KR200367714Y1 - A reinforcement net for slab - Google Patents

Abstract

The present invention relates to a slab crack prevention reinforcement network around an electric box of a new structure that does not flow even when a pour pressure is applied when concrete is placed because the cost is low and the cost is low, and it is stably installed in the slab formwork.

According to the present invention, a plurality of transverse metal bars 10 and longitudinal metal bars 20 are formed to be orthogonally coupled to each other so that the installation space 12 in which the electric box 2 is installed at the center thereof has a grid shape. In the reinforcing network, vertical bending portions 14 bent downward are provided at both ends of at least two metal bars 10 and 20 among the transverse metal bars 10 or the longitudinal metal bars 20. Slab crack preventing reinforcement mesh around the electrical box is provided by the portion 14, which is to be installed while maintaining a certain height on the upper surface of the slab formwork (4).

Description

Slab crack prevention reinforcement net around electric box {A reinforcement net for slab}

The present invention relates to a slab crack prevention reinforcement network around an electric box, and more particularly, it is robust and easy to manufacture, and it is inexpensive, and it is stably installed in the slab formwork so that it does not flow even when pour pressure is applied when concrete The present invention relates to a slab crack reinforcement net around an electrical box of a structure.

An electrical box is embedded in the slab of the building for wiring indoor wires. When embedding such an electric box to secure a space in which the electric box can be buried by lifting the reinforcing bar in advance to build the slab.

However, if you lift the reinforcement bars in the surrounding area to bury the electrical box in this way, the space between the formwork and the reinforcing bar is relatively wider than other parts, so the structural strength is weaker than other parts. It has a bond that is easily cracked. Therefore, when embedding the electrical box in the slab to install a reinforcement net around the electrical box to compensate for the structural defects as described above.

On the other hand, the reinforcing net used to compensate for the structural defects around the electrical box as shown in Figures 1 and 2, is made by combining the horizontal metal bar (7) horizontally and vertically, when installed in the formwork The reinforcement nets are to be provided at predetermined intervals from the top of slab formwork. Therefore, in the related art, as shown in FIG. 1, the reinforcement net 3 may be installed to be somewhat spaced apart from the formwork using a separate space member 9. However, in the case of using a separate space member 9, not only the cost of purchasing the space member 9 is added, but also the space member 9 is collapsed by the pouring pressure in which concrete is poured, so that the reinforcing mesh maintains its position. Sometimes you can't.

Also, in some cases, as shown in FIG. 2 without using a separate space member 9, the legs 6 are welded to the bottom of the reinforcing mesh 3 so that the reinforcing mesh 3 is formed on the upper surface of the formwork. Make sure they are spaced apart. As the leg 6, a short metal bar is used. In this case, however, since the legs 6 must be welded to the bottom of the reinforcing net 3, the production of the reinforcing net 3 is quite cumbersome and complicated. In addition, since the metal bar 7 to which the leg 6 is welded is circular, its outer circumferential surface is curved, while the upper surface of the leg 6 is flat, the contact area between the leg 6 and the reinforcing net 3 is secured with a large area. Line contact is not possible. Therefore, the metal bars 7 constituting the legs 6 and the reinforcing net 3 are welded in a line contact state, so that the legs 6 are not firmly coupled, and the legs 6 are affected by the impact applied during distribution or construction. The fall of) from the reinforcement net 3 arises.

The present invention is to solve the problems as described above, the object of the present invention is a means for horizontally arranged so that the reinforcing net spaced apart from the upper surface of the slab formwork is integrally formed in the reinforcing net is not only robust, but also easy to manufacture, Since it is installed stably on the upper surface of the formwork, it is not flowed by the placing pressure applied during concrete pouring and maintains the initial set position so that the slab crack prevention reinforcement around the electrical box of the new structure can effectively reinforce the slabs around the electrical box. To provide a network.

1 and 2 is a view showing a conventional reinforcement net

3 is a perspective view showing one embodiment of the present invention

4 is a use state diagram of the embodiment

5 is a perspective view showing another embodiment of the present invention

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

2. Electrical box 4. Slab formwork

10. Transverse metal bar 12. Installation space

14. Vertical bends 16. Horizontal bends

20. Longitudinal Metal Bars

According to the present invention, a plurality of transverse metal bars 10 and longitudinal metal bars 20 are formed to be orthogonally coupled to each other so that the installation space 12 in which the electric box 2 is installed at the center thereof has a grid shape. In the reinforcing network, vertical bending portions 14 bent downward are provided at both ends of at least two metal bars 10 and 20 among the transverse metal bars 10 or the longitudinal metal bars 20. Slab crack preventing reinforcement mesh around the electrical box is provided by the portion 14, which is to be installed while maintaining a certain height on the upper surface of the slab formwork (4).

According to another feature of the present invention, the slab crack prevention reinforcement net around the electrical box is formed at the front end of the vertical bending portion 14 is provided with a horizontal bending portion 16 is bent in the horizontal direction.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows. 3 and 4 is a perspective view and an installation state showing an embodiment of the present invention. As shown in the drawing, the horizontal metal bar 10 and the longitudinal metal bar 10 is a grid-shaped reinforcement network formed by being orthogonally coupled to each other, the installation space in which the electric box (2) is installed in the center ( 2) is provided.

The transverse metal bar 10 and the longitudinal metal bar 20 each consist of four circular metal bars having a predetermined length. The longitudinal metal bars 20 are arranged side by side in the horizontal direction so as to be spaced apart by a predetermined interval, and the transverse metal bars 10 are welded to the lower side thereof so as to be orthogonal to the longitudinal metal bars 20. Since the electrical box (2) should be installed in the center of the reinforcing net made in this way, the transverse metal bar (10) and the longitudinal metal bar (20) located inside the installation space in which the electric box (2) is installed in the center ( 12) are spaced at sufficient intervals to ensure.

On the other hand, both ends of the lateral metal bar 10 in the position corresponding to each other with respect to the installation space 12 is bent downward to form a vertical bent portion (14). Therefore, when the reinforcing net is installed in the slab formwork 4, as shown in FIG. 4, the reinforcing net is maintained at a predetermined height on the upper surface of the formwork by the vertical bent portion (14). If necessary, as shown in the figure, the horizontal metal bar 10 in which the vertical bending portion 14 is formed is relatively thicker than other metal bars so that the reinforcing mesh is relatively larger than the vertical bending portion 14. It is configured to be firmly supported. Reference numeral 13 is a synthetic resin cap fitted to the tip of the vertical bending portion 14 or the horizontal bending portion 16, 8 is a reinforcing bar reinforcement to the slab formwork (4).

Preferably, as shown in Figure 5, the front end of the vertical bending portion 14 is bent in the horizontal direction is provided with a horizontal bending portion 16. As described above, when only the vertical bending portion 14 is formed, the reinforcing mesh is seated on the upper surface of the formwork 4 by the lower surface of the vertical bending portion 14, but when the horizontal bending portion 16 is further provided Since the reinforcing net is seated on the formwork 4 upper surface by the lower outer peripheral surface of the horizontal bent portion 16, the portion contacting the upper surface of the formwork 4 is relatively wider than when the vertical bend portion 14 is present. Therefore, the reinforcement net is installed more stably. Therefore, even when pour pressure is applied to the reinforcement net during concrete pouring, the reinforcement net does not flow and maintains the initial set position.

In the above description, the vertical bending portion 14 is formed in the horizontal metal bar 10, but the vertical bending portion 14 may be formed in the longitudinal metal bar 20. In addition, in some cases, the vertical bending portion 14 may be formed in one of the transverse metal bar 10 and the longitudinal metal bar 20, in which case the vertical bending so that the reinforcing net can be installed stably. The position of the negative is properly adjusted.

As described above, according to the present invention, there is provided a slab crack prevention reinforcement net around the electrical box in which the vertical bending portion 14, which is a means for separating the reinforcement net from the upper surface of the formwork, is bent integrally at the end of the reinforcement net. This reinforcement net is not only because the vertical bending portion 14 is made integrally with the reinforcing net, compared to the case of using a conventional separate space member, as well as bending the end of the reinforcement net vertical bending portion 14 is formed It is easier to manufacture than the reinforcing net with legs welded. In particular, when the horizontal bent portion 16 is provided at the tip of the vertical bent portion 14 is installed in contact with the form with a relatively large area and a sense of comfort, it is not flowing even when the concrete placing pressure is applied to the initial set position As it is maintained, it is excellent in preventing slab cracking around the electric box.

Claims (2)

In the grid-shaped reinforcement net formed of a plurality of transverse metal bars 10 and longitudinal metal bars 20 are orthogonally coupled to each other so that the installation space 12 in which the electric box 2 is installed is formed in the center, Both ends of the at least two metal bars 10 and 20 of the transverse metal bar 10 or the longitudinal metal bar 20 are provided with vertically bent portions 14 which are bent downward, and the vertical bent portions 14 Slab crack prevention reinforcement net around the electric box, characterized in that it is installed by maintaining a certain height on the upper surface of the slab formwork (4). The reinforcing mesh for preventing slab cracking around an electrical box according to claim 1, wherein a horizontal bent portion (16) bent in a horizontal direction is provided at the tip of the vertical bent portion (14).