Abstract This thesis studies the mechanical calculation method of the combination structure of the suspended platform of the elevated work cradle, and establishes the mechanical model of the side rails of the suspended platform of the elevated work cradle and the overall model of the suspended platform. On this basis, the symmetrical combination of the suspension platform structure side rails under uniform load mechanical performance calculation, the use of finite element analysis software ANSYS on the overall structure of the suspension platform under the two schemes studied finite element modeling, and static strength and static stiffness analysis of the structure, respectively, considering the four conditions of the two combinations of the stresses and deformation of the comparison, but also for the large-span cradle hanging platform suspension It also provides theoretical basis for the modular combination and optimized design of the platform.
Han et al. (Tue,) studied this question.