KR101247322B1 - Shearing force supplement structure of building construction using rebar - Google Patents

Abstract

The shear reinforcing structure of the building structure using reinforcing bars includes an upper member installed at the joint portion of the slab and the pillar, a lower member installed at a predetermined distance from the upper member, and a shear member provided between the upper member and the lower member. The shear member includes a straight portion, an upper end formed by bending one end of the straight portion, and a lower end formed by bending the other end of the straight portion. According to the shear reinforcement structure of the building structure using the reinforcing bar configured as described above, the resistance force by the upper end of the shear member formed in the inclined direction against the inclined shear force applied to the portion where the slab and the column are joined and the connecting member connected thereto It is possible to effectively reinforce the shear structure by generating a, it is possible to reinforce the shear structure by connecting a relatively simple reinforcing bar structure with the existing reinforcing bar assembly, there is an advantage that can improve the workability and reduce the cost.

Description

Shear reinforcement of building structure using reinforcing bars {SHEARING FORCE SUPPLEMENT STRUCTURE OF BUILDING CONSTRUCTION USING REBAR}

The present invention relates to a shear reinforcing structure of a building structure using reinforcing bars, and more particularly, to a shear reinforcing structure of a building structure to apply a shear reinforcement to the building structure to resist shear fracture forces.

In general, the building structure includes a slab 1 forming a floor plate and a slab 1 and a pillar 3 for supporting a load applied thereto. The pillar 3 of the building structure is configured to support the load of the slab 1 itself and various loads applied to the upper surface of the slab 1.

However, in the general building structure, the shear failure in the diagonal direction as shown in FIG. 1 may occur at the portion where the slab 1 and the pillar 3 are connected. Such shear failure is a phenomenon that is likely to occur around the column spaced apart from the portion where the slab and the pillar is connected, a phenomenon caused by the concentration of stress in the connection portion between the pillar and the slab.

In order to prevent such a phenomenon, it is necessary to reinforce the connecting portion between the pillar 3 and the slab 1 to improve the shearing force. In the conventional method, it is common to install a fingerboard or a head circumference around the pillar. However, the conventional shear force reinforcement method has a problem in that it is not efficient in space or cost because the cross section must be increased.

Apart from the above method, there is a method of installing a separate shear reinforcement in the reinforcing structure, the conventional shear reinforcement has a problem that the practical utility is low because the structure is complicated and expensive.

The present invention is to solve such a conventional problem, it is an object of the present invention to improve the shear force of a building structure using a shear reinforcement of a relatively simple structure.

According to a feature of the present invention for achieving the above object, the shear reinforcement structure of the building structure using the reinforcement of the present invention in the shear reinforcement structure to reinforce the shear force by being installed in the portion where the slab and the column of the reinforced concrete structure is connected An upper member installed at a portion where the slab and the column are connected; A lower member spaced apart from the upper member by a predetermined distance; and a plurality of shear members connected to the upper member and the lower member, respectively, wherein the shear member is disposed between the upper member and the lower member. A straight portion disposed; One end of the straight portion is bent at an angle to form an upper end portion; and the other end of the straight portion preferably comprises a lower end formed by bending at a predetermined angle.

In the shear member of the present invention, the angle between the straight portion and the upper end is formed at an acute angle, and the angle between the straight portion and the lower end is preferably formed at a right angle.

The upper member, the lower member and the shear member of the present invention form one set to be continuously connected with the other set to form a reinforcing structure, wherein the one set of shear members is connected to the other set by a connecting member. desirable.

The plurality of shear members of the present invention are connected to the upper member and the lower member so that the direction of the upper end and the lower end are staggered from each other, and the other end of the set of the upper end and the lower end of the shear member connected alternately to the upper end and It is preferable that the lower end is arranged to face each other or to be opposite to each other.

According to the shear reinforcement structure of the building structure using the reinforcing bar according to the present invention, the upper end of the shear member formed in the inclined direction with respect to the shear force in the inclined direction applied to the portion where the slab and the column is joined to the connecting member connected thereto By generating a resistive force, the shear structure can be effectively reinforced, and the shear structure can be reinforced by connecting a relatively simple reinforcing bar structure with an existing reinforcing bar assembly, thereby improving construction property and reducing costs.

1 is a schematic cross-sectional view showing a shear failure phenomenon occurring in a general building structure.
Figure 2 is a perspective view showing a preferred embodiment of the shear reinforcement structure of the building structure using reinforcing bars according to the present invention.
Figure 3 is a cross-sectional view showing a preferred embodiment of the shear reinforcement structure of the building structure using reinforcing bars according to the present invention.
Figure 4 is a front view showing a shear member of the shear reinforcing structure of the building structure using reinforcing bars according to the present invention.

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

2 to 4 show a preferred embodiment of the shear reinforcement structure of the building structure using the reinforcing bar according to the present invention.

The shear reinforcing structure according to the present invention includes an upper member 10, a lower member 20, and a shear member 30 provided between the upper member 10 and the lower member 20, which are each composed of reinforcing bars. The upper member 10 and the lower member 20 are disposed to be spaced apart at regular intervals in the vertical direction, and the shear member 30 is fixed to the upper member 10 and the lower member 20.

The method for fixing the shear member 30 to the upper member 10 and the lower member 20 may be wire binding, arc welding or tag welding.

The shear member 30 is to give a resistance to the shear direction is configured in the 'c' shape. That is, as shown in Figure 4, the shear member 30 is a straight portion 31, the upper end portion 33 is connected to one end of the straight portion 31 is bent by a predetermined angle in the outward direction and the It is connected to the other end of the straight portion 31 includes a lower end 35, one end of which is bent by a predetermined angle in the outward direction.

The upper end 33 of the shear member 30 is preferably such that the bending angle a with the straight portion 31 does not exceed 90 °, which is the upper end 33 of the shear member 30 is shown in FIG. This is to resist shear force in the inclined direction as shown in FIG. In addition, it is preferable that the lower end portion 35 of the shear member 30 is formed at a bending angle of 90 ° with the straight portion 31 for construction convenience.

In addition, the shear member 30 is disposed to be alternated with each other in the upper member 10 and the lower member 20, so that the upper end portion 33 and the lower end portion of the shear member 30 as shown in FIG. 4. 35 is disposed to face different directions from the upper end 33 and the lower end 35 of the neighboring shear member 30.

The upper member 10 and the lower member 20 are connected by a plurality of shear members 30 to form a set. And, one set can be continuously connected with the other set to form a reinforcing bar structure.

As shown in FIG. 2, one set consisting of the upper member 10, the lower member 20 and the shear member 30 is connected with the other set, the upper end 33 of the shear member 30 and The lower end 35 is arranged to face or oppose each other with the other set of upper end 33 and lower end 35 located on the same line. Accordingly, the truss structure may be formed by being connected to each other by separate connection members 40 on the upper end 33 and the lower end 35 of different sets facing each other.

' 형상으로 형성될 수 있다. 또한, 상기 전단 부재(30)에 연결되는 연결 부재(40)의 형상은 다양한 형태의 형상으로 형성될 수 있다.At this time, the upper end 33 of the shear member 30 is the straight portion 31 forms an acute angle, so that the connecting member 40 connected to the upper end 33 extends to be inclined downward, which is the lower end ( 35 is connected to a connecting member 40 that connects each other. Therefore, the cross-sectional shape to which the connection member 40 is connected is'

It may be formed into a 'shape. In addition, the shape of the connection member 40 connected to the shear member 30 may be formed in various shapes.

In addition, adjacent sets of different upper members 10 are provided with connecting members 40 formed in a direction perpendicular to the longitudinal direction of the upper member 10 to connect the different sets of upper members 10 to each other. May be

According to the shear reinforcing structure composed of a plurality of sets configured as described above, the upper end portion 33 of the shear member 30 formed in the inclined direction with respect to the shear force in the inclined direction applied to the portion where the slab and the pillar are joined and connected thereto By generating a resistive force by the connecting member 40 is a shear structure can be effectively reinforced.

In addition, the shear structure can be reinforced by connecting a relatively simple reinforcing bar structure with an existing reinforcing bar assembly, thereby improving workability and reducing costs.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. will be.

Description of the main parts of the drawing
10: upper member 20: lower member
30 shear member 31 straight part
33: upper part 35: lower part
40:

Claims (4)

In the shear reinforcement structure using the reinforcing bar reinforced by the shear force is installed in the part where the slab and the column of the reinforced concrete structure is connected,
An upper member installed at a portion where the slab and the column are connected;
A lower member spaced apart from the upper member by a predetermined interval; and
A plurality of shear members connected to the upper member and the lower member, respectively;
The shear member is
A straight portion disposed between the upper member and the lower member;
An upper end formed by bending one end of the straight portion at an angle; and
The other end of the straight portion includes a lower end formed by bending at a predetermined angle,
The shear member is
The angle between the straight portion and the upper end is formed at an acute angle,
The angle between the straight portion and the lower end is formed at a right angle,
The upper member, the lower member and the shear member form one set to be continuously connected with the other set to form a reinforcing structure,
The set of shear members is connected to the other set by a connecting member so that the cross-sectional shape is'

Formed into a shape
Shear reinforcement structure of building structure using rebar.
delete delete The method of claim 1,
A plurality of the shear member is connected to the upper member and the lower member so that the direction of the upper end and the lower end are mutually staggered,
The top and bottom portions of the shear member that are connected to each other are arranged to face each other or to be opposite to each other and to the top and bottom portions of the neighboring sets.
Shear reinforcement structure of building structure using rebar.

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