KR20140032594A - Joint structure between steel column and beam - Google Patents

Abstract

The present invention relates to a binding structure between a column and a beam. The binding structure between a column and a beam, which is composed of a concrete-filled steel pipe column and a beam, comprises: a first binding member which is horizontally connected to an outer circumference of the steel pipe column and is bound to an upper flange of the beam; an inner pipe which is placed inside the steel pipe column; and a second binding member which connects the inner steel pipe with the steel pipe column and is horizontally bound to a spot at the height to which a lower flange is bound.

Description

[0002] JOINT STRUCTURE BETWEEN STEEL COLUMN AND BEAM [0003]

The present invention relates to a joint structure of a column and a beam, and more particularly, to a joint structure of a column and a beam which improves the concrete filling performance and the workability of the finishing work in the column of a steel pipe.

CFT (Concrete Filled Steel Tube) is a concrete filled steel pipe filled with concrete in a round or rectangular shaped steel pipe. The CFT structure is a structure in which CFT is applied to a steel pipe column as a main component of a frame to resist high axial force. The CFT structure has excellent performance in various aspects such as fire resistance and construction as well as structural aspects such as rigidity, proof strength and deformation by restraining concrete by steel pipe.

In the CFT structure, a square or circular steel pipe is mainly used as a member constituting a column. However, when such a steel pipe receives an external force, it is likely to cause out-of-plane deformation. Therefore, in the case of designing with a strong joint, it is essential to appropriately reinforce the joint portion of the column and the beam so as to have sufficient stiffness and proof stress.

Particularly, in the column-beam connection, the bending moment generated at the beam end acts intensively on the column at the flange position of the beam. Therefore, when the bending moment of the beam end is reinforced by the horizontal stiffener or the like, .

Conventionally, a diaphragm method is used to reinforce the joint between the CFT column and the beam. Such diaphragm systems include a through-diaphragm system, an inner-diaphragm system, and an outer-diaphragm system. However, since the diaphragm is welded to a closed steel pipe, there is a difficulty in manufacturing the steel pipe, and the diaphragm is joined to the steel pipe, which makes it difficult to reuse the steel pipe.

Particularly, in the through-hole diaphragm method, it is necessary to cut the steel pipe column for each layer. In the inner diaphragm method, it is difficult to manufacture the steel pipe when the diameter of the steel pipe is small and it is difficult to use the steel pipe for the concrete pouring inside the steel pipe . Also, in the outer diaphragm type, the diaphragm is welded to the outer circumferential portion of the steel pipe and the steel frame is connected to the diaphragm, thereby increasing the manufacturing cost of the diaphragm and increasing the welding amount.

Therefore, it is necessary to have a joint structure that simultaneously solves the filling of concrete and the easiness of fabrication at the junction of concrete filled steel column and beam.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to improve concrete filling ability at a joint portion between a column and a beam, Structure.

Another aspect of the present invention is to provide a joint structure of a column and a beam that more effectively resists external forces acting on the lower side of a steel pipe column, because the inner steel pipe and the beam act integrally.

The present invention as a technical aspect for achieving the above object, in the joint structure of the column and the beam consisting of a steel pipe pillar and beams filled with concrete therein, is horizontally coupled around the outer surface of the steel pipe pillar, A first joining member joined to the upper flange of the beam; and an inner steel pipe disposed inside the steel pipe pillar; And a second joining member connecting the inner steel pipe to the steel pipe pillar and horizontally joined to a height at which the lower flange of the beam is joined.

Preferably, the second joining member may be joined to a plurality of pieces separated from the outer circumferential surface of the inner steel pipe.

Preferably, the first joint member may be provided as a first horizontal plate joined to an outer peripheral surface of the steel pipe column in a ring shape.

Preferably, the second joining member may be provided as a second horizontal plate on which one side is joined to the outer circumferential surface of the inner steel pipe, and the other side is joined to the inner surface of the steel pipe pillar.

Preferably, the second joint member may be provided as a second horizontal plate, one side of which is joined to the outer circumferential surface of the inner steel pipe, and the other side of which is horizontally installed to penetrate the steel pipe column and join with the beam.

Preferably, the inner steel pipe may be composed of a plurality of inner pipes corresponding to a plurality of the beams joined to the steel pipe column.

Preferably, the steel tube column is formed by a combination of a first engaging member and a second engaging member so that the inner steel tube and the second horizontal plate can be easily installed, and the first engaging member and the second engaging member A hollow portion which is opened in one direction and is filled with concrete by the coupling can be formed.

Preferably, the steel tube column is formed by joining a first joining member and a second joining member that are open in one direction to facilitate the installation of the inner steel pipe and the second horizontal plate, and one of the plurality of second horizontal plates Or more can be inserted through the steel pipe column by being sandwiched between the first groove portion and the second groove portion formed in the first engaging member and the second engaging member.

According to the joining structure of the column and the beam according to the embodiment of the present invention, the upper part of the joining portion of the steel pipe column and the beam is composed of the first joining member joined to the outside of the steel pipe column, And the second joint member is installed inside to be joined. Therefore, it is possible to improve the concrete filling ability at the joining portion between the column and the beam, and to facilitate subsequent work such as finishing work.

Further, according to the embodiment of the present invention, since the plurality of second joint members are joined to the beam through the steel pipe columns, the inner steel pipe and the beam move integrally, and the steel pipe column acts on the lower side of the beam more It is possible to obtain an effect of effectively resisting it.

Further, according to the embodiment of the present invention, since the steel pipe column is formed by the joining of the first engaging member and the second engaging member, the effect of easily installing the inner steel pipe and the second joining member joined to the inside of the steel pipe column .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a joint structure of a column and a beam according to an embodiment of the present invention; FIG.
Fig. 2 is a partially cutaway perspective view of Fig. 1; Fig.
3 is a horizontal cross-sectional view of a joint structure of a column and a beam according to an embodiment of the present invention.
4 is a vertical cross-sectional view of a joint structure of a column and a beam according to an embodiment of the present invention.
5 is a vertical cross-sectional view of a joint structure of a column and a beam according to another embodiment of the present invention.
6 is a perspective view illustrating a method of manufacturing a joint structure of a column and a beam according to another embodiment of the present invention.

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

First, the embodiments described below are embodiments suitable for understanding the technical characteristics of the joint structure of the column and the beam according to the present invention. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

The present invention relates to a joint structure of a column and a beam composed of a steel pipe column and a beam member. 1 to 6 illustrate the case where the steel pipe column is a Concrete Filled Steel Tube (CFT) and the case where the beam is an H-shaped steel pipe. However, the present invention is not limited to the steel pipe column, Various modifications may be made within the technical scope of the invention.

The joining structure 100 of a column and a beam according to an embodiment of the present invention includes a first joining member 130, an inner steel pipe 170, And a joining member (150).

The first joint member 130 is horizontally coupled to the outer surface of the steel pipe column 110 and may be joined to the upper flange 121 of the beam 120.

Specifically, the first joining member 130 may be provided as a first horizontal plate 130 joined to the outer circumferential surface of the steel pipe column 110 in a ring shape.

That is, the first joint member 130 may be formed of a square or circular ring-shaped plate member depending on the shape of the steel pipe column 110, and may be formed on the inner surface of the steel pipe column 110 by welding or the like And the upper flange 121 of the beam 120 is joined to the outer protruding portion of the first joining member 130. At this time, the upper flange 121 is joined to the upper end of the upper flange 121 at the end of the first joint member 130, Or the lower side or the upper side of the upper flange 121 may be joined to the lower side.

The first joint member 130 effectively resists the bending moment acting intensively on the end portion of the upper flange 121 at the joining portion between the steel pipe column 110 and the beam 120, Can be prevented from being locally deformed and destroyed.

Since the first joining member 130 is joined to the outer surface of the steel pipe column 110, the first joining member 130 is bonded to the steel pipe column 110 at the joining portion of the steel pipe column 110 with the reinforcement member inside the steel pipe column 110, It is possible to minimize the formation of voids, thereby improving the filling property of the concrete.

Meanwhile, the inner steel pipe 170 may be disposed inside the steel pipe column 110.

At this time, the inner steel pipe 170 may be provided in correspondence with the beam joined to the steel pipe column 110. In other words, if the steel pipe column 110 can be disposed to include the portion to which the beam is joined, it may be longer than the height of the beam 120, may be the same as the beam 120, Or may be disposed at a portion where the second joining member 150 is joined.

The inner steel pipe 170 restricts the concrete filled in the steel pipe column 110 so that the inner surface of the concrete pipe 170 is deformed according to the behavior of the first joint member 130 and the second joint member 150. [ The rigidity and the proof stress of the steel pipe column 110 can be improved by minimizing the breakage. The inner steel pipe 170 serves as an induction pipe for supplying a concrete inside the steel pipe column 110 to improve the filling property of the concrete. The inner pipe 170 may be filled in the steel pipe column 110 It can serve to fix the position of the reinforcing bars.

The second joint member 150 connects the inner steel pipe 170 and the steel pipe column 110 and is horizontally joined to a height at which the lower flange 123 of the steel pipe 120 is joined. have.

In addition, a plurality of the second joining members 150 may be coupled to the outer circumferential surface of the inner steel pipe 170 separately.

That is, the second joining member 150 may be installed in a number corresponding to the beams 120 joined to the steel tube columns 110. When the number of the beams 120 is two or more, (Not shown) may be separately joined to the outer circumferential surface of the base plate 170.

Accordingly, the concrete filled in the steel pipe column 110 can be easily filled in the lower portion of the second joint member 150.

The second joining member 150 is horizontally disposed to correspond to the joining position of the lower flange 123 of the beam 120 and is joined to the inner steel pipe 170, The steel pipe column 110 and the inner steel pipe 170 can be made to behave integrally with respect to a load acting on the inner pipe 110. Thereby, an effect of more effectively resisting the external force acting on the lower side of the joint can be obtained.

As described above, according to the joining structure 100 of the column and the beam according to the embodiment of the present invention, the upper portion of the joining portion of the steel pipe column 110 and the beam is joined to the outer side of the steel pipe column 110 by the first joining member 130 and the lower part is composed of the second joint member 150 which is joined inwardly to be joined to the inner steel pipe 170 inside the steel pipe column 110. This improves the concrete filling ability at the joint part, A subsequent work such as construction can be easily obtained.

The second joining member 150 includes a first joining member 150 and a second joining member 150. The second joining member 150 has one side 151 bonded to the outer circumferential surface of the inner steel pipe 170 and the other side 153 bonded to the inner surface of the steel pipe column 110. [ (Not shown).

That is, one embodiment of the present invention may be mounted such that the second joining member 150 is inserted into the steel pipe column 110, as in the embodiment shown in FIGS. One end 151 of the second joint member 150 is joined to the outer circumferential surface of the inner steel pipe 170 and the other end 153 of the second joint member 150 is joined to the inner surface of the steel pipe column 110.

Since the second joint member 150 is joined to the inner surface of the steel pipe column 110 at the position of the lower flange 123 of the steel pipe 120, Can be easily made, can be easily manufactured, and can easily transmit stress.

The joint between the lower flange 123 of the beam 120 and the steel pipe column 110 is connected to the steel pipe column 110 side through the joining of the second joining member 150 and the inner steel pipe 170 It is possible to effectively resist the compressive force acting. That is, when a compressive force is applied from the beam 120 to the column 110, the second joint member 150 transmits the compressive force transmitted from the beam 120 to the inner steel pipe 170, The compressive force of the concrete filled in the periphery of the inner steel pipe 170 can resist the compressive force. Accordingly, it is possible to minimize the deformation of the steel tube column 110 by the external force at the column-to-tube joint.

The inner steel pipe 170 may have a plurality of inner steel pipes 170 corresponding to the plurality of beams 120 connected to the steel pipe column 110.

For example, the inner steel pipe 170 may be disposed at the inner center of the steel pipe column 110, or may have two or more. The plurality of inner steel pipes 170 disposed in the steel pipe column 110 may be disposed at positions corresponding to the beams joined to the steel pipe columns 110, And may be arranged in a number and position corresponding to the inner steel pipe 170.

Since the plurality of inner steel pipes 170 are formed as described above, the resistance against the load acting on the steel pipe column 110 is increased, and the strength and rigidity of the steel pipe column 110 at the joint are increased. Can be obtained.

The steel pipe column 110 is provided with a first coupling member 111 and a second coupling member 110 so as to facilitate installation of the inner steel pipe 170 and the second horizontal plate 150, (112). ≪ / RTI >

At this time, the first engaging member 111 and the second engaging member 112 are opened in one direction, and a hollow portion 113 filled with concrete may be formed.

That is, the steel pipe column 110 may be formed at the joining portion by joining two or more members. For example, as shown in FIG. 6, the first joining member 111 and the second joining member Can be formed by joining the second joining member (112). The second joining member 150 is joined to the first joining member 111 and the second joining member 112 before the first joining member 111 and the second joining member 112 are joined together, can do. When the inner steel pipe 170 is small, it may be connected to the second joining member 150 before joining the first joining member 111 and the second joining member 112.

Accordingly, the inner steel pipe 170 and the second joint member 150, which are joined to the inner side of the steel pipe column 110, can be easily installed.

However, the method of manufacturing the steel pipe column 110 is not limited to the illustrated case, and various modifications are possible as long as the inner steel pipe 170 and the second joining member 150 can be easily installed.

5 and 6, a structure 100 for joining a column and a beam according to another embodiment of the present invention will be described.

Hereinafter, a detailed description of the same components as those of the first embodiment of the present invention will be omitted, and the second joining member 150, which is a configuration in comparison with the first embodiment, will be mainly described.

In the joining structure 100 of the column and the beam according to another embodiment of the present invention, the second joining member 150 has one side 151 bonded to the outer peripheral surface of the inner steel pipe 170, May be provided as a second horizontal plate (150) horizontally installed to penetrate the steel pipe column (110) and to be connected to the beam (120).

That is, the second horizontal plate 150 provided to the second joining member 150 is installed to penetrate the steel pipe column 110 through the through hole 114 formed in the steel pipe column 110 at the joining portion And can be fixed to the steel pipe column 110 by welding or the like.

The other end 153 of the second horizontal board 150 can be engaged with the end of the lower flange of the beam 120. [ For example, when the second horizontal board 150 is joined to the upper or lower side of the end of the lower flange 123, the second horizontal board 150 is connected to the lower flange, .

Accordingly, since the second joint member 150 is directly joined to the beam 120 so that the inner steel pipe 170 and the beam 120 are integrally moved, 120 can be more effectively resisted by an external force acting from the lower portion.

Meanwhile, as described above, a plurality of the second joining members 150 may be separately joined to the outer circumferential surface of the inner steel pipe 170.

In addition, the inner steel pipe 170 may be formed to correspond to a plurality of the beams 120 joined to the steel pipe column 110.

At this time, a plurality of through holes 114 formed in the outer steel pipe may be formed to correspond to the second joining member 150 and the beam 120.

Meanwhile, in the column-to-beam joint structure 100 according to another embodiment of the present invention, the steel column 110 is formed in one direction so as to facilitate the installation of the inner steel pipe 170 and the second horizontal plate 150 And may be formed by joining the first engaging member 111 and the second engaging member 112 that are opened. One or more of the plurality of second horizontal boards 150 may be disposed between the first groove 114a and the second groove 114b formed in the first engagement member 111 and the second engagement member 112, So that it can be installed through the steel pipe column 110.

6, the steel tube column 110 may be formed by joining the first engaging member 111 and the second engaging member 112. For example, as shown in FIG. 6 The first engaging member 111 and the second engaging member 112 can be formed by joining two members, as in the embodiment shown in Fig. At this time, the second joining member 150 may be fastened before the first joining member 111 and the second joining member 112 are joined.

A first groove 114a may be formed in one side of the first coupling member 111 and a second groove 114b may be formed in a side of the second coupling member 112 in one direction. Can be formed. When the first engaging member 111 and the second engaging member 112 are joined to each other, the first groove portion 114a and the second groove portion 114b are formed in a state in which the second joining member 150 is inserted through the through- The through hole 114 can be formed.

6, a part of the second horizontal plate 150 is sandwiched between the first groove 114a and the second groove 114b to form the steel pipe column 110 and a part thereof may be inserted through the through hole 114 formed in the first engaging member 111 or the second engaging member 112. [

Accordingly, even when the second joining member 150 is fastened to the steel tube column 110, the second joining member 150 can be easily installed.

However, the method of manufacturing the steel pipe column 110 is not limited to the illustrated case, and various modifications are possible as long as the inner steel pipe 170 and the second joining member 150 can be easily installed.

According to the joining structure of the column and the beam according to the embodiment of the present invention, the upper part of the joining portion of the steel pipe column and the beam is composed of the first joining member joined to the outside of the steel pipe column, And the second joining member joined to the inside so as to be joined to each other. Therefore, the concrete filling ability at the joining portion between the column and the beam can be improved, and a subsequent work such as finish work can be easily achieved.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention, It will be appreciated that those skilled in the art will readily understand the present invention.

100: Connection structure of column and beam 110: Steel pipe column
111: first engagement member 112: second engagement member
114: through hole 120:
130: first joining member, first horizontal plate 150: second joining member, second horizontal plate
170: Internal steel pipe

Claims (8)

In the structure of the joint between column and beam composed of steel pipe columns and beams filled with concrete inside,
A first joining member joined horizontally around the outer surface of the steel pipe column and joined to the upper flange of the beam;
An inner steel pipe disposed inside the steel pipe column; And
A second joining member which connects the inner steel pipe and the steel pipe pillar and is horizontally bonded to a height at which the lower flange of the beam is joined;
Column and beam junction structure comprising a.
The method of claim 1,
Wherein a plurality of the second joint members are joined to the outer circumferential surface of the inner steel pipe separately.
3. The method according to claim 1 or 2,
Wherein the first joint member is provided as a first horizontal plate joined to an outer circumferential surface of the steel pipe column in a ring shape.
3. The method according to claim 1 or 2,
Wherein the second joint member is provided as a second horizontal plate having one side joined to the outer circumferential surface of the inner steel pipe and the other side joined to an inner side surface of the steel pipe column.
3. The method according to claim 1 or 2,
Wherein the second joint member is provided as a second horizontal plate, one side of which is joined to the outer circumferential surface of the inner steel pipe and the other side of which is horizontally installed to penetrate the steel pipe column and to be joined to the beam. rescue.
3. The method according to claim 1 or 2,
Wherein the inner steel pipe is constituted by a plurality of corresponding to a plurality of the beams joined to the steel pipe column.
5. The method of claim 4,
Wherein the steel tube column is formed by a combination of a first engaging member and a second engaging member so that the inner steel tube and the second horizontal plate can be easily installed,
Wherein the first joint member and the second joint member are open in one direction and a hollow portion filled with concrete is formed by the joint.
6. The method of claim 5,
The steel tube column is formed by joining a first joining member and a second joining member that are open in one direction to facilitate the installation of the inner steel pipe and the second horizontal plate,
Characterized in that at least one of the plurality of second horizontal plates is fitted between the first groove portion and the second groove portion formed in the first engagement member and the second engagement member so as to penetrate the steel pipe column Joint structure of beams.

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