Abstract
The advantages of heat-sealable belts include: the possibility of welding of their ends (allows obtaining a strip of any length and a quick replacement in case of damage), excellent resistance to abrasion, resistance to oil, grease, dirt and some chemicals, resistance to temperatures from −30 °C to +80 °C, significant elasticity at a relatively low level of stretching, high value of the friction coefficient (thus very good anti-slip properties even at load changes), safety when in contact with food. There are few publications devoted to these belts, therefore the authors have built a test stand for experimental studies of such drives. The analysis of vibration of a draw gear with a thermally sealed belt was carried out in accordance with the assumptions of an active experiment. The following input parameters were adopted: belt tension force, torque loading the gearbox, rotational speed of the drive shaft. The following output parameters were adopted: the values of vibration acceleration of selected elements of the test stand (the transducers are mounted on the bearing housings of the drive and the driven shafts). During the research, the load of the gearbox was changed and the influence of its impact on the value of the point measures of vibration signals was observed. The following point measures were analyzed: the RMS value, the peak value and the kurtosis. The results of the research will certainly be useful for designers and technicians involved in the operation of drawstring drives with thermally weldable belts.
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References
Żółtowski, B., Ćwik, Z.: Lexicon of Technical Diagnostics (Original Title in Polish: Leksykon Diagnostyki Technicznej). ATR, Bydgoszcz (1996)
Osiński, Z.: Vibration Damping (Original Title in Polish: Tłumienie drgań). PWN, Warszawa (1997)
Bajkowski, J.: Theorie Des Vibrations. Office des Publications Universitaires, Oran (1989)
Balta, B., Sonmez, F.O., Cengiz, A.: Speed losses in V-ribbed belt drives. Mech. Mach. Theory. 86, 1–14 (2015). https://doi.org/10.1016/j.mechmachtheory.2014.11.016
Gutowski, R., Swietlicki, Z.: Dynamics and vibration of mechanical systems (orginal title in Polish: Dynamika i drgania układów mechanicznych). s. (1986)
Krasiński, M., Stachoń, S.: Parametric vibration of transmission belts. Mach. Dyn. Probl. 22, 65–75 (1998)
Abrate, S.: Vibrations of belts and belt drives. Mech. Mach. Theory. 27(6), 645–659 (1992). https://doi.org/10.1016/0094-114X(92)90064-O
Cepon, G., Manin, L., Boltežar, M.: Validation of a flexible multibody belt-drive model. Strojniški vestnik. J. Mech. Eng. 57(7–8), 539–546 (2011)
Incerti, G.A.: Model for Analyzing the Startup Dynamics of a Belt Transmission Driven by a DC Motor. Int. J. Mech. Mechatron. Eng. 8(9), 1537–1542 (2014)
Serridge, M., Licht, T.R.: Piezoelectric accelerometers and vibration preamplifiers. Brüel Kjær, Glostrup (1987)
Kumar, B., Kiran, G., Satyanarayana, S.: Determination of unbalance in rotating machine using vibration signature analysis. Int. J. Mod. Eng. Res. 2(5), 3415–3421 (2012)
Cepon, G., Manin, L., Boltezar, M.: Introduction of damping into the flexible multi- body belt-drive model: a numerical and experimental investigation. J. Sound Vib. 324, 283–296 (2009)
Ojha, S., Sarangi, D., Pal, B.K., Biswal, B.B.: Performance monitoring of vibration in belt conveyor system. J En. Res. Appl. 4(7), 22–31 (2014)
Hassan, A.R., Ali, K.M.: Dignosis of pulley-belt system faults using vibration analysis technique. J. Univ. Babylon Eng. Sci. 26(2), 67–180 (2018)
Kubas, K.: A research stand for measuring friction parameters in a belt transmission. Arch. Automot. Eng. 75(1), 69–83 (2017)
Ruijun, Z., Xinxin, S., Weiwei, Y., Nannan, W.: Analysis of resonance reliability for synchronousbelt transmission with transverse vibration. J. Vibroeng. 16(2), 891–900 (2014)
Krawiec, P.: Numerical analysis of geometrical characteristics of machine elements obtained through CMM scanning. In: Progress in industrial mathematics, pp. 925–930. Springer-Verlag, Berlin–Heidelberg (2010)
Kujawski, M., Krawiec, P.: Analysis of generation capabilities of noncircular cog belt pulleys on the example of a gear with an elliptical pitch line. J. Manuf. Sci. E. T. ASME. 133(5), 051006 (2011)
Krawiec, P., Grzelka, M., Kroczak, J., Domek, G., Kołodziej, A.: A proposal of measurement methodology and assessment of manufacturing methods of nontypical cog belt pulleys. Measurement. 132, 182–190 (2019)
Krawiec, P., Marlewski, A.: Profile design of noncircular belt pulleys. J. Theor. Appl. Mech. 54(2), 561–570 (2016)
Krawiec, P.: Analysis of selected dynamic features of a two-whwwled transmission system. J. Theor. Appl. Mech. 55(2), 461–467 (2017)
Krawiec, P., Waluś, K., Warguła, Ł., Adamiec, J.: Wear evaluation of elements of V-belt transmission with the application of optical microscope. In: MATEC web of conferences 157, pp. 01009–1–01009–8 (2018). https://doi.org/10.1051/matecconf/201815701009
Krawiec, P., Warguła, Ł., Waluś, K., Adamiec, J.: Wear evaluation study of the multiple grooved pulleys with optical method. In: MATEC web of conferences 254, pp. 01004–1–01004–8 (2019). https://doi.org/10.1051/matecconf/201925401004
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The presented research has been subsidized by the Ministry of Science and Higher Education 05/52/SBAD/0295 and 0416/SBAD/0001
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Szymański, G.M., Krawiec, P. (2021). Testing and Analysis of Vibration of a Tension Transmission with a Thermally Sealed Belt. In: Awrejcewicz, J. (eds) Perspectives in Dynamical Systems III: Control and Stability. DSTA 2019. Springer Proceedings in Mathematics & Statistics, vol 364. Springer, Cham. https://doi.org/10.1007/978-3-030-77314-4_10
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