Computer analysis of vibrations of hoisting system

  • Dagmara Tejszerska Silesian Technical University

Abstract

Model of longitudinal vibrations of mine hoist, treated as a discrete-continuous system is formulated. The model includes phenomena connected with variations of the load, carried by each rope and with sliding of the rope contacting with pulley. The effects of changes of length of both branches of rope, variations of their stiffness, internal damping, friction and diversification of parameters of individual ropes in multirope system are taken into account. General model equations, relations describing movement of elementary segments of ropes and of the whole system, and the method of solving the obtained equations are presented in the paper. Nonlinear system of partial and ordinary differential equations is solved numerically. Example results of numerical simulation, showing the possibilities of the formulated model and the program - are presented.

Keywords

References

[1] J. Antoniak. Frictional braking system, capturing gin tubs on free passage ways (in Polish). ZN Pol.Śl. , Górnictwo, 193: 7-12, Gliwice, 1990.
[2] J. Czaja. Theoretical determination of the dynamic force course in hoisting rope on the example of the shaft rope failure (in Polish). In: III Konf. Kierunki rozwoju górniczych urządzeń wyciągowych, Vol. 5, 140-148, Cracow, 1984.
[3] W.I. Dwornikow, A.W. Sitiew. Analiz rieszenija urawnienija dinamiki mnogokanatnych szachtnych ustanowok. Woprosy ekspluataciji szachtnych stacjonarnych ustanowok, 10-28, Donieck, 1985.
[4] W.F. Florinskij. Dinamika szachtnogo podjoma. Moskwa, 1965.
[5] A. Gerlach, R. Horstmann. Seilrutsverhalten von Treibscheibenanlagen unter berücksichtigung dynamischer Vorgange. Glückauf-Forschungshefte, 54(5), 1993.
Published
Jun 22, 2023
How to Cite
TEJSZERSKA, Dagmara. Computer analysis of vibrations of hoisting system. Computer Assisted Methods in Engineering and Science, [S.l.], v. 4, n. 2, p. 179-188, june 2023. ISSN 2956-5839. Available at: <https://cames.ippt.pan.pl/index.php/cames/article/view/1401>. Date accessed: 21 nov. 2024.
Section
Articles