KR102234463B1 - the shear reinforcement unit and the shear reinforcing structure of reinforced concrete structure using the same - Google Patents

Abstract

According to the present invention, a shear reinforcer unit (1000) supporting a rebar (RB) in concrete (C), including: an upper frame (100) installed horizontally; and a lower frame (200) combined with a lower part of the upper frame (100). The lower frame (200) includes: a plurality of vertical strips (210) having a plurality of rebar through holes (H) and spaced horizontally apart from each other to be installed vertically; and a horizontal strip (230) installed by integrating bottoms of the plurality of vertical strips (210), wherein the rebar (RB) is installed through the rebar through holes (H). Moreover, provided is a shear reinforcement structure of a rebar concrete structure using a shear reinforcer unit. The shear reinforcement structure, using the shear reinforcer unit (1000), includes: a plurality of shear reinforcer units (1000) installed in parallel with each other in an upper part of a mold (unshown); a plurality of rebars (RB) installed through the rebar through holes (H); and concrete (C) placed while embedding the rebars (RB) and the shear reinforcer unit (1000).

Description

The shear reinforcement unit and the shear reinforcing structure of reinforced concrete structure using the same}

The present invention relates to a shear stiffener applicable to reinforced concrete beams, wide beams, slabs, walls, etc., and it is easy to assemble and construct and can improve the precision of construction. Since it is composed of one unit, the assembled state is stably maintained. It relates to an integrated shear reinforcement unit that can be maintained and a shear reinforcement structure of a reinforced concrete structure using the same.

In a civil or architectural structure, when a force in a direction perpendicular to the surface of the concrete structure acts on the concrete structure, shear stress occurs in the concrete structure.

In the case of reinforced concrete, in general, shear reinforcement is performed by arranging band reinforcing bars that tie the main bars arranged up and down in the axial direction of the concrete structure.

In this method of shear reinforcement, it is cumbersome and not easy to reinforce and connect a plurality of reinforcing bars so that their positions and angles are accurate.

In particular, in the conventional beam structure, a plurality of reinforcing bars or steel wires are arranged along the longitudinal direction in order to secure structural rigidity inside the beam, and a separate reinforcing bar is wound on the outer circumferential surface of the reinforcing bars or steel wires in the cross-sectional direction of the beam body. By being formed to have resistance to shear while at the same time aiming at the binding of them, it is formed to form an integral stirrup structure.

However, such a conventional stirrup keeps countless stirrups arranged at regular intervals based on a number of reinforcing bars or steel wires in order to secure the rigidity of the beam structure. Not only does it take a lot of work time, but it also takes a lot of material costs to achieve a complete stirrup, resulting in a problem of lowering productivity and workability.

In addition, when the width of the beam is wider than that of a general beam, additional shear reinforcement is required in the transverse direction of the beam section, but for design and construction reasons, only longitudinal reinforcement using stirrups can cause problems in structural performance degradation. .

Accordingly, the present inventor relates to a shear stiffener applicable to reinforced concrete beams, wide beams, slabs, walls, etc.,

It is easy to assemble and construct and can improve the precision of construction,

Since it is composed of one unit, the assembled state can be stably maintained,

The shear stiffener unit of the present invention and the reinforced concrete structure using the same are advantageous in that reinforcement is possible in both the longitudinal and transverse directions of the member, and the reinforcement of the upper main reinforcement and skin reinforcement is easy by inserting the reinforcement into the regularly arranged holes. Shear reinforcement structure has been developed.

[Document 1] Korean Patent Registration No. 10-1557388'Shear Reinforcement Rebar Assembly Unit', September 25, 2015 [Document 2] Korean Patent Registration No. 10-1255004'Structure beam with shear reinforcement', April 10, 2013

The present invention is presented in order to solve all the problems of the prior art as described above. Its purpose relates to shear stiffeners that can be applied to reinforced concrete beams, wide beams, slabs, walls, etc., and it is easy to assemble and construct, and can improve the precision of construction, and because it is composed of one unit, the assembled state can be stably maintained. Shear stiffener unit of the present invention, which has the advantage of easy reinforcement of upper main reinforcement and skin reinforcement by inserting reinforcement into a uniformly arranged hole, and reinforcement in both longitudinal and transverse directions of the member and using the same It is intended to provide a shear reinforcement structure for reinforced concrete structures.

In order to solve the above technical problem, the present invention is to support the reinforcing bar (RB) inside the concrete (C),

The upper frame 100 installed horizontally; And,

A lower frame 200 coupled to a lower portion of the upper frame 100;

It is composed including,

The lower frame 200,

A plurality of vertical strips 210 having a plurality of reinforced through holes H and horizontally spaced apart from each other and installed vertically; and a horizontal strip 230 installed by integrally connecting the lower ends of the plurality of vertical strips 210 ); consists of,

It provides a shear stiffener unit 1000, characterized in that the reinforcing bar (RB) is installed through the reinforcing bar through hole (H).

In addition, by using the shear stiffener unit 1000,

A plurality of shear stiffener units 1000 installed in parallel with each other on the upper part of the formwork (not shown);

A plurality of reinforcing bars (RB) that are installed through the reinforcing bar through holes (H);

The shear stiffener unit 1000 and the concrete (C) to be poured while burying the reinforcement (RB);

It provides a shear reinforcement structure of a reinforced concrete structure using a shear reinforcement unit, characterized in that configured to include.

The present invention relates to a shear stiffener applicable to reinforced concrete beams, wide beams, slabs, walls, etc., and it is easy to assemble and construct, and can improve the precision of construction, and because it is composed of one unit, the assembled state is stably maintained. Shear stiffener unit of the present invention, which has the advantage of easy reinforcement of upper main reinforcement and skin reinforcement by inserting reinforcement into a uniformly arranged hole, and reinforcement in both longitudinal and transverse directions of the member and using the same It provides a shear reinforcement structure for reinforced concrete structures.

1 is an exploded perspective view of the shear stiffener unit of the present invention.
FIG. 2 is a detailed view of FIG. 1.
3 shows a state in which a plurality of shear stiffener units are arranged in a shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit.
Figure 4 shows a state in which additional reinforcement is reinforced in Figure 3.
5 is a complete view of FIG. 4.
6 is an embodiment of a case in which a tensile force acts on a lower portion of a reinforced concrete structure in a shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit.
7 is an embodiment of a case in which a tensile force acts on an upper portion of a reinforced concrete structure in a shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit.
8 is an embodiment of a case where a tensile force intersects the upper and lower portions of the reinforced concrete structure in the shear reinforcement structure of a reinforced concrete structure using a shear reinforcement unit.
9 shows the completed form of the shear reinforcement structure of a reinforced concrete structure using a shear reinforcement unit.

Hereinafter, the present invention will be described in more detail through embodiments in which the concept of the present invention as described above is preferably implemented together with the accompanying drawings.

Ⅰ. Shear stiffener unit

1 is an exploded perspective view of the shear stiffener unit of the present invention.

Shear stiffener unit 1000 of the present invention,

By supporting the reinforcing bar (RB) inside the concrete (C),

The upper frame 100 installed horizontally; And,

A lower frame 200 coupled to a lower portion of the upper frame 100;

It is composed including,

The lower frame 200,

A plurality of vertical strips 210 having a plurality of reinforced through holes H and horizontally spaced apart from each other and installed vertically; and a horizontal strip 230 installed by integrally connecting the lower ends of the plurality of vertical strips 210 ); consists of,

It characterized in that the reinforcing bar (RB) is installed through the reinforcing bar through hole (H).

FIG. 2 is a detailed view of FIG. 1.

As shown, a protruding water coupling portion 110 is formed under the upper frame 100,

A recessed arm coupling part 211 is formed on the lower frame 200,

It characterized in that the male coupling portion 110 is fitted to the female coupling portion 211.

Further, a support 250 mounted on a formwork (not shown) so that the shear stiffener unit 1000 can be self-standing is further formed under the lower frame 200.

In addition, the height of the pedestal 250 is the thickness of the lower concrete cover,

The height of the upper frame 100 is characterized in that the upper concrete cover thickness.

At this time, the pedestal 250 maintains the concrete cover thickness and performs the same function as a spacer for mounting reinforcing bars.

In addition, the surface of the upper frame 100 and the lower frame 200 is characterized in that the embossing treatment to increase the adhesion to the concrete (C).

The embossing treatment is to enhance the adhesion strength with concrete, and refers to roughly bending treatment,

Small pieces of reinforcing bar or bolts can be welded to form a stud bolt-like shape under conditions that do not interfere with concrete pouring.

Eventually, the shear stiffener unit 1000 of the present invention forms a grid and a bracing in a direction orthogonal to the reinforcing bar (RB) in the concrete (C), thus forming the longitudinal shear reinforcement structure of the reinforced concrete structure,

A plurality of shear stiffener units 1000 are arranged in parallel to form a transverse shear reinforcement structure of a reinforced concrete structure.

In addition, since it is possible to reinforce the reinforcing bar (RB) in the pre-formed reinforcing bar through hole (H), even the unskilled worker has the characteristic that the upper main reinforcement and the skin reinforcement can be regularly reinforced with a predetermined quality.

Ⅱ. Shear reinforcement structure of reinforced concrete structure using shear reinforcement unit

3 shows a state in which a plurality of shear stiffener units are arranged in the shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit,

Figure 4 shows a state in which reinforcement is additionally reinforced in Figure 3,

5 is a complete view of FIG. 4.

And Figure 9 shows the completed state of the shear reinforcement structure of the reinforced concrete structure using the shear reinforcement unit.

The shear reinforcement structure of a reinforced concrete structure using the shear reinforcement unit of the present invention,

By using the shear stiffener unit 1000,

A plurality of shear stiffener units 1000 installed in parallel with each other on the upper part of the formwork (not shown);

A plurality of reinforcing bars (RB) that are installed through the reinforcing bar through holes (H);

The shear stiffener unit 1000 and the concrete (C) to be poured while burying the reinforcement (RB);

It characterized in that it is configured to include.

At this time, as shown in Fig. 3, the shear stiffener unit 1000 may be pre-installed and reinforced bar (RB) may be laid,

After reinforcing reinforcing bars (RB) in a state in which the lower frame 200 is pre-installed in a different way depending on the construction site,

The upper frame 100 may be installed afterwards.

6 is an embodiment of a case where a tensile force acts on a lower portion of a reinforced concrete structure in a shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit,

7 is an embodiment of a case where a tensile force acts on an upper portion of a reinforced concrete structure in a shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit,

8 is an embodiment of a case where a tensile force intersects the upper and lower portions of the reinforced concrete structure in the shear reinforcement structure of a reinforced concrete structure using a shear reinforcement unit.

As shown,

The present invention is characterized in that it is possible to provide a level difference or a difference in number of the plurality of reinforced bars (RB) according to the axial force and stress acting on the reinforced concrete structure.

Specifically, it is as follows.

6 is an embodiment of a case in which a tensile force acts on a lower portion of a reinforced concrete structure in a shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit,

Usually, since the tension force acts on the lower part of the structure at the middle of the slab or the beam, it is possible to respond to the axial force through the reinforcement as shown in FIG. 6.

7 is an embodiment of a case where a tensile force acts on an upper portion of a reinforced concrete structure in a shear reinforcement structure of a reinforced concrete structure using a shear stiffener unit,

Usually, since a tensile force acts on the upper part of the structure at the end of the slab or beam, it is possible to respond to the axial force through reinforcement as shown in FIG. 7.

8 is an embodiment of a case where a tensile force intersects the upper and lower portions of the reinforced concrete structure in the shear reinforcement structure of a reinforced concrete structure using a shear reinforcement unit,

Usually, the tension force acts by intersecting the upper and lower portions of the structure at a portion moving from the end of the slab or beam toward the middle of a certain distance, so it is possible to cope with the changing axial force through the reinforcement as shown in FIG. 8.

As mentioned above,

In a building structure, when a load is applied in a direction perpendicular to the surface of the structure, a shear stress that is about to be cut in the direction perpendicular to the axis of the member and a bending stress that is about to bend the member act.

In order to resist bending stress, a main reinforcing bar is placed in the lower part of the member and a stirrup is placed to resist shear stress.

In order to secure the structural performance of the building, the main reinforcing bar and stirrup must be placed in an appropriate location.However, in the conventional rebar reinforcement construction, the site situation or the efficiency of the worker affects the construction quality, and the location of the reinforcing bar and stirrup is the original location while placing concrete. There is an uncertainty that leads to a deviation from it.

In addition, a spacer must be used to secure the cover thickness, and when placing the upper main reinforcement and skin reinforcement at a specific location, the construction is cumbersome and difficult to secure an accurate location as it must be fixed to the stirrup using a steel wire.

In particular, in the case of wide beams, shear reinforcement should be performed in both the longitudinal and transverse directions to secure shear performance.

In the present invention, reinforcement is possible in both the longitudinal and transverse directions of the member, and the construction quality is constant regardless of the work ability of the constructor by inserting reinforcing bars into regularly arranged holes, and the upper main reinforcement and skin reinforcement are also reinforced through holes ( It is easy to install as it can be installed in the form of inserting into H).

The present invention has been described in connection with a preferred embodiment as mentioned above, but various modifications and variations can be made without departing from the gist of the present invention, and can be used in various fields.

Accordingly, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

C: concrete
RB: rebar
H: rebar through hole
100: upper frame
110: water coupling portion
200: lower frame
210: vertical strip
211: arm coupling portion
230: horizontal strip
250: pedestal
1000: shear stiffener unit

Claims (7)

delete delete delete delete By supporting the reinforcing bar (RB) inside the concrete (C),
The upper frame 100 installed horizontally; And,
A lower frame 200 coupled to a lower portion of the upper frame 100;
It is composed including,
The lower frame 200,
A plurality of vertical strips 210 having a plurality of reinforced through holes H and horizontally spaced apart from each other to be installed vertically; and a horizontal strip 230 installed by integrally connecting the lower ends of the plurality of vertical strips 210 ); consists of,
It characterized in that the reinforcing bar (RB) is installed through the reinforcing bar through hole (H),
A protruding water coupling part 110 is formed under the upper frame 100,
A recessed arm coupling part 211 is formed on the lower frame 200,
Shear stiffener unit 1000, characterized in that the male coupling portion 110 is fitted to the female coupling portion 211.
By using the shear stiffener unit (1000) of claim 5,
A plurality of shear stiffener units 1000 installed in parallel with each other on the upper part of the formwork (not shown);
A plurality of reinforcing bars (RB) that are installed through the reinforcing bar through holes (H);
The shear stiffener unit 1000 and the concrete (C) to be poured while burying the reinforcement (RB);
Shear reinforcement structure of a reinforced concrete structure using a shear reinforcement unit, characterized in that consisting of a.
In paragraph 6,
Shear reinforcement structure of a reinforced concrete structure using a shear reinforcement unit, characterized in that the level difference or difference in the number of the plurality of reinforcing bars (RB) can be placed according to the axial force and stress acting on the reinforced concrete structure.

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