RU2754547C1 - Reinforced brickwork - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: present invention relates to the field of construction. The proposed brickwork is used in the construction of brick structures in seismically hazardous areas, for buildings with hazardous industries, as well as for warehouses with explosive materials. Reinforced brickwork containing layers of bricks laid on cement mortar, as well as a grid placed between the layers of bricks, laid using the zigzag pattern along the height of the masonry, and on the sides of the masonry there are additional grids vertically connected to the grid laid between the layers of bricks.

EFFECT: when force is applied in the horizontal plane to the proposed masonry, the side grids prevent the bricks from falling out, which in turn significantly reduces the risk of injury to people.

1 cl, 1 dwg

Description

The present invention relates to the construction industry and can be used in the construction of brick structures in seismically hazardous areas, for buildings with hazardous industries, as well as for warehouses with explosive materials.

Known reinforced masonry, made according to patent RU No. 2682384, publ. 03/19/2019 . It includes bricks laid in rows with bandaging of seams, vertical and horizontal reinforcement. In this case, each row of masonry is formed by a combination of three spoon bricks, laid with a gap, and a pair of butt bricks adjacent to their ends, laid one after another, and the rows are shifted relative to one another by 1/4 of the brick with the formation of vertical through channels in which a vertical fittings; in this case, the horizontal reinforcement in the longitudinal direction is laid in the gaps formed by the spoon bricks, and in the transverse direction the horizontal reinforcement passes through the seams. In addition, the channels and seams with reinforcement are filled with cement mortar, while the vertical reinforcement is made with helical protrusions on the outer surface, and both in the longitudinal and transverse placement along the brickwork, the vertical reinforcement is located in pairs in such a way that on the first of each pair to the vertical armature, the tangent of the helical protrusions has a clockwise direction, and on the second vertical armature, the tangent of the helical protrusions has a counterclockwise direction. At the same time, a continuous chain of pairwise vertical reinforcement is made to compensate for seismic destructive forces in the reinforced brickwork. The ends of the vertical reinforcement are covered by a glassy nanoscale film of tantalum oxide by an amount not less than the thickness of the brick, and the surface of the ends of the vertical reinforcement is made along the curve of the cycloid as a brachistochrone.

The disadvantages of this technology are the complexity of the construction of such masonry, the need to use various metal blanks, as well as a large amount of manual labor.

Also known is brickwork reinforced with basalt mesh (http://remoo.ru/stroitelstvo/bazaltovaya-setka-kladochnaya). In this case, the mesh is laid horizontally between the layers of brickwork. This, in turn, gives the masonry some strength. The disadvantage of this technology is the lack of protection of such masonry from falling out of bricks in the event of force action in the horizontal plane, which, in turn, allows injury to people.

The problem to be solved by the claimed invention is to increase the reliability of brickwork and reduce the risk of injury to people.

This problem is solved due to the fact that the main mesh of the reinforced masonry is laid in a "snake" between the layers of bricks along the height of the masonry, and the side nets are vertically connected at the ends of the brick with a serpentine mesh, and when the force is applied in the horizontal plane to the proposed masonry, the side nets prevent bricks.

The essence of the present invention is illustrated by the diagram shown in FIG. 1. Bricks are laid in layers on a cement mortar. Reinforcement of brickwork 1 is performed as follows. Between the layers of bricks, the grid 2 is laid in a "snake". And from the sides to the "snake" are welded (if the mesh is metal) or glued (if the mesh is polymer) side nets 3 and 4. The nets attached from the sides hold the plaster, which increases the reliability and service life of the structure.

Claims (2)

1. Reinforced brickwork, containing layers of bricks laid on a cement mortar, as well as a grid placed between the layers of bricks, characterized in that the grid, placed between the layers of bricks, is laid "snake" along the height of the masonry, and additional nets connected to a net laid between the layers of bricks. 2. Reinforced brickwork according to claim 1, characterized in that the sides of the brickwork are plastered.

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