RU146412U1 - CONSTRUCTION OF REINFORCED PRODUCTS - Google Patents

Abstract

Reinforcing product containing a reinforcing mesh, consisting of reinforcing elements made in the form of transverse and longitudinal rods, characterized in that in the central zone there are longitudinal and transverse rods having the same mutual axial distances and the same cross-sectional areas, and separate additional reinforcing bars with a smaller pitch so that they can be placed between the rods of the main grid, and in the boundary zones there are longitudinal and transverse rods having a mutual axial distance , which is greater than the axial distance between the longitudinal rods in the Central zone of the reinforcing mesh.

Description

The utility model relates to construction, namely to the design of reinforcing products used in the device of monolithic ceilings, and to methods for reinforcing reinforced concrete structures.

A known construction of a monolithic bezel-less floor reinforced with welded reinforcing meshes laid at the bottom and in the upper zone of the floor slab (see the book "Reinforced concrete and stone structures", M .: Higher school, 2007, p. 546, Fig. 221a)

Reinforcing meshes are known for the manufacture of hollow core slabs placed in the upper shelf in the form of welded wire mesh of Ø 3Вр 1 wire (Album of drawings. Series 1.141-1, 1.090.1-1, 1.041.1-3, 1.241-1. Issue No. 66, 04/15/1986. Hollow core slabs).

Known reinforcing mesh, consisting of longitudinal and transverse rods welded to each other at their intersection, and the cross-section of the transverse rods decreases from the inner part of the mesh to its edges, and most of the rods are located in pairs. (French Application No. 2284722, E04C 5/04, 1976).

The disadvantages of the presented models include insufficient bearing capacity in the areas of maximum bending moments, in addition, the use of a large number of differently calibrated rods used to make the mesh is impractical from the point of view of unification.

As a prototype of the method of reinforcing, the applicant selected a reinforcing product ("Reinforcing mesh for reinforced concrete products", see ed. St. SU No. 1544924, class E04C 5/04, 1988) containing an reinforcing mesh consisting of reinforcing elements made in the form transverse and longitudinal rods with kinks in the form of one period of a sinusoid, which are staggered along the grid field.

Additional elements are attached to the bends of the mesh in the form of solid strips or two-branch flat frames placed along the longitudinal rods and forming an additional (upper) reinforcing mesh. The presence of an additional mesh increases the strength of the reinforcing product. The protrusions of the rods and additional rods interfere with the displacement of the frame under pressure of the concrete mixture during the concreting process, provide volume reinforcement, preventing the influence of transverse stresses.

The disadvantage of this model is the increased consumption of reinforcement needed to increase the strength of the mesh, in addition, the scope of such reinforcing products is relatively narrow.

The technical problem solved by the utility model is to reduce the consumption of reinforcement and the cost of construction for the installation of a monolithic supported along the contour of the floor while maintaining the strength characteristics of the structure.

As can be seen from FIG. 1 and FIG. 2, from the field of arising forces have alternating moments and, accordingly, a line of zero moments. However, often to unify the applied positions, designers leave excessive reinforcement in areas that do not require this calculation.

The claimed technical result is achieved by placing individual reinforcing bars in the zones of the maximum bending moments in the lower zone of the plate, which increases the bearing capacity, and welded meshes in areas requiring background reinforcement. The combined reinforcement of the span of the slab retains the advantage of a more accurate selection of reinforcement using separate rods and ease of installation using reinforcing meshes.

The reinforcing mesh is characterized in that n longitudinal rods located in the central zone of the reinforcing mesh have the same mutual axial distances S ₁ and the same cross-sectional areas, and the longitudinal rods in the edge zones have a mutual axial distance S ₂ that is greater than the axial distance between the longitudinal rods in the central zone of the reinforcing mesh. Rods with an increased axial distance can be used after the zero moment line.

In addition, the central zone is reinforced with separate reinforcing bars with a smaller pitch so that they can be placed between the rods of the main grid.

The essence of the utility model is illustrated by drawings: in FIG. 3 - structure of a combined grid, in FIG. 4 is a transverse section A-A.

In practice, individual reinforcing bars and welded meshes of the required size are manufactured in factories, where they are brought into compliance with the requirements of the project. Reinforcement is carried out in stages, taking into account the following sequence of installation:

1. The additional reinforcing bars 1 are expanded in the direction of the digital axes.

2. The reinforcing mesh is laid out so that the direction of the lower rods 2 coincides with the direction of the additional elements 1.

3. The additional reinforcing bars 4 are laid out in the direction of the letter axes at the level of the upper bars 3 of the reinforcing mesh.

Claims (1)

Reinforcing product containing a reinforcing mesh, consisting of reinforcing elements made in the form of transverse and longitudinal rods, characterized in that in the central zone there are longitudinal and transverse rods having the same mutual axial distances and the same cross-sectional areas, and separate additional reinforcing bars with a smaller pitch so that they can be placed between the rods of the main grid, and in the boundary zones there are longitudinal and transverse rods having a mutual axial distance , which is greater than the axial distance between the longitudinal rods in the Central zone of the reinforcing mesh.

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