RU188398U1 - The construction of the outer wall of the building of silicate bricks - Google Patents

Abstract

The utility model relates to the construction, namely, the structures of the exterior walls of buildings. The technical result is the improvement of the heat and mass transfer process due to the homogeneity of the materials used silicate brick and the treated gas silicate chips, minimizing the shrinkage process due to the insignificant thickness and height of the layer of insulating material. The technical result is achieved the fact that the construction of the outer wall of the building of silicate brick, containing a heat-insulating layer and facing according to the utility model, a broadened seam 0.05 m thick is located behind the spoon’s row of facing layer, after 4-5 spoons of facing layer there is a buttry row in which the brick next to the facing one is located with a shift of 0.05 m, forming a cavity between them, which is capped at the top and bottom by knotted rows of one brick, while the broadened joint and cavity are filled with insulating material in the form of gas-silicate crumb produced from waste in the production of gas silicate blocks treated with hydrophobic liquid based on organosilicon compounds.

Description

The invention relates to the construction, namely the structures of the outer walls of buildings.

The laying of exterior brick walls is massively used in construction today. A variety of the most varied structural solutions for the exterior walls of brick buildings are used. One of the main requirements of today to external walls is energy efficiency, heat saving. To this end, in order to increase the thermal protection of the exterior walls of buildings, the norms provide for an increase (R-thermal resistance) of the main indicator providing the required level of thermal protection several times, which creates difficulties in designing the exterior walls of brick buildings.

The designer, in order to ensure the normative value of heat transfer resistance, has to use various versions of multi-layered external wall structures, where expanded polystyrene, mineral wool, various types of bulk materials are used as a heat-insulating layer in brick walls.

The use of materials with different performance properties, sanitary and hygienic, fire-fighting, durability in external walls leads to the fact that today nobody can say what kind of performance properties these materials will have in 10, 20, 50 years of operation. If a brick is a well-studied building material, then we will not find a definite answer for new heat-insulating materials, which are now widely used in the design of exterior walls.

The disadvantage of the proposed technical solutions is that the construction of the walls as a result of the thermal calculation is not uniform. Since the territory of the Russian Federation is located in different climatic zones, and to a greater extent these are areas with unfavorable climatic conditions, making calculations, it becomes necessary to use insulation in the wall construction. The use of insulation, especially from mineral wool, leads to a reduction in the durability of the structure, moisture accumulation and a decrease in the thermal performance of the walls over time due to the different service life of the materials.

An analogue of the proposed brickwork system with an inner layer of thermal insulation is copyright certificate No. 1333752 USSR, Е04В 2/28, “Lightweight masonry of the outer wall”, consisting of separate insulation systems, outer and inner walls, connected by protruding transverse diaphragms from pointed bricks protruding from the walls.

This technical solution with the use of mineral wool insulation materials reduces the operational characteristics of the wall through the use of dissimilar materials, significantly violating the physical processes of heat and mass transfer, reducing the durability of the structure, moisture accumulation in the insulation, reducing the thermal performance of the fence over time.

An analogue of the proposed brickwork system is the RF patent No. 2261961, Е04В 2/02, “Multilayer wall of a building”, consisting of an outer layer of masonry (lining), an inner layer of masonry, a carrier part of the wall, between them plate insulation (foam), plaster with internal hand fasteners.

The disadvantage of this technical solution is the use of heterogeneous materials in a multi-layer construction that violate the heat transfer processes, which leads to a decrease in the declared thermal engineering qualities of the fence over time.

The prototype is the RF patent №2119021, Е04В 2/28, 1996, "Three-layer wall with stone facing", containing an internal carrier layer, insulation and a facing layer of brick spoons, connected to the inner layer with metal bonds, while the facing layer contains discretely located stone bonded elements, one part of which rests against the bearing inner layer, and the other is installed in rows with a selected pitch, provided with flat reinforcing cages and tied with a bearing inner layer, with the horizontal seam One of the reinforced elements is made with a sealing plastic seal and is filled from the outside with mastic.

The disadvantage specified in the prototype technical solution is a significant heterogeneity of the used insulation materials in relation to the brick, which violates the heat and mass transfer in the wall, leads to a decrease in the performance of the external enclosure.

The technical result is to improve the process of heat and mass transfer due to the homogeneity of the materials used silica brick and treated gas silicate chips, minimizing the shrinkage process, due to the low thickness and height of the layer of insulating material.

The technical result is achieved by the fact that the construction of the outer wall of the building of silicate brick, containing a heat-insulating layer and facing layer made of spoon and knotted rows of full-bodied silicate brick, according to the utility model, a wider joint 0.05 m thick is located behind the spoon layer of facing layer through 4-5 spoons of the facing layer is a junction row, in which the brick, next to the facing one, is shifted by the value of 0.05 m, forming a cavity between them, covered from above and below in one brick, with the broadened seam and cavity filled with insulating material in the form of filling from gas silicate chips, obtained from waste in the production of gas silicate blocks, treated with hydrophobic liquid based on organosilicon compounds.

The drawing shows a vertical section of the construction of the outer wall of the building of silica brick.

1 - spoons row facing layer; 2 - a tychkovy row of a facing layer; 3 - wide seam filled with insulating material; 4 -cavity in the buttting row 2, formed between the facing brick and the next, filled with insulating material; cavity 4 at the top and bottom is blocked by tychkovymi rows of one brick 5 and 6, respectively, 7 - masonry mesh; 8 - plaster layer; 9-lime sand solution.

This goal is achieved by the fact that the design of the outer wall has on the outer side of the cladding layer, made of 1 spoon and 2 bonded rows of full-bodied silicate brick. Next to the spoon row 1, there is an enlarged joint 3, 0.05 m thick, filled with insulating material in the form of a backfill from gas silicate chips, obtained from waste from the production of gas silicate blocks, treated with a hydrophobic liquid based on organosilicon compounds, which eliminates wetting processes when a condensate appears .

The insignificant thickness of the heat-insulating material layer is 0.05 m, and its height minimizes the shrinking processes, the homogeneity of the materials used, silica brick and the treated gas silicate chips provide the best conditions for heat and mass transfer.

To exclude “cold bridges” the thickness of the masonry in the cladding layer after 4-5 spoons rows 1, the pushing row 2 is located, where the facing brick is laid first, and the next brick is shifted by 0.05 m, the resulting cavity 4 is filled with thermal insulation material in the form of filling from gas silicate chips, obtained from waste in the production of gas silicate blocks, treated with hydrophobic liquid based on organosilicon compounds.

The cavity 4 in the tychkovy row 2 from above and below is blocked by tychkovymi rows of one brick 5 and 6, respectively.

For additional strength of the masonry, masonry mesh 7 is laid over the bonded row 2.

The thickness of the inner layer of the masonry of silica brick is determined by calculation.

The inner surface of the outer wall is made of warm plaster layer 8. Brickwork is performed on lime-sand mortar 9.

As a result of the use of the proposed utility model, there is an improvement in the operational, heat-engineering properties, simplification of the construction of masonry works.

Claims (1)

The construction of the outer wall of the building is made of silicate brick, containing a heat-insulating layer and facing layer made of spoon and bonded rows of full-bodied silicate brick, characterized in that behind the spoon layer of the facing layer there is a broadened seam 0.05 m thick, after 4-5 spoon rows of facing layer is a tychkovy row, in which a brick, next to the facing one, is shifted by an amount of 0.05 m, forming a cavity between them, blocked from above and below by tychkovymi rows in one brick, while the nny seam and the cavity filled with insulation material in the form of backfill silicate crumbs obtained from the waste in the production of silicate blocks treated with water-repellent liquid on the basis of organosilicon compounds.

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