Abstract
The task of measuring, monitoring and recording of the torque, mechanical stress and capacity is relevant for most transmissions of the process and transport machines. The importance of this problem is increased by an order in terms of unsteady loads (random, impulsive, alternating, etc.). The disadvantage of its correct solution by experimental methods is substantially limited by the need for expensive and unreliable, environmentally dangerous current collectors. To measure the dynamic and kinematic parameters of the rotating transmission by modern information computer technologies, we propose equipping the mechanical transmission with two additional half-couplings with point magnets fixed thereon, the scope of each includes one or more Hall sensors. The application of the developed technique allows determining the torsional rigidity of the transmission experimentally, and allows recording the actual torque and capacity per turn (or a part of the turn) of the transmission of a process or transport machine and record the same online in the computer electronic memory. This, in turn, allows an online assessment of the residual transmission resource, machine operation per shift and generate its operation history, which provides an invaluable information both to the machine developer and owner.
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References
Kuo, B.C., Golnaraghi, F.: Automatic Control Systems, 609 p.Wiley, New York (2002)
Grabar, I.G.: Patents of Ukraine, â„– 83475, 85252, 73063, 91664
Yahno, O.M., Grabar, I.G., Taurit, T.G.: Wind Power: the Design and Calculation, 255 p. (2003). Zhitomir
Grabar, I.G., Bezvesilna, O.M., Kubrak, Y.O.: Precolation tensoconvertor of the linear deformation and the theoretical backgrounds of its operation. ZSTU Messenger. Tech. Sci. 1(46) (2008). â„–3
Avrutov, V.V.: The angular velocity determination by means of circuit. NUNU KPI Messenger. Issue Instr. 28–32 (2014). №. 47
Korobiichuk, I.: Mathematical model of precision sensor for an automatic weapons stabilizer system. Measurement 89, 151–158 (2016). doi:10.1016/j.measurement.2016.04.017147
Kravchenko, N.A., Yashkov, V.A., Soldatkin, V.M., Porunov, A.A.: Two-component Flapper Nozzle Transducer of the Angular Velocity, patent RUÂ â„– 2462723
http://www.elec.ru/news/2008/12/25/sovremennye-sredstva-izmerenij-akip-novye-cifrovye.html. (Tachometers AКIP-9201, AКIP-9202)
Yakovlev, D.P.: The device for the torque measurement on the rotating shaft. The papers of Odessa Polytechnic University 1(19) (2003)
Krimmel, V.: http://www.lorenz-m.ru/index.php. The Development and the Future of Torque
Gurinov, A.C., Dudnik, V.V., Gaponov, V.L., Kalashnikov, V.V.: http://ivdon.ru/magazine/archive/n2y2012/798. Don Engineering Messenger. â„–2 (2012). The torque Measurement on Rotating Shafts
Popov, A.P., Vinokurov, M.R., Moiseenko, A.A.: Microprocessor System of Non-Contact Control and Torque Measurement. DGU Messenger T.10. №2(45) 243–248 (2010)
Grabar, I.G., Grabar, O.I., Gutnichenko, O.A., Kubrak, Y.O.: Percolation-Fractal Materials, Monograph, 370 p. (2007). Zhitomir
Petrosyan, D.P., Grigoryan, S.M., Mikalean, S.E.: The comparative estimation of the known methods and the development of the optical method of rotating shaft dynamic parameter measurement. Agriculture Sci. News 9(4), 1–5 (2011)
Korobiichuk, I., Bezvesilna, O., Ilchenko, A., Shadura, V., Nowicki, M., Szewczyk, R.: A mathematical model of the thermo-anemometric flowmeter. Sensors 15, 22899–22913 (2015). doi:10.3390/s150922899
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Grabar, I., Korobiichuk, I., Petruk, O. (2017). Torque and Capacity Measurement in Rotating Transmission. In: Szewczyk, R., Kaliczyńska, M. (eds) Recent Advances in Systems, Control and Information Technology. SCIT 2016. Advances in Intelligent Systems and Computing, vol 543. Springer, Cham. https://doi.org/10.1007/978-3-319-48923-0_49
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DOI: https://doi.org/10.1007/978-3-319-48923-0_49
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