RU54982U1 - UNIVERSAL BUILDING UNIT - Google Patents

Abstract

Usage: in the building materials industry, in low-rise construction. The essence of the utility model: The universal building block contains a front layer, concrete building layers and a heat-insulating layer located between them. Building layers are connected by jumpers that penetrate the insulating layer, and are located at an angle to the horizontal and vertical planes. Jumpers are made of metal and / or plastic rods. The heat-insulating layer is made of a material with a bending strength of at least 0.16 MPa, for example, polystyrene plates ПСБ-С-25 GOST 15588, with through holes each with an area of at least 100 mm ² in cross section located parallel to the planes of the heat-insulating layer in contact with building layers. Building layers have the form of rectangles with end surfaces located in coincident planes, and the location of the insulating layer around the perimeter of the block forms grooves and / or protrusions of the same depth or height, respectively, relative to the end surfaces of the building layers. The complexity of wall assembly using universal building blocks is reduced to 30%.

Description

The utility model related to the building materials industry, used in particular in low-rise construction, can be used in the construction of civil and industrial facilities with high requirements for decorative exterior cladding of buildings, heat and sound insulation of premises, for example, houses, cottages and other buildings .

The well-known "Building wall block" (patent No. 2131501, RU, 1998), in which a multilayer building element (block) is described, comprising two building layers separated by a core of heat-insulating material. Building layers are made of expanded clay concrete or of structural concrete of another type. The heat-insulating core is made of polystyrene foam or other material similar in strength and thermophysical properties.

The disadvantage of this design is that the building block requires additional finishing of the outer front surface of the walls erected from it, and the connection between the layers does not provide sufficient strength, despite the variety of configuration forms of the heat-insulating core.

The well-known "Concrete building block" (patent No. 2208102, RU, 2003) includes a front layer, concrete building layers and a heat-insulating layer located between them. These thicknesses are selected in relation to A: B: C: D = 0.7: 2.3: 3.3: 5.7, where A is the front layer, B is the building layer (binder), C is the thermal insulation layer, D - structural layer bearing. These construction layers are connected by jumpers piercing the insulating layer and made in the form of metal and plastic rods, located at an angle in the horizontal and vertical surfaces. The front layer is made of a mixture of cement, expanded clay, sand and water in a ratio of 2.4: 2.2: 5.4: 1.0 with the addition of 10% plasticizer and the required amount of coloring pigment. A chamfer is made around the perimeter of the front layer. Building layers are made of foam concrete or expanded clay concrete containing a mixture of cement, expanded clay, sand and water in a ratio of 3.1: 3.4: 1.9: 0.15 with the addition of a foaming agent, and the thermal insulation layer is made of expanded polystyrene. Jumpers are made of various profiles in cross section. The front layer can be made of different textures and different colors.

The disadvantages of this design are:

- the need for highly skilled workers during masonry;

- destruction of the thermal insulation layer when the temperature regime changes from “+” to “-” (accumulated moisture in the amount of up to 15% turns into ice and breaks the boundary layers of the thermal insulation layer);

- the length of the thermal bridges formed during the docking of the blocks does not provide heat conservation at negative outside temperatures.

The problem solved by this utility model is to develop the construction of a universal building block using which:

- It is allowed to carry out construction work for low-skilled workers;

- eliminates the destruction of the insulating layer when changing the temperature regime from "+" to "-";

- reduced heat loss at the junction.

To solve this problem, the universal building block contains a front layer, concrete building layers and a heat-insulating layer located between them, in which these building layers are connected by jumpers piercing the heat-insulating layer. Jumpers are made of metal and / or plastic rods and are located at an angle to the horizontal and vertical planes. The heat-insulating layer is made of a material with a bending strength of at least 0.16 MPa, for example, polystyrene plates ПСБ-С-25 GOST 15588, with through holes each with an area of at least 100 mm ² in cross section located parallel to the planes of the heat-insulating layer in contact with building layers. Building layers have the form of rectangles with end surfaces located in coincident planes, and the location of the insulating layer around the perimeter of the block forms grooves and / or protrusions of the same depth or height, respectively, relative to the end surfaces of the building layers.

The through holes in the heat-insulating layer each with an area of at least 100 mm ² in the cross section exclude the formation of local moisture accumulation and its transformation into ice with destructive consequences when the temperature regime is changed from “+” to “-”.

The rectangular shape of the building layers with end surfaces located in coincident planes ensures the quality of the masonry and minimize the consumption of binder material, for example, glue.

Due to the structural arrangement of the heat-insulating layer and its dimensions along the perimeter of the blocks, protrusions or grooves are formed that provide the connection of the blocks by the "tongue-groove" method, which reduces the complexity of the work and their complexity factor. The laid bending strength of the heat-insulating layer ensures the reliability of the masonry, and the thorn-groove connection reduces heat loss at the junction of the blocks.

The description of the utility model is illustrated by drawings, which depict:

- figure 1 - examples of embodiments of the block;

- figure 2 is a section aa in figure 1;

- figure 3 is an element of the assembled wall;

- figure 4 is a section bB in figure 3;

- figure 5 - placement of the block in the form.

The proposed design of a universal building block consists of a front layer 1, concrete building layers 2. a heat-insulating layer 3, jumpers 4 that connect the building layers

2 and penetrate the heat-insulating layer 3. In the heat-insulating layer 3 there are through holes 5 each with an area of at least 100 mm ² in cross section parallel to the planes 6 and 7. End surfaces, for example, 8 and 9 of one building layer and 10 and 11 of the second building layer respectively in coincident planes, i.e. end surfaces 8 and 10, as well as 9 and 11, when extended to touch, form one plane.

The structural arrangement and dimensions of the insulating layer 3 form protrusions 12 or depressions 13, which provide assembly work, reducing their complexity. In this case, heat loss in the plane of joining of building blocks with each other is reduced due to the thorn-groove connection.

The manufacture of universal building blocks in any of the options, for example, in FIG. 1, is carried out according to standard technology. At the bottom of the mold 14, fill the front layer 1 of a given thickness. Then the concrete building layer 2 is molded to the height of the limiting protrusions 15. A heat-insulating layer 3 is laid on the protrusions, piercing it with pins 16, the cross-sectional area of each of which is at least 100 mm ² , made of, for example, fiberglass. On top of the heat-insulating layer 3, a second concrete building layer 2 is formed. Layers 2, penetrating the heat-insulating layer 3, are connected by jumpers 4.

After the concrete has hardened, the mold is taken apart. After removing them, the pins leave through ventilation holes in the heat-insulating layer 3, and prior to their removal, the position of the heat-insulating layer in the mold is fixed. The resulting block is ready for use.

The ratio of the thicknesses of layers 2 and 3 are determined by calculation depending on the climatic zone according to SNiP 23.02 - 2003 “Thermal protection of buildings”.

When assembling, the end surfaces of the concrete layers 2 through which the contact occurs and the side surfaces of the "spikes" formed by the heat-insulating layer 3 are coated with a binder, for example, with KLEIBERIT PUR VP 9414/43 polyurethane adhesive.

The walls built from these blocks are durable, have good heat-shielding properties, provide sound insulation and reliability.

The complexity of installation work decreased to 30%.

Claims (1)

A universal building block containing a front layer, concrete building layers and a heat-insulating layer located between them, in which these building layers are connected by jumpers piercing the heat-insulating layer and made of metal and / or plastic rods, located at an angle to horizontal and vertical planes, the heat-insulating layer made of a material having bending strength of at least 0.16 MPa with through holes, each of not less than 100 mm ² in the transverse echenii arranged parallel to the planes of the heat-insulating layer in contact with the construction layers, having the shape of rectangles with end faces arranged in coinciding planes, and the location of the thermal insulation layer forms the perimeter of the block grooves and / or projections of equal depth or height, respectively, relative to the end faces of the building layers.