RU151649U1 - EXTERIOR WALL OF THE BUILDING - Google Patents

Abstract

1. The outer wall of the building, containing an external wall element made of piece goods, in the form of brickwork, a facing element on the outside of the external wall element, a heat-insulating layer, characterized in that the piece product is a hollow brick block formed by longitudinal and transverse walls , the outer surface of one of the longitudinal walls is polished, on the upper surface of the longitudinal wall opposite to polished, at least two horizontal s grooves on the upper surfaces of the lateral walls provided with at least one horizontal groove for fixing a number of brickwork; the facing element on the outside of the outer wall element is formed by polished surfaces of the longitudinal walls of each hollow brick block; the wall contains an additional internal wall element installed in the form of brickwork from additional hollow brick blocks formed by longitudinal, polished surfaces and transverse walls, at least two horizontal grooves are made on the upper surface of one of the longitudinal walls, on the upper surface the transverse walls are made of at least one horizontal groove for fixing a number of masonry; all hollow brick blocks are obtained from crushed limestone - 90-95%, cement grade M400 or M500 - 5-10% by weight of dry matter and from water - 6-12% by molding by compression molding under a pressure of 300-600 atm .; each row of masonry wall elements was fixed with U-shaped clamp�

Description

The utility model relates to construction, in particular to the construction and reconstruction of civil and industrial buildings.

The closest analogue of the utility model is the design of the outer wall of the building described in the utility model “The outer wall of the building” (Ukrainian patent No. 3355, 2004, E04B 2/42).

The known external wall of the building contains a wall element (external), a heat-insulating layer located on its external side, followed by a cladding element and holding elements that are mounted on the external side of the wall element. The cladding element with an air gap with the help of retaining elements is fixed to the heat-insulating layer. The wall element is made of piece products, mainly bricks, in the form of masonry. A plaster layer is made on the inside of the wall element. The thermal insulation layer is made of hard mineral wool boards. The cladding element may be a sheet of aluminum alloy or steel panels, or be made of porous concrete or ceramic. The retaining elements can be made in the form of glasses and guide profiles. The wall further comprises a protective element in the form of a hydrophobic non-combustible mesh, which is located on the outside of the heat-insulating layer.

The signs of the closest analogue, which coincide with the essential features of the utility model, are the presence of an external wall element in the outer wall of the building, in the form of brickwork made from piece products, a facing element on the outside of the external wall element, and a heat-insulating layer.

The technical result of the utility model is to increase the bearing capacity of the wall, heat insulating and sound insulating properties, reducing metal consumption.

The reasons that impede the achievement of the technical result are such disadvantages of the closest analogue. The height of the wall has limitations associated with the presence of one bearing layer and its insufficient bearing capacity. Insufficient heat-insulating properties, especially in the cold season, are due to the insignificant thickness of the heat-insulating layer. The location of the insulating layer outside the wall reduces its durability. The performance of the cladding element of aluminum alloy sheets or steel panels leads to the irrational use of metal and reduce the soundproofing properties of the wall.

The technical task of the utility model is to improve the design, which eliminates the disadvantages of the closest analogue.

The stated technical problem is solved in that, the outer wall of the building, containing the outer wall element made of piece goods, in the form of brickwork, the facing element on the outside of the outer wall element, the insulation layer according to the utility model, the piece product is a hollow brick block formed longitudinal and transverse walls, the outer surface of one of the longitudinal walls is polished, on the upper surface of the longitudinal wall opposite to the poly Anna, formed of at least two horizontal grooves on the upper surface of the transverse walls are made of at least one horizontal groove for fixing a number of brickwork; the facing element on the outside of the outer wall element is formed by polished surfaces of the longitudinal walls of each hollow brick block; the wall contains an additional internal wall element installed in the form of brickwork from additional hollow brick blocks formed by longitudinal, polished surfaces and transverse walls, at least two horizontal grooves are made on the upper surface of one of the longitudinal walls, on the upper surface the transverse walls are made of at least one horizontal groove for fixing a number of masonry; all hollow brick blocks are obtained from crushed limestone 90-95%, cement grade M400 or M500, 5-10% by weight of dry matter, and from water 6-12% by molding by compression molding under a pressure of 300-600 atm .; the fixing of each row of brickwork of the wall elements is carried out by U-shaped clamps, for example, of wire, laid in the horizontal grooves of adjacent transverse brick blocks; wall and additional internal wall elements are installed with the formation of a cavity between them; hollow brick blocks of both wall elements are interconnected by profile reinforcing fasteners, for example, of wire; a heat-insulating layer is located in the formed cavity between the wall elements; the wall contains additional heat-insulating layers formed when filling the hollow brick blocks of both wall elements; heat-insulating layers are formed by structural and heat-insulating concrete; at least two vertical grooves are made on each of the inner surfaces of the walls of the hollow block with the possibility of installing longitudinal and transverse intra-block reinforcing bridges in them. According to a utility model, a putty layer is formed on the outside of the additional wall element. According to a utility model, hollow brick blocks are made with one internal partition. According to a utility model, the intra-block reinforcing bridges are made U-shaped. According to a utility model, additional reinforcement is installed in the cavity between the wall elements.

Between the totality of the essential features of the utility model and the technical result achieved there is a causal relationship - the use of the essential features will allow to obtain the expected technical result. The outer wall of the building is not known from the prior art, which is characterized by all the essential features given in the independent clause of the utility model formula.

The utility model is illustrated in graphic material, where in FIG. 1 shows a fragment of a general view of an external wall during construction in a perspective view; FIG. 2 shows a hollow brick block without a polished wall surface; FIG. 3 - U-shaped clamp, in FIG. 4 - profile reinforcing latch, in FIG. 5 - an additional hollow brick block with increased height and length of longitudinal walls, with one internal partition and with a polished wall surface.

The outer wall contains an external wall element 1 made in the form of brickwork from hollow brick blocks 2, an internal wall element 3 made in the form of brickwork from additional hollow brick blocks 4. Brick blocks 2, 4 are obtained from crushed limestone - 90-95% cement grade M400, M500 - 5-10% by weight of solids and water 6-12%, formed by compression molding under a pressure of 300-600 atm. The hollow brick block 2 (facing) of the wall element 1 and the brick block 4 (located inside the building) of the wall element 3 consists of longitudinal, inwardly facing masonry walls 5; longitudinal, outward facing masonry, walls 6 and transverse walls 7. Brick block 4 differs from block 2 only in the execution of block 2 with a polished outer surface 8 of longitudinal wall 6 (block 4 is shown in Fig. 2). The facing element (not indicated in the figures) on the outside of the outer wall element 1 is a layer of polished outer surfaces 8 of the walls 6 of each hollow brick block 2 facing the outside of the building. In blocks 2, 4 on the upper surface (not shown in the figures) of the longitudinal walls 5, two horizontal grooves 9 are made, on the upper surface 10 of the transverse walls 7 are made, three horizontal grooves 11 for fixing a number of masonry (not indicated in the figures). The adjacent transverse walls 7 of the hollow brick blocks 2, 4 joined to each other in the wall elements 1, 3 are fixed with U-shaped clamps 12, for example, of galvanized steel wire, laid in horizontal grooves 11, with the formation of a number of masonry (not indicated in the figures). Hollow brick blocks 2 of the outer wall element 1 and hollow brick blocks 4 of the additional inner wall element 3 are interconnected by reinforcing profile clamps 13, for example, of galvanized steel wire, with the formation of the cavity 14. The heat-insulating layer (not shown in the figures) is located in the formed cavity 14 between the wall elements 1 and 3. The wall contains additional heat-insulating layers (not shown in the figures) formed when filling the hollow brick blocks 2 and 4 in rows of masonry . The heat-insulating layers are formed by structural and heat-insulating concrete, with a density of, for example, 200 kg / m ³ . Thermal conductivity of the outer wall in

within 3.9 m ² degrees / W. On the outside (not shown in the figures) of the wall 6 of the additional wall element 3, a putty layer (not indicated in the figures) can be made. The wall element 1 can be folded from hollow brick blocks 15 with an external polished surface (not shown in the figures), and the wall element 3 can be folded from hollow brick blocks 16 made without polishing (figure 5). Blocks 15 and 16 differ from blocks 2 and 4 in that they can be made with a height and length increase of 1.5-2.0 times and the lengths of the longitudinal walls 17 and 18 and contain at least one inner partition 19. On each of the inner surfaces of the longitudinal 5, 6, 18 and transverse 7, 17 walls of the blocks 2, 4, 15, 16 are made of three vertical grooves 20 with the possibility of installing inside them reinforcing jumpers made of U-shaped (not shown in the figures). In the cavity 14 between the wall elements 1, 3 can be installed additional reinforcement 21. The technology of building a brick wall is used. Laying the insulating layer of concrete to fill the cavity 14 is carried out manually or mechanically. The thickness of the outer wall, depending on climatic conditions, can be 240 mm, or 360 mm, or 480 mm.

Claims (5)

1. The outer wall of the building, containing an external wall element made of piece goods, in the form of brickwork, a facing element on the outside of the external wall element, a heat-insulating layer, characterized in that the piece product is a hollow brick block formed by longitudinal and transverse walls , the outer surface of one of the longitudinal walls is polished, on the upper surface of the longitudinal wall opposite to polished, at least two horizontal s grooves on the upper surfaces of the lateral walls provided with at least one horizontal groove for fixing a number of brickwork; the facing element on the outside of the outer wall element is formed by polished surfaces of the longitudinal walls of each hollow brick block; the wall contains an additional internal wall element installed in the form of brickwork from additional hollow brick blocks formed by longitudinal, polished surfaces and transverse walls, at least two horizontal grooves are made on the upper surface of one of the longitudinal walls, on the upper surface the transverse walls are made of at least one horizontal groove for fixing a number of masonry; all hollow brick blocks are obtained from crushed limestone - 90-95%, cement grade M400 or M500 - 5-10% by weight of dry matter and from water - 6-12% by molding by compression molding under a pressure of 300-600 atm .; the fixing of each row of brickwork of the wall elements is carried out by U-shaped clamps, for example, of wire, laid in the horizontal grooves of adjacent transverse brick blocks; wall and additional internal wall elements are installed with the formation of a cavity between them; hollow brick blocks of both wall elements are interconnected by profile reinforcing fasteners, for example, of wire; a heat-insulating layer is located in the formed cavity between the wall elements; the wall contains additional heat-insulating layers formed when filling the hollow brick blocks of both wall elements; heat-insulating layers are formed by structural and heat-insulating concrete; at least two vertical grooves are made on each of the inner surfaces of the walls of the hollow block with the possibility of installing longitudinal and transverse intra-block reinforcing bridges in them. 2. The outer wall of the building according to claim 1, characterized in that a putty layer is made on the outside of the additional wall element. 3. The outer wall of the building of claim 1, characterized in that the hollow brick blocks are made with one internal partition. 4. The outer wall of the building of claim 1, characterized in that the intra-block reinforcing jumpers are made U-shaped. 5. The outer wall of the building of claim 1, characterized in that additional reinforcement is installed in the cavity between the wall elements.

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