KR20060102872A - Shear reinforcement device arranged in the slab-column connection and construction method thereof - Google Patents

Abstract

The present invention is a shear plate reinforcing body used to increase the resistance to punching shear failure of the slab by installing the slab and column in the flat plate structure by bending a strip-shaped iron plate formed with holes to form a porous structure completed in a simple structure The present invention relates to a steel sheet shear reinforcement and a method of installing a shear reinforcement having improved workability by installing after reinforcing slab reinforcement.

The hole-type bending iron sheet shear reinforcement of the present invention is characterized in that formed to be divided into an upper fixing part, a shear reinforcing part, a lower connection part by continuously bending the band-shaped thin iron plate formed with holes.

Shear reinforcement, punching shear, flat plate structure, steel plate

Description

Shear reinforcement device arranged in the slab-column connection and construction method

1 is a view showing a shear reinforcing structure of a conventional slab and column joint.

2 and 3 is a perspective view showing an embodiment of a perforated bending sheet steel reinforcement body according to the present invention.

4A to 4C are perspective views 4a, a plan view 4b, and a cross-sectional view 4c showing a state where the hole-type bent steel sheet shear reinforcement of FIG. 2 is installed at the slab and the column junction.

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

100: shear reinforcing body 110: upper fixing part

120: shear reinforcement 130: lower connection

140: hole 150: hook

C: pillar S: slab

R1: Slab upper bar R2: Slab lower bar

The present invention relates to a perforated bending sheet steel reinforcement and its installation method, and more particularly, shear reinforcement used to increase the resistance to punching shear failure of the slab by installing in the slab and column junction in a flat plate structure The present invention relates to a method of installing a sheared reinforcing sheet having a simple structure by bending a strip-shaped steel sheet having a hole as a sieve, and installing it after reinforcing slab reinforcement to improve workability.

In flat plate structures, such as flat slabs or flat plates, which are directly supported on a column without beams, stress is excessively concentrated on the slab and column joints, whereby the slab around the column is inclined from the bottom to form cracks and further holes. Shear failure is likely to occur. This type of shear is called punching shear, and this shear failure is very brittle and can be fatal to the stability of the structure. Flat plate structures should be designed to be sufficiently resistant to punching shear. .

To improve the shear performance of slab-column joints in flat plate structures, (i) increase the thickness of the slab over the entire plate, and (ii) increase the thickness of the slab adjacent to the column using a fingerboard (drop panel). (I) increasing the size of the column, (i) using column heads for the column (i), and (b) reinforcing the slab around the column as the shear reinforcement. have.

The methods of (i) to (iii) of the above methods are inferior in economy and constructability, and entail constraints in the design process for the height of the floor, and especially under load such as an earthquake, it guarantees the deformation capacity in the inelastic region beyond the elastic limit. Since there is a problem in that it is not possible, the method of installing the conventional shear reinforcement to the slab is used in the most realistic way.

As a method of installing the shear reinforcement to the slab according to the shape of the shear reinforcement to be installed, the stub method (Fig. 1 (a)), stud rail method (Fig. 1 (b)), shear head method (Fig. 1 (c)) ), The truss method (Fig. 1 (d)) and the like. 1 illustrates a conventional method of installing such shear reinforcement to a slab.

Stirrup method of Figure 1 (a) is a method of reinforcing the stub to exhibit the shear strength by winding the stirrup on the upper and lower reinforcement of the slab. This method has the advantage of economical because it is used by bending the reinforcing bar in the field without special hardware, while it is difficult to maintain the slab coating thickness because it is required to surround the slab upper and lower reinforcing bars, and it is difficult to bond when installing. have.

The stud rail method of FIG. 1 (b) is the most widely used method in foreign countries, and the shear reinforcement is enhanced by welding the studs vertically to a narrow and long plate to exhibit shear strength and welding a round plate to the stud head. Way. This method is easy to install, but there is a cumbersome manufacturing process such as welding, and the head of the stud for fixing also has a problem that requires a special production different from the ready-made.

In the shear head method of FIG. 1 (c), the shear head reinforcement made of structural steel such as H-beam I-beam is manufactured by full welding and installed in a symmetrical form in the slab cross-section so as to be continuous in the cross section of the column. Although effective for shear reinforcement, it is expensive, has difficulty in welding process, and has a problem of being difficult to handle by heavy weight.

The truss method of FIG. 1 (d) is a shear reinforcement method of combining reinforcing bars or steel wires in a basic truss shape and installing them toward a pillar, and this method is complicated to produce a truss type. Since it is installed between the lower reinforcing bar is not only bad fixability, but also has to be fixed with a separate binding means on the lower reinforcing bar of the slab there is a problem that the installation is not easy.

The present invention has been made to improve the conventional problems as described above, the manufacturing process is simple as a shear reinforcing body is used to increase the resistance to punching shear failure of the slab by installing in the slab and column junction in a flat plate structure The purpose of the present invention is to provide a porous steel sheet shear reinforcement sheet having excellent and economical and excellent field applicability.

Another object of the present invention can be expected to improve the adhesion to the slab concrete, and to provide a perforated bent iron sheet shear reinforcement to be constructed to ensure the design according to the thickness of the slab.

It is still another object of the present invention to provide a perforated bending steel sheet shear reinforcement and a method of installing the same, which can be easily installed without an on-site binding operation even after the slab reinforcement is not interfered with the slab reinforcement.

In order to achieve the above object, the present invention is a shear reinforcing body to increase the resistance to the punching shear failure of the slab by installing in the slab and column joint in a flat plate structure, by continuously bending a band-shaped thin iron plate formed with holes Dogs are formed to form irregularities,

An upper fixing part in a horizontal direction; A shear reinforcing part which is led downward from the upper fixing part; And a lower connection part connecting lower ends of the adjacent shear reinforcement parts to each other.

In addition, the present invention is to provide a shear reinforcement to the slab and the column joint to increase the resistance of the slab punching shear failure in flat plate structure,

Reinforcement step to reinforce the slab rebar; And,

Shear reinforcement installation step of installing the perforated steel sheet shear reinforcement to the slab and the column joint, the upper reinforcing portion is placed between the upper reinforcement of the slab and the shear reinforcement is installed between the upper reinforcement and the lower reinforcement of the slab; Provides a method of installing the shear reinforcement in a flat plate structure comprising.

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

2 and 3 is a perspective view showing an embodiment of a perforated bending sheet steel reinforcement according to the present invention, Figure 4a to 4c is a state in which the perforated bending steel sheet shear reinforcement of Figure 2 is installed in the slab and column joint It is a perspective view, a top view, and sectional drawing. As shown, the hole-type bending iron sheet shear reinforcement 100 of the present invention is the upper fixing portion 110, the shear reinforcing portion 120 by continuously bending the band-shaped thin iron plate formed with holes 140 with irregularities , Characterized in that formed to be divided into the lower connection portion (130).

Iron plate applied to the perforated bending sheet steel reinforcement 100 of the present invention is about 0.8 ~ 1.6mm thickness is easy to bend and the width of the slab do not exceed the spacing spacing, but the band shape is about 30mm Thin iron plate is suitable. Hole 140 formed in the steel plate is a configuration provided to improve the adhesion by allowing the slab concrete to pass after the shear reinforcement body 100 of the present invention, the diameter is formed larger than the particle size of the coarse aggregate is adopted during concrete mixing It is preferable to manufacture as much as possible. In addition, it is more advantageous to improve the adhesion to the slab concrete to manufacture the rim of the strip-shaped iron plate to be formed unevenly and unevenly. In the embodiment of FIG. 2, the shear reinforcing body is formed in a state in which the hole 140 is formed in the upper fixing part and the edges of the lower connection part are formed unevenly. In the embodiment of FIG. 3, the hole is formed over the entire shear reinforcing body. An example is shown. In particular, in the case of forming a hole in the shear reinforcing portion as shown in Figure 3 it is preferable to adopt a steel plate for manufacturing the shear reinforcement body of the present invention so that the shear reinforcing portion can fully exhibit its function.

The upper fixing part 110 is a portion of the horizontal reinforcement located in the upper portion of the shear reinforcement is configured to restrain the slab upper reinforcement (R1) from the top of the slab (S) to the upper slab (R1), the upper slab When installed in the reinforcing bar is placed on the upper slab R1 or at the same level.

That is, when the upper reinforcement of the slab is reinforcement in one direction, it is settled thereon, so it is positioned above the upper slab reinforcement (R1), the upper reinforcement (R1) of the slab is reinforced in two directions, and the upper fixing part 110 is the two-way reinforcement. When settled in the rebar reinforcement in the middle of the upper fixing portion 110 is to be located at the same level as the reinforcement to the upper of the two-way reinforcement. However, since the shear reinforcement 100 of the present invention is made of a thin iron plate, even if the upper fixing part 110 is installed to be positioned on the upper reinforcing bar R1 of the slab, the shear thickness of the designed slab is not a problem.

The length of the upper fixing part 110 is determined in consideration of the reinforcing bar spacing of the slab, and most preferably selected in an increment of 15 mm in the range of 50 ~ 125 mm.

Shear reinforcement portion 120 is a portion extending downward from the upper fixing portion, is arranged to be vertical or inclined with the upper and lower reinforcement of the slab is configured to exert a resistance to the shear force acting on the joint portion of the slab and the column. When the upper fixing part 110 is fixed to the upper reinforcing bar (R1) of the slab, the shear reinforcing part 120 is stable between the upper and lower reinforcing bars (R1, R2) of the slab by the support of the fixed upper fixing part (110). It is located in the to perform the role of the ant.

The shear reinforcing part 120 will be able to fully exhibit the role of forming to ensure the length to be arranged to the lower reinforcing bar (R2) of the slab, considering the spacing of the upper and lower slabs (R1, R2) in general The lower surface is selected in the increment of 30 mm within the range of 100 to 250 mm.

The lower connection portion 130 is a portion connecting the lower ends of the shear reinforcement portion 120 adjacent to each other. The lower connection part 130 is positioned near the lower reinforcing bar R2 of the slab when the upper fixing part 110 is fixed to the upper reinforcing bar R1 of the slab, and as a result, the lower reinforcing bar R2 of the slab. It also reinforces and serves as tensioning material for the slab.

As described above, the perforated bending steel sheet shear reinforcement 100 including the upper fixing part 110, the shear reinforcing part 120, and the lower connecting part 130 has its upper end fixed as shown in FIGS. 2 and 3. It is preferable to manufacture to finish in the shape of the hook ring 150 is led down from the portion 110, which is so that the shear reinforcement is bound to the upper reinforcement (R1) of the slab by the hook ring 150 at both ends thereof. To do this.

Hereinafter, the installation method of the shear reinforcement in the flat plate structure of the present invention with reference to Figures 4a to 4c.

1.Reinforcement step

Reinforce the slab upper and lower reinforcing bars (R1, R2). Since the slab reinforcement in a conventional manner prior to the installation of the shear reinforcement to be described later, it is possible to easily perform the reinforcement work without interference of the shear reinforcement (100).

2.Shear reinforcement installation step

Prepare the above-described hole-type bending steel sheet shear reinforcement 100 and is installed in the slab and the column junction, while the upper fixing portion 110 spans the upper reinforcement (R1) of the slab, the shear reinforcement portion 120 is the upper and lower parts of the slab Install so that it is located between reinforcing bars (R1, R2). That is, in the state in which the upper and lower reinforcing bars (R1, R2) of the slab is reinforcement, the upper fixing part 110 intersects the upper slab upper reinforcement (R2) and the lower connection portion 130 is located in the space between the upper slab upper reinforcement (R1) When the shear reinforcing body 100 of the present invention is disposed on the upper slab upper reinforcing bar (R1) and then lowered down, the upper fixing part 110 is fixed while spreading over the upper reinforcing bars (R1) of the slab, and the shear reinforcing part 120 ) Is positioned as a vertical material between the upper and lower reinforcing bars (R1, R2) of the slab, the lower connecting portion 130 is located close to the lower reinforcing bar of the slab.

According to the present invention as described above, the bending reinforcing body used to increase the resistance to punching shear fracture of the slab in flat plate structure is completed by bending the plate to make the manufacturing process simple and economical. In addition, the present invention can be expected to improve the adhesion to the slab concrete because it uses a thin iron plate of the perforated, it can be constructed as a slab having a designed coating thickness. Furthermore, the present invention exhibits the effect that it is not easily interfered with the slab reinforcing bars that are normally reinforcement, and thus can be easily installed even after the slab reinforcing bars are reinforced.

Claims (3)

It is a shear reinforcement body installed in the slab and column joint in flat plate structure to increase the slab's resistance to punching shear failure. It is manufactured to form a plurality of irregularities by continuously bending the band-shaped thin plate formed with holes, An upper fixing part in a horizontal direction; A shear reinforcing part which is led downward from the upper fixing part; And, A lower connection part connecting lower ends of the shear reinforcement parts adjacent to each other; Perforated bending sheet steel reinforcement, characterized in that formed to be divided into. The method of claim 1, wherein both ends of the hole-type bending steel sheet shear reinforcement, A perforated bent plate shear reinforcement, characterized in that it is finished in the shape of a hook ring extending downward from the upper fixing portion. In order to increase the slab's resistance to punching shear failure in flat plate structure, shear reinforcement is installed at the slab and column joints. Reinforcement step to reinforce the slab rebar; And, Shear installed in the slab and column joints of the perforated bending sheet steel reinforcement of claim 1 or claim 2, wherein the shear fixing portion is located between the upper and lower reinforcement of the slab while the upper fixing portion over the upper reinforcement of the slab Reinforcement installation step; Shear reinforcement installation method in a flat plate structure characterized in that comprises a.

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