id: 35520
Title: Research of energy consumption of the vibration machine for surface restoration of working bodies of tillage units
Authors: Tsurkan O., Horbatiuk R., Spirin A., Borysiuk D., Tverdokhlib I., Trukhanska O.
Keywords: energy use, vibration machine, restoration of working bodies of tillage units, oscillation amplitude, angular velocity
Date of publication: 2024-03-28 09:07:26
Last changes: 2024-03-28 09:07:26
Year of publication: 2023
Summary: An urgent issue for the development of the agro-industrial complex is the increase in the production resource of the working bodies of tillage units. In the process of performing technological operations on soil cultivation, the working surfaces of bodies of tillage implements of agricultural machines are subject to intensive wear and tear. During interaction with the soil, the working bodies of toothed and disk harrows, huskers, cultivators, combined tillage units, etc. require constant monitoring and checking of their condition. In case of detected deviations from the maximum permissible parameters of the geometric dimensions of the working bodies, it is necessary to replace or repair the latter. When studying all technological processes, one of the main issues is the effective use of energy and material resources. In our case, the main attention should be paid to solving the problem of effective use of energy in the process of vibration processing of the working bodies of tillage tools. This is based on the fact that the material used for vibration treatment of the working bodies of tillage tools in the developed machine is relatively inexpensive and has a long service life. To solve the problem of efficient energy use, it is necessary to determine the power required to drive the vibrating machine. Research of energy consumption of the vibration machine for surface restoration of working bodies of tillage units is presented in the article.
URI: http://socrates.vsau.org/repository/getfile.php/35520.pdf
Publication type: Статті Scopus/Web of Science
Publication: Przeglad Elektrotechniczny. 2023. Vol. 99, 11. P. 82-87. DOI:10.15199/48.2023.11.14
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Published by: Адміністратор
File : 35520.pdf Size : 2213577 byte Format : Adobe PDF Access : For all
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