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Abstract
The incompletely restrained cable-suspension swing system driven by two cables is introduced in this article. Based on wrench of forces theory and Lagrange’s equation of first kind, the static and dynamics models of incompletely restrained cable-suspension swing system driven by two cables are established, respectively. In order to obtain an intuitive understanding of the trajectory analysis, a dynamics model consisting of governing equation and geometric constraint conditions which is a set of the mixed differential-algebraic equation in mathematics is established. A typical feedback controller and an inverse model were set up to estimate the driving function. The effective workspace, which is used to guarantee an efficient swing process, mostly depends on the geometrical shape rather than the volume itself which was calculated by trajectory analysis. In order to estimate system features and ensure a limited range of tension in underconstrained spatial cable system, the probable location of unbalanced loading was evaluated by pointwise evaluation techniques during normal work.
Highlights
A variety of applications of cable-driven parallel mechanisms (CDPMs) have been a hot topic of exploration and extensively studied since the early 90s
The IRCSWs2 dynamics is described as follows: the actuator displacement used as input and the outputs of system are the posture of the suspended platform and tension
Based on the assumption that the inertia force of suspended platform is neglected and cable mechanical behaviour is simplified as an extensible string, a simple mathematical model for the static of CDPMs with two actuators is illustrated in the study by Blajer and Kołodziejczyk.[29]
Summary
A variety of applications of cable-driven parallel mechanisms (CDPMs) have been a hot topic of exploration and extensively studied since the early 90s. Keywords Incompletely restrained cable-suspension swing system, trajectory analysis, effective workspace A typical feedback controller and an inverse model are set up to estimate the driving function of the trajectory tracking of the suspended platform.
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