RU2606997C1 - Combined building structure and method of its constructing - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: group of inventions relates to construction. Combined building structure includes a frame containing reinforced-concrete pylons and intermediate plates, mounted on the frame by fasteners multilayer panels, skin facing with a lining material and inner lining. Multilayer panels consist of dried boards of an arbitrary width attached to each other along the plane with the help of aluminium nails and having openings for doors and windows. Method of constructing the combined building structure includes erection of the frame containing reinforced-concrete pylons and intermediate plates. On the ready frame with the help of fasteners multilayer panels are installed consisting of dried boards of an arbitrary width attached to each other along the plane with the help of aluminium nails and having openings for doors and windows.

EFFECT: technical result is providing high thermal properties of the structure, reduced time of assembling, reduced labour costs at erection and simplicity of assembling.

4 cl, 2 dwg

Description

The group of inventions relates to the field of construction, in particular to combined building structures containing lengthy parts of concrete and multilayer panels of wood, and to methods for their construction. The group of inventions can be used in the construction of buildings for various purposes.

It is known from the prior art that an external multilayer structure containing an outer layer of prefabricated panels, fixed by metal ties to the supporting structures of a building with the formation of horizontal and vertical air gaps between them, a ventilated air gap, an intermediate insulation and an inner layer of individual elements and / or small pieces details. In this case, the outer layer is made in the form of a light decorative panel consisting of a metal frame made of bent sheet profiles with vertical Z, U-shaped and horizontal L-shaped elements, with a decorative lining fixed to it. On the inner side of the panel lining are systems of support brackets of the L-shaped form and a metal mesh of wire with a diameter of 2-6 mm with a cell of 150-200 mm. Moreover, each panel of the outer layer is installed relative to adjacent panels with gaps of 5-20 mm (see RF patent No. 2335606, class IPC EV 2/88, publ. 10.10.2008).

The disadvantages of the known device are that it is laborious to perform, has a complex assembly and requires the use in the construction of "wet" processes using cement or other binders.

In addition, from the prior art, a structure is known that comprises floor slabs with consoles, columns resting on the console with multilayered exterior walls including inner, middle and facade layers. Each console is made in the form of a trapezoid, the larger base of which is placed inside the floor slab, and the overhang of the console is no more than the thickness of the outer wall, and the middle layer of the outer wall includes a spatial panel of light thin-walled elements - belts, racks, ties, braces that formed a spatial panel, and the space between the consoles, the inner layer and the facade layer of the outer wall is filled with insulation (see RF patent No. 2381334, class IPC EB04 1/18, 02/10/2010).

The disadvantages of the known device are that it is time consuming to perform, has a complex assembly, and also has low thermal properties.

In addition, there is a known method of erecting a building structure, which includes floor installation of the outer layer from prefabricated panels, fastening the latter to the building supporting structures with metal ties, sequential installation of an intermediate insulation layer from the inside of the building with the formation of a ventilated air gap and an inner layer. At the same time, the outer panel is attached from the inside of the building simultaneously or sequentially with window blocks to a pre-made metal supporting frame, after which an intermediate insulation layer is mounted on a metal mesh fixed to the inside of the decorative panel (see RF patent No. 2335606, class IPC Е04В 2 / 88, published on 10/10/2008).

The disadvantages of this method of construction are the phased assembly of individual elements directly at the installation site, which increases the complexity of the construction, as well as the use in the construction of "wet" processes using cement or other binders.

A known method of construction of a building, in which they erect the frame of the building, including installing a floor slab with consoles on the columns. Then, the outer wall is mounted, for which the spatial panel is laid on the console with a belt so that the racks are placed directly on the consoles, and it occupies about 1/4 of the floor slab and 3/4 of the consoles, having previously put a thermal insulation pad under the spatial panel. After that, a windproof film and / or waterproofing layer is placed on the spatial panel from the outside and mounting profiles are installed on which the facade layer of the outer wall is fixed. Then, the inner layer of the outer wall is mounted on the inside, after installing the vapor barrier layer. The inner cavity between the inner layer and the facade layer of the outer wall is filled with insulation. In the manufacture of the facade layer, which includes piece blocks, an element is used to attach the piece blocks to the spatial panel in the form of an additional rack of a C-shaped profile and an elastic element, the ends of which are not closed and made in the form of grips. Moreover, the additional rack is rigidly connected to the spatial panel, and the ends of the C-shaped profile are bent inside the profile. At the same time, the grips of the elastic element are wound behind the bent ends of the C-shaped profile, forming a fairly rigid connection that reliably holds the masonry of piece elements (see RF patent No. 2381334, IPC EV 1/18, 02/10/2010).

The disadvantages of the known solutions are the large installation time, as well as low thermal properties of the building structure.

The objective of this group of inventions is to eliminate the above disadvantages.

The general technical result is to ensure high thermal properties of the structure, reducing installation time, reducing the complexity of the construction and ease of assembly.

The technical result is ensured by the fact that the combined construction includes a frame containing reinforced concrete pylons and floor slabs installed on the frame using fasteners with multilayer panels, cladding with cladding material and internal cladding. Multilayer panels consist of dried boards of arbitrary width, fastened to each other in a plane with aluminum nails, and have openings for doors and windows. Boards are attached to the bottom of each multilayer building panel in such a way that during installation the multilayer building panel is made with the possibility of support on the floor slabs and with the projection of the building frame 40 mm outward. A gasket is installed at the top of the panel. The gap between the panels and the floor slabs is filled with insulation, the panels are made with the possibility of their joint in the vertical direction by simultaneously connecting a pair of panels to each other with a gap of up to 100 mm and fixing them to the pylon by means of fasteners, including the embedded part in the pylon and T-shaped fasteners. The gap between the panels, fixed in the vertical direction, is filled with a sealant.

In accordance with particular cases of execution, the device has the following features.

Each pylon provides the possibility of fixing to it in the vertical direction of the panels with a pitch of 600 mm.

In addition, the technical result is ensured by the fact that the method of construction of a combined building construction includes the construction of a frame containing reinforced concrete pylons and floor slabs. Multilayer panels consisting of dried boards of arbitrary width, fastened to each other on a plane with the help of aluminum nails, and having openings for doors and windows are installed on the finished frame using fasteners. Boards are attached to the bottom of each multilayer building panel so that during installation the multilayer building panel rests on the floor slabs and protrudes 40 mm outside the building frame, and a sealant is installed in the upper part of the panel. The gap between the panels and floor slabs is laid with insulation. The panels are joined in the vertical direction by simultaneously connecting a pair of panels to each other with a gap of up to 100 mm and fixing them to the pylon by means of fasteners, including a embedded part in the pylon and a T-shaped fastener. The panels are fixed to the pylon in increments of 600 mm. The gap between the panels is filled with a sealant, sheathed with a facing material, and inner lining is made.

In accordance with the particular case of the implementation of the method provides the following features.

The panels are additionally fixed using anchors, self-tapping screws and angles having oval holes.

The essence of this group of inventions is illustrated by the following illustrations:

FIG. 1 - displays the principle of fastening multilayer panels in the vertical direction to the pylon;

FIG. 2 - displays the mounting unit of the multilayer panels to the pylon.

The illustrations show the following features:

1 - reinforced concrete pylon;

2 - multilayer panel:

3 - embedded part;

4 - T-shaped fixture;

5 - a nut.

The combined construction includes a frame containing reinforced concrete pylons 1 and floor slabs mounted on the frame using fasteners multi-layer panels 2, lining with cladding material and inner lining. Pylons 1 are elongated in cross section rectangular columns. Through the height of each pylon with a pitch of 600 mm, a through hole is made, allowing the embedded part 3 to pass through it, made in the form of a pipe, a T-shaped fastener 4 is rigidly fixed to one of its ends, and a thread is cut on the other, which allows fixing the nut 5. T -shaped fasteners 4 are made in such a way that allows the multi-layer panels 2 to be fixed in the opposite direction in the vertical direction. Such a design principle makes it easier to assemble, speed it up, and eliminate the use of “wet” processes.

Used multilayer panels 2 consist of dried boards of arbitrary width, fastened to each other in a plane with aluminum nails, and have openings for doors and windows. The use of multilayer panels 2 in the design will provide improved thermal characteristics, while the heat transfer resistance of the erected wall of 205 mm is 3.5 (m ² × s) / W, which exceeds the standards for most structures by more than 30%. In addition, it was found that the erected walls of the structure reflect approximately 97.5% of the ubiquitous high-frequency radiation and electric smog. There is a protection zone in the walls of your own home, guaranteeing security for residents.

Boards are attached to the lower part of each multilayer building panel 2 in such a way that during installation the multilayer building panel is made with the possibility of support on the floor slabs and with the projection of the building frame 40 mm outward.

A seal is installed in the upper part of the panel, the quality of which can be used with a polyurethane or rubber product.

The gap between the multilayer panels 2 and the floor slabs is filled with insulation, which is used as mineral wool, thermal insulation cotton, cellulose "ecowool", various foams (polystyrene, polyethylene, urea, etc.), etc.

The multilayer panels 2 are made with the possibility of their joining in the vertical direction by simultaneous opposite connection of a pair of panels with each other with a gap of up to 100 mm and fixing them to the pylon 1 by means of fasteners, including an embedded part 3 in the pylon, a T-shaped fastener 4 and a nut 5. Fixation of multilayer panels 2 with a large gap will degrade the thermal properties of the structure.

The gap between the panels, fixed in the vertical direction, is filled with a sealant, which is used as a polyurethane or rubber product. Filling with a sealant completely eliminates the formation of cold bridges.

As additional fasteners, anchors, self-tapping screws and angles with oval holes are used. Such fasteners are used to fix the panels 2 in a horizontal direction. In this case, the corners with oval holes are due to the presence of linear expansion of the tree.

The method is as follows.

Installation of a house with an area of 100 to 200 m ² takes 4 to 7 working days.

A method of erecting a combined building construction includes erecting a frame containing reinforced concrete pylons 1 and floor slabs. Multilayer panels 2 are installed on the finished frame using fasteners, consisting of dried boards of arbitrary width, fastened to each other on a plane with aluminum nails, and having openings for doors and windows. Boards are attached to the bottom of each multilayer building panel 2 in such a way that, during installation, the multilayer building panel 2 rests on the floor slabs and protrudes 40 mm outside the building frame. In the upper part of the panel 2 install a seal. The gap between the panels and floor slabs is laid with insulation. The panels are joined in the vertical direction by simultaneously connecting a pair of panels to each other with a gap of up to 100 mm and fixing them to the pylon 1 by means of fasteners, including the embedded part 3 in the pylon 1, the T-shaped fastener 4 and the nut 5. The panels 2 are also fastened in the vertical and horizontal direction using anchors, self-tapping screws and corners with oval holes.

The fixing of the panels 2 to the pylon 1 is carried out in increments of 600 mm. The gap between the panels 2 is filled with a sealant, sheathed with a facing material, and inner lining is made. The construction method allows you to use any kind of internal and external decoration. Interior decoration - drywall, painting, wallpaper, etc. Exterior finish - brick, stone, tile, plaster, siding, thermal panels, etc. Additionally, the inner sides of the panels 2 can be sewn up with external and internal steam-waterproofing membranes of increased strength.

Claims (4)

1. A combined building structure comprising a frame containing reinforced concrete pylons and floor slabs mounted on the frame using fasteners multilayer panels, cladding with cladding material and internal cladding, characterized in that the multilayer panels consist of dried boards of arbitrary width bonded to each other on a plane with aluminum nails, and have openings for doors and windows, boards are attached to the bottom of each multilayer building panel so that when m on the floor, a multilayer building panel is made with the possibility of supporting it on floor slabs and with a projection of the building frame 40 mm outward, a sealant is installed in the upper part of the panel, the gap between the panels and floor slabs is filled with insulation, the panels are made with the possibility of their joint in the vertical direction by means of simultaneous connection pairs of panels with each other with a gap of up to 100 mm and fixing them to the pylon by means of fasteners, including the embedded part in the pylon and T-shaped fasteners, and the gap between the panels fixed in the vertical direction, filled with a sealant. 2. The construction under item 1, characterized in that each pylon provides the ability to fix to it in the vertical direction of the panels with a pitch of 600 mm. 3. The method of construction of a combined building structure, including the construction of a frame containing reinforced concrete pylons and floor slabs, characterized in that the finished frame is installed using fasteners multilayer panels consisting of dried boards of arbitrary width, fastened to each other in a plane with aluminum nails, and having openings for doors and windows, boards are attached to the bottom of each multilayer building panel in such a way that when mounting the multilayer The main panel rests on the floor slabs and extends 40 mm outside the building frame, a seal is installed in the upper part of the panel, the gap between the panels and floor slabs is insulated, the panels are joined in the vertical direction by simultaneously connecting a pair of panels to each other with a gap of up to 100 mm and fixing them to the pylon by means of fasteners, including the embedded part in the pylon and T-shaped fasteners, fixing the panels to the pylon is carried out in increments of 600 mm, the gap between the panels is filled with a sealant, sheathed tsovochnym material, producing an inner liner. 4. The method according to p. 3, characterized in that the panels are additionally fastened using anchors, self-tapping screws and angles having oval holes.

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