RU175612U1 - BLOCK FACADE COMBINED - Google Patents

Abstract

The combined facade block belongs to the building materials industry, namely, facade blocks, and can be used for decorative finishing of the outer surfaces of buildings and structures for various purposes. The combined facade block contains a decorative front outer layer and an internal heat-insulating layer. It is new that the front outer the layer is made of heavy concrete, prepared in a ratio of 1 part Portland cement M500, 2.5 parts of building quartz sand with a particle size of 2-2.5, 0.6 parts technical water, and 4% of the coloring pigment by weight of Portland cement, while the outer layer has a thickness of 30-50 mm, the inner heat-insulating layer is made in the form of a cellular-concrete mixture 200-400 mm thick, and a galvanized mesh is inserted between the layers to improve the adhesion of the layers. This embodiment provides an increase in the strength characteristics of the unit, the fulfillment of the necessary fire safety requirements, a decrease in the complexity of the installation of the unit, and an improvement in heat and sound insulation.

Description

The utility model relates to the construction materials industry, namely, facade blocks, and can find application for decorative finishing of the outer surface of buildings and structures for various purposes.

Combined facade blocks serve simultaneously for decorative decoration and insulation of residential, public and industrial buildings as part of the external wall, while the external (front) side of the block is decorative and can replace the manual decoration of the facade.

A heat-insulating panel and a method for its manufacture are known, see patent for the invention of the Russian Federation No. 2473761, IPC E04F 13/08, priority 01/27/2013. A method of manufacturing a heat-insulating panel includes placing on the supporting surface of facing tiles with gaps relative to each other, pouring on the tiles a fluid heat-insulating material and polymerizing the latter with the formation of a layer of heat-insulating material adhered to the facing tiles with bridges in the gaps between the tiles, while there are gaps between the heat-insulating material they are covered with facing tiles with a layer of finely divided solid inert material, the particles of which I have high adhesion to the thermal insulation material, the thickness of the layer of inert particulate solid material equal to the thickness tiles.

The disadvantage of this invention is that it does not provide fire safety requirements, since the heat-insulating layer is made of polyurethane foam. In addition, the decorative finishing layer is made in the form of a facing plate, the adhesion of which to the main body of the panel is ensured only by adhesion of materials during production. The disadvantage is that the panel is hinged and fixing it to the wall is time-consuming.

A known method of external insulation of a building, see patent for invention of the Russian Federation No. 2171340, IPC EV04 / 76, priority from 07.27.2001. This method includes gluing the insulation on the building facade, mechanically fixing it, impregnating the fixed insulation with a water dispersion primer to a depth of 2-8 mm, laying a reinforcing mesh and fixing it with adhesive composition. For the impregnation of the insulation, it is preferable to use a water-dispersed acrylic primer, and the reinforcing mesh is fixed with a cement-based acrylic resin adhesive.

The disadvantage of this method is that it is time-consuming and expensive, since the multilayer structure requires technically competent execution of each layer and strict adherence to time intervals. In addition, the presented insulation is subject to delamination of the insulation layer or the peeling of the reinforcing and decorative layers together with the surface layer of the insulation due to which the complete destruction of the system is possible, and the use of mineral wool boards as a heat-insulating layer reduces the overall strength characteristics.

The prototype is taken as a multilayer building block, see RF patent No. 2208101, IPC E04C 1/40, priority dated 12/17/2003. The building block includes covering the front surface - the front layer, concrete building layers and the heat-insulating layer located between them. The thickness layers are chosen in relation to A: B: C: D = 0.4: 1.2: 3.2: 5.3, where A is the front layer, B is the concrete inner layer, C is the heat-insulating layer, D is concrete inner carrier layer. The inner and inner bearing layers are connected by rods penetrating the insulating layer and made in the form of fiberglass rods. The front layer is made of a mixture of gray or white cement of grade M - 400, expanded clay, sand and water in a ratio of 2.4: 2.2: 5.4: 1.0 with the addition of 10% plasticizer and coloring pigment to the mixture.

The disadvantage of this block is that the connection of the front, bearing and heat-insulating layers is made using rods of various configurations and designs, which does not provide adequate resistance to loads. In addition, the connection between the layers does not provide adequate resistance to loads, and therefore this solution is suitable only for low-rise construction. The joint seams are not insulated and are “cold bridges”. The use of polystyrene foam or extruded polystyrene foam as a heat-insulating layer does not provide the proper level of fire safety and vapor permeability of the masonry (lack of the “breathing wall” effect).

The objective of the utility model is to increase the strength characteristics of the unit, ensure the necessary fire safety requirements, reduce the complexity of the installation of the unit, improve heat and sound insulation.

To solve this problem, the combined facade block contains a decorative front outer layer and an internal heat-insulating layer. New is that the outer outer layer is made of heavy concrete, prepared in a ratio of 1 part Portland cement M500, 2.5 parts quartz building sand with a particle size of 2-2.5, 0.6 part technical water, and 4% coloring pigment by weight of Portland cement, while the outer the layer has a thickness of 30-50 mm, the inner heat-insulating layer is made in the form of a cellular-concrete mixture 200-400 mm thick, and a galvanized mesh is inserted to improve the adhesion of the layers between the layers.

This implementation provides:

- increasing the strength characteristics of the block due to the manufacture of both the outer and inner layers of concrete and placing a galvanized mesh between them,

- ensuring the necessary fire safety requirements through the use of a non-combustible cellular concrete mixture as an internal thermal insulation layer,

- reducing the complexity of the installation of the block due to the light weight of the inner heat-insulating layer of the cellular concrete mixture,

- improvement of heat and sound insulation due to the macro- and microstructure of the layers.

In FIG. 1 of the accompanying drawings shows a General view of the block in plan;

in FIG. 2 is a side view;

in FIG. 3 is a straight view with a pullout showing a galvanized wire mesh.

The facade combined block contains a decorative front outer layer 1, an internal heat-insulating layer 2, and a galvanized wire mesh 3.

The block is made as follows.

A decorative outer face layer 1 is formed in a mold with a base from a silicone insert with a textured surface, for which a concrete mix of heavy concrete is prepared, prepared in a ratio of 1 part Portland cement M500, 2.5 parts of building quartz sand with a particle size module 2-2.5, 0.6 parts of technical water, and 4% of the coloring pigment by weight of Portland cement and a thickness of 40 mm, then a galvanized mesh 3 is installed. Next, an internal thermal insulation layer 2 of 300 mm thickness is formed from the cellular concrete mixture. After exposure, the finished block is removed from the mold.

Claims (1)

Combined facade block containing a decorative front outer layer and an internal heat-insulating layer, characterized in that the front outer layer is made of heavy concrete, prepared in a ratio of 1 part Portland cement M500, 2.5 parts of building quartz sand with a particle size of 2-2.5, 0.6 parts of technical water and 4% of the coloring pigment by weight of Portland cement, while the outer layer has a thickness of 30-50 mm, the inner heat-insulating layer is made in the form of a cellular-concrete mixture 200-400 mm thick, and to improve adhesion eniya layers inserted between the layers of galvanized mesh.

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