RU2792754C1 - Modular building cell - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, and in particular to methods and structures for the rapid construction of frame modular structures. The modular cell of the building contains frame-and-beam and panel structures. The cell is made in the form of a through hollow building module in the form of a rectangular parallelepiped. The panel structure is enclosed inside the frame-beam structure, the panel structure is formed by the planes of the floor, side walls and ceiling and is made of panels of sheet material, interconnected in the adjacent planes of the side walls to the plane of the floor and ceiling by a locking connection, forming between the planes at the points of their connection open outer corner joint, the frame-beam structure is made of separate frames of the base, ceiling and side walls, made in the form of rectangular lattice frames, according to the size of the planes of the panel structure, taking into account the corner joints protruding beyond the planes and formed at the junctions of the adjacent planes of the corner joints with the possibility of mounting in the specified corner joints of the extreme transverse beams of the frames of the frames of the base and the ceiling, and to the joints and to the extreme transverse beams of the frames of the said frames of the extreme transverse beams of the frames of the frames of the side walls. Lathings formed by longitudinal guides and horizontal lintels are mounted to the frames of the side walls and the ceiling from the outside, while the outer corners of the guide battens at their junctions are made beveled in an arc with the possibility of their smooth conjugation. The base filing is mounted to the base frame, the under-roofing layer is mounted to the roof lathing. Wall sheathing is mounted to the wall sheathing, while the upper and lower ends of the wall sheathing are curved inward in an arc, with the possibility of mounting and snug fit to the wall and roof sheathing conjugated along the arc with entry to the roof sheathing and base filing, from the open sides of the modular cell rings were mounted, covering the space of the modular cell between the panels of the floor, side walls, ceiling and base filing, wall sheathing, sub-roofing layer, respectively.

EFFECT: ensuring the versatility of construction and the possibility of creating a complete and ready-to-use modular building cell.

9 cl, 3 dwg

Description

The invention relates to the field of construction, and in particular to methods and structures for the rapid construction of frame modular structures 5/12, E04C 2/10, E04C 2/38, E04C 2/40, E04C 3/02].

A MODULAR SYSTEM FOR THE STRUCTURE OF A WOODEN-FRAME BUILDING [US2021189719 (A1), publ.: 24.06.2021] is known from the prior art. beams, while at least two modules are assembled horizontally, limiting the wall between the specified modules, while at least two modules with a wooden frame are assembled vertically, and among these vertical posts at least one wall post is provided, while at least at least, said horizontally adjacent wall racks of the modules are offset and overlap at least partially with respect to each other; and the uprights of the upper module abut against the uprights of the lower module directly or indirectly through a layer of incompressible material such as metal sheet, sealing film, or any other incompressible material except for a horizontal layer of grained wood.

Also known is a MODULAR BUILDING SYSTEM [FR2894265 (A1), 06/08/2007], which allows frame construction by assembly on site, characterized in that this system contains a set of main overall modules, which includes - at least two structural elements arranged in parallel each other and on a regular basis. intervals in order to achieve the width of the specified structure, the specified structural elements are interconnected by at least two levels, each of which consists of at least two side elements, and the specified side elements maintain the distance between the specified two structural elements, floor beams , placed between said side elements of each level to connect said structural elements, said components and said side elements define empty spaces into which wall elements and roof purlin elements are inserted.

The disadvantages of analogs is the unfinished design of the module, which does not allow using the mentioned systems for the completed construction of the facility using the description. In addition, to bring the described systems to a finished externally aesthetic appearance, significant design improvements are required. Also, the disadvantage of the second given analogue is the low industrial applicability, since according to the description, the modular system involves assembly at the construction site.

The closest in technical essence is the CONSTRUCTION METHOD [US3862534 (A), publ.: 01/28/1975], which consists of the following steps:

assembly outside the site of the central modular part of the dwelling in the form of a rectangular parallelepiped having a floor, end walls and open sides, and containing functional premises, such as a kitchen, pantries, a bathroom, engineering communications of a finished dwelling, such as plumbing, electrical, heating and air conditioning installations, as well as sockets for utilities,

production outside the site of the side walls, roof, floor, columns and beams that are necessary in combination with the modular part to form a full-fledged dwelling, building on the foundation site of a larger horizontal area than the central modular part,

placement of the central modular part on the foundation part, i.e. erection on other parts of the foundation, spaced horizontally relative to the central modular part, side walls made outside the site,

connection of the side walls and the central modular part with beams,

construction of a roof resting on the side walls, the central modular part and beams,

arrangement of the floor in the spaces between the side walls and the central modular part, and

fencing with walls of open spaces between the central modular part, the roof and the side walls.

The main technical problem of the prototype is the lack of versatility, since for the construction, determined by the number of building modules, an individual approach is required in the calculations and production of individual elements of the frame-and-beam structure. In addition, the connection of modules using this technology is laborious.

The objective of the invention is to eliminate the disadvantage of the prototype.

The technical result of the invention is to ensure the versatility of construction and the possibility of creating a complete and ready-to-use modular building cell.

The specified technical result is achieved due to the fact that the modular cell of the building, containing frame-beam and panel structures, characterized in that the cell is made in the form of a through hollow building module in the form of a rectangular parallelepiped, the panel structure of the modular cell is enclosed inside the frame-beam structure, panel the structure is formed by the planes of the floor, side walls and ceiling and is made of panels of sheet material, interconnected in the adjacent planes of the side walls to the plane of the floor and ceiling by a lock joint, forming an open external corner joint between the planes at their joints, the frame-beam structure is made from separate frames of the base, ceiling and side walls, made in the form of rectangular lattice frames, according to the size of the planes of the panel structure, taking into account the corner joints protruding beyond the planes and formed at the junctions of adjacent planes of the corner joints with the possibility of installation in the indicated corner joints of the extreme transverse beams of the frames of the base and ceiling frames, and to the joints and to the extreme transverse beams of the frames of the mentioned frames of the extreme transverse beams of the frames of the frames of the side walls, to the frames of the side walls and the ceiling, crates formed by longitudinal guides and horizontal jumpers are mounted from the outside, while the outer corners of the guide battens at their junctions are made bevelled in an arc with the possibility of their smooth mating, the base filing is mounted to the base frame, the roofing layer is mounted to the roof batten, the wall cladding is mounted to the wall battens, while the upper and lower ends of the wall cladding are bent along arc inwards, with the possibility of mounting and snug fit to the arc-coupled wall and roof battens with access to the roof batten and base filing, rings are mounted on the open sides of the modular cell, covering the space of the modular cell between the floor panels, side walls, ceiling and base willows of the base, wall sheathing, sub-roofing layer, respectively.

In particular, the panels in the same plane are interconnected by a locking connection.

In particular, the adjacent surfaces of the frame-and-beam structure are conjugated with each other along an arc.

In particular, the connection of the panels to each other in one plane and in adjacent planes is made by a spiked detachable connection.

In particular, grooves are made in the side longitudinal beams of the floor and ceiling frame and symmetrically in the floor and ceiling panels with the possibility of mounting vertical poles into these grooves, connecting the floor and ceiling frames to each other and fixing the floor and ceiling panels inside the frame-and-beam structure.

In particular, the cells of the lattice frames of the frames are filled with heat-insulating material.

In particular, the open sides of the module cell are covered by a partition.

In particular, openings are made in the wall.

In particular, the open sides of the module cell are glazed.

Brief description of the drawings.

Figure 1 shows the assembly drawing of the modular cell of the building.

Figure 2 shows a General view of the modular cell of the building.

Figure 3 shows a General view of a one-story building of modular cells.

The figures indicate: 1 - base filing, 2 - base frame, 3 - floor panels, 4 - side wall panels, 5 - ceiling panels, 6 - floor frame, 7 - roof lathing, 8 - subroofing layer, 9 - pillars, 10 - inner ring, 11 - outer ring, 12 - wall frame, 13 - wall lathing, 14 - wall sheathing, 15 - decorative rail.

Implementation of the invention.

The modular cell of the building is made in the form of a through hollow building module in the form of a rectangular parallelepiped formed by the floor, ceiling and two opposite side walls and is a panel structure enclosed inside a frame-and-beam structure.

The adjoining surfaces of said modular cell of the building are conjugated with each other along an arc.

The panel structure is formed by the planes of the floor, side walls and ceiling, made of sheet, mainly wood-based materials, such as plywood, OSB, etc.

Said planes are formed by floor panels 3, side walls 4, ceiling 5 (see Figure 1) made of sheet material, interconnected by a lock joint, both in the same plane and in the adjacent planes of the side walls to the plane of the floor or ceiling.

The connection of the said floor panels 3 or side walls 4 or ceiling 5 in one plane is made with a spiked detachable connection, for example, a dovetail or puzzle connection, for which purpose in adjacent floor panels 3 or side walls 4 or ceiling 5 on adjacent on each other, alternating grooves and spikes corresponding to each other are made (not shown in the figures).

The connection of floor panels 3 adjoining each other and side wall panels 4 or side wall panels 4 and ceiling 5 is also made with a spike connection, for which purpose alternating grooves and spikes corresponding to each other are made in the panels adjacent to each other, on adjacent sides, at the same time, the spikes are formed at the junction of adjacent floor panels 3 located in the same plane and side wall panels 4 or side wall panels 4 and ceiling 5 and are made protruding beyond the planes of said panels, forming an open outer corner joint between the planes at their junctions.

The frame-and-beam structure is a base frame 2, ceiling 6 and side walls 12 in the form of rectangular lattice frames (see Figure 2), consisting of longitudinal and transverse beams and made to measure floor panels 3, ceiling 5 and side walls 4, respectively taking into account protruding beyond the plane of the interconnected floor panels 3 and side wall panels 4 or side wall panels 4 and ceiling 5 spikes forming corner joints at the junctions of adjacent planes. The frames of the frames of the base and the ceiling 6 are mounted in such a way that their extreme transverse beams are mounted in the corner joints mentioned above, formed by 3-5 spikes protruding outward from the plane of the panels, and the extreme transverse beams of the frame frames of the side walls 12 are mounted below the corner joints to the spikes and to to the transverse beams of the ceiling frame 6 and on top of the corner joints to the spikes and to the transverse beams of the base frame 2, forming a solid stable regular structure for further assembly of the modular cell.

Frame beams 2, 6, 12 are made of profiled, mainly wooden beams.

In the side longitudinal beams of the floor frame 2 and ceiling 6, grooves are made, symmetrically to which similar grooves are made in the floor panels 3 and ceiling 4 with the possibility of mounting vertical pillars 9 into these grooves and connecting the floor frames 2 and ceiling 6 with these pillars 9 to each other and fixing floor panels 3 and ceiling 4 inside the frame-and-beam structure.

To the frames of the side walls 12 and the ceiling 6, the battens of the walls 13 and the roof 7, respectively, are mounted outside, containing longitudinally located guides, with grooves made in one of their longitudinal faces, in which horizontal jumpers protruding beyond the plane of the mentioned guides are mounted, thus forming a three-dimensional lattice open end design. The upper outer corners of the guiding wall battens 13 and the outer corners of the guiding roof battens 7 are made oblique in an arc to the edge in which the grooves are made with the possibility of mating at the junction of the said guiding roof battens 7 and walls 13. The frames 6, 12 are made mainly of boards.

Outside, to the frame of the base 2, the base filing 1 is mounted, to the roof batten 7, the subroofing layer 8 is mounted, to the battens of walls 7, wall sheathing 14 is mounted. the arc of the guides of the wall lathing 14 and the roof lathing 7 with entry to the roof lathing 7 and the base filing 1.

The lining of the base 1 and the sub-roof layer 8 are made of sheet wood chip materials, for example, OSB, plywood, etc.

Wall cladding 13 is predominantly made of plywood.

The cells of the lattice frames of the frames of the base 2, the ceiling 6 and the side walls 12 and/or the lathing of the walls 13 and the roof 7 are filled with heat-insulating material.

On the sides of the modular cell of the building, inner rings 10 are mounted, made mainly of LVL timber, covering the spaces of the modular cell between the panels of the floor 3, side walls 4, ceiling 5 and base lining 1, wall cladding 14 and subroofing layer 8, respectively. The shape of the inner ring 10 inside and outside repeats the shape of the modular cell of the building inside and outside.

On top of the inner rings 10, outer rings 11 are mounted, made mainly of plywood 11, repeating the outlines inside and outside the inner ring 10.

A decorative rail is mounted on top of the wall cladding 14.

In addition to these materials, and the most commonly used option, in which the modular cell of the building can be made mainly of wooden materials such as plywood, profiled beams and the like, the construction of the modular cell can be made of any known materials that have the required design characteristics.

EFFECT: ensuring the universality of construction and the possibility of creating a complete and ready-to-use modular cell of the building is ensured by:

due to the arrangement of the elements of the modular cell of the building, its inner surface forms the internal space of the building for its subsequent finishing or zoning with additional internal walls and partitions;

production in the conditions of the workshop in the dimensions of a standard transport for delivery to the place of construction of the building when used in modular, including multi-storey, construction;

unification of production by creating the same type of panels, beams, etc., which can be produced as kits for subsequent delivery and assembly;

installation or assembly on a foundation or base of any type;

varying the number of modular cells during the construction of the building at the request of the buyer;

wide possibilities of using a modular cell for both temporary and permanent residence, as a personal country house, for equipping tourist camps and recreation centers, for equipping places of residence near production, for organizing an office, for organizing an exhibition or presentation stand and any other needs.

Sanitary equipment (shower, toilet), kitchen area, living area, etc. can be placed in one modular cell of the building. considering zoning. The open sides of the modular cell of the building can be closed tightly with a wall, while door and/or window openings can also be made in said wall. In addition, said sides of the cell may be fully or partially glazed.

Claims (9)

1. A modular cell of a building containing a frame-beam and panel structure, characterized in that the cell is made in the form of a through hollow building module in the form of a rectangular parallelepiped, the panel structure of the modular cell is enclosed inside the frame-beam structure, the panel structure is formed by the planes of the floor, side walls and the ceiling and is made of panels of sheet material, interconnected in the adjacent planes of the side walls to the plane of the floor and ceiling by locking, forming between the planes at the points of their connection an open outer corner joint, the frame-beam structure is made of separate frames of the base, ceiling and side walls made in the form of rectangular lattice frames, according to the size of the planes of the panel structure, taking into account the corner joints protruding beyond the planes and formed at the junctions of the planes adjacent to each other with the possibility of installation in the specified corner joints of the extreme transverse beams of the frame frames at the base and ceiling, and to the joints and to the extreme transverse beams of the frames of the said frames of the extreme transverse beams of the frames of the frames of the side walls, to the frames of the side walls and the ceiling, laths are mounted outside, formed by longitudinal guides and horizontal lintels, while the outer corners of the guide crates in their places the joints are made bevelled in an arc with the possibility of their smooth mating, the base filing is mounted to the base frame, the roofing layer is mounted to the roof sheathing, the wall sheathing is mounted to the wall sheathing, while the upper and lower ends of the wall sheathing are made bent inward along an arc, with the possibility of mounting and a snug fit to the wall and roof lathing coupled along the arc with entry to the roof lathing and base sheathing, rings are mounted on the open sides of the modular cell, covering the space of the modular cell between the floor panels, side walls, ceiling and base sheathing, wall sheathing, under-roofing layer corresponding venno. 2. Modular cell according to claim 1, characterized in that the panels in the same plane are interconnected by a lock connection. 3. Modular cell according to claim 1, characterized in that the adjacent surfaces of the frame-and-beam structure are connected to each other in an arc. 4. Modular cell according to claim 1, characterized in that the connection of the panels to each other in one plane and in adjacent planes is made with a spiked detachable connection. 5. Modular cell according to claim 1, characterized in that in the side longitudinal beams of the floor and ceiling frame and symmetrically in the floor and ceiling panels, grooves are made with the possibility of mounting vertical posts into these grooves, connecting the floor and ceiling frames to each other and fixing the floor panels and ceiling inside the frame-beam structure. 6. Modular cell according to claim 1, characterized in that the cells of the lattice frames of the frames are filled with heat-insulating material. 7. Modular cell according to claim 1, characterized in that the open sides of the modular cell are closed by a partition. 8. Modular cell according to claim 7, characterized in that openings are made in the partition. 9. Modular cell according to claim 1, characterized in that the open sides of the modular cell are glazed.

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