RU189896U1 - BUILDING MODULE FOR BUILDING BUILDINGS - Google Patents

Abstract

The invention relates to the construction of buildings from the modules and can be used for the construction of multi-storey buildings. Essence: the building module for the construction of buildings contains load-bearing columns made of a pipe filled with concrete, annular floor slabs, which are equipped with built-in engineering networks and are made with a finishing finish. The building module is equipped with a flight of stairs connected to the annular floor slabs on one side by means of rotatable detachable hinges, on the other by means of a mounting cable, the carrier columns are connected to annular floor slabs by rotatable detachable loops. The technical result - improving the accuracy of installation while reducing the time of construction of buildings, as well as reducing the complexity and cost of construction of the building. 2 Il.

Description

The invention relates to the construction of buildings from the modules and can be used for the construction of multi-storey buildings.

Known building modules for the construction of buildings (ed. St. USSR №823519, №1114749, №1738945, №1767111, №1788166, Pat. RF №2000398, №20194, №2020212, №2035556, №2037617, №2041330, №2083772 , №2109900, №2220263, №2247812, №2268967, №2255094, №2363820, №2424402, №2460853, №2479697, №2524731, №2543396; U.S. Pat. No. GB 1194372 A, U.S. Pat. No. DE 2400,928 A1, No. DE 2601850 C3, No. DE 4332793 C1; Chinese Pat. No. CN 104060695 A; Pat, France No. FR 2763613 A1).

Known building module for the construction of buildings, containing the floor, load-bearing walls and building ceiling and intended for installation on it of other building modules. Bearing walls contain a supporting frame and lightweight concrete between the frame elements, building walls at least on one side can be lined with panels (see RF patent №2543396, Е04В 1/348).

A disadvantage of the known construction is the low accuracy of its manufacture and installation due to the use of prefabricated and monolithic structures of concrete, and the supporting frame and the design of the modules themselves do not allow the installation of a large-span multi-storey building. In addition, the number of load-bearing walls doubles at the junction of the modules, which complicates the design and installation of the building and leads to a significant consumption of materials.

The closest analogue to the claimed utility model is a building module for building construction, containing columns made of a pipe filled with concrete, annular floor slabs that are equipped with built-in engineering networks and are made with finishing, and on their side faces are mounts for enclosing panels, and external panels, some of which are made in the form of sandwich panels with solar cell elements, and the other in the form of multi-chamber double-glazed windows. Moreover, the construction floor is equipped with an upper concrete belt and a lower metal belt (see RF Pat. No. 2631125, Е04В 1/348).

The disadvantage of this building module is the low accuracy and considerable complexity of its installation and alignment due to the use of individual prefabricated structures.

The essence of the claimed utility model lies in the fact that a building module for building construction, containing load-bearing columns made of a pipe filled with concrete, annular floor slabs that are equipped with built-in engineering networks and are made with a finishing finish, according to the change, is additionally equipped with a flight of stairs connected to annular ceiling slabs on the one hand by means of rotary detachable hinges, on the other by means of a mounting cable, supporting columns are connected to annular plates and overlap by means of rotatable split loops.

The technical result provided by the claimed utility model is to improve the accuracy of installation while reducing the time of construction of buildings, as well as reducing the complexity and cost of building a building.

The essence of the utility model is illustrated by drawings, where:

- in fig. 1 schematically shows a building module in a transport position;

- in fig. 2 schematically shows the building module in the design position.

The building module for building construction contains load-bearing columns 1 and an annular floor slab 2. The columns 1 are made of a pipe filled with concrete. The annular floor slab 2 is equipped with built-in engineering networks 3 and is made with a finishing finish in the factory. The columns 1 and the annular floor slab 2 are provided with pivot detachable hinges 4 and bolt holes 5 for connecting them by means of high-strength bolts. The building module is equipped with a flight of stairs 6, connected to the annular floor slab 2 on the one hand by means of pivoting hinges 7, and on the other by means of a mounting cable 8. The transformable flight of stairs 6 is made of a steel profile filled with concrete.

The Assembly of the proposed building module is as follows.

The annular floor slab 2 is a welded three-dimensional construction of factory manufacturing, consisting of lattice bolts in the longitudinal and transverse directions. The upper zone of the ceiling 2 is provided with a monolithic reinforced concrete coating, made under production conditions with the help of permanent formwork from a profiled steel sheet that is included in the joint work. The lower belt overlap 2 can be made of a rectangular profile or a corner. On a monolithic ceiling 2 perform a finishing floor. Non-combustible cement particle boards with built-in lighting and decorative coating can be used as ceiling finishes. In the corners of the overlap 2, there are standardized pads with holes 5 for high-strength bolts for fastening the supporting columns 1 to the floor slab 2 by means of rotatable detachable hinges 4. Different engineering communications 3 are placed at each column floor slab 2 at the factory assembly stage. The connection of networks of adjacent floors is carried out with the help of joints, connectors and threaded connections. Steel bearing transformable columns 1, made of a circular pipe, the cavity of which is filled with concrete mix under factory conditions, are attached to the annular floor slab 2 in the folded transport position by means of detachable loops 4. The columns 1 are installed in the design position by turning on a loop 4. One transformable carrier Column 1 is used for the installation of two adjacent building modules. The cavity of the staircase contains a transformable staircase 6, made of a steel profile filled with concrete, and connected to the annular floor slab 2 by means of rotatable detachable hinges 7. On the facade side, the building module is equipped with a mounting cable 8 that serves to fasten the transformed staircase 6. Transformation of the staircase March 6 is similar to the transformation of the supporting columns 1 by means of detachable loops 4, described above.

The building module of increased factory readiness represents a system of annular floor slabs 2, steel transformable supporting columns 1 and a transformable stairway 6, having the form of a glass. Building modules are connected via transformable columns 1. In assembled form, a multi-storey building is obtained from building modules.

Thus, the claimed design provides increased installation efficiency while reducing the complexity of manufacturing and installation of the building module for the construction of buildings, as well as reducing the cost of building the building. This is achieved through the use of transformable elements of the increased factory assembly, execution of finishing in the factory, the unification of elements and fasteners, the use of metal structures, transformable hinges and a flight of stairs.

Claims (1)

A building module for building construction, containing load-bearing columns made of a pipe filled with concrete, annular floor slabs, which are equipped with built-in engineering networks and are finished with finishing, characterized in that it is additionally equipped with a flight of stairs connected to the annular floor slabs on one side by rotatable detachable hinges, on the other by means of a mounting cable, supporting columns are connected with annular floor slabs by rotatable detachable hinges.

Images