RU196390U1 - BUILDING FACING - Google Patents

Abstract

The utility model relates to construction, namely to the building envelope, and can be used to increase the thermal insulation properties of the building envelope, in particular, such as the front glazing of balconies and loggias, double-glazed windows. The technical result is an increase in the structure thermal insulation due to the proposed building envelope at while increasing the noise insulation of the structure. The technical result is achieved as follows. The building envelope, consisting of a frame made of profiles and filling elements fixed to the frame, the surface of the frame profiles from the side of the building is covered with a multilayer heat-insulating material, the outer layer of which is made seamless, according to a utility model, contains a thermal insert, a double-glazed window, a pressure bar and a cover , butyl tape, thermal insert made of glass-filled polyamide, is located in the frame, the double-glazed window is located on the side opposite to the filling elements, clamping plan The cover and the cover are made with the possibility of fixing the glass packet to the frame, butyl tape installed under the pressure strip overlapping the glass packet and filling elements, the multilayer heat-insulating material is made in the form of a sandwich panel containing an outer layer, an insulating base, an inner layer, interconnected, geometry the size of the multilayer heat-insulating material is made with the possibility of installation on the profile without a gap. The heat-insulating base is made of extruded foam polystyrene with closed eistoy structure. The reduced heat transfer resistance at a thickness of 10 mm is 0.34 m2 * deg / W. The outer and inner layers of the insulating material are made of hard plastic with a thickness of 0.6-0.9 mm. The density of the sheet of insulating material is 1.3-1.5 g / cm3 . The outer layer of heat-insulating material is bonded to the heat-insulating base with glue. The inner layer of heat-insulating material is bonded to the heat-insulating base by glue. The multilayer heat-insulating material is made U-shaped. The multilayer heat-insulating material is made L-shaped The multilayer heat insulating material is made with a rounded edge. The multilayer heat insulating material is attached to the surface of the carcass profiles with glue.

Description

FIELD OF TECHNOLOGY TO WHICH A USEFUL MODEL IS

The utility model relates to construction, namely to the building envelope, and can be used to increase the thermal insulation properties of the building envelope, in particular, such as the front glazing of balconies and loggias, double-glazed windows.

BACKGROUND

FACADE GLAZING is known, for example, the construction of a rack-and-beam transom facade is often used to enclose balconies and loggias of new buildings. The construction of the rack-and-crossbar facade includes a frame of racks and crossbars, brackets, anchor fasteners, transparent (opaque) fillings, and other elements made in advance and assembled directly on the facade of the building. Most often, single-layer glazing is used as a filling, and the racks and crossbars of the frame are made of a metal (aluminum) profile. (GOST R 54858-2011 Structures front translucent).

The closest technical solution, selected as a prototype, is the FOILING DESIGN of the BUILDING (utility model patent RU No. 160818, IPC E04F 13/075, published: 04/10/2016 Bull. No. 10), consisting of a frame made of profiles, and filling in in the form of transparent or opaque elements mounted on the frame, according to this utility model, the surface of the frame profiles from the side of the room is fully or partially covered with a multilayer heat-insulating material, the outer layer of which is made seamless.

The described building envelope has a significant drawback - low thermal insulation properties.

DISCLOSURE OF THE ESSENCE OF A USEFUL MODEL

The technical result is to increase the thermal insulation of the structure due to the proposed building envelope, while increasing the noise insulation of the structure.

Also achieved:

- improvement of aesthetic perception (it is possible to change the color of the existing glazing design or to make a lamination for the structure of a tree);

- the ability to hide defects, holes, damage to the paintwork of the existing glazing structure;

- the ability to close the foam seam, adjoining walls, plates, ceilings or floors.

The technical result is achieved as follows.

The building envelope, consisting of a frame made of profiles and filling elements fixed to the frame, the surface of the frame profiles on the premises side is covered with a multilayer heat-insulating material, the outer layer of which is made seamless,

by utility model

contains a thermal insert, a double-glazed window, a clamping level and a cover, butyl tape,

a thermal insert made of glass-filled polyamide is located in the frame,

the double-glazed window is located on the side opposite to the filling elements,

the clamping plate and the cover are made with the possibility of fixing the glass to the frame,

butyl tape installed under the latch on the insulating glass unit and filling elements,

the multilayer insulating material is made in the form of a sandwich panel containing the outer layer, the insulating base, the inner layer, interconnected,

the size geometry of the multilayer insulating material is made with the possibility of installation on the profile without a gap.

The heat-insulating base is made of extruded foamed polystyrene with a closed cellular structure. The reduced heat transfer resistance at a thickness of 10 mm is 0.34 m ² * deg / W.

The outer and inner layers of the insulating material are made of hard plastic with a thickness of 0.6-0.9 mm.

The density of the sheet of insulating material is 1.3-1.5 g / cm ³ .

The outer layer of the heat insulating material is bonded to the heat insulating base with glue.

The inner layer of the heat insulating material is bonded to the heat insulating base with glue.

The multilayer heat-insulating material is made U-shaped.

The multilayer heat-insulating material is made L-shaped.

The multilayer insulating material is made with a rounded edge.

The multilayer insulating material is attached to the surface of the frame profiles with glue.

The thermal insert acts as an internal thermal insulator.

To perform vapor barrier and separation of outdoor air from the air of the room, butyl tape is used.

As filling elements, double-glazed windows, frames with double-glazed windows and frames with double-glazed windows having sashes can be used.

The operating range of the building envelope is from minus 50 ° С to plus 60 ° С.

Light weight (weight of 1 m ² boxes is about 1.5 kg).

BRIEF DESCRIPTION OF THE DRAWINGS

The essence of the technical solution is illustrated by drawings, where in FIG. 1 shows the profile of the frame of the building envelope with a multilayer insulating material coated from the side of the building.

In FIG. 1, the following notation is made:

1 - thermal insert ("thermal bridge");

2 - double-glazed window;

3 - frame made of metal profiles of racks;

4 - multilayer heat insulating material;

5 - the outer layer;

6 - heat insulating base;

7 - inner layer;

8 - clamping plate and cover;

9 - filling elements (window block);

10 - butyl tape.

IMPLEMENTATION OF A USEFUL MODEL

As a preferred embodiment of the claimed utility model in FIG. 1 shows the construction of a rack-and-crossbar facade (crossbars are not shown in the figure), containing: thermal insert ("thermal bridge") - 1; double-glazed window - 2; frame from metal profiles of racks - 3; multilayer heat-insulating material - 4; outer layer - 5; heat insulating base - 6; inner layer - 7; clamping plate and cover - 8; filling elements (window block) - 9; butyl tape - 10.

The device operates as follows.

First, a frame made of profiles is installed on the building, after which the filling elements of the building envelope are fixed on the frame, after which the surface of the frame profiles from the side of the room is covered with a multilayer heat-insulating material, the outer layer of which is made seamless.

The multilayer heat-insulating material is mounted on a one-component, quick-drying polyurethane adhesive, polymerizing due to moisture in the air, having a low secondary expansion, which ensures structural stability and prevents deformation of elements during and after work. When fastening panels operating in a wide temperature range, it is required to take into account the coefficient of linear expansion of the panels, which is assumed to be 7 * 10 ^-5 ° С.

High resistance of the outer layer to external factors (precipitation, temperature jumps, UV rays) and to the formation of mold, fungus.

The ideal geometry and quality of the bending seam is achieved by automatically machining the parts and strictly observing the technical conditions, heating the processed seam for gluing the products and quality control.

The quality of the raw materials used for the production of multilayer insulating material (duct) guarantees:

- high moisture resistance - not less than 1.5% in 30 days;

- excellent impact and static strength of the order of 0.25 MP for compression;

- resistance to ultraviolet radiation;

- high sound insulation;

- a box 10 mm thick has a reduced heat transfer resistance R value of at least 0.34 m ² * deg / W.

Through the use of the proposed building envelope, the thermal insulation of the structure is increased while the sound insulation of the structure is increased.

Other embodiments are understood by those skilled in the art. The above description is provided solely as an example, and is not limiting.

Claims (10)

1. The building envelope, consisting of a frame made of profiles and filling elements fixed to the frame, the surface of the frame profiles from the side of the building is covered with a multilayer heat-insulating material, the outer layer of which is made seamless, characterized in that it contains a thermal insert, a double-glazed window, a pressure bar and a cover, butyl tape, a thermal insert made of glass-filled polyamide, is located in the frame, the glass unit is located on the side opposite to the filling elements, I strip and cover are made with the possibility of fixing the glass packet to the frame, butyl tape installed under the clamping strip overlapping the glass packet and filling elements, the multilayer heat-insulating material is made in the form of a sandwich panel containing the outer layer, the heat-insulating base, the inner layer, interconnected, the size geometry of the multilayer insulating material is made with the possibility of installation on the profile without a gap. 2. The building envelope according to claim 1, characterized in that the heat-insulating base is made of extruded foam polystyrene with a closed cellular structure, while the reduced heat transfer resistance at a thickness of 10 mm is 0.34 m ² * deg / W. 3. The building envelope according to claim 1, characterized in that the outer and inner layer of the insulating material is made of hard plastic with a thickness of 0.6-0.9 mm. 4. The building envelope according to claim 1, characterized in that the density of the sheet of heat insulating material is 1.3-1.5 g / cm ³ . 5. The building envelope according to claim 1, characterized in that the outer layer of the heat insulating material is bonded to the heat insulating base with glue. 6. The building envelope according to claim 1, characterized in that the inner layer of the heat insulating material is bonded to the heat insulating base with glue. 7. The building envelope according to claim 1, characterized in that the multilayer heat-insulating material is made U-shaped. 8. The building envelope according to claim 1, characterized in that the multilayer heat-insulating material is made L-shaped. 9. The building envelope according to claim 1, characterized in that the multilayer heat insulating material is made with a rounded edge. 10. The building envelope according to claim 1, characterized in that the multilayer heat-insulating material is attached to the surface of the carcass profiles with glue.

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