Adaptive angle self-climbing construction platform

Abstract

The invention discloses an adaptive angle self-climbing construction platform, belongs to the technical field of building construction, and aims to meet requirements of the current situation of a construction platform of a current special-shaped structure construction formwork with large section variability and overcome the shortcomings of the structural current situation of the construction platform. The adaptive angle self-climbing construction platform is improved based on a traditional construction platform, and the structure of the construction platform is designed into a multi-row triangular framework structure. The adaptive angle self-climbing construction platform has angle adaptive and self-climbing functions by the aid of sequential deformation of an edge sharing spliced triangular structure and design of related components. The construction platform can adapt to shape transformation of the special-shaped structure construction formwork with the large section variability in a self-adjusting structural mode by the aid of the angle adaptive function, and can automatically climb on a rail laid along the formwork after the structure of the construction platform is adjusted by the aid of the self-climbing function. By the design of the adaptive angle self-climbing construction platform, the construction platform is adaptable to construction transformation of a special-shaped structure with the large section variability and simple in structure, and has the advantages of safety, flexibility, operability and the like.

Description

technical field [0001] The present invention relates to self-climbing construction platforms with self-adaptive angles. Aiming at the current requirements for construction platforms and the current status of construction platform structures in the construction of special-shaped structures with large cross-section variability, this design is based on traditional construction platforms and improved. The construction platform structure is designed as a multi-row triangular skeleton structure. Through the orderly deformation of the co-edge and joint triangle structure and the design of related components, it has the functions of angle adaptation and self-climbing. The angle self-adaptive function enables the construction platform to adapt to the shape transformation of the special-shaped structure construction formwork with large cross-section variability through self-adjusting structure; the self-climbing function enables the construction platform to self-climb along the track la...

AI Technical Summary

Problems solved by technology

The large-scale special-shaped structure with large cross-section variability has extremely high requirements on the construction platform, which not only makes the structure complex due to its climbing and sliding characteristics, but also results in poor structural flexibility and complicated operability; for vertical or cross-section For structures with less variability, its climbing and sliding construction platform is difficult to apply to structures with greater cross-section variability

At present, for small and medium-sized special-shaped structures with large cross-section variability or large-scale special-shaped structures with small heights, due to the complexity of the structure and operation of the climbing and sliding construction platform, projects often use "one-time" construction platforms (that is, dismantled) or The multi-layer gradient layout of the construction platform affects the construction progress and wastes materials to a certain extent

Images