Abstract
The stability problems of rope drums are quite relevant. The rope drum is a thin-walled shell
in most cases, which under the influence of external pressure created by the rope can lead to loss of
stability. The issues of stability for the drum shell, which is loaded with turns of the rope, are very
important, because they are directly related to the safety and reliability of the rope hoist.
The studies made it possible to obtain a new methodology for calculating cylindrical shells
for stability, which takes into account not only the length of the shell, but also the rigid connection
with the front lip. In addition, a calculation formula was obtained for determining the critical
pressure of the oval shell, which bears much similarity to the experiments of American scientists.
The paper also examines the effect of thickness variation on the critical load of the drum is
also examined. The conducted studies allow concluding that the parameters of the rope drums
completely eliminate the need to install rings and stiffeners. Also, as a result of the study, it was found
that the shell of the crane drum under the influence of radial load cannot lose stability. Findings show
that in all cases, the gain margin of the shell for the cable drum is greater than the strength.