RU162331U1 - BUILDING HEATER - Google Patents

Abstract

1. Building insulation, containing fibrous insulation, a metal layer and a base connected to it, characterized in that basalt wool board is used as a heater, perforated foil is used as a metal layer, an additional fiberglass is placed on top of it, and the plate is made of perforated foil and the fiberglass mesh is arranged between the base layers in the form of a vapor-permeable membrane film connected to the fiberglass mesh, foil and plate by means of an adhesive layer. Building insulation according to claim 1, characterized in that the adhesive layer is, for example, polyurethane adhesive. The building insulation according to claim 1, characterized in that the fiberglass facade light reinforcement is used as a fiberglass mesh.

Description

The utility model relates to the field of ground construction, namely to multilayer insulating materials that can be used for hydro and thermal insulation of facades and roofs of buildings.

Known heat-insulating material, including a film web connected to a layer of heat-insulating material, and an insulating layer located on a layer of heat-insulating material from the side opposite the sealing layer (RF Patent No. 2010929).

The disadvantages of this material are insufficient fire resistance and low vapor and moisture insulation.

Closest to the claimed utility model is a roll of insulating material containing fibrous insulation, a metal layer and a base connected to it (certificate for utility model of the Russian Federation No. 5193).

However, despite the improved heat and sound insulation characteristics, this material has low vapor and moisture insulation properties, low environmental friendliness and complexity of manufacture.

The objective of the proposed technical solution is to create an environmentally friendly multilayer insulation with high vapor and moisture insulation properties, easy to manufacture.

The problem is solved in that in a building insulation containing a fibrous insulation, a metal layer and a base connected to it, according to a utility model, basalt wool board is used as insulation, perforated foil is used as a metal layer, on top of which there is an additional fiberglass mesh, while the plate, perforated foil and fiberglass are located between the layers of the base in the form of a vapor-permeable membrane film connected to the fiberglass, foil and plate by means of adhesive th layer. The adhesive layer is, for example, polyurethane adhesive. As a fiberglass mesh, a fiberglass facade light reinforcement is used.

Basalt slab is an environmentally friendly heat-insulating building material, the production of which does not use phenolic binders. It has high sound, vapor and waterproofing characteristics, withstands low temperatures and has high fire resistance.

The perforated metal foil located on the basalt insulation prevents the heater from humidifying when the temperature changes, maintains thermal insulation due to the fact that the foil reflects infrared radiation, returning heat to the walls of the building and keeping it in the room, and also ensures the durability of the insulation.

The use of fiberglass mesh, for example, facade light reinforcement, significantly improves the strength and mechanical characteristics of the reinforced surfaces, namely the surface of the plate. In addition, the fiberglass takes on additional loads that are associated with changes in temperature and humidity.

A vapor-permeable membrane film (for example, isospan) protects building structures, including building facades and roofs, from atmospheric precipitation, moisture, wind, UV rays and condensation. The membrane membranes prevent the so-called "effect of the plastic bag": the formation of mold, fungi, the development of putrefactive processes.

The use of glue as an adhesive layer, for example polyurethane, allows you to maintain the integrity of the insulation design.

The proposed building insulation is illustrated in FIG. 1, where its general sectional view is schematically shown.

The insulation contains a plate of basalt wool 1, perforated foil 2, an adhesive layer 3, a fiberglass mesh 4, a membrane film 5.

The insulation is made in the form of plates as follows. Basalt plates 1 are fastened with perforated foil 2 by means of glue 3, for example polyurethane. Then a fiberglass mesh is placed on the plate with the foil, glue is applied, the film is wrapped without folds, the film is pulled and fixed on the sides with glue.

In the manufacture of insulation does not require expensive equipment and complex processes.

Laying of the material begins from the bottom up of the building facade or from the lower sections of the roof up the slope. Laying is carried out closely, one row on another, fixing to the wall with dowels and installing a plate of the upper row above the joint of the plates of the previous row, providing the specified thermal protection of the interior.

The claimed insulation is designed for ventilation facades of buildings and for a ventilated roof.

The proposed utility model is characterized by high heat, vapor and moisture insulation properties, meets fire safety rules, as well as ease of manufacture.

Claims (3)

1. Building insulation, containing a fibrous insulation, a metal layer and a base connected to it, characterized in that basalt wool is used as a heater, perforated foil is used as a metal layer, an additional fiberglass is placed on top of it, and a plate, perforated foil and the fiberglass mesh is disposed between the base layers in the form of a vapor-permeable membrane film connected to the fiberglass mesh, foil and plate by means of an adhesive layer. 2. The building insulation according to claim 1, characterized in that the adhesive layer is, for example, polyurethane adhesive. 3. The building insulation according to claim 1, characterized in that the fiberglass facade light reinforcement is used as a fiberglass mesh.

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