RU105324U1 - BUILDING BLOCK - Google Patents

Abstract

 1. A building block containing a supporting and decorative concrete layers with a heat-insulating layer between them, provided with connecting grooves and ridges, characterized in that the grooves are located on the upper and one side of the carrier layer, the ridges are located on the lower and other side of the carrier layer, while the supporting layer is made of expanded clay concrete. ! 2. The building block according to claim 1, characterized in that the groove depth is greater than the height of the ridge by an amount sufficient to accommodate the reinforcement. ! 3. The building block according to claim 1, characterized in that it comprises a second heat-insulating layer connected to the first heat-insulating layer by a connecting layer, while in the heat-insulating layers there are holes arranged with an axis offset providing contact between the connecting layer and the carrier and decorative layers. ! 4. The building block according to claim 1, characterized in that the thermal insulation layer is made of mineral wool, or glass wool, or foam, or concrete containing wood chips. ! 5. The building block according to claim 1, characterized in that the supporting, heat-insulating, connecting and decorative layers contain metal fiber, reinforcing synthetic fiber, waterproofing substance, plasticizer.

Description

The utility model relates to the field of ground construction, and in particular to elements of building structures, in particular to building elements in the form of blocks for the construction of individual parts of buildings, consisting of insulating material and load-bearing material, and can be used in the manufacture of load-bearing walls with low thermal conductivity.

A well-known building wall block containing expanded clay concrete base and the outer facing layer and inner layer connected to it (see RF patent for utility model No. 92436, IPC E04C 1/00). The cladding layer includes white cement, quartz sand and a plasticizer. The inner layer includes gray cement and quartz sand. The base includes expanded clay, gray cement and quartz sand.

However, such a building wall block has a high thermal conductivity.

A heat-insulating building block is known, including at least the outer and inner layers based on various cementitious mortars, between which there is a heat-insulating slab (see RF patent for utility model No. 33589, IPC E04C 1/00). The block is equipped with communication elements made in the form of through or through holes in a heat-insulating plate for penetration of solutions of interacting layers into them. The block can be equipped with an additional heat-insulating plate and an additional inner layer.

However, the heat-insulating building block described above is unsuitable for the construction of highly loaded load-bearing walls.

A known building block containing a bearing, front layers and a heat-insulating layer located between them (see. RF patent for utility model No. 88705, IPC E04C 1/00). According to a utility model, the heat-insulating layer is made of polyurethane foam, and the carrier and front layer are fixed relative to each other due to the adhesive properties of the polyurethane foam. The front layer of the building block can be made of porcelain stoneware, marble, clinker tiles, asbestos cement slabs with marble chips, painted asbestos cement slabs, tile, gypsum-fiber sheet, glass-magnesium sheet or other materials. The bearing layer of the building block can be made of aerated concrete foam concrete, expanded clay concrete, cinder block, wooden timber or other materials.

However, the adhesive properties of polyurethane foam are not sufficient for rigid fixation of the front layer relative to the carrier, which can lead to destruction of the unit during transportation, as well as during the construction and operation of the building.

Closest to the claimed is a building block, including interconnected carrier layer with reinforcing elements, heat-insulating and front layers with facet bevels, protrusions and depressions (see RF patent for utility model No. 93097, IPC E04B 1/02). The protrusions and depressions of the building block are located on the sides in the middle of the front layer, while the protrusions are offset from the side planes, and the depressions are made with a length equal to the length of the building block. The heat-insulating layer is made with honeycombs, and the reinforcing elements are passed through cells of honeycombs and connected to the carrier and front layers with their ends.

However, the location of the protrusions (ridges) and depressions (grooves) on the front (decorative) layer reduces the reliability of the structures being constructed, since the best adhesion should be between the bearing layers of adjacent blocks in the masonry. In addition, the location of the protrusions on the upper side of the block, and the depressions on the bottom makes it difficult to place the solution between them during the construction of building structures. Another disadvantage of the known building block is the presence of reinforcing elements passing through the heat-insulating layer and which are bridges of cold from the front layer located on the street to the inner bearing layer.

The objective of the proposed technical solution is to create a building block with sound and heat insulation, applicable in the construction of prefabricated structures.

The technical result is to reduce thermal conductivity and increase the strength and sound insulation of the structure.

The claimed technical result is achieved in that in a building block containing a bearing and decorative layers with a heat-insulating layer between them, provided with connecting grooves and ridges, according to the solution, the grooves are located on the upper and one side of the carrier layer, the ridges are located on the lower and other lateral side of the carrier layer, while the carrier layer is made of expanded clay concrete. The groove depth is greater than the height of the ridge by an amount sufficient to accommodate the reinforcement. The block contains a second heat-insulating layer connected to the first heat-insulating layer by a connecting layer, while in the heat-insulating layers there are holes arranged with an axis offset providing contact between the connecting layer and the carrier and decorative layers. The thermal insulation layer is made of mineral wool, or glass wool, or foam, or concrete containing wood chips. The bearing, heat-insulating, connecting and decorative layers contain metal fiber, reinforcing synthetic fiber, waterproofing substance, plasticizer.

The utility model is illustrated by drawings, where Fig. 1 shows a building block with one heat-insulating layer, Fig. 2 shows a building block with two heat-insulating layers, Fig. 3 shows a building block - front view. The positions in the drawing indicate:

1 - decorative layer;

2 - thermal insulation layer;

3 - hole;

4 - a connecting layer;

5 - a bearing layer;

6 - comb;

7 - groove.

The building block is a rectangular parallelepiped extended along one of the horizontal ribs and divided into successive layers - a carrier layer 5, a heat-insulating layer 2 (or two heat-insulating layers 2 with a connecting layer 4 between them), a decorative layer 1, while the layers are located along vertical face, conjugated with a long horizontal edge. On the upper side of the carrier layer 5 along the long horizontal rib, as well as on one side, a groove 7 is made having a section in the form of a rectangle or trapezoid, the smaller base of which is located inside the block. On the lower side of the carrier layer along the long horizontal rib, as well as on the side opposite the side with a groove, a ridge 6 is made having a section in the form of a rectangle or trapezoid, the larger base of which is located on the surface of the block (see Fig. 3). The shape of the ridge and groove is made in such a way that the ridge of one block freely fits into the groove of another identical block located beneath it when erecting the walls, while the depth of the groove can be made exceeding the height of the ridge to allow placement of reinforcing strands from cylindrical reinforcement at the bottom of the groove.

The bearing layer is made of expanded clay concrete with the addition of metal fiber, which is, for example, steel strips of various shapes with notches of about 40 × 0.5 × 1.5 mm in size offered by Alliance - Building Technologies LLC or Profit-M LLC, reinforcing synthetic fiber (fiber, polypropylene fiber), for example, manufactured by Sea Air LLC or a patent for RU 2339748, a waterproofing agent, such as Penetron Admix manufactured by Penetron Russia, a plasticizer, such as ArmMix Su erplast "produced by" Alliance - Building Technologies. " Expanded clay has frost resistance, fire resistance (fire safety), poorly absorbs moisture (non-hygroscopic), is environmentally friendly. Metal fiber is designed to give concrete increased tensile and bending strength, ultimate compressibility, resistance to cracking, high impact strength, slowing viscous fracture, reducing creep and shrinkage deformation, and increasing abrasion resistance. Thanks to the use of reinforcing synthetic fibers in concrete, it is possible to reduce the formation of cracks during shrinkage, improve the surface quality of concrete, increase resistance to penetration of water and chemicals, increase impact resistance, frost resistance, resistance to fire, density, reduce abrasion of concrete during operation, increase the ability concrete mix to adhesion, prevent concrete mixture stratification, reduce costs and lead time due to faster strength gain. The waterproofing substance penetrates the concrete structure, where, interacting with the components of the cement stone, it forms insoluble whiskers that fill microcracks, pores and capillaries of concrete and prevent the penetration of liquids into concrete, while allowing air to pass through. The plasticizer is designed to produce self-compacting concrete with increased water resistance and frost resistance.

The heat-insulating layer can be made of concrete containing wood chips as a heat-insulating filler, made with the addition of metal fiber, reinforcing synthetic fiber, waterproofing substance, plasticizer (figure 1). Wood chips are pre-dried and impregnated with hydrophobic antiseptic compounds. As a heat-insulating layer, a material selected from the following series can be used: mineral wool, or glass wool, or polystyrene; in this case, the block is equipped with a second heat-insulating layer made of a material identical to the material of the first heat-insulating layer, or another material from the specified row (figure 2). To connect two heat-insulating layers to each other, as well as to the bearing and decorative layers, the building block is equipped with a connecting layer 4, which is concrete with the addition of metal fiber, reinforcing synthetic fiber, waterproofing substance, plasticizer. To ensure the penetration of the connecting layer 4 from the decorative 1 to the carrier 5 in the heat-insulating layers 2, holes 3 are made, and the holes of the different layers are arranged so that their axes are offset from each other to eliminate the possibility of the formation of so-called "cold bridges", which are heat conductors from the inner supporting layer to the outer decorative layer.

The decorative layer is made of concrete with the addition of metal fiber, reinforcing synthetic fiber, waterproofing agent, plasticizer, while the front surface can be made smooth or with a decorative texture.

When erecting walls from the claimed blocks, they are laid in rows so that the ridge on the side of one block is located in a groove on the side of the adjacent block, while the cracks are filled with mortar. The next row is laid on a row of blocks from above so that the place of pairing of two neighboring blocks is above the middle part of the block located below. At the same time, reinforcement is placed in the upper groove for strapping the structure to be erected around the perimeter, then the groove is filled with mortar, after which a block is placed on top, the lower ridge of which is immersed in the groove, squeezes out the excess solution, filling the cracks between the blocks.

Claims (5)

1. A building block containing a supporting and decorative concrete layers with a heat-insulating layer between them, provided with connecting grooves and ridges, characterized in that the grooves are located on the upper and one side of the carrier layer, the ridges are located on the lower and other side of the carrier layer, while the supporting layer is made of expanded clay concrete. 2. The building block according to claim 1, characterized in that the groove depth is greater than the height of the ridge by an amount sufficient to accommodate the reinforcement. 3. The building block according to claim 1, characterized in that it comprises a second heat-insulating layer connected to the first heat-insulating layer by a connecting layer, while in the heat-insulating layers there are holes arranged with an axis offset providing contact between the connecting layer and the carrier and decorative layers. 4. The building block according to claim 1, characterized in that the thermal insulation layer is made of mineral wool, or glass wool, or foam, or concrete containing wood chips. 5. The building block according to claim 1, characterized in that the supporting, heat-insulating, connecting and decorative layers contain metal fiber, reinforcing synthetic fiber, waterproofing substance, plasticizer.