RU161250U1 - PANEL FACADE HEATING - Google Patents

Abstract

1. The facade insulation panel containing a heat-insulating base with a decorative-fiber reinforced fiber-reinforced protective layer attached to it, characterized in that the decorative-protective layer is a decorative fine-grained limestone-cement-sand fiber-reinforced concrete. 2. The facade insulation panel according to claim 1, characterized in that the decorative-protective layer contains stone sawing waste from limestone-shell rock with a fraction of up to 5 mm.

Description

The utility model relates to the field of construction, namely to facade finishing materials, and can be used for exterior decorative cladding and insulation of facades of civil, industrial and other types of buildings.

An analogue is a heat-insulating panel containing a base made in the form of a plate of expanded polystyrene and a decorative protective layer made of polymer-sand mixture (patent UA No. 80912 U, IPC E04F 13/00, 12.11.2007).

The prototype is a decorative facing foam polystyrene facing plate, either mineral wool, or from another heat-insulating material, characterized in that it additionally contains a decorative-protective polymer-cement-sand layer reinforced with fiberglass (patent RU No. 109771 U1, IPC E04C 2/288, 10.27.2011) .

The main disadvantage of the analogue and the prototype is the presence of a polymer additive in the decorative protective layer, due to which, when the decorative protective layer is formed, the polymer-cement-sand mixture has an increased shrinkage, which can lead to cracking. In addition, the specified polymer additive significantly increases the cost of the facing decorative insulation boards.

The objective of the utility model is to develop a facade insulation panel, in which the disadvantages of the analogue and prototype are eliminated.

The technical result of the utility model is the elimination of cracks in the formation of a decorative protective layer.

The technical result is achieved by the fact that in the facade insulation panel containing a heat-insulating base with a decorative protective layer reinforced with fiber fiber attached to it, according to the present utility model, the decorative protective layer is a decorative fine-grained limestone-cement-fiber concrete.

In this case, the decorative protective layer contains waste of stone sawing of limestone-shell rock with a fraction of up to 5 mm.

The chemical composition of the limestone-limestone rock sawing waste mainly consists of calcium carbonate (CaCO ₃ ) and magnesium (MgCO ₃ ), the content of which varies: CaCO ₃ from 73 to 94%, MgCO ₃ - from 0.4 to 12%. They are practically pure calcium and magnesium carbonates (mass fraction of calcium - not less than 35%), and do not contain toxic substances, which determines the possibility of their use as a calcareous material.

The presence in the decorative protective layer of limestone increases the physicomechanical and operational properties of fine-grained limestone-cement-sand fibrous concrete by reducing open capillary porosity and creating a finely porous fine capillary structure.

The essence of the utility model is illustrated by the drawing, which shows the proposed panel facade insulation.

The facade insulation panel (FU panel) contains a heat-insulating base 1 with a decorative protective layer 2 attached to it, reinforced with fiber.

The difference of the proposed FU panel is that the decorative protective layer 2 is a decorative fine-grained limestone-cement-sand fiber concrete, which contains stone sawing waste of limestone-shell rock with a fraction of up to 5 mm.

An example of a specific implementation.

The claimed panel FU is a two-layer panel with a length and width of 495 mm and a thickness of 30 mm (other panel sizes are possible, depending on the specific requirements of the architecture).

One layer of the FU panel (heat-insulating base 1) with a thickness of 20 mm or more, is a heat-insulating layer that performs the function of thermal insulation of the facade of the building.

The thermal insulation base 1 is a rigid sheet heat-insulating material (sheet polystyrene foam with a flame retardant according to GOST 15588 or a mineral wool board according to GOST 9573), while its thickness is calculated based on the climatic conditions of operation of the building facade.

Another layer of the FU panel, with a thickness of 10 mm to 15 mm, depending on the configuration of the texture of the panel, is a decorative protective layer 2 reinforced with fiber (propylene fiber in accordance with TU 2272-00186254023-2010).

The decorative protective layer 2 is a decorative fine-grained limestone-cement-sand fiber concrete, which contains rock sawing waste of limestone-shell rock with a fraction of up to 5 mm, Portland cement in accordance with GOST 10178, GOST 31108, sand in accordance with GOST 8736, S-3 plasticizer in accordance with GOST 24211-91, TU 5870-004-46849456-04.

The decorative protective layer 2 performs aesthetic functions and protects the heat-insulating base 1 from external influences. The decorative protective layer 2 may have a textured (FU-F) or smooth (FU-G) external surface. The mass of polystyrene foam and mineral wool panels FU is, respectively, 5 kg and 6.5 kg ± 15%.

Physico-mechanical properties of the panels FU are shown in table 1.

Panel facade insulation is made as follows.

The connection (splicing) of the material of the proposed panel FU occurs in the process of manufacturing a decorative protective layer, which is obtained by vibration molding.

First, a mixture for decorative protective layer 2 is poured into the mold. Then, a sheet of heat-insulating material (thermal insulation base 1) is placed in the mold on the mixture of decorative protective layer 2.

Then, on a pulsed vibrating table, the materials of the facade panel are connected due to vibration.

Then, on the shock electromagnetic electromagnetic vibrating table, the materials of the FU panel are spliced due to shock electromagnetic waves, as a result of which the liquid mixture of the decorative protective layer 2 penetrates into the porous surface of the heat-insulating base 1.

In the process of manufacturing the FU panel, both layers are fused together to form a facade insulation panel by extruding a heat-insulating layer (heat-insulating base 1) into a decorative-protective layer 2, providing a solid, integral monolithic connection of both layers.

Decorative protective layer 2 reinforced with fiber, after hardening and subsequent exposure, is a decorative fine-grained limestone-cement-sand fiber concrete.

Using the claimed utility model, in comparison with the prototype, by replacing the polymer additive with a limestone additive (limestone-limestone rock sawing waste), when forming a decorative protective layer, it will significantly reduce shrinkage and thereby eliminate cracks, and will also allow for more high adhesion to the heat-insulating base and deeper penetration of the decorative mixture of the decorative protective layer into the porous surface of the insulating layer and, thereby, to obtain a more solid monolithic both layers.

Replacing a polymer additive with a limestone additive (limestone-limestone rock sawing waste) will eliminate the appearance of fungus and mold, both on the outside and in the interior of the facade insulation panel.

In addition, the cost of FU panels is significantly reduced due to the use of stone-cutting limestone-limestone waste, and the ecological condition of territories, for example, in the Republic of Crimea, with a significant accumulation of stone waste, is improving.

Claims (2)

1. The facade insulation panel containing a heat-insulating base with a decorative-fiber reinforced fiber-reinforced protective layer attached to it, characterized in that the decorative-protective layer is a decorative fine-grained lime-cement-sand fiber-reinforced concrete. 2. The facade insulation panel according to claim 1, characterized in that the decorative-protective layer contains waste of stone sawing of limestone-shell rock with a fraction of up to 5 mm.

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