REDUCING THE KINEMATIC ERROR OF AN ECCENTRIC TRANSMISSION WITH A PARALLEL LOCATION OF INPUT AND OUTPUT SHAFT AS A RESULT OF THE APPLICATION OF A DOUBLE-FLOW LOADING SCHEME

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Published: Mar 5, 2024
DOI: https://doi.org/10.52928/2070-1616-2024-49-1-54-60
Keywords:
эксцентриковая передача с соосным расположением входного и выходного валов, эксцентриковая передача с параллельным расположением входного и выходного валов, сателлит, центральное колесо, компьютерная модель эксцентриковой передачи, двухпоточная схема нагружения, кинематическая погрешность выходного вала eccentric gear with a coaxial arrangement of the input and output shafts, eccentric gear with a parallel arrangement of the input and output shafts, satellite, central wheel, computer model of the eccentric gear, two-flow loading scheme, kinematic error of the output shaft

Main Article Content

P. GROMYKO
Belarusian-Russian University, Mogilev
S. KHATETOVSKY
Belarusian-Russian University, Mogilev
I. TRUSOV
Belarusian-Russian University, Mogilev

Abstract

The article presents kinematic diagrams and computer analysis of three types of eccentric transmission schemes. The graphical dependences of the kinematic error of the eccentric transmission are presented for the coaxial and parallel arrangement of the input and output shafts in two single-flow loading schemes. Computer analysis of an eccentric transmission with single-flow loading schemes showed that the kinematic error with the coaxial arrangement of the input and output shafts is 30 times lower than with the parallel arrangement of these shafts. In order to reduce the kinematic error of an eccentric transmission with a parallel arrangement of input and output shafts, a two-flow loading scheme was proposed. It has been established that the use of a double-flow loading scheme makes it possible to reduce the kinematic error by 12 times compared to a single-flow loading scheme with a load on the output shaft of 10 N∙m.


It is planned to use the design of an eccentric transmission with a parallel arrangement of input and output shafts with several power flows when designing various types of gearboxes for cultivators.

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How to Cite
GROMYKO, P., KHATETOVSKY, S., & TRUSOV, I. (2024). REDUCING THE KINEMATIC ERROR OF AN ECCENTRIC TRANSMISSION WITH A PARALLEL LOCATION OF INPUT AND OUTPUT SHAFT AS A RESULT OF THE APPLICATION OF A DOUBLE-FLOW LOADING SCHEME. Vestnik of Polotsk State University. Part B. Industry. Applied Sciences, (1), 54-60. https://doi.org/10.52928/2070-1616-2024-49-1-54-60
Issue
No. 1 (2024)
Section
Machine-building and theoretical engineering
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This work is licensed under a Creative Commons Attribution 4.0 International License.

Author Biographies

P. GROMYKO, Belarusian-Russian University, Mogilev

д-р техн. наук, проф.

S. KHATETOVSKY, Belarusian-Russian University, Mogilev

канд. техн. наук, доц.

I. TRUSOV, Belarusian-Russian University, Mogilev

канд. техн. наук, доц.

References

Shannikov, V.M. (1948). Planetarnye reduktory s vnetsentroidnym zatsepleniem. Moscow: Mashgiz. (In Russ.)

Gromyko, P.N., Makarevich, D.M., Dokonov, L.G., Makarevich, S.D., Goncharov, P.S. & Trusov, I.V. (2013). Pretsessionnye redutsiruyushchie mekhanizmy dlya privodnykh ustroistv razlichnogo naznacheniya. Mogilev: Belorussko-Rossiiskii Universitet. (In Russ.)

Gromyko, P.N., Makarevich, D.M., Khatetovskii, S.N. & Makarevich, A.S. (2022). Razrabotka komp'yuternoi modeli dlya otsenki osnovnykh pokazatelei ekstsentrikovykh peredach s parallel'nym raspolozheniem vkhodnogo i vykhodnogo valov [Development of a computer model for assessing the main indicators of eccentric gears with a parallel arrangement of input and output shafts]. Transportnoe mashinostroenie [Transport engineering], 8(8), 13–21. (In Russ., abstr. in Engl.)

Gromyko, P.N., Zholobov, A.A., Khatetovskii, S.N. & Galyuzhin, D.S. (2007). Komp'yuternoe modelirovanie planetarnykh pretsessionnykh peredach. Mogilev: Belorussko-Rossiiskii Universitet. (In Russ.)