RU212429U1 - BUILDING WALL ROOF SANDWICH PANEL - Google Patents

Abstract

The utility model relates to building sandwich panels for the manufacture of buildings of non-stationary retail facilities, household insulated premises, containers, and other low-rise construction objects installed without a special base (foundation). The technical result of the utility model is to reduce the weight of the building sandwich panel, which is achieved due to the fact that the building wall roofing sandwich panel, including a frame, inner and outer layers, forming a shell with a cavity filled with insulation, characterized in that it is located on top of the inner layer the first inseparable layer of insulation, on top of which there is a frame made in the form of steel thin-walled rolled products, the cavities of which are filled with a second layer of insulation, on top of which the outer layer is located. 6 w.p. f-ly, 3 ill.

Description

The utility model relates to building sandwich panels for the manufacture of housings for non-stationary retail facilities, domestic insulated premises, containers, and other low-rise construction objects installed without a special base (foundation) [E04C2/26, E04C2/29, E04C2/28].

The prior art CORROSION-RESISTANT SANDWICH PANEL FROM SOLID POLYURETHANE WITH METAL SURFACE [CN215106391, publ. 12/10/2021], which contains a sandwich panel body with a main layer, the surface of the main layer is rigidly connected to the heat-shielding layer by means of glue, the surface of the heat-shielding layer is rigidly connected to the sound-proofing layer by means of glue, the surface of the sound-proofing layer is rigidly connected to the sealing moisture-proof layer by means of glue, the surface sealing moisture-proof layer is rigidly connected to the fire-retardant layer by means of glue, and the surface of the fire-retardant layer is rigidly connected to the metal outer layer by means of glue.

The disadvantage of this analogue is:

the complexity of production, due to the presence of a large number of layers;

low resistance to deflection, due to the lack of a supporting frame;

high weight, due to the use of materials with high density indicators.

Also known from the prior art WALL MULTILAYER PANEL [RU 99041, publ. 11/10/2010], which includes two surface layers made of metal sheets, between which internal heat-insulating layers are placed, stacked layer by layer in rows with dressing of seams, preferably in adjacent layers in such a way that one heat-insulating layer is displaced relative to the other by a distance not less than the thickness of the layer, but not more than 1/2 of the horizontal size of one layer, characterized in that between the metal sheets and the heat-insulating layers there are protective layers made of polyurethane foam, rigidly fastened to the metal sheets with a tongue-and-groove type of lock, while the heat-insulating layers are made of evacuated nanostructured heat-insulating boards bonded together with an adhesive composition.

The disadvantage of this analogue is:

the complexity of manufacturing, due to the need to shift the heat-insulating layers in a given range of values;

low resistance to deflection, due to the lack of a supporting frame.

The closest in technical essence is the PANEL AND METHOD OF ITS MANUFACTURE [RU 2158338, publ. October 27, 2000], which includes a frame, front and rear walls, forming a shell with a cavity filled with filler, characterized in that the front wall is made of mesh-reinforced multi-layer plaster, consisting of lining, leveling and finishing layers, and the back wall is made of monolithic or foamed polymer.

The main technical problem of the prototype is its heavy weight due to the fact that the frame occupies the entire internal space between the front and rear walls, as a result, the weight of the panel increases significantly. In addition, the prototype solution uses multi-layer plaster, which also increases the weight of the panel and limits its use in the construction of temporary non-stationary objects.

The purpose of the utility model is to eliminate the shortcomings of the prototype.

The technical result of the utility model is to reduce the weight of the construction sandwich panel.

The specified technical result is achieved due to the fact that the building wall roofing sandwich panel, including a frame, inner and outer layers, forming a shell with a cavity filled with insulation, characterized in that, on top of the inner layer, there is the first inseparable layer of insulation, on top of which the frame is located, made in the form of steel thin-walled rolled products, the cavities of which are filled with a second layer of insulation, on top of which there is an outer layer.

In particular, the inner and outer layers are made of polymer-coated steel sheets.

In particular, the first and second layers of insulation are made in the form of expanded polystyrene plates with flame retardant additives, while the layers of the building sandwich panel are connected by means of an adhesive base.

In particular, the first and second layers of insulation are made in the form of boards with PIR filler.

In particular, the first and second layers of insulation are made in the form of boards with PUR filler.

In particular, the first and second layers of insulation are made in the form of high-density mineral wool boards, while the layers of the building sandwich panel are connected by means of an adhesive base.

In particular, the first and second layers of insulation are made in the form of foam glass plates, while the layers of the building sandwich panel are connected by means of an adhesive base.

Brief description of the drawings

In FIG. 1 shows a general view of the layers of a building sandwich panel.

In FIG. 2 shows a general view of the building sandwich panel assembly.

In FIG. 3 shows an example of the use of building sandwich panels for the construction of a non-stationary residential facility.

The figures indicate: 1 - power frame; 2 - inner layer; 3 - the first layer of insulation; 4 - the second layer of insulation; 5 - outer layer.

Implementation of the utility model

Standard steel thin-walled rolled steel is used as a steel load-bearing frame 1 of a reinforced construction wall roofing sandwich panel.

The construction reinforced sandwich panel consists of several layers located one above the other.

The inner layer 2 of the sandwich panel is made of steel sheet with a polymer coating.

On top of the inner layer 2 is the first layer of insulation 3. The following can act as a layer of insulation: polystyrene foam board with flame retardant additives; PIR, PUR filler; insulation made of high-density mineral wool boards; foam glass. The first layer of insulation 3 is made inseparable over the entire plane of the construction sandwich panel.

On top of the first layer of insulation 3 are power frame 1.

On top of the first layer of insulation 3 is the second layer of insulation 4. At the same time, the second layer of insulation 4 is located in the cavities formed by the vertical and horizontal posts of the load-bearing frame 1.

On top of the second layer of insulation 4 is the outer layer 5 of the sandwich panel, made of steel sheet with a polymer coating.

When using polystyrene foam boards, mineral wool boards, foam glass as the first 3 and second 4 layers of insulation, one or two component urethane adhesive is used as an adhesive base for connecting the layers of a building sandwich panel.

When using PIR, PUR fillers as the first 3 and second 4 layers of insulation, the filler is the binder directly, because in this case, a high degree of adhesion is provided with almost any material.

Steam waterproofing of walls and roofs is provided with the properties of sheathing sheets of the inner 2 and outer 1 layers of the sandwich panel and the first 3 and second 4 layers of insulation.

Also, in embodiments, building reinforced sandwich panels along the outer edges can be equipped with rolled steel for fasteners (not shown in Fig.), mounted, by welding, to the load-bearing frame 1

The assembly of a building sandwich panel is characterized by the fact that the inner layer 2 of the sandwich panel is initially placed and connected to the first layer of insulation 3. Further, a steel load-bearing frame 1 is placed on top of the first layer of insulation 3. Further, in the formed by vertical and horizontal racks of the load-bearing frame 1 cavity, on top of the first layer of insulation 3, the second layer of insulation 4 is placed. On top of the second layer of insulation 4, the outer layer of the sandwich panel 5 is placed. the bases for connecting the layers of a building sandwich panel or as a binder are used directly as a filler insulation.

The claimed technical result of reducing the weight of the building sandwich panel is achieved due to the fact that as a steel load-bearing frame 1 of the reinforced building sandwich panel, thin-walled steel is used, which has a significantly lower weight compared to a frame made of metal. Also, the claimed technical result is achieved due to the fact that the first layer of insulation 3 is located on top of the inner layer 2, the load-bearing frame 1 is located on top of the first layer of insulation 3, and the second layer of insulation 4 is located on top of the first layer of insulation 3, while the second layer of insulation 4 is located in the cavities formed by the vertical and horizontal posts of the load-bearing frame 1. Thus, the load-bearing frame does not form a continuous shelf between the inner 2 and outer 5 layers, due to which most of the space of the internal volume of the building sandwich panel is occupied by a heater, which has a low weight and provides required level of insulation.

Also, the claimed technical result is achieved due to the fact that the inner 2 and outer 5 layers are made of polymer-coated steel sheet, which also have a low weight.

Also, the claimed technical result is achieved due to the fact that the first 3 and second 4 layers of insulation can be made in the form of plates with PIR filler, while the weight of a typical plate 10 cm thick, 1 m ² weight is no more than 3-5 kg, which also contributes to reducing the weight of the building sandwich panel.

Also, the claimed technical result is achieved due to the fact that the first 3 and second 4 layers of insulation are made in the form of plates with PUR filler, having low density and low weight - 40-42 kg/m ³ .

Also, the claimed technical result is achieved due to the fact that the first 3 and second 4 layers of insulation are made in the form of mineral wool boards having low density and low weight - from 35 kg/m ³ .

Also, the claimed technical result is achieved due to the fact that the first 3 and second 4 layers of insulation are made in the form of foam glass plates having low density and low weight - from 70 kg/m ³ .

Also, the claimed design provides an increase in thermal insulation properties while maintaining the required resistance to deflection. Due to the implementation of the first layer of insulation 3 inseparable over the entire plane of the building sandwich panel, its thermal insulation properties are improved; and due to the presence of the load-bearing frame 1, the required resistance to deflection is provided in accordance with the requirements of non-stationary low-rise construction objects installed without a foundation.

The applicant has produced an experimental and industrial sample of a building sandwich panel. The use of the claimed technical solution confirmed the claimed technical result, the weight reduction was from 15 to 40% compared to the known solutions from the prior art.

An example of achieving a technical result.

The claimed solution is used for the manufacture of a non-stationary household object - a container type (shown, but Fig.3). In particular, expanded polystyrene with flame retardant additives was used as the materials of the first 3 and second 4 layers of insulation. A two-component urethane adhesive was used to connect the layers of the building sandwich panel to each other. Comparative characteristics of the weight of the resulting sandwich panel, made according to the claimed solution and according to the solution of the prototype, showed that the average weight reduction was 25%, while maintaining similar dimensions of building panels and its thermal insulation properties.

The claimed device can be manufactured at the enterprise and is a single product consisting of mechanically connected functional elements, namely, layers of a building sandwich panel.

Claims (7)

1. Building wall roofing sandwich panel, including a frame, inner and outer layers forming a shell with a cavity filled with insulation, characterized in that the first continuous layer of insulation is located on top of the inner layer, on top of which there is a frame made in the form of thin-walled steel rolled products, the cavities of which are filled with a second layer of insulation, on top of which the outer layer is located. 2. Panel according to claim 1, characterized in that the inner and outer layers are made of polymer-coated steel sheets. 3. The panel according to claim 1, characterized in that the first and second layers of insulation are made in the form of expanded polystyrene plates with flame retardant additives, while the layers of the building sandwich panel are connected by means of an adhesive base. 4. Panel according to claim 1, characterized in that the first and second layers of insulation are made in the form of plates with PIR filler. 5. Panel according to claim 1, characterized in that the first and second layers of insulation are made in the form of plates with PUR filler. 6. The panel according to claim 1, characterized in that the first and second layers of insulation are made in the form of high-density mineral wool boards, while the layers of the building sandwich panel are connected by means of an adhesive base. 7. The panel according to claim 1, characterized in that the first and second layers of insulation are made in the form of foam glass plates, while the layers of the building sandwich panel are connected by means of an adhesive base.

Images