To enable an optimum crane design concerning static and fatigue analyses and to enable development of an optimal crane control algorithms the dynamics of the crane and the suspended payload must be well identified. The paper presents a multi-mass model of a slewing crane designed for consideration of slewing motion of the crane that produces the spatial oscillation of the payload. To ensure sufficient accuracy the presented model consists of six masses and account for the non-linear nature of the swinging motion and the non-linearity of the power transmission. The elasticity and damping of the load-bearing steel structure as well as the friction in the main bearing, and the air resistance are also considered. The angles of the payload sway and the dynamic forces are obtained. For the purpose of the confirmation of the mathematical model a comparison of the simulated and measured results was prepared and good agreement was estimated.

• 出版日期2012-12