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Experimental determination of the belt transmission slip

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The presented paper provides the alternative options for determining the condition of belt gear based on the testing and monitoring. In order to carry out experimental measurements, a newly developed device for testing, monitoring and diagnostics of belt drives was designed, as well as the possibility of determination of limit states by extreme loads. The designed measuring stand allows to determine the point of destruction of the belt for an extreme load. The main objective of the experimental measurement was to determine the slip of the wedge-shaped belt. The slip was evaluated by the coefficient of belt creeping and the specific belt slip by means of the measuring stand. The measurements on the proposed device can be made when the input speed from the electric motor and the transmitted torque of the belt gear are constant while the tensioning force of the belt drive is changing or the measurements can be made when the tensioning force and input speed of the belt drive are constant and the torsional moment changes. The monitoring of specified parameters for determining the belt gear slip is made by means of sensors located at predetermined locations from which data is processed by a PC. In the paper, the analytical calculation is processed, from which the values are compared with the values measured on the proposed device.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
205--210
Opis fizyczny
Bibliogr. 21 poz., rys., tab.
Twórcy
  • Technical University of Kosice with seat in Presov Faculty of Manufacturing Technologies Bayerova 1, 080 01 Presov, Slovak Republic
  • Technical University of Kosice with seat in Presov Faculty of Manufacturing Technologies Bayerova 1, 080 01 Presov, Slovak Republic
Bibliografia
  • [1] M. Balazikova, and M. Dulebova. “Comparative study of noise measurement in work environment with frequency weightings”. Science. Business. Society, 2017, Vol. 2, No. 3, pp. 132-135. ISSN 2367-8380.
  • [2] B. Balta, F. O. Sonmez, A. Cengiz. „Speed losses in Vribbed belt drives, Mechanism and Machine Theory“, Publisher Elsevier Ltd, 2015, pp. 1-14., ISSN 0094-114X.
  • [3] N.T.H. Cam, V.N. Pi, N.K. Tuan, L.X. Hung, T.T.P. Thao. “Determining optimal partial transmission ratios of mechanical driven systems using a V-Belt drive and a helical reducer with second-step double gear-sets.” Lecture Notes in Networks and Systems, Volume 63, 2019, pp. 261-269, Publisher Springer, ISSN 23673370.
  • [4] T.C. Firbank. “Mechanics of the belt drive.” International Journal of Mechanical Sciences, 12 (12), 1970, pp. 1053- 1063., ISSN 0020-7403.
  • [5] S. Gaspar, and J. Pasko. “Influence of technological factors of die casting on mechanical properties of castings from silumin.” Lecture Notes in Electrical Engineering, Vol. 240, 2013, pp. 713-722, ISSN 1876- 1100.
  • [6] S. Gaspar, and J. Pasko. “Mathematical formulation of the kinematic equations for the control of the robot system with application for the machining conical surfaces.“ In: MM Science Journal. MM publishing, 2018, pp. 2158-2161, ISSN 1803-1269.
  • [7] G. Gerbert, and F. Sorge. „Full sliding adhesive-like contact of V-belts, Journal of Mechanical Design.“ Transactions of the ASME, 124 (4), 2002, pp. 706-712, ISSN 1050-0472.
  • [8] K. Kim, H. Kim. „Axial forces of a V-belt CVT.“ Theoretical analysis, KSME Journal, 3 (1), 1989, pp. 56-61. ISSN 1738- 494X.
  • [9] A. Kot, W. Grzegozek, and W. Szczypinski-Sala. “The analysis of an influence of rubber V-belt physical properties on CVT efficiency.“ Scientific Conference on Automotive Vehicles and Combustion Engines, 2018; Cracow; Poland, Volume 421, Issue 2, ISSN 17578981.
  • [10] T. Krenicky. “The Monitoring of Technical Systems Operation Using Virtual Instrumentation.” Extra engineering, No. 5, 2010, pp. 25/1-25/2. ISSN 1335-2938.
  • [11] V.A. Lubarda. „Determination of the belt force before the gross slip.“ Mechanism and Machine Theory, 83, 2015, pp. 31-37, Publisher Elsevier Ltd, ISSN 0094-114X.
  • [12] J. Mascenik, S. Pavlenko, and L. Bicejova. “A device designed to monitor new belt types with application of diagnostic system.” MM Science Journal, Vol. 2016, No. September, 2016, pp. 931-934. ISSN 1803-1269, DOI:10.17973/MMSJ.2016_09_201624.
  • [13] J. Mascenik, and I. Vojtko. ”Experimental monitoring and diagnostics of belt gears in testing device.” MM Science Journal, Vol. 2016, No. September, pp. 964-968. ISSN 1803-1269, DOI: 10.17973/MMSJ.2016_09_201641.
  • [14] P. Michalik, V. Molnar, G. Fedorko and M. Weiszer. “An experimental test rig for measuring the strength of pipe conveyor belts.” In: Bulk Solids Handling, 2013. Vol. 33, no. 5, pp. 52-55, ISSN 0173-9980.
  • [15] P. Michalik and J. Zajac. “Using of computer interated system for static tests of pipe conveyor belts.” In: ICCC 2012, proceedings of the 13th International Carpathian Control Conference, Slovak Republic, Piscataway IEEE, 2012 pp. 480-484. ISBN 978-1-4577-1866-3.
  • [16] Z. Murcinkova, and T. Krenicky. “Implementation of virtual instrumentation for multiparametric technical system monitoring.” In: SGEM 13th International Multidisciplinary Scientific Geoconference: Informatics, geoinformatics and remote sensing, 2013, Bulgaria - Sofia: STEF92 Technology, pp. 139-144. ISSN 1314-2704.
  • [17] S. Pavlenko. “Design and check of the mechanical components by the PC application.” In: MM Science Journal. Vol. 2017, no. December (2017), pp. 1914-1918. ISSN 1803-1269, DOI: 10.17973/MMSJ.2017_12_201723.
  • [18] M. Puskar, P. Bigos, M. Balazikova, and V. Petkova. “The measurement method solving the problems of engine output characteristics caused by change in atmospheric conditions on the principle of the theory of optimal temperature range of exhaust system.” In: Measurement, Journal of the International Measurement Confederation, Vol. 46, pp. 467-475, ISSN 0263-2241.
  • [19] J. Ruzbarsky, and G. Mital. “Contactless measurement and evaluation machined surface roughness using laser profilometry.” In: Biosystems Engineering - Tartu: Estonian University of Life Sciences, 2017 pp. 172. ISBN 978-9949-536-81-8.
  • [20] N. Srivastava, and I. Haque. „A review on belt and chain continuously variable transmissions (CVT).“ Dynamics and control, Mechanism and Machine Theory, 44 (1), 2009, pp. 19-41. ISSN 0094-114X.
  • [21] T. Stejskal, S. Valencik, J. Kmec, D. Kucerka, and L. Bicejova. “A special analysis of significant phenomena in diagnostic signal at compressors measurement.” In: Key Engineering Materials vol. 669, Operation and Diagnostics of Machines and Production Systems Operational States 3. Switzerland: TTP, 2016, pp. 373-381. ISSN 1013- 9826.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-821dcec1-dc76-47d0-b117-d3ebf6b5531a
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