KR100654953B1 - Latticed wire mesh - Google Patents

Abstract

The present invention is to provide a lattice-type wire mesh that can reduce the repair and reinforcement costs of aging concrete, and is easy to manufacture, and the main root is provided with a plurality of strands of stainless stranded wire parallel to the longitudinal direction at regular intervals. And a ring formed at each end of the main root, a clamp for bending each end of the main root to form the loop, and clamping the main root again to the main root, and a short interval of 25-35 mm from each other along the longitudinal direction of the main root; A pair of transverse wire meshes having a long distance of 140-160 mm and orthogonally disposed with respect to the main root, having a silicon adhesive site fixed at each intersection where the main and transverse bars intersect, and a glue gun on the silicon adhesive site. It was made by silicone bonding.

Stainless steel, wire, mesh, silicone, glue gun

Description

Lattice Wire Mesh

1 is a perspective view schematically showing a grid wire mesh according to an embodiment of the present invention,

2 is an enlarged perspective view of part A in FIG. 1;

3 is a rear view of FIG. 2;

4 is a cross-sectional view taken along the arrow IV-IV in FIG. 2.

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

10: freckle 12: ring

20: clamp 25: silicon adhesive site

30: Lateral muscle 40: Second clamp

The present invention relates to a lattice wire mesh, and more particularly, to a lattice wire mesh that can be used with high strength permeable polymer mortar to reinforce the lack of stiffness of aged reinforced concrete.

In the case of reinforcing reinforced concrete, in particular, the reinforcement is mainly fixed to the surface of the aged reinforced concrete structure at regular intervals, and then a certain distance is formed from the aged reinforced concrete surface to reinforce the concrete mortar. After the installation, the cement mortar was poured between the aged concrete formwork and the formwork to repair and reinforce the aged concrete surface.

However, reinforcing the aged reinforced concrete in this way is not only difficult to rebar piping work, but also requires a lot of labor costs in the rebar piping work, there is a problem that the repair and reinforcement cost of the aged concrete is increased, the elongation of the rebar is low, There are a number of problems, such as weak reinforcement of the reinforcing steel bar adhesion.

Rings are formed at both ends to solve this problem, and a plurality of strands of stainless steel strands are disposed at regular intervals in parallel along the longitudinal direction, and a short interval L between each other in the longitudinal direction of the main roots is 25 After forming a pair of transverse muscles arranged at orthogonal to the main root at -35 mm and having a long distance (L ') of 140-160 mm, the elongation is large by covering the transverse muscle and having a clad that binds the main root at both ends. A good fatigue strength stainless steel wire was provided.

However, in the case of such stainless steel wires, the more each clamp part, the more labor it was to bind, which was not productive.

The present invention is to solve the above problems,

An object of the present invention is to provide a lattice type wire mesh that can easily repair and reinforce aged concrete at low cost.

Another object of the present invention is to provide a lattice type wire mesh which can reduce the repair and reinforcement costs of aged concrete.

Still another object of the present invention is to provide a grid wire mesh that is easy to manufacture.

This purpose is to be formed by bending a plurality of strands of stainless stranded wire parallel to the longitudinal direction at regular intervals, and each formed at both ends of the main root, and to bend each end of the main root to form the loop, respectively In the wire mesh consisting of a clamp for clamping back to the main root and a pair of transverse muscles arranged perpendicularly to the main root with a short interval of 25-35mm and a long distance of 140-160mm along the longitudinal direction of the main root, It has a silicon adhesive site that is fixed at each intersection where the main and transverse intersects, and is made by silicone bonding to the silicone adhesive site with a glue gun, the main and transverse is twisted 7 strands of stainless steel wire to form a stranded wire, these strands 7 It is characterized by consisting of strands twisted again strands.

Hereinafter, a grid-type wire mesh according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a lattice wire mesh according to an embodiment of the present invention, Figure 2 is an enlarged perspective view of the portion A in Figure 1, Figure 3 is a rear view of Figure 2 4 is a cross-sectional view taken along the arrow IV-IV in FIG. 2.

As shown in FIGS. 1 to 4, the lattice-shaped wire mesh according to the embodiment of the present invention includes a main root 10 in which a plurality of stainless strands are disposed at regular intervals in parallel along a longitudinal direction, and the main root ( A ring 12 formed at both ends of each of 10), and a clamp 20 for bending the both ends of the main root 10 to form the ring 12, respectively, and clamps the main root 10 again.

 The transverse muscles 30 orthogonal to the longitudinal direction of the main rod 10 are arranged to be orthogonal to the main rod 10 after the short interval L is 25-35 mm and the long interval L 'is 140-160 mm. It is.

And it has a silicon adhesive portion 25 which is fixed at each intersection point where the main root 20 and the transverse muscle 30 intersect, it is made by silicon bonding with a glue gun.

The grid-type wire mesh according to the embodiment of the present invention may be manufactured to have a length × width of 150m × 1m in order to facilitate handling, and may be cut and used as needed at a construction site.

In addition, in the lattice-shaped wire mesh according to an embodiment of the present invention, the main rod 10 and the transverse rod 30 are seven strands of stainless steel wires (thin lines) as shown in detail in FIGS. 2 and 3. Twisted wire to make stranded wire, and these strands are composed of stranded twisted twisted 7 strands.

Next, operations and effects on the lattice wire mesh according to the embodiment of the present invention configured as described above will be described.

The grid-type wire mesh of the present invention is arranged in parallel in the longitudinal direction at regular intervals of the main root 10 made of a plurality of strands of stainless stranded wire, the both ends of the main root 10 by bending a predetermined length each of the main root 10 Clamps 20 are used to form the rings 12.

The pair of transverse muscles 30 are arranged along the longitudinal direction of the main root 10 so that the short intervals are 25-35 mm apart from each other, and the long intervals of the transverse muscles 30 are arranged to be 140-160 mm. It has a silicon adhesive part 25 fixed at every intersection where the 20 and the transverse 30 cross | intersect, and it is fixed by silicon-gluing with a glue gun.

The glue gun used herein is an electric glue gun, and when the rod-type silicone adhesive is inserted into the glue gun and the electricity is energized, at the point where the main root 20 and the transverse muscle 30 cross while melting the silicon by electric heating. By fixing the casting 20 and the transverse muscle 30 while being hardened at room temperature, it can be processed more easily and quickly than the operation of fixing one by one by a conventional clamping operation.

Such a lattice wire mesh has high elongation, good fatigue strength, wide contact area with mortar, and many uneven surfaces of stainless stranded wire, which has good adhesion and anchor pins on one side of aging concrete. The other side is tensioned with a tensioner (not shown) and attached to the aging concrete surface with anchor pins.They can be easily repaired and reinforced at low cost, and the construction is very easy. Maintenance and reinforcement costs can be reduced.

Further, both ends of the main root 10 are bent at a predetermined length and clamped with the clamp 20, and the transverse roots 30 are disposed at regular intervals (30 mm to 150 mm) along the longitudinal direction of the main root 10, and then the main roots with silicon. 10 and the transverse muscle 30 is firmly fixed, making it very easy to manufacture.

That is, it has a silicon adhesive portion 25 which is fixed at each intersection point where the main root 20 and the transverse muscle 30 intersect, and is silicon bonded with a glue gun.

In addition, in the above description, the specific embodiments have been shown and described, but the present invention is not limited thereto, for example, those skilled in the art without departing from the concept of the present invention. Of course, the design can be changed in various ways.

As described above, according to the lattice-shaped wire mesh according to the present invention, a plurality of strands of stainless steel strands are excreted at regular intervals in parallel along the longitudinal direction, and a pair of transverse muscles of strands are orthogonal to the main roots. In the case of fixation by arranging, it is possible to have a silicon adhesive site fixed at each intersection point where the main and transverse intersects, and then, by fixing the silicone with a glue gun during the fixing operation, the silicon can be bonded. It has good mortar and adhesive strength, and it is easy to repair and reinforce aging concrete at low cost, reduce the cost of repair and reinforcement of aging concrete, and also make it easy to manufacture. .

In particular, the fixing work of the main and transverse muscles can be simplified with a glue gun, so that the work speed can be improved, and a grid wire mesh can be provided that can be easily repaired and reinforced at low cost.

Claims (2)

A plurality of strands of stainless stranded wire parallel to the longitudinal direction are excreted at regular intervals, the ring 12 formed on both ends of the main root 10, and to form the ring 12, respectively A clamp 20 for bending both ends of the main root 10 and clamping the main root 10 again, and a short distance L between each other in the longitudinal direction of the main root 10 is 25-35 mm and a long distance L In the wire mesh consisting of a pair of transverse muscles (30) disposed at right angles to the main root (10) with 140-160mm, A lattice type wire mesh having a silicon adhesive portion (25) fixed at each intersection where the main root (20) and the transverse muscle (30) intersect, and are silicon bonded to the silicon adhesive portion with a glue gun. The lattice type wire mesh according to claim 1, wherein the main rod (10) and the transverse rod (30) are twisted by twisting seven strands of stainless steel wire to form stranded strands. .

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