RU2105109C1 - Three-layer wall with self-bearing stone lining - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to construction of brick walls and can be used in erecting walls of buildings. Three-layer wall with self-bearing stone lining has main load-bearing wall with pilasters, heat-conserving layer, and facing brick layer which is made up of side-to-side brick rows and end-to-end brick rows reinforced with flat welded frameworks and connected with main load-bearing wall by steel anchors. EFFECT: higher efficiency. 3 dwg

Description

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

 Known three-layer wall containing the outer facing layer of the spoon rows of bricks and bearing the inner layer, separated by an air gap. The facing layer is connected to the supporting inner layer by means of metal staples [1,2].

 The described device is the closest to the claimed in terms of features and is taken as a prototype.

 The described wall does not have sufficient heat resistance, it requires mandatory plastering of the outer layer and corrosion protection of metal staples.

 The facing layer as a separately working element of the wall structure does not possess the necessary stability.

 The objective of the invention is the creation of a three-layer wall with a self-supporting stone cladding with increased strength and reliability, as well as the achievement of heat engineering versatility.

 To solve the problem in a three-layer wall with a self-supporting stone cladding containing the main load-bearing wall, a layer of insulation and a facing outer layer made of spoon rows of bricks, according to the invention, the load-bearing wall is made with pilasters, and the facing layer contains double bonded rows of bricks reinforced with flat welded frames and steel anchors connected to the main wall.

 The device pilasters on the main bearing wall allows you to place the anchor rods completely in the mortar layer, which protects them from corrosion.

 The dowel rows of the cladding, reinforced with flat welded frames, increase the bearing capacity of the cladding layer when exposed to wind.

 Anchor rods connecting the cladding layer to the main bearing wall form hinges at the joints of the cladding with the main bearing wall, reducing the design height when calculating the wall for stability.

 The analysis of the prior art did not allow to identify an analogue, characterized by all the essential features of the proposed solution, i.e. it meets the requirement of novelty.

 No signs are also identified that are distinctive in the claimed solution, i.e. It meets the requirement of inventive step.

 The essence of the invention is illustrated by drawings, where in FIG. 1 shows a cross section of a three-layer wall with a self-supporting stone cladding; in FIG. 2 - section of the wall at the level of the spoon rows of the cladding; in FIG. 3 - a section of a wall at the level of bonded rows of facing.

 A three-layer wall with a self-supporting stone cladding contains a facing layer 1, the main supporting wall 3 and a layer of insulation 2 located between them. The facing layer 1 consists of spoon and poke 5 rows of bricks. The dowel rows 5 are reinforced with flat frames 4. The main bearing wall 3 is made with pilasters 7. Anchors 6 connect the facing layer 1 with the main bearing wall 3.

 The presence in the cladding layer 1 of double bonded rows 5 reinforced with flat welded frames allows the wall 1 to perceive the wind load and transfer it through the pilasters 7 to the main bearing wall 3. The contact of the bonded rows 5, pilasters 7 and anchors 6 excludes vertical and horizontal movements in this node . At the same time, there remains the freedom of its rotation. Thus, the interface of the yoke rows 5 and the pilasters 7 is a swivel connection of the facing layer 1 with the main supporting wall 3. The entire facing layer is hinged with the main bearing wall 3 over the entire height with a step equal to the pitch of the yoke rows 5. The calculated height in in this case it will be equal to the step of the row of rows 5, and not the entire height of the wall, and therefore, the stability and bearing capacity of the proposed three-layer wall with self-supporting stone cladding increases significantly.

 Flat frames 4 and anchors 6 are located in the mortar layer of the masonry and do not require special corrosion protection.

 The thickness of the insulation layer 2 can be controlled by changing the size of the protruding pilasters 7 without changing the design of the main load-bearing wall 3, thereby achieving the versatility of a three-layer wall with self-supporting stone cladding.

Claims (1)

 A three-layer wall with a self-supporting stone cladding, containing the main bearing wall, a layer of insulation and a facing layer made of spoon rows of bricks, characterized in that the supporting wall is made with pilasters, and the facing layer contains double butt rows reinforced with flat welded frames and connected to the main supporting wall with steel anchors.

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