Embedded container house inter-module connection point structure and connection method

Abstract

The invention provides an embedded container house inter-module connection point structure. The embedded container house inter-module connection point structure comprises upper-layer module bottom connecting parts, lower-layer module top connecting parts, inter-module horizontal connecting parts and middle hinge pins, wherein first hinge pin slots are longitudinally formed in the lower-layer module top connecting parts, first bolt holes horizontally penetrate through and are formed in the lower-layer module top connecting parts, and first nuts are welded in the positions, corresponding to the first bolt holes, of one side of the inner wall of each lower-layer module top connecting part; second hinge pin holes are longitudinally formed in the upper-layer module bottom connecting parts, second bolt holes horizontally penetrate through and are formed in the upper-layer module bottom connecting parts, and second nuts are welded in the positions, corresponding to the second bolt holes, of one side of the inner wall of each upper-layer module bottom connecting part; the middle hinge pins are inserted into the first hinge pin slots and the second hinge pin slots to connect the upper-layer module bottom connecting parts and the lower-layer module top connecting parts. By means of the embedded container house inter-module connection point structure, decoration in container modules is not damaged while assembly can be realized, and a container house can be assembled really rapidly and conveniently.

Description

technical field [0001] The invention relates to the technical field of steel structure engineering, in particular to a connection point structure and connection method between modules of an embedded container house. Background technique [0002] Containers are widely used as advanced transportation equipment. However, with the development of urbanization and the change of modern people's concept of life, people improve the container, open doors and windows on the container, decorate the interior, and configure beds, sofas and electrical equipment in the container to build a container. houses. The introduction of container elements into the prefabricated building system has led to the emergence of prefabricated container modular buildings with containers as unit modules. Compared with traditional construction houses, container houses have longer, wider and higher physical dimensions. Not only the wall panels, roof panels and underframes have good rigidity and strength, but ...

AI Technical Summary

Problems solved by technology

[0003] However, the assembly process of the upper module and the lower module in the existing container house assembly process still needs to be carried out by means of bolts and welding. During the installation process, it is necessary to assemble each layer of modules and then decorate the interior. The process is cumbersome. And when it needs to be disassembled and moved, the interior decoration is destroyed, and the interior decoration is repeated after reassembly, so that the reusability of the module is reduced

In addition, the current container houses use shear parts at the connection points of the modules to resist the shear force generated between the modules, which increases the construction process in the assembly process of the container modules, and cannot quickly and easily install the upper and lower modules.

At the same time, the use of shear parts only resists the shear force between modules from one direction, and the shear effect is not good

Images