RU192025U1 - FRONT THERMOPANEL - Google Patents

Abstract

The utility model relates to the field of construction, in particular to facade finishing materials, and can be used for exterior cladding and insulation of building facades. The objective of the utility model is to improve the heat-shielding properties of the facade thermal panel and reduce its weight. The heat-shielding properties of the facade panel are achieved by using a substance, having a significantly lower coefficient of thermal conductivity and density. The problem is solved in that the facade thermal panel, consisting of two glued between layers, of which the outer layer is made of glass-magnesium sheet, and the inner layer is formed of a foam glass plate, is made with additional cavities in the foam glass plate, in which there are containers filled with carbon dioxide with a pressure close to normal atmospheric pressure or with a pressure below normal atmospheric .

Description

The utility model relates to the field of construction, in particular to facade finishing materials, and can be used for exterior cladding and insulation of building facades.

Known two-layer thermal panel, consisting of an inner layer of extruded polystyrene foam and an outer layer formed of a glass-magnesium sheet glued together with polyurethane adhesive. (RF Patent No. 93844). The disadvantages of the two-layer thermal panel that impede its use in construction are high combustibility, low strength and insufficient heat-shielding properties.

Known facade thermal panel (RF patent No. 1456050), selected as a prototype, consisting of two layers glued together, the outer layer of which is made of glass-magnesium sheet, and the inner layer is formed of a foam glass plate. The disadvantages of the known facade thermal panels are overweight and insufficiently high heat-shielding properties.

The objective of the utility model is to improve the heat-shielding properties of the facade thermal panel and to reduce its weight.

Improving the heat-shielding properties of the facade panel is achieved by using in its structure substances with a significantly lower coefficient of thermal conductivity.

The problem is solved in that the facade thermal panel, consisting of two layers glued together, of which the outer layer is made of magnesium glass sheet, and the inner layer is formed of a foam glass plate, is performed with additional cavities in the foam glass plate, in which there are containers filled with carbon dioxide with a pressure close to normal atmospheric pressure. Alternatively, the containers in the cavities in the foam glass plate can be filled with carbon dioxide with a pressure below normal atmospheric pressure.

The use of carbon dioxide with a low coefficient of thermal conductivity (0.014-0.015 W / m⋅ ° С, under normal conditions, while the thermal conductivity of the main material of the thermal panel is foam glass 0.045-0.07 W / m⋅ ° С, for foam glass densities 120-210 kg / m ³ ), as one of the heat-insulating materials used as part of the facade thermal panel, it can significantly reduce the overall thermal conductivity of the panel.

The technical result of the utility model is to improve the heat-shielding properties of the facade thermal panel and to reduce its weight.

The utility model is illustrated by a drawing, which shows a facade thermal panel in a section.

The facade thermal panel contains an inner layer of foam-glass plate 1, an outer layer of glass-magnesium sheet 2 and the cavities in the foam-glass plate filled with carbon dioxide tanks 3.

The front thermal panel is made similarly to the prototype. A foam glass plate is preliminarily formed, containing recesses under the carbon dioxide container, a blank of glass-magnesium sheet is formed by the size of the foam glass plate.

Next, glue is applied to the sheet, for example with a cement, polyurethane or acrylic base, containers containing carbon dioxide are laid in the recesses. After that, the sheet is glued with a foam-glass plate and placed under the press for 4-5 hours.

The created panel has fire resistance and differs from the prototype in reduced weight and improved heat-shielding properties.

Thermal panels can be used at the stage of finishing construction work for facade decoration and insulation of various buildings and structures. The finished facade thermal panel, for example, is glued to the wall of the building using building adhesive mixtures without additional mechanical fastening.

Claims (2)

1. Facade thermal panel, consisting of two layers glued together, of which the outer layer is made of glass-magnesium sheet, and the inner layer is formed of a foam glass plate, characterized in that it contains cavities in the foam glass plate, in which there are containers filled with carbon dioxide with pressure close to normal atmospheric pressure. 2. The facade thermal panel according to claim 1, characterized in that in the cavities in the foam glass plate there are containers filled with carbon dioxide with a pressure below normal atmospheric pressure.

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