KR100198278B1 - Folding wire mesh deck - Google Patents

Abstract

The present invention relates to a bent wire mesh deck that can easily build a floor slab with solid construction during construction of a building, and the conventional ferro deck and composite floor slab are used for the lattice muscles in which the upper and lower chords are welded by vertical materials. After constructing the three-dimensional reinforcing bar by welding the steel, and then starting by welding the three-dimensional reinforcing bar to the steel plate, the difficulty in welding work, the expensive manufacturing machine, the increase in the amount of used rebar, the increase in the cost of reinforcement of the reinforcement in the field This is to compensate for the problems caused by the three-dimensional reinforcing bar of. This conventional problem is to form a three-dimensional reinforcing bars by bending the transverse reinforcement of the wire mesh consisting of the longitudinal reinforcement and the transverse reinforcement at regular intervals, so that the longitudinal reinforcement of the bent portion becomes the phase current, the unbent portion The longitudinal reinforcing bars can be complemented by the lower chord, and the bending wire mesh deck is formed by spot welding the bending wire mesh on a steel plate having a joint. The bending wire mesh deck manufactured by joining the bending wire mesh of the present invention to a steel sheet can be used as a floor slab when the composite slab is formed by pouring in-place concrete on the upper surface at the construction site and using the lower portion of the joint of the steel sheet. It can also be used as an insert to install ceiling equipment.

Description

Bending wire mesh deck

The present invention is used in the construction of buildings using reinforced concrete or steel frame or steel frame, reinforced concrete, etc., to form a floor slab, etc. to form a floor slab to bend wire mesh deck that can easily build a floor slab with plain support It is about.

In recent years, many efforts are being made to shorten the air and rationalize the construction. However, the rationalization of floor slab construction is urgent as the number of skilled workers required for reinforcing bar reinforcement and concrete placement is decreasing in existing floor slab construction.

Conventional slabs used for this purpose have been proposed in various ways, but as shown in FIG. 1, the lattice muscles, which are joined by welding the upper chord A and the lower chord C with a vertical member B, are used for the four chords (D). The ferro-deck in which the three-dimensional reinforcing steel bar welded on the steel plate is welded on the steel plate (E) and placed in parallel is common (Utility Model Registration No. 90-1850, Registered by Myung-Hwa Corporation). ) And the lower chord (C) and vertical material (B) are welded to form a lattice muscle, and the upper chord (A) of the lattice muscle is welded with the four chords (D) to construct a three-dimensional reinforcing bar. The fabrication process is complicated and requires expensive equipment. In addition, when welding the three-dimensional assembly reinforcing bar configured as described above with the steel sheet (E), the operation is difficult and expensive cost is required.

Recently, instead of this, as shown in FIGS. 2 and 3, a plurality of deep bone rows (I) are installed in parallel on the upper surface of the steel plate, and the lattice root (G) is formed on the side (J) of the block rows (I). A structure has been proposed in which a lower end portion of the lattice root is fixed and an upper current F is fixedly attached to the upper end of the lattice muscle (Patent application 95-2906: building floor structural member, registered by Myunghwasan Co., Ltd.). Even in the above case, a lot of difficulties and costs are required depending on the production of the lattice muscle (G) and the welding work of the lattice muscle (G) and the block string (I). ) Is required.

The present invention has been made in view of the above problems, and an object of the present invention is to use an expensive three-dimensional wire mesh (1) by bending a conventionally manufactured wire mesh at regular intervals instead of a conventionally used three-dimensional rebar. Bending wire mesh deck (1) is fabricated by installing a bending wire mesh deck (9) having a low manufacturing cost and uniformly distributed stress without fabricating a rebar fabrication machine. The cast-in-place concrete 14 is poured into the upper portion of the composite floor slab 15.

In order to achieve the above object, the concrete structure of the bending wire mesh 1 of the present invention uses a conventional one (Patent No. 059547: three-dimensional reinforcing bar for half precast concrete slab, registered by Daewoo Co., Ltd.) When joining the bending wire mesh 1 to the steel plate 8, spot welding is performed. The junction 6 is made convex as in FIG. On the upper part of the joint 6, a groove is formed to fix the lower chord 5 of the bent wire mesh 1, and the height of the joint 6 is equal to or greater than the coating thickness required for the reinforcing bar. In addition, the joining portion 6 has a multi-purpose which is used for fixing the bent wire mesh 1, securing the coating thickness, and for insert grooves in the lower portion.

1 is a cross-sectional view of a conventional ferro deck

2 is a cross-sectional view of a conventional composite floor slab

3 is a right side view of FIG.

4 is a bent wire mesh perspective view of the present invention

5 is a front view of FIG. 4

Figure 6 is a cross-sectional view of the bent wire mesh deck completed by the present invention

7 is a cross-sectional view taken along the line A-A of FIG.

Figure 8 is a cross-sectional view of the installation, use state of the present invention

* Explanation of symbols for main parts of the drawings

1: bending wire mesh 2: longitudinal rebar

3: transverse rebar 4: phase current

5: lower chord 6: junction

7 spot weld 8 steel sheet

9: bending wire mesh deck 10: longitudinal top reinforcement

11: transverse upper stiffener 12: lower stiffener

13: wall or beam 14: cast-in-place concrete

15: composite floor slab

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 and 5 are an embodiment according to the present invention, a perspective view and a front view of the bent wire mesh 6, the transverse rebar (3) of the longitudinal reinforcing bars (2) and the transverse reinforcing bars (3) constituting the wire mesh ) Is bent at regular intervals and the longitudinal reinforcing bars (2) are divided into the upper chord (4) and the lower chord (5) to form a bending wire mesh (1).

6 and 7 are front and side cross-sectional views of the bent wire male deck of the present invention.

The bending wire mesh of the bent wire mesh 1 configured as described above is spot welded to the upper part of the joint 6 of the steel sheet 8 and the upper chord 4 is the upper end of the bottom slab. The deck 9 is produced.

Therefore, when constructing the floor slab using the bending wire mesh deck 9, as shown in FIG. 8, the bending wire mesh deck 9 is hypothesized on the upper part of the wall or the beam 13 and the like, After placing the top stiffener (10) and the lateral top stiffener (11) and placing the bottom stiffener (12) at the bottom, and placing the cast-in-place concrete (14) tightly, the cast-in-place concrete (14) and the bent wire mesh deck (9) is integrated by the upper reinforcement (10, 11), transverse reinforcement (3), the lower reinforcement (12) and the joint portion 6 of the steel sheet to build a composite floor slab 15 of excellent performance.

The application effect according to the embodiment of the present invention described above is as follows.

Bending wire mesh (1) is to produce a single rebar by bending the transverse reinforcement (3) of the wire mesh at regular intervals, so that the stress distribution of the bending wire mesh (1) can be evenly made and the production can be made simple. Bend the transverse reinforcing bar (3) into a mountain shape to ensure the integrity of the bent wire mesh deck (9) and the site-pouring concrete (14) with the top chord (4) of the longitudinal reinforcing bar (2), It can be used as a point when lifting (9).

In addition, the production of three-dimensional reinforcing bar is complicated and expensive, compared to the conventional synthetic slab using the wire mesh can reduce the amount of rebar, and the amount of welding can reduce the cost and manpower. In addition, since the entire bending wire mesh is integrally connected, the stress can be evenly distributed to improve the strength of the floor slab.

The joints used to connect the bent wire mesh to the steel plate ensure the cover thickness of the lower root and are also used as insert inserts. Spot welded wire mesh and joints are covered with in-situ concrete to provide excellent corrosion resistance.

Claims (3)

A bending wire mesh deck, wherein a bending wire mesh is fixedly attached to an upper portion of a steel sheet. The bent wire mesh deck according to claim 1, wherein the joint portion of the always bent wire mesh and the steel sheet is uneven on the upper portion of the steel sheet, the upper portion of the junction portion is spot welded, and the lower portion is used as an in-seat fitting. 2. The bending wire mesh deck according to claim 1, wherein the bending wire mesh is installed on the beam and the wall at the time of installation in the field and integrated with the cast concrete.