Dynamic synchronization of vibration exciters of the three-mass vibration mill

• Autorzy: Solona Olena , Kupchuk Ihor

Identyfikatory

DOI

10.15199/48.2020.03.35

Warianty tytułu

PL

Dynamiczna synchronizacja trzyosiowego młyna z czterema wibratorami

• Języki publikacji: EN

Abstrakty

EN

The problem of self-synchronization of a three-axis vibrating mill with four unbalance vibrators, which are actuated by independent asynchronous motors and have the same angular velocities, is considered in the paper. In self-synchronization, synchronization and phase matching of the vibrator is achieved due to the vibration of the system of bodies on which the vibrator is installed, that is, by providing a dynamic connection between them.

PL

W artykule analizowano problem synchronizacji trzyosiowego wibracyjnego młyna z czterema niezależnymi wibratorami. Samoczynna synchronizacja została osiągnięta dzięki dynamicznemu połączeniu między wibratorami i podłożem.

Słowa kluczowe

EN

vibration exciter; imbalance; synchronization; milling chamber

PL

wibracja; młyn wibracyjny; synchronizacja

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2020
• Tom: R. 96, nr 3
• Strony: 161--165
• Opis fizyczny: Bibliogr. 20 poz., rys.

Twórcy

autor

Solona Olena

• Faculty of Engineering and Technology, Vinnytsia National Agrarian University, 3 Sonyachna str., Vinnytsia, Ukraine, 21008

autor

Kupchuk Ihor

• Faculty of Engineering and Technology, Vinnytsia National Agrarian University, 3 Sonyachna str., Vinnytsia, Ukraine, 21008

Bibliografia

• [1]. Kudinov Ye.S., Boiko I.H., Analysis of methods for grinding grain feed in accordance with their energy intensity, Bulletin of the Kharkiv National Technical University of Agriculture named after Peter Vasylenko. Series: Technical Sciences, 95 (2010), 5-12
• [2]. Hvozdiev O.V., Shpyhanovych T.O., Yalpachyk O.V., Improvement of grain grinding process, Collection of scientific works of Vinnytsia National Agrarian University. Series: Technical Sciences, 11( 2011), 143-150
• [3]. Yanovych V., Honcharuk T., Honcharuk I., Kovalova K., Engineering management of vibrating machines for targeted PRZEGLĄD ELEKTROTECHNICZNY, ISSN 0033-2097, R. 96 NR 3/2020 165 mechanical activation of premix components, Inmateh - Agricultural Engineering, 54 (2018), nr. 1, 25-32
• [4]. Yanovych V., Kupchuk I., Determination of rational operating parameters for a vibrating disk-type grinder used in ethanol industry, Inmateh - Agricultural Engineering, 52 (2017), nr. 2, 143-148
• [5]. Bernik P.S., Denisov P.D., Solona O.V., Vibrating mill, Patent UA, 43792 (2011)
• [6]. Kaletnik G.M., Yanovych V.P., Substantiation of operating and design parameters of a gyration mill for the production of highly active premixes, Vibrations in engineering and technology, 84 (2017), nr. 1, 15-21
• [7]. Kupchuk I.M., Solona O.V., Derevenko I.A., Tverdokhlib I.V., Verification of the mathematical model of the energy consumption drive for vibrating disc crusher, Inmateh - Agricultural Engineering, 55 (2018), nr. 2, 111-118
• [8]. Lanets O., Derevenko I., Borovets V., Kovtonyuk M., Komada P., Mussabekov K., Yeraliyeva B. Substantiation of consolidated inertial parameters of vibrating bunker feeder, Przeglad Elektrotechniczny, 95 (2019), nr. 4, 47-52
• [9]. Bulgakov V., Adamchuk V., Kaletnik G,. Arak M., Olt J., Mathematical model of vibration digging up of root crops from soil, Agronomy Research, 12 (2014), nr. 1, 41-58
• [10]. Yanovych V., Tsurkan O., Polevoda Yu, Development of the vibrocentric machine for the production of a basic mixture of homeopathic preparations, Scientific Bulletin, Series D: Mechanical Engineering, 81 (2019), nr. 2, 13-26
• [11]. Vedmitskyi Y. G., Kukharchuk V. V., Hraniak V. F., New nonsystem physical quantities for vibration monitoring of transient processes at hydropower facilities, integral vibratory accelerations, Przeglad Elektrotechniczny, 93 (2017), nr.3, 69- 72
• [12]. Yaroshevych T.S., Sylyvoniuk A.V., Yaroshevych M.P., Dynamics of running of vibrating machines with two unbalanced exciters that self-synchronize, Bulletin of the Sevastopol National Technical University. Mechanics, power engineering, ecology, 137 (2013), 49-54
• [13]. Zabrodets I.P., Yaroshevych M.P., Tolstushko M.M., Martyniuk V.L., Dynamics of starting up vibration machines with inertial exciters of oscillations taking in to account the elasticity of the drive, Bulletin of Kharkiv National Technical University of Agriculture named after Petr Vasilenko, 178 (2016), 140-147
• [14]. Kukharchuk V.V., Kazyv S.S., Bykovsky S.A., Discrete wavelet transformation in spectral analysis of vibration processes at hydropower units, Przeglad Elektrotechniczny, 93 (2017), Nr 5, 65-68
• [15]. Ruchynskyi M., Nazarenko M., Pereginets I., Kobylianskyi O., Kisała P., Abenov A., Amirgaliyeva Zh. Simulation and development of energy-efficient vibration machines operating in resonant modes, Przeglad Elektrotechniczny, 95 (2019), nr. 4, 60-64
• [16]. Bulgakov V., Pascuzzi S., Ivanovs S., Kaletnik G., Yanovych V., Angular oscillation model top redict the performance of a vibratory ball mill for the fine grinding of grain, Biosystems engineering, 171 (2018), 155-164
• [17]. Bulhakov V.M., Adamchuk V.V., Kaletnik G.M., Chernysh O.M., Theoretical study of forced harmonic vibrations in vibration drives of machines, Vibrations in engineering and technology, 82 (2016), nr. 2, 5-9
• [18]. Solona O.V., Kots I.V., Vasylenko T.V., Melnyk A.Yu., Vibrating mill, Patent UA, 94905 (2014)
• [19]. Solona O.V., Yanovych V.P., Melnyk O.S., Vibrating mill, Patent UA, 109539 (2016)
• [20]. Solona O.V., Vibration mills with space-circulation loading for fine grinding of bulk materials, Vinnytsia State Agrarian University, 2008, 133

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).