RU18546U1 - HEAT INSULATION ELEMENT - Google Patents

Abstract

The utility model relates to construction materials, namely, to heat-insulating materials and can be used when installing buildings and premises on bearing masonry. The objective of the utility model is to simplify the production process and increase the efficiency of thermal insulation by applying thermal insulation layers directly to the surface of the insulated rooms and using reflected thermal infrared rays. In order to achieve the technical result provided by the utility model, in the heat-insulating element containing the main carrier layer, on the surface of which the heat-insulating and facing layers are located, the main layer is made of flexible, on the wide sides of the mirror material with a double-sided adhesive coating. As such a material, for example, metal foil can be used. Between the main carrier layer and the facing layer made, for example, of gypsum kapton, there is an air gap filled with a grate. 3 pp. 1ill.

ESSAY

Description

HEAT INSULATION ELEMENT

The useful model relates to building materials, namely, to heat-insulating materials and can be used when installing buildings and premises on bearing masonry.

A device for additional thermal insulation of the outer walls of the premises of operated buildings, containing a heat-insulating layer and cladding (see AS No. 1622544, IPC E 04 B 1/76, priority from 11.25.88, publ. 23. 01.91, bull. 3). The heat-insulating layer in this device is located near the inner surface of the wall and represents an air layer filled with a frame of a cellular structure.

The use of an air gap helps to drain the exterior walls of buildings. However, when using this device in the interior, there is a movement of air in the interlayer to the breathable area located in the upper part of the cladding and requires exhaust ventilation.

The closest in combination of essential features and technical essence of the proposed utility model is the insulating material in the form of a plate or a roll for new and requiring sanitation facilities, adopted by us as a prototype (RF patent No. 2078882, IPC E 04 V 1/76, 32 V 5 / 22, priority from 10.29.91, publ. 10 05-97, bull. No. 13).

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This insulating material is made in the form of a multilayer panel and contains a heat-insulating layer, on one of its wide sides of which a coating material is applied, which is applied as a basis for facing masonry materials or insulating material. The base is made of a non-woven fabric made of synthetic or textile materials and contains on its side facing the heat-insulating layer a coating as a moisture-proof and connecting layer, applied with penetration into the base to a depth of 0.1-0.5 of the base thickness. As a coating, synthetic or epoxy resin is used. The lining is applied on the other side of the base, which has a rough or profiled surface.

The use of a base on a heat-insulating material allows facing directly on slabs or rolled rolls.

However, the above insulating material, made in the form of plates or rolls, requires industrial production. For example, for the manufacture of heat-insulating material, it is necessary to have two parallel moving endless conveyor belts, one of which is laid with facing material, then a coating layer of non-woven material with a previously applied layer of resin is applied to it, a heat-insulating layer is applied to the second conveyor and the layers of heat-insulating are bonded material.

The objective of the proposed utility model is to simplify the production process and increase the efficiency of thermal insulation by applying thermal insulation layers directly to the surface of the insulated rooms and using reflected thermal infrared rays.

In order to achieve the technical result provided by the utility model, in a known heat-insulating material containing a base, on the surfaces of which are heat-insulating and facing materials, the base is made of flexible, on the wide sides of the mirror material, with a double-sided adhesive coating.

As such a material, for example, a metal foil coated on both sides with an adhesive layer can be used. By bonding the layers of the heat-insulating element together, this foil also acts as a screen to reflect thermal infrared radiation coming from the warm room to the outside to the brickwork. For a more effective internal process of refraction and reflection of infrared rays, a transparent medium is necessary, therefore, an air gap is made between the main bearing layer and the facing layer.

To ensure the presence of an air gap in the entire heat-insulating element, it is filled with a grill, for example, wood or fiberglass. A facing layer made, for example, of drywall is attached to the grill.

Figure 1 shows a cross section of a heat-insulating element located on a brickwork.

The heat-insulating element contains a main carrier layer 1 made of metal foil, coated on the wide sides with adhesive layers 2, a heat-insulating layer 3 and a facing layer 4. Between the wide surface of the carrier layer of metal foil 1 and the facing layer 4 there is an air gap 5 filled with a grill 6 .

The device operates as follows.

A heat-insulating layer 3 made, for example, of polystyrene foam and frame 8 is attached to the insulated brick wall 7 in fragments. The main carrier layer 1 is made of foil with a double adhesive (adhesive) coating 2. The air gap 5 is formed by applying to layer 1 lattice 6, made, for example, of wood or metal, and a facing layer 4, made, for example, of drywall.

When using the proposed heat-insulating element due to the use of the mirror surface of the metal foil and the air gap, the reflection of thermal rays into the interior of the building is enhanced.

Claims (3)

1. A heat-insulating element containing a main bearing layer, on the surface of which a heat-insulating layer is located, and a facing layer, characterized in that the main bearing layer is made of a flexible, wide sides mirror material with a double-sided adhesive coating, and is located between the main and facing layers air gap filled with grate.  2. The device according to claim 1, characterized in that the main carrier layer is made of metal foil. 3. The device according to claim 1, characterized in that the facing layer is made, for example, of drywall.