, Yu.V. & Vyalyih, D.G. (2018). Dilerskaya forma organizatsii tehnieskogo servisa mashin [Dealer form of organization of technical service of machines]. Nauka bez granits - Science without borders, Vol 5, 22, 73-78[in Russian].
34. Filipczyk, J. & Madej, H. (2010). The application of on-board diagnostics systems for assessing the technical state of automotive vehicles. Journal of KONES. Vol. 17. P. 99-104 [in English].
35. Shilo, I.N., Miklush, V.P. & Labushev, N.A. (2014). Kontseptsiya modernizatsii inzhenerno-tehnicheskoy sistemyi APK Respubliki Belarus [The concept of modernization of the engineering and technical system of the agro-industrial complex of the Republic of Belarus]. Trudyi GOSNITI - Proceedings of GOSNITI, Vol. 117, 18-23 [in Russian].
36. Erokhin, M., Pastukhov, A.G. & Kazantsev, S.P. (2019). Operability assessment of drive shafts of John Deere tractors in operational parameters. Engineering for Rural Development. Vol. 17. P. 28-33 [in English].
37. Kazakova, V., Shinkevich, V. & Dunaev, A. (2019). Perspektiva sovershenstvovaniya tehnicheskogo obsluzhivaniya selskohozyaystvennoy tehniki [Prospects for improving the maintenance of agricultural machinery]. Innovatsii v selskom hozyaystve - Innovations in agriculture, Vol. 3, 218-224 [in Russian].
38. Loor-Sácido, O.A., Cevallos-Mera, R.X. & Shkiliova, L. (2019). Diagnosis of agricultural mechanization in fаour сommunities in Manabí Province, Ecuador. Revista сiencias técnicas agropecuarias. Vol. 28, 1. P.28-39 [in English].
39. Krzaczek, P., Piekarski, P. (2010). Utilization of vehicle control-diagnostic system in evaluation of energetic parameters. Zeszyty naukowe politechniki rzeszowskiej. Mechanika. Vol. 81, 277. 7-14 [in English].
40. Hrushets'kii, S.N. & Didur, V.V. (2015). The problems of technical servicing and providing machinery reliability for AIC. Bulletin of the Ukrainian Branch of the International Academy of Agrarian Education. Vol. 3, 154-160 [in English].
41. Siegel, J., Bhattacharyya, R., Deshpande, A. & Sarma, S. (2014). Vehicular engine oil service life characterization using on-board diagnostic (OBD) sensor data. In SENSORS, IEEE. 2-5 Nov. 2014. Valencia, Spain. Р. 1722-1725 [in English].
42. Olszowski, S., Marczak, M. (2008). Diagnostics of new generation diesel engines. Diagnostyka. Vol. 48. P. 83-88 [in English].
43. Aulin, V.V. & Grinkiv, A.V. (2015). Svyaz informatsionnoy entropii s pokazatelyami nadezhnosti agregatov i transportnyih sredstv [Communication of information entropy with indicators of reliability of units and vehicles]. Materialyi X mezhd. nauchno-tehn. konf. "Problemyi kachestva i ekspluatatsii avtotransportnyih sredstv: Ekspluatatsiya i razvitie avtomobilnogo transporta" - Materials X int. scientific and technical conf. "Problems of quality and operation of motor vehicles: Operation and development of motor transport". Penza: PGUAS. 2015. S.39-44 [in Russian].
44. Aulin, V.V., Zhulai, O.Iu. & Livitskyi, O.M. (2007). Transportni zasoby v ahropromyslovomu kompleksi ta systema diahnostychnoho monitorynhu yikh tekhnichnoho stanu [Vehicles in the agro-industrial complex and the system of diagnostic monitoring of their technical condition]. Konstruiuvannia, vyrobnytstvo ta ekspluatatsiia s/h mashyn. Zahalnoderzhavnyi mizhvidomchyi naukovo-tekhnichnyi zbirnyk - Design, manufacture and operation of agricultural machinery. National interdepartmental scientific and technical collection, Vol. 37, 146-154 [in Ukrainian].
Пристатейна бібліографія ГОСТ
Copyright (c) 2022 А.В. Гриньків