KR200203661Y1 - A mesh for preventing cracks on concrete slab - Google Patents

Abstract

This proposal reliably reinforces the slab around the buried box in place of the upper and lower buried reinforcing bars maintaining poor reinforcement in the process of installing the buried box, thereby restraining the occurrence of cracks in the slab around the buried box. The present invention relates to a slab crack prevention reinforcement net around a buried box that increases the stability and durability of the entire slab.

The technical features of this paper are: Upper and lower wire meshes 10 and 20 that are arranged to face each other at a predetermined height at upper and lower intervals and are assembled to ensure horizontal spaces A as grids, and the upper and lower wire meshes 10 and 20. Is installed to protrude to any one of the horizontal space (A) of the cover wire mesh 30 is formed to have a vertical space (B) therein, and attached to a predetermined position below the lower wire mesh 20 It is composed of a plurality of spacers 40 to support the entire horizontal.

Description

A mesh for Preventing Cracks on Concrete Slab}

This paper relates to a slab crack prevention reinforcement net around a buried box that structurally reinforces the surrounding slab in which the buried box is buried to prevent cracking.

Formerly, electrical boxes have been embedded in the slabs of buildings to wire indoor wires, and these electrical boxes are known to provide a cause of cracking in the surrounding slabs.

More specifically, the electric box (hereinafter, referred to as a landfill box) is installed on the slab formwork and is then embedded in the cross section of the cured hardened slab by pouring uncured concrete. Thus, in the process of embedding the buried box in the cross section of the slab as shown in Figure 1, the worker lifts the upper buried reinforcing bar (3) and the lower buried reinforcing bar (4) which is pre-arranged on the slab formwork (2) and the spacing spacing To forcibly widen the buried box (1) on the slab formwork (2), and furthermore, after placing the buried box (1) in the slab formwork (2), the lower reinforcing bar mounted on the buried box (1) (4) was bent upward to be spaced apart.

As a result of the buried box installation process, the upper buried reinforcing bar 3 and the lower buried rebar 4 located in the slab section 5 around the buried box 1 could not maintain the reinforcement spacing accurately. In the case of the reinforcing bar 4, the slab 5 around the buried box 1 loses its original structural strength and load-bearing capacity, since the concrete cover thickness is increased more than necessary because it is located in the middle in the cross section of the slab 5. Was done.

Therefore, when the tensile stress is applied to the slab around the landfill box, not only cracks are easily generated from the areas where structural strength and load bearing capacity are weak, but the cracks are generated continuously along the conduits connected to the landfill box. There was a problem that the overall stability and durability is greatly reduced.

This proposal is designed to reinforce the surrounding slabs around the landfill box in place of the upper and lower landfill bars in the process of installing the landfill box, so that cracks occur in the slabs around the landfill box. The purpose is to provide a slab crack prevention reinforcement net around the landfill box to prevent the source.

1 is a cross-sectional view showing a construction example around the conventional landfill box

Figure 2 is a perspective view showing a crack preventing reinforcement mesh of the present invention

Figure 3 is one side cross-sectional view showing a reinforcing mesh for preventing cracks of the present invention

Figure 4 is an enlarged cross-sectional view of the 'C' portion of FIG.

5 is a cross-sectional view showing an example of the construction of the crack prevention reinforcement net of the present invention

<Description of the symbols for the main parts of the drawings>

10, 20: upper and lower wire mesh 10a: vertical rebar

11, 21: longitudinal rebar 12, 22: transverse rebar

A: horizontal space 30: cover wire mesh

31: Column reinforcement 32: Connecting rebar

33: Binding Line B: Vertical Space

40: spacer 41: longitudinal fitting groove

42: horizontal fitting groove 43: ground portion

Slab crack prevention reinforcement net around the buried box of this paper is arranged to face at regular intervals on the upper and lower sides, as shown in Figures 2 and 3 and is assembled to ensure horizontal spaces (A) as a grid The upper and lower wire mesh 10, 20, and installed to protrude to any one of the horizontal space (A) of the upper and lower wire mesh (10, 20) has a vertical space (B) therein It is characterized in that the technical configuration consists of a plurality of spacers (40) formed to cover the wire mesh 30 and the lower wire mesh 20 is attached to every predetermined position of the lower wire mesh 20 to support the whole horizontally.

In other words, the slab crack reinforcement wire mesh around the buried box of the present case is as a basic structure as the upper and lower wire mesh 10, 20 assembled to ensure a horizontal space (A) as a double structure as a basic skeleton In order to provide the spacers 40 supporting the lower wire mesh 20 together with the cover wire mesh 30 having the vertical space B formed therein.

Therefore, this proposal is a slab (5) around the structurally vulnerable buried box (1) by the upper and lower buried rebar (3) (4) to maintain a poor reinforcement in the process of installing the buried box (1) By firmly reinforcing, by suppressing the generation of cracks in the slab (5) around the buried box (1) is to have the advantage of significantly increasing the stability and durability of the entire construction of the slab (5).

Hereinafter, the technical details of the present invention through the specific embodiments shown in the accompanying drawings in detail as follows.

The upper and lower wire meshes 10 and 20 are components that perform a function of reinforcing the slabs 5 around the buried box 1 in the horizontal direction.

In the embodiment of the present invention, the upper and lower wire mesh (10, 20) is formed in a lattice shape by fixing the longitudinal bars (11, 21) and transverse bars (12, 22) to cross at regular intervals, respectively, The horizontal space A is fixed by fixing the vertical reinforcing bars 10a at intersections between the longitudinal bars 11 and 21 and the transverse bars 12 and 22 of the upper and lower wire meshes 10 and 20. It is illustrated as assembled to ensure that the The upper and lower wire meshes 10 and 20 are horizontal with respect to the cross section of the slab 5 instead of the lower buried reinforcing bar 4 which is bent upward to be spaced apart from the buried box in the process of installing the buried box 1. It will be reinforced in the direction.

At this time, the horizontal space (A) formed in the center portion of the upper and lower wire mesh 10, 20 so that the buried box (1) fixed to the slab formwork (2) can be fitted, the upper and lower wire mesh (10) (20) helps to be positioned about the buried box (1).

The upper and lower wire meshes 10 and 20 set the spacing of the respective longitudinal reinforcing bars 11 and 21 and the transverse rebars 12 and 22 in consideration of the size of the buried box 1. Is important. The reason is to help to ensure a horizontal space (A) having a size that the buried box (1) can be easily inserted into the center of the upper and lower wire mesh (10) (20).

The cover wire mesh 30 is a component that performs a function of reinforcing the upper portion of the buried box 1 in the vertical direction with respect to the slab 5.

The cover wire mesh 30 is formed so as to secure a vertical space (B) in the box-assembled interior as connecting bars 32 installed up and down parallel to the upper end of the column reinforcement (31) vertically erected in all directions . The cover wire mesh 30 is wrapped around the upper portion of the buried box (1), which is placed in the horizontal space (A) of the central portion of the upper and lower wire mesh (10) (20), and installs the buried box (1) Instead of the lower buried reinforcing bar (4) bent upwardly spaced apart from the buried box in the process to be reinforced in the vertical direction with respect to the cross section of the slab (5).

In addition, the cover wire mesh 30 inserts the column reinforcement 31 of the four sides in the horizontal space (A), the vertical of the upper and lower wire mesh 10, 20 that is in contact with the column reinforcement (31) Reinforcing bars (10a) to the binding line 33 to be assembled to be installed.

Spacers 40 are components that allow the upper and lower wire meshes 10 and 20 to be accurately embedded in the slab 5 section with a predetermined concrete covering thickness.

As shown in Fig. 4, the spacer 40 has a longitudinal fitting groove 41 formed at an upper predetermined position of the cylindrical body made of synthetic resin, but transversely slightly lower than the longitudinal fitting groove 41. The fitting grooves 42 are formed in the recesses, so that the fitting grooves 42 are fitted at the intersections of the longitudinal reinforcing bars 21 and the transverse reinforcing bars 22 of the lower wire mesh 20 to be installed. Such a spacer 40 is installed in the lower portion of the lower wire mesh 20 to support the upper wire mesh 10 together with the lower wire mesh at the required height from the slab formwork 2 at the same time, the construction of the slab (5) cross section The upper and lower wire mesh 10, 20 is to be embedded in the predetermined concrete coating thickness within.

In addition, the lower end portion of the spacer 40 is formed to be curved with a predetermined curvature to form a ground portion 43, the slab formed by reducing the contact area of the lower end of the spacer 40 in contact with the slab formwork 2 to a minimum ( It is preferable to prevent exposure to the bottom surface of 5).

As discussed above, the present proposal securely reinforces the slabs around the landfill box in place of the upper and lower landfill bars in the process of installing the landfill box, thereby maintaining the slabs around the landfill box. By suppressing the formation of cracks will have the effect of increasing the stability and durability of the entire construction of the slab.

Claims (4)

Upper and lower wire meshes 10 and 20 that are arranged to face each other at a predetermined height at upper and lower intervals and are assembled to ensure horizontal spaces A as grids, and the upper and lower wire meshes 10 and 20. Is installed to protrude to any one of the horizontal space (A) of the cover wire mesh 30 is formed to have a vertical space (B) therein, and attached to a predetermined position below the lower wire mesh 20 Slab crack prevention reinforcement net around the buried box, characterized in that consisting of a plurality of spacers 40 to support the entire horizontal. The upper and lower wire meshes 10 and 20 are formed in a lattice shape by fixing longitudinal bars 11 and 21 and transverse bars 12 and 22 at regular intervals, respectively. The horizontal space A is fixed by fixing the vertical reinforcing bars 10a at intersections between the longitudinal bars 11 and 21 and the transverse bars 12 and 22 of the upper and lower wire meshes 10 and 20. Slab crack prevention reinforcement net around the landfill box, characterized in that the assembly is secured. According to claim 1, The cover wire mesh 30 is a vertical space (B) in the box-assembled interior as connecting bars 32 are installed in parallel in the upper and lower parallel to the upper end of the column reinforcement (31) vertically erected in all directions Slab crack prevention reinforcement net around the landfill box, characterized in that formed to ensure this. 2. The spacer 40 according to claim 1, wherein the spacers 40 are formed with concave longitudinal grooves 41 formed at a predetermined position on the upper portion of the cylindrical body made of synthetic resin, and transversely slightly lower than the longitudinal grooves 41. Slab crack prevention reinforcement net around the landfill box, characterized in that the groove 42 is formed by the recess.