KR200371618Y1 - Structure of joint the column of Concrete Filled steel Tube and girder of Reinforced Concrete - Google Patents

Abstract

The present invention relates to the structure of the junction of the CFT column and RC girder, and more specifically, the upper part of the CFT column is embedded in the RC girder and installed, and reinforcing the 'b' shaped reinforcement on the CFT column, the amount of steel column Of the CFT pillars and RC girders to reduce the interference of the projected pillars during construction, and to facilitate the movement of the vehicle, and to improve the ease of reinforcement work on the top of the RC girders and the accuracy of the CFT pillars and the RC girders. It relates to the structure of the junction.

To this end, the present invention in the structure of the junction portion of the CFT column and RC girder comprising a plurality of studs, the upper end of the CFT column is installed in the RC girder, a plurality of reinforcement on the upper inner peripheral surface of the CFT column Reinforcing bars are attached at equal intervals along the circumferential direction, and provides a structure of the junction of the CFT column and RC girder, characterized in that the reinforcing reinforcement is protruded radially from the upper end of the CFT column.

Description

Structure of joint the column of Concrete Filled steel Tube and girder of Reinforced Concrete}

The present invention relates to the structure of the junction of the CFT column and RC girder, and more specifically, the upper part of the CFT column is embedded in the RC girder and installed, and reinforcing the 'b' shaped reinforcement on the CFT column, the amount of steel column Of the CFT pillars and RC girders to reduce the interference of the projected pillars during construction, and to facilitate the movement of the vehicle, and to improve the ease of reinforcement work on the top of the RC girders and the accuracy of the CFT pillars and the RC girders. It relates to the structure of the junction.

In general, when building buildings such as urban buildings and high-rise complexes, many top / down or downward methods are applied.

Here, the top / down method is a method of constructing the ground floor and the basement at the same time, and proceeds as it is while building the skeleton in the case of the ground floor. It is a construction method.

In addition, unlike the top / down method, the downward method is a method in which only the basement part is reversed.

For the foundation work in the construction of the building, after drilling the ground, pillars such as concrete-filled steel tube (CFT) or H-beams are erected and foundation concrete is laid for the columns.

On the other hand, the filled steel pipe pillar (CFT) means a kind of pillars filled with concrete in the steel pipe, the structure that resists high axial force by employing the filled steel pipe pillar as a pillar member of the main structural members of the frame.

This CFT structure is widely applied to buildings such as buildings and high-rise complexes in urban areas because of the advantages that steel pipes constrain concrete, not only in terms of structural aspects such as rigidity, strength and deformation, but also in various aspects such as fire resistance and construction. It is a trend.

2 is a cross-sectional view showing a junction of a conventional CFT column and RC girder, the CFT column 100 protrudes over the RC girder 20 from the ground floor 1 to improve the accuracy of the RC girder 20 and the CFT column 10 It consists of a structure to increase.

At this time, a plurality of studs 16 (STUD) in the radial direction along the circumferential direction is integrally installed on the outer circumferential surface of the CFT pillar 100 to increase the punching (20) resistance strength of the RC girder.

Here, the stud 16 serves to increase the binding force between the RC girder 20 and the CFT pillar 100, it is preferable to install three rows in the longitudinal direction on the outer peripheral surface of the CFT pillar 100.

3 is a state diagram showing the reinforcement in the upper portion of the RC girder in the vicinity of the conventional CFT column, a separate plate 110 is installed in the vertical direction around the CFT column 100, and installed of a plurality of reinforcement (1) The end is penetrated by the plate 110 and is treated as a welded joint.

However, the high precision is slightly increased due to the protrusion of the CFT column, but weak in punching, and the upper part of the RC girder is cut in the middle due to the interference by the protruding CFT column, and the welded bar is welded using a separate steel plate, or both sides of the girder are narrow. Since it is distributed in width, the work is complicated and the work time increases.

In addition, there is a problem that the amount of the amount further increased by the protruding length of the CFT pillar, the movement of the work vehicle due to the protrusion of the pillar is not smooth.

The present invention was conceived in view of the above, and the upper end of the CFT column is embedded without protruding to the upper part of the RC girder, and the reinforcement work is easy on the upper part of the RC girder without interference of the protruding pillar during construction, thereby greatly increasing the working time. It is shortened and can be used as a stud by reinforcing the 'A' reinforcing bar on the upper part of the CFT column, thereby providing a structure of the junction of the CFT column and the RC girder to improve the accuracy of the CFT column and the RC girder. There is a purpose.

1 is a cross-sectional view showing the structure of the junction of the CFT column and RC girder according to the present invention.

2 is a cross-sectional view showing a junction of a conventional CFT column and RC girder.

Figure 3 is a state diagram showing the reinforcement on the top of the RC girder around the conventional CFT column.

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

1: rebar 10: CFT column

12: steel pipe 14: concrete

16: first stud 17: second stud

20: RC girder 30: reinforcing bars

30a: vertical portion 30b: bend portion

The present invention for achieving the above object is in the structure of the junction of the CFT column and RC girder comprising a plurality of studs,

The upper end of the CFT pillar is installed inside the RC girder, and a plurality of reinforcing bars are attached to the upper inner circumferential surface of the CFT pillar at equal intervals along the circumferential direction, and the reinforcing bars are radiated at the upper end of the CFT pillar. It is characterized by being bent in a direction to protrude.

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

1 is a cross-sectional view showing the structure of the junction of the CFT pillar and RC girder according to the present invention.

The present invention is embedded in the upper end of the CFT pillar 10 without protruding to the top of the RC girder 20, it is easy to reinforce the upper reinforcement of the RC girder 20 without interference of the projecting pillar during construction, greatly reducing the work time In order to improve the accuracy of the CFT column 10 and the RC girder 20 by reinforcing the 'A'-shaped reinforcing bar on the upper part of the CFT column 10, it can be used as a substitute for the stud 16. have.

The present invention is applied to the case of the junction of the CFT column 10 and the RC girder 20 at the lower part of the ground ground slab when the CFT column 10 penetrates the RC girder 20.

The CFT column 10 is filled with the concrete 14 in the steel pipe 12, using the advantages of concrete 14, which is weak against tensile force but strong against compression force, and steel tube 12 that is weak against compressive force but strong against tensile force. .

The RC girder 20 is a member that is projected by a predetermined cross-sectional area integrally in the longitudinal direction at the bottom of each floor slab is subjected to an upper load.

At this time, the CFT pillar 10 penetrates the RC girder 20 of each underground layer, and in the ground floor, the CFT pillar 10 does not protrude above the RC girder 20, but instead of the CFT pillar 10. A plurality of reinforcing bars 30 are welded along the circumferential direction on the upper inner circumferential surface.

More specifically, the plurality of reinforcing reinforcing bar 30 has a 'b' shape, composed of a vertical portion 30a and a bent portion 30b bent in a direction perpendicular to the upper end of the vertical portion 30a. It is.

The vertical portion 30a is welded at regular intervals along the circumferential direction to the upper inner circumferential surface of the CFT column 10, and the bent portion 30b is a predetermined length in the radial direction along the circumferential direction at the upper end of the CFT column 10. Protrudes as much.

In addition, a plurality of first and second studs 16 and 17 are integrally formed on the outer circumferential surface of the upper end of the CFT pillar 10 along the circumferential direction, and the plurality of first and second studs 16 and 17 are It is formed at equal intervals in the longitudinal direction at the lower portion of the bent portion (30b) of the reinforcing bar 30.

At this time, the stud 16 serves to increase the binding force between the CFT pillar 10 and the RC girder 20 as in the prior art.

According to the structure of the junction portion of the CFT column 10 and the RC girder 20 according to the present invention by such a configuration, the amount of steel pillars by embedding the CFT column 10 without protruding above the RC girder 20 It is reduced, and there is no interference of the projecting pillar during construction, so that the movement of the working vehicle is smooth.

In addition, since the CFT column 10 does not protrude when the RC girder 20 reinforces the upper reinforcement, a separate plate 110 is installed around the CFT column 10 to eliminate the trouble of welding the reinforcing bar 1, It is possible to save time required for rebar cutting work, rebar movement and rebar selection work to reinforce the rebar 1 passing through the CFT column 10.

When the boring (the height of the RC girder 20) is small, it is difficult to arrange the punching prevention stud 16, but the 'a' shaped reinforcing bar, that is, the reinforcing bar 30 is reinforced by the upper part of the CFT column 10 and the stud 16 Since it can be used as a substitute, the conventional arrangement of a plurality of studs 16 can be reduced from three rows to two rows, thereby reducing the amount of installation.

At the same time, it is possible to increase the accuracy of the CFT column 10 and the RC girder 20 by using a larger diameter of the reinforcing bar 30 or by lengthening the bent portion 30b of the reinforcing bar 30. .

In general, in the case of the first-floor girder, the working load increases according to the consideration of the working load, so that the eccentric moment acts on the end of the CFT column 10 so that the cross section of the CFT column 10 may be insufficient. In order to increase the length of the vertical portion (30a) of the '-' reinforcing bar, it is not necessary to increase the cross section of the CFT column (10).

Here, the description is limited to the junction of the CFT column 10 and the RC girder 20, but the same applies to the case of the H beam or other steel column.

As seen above, according to the structure of the junction portion of the CFT column and RC girder according to the present invention, by installing embedded in the RC girder without protruding to the upper ground floor girder, it reduces the quantity of steel pillars and protrudes during construction Since there is no column interference, the reinforcement work on the upper part of the RC girder is easy, which can shorten the working time and greatly reduce the labor time.

In addition, by reinforcing the 'b'-shaped reinforcing bar on the top of the CFT column, can be used as a substitute for studs, can also increase the accuracy of the RC girder and the CFT column, the eccentric moment acts on the end of the CFT column by the load If the CFT column cross section is insufficient, the strength of the CFT column cross section can be increased by lengthening the vertical portion of the 'a' reinforcing bar.

Claims (3)

In the structure of the junction portion of the CFT pillar and the ground one-layer RC girder comprising a plurality of first studs integrally protrudingly formed along the circumferential direction on the outer circumferential surface, and a second stud provided at predetermined intervals below the first stud; , The upper end of the CFT pillar is installed inside the RC girder without protruding to the upper portion of the CFT pillar, characterized in that a plurality of reinforcing bars are integrally formed along the circumferential direction on the upper end of the CFT pillar Structure of the junction. The method of claim 1, wherein the reinforcing bars are; A vertical portion attached to the upper inner circumferential surface of the CFT pillar; The structure of the junction portion of the CFT pillar and RC girder, characterized in that it comprises a bent portion protruding radially bent from the vertical portion. The structure of a joint of a CFT column and an RC girder according to claim 1 or 2, wherein the reinforcing bars are formed at equal intervals with the plurality of first and second studs.