KR100501485B1 - Reinforce structure for concrete slab of building - Google Patents

Abstract

The present invention relates to a concrete floor reinforcement structure that is installed with the reinforcement is reinforced on the concrete floor of the building to reinforce the reinforcement, in particular, when the reinforcement is reinforced inside the inner and outer formwork, while maintaining the spacing of the reinforcing bar, When the anti-vibration material and the floorboard is installed in the building concrete floor reinforcement structure to absorb the vibration transmitted to the lower side.

That is, in the concrete floor of a building in which rebars are laid in the horizontal and vertical directions on the upper part of the lower formwork and concrete is poured on the upper part,

The concrete floor is inserted into the rebar before construction to maintain the spacing of the rebar,

Reinforcing bar is formed in the cross-shaped shape so that the reinforcing grooves formed in the upper portion has a stepped cross-shaped vertical pin formed in the center of the double-pin structure, the reinforcing bar is formed in the lower portion of the cross-shaped body;

While the rebar holder is coupled to the upper portion is installed to absorb the upper vibration,

A vibration absorbing plate formed at a lower portion of the vertical pin insertion rod and coupled between the vertical pins of the rebar holder and installed on the concrete floor surface; And

It is installed between the vertical pin of the reinforcing bar holder and the vertical pin insertion rod of the vibration absorbing plate to face the vibration transmitted from the upper, the elastic spring is installed in the lower portion;

Description

Building concrete floor reinforcement structure {REINFORCE STRUCTURE FOR CONCRETE SLAB OF BUILDING}

The present invention relates to a concrete floor reinforcement structure that is installed with the reinforcement is reinforced on the concrete floor of the building to reinforce the reinforcement, in particular, when the reinforcement is reinforced inside the inner and outer formwork, while maintaining the spacing of the reinforcing bar, When the anti-vibration material and the floorboard is installed in the building concrete floor reinforcement structure to absorb the vibration transmitted to the lower side.

In general, the concrete floor of the building, the reinforcing bar is reinforced inside the formwork, and the concrete is installed to construct an integrated floor (SLAB), the concrete floor is installed on the top of the noise prevention and insulation on the top, cement on top Mortar or floorboards are installed to finish the floor.

1 is a cross-sectional view of a concrete floor of a typical building, Figure 2 is a view showing a state in which reinforcement of the general building reinforcement.

The concrete floor 70 of the building is constructed by reinforcing the reinforcing bars 10 on the inside and placing concrete C on the inside of the reinforcing bars 10, while the concrete floor 70 has an anti-vibration material on the top. 20 and the floorboard 30 are laminated sequentially.

Although the concrete floor 70 having the above-described configuration is not shown in the drawing when the concrete 10 is placed on the reinforcing bar 10, spacers are installed so that the reinforcing bar 10 and the lower formwork are not shown in the drawing. Are spaced apart from each other.

The present invention has been made in view of the above-described contents, the present invention, when the reinforcing bars are placed inside the inner and outer formwork, while maintaining the spacing of the reinforcing bars, the separation of the reinforcing bars through the reinforcing bar retaining coupled with the reinforcing bars It is to provide a concrete floor reinforcement structure to prevent, and install a vibration absorbing plate coupled with the reinforcing bar so as to absorb the vibration transmitted to the bottom when the vibration preventing material and the floorboard is installed on the top.

That is, in the concrete floor of a building in which rebars are laid in the horizontal and vertical directions on the upper part of the lower formwork and concrete is poured on the upper part,

The concrete floor is inserted into the rebar before construction to maintain the spacing of the rebar,

Reinforcing bar is formed in the cross-shaped shape so that the reinforcing grooves formed in the upper portion has a stepped cross-shaped vertical pin formed in the center of the double-pin structure, the reinforcing bar is formed in the lower portion of the cross-shaped body;

While the rebar holder is coupled to the upper portion is installed to absorb the upper vibration,

A vibration absorbing plate formed at a lower portion of the vertical pin insertion rod and coupled between the vertical pins of the rebar holder and installed on the concrete floor surface; And

It is installed between the vertical pin of the reinforcing bar holder and the vertical pin insertion rod of the vibration absorbing plate to face the vibration transmitted from the upper, the elastic spring is installed in the lower portion;

Hereinafter, the configuration of the present invention with reference to the accompanying drawings.

Figure 3 is a cross-sectional view of the concrete floor of the building of the present invention, Figure 4 is a view showing a state in which the reinforced steel retainer and the reinforcing bar of the present invention, Figure 5 is a reinforced steel retainer, vibration absorbing plate and elastic spring of the present invention 6 is a cross-sectional view illustrating a state in which a reinforcing bar holder, a vibration absorbing plate, and an elastic spring are coupled to each other.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the gist of the present invention, the detailed description thereof is omitted.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators.

Therefore, the definition should be made based on the contents throughout the specification.

As can be seen in Figure 3, the concrete floor (380) in which the concrete (C) is poured between the reinforcement 300 is installed, the vibration preventing material 310 and the floorboard 320 is sequentially stacked on top.

Reinforcing bar 300 and the reinforcing bar retainer 400 is coupled to the concrete floor 380, and the vibration absorbing plate 500 is coupled to the upper part of the reinforcing bar holder 400 is installed.

As can be seen in Figure 4, the concrete floor 380 is a concrete (C) before placing the reinforcing bar 300 and the reinforcing steel retainer 400, while the reinforcing steel retainer 400, cross-shaped, Reinforcing bar grooves 410 and 420 are formed on the upper surface, four vertical pins 430 are protruded in a double in the center, and the reinforcing bar groove 450 is formed at the bottom of the cross-shaped body.

That is, the reinforcing bar retainer 400, the depth of the rebar seating grooves (410, 420) has a difference, the reinforcing bar insertion groove 410 to the reinforcement so that the reinforcement 300 is stepped on the upper Position, and the other reinforcing bar insertion grooves 420 are formed to be positioned below.

As can be seen in Figures 5 and 6, the reinforcing bar holder 400 is coupled to the upper vibration absorbing plate 500, the vibration absorbing plate 500 has four vertical pin insertion rods ( 510 is formed, the inner side of the vertical pin insertion rod 510 is inserted into the elastic spring 540, the inner vertical pin 430 formed of a double of the reinforcing bar holder 400 to the vertical pin insertion rod 510 It is inserted to absorb the vibration transmitted from the upper portion of the upper floor board in accordance with the operation of the elastic spring 540.

That is, the vibration absorbing plate 500 and the reinforcing bar holder 400 are applied to the elastic force by the elastic spring 540 installed inside the vertical pin insertion rod 510, the vibration absorbing plate 500 made of urethane material This 1-5 mm flow will minimize the vibration transmitted from the top.

In addition, the elastic spring 540 has a circular plate 542 formed in the lower portion is in close contact with the inner upper portion of the vertical pin 530.

As can be seen in the above-described configuration, the reinforcing bars 400 and the reinforcing bars 300 and the cutting reinforcing bars 370 so that when the concrete (C) when the concrete floor 380 can provide a solid reinforcement structure The rebar holder 400 and the vibration absorbing plate 500 are fastened to each other so that the vertical pin insertion rod 510 of the vibration absorbing plate 500 is flown by the elastic spring 540.

That is, the reinforcing bar holder 400 is installed so that the vertical pin 430 of the center protrudes in a double structure so that the upper surface is coincident with the upper surface of the concrete floor, and the vertical pin insertion rod (inside the vertical pin 430). The 510 is inserted to absorb the vibration transmitted from the top by the elastic spring 540.

In FIG. 3, the description of FIG. 6 has been provided with respective reference numerals for efficient overall description of the drawings. However, overlapping descriptions on the drawings will be clearly indicated by attaching only the reference numerals to the drawings.

The effect by the structure of this invention mentioned above is demonstrated below.

The present invention, when the reinforcement is reinforced inside the inner, outer formwork can maintain the spacing of the reinforcement through the reinforcing steel retainer when the concrete can be installed to maintain the reinforcement in the reinforcement state, thereby Durability is strengthened by preventing the rebar from falling off through rebar and reinforcing steel retainer, and when the anti-vibration material and floorboard are installed on the concrete floor, the vibration absorbing plate is installed on the lower part of the anti-vibration material and transmitted from the upper part to the lower part. It has the effect of absorbing.

1 is a cross-sectional view of a concrete floor of a typical building.

2 is a view showing a state in which reinforcing bars of a typical building are arranged.

3 is a cross-sectional view of the concrete floor of the building of the present invention.

Figure 4 is a view showing a state in which the reinforcing bar retainer and the reinforcing bar of the present invention is coupled.

5 is a view showing an exploded state of the reinforcing bar holder, the vibration absorbing plate and the elastic spring of the present invention.

Figure 6 is a cross-sectional view showing a state in which the reinforcing bar holder, the vibration absorbing plate and the elastic spring of the present invention is coupled.

<Description of Symbols for Main Parts of Drawings>

300: reinforcement 310: vibration preventing material

320: floorboard 370: cutting rebar

380: concrete floor 400: rebar holder

500: vibration absorbing plate 540: elastic spring

Claims (2)

In the concrete floor of the building in which reinforcing bars are reinforced in the horizontal and vertical directions on the upper part of the lower formwork and concrete is poured on the upper part, The concrete floor is inserted into the rebar before construction to maintain the spacing of the rebar, Rebar holding groove formed in the cross-shaped upper portion is formed in the cross-shaped shape so as to have a step and a vertical pin formed in a double pin structure protrudes, the reinforcing bar is formed in the lower portion of the cross-shaped body insertion groove; While the rebar holder is coupled to the upper portion is installed to absorb the upper vibration, A vibration absorbing plate formed at a lower portion of the vertical pin insertion rod and coupled between the vertical pins of the rebar holder and installed on the concrete floor surface; And Building concrete floor reinforcement structure, characterized in that consisting of an elastic spring is installed between the vertical pin of the reinforcing bar and the vertical pin insertion rod of the vibration absorbing plate to face the vibration transmitted from the upper side, the circular plate is installed at the bottom. The method of claim 1, The rebar holder has a plurality of vertical pins protruding upwards in the center in a double structure, the cutting reinforcement is inserted into the reinforcing bar insertion groove is formed to have a concrete and solid support structure to operate 1 ~ 5 MM according to the upper vibration Building concrete floor reinforcement structure, characterized in that.