RU2631125C1 - Structural module for building construction - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: structural module for building construction contains a building floor, supporting walls, a building ceiling, it is additionally equipped with one-level or two-level supporting columns, the building floor is equipped with an upper concrete cover and a lower metal cover. The building floor and the building ceiling are provided with fastenings in the form of a stud-socket at the ends for the preliminary fixing of the enclosing panels and double-glazed windows, whiel one-level or two-level supporting columns are made in the form of pipes with slats located at both ends of the pipe on which the stiffeners are made, wherein the pipes are filled with concrete, and bolt holes are made on the slats, the interfaces on the floor and ceiling with the slats of the supporting columns are equipped with the bolt holes and filled with concrete. The supporting walls, the floor, the ceiling are equipped with built-in utility networks and finishing made under plant conditions. The structural module may comprise at least one external supporting wall made in the form of a sandwich panel with solar battery elements. The structural module can be additionally equipped with enclosing panels. External supporting walls of the structural module can be made with integrated double-glazed windows.

EFFECT: creation of a structural module for the building construction with an increased factory readiness and convenient for installation and transportation.

4 cl, 5 dwg

Description

The invention relates to the field of construction of buildings, in particular to the construction of buildings from modules.

Known building modules for the construction of buildings (RF patents Nos. 2000398, 2010094, 2035556, 2037617, 2041330, 2083772, 2109900, 2220263, 2268967; 2285094, 2363820, 2424402, 2460853, 2479697, 2524731, 2543396; UK patent No. 1194372; No. 2400928, 2601850, 4332793; Japanese patents No. 52-14525, 6042054, 63-51227, 9291604; Chinese patent No. 104060695; French patents No. 2052799, 2763613 and others).

Of the known building modules for building buildings, the closest analogue to the claimed one is the "Building module for building buildings" (RF patent No. 2543396, E04B 1/348, 02/27/2015). The building module of the prototype reduces the complexity of manufacturing and installation of building modules. This is achieved by the fact that the building module comprises a floor, load-bearing walls and a building ceiling, and is intended for installing other building modules on it. Bearing walls contain a supporting frame and lightweight concrete between the elements of the frame.

The disadvantage of the prototype is the reduced stability of the building when building floors, the supporting frame and the design of the modules themselves do not allow installation of a large-span multi-storey building, the supporting walls contain a weak supporting frame with lightweight concrete, the supporting walls are small in thickness, and the number of supporting walls doubles at the junction of the modules , which, in turn, complicates the design and installation of the building, the significant consumption of materials associated with the double walls of building modules, as well as the low accuracy of preparation and installation due to the use of prefabricated and monolithic concrete structures.

An object of the invention is the creation of a building module for the construction of buildings with increased factory readiness, as well as convenient for installation and transportation.

The problem is solved due to the fact that the building module for building construction, comprising a building floor, load-bearing walls, the building ceiling, in contrast to the prototype, is additionally equipped with single-level or two-level load-bearing columns, the building floor is equipped with an upper concrete belt and a lower metal belt, and the building the floor and the building ceiling are equipped at the ends with fastenings in the form of a spike-socket for preliminary fastening of enclosing panels and double-glazed windows, and single-level or two-level the supporting columns are made in the form of pipes with strips located on both ends of the pipe on which stiffeners are made, while the pipes are filled with concrete and bolt holes are made on the strips, the places of mating on the floor and ceiling with the bars of the supporting columns are provided with bolt holes and filled with concrete At the same time, the bearing walls, floor, and ceiling are equipped with built-in utilities and finish, made in the factory.

The building module may contain at least one external load-bearing wall made in the form of a sandwich panel with solar cells.

The building module can be additionally equipped with enclosing panels.

The outer load-bearing walls of the building module can be made with built-in double-glazed windows.

In FIG. 1 presents a General view of all the elements of the claimed building module for the construction of buildings; in FIG. 2 presents a General view of the proposed building module in assembled form; in FIG. 3 shows the installation of the first 3 floors of the building from the claimed building modules; in FIG. 4 presents the inventive building module with enclosing panels and double-glazed windows; in FIG. 5 presents a finished building option of the claimed building modules.

The building module for the construction of buildings comprises a building floor 1, load-bearing walls 3 and a building ceiling 2, enclosing panels 4. Bearing walls 3, floor 1 and a ceiling 2 contain built-in engineering networks 5 and a finish 6 made in the factory. Bearing walls 3 are installed in the center of the building, thus creating the core of the building. In the center of the building, building modules are supported by load-bearing walls 3, and along the perimeter of the building - by load-bearing single-level 9 or two-level 18 columns. The load-bearing walls 3 are made with a finish 6 applied to the inner surface of the load-bearing walls 3. The building floor 1 contains a metal lower belt 7 made in the form of structural overlap of metal profiles, which provides greater rigidity to the building module during bending and contains fastenings of utility networks, and the upper Concrete belt 8 for greater load bearing capacity. Bearing single-level columns 9 are made in the form of pipes with rigidly welded strips 10 located at both ends of the pipe. On the slats 10, stiffening ribs 11 and bolt holes 12 are made. The supporting columns 9 are fixed to the floor 1 and to the ceiling 2 using high-strength bolts 13 installed in the bolt holes 12 on the strips 10. Bolt holes 14 are also made in the building floor 1 and ceiling 2 in the places of interfacing with the bearing columns 9. To increase the bearing capacity and unification while increasing the number of storeys of the building, the supporting columns 9 are made of a pipe filled with concrete 15, forming the so-called pipe concrete. To ensure the transfer of load from the supporting columns 9 and 18, the places of their mating on the building floor 1 or ceiling 2 are also filled with concrete 16. Building floor 1 and ceiling 2 at the ends contain fasteners 17 in the form of a spike socket, to which the enclosing walls are bolted panels 4.

The two-level load-bearing columns 18 have a structural appearance similar to the one-level load-bearing columns 6. The use of two-level load-bearing columns 18 allows the construction of two-level apartments by eliminating the use of additional intermediate building floors and ceilings. Consequently, it is possible to increase the horizontal and vertical spaces of multi-storey buildings suitable for operation, and the free space required to accommodate furniture, equipment and people will also increase. The outer load-bearing walls of the building and the enclosing panels 4 can be made in the form of sandwich panels with solar cells to generate electricity, and / or with integrated double-glazed windows 19. A multi-story building is erected from the building modules in assembled form onto a previously prepared foundation 20.

Construction of a building from unified building modules is carried out using modules of the same size, consisting of rigidly welded metal structures. Using the supporting columns 9 or 18, the building modules are mounted on top of each other, connected with high-strength bolts 13 through bolt holes 12 on the slats 10 of the supporting columns 9 or 18. To support two adjacent building floors and the ceiling, one column is used.

The building module for the construction of buildings is assembled as follows.

Building modules are delivered to the site in disassembled form: floor 1 and ceiling 2, load-bearing walls 3, which are supplied with engineering networks 5 and finish 6 at the factory, load-bearing columns are single-level 9 or two-level 18, depending on the architectural and planning solution, enclosing panels 4 and double-glazed windows 19. Thus, in an unassembled form, it is possible to transport two such sets of building modules on one trailer per flight, which simplifies and reduces transportation costs.

Bearing columns 9 are installed at the interface with the building floor 1 so that the location of the bolt holes 12 on the strips 10 of the bearing columns 9 coincides with the bolt holes 14. Then the supporting columns 9 are rigidly connected to the building floor 1 using high-strength bolts 13. Similarly, they are fixed supporting columns 9 to the building ceiling 2.

The connection of the supporting columns 9 and 18 with the building floor 1 and the ceiling 2 through the straps 10 using high-strength bolts 13 provides high accuracy of connection and speed of installation. In addition, heavy concrete 14 is laid in the building floor 1 and ceiling 2 at the interfaces with the columns 9 or 18, and the strips 10 are made with stiffeners 11, then the bond strength between the elements of the building module can be maximized.

After connecting the floor 1 and the ceiling 2 with the help of supporting columns 9, the supporting walls 3 and the enclosing panels 4 are fastened to the building module using bolt joints 17, made in the form of a spike socket and located on the ends of the floor 1 and ceiling 2.

Bearing walls 3 are installed in the center of the building in such a way that a core of rigidity of the resulting building is formed, elevator equipment or flights of stairs are placed in the resulting shaft. In the center of the building, building floor 1 and ceiling 2 are not supported on columns 9 or 18, but on load-bearing walls 3, which form the core of the building.

Bearing columns provide the bearing capacity of the building and the rigidity of the nodes due to stiffeners 11 and rigidly welded strips 10 in the vertical direction, the bearing walls 3 provide the rigidity of the building in the horizontal direction.

Installation of the building is carried out using a traverse or sling. The main lifting device is a tower or wheeled crane.

The building consists of separate building modules. The number of modules stacked vertically on top of each other through columns 9 or 18 depends on the number of storeys of the building and the diameter of the columns providing load-bearing capacity. Building modules are connected horizontally and vertically.

The construction of the building structure of the building from the claimed building modules of increased factory readiness eliminates the need for large-scale construction work at the construction site and, accordingly, the volume of material used for the building construction of the building is reduced. In addition, the most labor-intensive and long processes, such as wet processes and welding, are excluded. Building modules already include all engineering networks connected horizontally, and the bearing walls 3 in the center of the building contain engineering networks connected vertically, the rest of the floor space includes only supporting columns 9 or 18. Therefore, the horizontal and vertical spaces suitable for operation increase and thus, the aisle area and the space needed to accommodate furniture, equipment and people can be increased.

Thus, the proposed construction of the building module in comparison with the prototype and other structural solutions of a similar purpose provides an increase in the efficiency of installation and stability of the building, reducing the complexity of manufacturing and installation of building modules, reducing the cost of building the building, as well as expanding the architectural and planning capabilities for various installation options modules, improving the accuracy of manufacturing and installation of structures. This is achieved through the use of building modules of increased factory assembly and factory-finished finishes, the unification of building modules and fasteners, the use of metal structures and enclosing sandwich panels instead of concrete, as well as the prefabricated structure of the building.

Claims (4)

1. A building module for building buildings, comprising a building floor, load-bearing walls, a building ceiling, characterized in that it is additionally provided with single-level or two-level load-bearing columns, the building floor is equipped with an upper concrete belt and a lower metal belt, the building floor and the building ceiling being provided at the ends fastenings in the form of a thorn-socket, and single-level or two-level bearing columns are made in the form of pipes with straps located on both ends of the pipe, on which the ribs are made stiffnesses, while the pipes are filled with concrete, and bolt holes are made on the strips, the places of interfacing on the floor and ceiling with the bars of the supporting columns are bolted and filled with concrete, while the bearing walls, floor, and ceiling are equipped with built-in utilities and finishing, made in factory conditions. 2. The building module according to claim 1, characterized in that at least one external supporting wall is made in the form of a sandwich panel with solar cells. 3. The building module according to claim 1 or 2, characterized in that it is additionally equipped with enclosing panels. 4. The building module according to claim 1, characterized in that the external load-bearing walls are made with integrated glass units.

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