RU145605U1 - FRONT THERMOPANEL - Google Patents

Abstract

Facade thermal panel, consisting of two layers glued together, the outer layer is made of glass-magnesium sheet, characterized in that the inner layer is formed of a foam glass plate.

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.

As a material for exterior cladding and insulation of building facades, a building protective and decorative panel is known that contains a polystyrene foam base and, connected to it, a decorative layer made in the form of a hardened mass of glue containing acrylic polymer, decorative elements, and pigment additives. Directly on the adhesive, the components of which are used as a cement binder and a bonding primer, decorative elements are applied and a protective layer is formed on them, including a deep penetration primer. [RF patent for utility model No. 129959].

The disadvantage of this panel is that it has a large weight (more than 2 kg) and insufficient strength characteristics, due to the fact that decorative elements (sand and / or mica, and / or waste from glass and / or stone processing industries with a size fractions from 0.2 to 3.0 mm) are applied directly to the layer of glue, which in turn is applied on the basis of expanded polystyrene. Thus, under the influence of time and the environment, when the adhesive layer is cracked, peeling of the decorative layers from the base is possible.

As a prototype, a two-layer thermal panel was adopted, 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 for utility model No. 93844].

The disadvantages of the two-layer heating panel, which prevents its use in construction, are high combustibility and low strength. When exposed to direct sunlight, when the outside temperature changes, it changes in size, bends, which prevents its installation and normal operation. This circumstance is caused by the difference in the values of the coefficients of linear thermal expansion. The coefficient on the glass-magnesium sheet is almost zero, and on the extruded polystyrene foam it is much higher.

The technical result of the utility model is to improve its strength characteristics, eliminate flammability, as well as reduce labor costs when performing installation work and reduce the cost of construction.

The above technical result is achieved in that the facade thermal panel consists of two layers glued together. The outer layer is made of glass-magnesium sheet. The inner layer is formed of a foam glass plate.

The applicant has not found sources of information containing the same set of essential features specified in the formula of the utility model, which allows us to conclude that the proposed technical solution meets the criterion of "novelty."

Comparative analysis with the prototype shows that the inner layer of the claimed facade thermal panel is formed from a foam-glass plate.

Thus, the claimed solution meets the criteria of the utility model of "novelty."

The utility model is illustrated in the drawing, where in FIG. 1 shows a facade thermal panel in a section).

The facade thermal panel contains an inner layer of foam-glass plate 1 and an outer layer of glass-magnesium sheet 2.

The front thermal panel is made as follows:

Preliminarily by the size of the foam-glass plate 1, blanks are formed from glass-magnesium sheet 2.

Next, glue is applied to the glass-magnesium sheet, for example with a cement, polyurethane or acrylic base. After that, the sheet is glued with a foam-glass plate and placed under the press for 4-5 hours.

The manufacture of the inner layer from a non-combustible foam-glass plate with high strength characteristics allows to obtain a non-combustible facade thermal panel with high strength characteristics. It should be noted that the foam glass plate has a very low coefficient of linear thermal expansion, which allows daily and annual temperature fluctuations to be transferred without damage to the structure of the material.

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.

The product is very lightweight and durable, with stable dimensions, high fire resistance and long life. In addition, the use of the panel allows to reduce labor costs during installation work.

Claims (1)

Facade thermal panel, consisting of two layers glued together, the outer layer is made of glass-magnesium sheet, characterized in that the inner layer is formed of a foam glass plate.