This paper describes a series of experimental tests which were carried out to investigate the forces acting on a winch drum during multi-layer rope winding. Consideration is given mainly to flange forces which are one of the prime causes of winch drum failure. A new method of measuring flange forces is demonstrated and comparisons are made of test results for different rope constructions, rope tensions and spooling. To aid winch designers and operators, flange design curves are suggested which may be used to predict the failure limits of winch drums.
Get full access to this article
View all access options for this article.
References
1.
WatersE. O. ‘Rational design of hoisting drums’, Trans. Am. Soc. mech. Engrs192042, 463.
2.
EgawaT.TanedaM. ‘External pressure produced by multi-layers of rope wound about a hoisting drum’, Trans. Japan Soc. mech. Engrs19581, 133.
TorranceB. M. ‘The design of winding drums’, S. Afr. mech. Engr196515, 123.
6.
RoarkR. J.Formulae for stress and strain1938 (McGraw-Hill, New York and London).
7.
British Standard Handbook Lifting tackle, Part 1, Ropes and fittings, 1959.
8.
CrawfordW. R. ‘Design of colliery machinery and equipment part 1. Certain factors in the design of winder drums’. Colliery Engineering194926, 260.
9.
AtkinsonL. T. J.TaylorG. L. ‘The analysis and design of fabricated steel cylindrical drums for mine winding engines’, Colliery Engineering, a series of eight articles, 196643, 524 and 1967 44–45, 32, 79, 115, 158, 201, 236, 315.