RU88701U1 - EXTERIOR WALL BUILDING OF THE BUILDING - Google Patents

Abstract

The outer wall of the building, including the outer and inner layers with heat-insulating layers and an air gap located between them, separated by transverse runs, characterized in that the transverse runs are offset with the possibility of air flow between them, the outer layer from the inside is additionally equipped with high-quality material reflection coefficient, and on the outside with a decorative material, while the inner layer is made in the form of a three-layer panel.

Description

The utility model relates to construction and can be used for the manufacture of external wall fencing of a building used in house building and industrial construction.

Currently, the construction market uses a large number of building envelopes using concrete, brick, expanded clay blocks, aerated concrete with the use of hinged ventilated facades, facade systems with plastering insulation and facing with decorative stone. All of them have inherent disadvantages, since the use of water during their construction ("wet" processes) complicates the construction in winter, increases the weight of the building. Therefore, the problem of creating a durable lightweight all-weather exterior fencing of the building remains relevant.

Known ventilated building fencing, protected by A.S. USSR No. 1565984, Cl. EBB 2/42, publ. 05/23/1990.

The ventilated fencing of the building includes an external screen, an internal heat-insulating part with an air gap or channels between them, communicating with the outside air through ventilation holes. The screen has an anti-condensation insulation layer with a thickness determined by the calculation formula.

The disadvantages of the known fencing are fragility and thickness.

Known multi-layer building panel, protected by a patent of the Russian Federation for utility model No. 55393, Cl. E04C 2/26, publ. 2006.08.10.

The multilayer building panel contains an internal frame made in the form of a collapsible frame, non-structural insulation and sheet sheathing. The frame is made of galvanized perforated thermal profiles and contains the lower and upper guides of the U-shaped profile with the bends of the edges made in one direction, between them there are vertical ribs of the C-shaped profile located in a row at equal distances from each other in the longitudinal direction of the guides and rigidly associated with them by means of fasteners, and the perforation of thermal profiles is made in the form of elongated holes located in the longitudinal direction of the profiles, with holes in different parts the profiles along their width are arranged in a mutually alternating manner. Double gypsum-fiber sheets were used as the material of the inner lining, fiber-cement “Fibrit” plates or other finishing materials were used as the external sheathing, mineral-insulating mineral wool panels or “Ecowool” heat-insulating cellulose panels were used as non-structural insulation material, and “fasteners for thermal profiles” were used galvanized self-tapping screws.

A disadvantage of the known multilayer building panel is the fragility.

The closest to the claimed technical essence and the achieved result, selected as a prototype, is an external fence, protected by A.S. USSR No. 829835, Cl. ЕВВ 2/42, ЕВВ 1/70, publ. 05/15/81.

The external fence includes the outer and inner layers and the heat-insulating layer located between them and the air gap, separated by longitudinal partitions along the air and transverse runs on the cavity. In the runs, ventilation openings are provided with valves.

The disadvantages of the known design of the external fencing are insufficient heat-shielding properties and a significant thickness of thermal insulation.

The problem solved by the proposed utility model is the improvement of the exterior wall of the building.

The technical result from the use of the utility model is to increase the heat-shielding properties and reduce the thickness of the thermal insulation of the outer wall fencing.

This result is achieved by the fact that in the outer wall of the building, including the outer and inner layers with heat insulation and the air gap located between them, separated by transverse runs, the transverse runs are offset with the possibility of air flow between them, the outer layer from the inside is additionally provided with material with a high reflection coefficient, and on the outside with a decorative material, while the inner layer is made in the form of a three-layer panel.

The proposed utility model is illustrated by the following drawings: figure 1 shows a General view of the outer wall fence of the building; figure 2 is a transverse section of the fence; figure 3 is a longitudinal section of the fence.

The outer wall of the building contains the outer 1 and inner 2 layers with thermal insulation and an air gap 3 located between them, separated by transverse runs 4. The transverse runs 4 are offset to allow air to flow between them. The outer layer 1 consists of a hard insulation 5, on the inner side the outer layer is additionally equipped with a material 6 with a high reflection coefficient, and on the outside is a decorative material 7. The inner layer 2 consists of a main frame 8, a heater 9, the outer layer 10 and the inner layer 11. The transverse runs 4 can be equipped with soundproof gaskets 12.

The outer wall of the building is installed as follows.

First, the inner layer 2 is assembled element-wise in the form of a three-layer panel of the main frame 8, insulation 9, the outer layer 10 and the inner layer 11. Next, lateral runs 4 are offset onto the outer layer 10 to form an air gap 3 and air can flow between them. To the transverse runs 4 through gaskets 12, an outer layer 1 is fastened, made in the factory in the form of a light “sandwich” panel, consisting of a type 5 insulation, material 6 with a high reflection coefficient, and decorative material 7.

Cross runs 4 are made in the form of a profile of galvanized sheet steel. The outer layer 1 consists of a rigid insulation such as polyurethane foam 5. As a material 6 with a high reflection coefficient can be used, for example, aluminum foil, as a decorative material 7 - painted thin-sheet aluminum. The inner layer 2 consists of a main frame 8, for example, of thermoprofil type galvanized thin-sheet steel, a light hydrophobized insulation 9, an outer layer 10, for example, a flat asbestos-cement sheet, and an inner layer 11 made, for example, of two layers of waterproof gypsum fiber sheet ( GVLV).

Thus, the proposed external wall fencing of the building compared with the prototype has the following advantages: increased heat-shielding properties and reduced insulation thickness due to the presence of an additional layer of material with a high reflection coefficient and low air velocity in the air gap between the transverse runs. In addition, the proposed utility model allows the assembly of the exterior wall fencing of the building in all weather conditions by eliminating wet processes.

Claims (1)

The outer wall of the building, including the outer and inner layers with heat-insulating layers and an air gap located between them, separated by transverse runs, characterized in that the transverse runs are offset with the possibility of air flow between them, the outer layer from the inside is additionally equipped with high-quality material reflection coefficient, and on the outside with a decorative material, while the inner layer is made in the form of a three-layer panel.