Developing the technological equipment for the T1/N1 traction transport machine used in the agro-industrial complex

Authors

  • H. Khudaverdian Lviv National Environmental University

DOI:

https://doi.org/10.31734/agroengineering2023.27.018

Keywords:

wheeled machine, four-wheel drive, simulation model, technological equipment, support surface, maximum traction force

Abstract

The article introduces a modified model for the movement of universal all-wheel drive traction vehicles of the Mercedes-Benz Unimog type on a deformable surface (according to the WES methodology of the US Army). The model is created in the MATLAB Simulink software environment, namely a software module for determining the maximum traction force that can be implemented on any support surface. By investigating the influence of design parameters and operating conditions on traction properties, this model helps in selecting appropriate equipment for technological operations, and a trailer for transportation purposes. The researchers also explore ways to increase the traction properties of a wheeled vehicle and reduce the negative impact on soil fertility. Through this simulation model, the researchers obtained the value of the free traction force of a universal wheeled vehicle of the Mercedes-Benz Unimog type (based on the project of the Open Joint Stock Company “Ukravtobusprom” – TUR VT-041 “Avtotrak”), determined its traction class according to the classification, and selected the appropriate technological equipment and a trailer. The adequacy of the elaborated methodology is assessed by comparing the results of experimental data of the wheeled tractor T-150K and the results of the corresponding simulation model, i.e. calculation by applying the above-mentioned module. The article highlights the problem of insufficient access to low-tonnage wheeled vehicles for small farms and utility companies. Importing such equipment often becomes an expensive and complicated process. To address this issue, it is expedient to study the expertise of the Western European countries after the Second World War and the current situation and to develop a concept of a universal wheeled vehicle of the N1/T1 category of the Avtotrak/Unimog type. This concept aims to create a vehicle that can perform various tasks in the conditions of small farms and utility companies by combining the functions of a small tractor with high traction and an all-wheel drive truck that can move on and off-road.

References

Abramov, V.N., Chistov, M. P., Veselov, A. A. & Koltukov, A. A. (2023). Evaluation and selection of adjustable pressure pneumatic tires for military vehicles / under. total ed. V.V. Shipilov. Bronnitsy: Federal State Unitary Enterprise 21 Research Institute of the Ministry of Defense of the Russian Federation.

Adamchuk, V. V., Pohorilyi, S. P., Cherniak, R. Ye. & Dun, S. V. (2018). Results of experimental studies of traction indicators MEZ-330 "Avtotractor".

Boltianskyi, O.V., Stefanovskyi, O.B. & Volkov, S.V. (2020). Ways to increase the traction and traction properties of the power tool in transport works / Dmytro Motornyi Tavriia State Agro-Technological University, Melitopol, Ukraine.

Buhara, V.A., Vatulia, N. N., Vainshtein, L. A., Koval, I. A., Levitanus, A. D. & Ohyi, H. Ye. (1975). Handbook on T-150 and T-150K tractors / edited by B.P. Kashuba. The second, revised and supplemented. Kharkiv: Prapor.

Hochgeländegängiger Unimog - Mercedes-Benz Trucks - Trucks you can trust. URL: https://www.mercedes-benz-trucks.com/de_DE/models/unimog-off-road.html (Accessed June 22, 2022).

Hrubel, M. H., Ftemov, Yu. O. & Khoma, V. V. (2019). Experimental studies of the parameters of the bearing capacity of samples of wheeled military automobile equipment. Weapon systems and military equipment: scientific and technical journal. Kharkiv: Kharkiv NUPS, 4(60), 7-15.

Hrubel, M. H., Krainyk, L. V. & Khoma, V. V. (2020). Simulation modeling of the movement of wheeled military vehicles off-road and assessment of its adequacy. Highwayer of Ukraine: scientific and industrial journal. Kyiv, 2, 21-28.

Hrubel, M. H., Krainyk, L. V. & Kuprinenko, O. M. (2019). Methodology for assessing the basic cross-country ability of wheeled military vehicles. Armament and military equipment, 4, 22-31.

Khudaverdian, H. A. (2023). Justification of the dimensions of tires for a universal wheeled traction vehicle. Actual problems of modern science: theoretical and practical research of young scientists: materials of the All-Ukrainian Scientific and Practical Conference.

Khudaverdian, H. A. & Khoma, V. V. (2022). Technological processes of tillage: computer simulation. Innovative technologies for the development of mechanical engineering and efficient functioning of transport systems: materials of the III International Scientific and Technical Internet Conference, October 19-20, 2022. Rivne: NUVHP, 299-301.

Khudaverdian, H., Khoma, V. & Krainyk, L. (2022). Simulation modeling of field movement of four-wheel drive vehicles in the MATLAB Simulink software environment. Bulletin of Lviv National Environmental University. Agroengineering studies, 26, 164–170

Krainyk, L. V. & Khudaverdian, H. A. (2022). The concept and formation of a domestic universal vehicle of the autotruck/Unimog type for farms and utility companies. Problems and prospects of road transport development: X-th International Scientific and Technical Internet Conference: theses of reports (Vinnytsia, April 14-15, 2022). Vinnytsia, VNTU, 178-180.

Mercedes-Benz History an In-Depth Look at the Mercedes Unimog eMercedesBenz. URL: https://emercedesbenz.com/autos/mercedes-benz/unimog/mercedes-benz-history-an-in-depth-look-at-the-mercedes-unimog/ (Accessed July 05, 2022).

Pohorilyi, S. P. (2017). Results of experimental studies of MEZ-330 "Autotractor with plow PNN-5-40". Design, production and operation of agricultural machines, 47 (2), 227-231.

Pohorilyi, S. P., Dun, S. V. & Cherniak, R. Ye. (2018). Study of traction indicators mez-330 "Avtotractor", 19-23.

Published

2024-01-19

How to Cite

Khudaverdian Г. (2024). Developing the technological equipment for the T1/N1 traction transport machine used in the agro-industrial complex. Bulletin of Lviv National Environmental University. Series Agroengineering Research, (27), 18–21. https://doi.org/10.31734/agroengineering2023.27.018

Issue

Section

MACHINES AND WORK PROCESS OF AGRO INDUSTRIAL PRODUCTION