RU49051U1 - BUILDING BLOCK - Google Patents

Abstract

The utility model relates to the building materials industry and can be used in the construction and cladding of buildings and structures, in particular, in low-rise construction of civil and industrial facilities with high requirements for heat and sound insulation of premises, such as residential buildings, cottages, etc. The building block contains an outer front 1, an inner 2 concrete layers, a heat-insulating 3 layer and at least one additional 4 layer having a mirror surface 5. A heat-insulating 3 layer and an additional 4 layer are located between the outer front 1 and the inner 2 concrete layers, with an additional The 4th layer is located between the heat-insulating 3 layer and the inner 2 concrete layer. Mirror surface 5 on an additional 4 layer is applied from the side of the outer front 1 concrete layer. To ensure breathability, an additional 4 layer of the building block is perforated. When building block with two additional 4 layers, one is placed between the heat-insulating 3 layer and the inner 2 concrete layer, and the second between the heat-insulating 3 layer and the outer front 1 concrete layer, while their mirror surfaces 5 are located on the side of the corresponding concrete 1, 2 layers . To ensure the connection between layers 1, 2, 3, 4 and sufficient strength of the entire building block, reinforcing bars 6 are placed in it at different angles. Such a construction of the building block makes it possible to reduce the thickness of its layers at the required values of thermal resistance and significantly reduce the material consumption of the product.

Description

The utility model relates to the building materials industry and can be used in the construction and cladding of buildings and structures, in particular, in low-rise construction of civil and industrial facilities with high requirements for heat and sound insulation of premises, such as residential buildings, cottages, etc.

A known building block containing concrete layers and a heat-insulating layer located between them, made of polystyrene foam, the building block having a front layer, the thickness layers are selected from the ratio 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 the concrete inner supporting layer, the concrete layers are connected by rods penetrating the heat-insulating layer and made in the form of fiberglass rods, and a chamfer is made along the perimeter of the front layer (see RF patent No. 2208101 , ayavl. 17.12.2001, publ. 10.07.2003, by Cl. E 04 C 1/40).

Concrete layers, the insulating layer and the placement of the insulating layer between the concrete layers are common essential features of the known and claimed technical solutions.

The thickness of the layers of the block varies depending on the required thermal resistance. For example, for the conditions of central Russia, the value of heat transfer resistance for walls of blocks should be up to R = 3 sq.m. C / W, and for conditions of the Far North up to R = 5 sq.m. C / W (see. Thermoblock // Building materials. 1999, - 2, p. 40). In Siberia with a sharply continental climate and long

temperatures in the wintertime in the range of minus 30 ° -35 ° require an increase in the total thickness of the layers of the building block up to 40 cm or more, which leads to an increase in the consumption of building materials and more expensive objects.

The closest set of essential features to the claimed (prototype) is a building block containing an outer front and inner concrete layers, between which a heat-insulating layer is installed, and it is equipped with X-shaped elements for fastening the outer face and inner layers of the building block from opposite ends, and the ends of the X-shaped elements are monolithic in the outer face and inner layers, the rest of each of the X-shaped elements monolithic in the masonry mortar is installed corresponding to an X-shaped recess insulation layer (see. №2191873 RF patent appl. of 05.02.2001, publ. 27.10.2002, at for Cl. E 04 C 1/40).

Signs: the outer front concrete layer, the inner concrete layer, the insulating layer and the placement of the insulating layer between the outer front and inner concrete layers are common essential features of the known and claimed technical solutions.

The disadvantage of this building block is that the construction of facilities in conditions with significant subzero temperatures also requires a maximum increase in the thickness of the layers, which leads to an unjustified consumption of building materials for the manufacture of wall building blocks and their cost.

The problem to be solved by the present utility model is to provide the possibility of reducing the thickness of the layers

building block at the required values of thermal resistance.

The problem is solved in that in a building block containing an external front and inner concrete layers between which a heat-insulating layer is installed, according to a utility model, the building block is provided with at least one additional layer having a mirror surface and located between the heat-insulating layer and the inner or outer face concrete layers.

The additional layer has a mirror surface on the side of the outer face layer.

The additional layer is perforated.

The presence of at least one additional layer with a mirror surface and its placement between the heat-insulating layer and the inner or outer front concrete layers are essential features that distinguish the claimed utility model from its closest analogue.

In the future, the essence of the utility model is illustrated by a description of its design and a drawing, which schematically depicts a building block.

The building block contains an outer front 1, an inner 2 concrete layers, a heat-insulating 3 layer and at least one additional 4 layer having a mirror surface 5. A heat-insulating 3 layer and an additional 4 layer are located between the outer front 1 and the inner 2 concrete layers, with an additional The 4th layer can be located both between the heat-insulating 3 layer and the inner 2 concrete layer, and between the heat-insulating 3 layer and the outer front 1 concrete layer. In the drawing, an additional 4 layer is located between the heat-insulating 3 and the inner 2 concrete layer. 5 mirror surface

an additional 4 layer can be performed on one or both sides. In the drawing, the mirror surface 5 is applied from the side of the outer front 1 concrete layer. To ensure breathability, an additional 4 layer of the building block is perforated. An additional 4 layer can be made of polymer film or foil. A building block may contain two or more additional 4 layers (not shown in the drawing). When building block with two additional 4 layers, one can be located between the heat-insulating 3 layer and the inner 2 concrete layer, and the second between the heat-insulating 3 layer and the outer front 1 concrete layer, while their mirror surfaces 5 can be located on the side of the corresponding concrete 1, 2 layers. To ensure communication between layers 1, 2, 3, 4 and sufficient strength of the entire building block, reinforcing bars 6 are placed in it at different angles.

Wall building block is made as follows.

Expanded clay mixture is dosed into the mold in order to form the outer front 1 layer. Then lay a heat-insulating 3 layer, made, for example, of expanded polystyrene. An additional 4 layer, for example, made of a polymer film or foil, is placed on the heat-insulating 3 layer, having its mirror surface 5 on the side of the external front 1 layer. Then, claydite-concrete mixture is laid to form an inner 2 layer. To ensure communication between the layers in the building block at different angles have reinforcing bars 6.

The presence of a reflecting mirror surface 5 reduces radiant heat transfer and significantly reduces the rate of temperature change across the thickness of the building block. When laying two additional 4 layers, one between heat-insulating 3 and external

the front 1 layer, and the second between the heat-insulating 3 and inner 2 concrete layers, and when their mirror surfaces 5 are located on the side of concrete 1, 2 layers, respectively, a peculiar thermal lock is created that effectively limits radiant heat transfer. In addition, the presence of an additional 4 layers made, for example, of a polymer film reduces convection heat transfer.

This design of the building block makes it possible to reduce the thickness of its layers at the required values of thermal resistance and significantly reduce the material consumption of the product.

Claims (3)

1. A building block comprising an outer front and inner concrete layers, between which a heat-insulating layer is installed, characterized in that the building block is provided with at least one additional layer having a mirror surface and located between the heat-insulating layer and the inner or outer front concrete layers. 2. The building block according to claim 1, characterized in that the additional layer has a mirror surface on the side of the outer face layer. 3. The building block according to claim 1, characterized in that the additional layer is perforated.