Methodology and results of an experimental research of the operation process in vehicles with the course stabilization control system using the running drum benches
Authors: Fedotov A.I., Yankov O.S., Ten A.V.
Published in issue: #12(156)/2024
DOI: 10.18698/2308-6033-2024-12-2406
Category: Aviation and Rocket-Space Engineering | Chapter: Ground transport and technological means and complexes
The automated dynamic course stabilization system is ensuring active safety in the modern vehicles. However, despite its widespread use at present, the highly effective bench methods and the equipment implementing them are missing in identifying technical state of such a system. Authors of the paper present a methodology for experimental research in operation of the vehicles with the dynamic course stabilization system and formulate requirements for the bench equipment. A research bench complex was developed and manufactured making it possible to set the testing modes for lateral skidding. In accordance with the proposed methodology, experimental studies were conducted and results were obtained confirming a possibility to effectively study the process of the vehicle dynamic course stabilization system operation using the running drum benches.
EDN CVCQII
References
[1] Umnitsyn A.A. Analiz razvitiya kursovoy ustoychivosti legkovykh avtomobiley [Analysis of development of the passenger vehicle stability control systems]. In: Avtomobil dlya Sibiri i Kraynego Severa: konstruktsiya, ekspluatatsiya, ekonomika: 90-ya Mezhdunarodnaya nauchno-tekhnicheskaya konferentsiya Assotsiatsii avtomobilnykh inzhenerov v IRNITU, Irkutsk, 09–10 aprelya 2015 goda [Automobile for Siberia and the Far North: design, operation, economics: The 90th International Scientific and Technical Conference of the Association of the Automobile Engineers in the IRNTU, Irkutsk, April 09-10, 2015]. Irkutsk, 2015, Irkutskiy Natsionalnyi Issledovatelskiy Tekhnicheskiy Universitet Publ., pp. 222–231.
[2] Byakov K.E., Ivanenkov V.V., Kholodenko V.B., Chudakov O.I. Obzor konstruktsiy sovremennykh dinamometricheskikh stendov dlya ispytaniya kolesnykh transportnykh sredstv [Review of designs of the dynamometric benches for testing the wheeled transport vehicles]. Transportnye sistemy — Transport Systems, 2021, no. 4 (22), pp. 4–15. https://doi/org/10.46960/62045_2021_4_4
[3] Byakov K.E., Gorelov V.A., Chudakov O.I. Tekhnologiya stendovykh ispytaniy kolesnykh mashin s vosproizvedeniem ekspluatatsionnykh nagruzochnykh rezhimov [Technology of bench testing the wheeled vehicles with reproduction of the operational load conditions]. Transportnye sistemy — Transport systems, 2021, no. 2 (20), pp. 16–24.
[4] Fedotov A.I. Diagnostika avtomobilya [Vehicle diagnostics]. Irkutsk, 2012, 467 p.
[5] Bakhmutov S.V., Kulikov I.K., Barashkov A.A. Issledovanie dinamicheskikh kharakteristik avtomobilya s sistemami aktivnoy bezopasnosti posredstvom virtualnykh i dorozhnykh ispytaniy [Investigation of dynamic characteristics of a vehicle with active safety systems through virtual and road testing]. Trudy NAMI, 2016, no. 265, pp. 53–65.
[6] Bezverkhiy S.F., Yatsenko N.N. Osnovy tekhnologii poligonnykh ispytaniy i sertifikatsii avtomobiley [Fundamentals of the field-testing technology and certification of vehicles]. Moscow, IPK Izd-vo Standartov, 1996, 600 p.
[7] Ivanov A.M., Revin A.A., Nikulnikov E.N., Balakina E.V., Barashkov A.A., Losev S.A. et al. Eksperimentalnaya proverka metodov otsenki effektivnosti sistemy dinamicheskoy stabilizatsii ATS [Experimental verification of methods for evaluating effectiveness of the ATS dynamic stabilization systems]. Avtomobilnaya promyshlennost’ — Automotive Industry, 2009, no. 7, pp. 31–33.
[8] Fedotov A.I., Yankov O.S., Chernyshkov A.S., Ten A.V. Sposob kontrolya tekhnicheskogo sostoyaniya dinamicheskoy sistemy kursovoy stabilizatsii avtomobilya na stendakh s begovymi barabanami i ustroystvo dlya ego osushchestvleniya [A method for monitoring technical condition of the vehicle dynamic course stabilization system on benches with the begon drums and a device for its implementation]. Patent no. 2755626 C1 Russian Federation, IPC G01L 5/13, G01M 15/00: no. 2020143881: appl. December 30, 2020: publ. September 17, 2021.
[9] Fedotov A.I., Yankov O.S., Kholmanskikh M.V., Chernyshkov A.S. Stend kontrolya tekhnicheskogo sostoyaniya kolesnykh transportnykh sredstv s obgonnoy muftoy [Stand for monitoring technical condition of the wheeled vehicles with an overrunning clutch]. Patent na poleznuyu model no. 231401 U1 Russian Federation, IPC G01L 5/13, G01M 17/007; no. 2022106787: appl. March 16, 2022: publ. September 9, 2022. EDN LLPAAN.
[10] Fedotov A.I., Yankov O.S., Chernyshkov A.S. et al. Beskontrolnyi izmeritel dlya silovogo tormoznogo rolikovogo stenda [Contactless meter for the power brake roller stand]. Utility model patent no. 198516 U1 Russian Federation, IPC G01L 5/28: no. 2020113148: appl. March 26, 2020: publ. July 14, 2020.