Development of a mechanical transmission and a steering system for a universal robotic tracked platform of high cross-country ability
| Authors: Rumyantseva A.A. |  |
| Published in issue: #12(65)/2021 | |
| DOI: 10.18698/2541-8009-2021-12-757 | |
Category: Mechanical Engineering and Machine Science | Chapter: Robots, Mechatronics, and Robotic Systems |
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Keywords: versatility, increased cross-country ability, mobile robotic complex, tracked platform, modernization, mechanical transmission, variator, drive, control, simulation |
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| Published: 15.12.2021 | |
The author investigated the relevance of the development of a universal robotic tracked platform with increased cross-country ability for solving problems of rescue services, such as patrolling, reconnaissance, dismantling debris, extinguishing fires, and transporting goods. The mechanical transmission (variator) of the platform has been modernized, which provides the ability to connect a drive to it, which will directly affect the gear ratio. The design of the drive has been developed, and a model for the debugging stand of the drive of the active variator has been proposed. The problem of the implementation of steering control has been solved. A proprietary steering system has been developed, and a kinematic diagram of the proposed method has been drawn up and described. Simulation has been carried out, which confirms the efficiency of the developed steering method.
References
[1] Mashkov K.Yu., Rubtsov V.I., Rubtsov I.V. Upravlenie robotami i robototekhnicheskimi kompleksami [Control on robots and robotic complexes]. Moscow, Bauman MSTU Publ., 2014 (in Russ.).
[2] Zavgorodnyaya A.A., Rubtsov V.I. All-terrain robotic tracked platform. Politekhnicheskiy molodezhnyy zhurnal [Politechnical Student Journal], 2020, no. 12. DOI: http://dx.doi.org/10.18698/2541-8009-2020-12-660 (in Russ.).
[3] Pronin B.A., Revkov G.A. Besstupenchatye klinoremennye i friktsionnye peredachi (variatory) [Stepless V-belt and friction gears (variators)]. Moscow, Mashinostroenie Publ., 1980 (in Russ.).
[4] Variator: opredelenie, primenenie, preimushchestva i nedostatki [Variator: definition, application, advantages and disadvantages]. provariatori.ru: website (in Russ.). URL: http://provariatori.ru/variator/chto-takoe-variator.html (accessed: 11.09.2021).
[5] Variator Safari. Opisanie i printsip deystviya [Safari variator. Description and working principle]. motodom.su: website (in Russ.). URL: http://motodom.su/variator-safari.html (accessed: 15.09.2021).
[6] Chemodanov B.K., ed. Sledyashchie privody. T. 1 [Follow-up drives. Vol. 1]. Moscow, Bauman MSTU Publ., 1999 (in Russ.).
[7] Potaptsev I.S., Narykova N.I., Perminova E.A. et al. Razrabotka konstruktorskoy dokumentatsii pri kursovom proektirovanii. Ch. 1 [Development of constructor documentation at course engineering. P. 1]. Moscow, Bauman Publ., 2010 (in Russ.).
[8] Upravlenie gusenichnym traktorom [Driving a caterpillar tractor]. traktorspec.ru: website (in Russ.). URL: https://traktorspec.ru/traktora/upravlenie-gusenichnym-traktorom.html (accessed: 25.09.2021).
[9] Kak upravlyat’ tankom? [How to drive a tractor?] steering.com.ua: website (in Russ.). URL: https://steering.com.ua/blog/kak-upravlyat-tankom-146 (accessed: 15.09.2021).
[10] D’yakonov V.P. Simulink 5/6/7: Samouchitel’ [Simulink 5/6/7: self-help manual]. Moscow, DMK-Press Publ., 2008 (in Russ.).
[11] German – Galkin S.G. MATLAB & SIMULINK. Proektirovanie mekhatronnykh sistem na PK [MATLAB & SIMULINK. Design of mechatronic systems on a computer]. Sankt-Petersburg, Korona-Vek Publ., 2008 (in Russ.).