Load mode control of test rigs for rubber-metal vibration isolators

Zakhid A. Godzhaev; Годжаев Захид Адыгезалович; Viktor V. Shekhovtsov; Шеховцов Виктор Викторович; Mikhail V. Lyashenko; Ляшенко Михаил Вольфредович; Pavel V. Potapov; Потапов Павел Викторович; Evgeniy V. Klementiev; Клементьев Евгений Владимирович

doi:10.17816/2074-0530-340787

Load mode control of test rigs for rubber-metal vibration isolators

作者: Godzhaev Z.A.¹, Shekhovtsov V.V.², Lyashenko M.V.², Potapov P.V.², Klementiev E.V.²
隶属关系:
1. Federal Scientific Agroengineering Center VIM
2. Volgograd State Technical University
期: 卷 17, 编号 4 (2023)
页面: 375-385
栏目: Transport and transport-technological complexes
URL: https://journal-vniispk.ru/2074-0530/article/view/252144
DOI: https://doi.org/10.17816/2074-0530-340787
ID: 252144

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BACKGROUND: Confirmation of the effective performance of vibration isolators of the suspension system for cabins of wheeled and tracked vehicles is obtained on the basis of bench tests. The development of loading devices and load mode control systems for bench testing of vibration isolators based on operating modes is a relevant technical task.

AIM: Development of load mode control systems for bench testing of vibration isolators based on the analysis of their operational loads.

METHODS: Based on the analysis of the operational loads of vibration isolators of suspension systems for cabins of wheeled and tracked vehicles, technical solutions for loading devices of rigs and load mode control systems have been developed that make it possible to reproduce load modes with parameters statistically equivalent to operational load modes on the tested vibration isolators.

RESULTS: The technical solution of the rig for durability testing of rubber-metal vibration isolators with reproduction of operational loads in the vertical, longitudinal and lateral directions on the tested vibration isolator is proposed. A technical solution for the rig ensuring reproduction of load modes at durability testing of vibration isolators, in which the dynamic component of the load contains forced and natural vibrations of the protected object, is also proposed. Load mode control of the proposed rigs ensures more reliable test results due to the approximation of the load conditions of vibration isolators on the rigs to the operational ones.

CONCLUSION: The practical value of the study lies in the opportunity of using the proposed technical solutions of test rigs and load control systems for testing vibration isolators of the suspension system for cabins of wheeled and tracked vehicles with an increase in the degree of reliability of their results due to the approximation of load conditions to the operational ones.

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test rig for rubber-metal vibration isolators, load mode control system

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作者简介

Zakhid Godzhaev

Federal Scientific Agroengineering Center VIM

Email: fic51@mail.ru
ORCID iD: 0000-0002-1665-3730
SPIN 代码: 1892-8405

Professor, Dr. Sci. (Tech.), Corresponding Member of the Russian Academy of Sciences, Deputy Director for Innovational and Implemental Activities

俄罗斯联邦, Moscow

Viktor Shekhovtsov

Volgograd State Technical University

编辑信件的主要联系方式.
Email: shehovtsov@vstu.ru
ORCID iD: 0000-0002-5207-8972
SPIN 代码: 1173-2370

Professor, Dr. Sci. (Tech.), Professor of the Technical Operation and Maintenance of Automobiles Department

俄罗斯联邦, Volgograd

Mikhail Lyashenko

Volgograd State Technical University

Email: tslmv@vstu.ru
ORCID iD: 0000-0003-4502-2900
SPIN 代码: 4291-3348

Professor, Dr. Sci. (Tech.), Professor of the Technical Operation and Maintenance of Automobiles Department

俄罗斯联邦, Volgograd

Pavel Potapov

Volgograd State Technical University

Email: paulflinx@gmail.com
ORCID iD: 0000-0001-6645-6033
SPIN 代码: 7042-2560

Associate Professor, Cand. Sci. (Tech.), Associate Professor of the Technical Operation and Maintenance of Automobiles Department

俄罗斯联邦, Volgograd

Evgeniy Klementiev

Volgograd State Technical University

Email: ts@vstu.ru
ORCID iD: 0009-0005-6187-0629
SPIN 代码: 8291-1461

Head of the Laboratory of the Heat Engineering and Hydraulics Department

俄罗斯联邦, Volgograd

参考

Godzhaev ZA, Shekhovtsov VV. Modern design and technological methods for creating and testing mobile vehicles. Izvestiya VolgGTU. Seriya “Nazemnye transportnye sistemy”. Vyp. 4: mezhvuz. sb. nauch. st. 2011;12(85):5–8. (In Russ).
Pobedin AV, Lyashenko MV, Shekhovtsov KV, Godzhayev ZA. Test-bench equipment for the testing of tractor cabin vibration isolators. Tractors and Agricultural Machinery. 2012;79(7):43–48. (In Russ). doi: 10.17816/0321-4443-69477
Shekhovtsov VV, Lyashenko MV, Shevchuk VP, et al. Experimental determination of the characteristics of vibration isolators in the tractor cab. Mezhdunarodnyy nauchno-issledovatelskiy zhurnal. 2013;7(14)2:118–122. (In Russ).
Shekhovtsov VV, Lyashenko MV, Shevchuk VP, et al. Bench equipment for testing tractor cabin vibration isolators. Mezhdunarodnyy nauchno-issledovatelskiy zhurnal. 2013;7(14)2:135–138. (In Russ).
Shekhovtsov KV, Pobedin AV, Lyashenko MV, et al. Stand for testing vibration isolators. In: Automobile and tractor manufacturing in Russia: development priorities and personnel training: materials. international scientific-technical conf. Automobile associations Eng. (AAI), dedicated. 145th anniversary of MSTU “MAMI”. Moscow: MGTU «MAMI»; 2010;1:336–341. (In Russ).
Pobedin AV, Kosov OD, Shekhovtsov VV, et al. Model of tractor cab suspension. In: Progress of vehicles and systems — 2009: material. international scientific and practical conference, Volgograd, October 13–15. 2009: at 2 p.m. Part 1. Volgograd: VolgGTU; 2009:222–223. (In Russ).
Shekhovtsov VV, Pobedin AV, Lyashenko MV, et al. Development of a model and computational studies of vehicle cabin suspension. In: Design of wheeled vehicles: material. All-Russian scientific-technical conf., dedicated 100th anniversary of the start of preparations. Eng. in the automotive specialty at MSTU im. N.E. Bauman (Dec. 25–26, 2009) Moscow: MGTU im. N.E. Baumana; 2010;184–188. (In Russ).
Godzhaev ZA, Kuzmin VA, Godzhaev TZ. Development of a hydraulic suspension system for vehicles based on various control laws. Problemy mashinostroeniya i nadezhnosti mashin. 2021;6:73–78. (In Russ). doi: 10.31857/S0235711921060080
Shekhovtsov VV, Pobedin AV, Lyashenko MV, et al. Development and Calculation Researches of the Vehicle`s Cabin Suspension Model. In: XXIX Seminarium Kół Naukowych “Mechaników”, Warszawa, 22–23 kwietnia 2010 r.: referaty. Warszawa: Wojskowa Akademia Techniczna; 2010:453–458.
Pobedin AV, Shekhovtsov VV, Shekhovtsov KV. Computational studies for improving the car cabin suspension. In: Kakoy avtomobil nuzhen Rossii?: mater. 69-y mezhdunar. nauch. tekhn. konf. Assotsiatsii avtomobilnykh inzhenerov (AAI). Omsk: SibADI; 2010:112–117.
Shekhovtsov VV, Pobedin AV, Lyashenko MV, et al. Classification and Analysis of the Ways of Cabin Suspension Vibroinsulators` Characteristic Formation. In: XXIX Seminarium Kół Naukowych “Mechaników”, Warszawa, 22–23 kwietnia 2010 r.: referaty. Warszawa: Wojskowa Akademia Techniczna; 2010:449–452.
Shekhovtsov VV, Lyashenko MV, Shevchuk VP, et al. Technical solutions for elastic-damping devices for tractor cab suspension. In: Mezhdunarodnyy nauchno-issledovatelskiy zhurnal. 2013;7(14)2:122–125. (In Russ).
Pobedin AV, Kosov OD, Shekhovtsov VV, et al. Analysis of technical solutions for vibration isolators. In: Progress of vehicles and systems - 2009: material. international scientific and practical conference, Volgograd, October 13–15. 2009: at 2 hours Part 1. Volgograd: VolgGTU; 2009:210–211. (In Russ).
Shekhovtsov VV, Pobedin AV, Kosov OD, et al. Analysis and classification of technical solutions for cabin suspension vibration isolators. In: Design of wheeled vehicles: material. All-Russian scientific-technical conf., dedicated 100th anniversary of the start of preparations. Eng. in automotive specialty at MSTU. N.E. Bauman (Dec. 25–26, 2009) Moscow: MGTU im. N.E. Baumana; 2010:181–184. (In Russ).
Patent RUS 93477 / 27.04.2010. Byul. № 12. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Vibroizolyator. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU93477U1_20100427
Patent RUS 100159 / 10.12.2010. Byul. № 34. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Vibroizolyator. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU100159U1_20101210
Patent RUS 124340 / 20.01.2013 Byul. № 2. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Vibroizolyator. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU124340U1_20130120
Patent RUS 136110 / 27.12.2013 Byul. № 36. Shekhovtsov KV, Sokolov-Dobrev NS, Pobedin AV, et al. Vibroizolyator kabiny transportnogo sredstva. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU136110U1_20131227
Patent RUS 104714 / 20.05.2011 Byul. № 14. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Stend dlya ispytaniy vibroizolyatorov. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU104714U1_20110520
Patent RUS 118056 / 10.07.2012 Byul. № 19. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Stend dlya ispytaniy vibroizolyatorov v rezhime vynuzhdennykh i sobstvennykh koleba-niy. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU118056U1_20120710
Patent RUS 112416 / 10.01.2012 Byul. № 1. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Stend dlya ispytaniy vibroizolyatorov v rezhime vynuzhdennykh kolebaniy. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU112416U1_20120110
Patent RUS 112417 / 10.01.2012. Byul. № 1. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Stend dlya ispytaniy vibroizolyatorov v rezhime vynuzhdennykh kolebaniy. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU112417U1_20120110
Patent RUS 112415 / 10.01.2012. Byul. № 1. Shekhovtsov VV, Pobedin AV, Shevchuk VP, et al. Stend dlya ispytaniy vibroizolyatorov pri deystvii nagruzok s osevoy i bokovoy sostavlyayushchimi. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU112415U1_20120110
Patent RUS 203608 / 14.04.2021. Byul. № 11. Shekhovtsov VV, Lyashenko MV, Potapov PV, et al. Stend dlya ispytaniy vibroizolyatorov kabiny transportnogo sredstva. (In Russ). Accessed: 18.04.2023. Available from: https://yandex.ru/patents/doc/RU203608U1_20210414

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2. Fig. 1. Design of the rig: а — side view (section); b — top view.

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3. Fig. 2. Possible profiles of an eccentric cam.

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4. Fig. 3. The strut scheme.

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5. Fig. 4. The loading platform and the platform for setting the tested object.

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6. Fig. 5: Piezosensors: a — for measuring vertical displacement of the platform; b — for measuring longitudinal and lateral displacements of the platform.