RU164428U1 - CONSTRUCTION PRODUCT - Google Patents

Abstract

1. A building product comprising an outer panel, a layer of heat-insulating material containing basalt fiber and attached to the outer panel, and a frame attached to the outer panel along its entire perimeter, characterized in that the heat-insulating material is attached along the entire surface to the rough side of the outer panel using a layer of composite material 625 mm wide formed under pressure, containing polyurethane with a filler of basalt fiber and wood as a binder. 2. A construction product according to claim 1, characterized in that the outer panel has a width of 625 mm, a length of 2500-3000 mm, a thickness of 9-22 mm, and the thickness of the layer of thermal insulation material is 50-1000 mm, and the density of the thermal insulation material is 50-105 kg / m, in addition, the layer of composite material is made with a gradient of its width. 3. A construction product according to claim 2, characterized in that the outer panel is made of long wood chips glued with synthetic resins. 4. A construction product according to claim 2, characterized in that the outer panel is made in the form of a wood-cement slab. 5. A construction product according to claim 2, characterized in that the outer panel is made in the form of plate material. Construction product according to any one of paragraphs. 1-5, characterized in that the voids between the frame and the layer of thermal insulation material are filled with polyurethane foam.

Description

The invention relates to a composite slab used in the construction of static structures, in particular, a load-bearing element used in the construction of frame-panel houses.

An external insulation system of buildings is known from the “BACKGROUND OF THE INVENTION”, comprising: insulating elements covered with finishing plates fixed to a plurality of profiles installed on a wall to be insulated, while the insulating elements and profiles are held by consoles containing a substantially flat first portion for support and mounting on the wall to be insulated and a substantially flat second part of the support, holding and fastening at an adjustable distance from the specified wall on the first, forming the base, essentially flat part of the profile, which also contains the head of the second essentially flat part, which serves as a support for the support for the tiles, said head second part containing, in particular, one or two return wings, and the consoles are made of material with thermal conductivity not exceeding 0.5 In / (m · K) (RF patent No. 2549948 C2, class IPC Е04В 1/76, publ. 05/10/2015).

In addition, from the "prior art" known external wall mounted panel, including the outer and inner layers, the layer of heat-insulating material located between them and the frame frame of metal profiles having a wall and shelves located at an angle to it. The walls of the profiles in width are made, for example, curved inward with the formation of a protrusion of a rectangular or trapezoidal section, on the outer surfaces of the shelves the outer and inner layers are fixed, which are made of cement-bonded plates attached to the shelves of metal profiles, for example, self-tapping screws formed between the cement - with chipboard plates inside the frame frame, the cavity is filled with insulating material, on the other hand, a layer of glue "LNPP" is applied to the outer layer plate, to which is attached en the outer layer of insulation on the outer surface of which the same adhesive "SELA" strengthened glass net, on which a textured structure "SELA" (RF Patent №42049U1, cl. IPC E04S 2/00, publ. 20.11.2004).

The disadvantages of the known devices are low strength characteristics due to the principle of fastening of the insulating material, as well as the possibility of sagging layer of mineral wool, due to its high density equal to 140-180 kg / m ³ .

The technical result consists in improving the characteristics of the device by increasing the strength.

The technical result is ensured by the fact that the building product includes an outer panel, a layer of heat-insulating material containing basalt fiber and attached to the outer panel, and a frame attached to the outer panel around its entire perimeter. The heat-insulating material over its entire area is attached to the rough side of the outer panel using a layer of composite material formed under pressure of 625 mm wide, containing polyurethane with a filler of basalt fiber and wood as a binder.

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

The outer panel has a width of 625 mm, a length of 2500-3000 mm, a thickness of 9-22 mm, and the thickness of the layer of thermal insulation material is 50-1000 mm, and the density of the thermal insulation material is 50-105 kg / m ³ , in addition, a layer of composite material is made with a gradient of its width.

The outer panel can be made of long wood chips glued with synthetic resins.

The outer panel can be made in the form of a wood-cement slab.

The outer panel can be made in the form of plate material

The voids between the frame and the layer of thermal insulation material are filled with polyurethane foam.

The essence of this utility model is illustrated by an illustration, which displays a General view of the device.

The following elements are shown in the illustration;

1 - outer panel;

2 - a layer of thermal insulation material;

3 - frame elements.

The building product includes an outer panel 1, a layer of thermal insulation material 2 attached to the outer panel, and frame members 3 attached to the outer panel around its perimeter. Thermal insulation material 2 is a basalt fiber, with a density of 50 to 105 kg / m ³ . In this case, the outer panel 1 is located with its rough side towards the heat-insulating material 2, and the heat-insulating material 2 is attached to the outer panel 1 using a layer of composite material containing polyurethane as a binder. The necessary structural rigidity is provided by the use of basalt wool, with a density of 50 to 105 kg / m ³ . In addition, the strength characteristics are affected by the presence of a layer of composite material with a width of 625 mm, fastening the heat-insulating material 2 with the outer panel 1 over the entire area. A composition based on polyurethane can be used to form the layer. In the process of attaching to the heat-insulating material 2, pressure is applied, due to which a change in the qualitative composition of the composition occurs. The layer of composite material contains polyurethane with a filler of basalt fiber and wood as a binder.

When performing a layer of composite material more than 625 mm, the stiffness of the product decreases, while there is a possibility of sagging layer of mineral wool. When performing a composite layer of less than 625 mm, the filler content in the composite material increases, which also negatively affects the strength characteristics of the product.

The outer panel 1 has a width of 625 mm, a length of 2500-3000 mm, a thickness of 9-12 mm, and the thickness of the layer of thermal insulation material is 50-1000 mm, in addition, the layer of composite material is made with a gradient of its width. The width of the layer varies from 1 to 5 cm.

The use of external panels 1 with a width of 625 mm is due to the fact that the weight of the panels increases due to the use of denser insulation material 2 and rather heavy external panels 1. This has led to the need to reduce the width of the building product. However, this provided a positive effect, namely, that the more frequent lattice of the power frame doubles the rigidity of the wall structure, floor, partition. The use of panels 1 of a smaller width can lead to its destruction during exposure to pressure or during operation of the product.

The outer panel 1 may be made of long wood chips glued with synthetic resins.

The outer panel 1 can be made in the form of a wood-cement slab.

The outer panel can be made in the form of any plate-sheet materials.

As elements of the frame 3, boards of 40 × 100, or 40 × 150, or 50 × 150, or 50 × 200 mm in size are used, etc., while the voids between the frame 3 and the layer of thermal insulation material 2 are filled with polyurethane foam.

Building products are produced as follows. Example 1

The outer panels 1 based on binder and wood, having a length equal to 2500 mm, a width of 625 mm, a thickness of 9 mm, are laid with the rough side towards the basalt fiber having a density of 50 kg / m ³ and a thickness of 50 mm. A polyurethane-based composition is applied to the surface of the panels so that a continuous layer forms between the outer panel 1 and the basalt fiber. A pressure of 0.15-0.17 MPa is applied for 20-40 minutes so that a layer is formed containing polyurethane as a binder with a filler of basalt fiber and wood.

Next, to the surface of the outer panel 1, fasteners attach the elements of the frame 3, which use boards (40 × 100 in size). The voids between the frame and the layer of thermal insulation material 2 are filled with polyurethane foam.

Example 2

The outer panels 1 based on binder and wood, having a length of 3000 mm, a width of 625 mm, a thickness of 22 mm, are laid with the rough side towards the basalt fiber having a density of 75 kg / m ³ and a thickness of 1000 mm. A polyurethane-based composition is applied to the surface of the panels so that a continuous layer forms between the outer panel 1 and the basalt fiber. A pressure of 0.15-0.17 MPa is applied for 20-40 minutes so that a layer is formed containing polyurethane as a binder with a filler of basalt fiber and wood.

Further, to the surface of the outer panel 1, fasteners attach the elements of the frame 3, which use boards (50 × 200 mm in size). The voids between the frame and the layer of thermal insulation material 2 are filled with polyurethane foam.

Example 3

The outer panels 1 based on binder and wood, having a length equal to 2600 mm, a width of 625 mm, a thickness of 20 mm, are laid with a rough side towards a basalt fiber having a density of 105 kg / m ³ and a thickness of 200 mm. A polyurethane-based composition is applied to the surface of the panels so that a continuous layer forms between the outer panel 1 and the basalt fiber. A pressure of 0.15-0.17 MPa is applied for 20-40 minutes so that a layer is formed containing polyurethane as a binder with a filler of basalt fiber and wood.

Further, to the surface of the outer panel 1, fasteners attach the elements of the frame 3, which use boards (50 × 150 in size). The voids between the frame and the layer of thermal insulation material 2 are filled with polyurethane foam.

Claims (6)

1. A building product comprising an outer panel, a layer of heat-insulating material containing basalt fiber and attached to the outer panel, and a frame attached to the outer panel along its entire perimeter, characterized in that the heat-insulating material is attached along the entire surface to the rough side of the outer panel using a layer of composite material formed under pressure of 625 mm wide, containing polyurethane with a filler of basalt fiber and wood as a binder. 2. A building product according to claim 1, characterized in that the outer panel has a width of 625 mm, a length of 2500-3000 mm, a thickness of 9-22 mm, and a thickness of the layer of thermal insulation material is 50-1000 mm, and the density of the thermal insulation material - 50-105 kg / m ³ , in addition, a layer of composite material is made with a gradient of its width. 3. The construction product according to claim 2, characterized in that the outer panel is made of long wood chips glued with synthetic resins. 4. The construction product according to claim 2, characterized in that the outer panel is made in the form of a wood-cement board. 5. The construction product according to claim 2, characterized in that the outer panel is made in the form of a plate-sheet material. 6. A construction product according to any one of paragraphs. 1-5, characterized in that the voids between the frame and the layer of thermal insulation material are filled with polyurethane foam.

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