MD486Z - Sandwich wall - Google Patents

Abstract

The invention relates to construction, in particular to multilayer walls, and can be used in the construction of buildings. A multilayer wall includes a base layer (1), an average heat-insulating layer (2), an outer layer (3) made of piece wall material, placed with the formation air gap, as well as the connection (13) between the outer layer (3) and the base layer (1). The outer layer (3) is made of wall blocks with voids (4) between the spoon faces, with the formation of vertical channels (8) in the masonry, which form an air gap. The estimated number of vertical channels (8) are filled with concrete (11) reinforced with a vertical steel or polymer rod (12), forming cylindrical vertical dowels. Connections (13) are made by groups of at least three bonded blocks arranged in a checkerboard pattern or another order along the wall plane in the calculated quantity. Part of the bonds (13) is associated with cylindrical dowels in the vertical channels (8). The lower and upper rows of the outer layer (3) are made of U-shaped collector blocks facing the vertical channels in the masonry with voids (8) with the formation of horizontal channels (7) that communicate with vertical channels (8). In the outwardly facing walls of some blocks of the lower and upper rows of the outer layer (3), ventilation holes (9), (10) are made.

Description

The invention relates to construction, in particular to layered walls, and can be used in the construction of buildings.

A layered wall is known, which contains an inner load-bearing layer made of brick, a thermal insulation layer and an outer covering layer made of brick. The inner and outer layers are connected to each other by pilasters made in the inner layer and by transverse rows of bricks incorporated in the outer covering layer. At the same time, the layers are connected to each other by flexible connections [1].

The main disadvantage of this wall is the low resistance of the outer covering layer and the unsatisfactory removal of moisture from the wall, which penetrates both from the external environment and from inside the building and accumulates in the thermal insulation layer.

A wall is also known, which includes an inner monolithic load-bearing layer or made of piece wall material, a middle heat-insulating layer and an outer brick covering layer. Between the middle heat-insulating layer and the outer layer there is an air gap that ensures ventilation and removal of moisture vapor from the surfaces of the heat-insulating and outer layers. The inner and outer layers are connected to each other by rigid connections made of brick and flexible connections made of steel or polymer reinforcement. To prevent the destruction of the heat-insulating layer, its surface facing the air gap is protected by gluing a fiberglass cloth or other sheet or film material [2].

The disadvantages of the mentioned wall are the following:

- the complexity of ensuring the resistance of the outer layer when made of bricks, especially in seismic conditions;

- the need to perform the protective layer on the surface of the thermal insulation layer adjacent to the air blanket;

- the outer and inner layers are made of different thicknesses and therefore have different rigidity, which suggests different thermal displacements, different oscillatory displacements during seismic actions, which can lead to the destruction of the outer layer;

- the air blanket for a large wall surface requires the execution of horizontal and vertical sections to reduce the air convection speed;

- the connection between the outer and inner layers is made of transverse masonry along the entire height of the floor, which creates a strongly developed "cold bridge", increasing the consumption of wall materials.

The problem that the invention solves consists in increasing the resistance of the wall, especially when building in seismic areas, as well as reducing the costs of building.

The problem is solved by the fact that the layered wall includes a base layer, a middle heat-insulating layer, an outer layer, made of piece wall material, placed with the formation of an air layer, as well as connections between the outer layer and the base layer. The outer layer is made of wall blocks with gaps between the longitudinal faces, with the formation of vertical channels in the masonry, which form the air layer. A calculated number of vertical channels are filled with concrete, reinforced with a vertical steel or polymer bar, forming vertical cylindrical wedges. The connections are made in groups of at least three transverse blocks, placed in a checkerboard pattern or in another order on the wall plane in a number established by calculation. Part of the connections is connected to the cylindrical wedges in the vertical channels. The lower and upper rows of the outer layer are made of U-shaped collector blocks, oriented in the masonry with the gaps towards the vertical channels, with the formation of horizontal channels, which communicate with the vertical channels. In the outward-facing walls of some blocks of the lower and upper rows of the outer layer, some ventilation holes are made.

The base layer can be made of hollow wall blocks.

The wall block can be made with two holes.

The wall block may be provided with annular protrusions around the openings on one long side and corresponding annular recesses on the opposite long side.

The invention is explained by the drawings in Fig. 1-5, which represent:

- Fig. 1, the facade of the layered wall;

- Fig. 2, section A-A of Fig. 1;

- Fig. 3, section B-B of Fig. 2;

- Fig. 4, the wall block with two openings;

- fig. 5, U-shaped collector block.

The layered wall (Fig. 1) includes a base layer 1, a middle heat-insulating layer 2, an outer layer 3, placed with the formation of an air layer, as well as connections 13 between the outer layer 3 and the base layer 1. The outer layer 3 is made of wall blocks with gaps 4 between the longitudinal faces, with the formation of vertical channels 8 in the masonry, which form the air layer. A calculated number of vertical channels 8 are filled with concrete 11, reinforced with a vertical steel or polymer bar 12, forming vertical cylindrical wedges. The connections 13 are made in groups of at least three transverse blocks, placed in a checkerboard pattern or in another order on the wall plane in a number established by calculation. Part of the connections 13 is connected to the cylindrical wedges in the vertical channels 8. The lower and upper rows of the outer layer 3 are made of U-shaped collector blocks (Fig. 5), oriented in the masonry with the gaps towards the vertical channels 8, with the formation of horizontal channels 7, which communicate with the vertical channels 8. In the outward-facing walls of some blocks of the lower and upper rows of the outer layer 3, some ventilation holes 9, 10 are made.

The wall block may be provided with annular protrusions 5 around the gaps 4 on one long side and corresponding annular recesses 6 on the opposite long side.

The proposed wall construction allows combining in the outer layer the functions of the load-bearing element, the air layer and the protective thermal insulation layer, which significantly reduces the range of materials used, reduces the costs and terms of construction. Wall blocks with annular protrusions and recesses around the gaps, as well as reinforced vertical channels significantly increase the strength of the wall, which is especially important in the conditions of construction in areas with increased seismic activity.

The middle thermal insulation layer is not subject to destruction due to the convection movement of air currents. The possibility of destruction of the thermal insulation by mechanical actions, for example earthquakes, is excluded, therefore light and very light thermal insulation can be used, which allows to significantly increase the thermal insulation of the walls.

1. RU 2037023 C1 1995.06.09

2. Handbook of thermal and sound insulation constructions. Часть 7. Трехслойные наружные стыны из камней, блоков и железобетонных панелей, Saint-Petersburg, УРСА-инжиниринг, 2004, p. 4.5

Claims (4)

1. A layered wall, which includes a base layer (1), a middle thermal insulation layer (2), an outer layer (3), made of wall material in pieces, placed with the formation of an air layer, as well as connections (13) between the outer layer (3) and the base layer (1), characterized in that the outer layer (3) is made of wall blocks with gaps (4) between the longitudinal faces, with the formation of vertical channels (8) in the masonry, which form the air layer; a calculated number of the vertical channels (8) are filled with concrete (11), reinforced with a vertical steel or polymer bar (12), forming vertical cylindrical wedges; the connections (13) are made in groups of at least three transverse blocks, placed in a checkerboard pattern or in another order on the wall plane in a number established by calculation, at the same time a part of the connections (13) is connected to the cylindrical wedges in the vertical channels (8); the lower and upper rows of the outer layer (3) are made of U-shaped collector blocks, oriented in the masonry with the gaps towards the vertical channels (8), with the formation of horizontal channels (7), which communicate with the vertical channels (8), and in the outward-facing walls of some blocks of the lower and upper rows of the outer layer (3) some ventilation holes (9), (10) are made. 2. Layered wall according to claim 1, characterized in that the base layer (1) is made of hollow wall blocks (4). 3. Layered wall according to claim 1, characterized in that the wall block is made with two voids (4). 4. A layered wall according to claim 1, characterized in that the wall block is provided with annular protrusions (5) around the holes (4) on one long side and corresponding annular recesses (6) on the opposite long side.