KR20150001636U - Joint Structure of Steel Tube Column and Steel Beam - Google Patents

Abstract

This design improves the strength and rigidity of the steel pipe joints by reinforcing the joints by the outer diaphragm method, minimizes the length of the diaphragm protruding outside the steel pipe, and enables the concrete to be tightly packed Type steel pipe column and a steel beam.
According to a preferred embodiment of the present invention, the joining structure of the hollow steel pipe column and the steel beam comprises a hollow steel pipe column, a first shaft joining member joined to both surfaces of the first shaft of the hollow steel pipe column, A second shaft joining member joined to both surfaces of a second shaft orthogonal to the first shaft and a steel beam joined to the hollow steel tube column via the first shaft joining member and the second shaft joining member, The joining member is a column joint plate composed of a rectangular cross section extending so that both ends in the width direction are protruded by a predetermined length from the hollow column, and is vertically protruded from the central portion of the column joint plate, And the second shaft joint member is spaced in the longitudinal direction of the hollow steel tube column within the height of the column joint plate so that both ends of the hollow steel tube column are spaced apart from each other Is joined to the output section is extended, columnar junction plate and steel tube column and bonding the inner edge which is cut in a fan shape, and is characterized in that the upper and lower flange of the steel beam consists of a horizontal stiffener of the pair are respectively bonded.

Description

[0001] The present invention relates to a joint structure of a hollow steel pipe column and a steel beam,

The present invention relates to a joint structure of a hollow steel pipe column and a steel beam, more specifically, an outer diaphragm method to reinforce the joint to improve the strength and rigidity of the steel pipe column joint and to prevent the concrete from being filled tightly in the steel pipe column. And more particularly, to a joint structure of a hollow steel pipe column and a steel beam which can be filled.

When a hollow steel pipe column is joined with a steel beam to form a frame, the load of the beam is transmitted to the column, and the joint of the column is subjected to a large load, which tends to cause out-of-plane deformation. Therefore, it is essential to properly reinforce the joints of the columns to have sufficient stiffness and strength.

In general, a diaphragm method is used as a method for reinforcing a column joint. The diaphragm type includes a through-hole diaphragm type, an inner-side diaphragm type, and an outer-side diaphragm type. The inner diaphragm method has a problem of filling the concrete when the concrete is installed in the inner part of the steel pipe, and the outer diaphragm method has a problem of the manufacturing cost of the diaphragm and the treatment of the finishing material.

There is a concrete filled steel pipe in a way to make a reasonable structural design using a steel pipe column.

Concrete Filled Steel Tube (Concrete Filled Steel Tube, hereinafter abbreviated as CFT) Concrete filled steel pipe filled with concrete in round or square shaped steel pipe. CFT is applied to the column member of the main structural member of the frame to resist high axial force. One structure is called CFT structure. The CFT structure has the merit of being able to reduce the size of the column by reducing the refractory sheath and by exhibiting excellent performance in various aspects such as fire resistance and construction as well as structural aspects such as rigidity, It has been recently attracting attention as the fourth structure after the existing steel structure (S), reinforced concrete structure (RC), steel reinforced concrete structure (SRC). The CFT structure is a new structural system developed recently, and has been studied relatively in the United States and Japan, and has been applied smoothly to the site. Recently, various studies and construction examples have been increasing in the domestic market.

As a background of the present invention, there is a Utility Model Registration No. 10-0716453 'Structural Reinforcement Structure of Concrete Filled Steel Tubular Columns and Steel Beams' (Utility Model Document 1). The utility room includes a through plate provided horizontally so as to penetrate through the center portion of the concrete filled steel pipe column with a predetermined length and a pair of protruding plates protruding from the center of both sides of the through plate and contacting the inner surface of the concrete filled steel pipe column The reinforced concrete structure is composed of the inner plate and the reinforced concrete structure of steel pipe columns and steel beams. The joint reinforcing structure proposed by this utility model has the advantage of reinforcing the joint between the steel pipe column and the steel beam by connecting the flange and the end portions of the steel beam to which the through plate is connected, but there is a member penetrating the column, And it is difficult to insert the inner diaphragm when using a conventional cold-formed square steel pipe which is not a built-up steel pipe type.

(Utility Actual Document 1) Utility Model Registration No. 10-0716453 'Reinforcing Structure of Concrete Filled Steel Pipe Column and Steel Beam Connection'

The present invention has been made to solve the above-mentioned problems of the related art, and it is an object of the present invention to improve the strength and rigidity of a steel pipe column joint portion by reinforcing a joint portion by an outer diaphragm method, Structure. ≪ / RTI >

Another object of the present invention is to provide a joint structure in which the appearance is not complicated and the manufacture and installation of the diaphragm are simple and the subsequent work such as finishing work is easy.

Another object of the present invention is to provide a joining structure capable of reducing the diameter of the diaphragm protruding outside the column to reduce the diameter of the column for installation of the underground structure by the top-down method do.

According to a preferred embodiment of the present invention, the joining structure of the hollow steel pipe column and the steel beam comprises a hollow steel pipe column, a first shaft joining member joined to both sides of the first shaft of the hollow steel pipe column, A second shaft joining member joined to both surfaces of a second shaft orthogonal to the first shaft and a steel beam joined to the hollow steel tube column via the first shaft joining member and the second shaft joining member, The joining member is a column joint plate composed of a rectangular cross section extending so that both ends in the width direction are protruded by a predetermined length from the hollow column, and is vertically protruded from the central portion of the column joint plate, And the second shaft joint member is spaced in the longitudinal direction of the hollow steel tube column within the height of the column joint plate so that both ends of the hollow steel tube column are spaced apart from each other Is joined to the output section is extended, columnar junction plate and steel tube column and bonding the inner edge which is cut in a fan shape, and is characterized in that the upper and lower flange of the steel beam consists of a horizontal stiffener of the pair are respectively bonded.

Here, the hollow steel pipe column may be composed of a single steel pipe member having a rectangular cross section.

On the other hand, the hollow steel pipe column can be configured to abut the lapped channel member.

Further, the hollow steel pipe column may be made of a plurality of steel plates and may have a flat cross-section.

At this time, the hollow steel pipe column may be made of concrete filled steel pipe filled with concrete in the hollow.

According to the present invention, steel plate reinforcement and stiffeners are provided at the joints of the steel pipe columns to reinforce the steel pipe column joints to have sufficient rigidity and proof strength, and to simplify joining of the columns and the beams, thereby improving workability.

In addition, it is possible to install the beam at a desired position of the steel pipe column by a simple method, and it is possible to improve the workability and the cost of the joint part by simplifying the detail of the joint part.

In addition, since the length of the diaphragm protruding outside the column can be reduced, it is possible to reduce the diameter of the column for installing the underground structure by the top-down system.

The following drawings attached hereto are illustrative of preferred embodiments of the present invention and together with the detailed description of the invention serve to further understand the technical idea of the present invention, Shall not be construed as limiting.
1 is a perspective view of a joint structure of a hollow steel pipe column and a steel beam according to an embodiment of the present invention.
2 is a perspective view of a joint structure of a hollow steel pipe column and a steel beam according to another embodiment of the present invention.
3 is a perspective view of a joint structure of a hollow steel tube column and a steel beam according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other aspects of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings in which: FIG.

1 is a perspective view of a joint structure of a hollow steel pipe column and a steel beam according to the present invention.

The joining structure of the hollow steel pipe column and the steel beam according to the present invention includes a hollow steel pipe column 1, a first shaft joining member 10 joined to both surfaces of the first shaft of the hollow steel pipe column 1, A second shaft joint member 20 joined to both surfaces of a second shaft orthogonal to the first shaft of the steel pipe column 1 and a second shaft joint member 20 joined to the first shaft joint member 10 via a second shaft joint member 20 And a steel material beam (2) joined to the hollow steel tube column (1).

The hollow steel tube column 1 may be formed as a single member in which a hollow is formed in the longitudinal direction in the cross section and may be a built-up column made of a plurality of members.

FIG. 1A is a perspective view of a hollow steel tube column with a first axial joint member. FIG.

The first shaft joint member 10 is vertically projected at a central portion of the column joint plate 11 and has a column joint plate 11 joined at both ends so as to protrude in the width direction of the hollow steel column 1, (12) joined to the web of the web (2).

The column joint plate 11 and the beam joint plate 12 of the first shaft joint member 10 are designed to accommodate the cross section of the steel beam 2 joined to both sides of the hollow steel column 1. The joining of the column joint plate 11 and the column and the joining of the joining plate 12 and the beam can be performed by any method known in the art. 1C, the column joint plate 11 is welded to the hollow steel column 1, the upper and lower flanges of the steel beam 2 are welded to the column joint plate 11, The web of the beam 2 is bolted to the beam connecting plate 12. However, the present invention is not limited to this, and the upper and lower flanges of the steel beam 2 may be bolted to the column joint plate 11 through a separate angle member. In this way, the steel beam 2 is joined to the hollow steel tube column 1 by means of the first shaft joining member 10 by simple joining or simple joining.

1B is a perspective view in which first and second axial joint members are installed on a hollow steel pipe column.

When the first shaft joint member 10 is installed on the hollow steel tube column 1 as shown in FIG. 1A, the second shaft joint member 20 is installed as shown in FIG. 1B.

As long as both ends of the second shaft joint member 20 are spaced apart from each other in the longitudinal direction of the hollow steel tube column 1 within the height of the column joint plate 11 and joined to the protruded extended portion of the column joint plate 11 And a pair of horizontal stiffeners 21 and 21.

It is preferable that the inner edges of the pair of horizontal stiffeners 21 and 21, that is, the corner portions joined to the column joint plate 11 and the steel pipe column 1 are cut into a fan shape to avoid stress concentration.

The pair of horizontal stiffeners 21 and 21 are means for preventing the buckling of the hollow steel tube column 1 and for easily joining the beam to the column. To this end, the spacing distance of the horizontal stiffener 21 is designed to correspond to the height of the beam joined to the column within the height of the column joint plate 11. For example, the distance between the horizontal stiffeners 21 may be greater than the distance between the upper and lower flanges of the steel beam 2 to be joined, so that the steel beam 2 can be inserted between the horizontal stiffeners 21 , The distance between the horizontal stiffener 21 and the upper and lower flanges of the steel beam 2 to be jointed may be the same.

The steel beam 2 to be joined to the second shaft of the column 1 is joined to the pair of horizontal stiffeners 21 and 21 by bolting or welding so as to be joined by strong joining, simple joining or semi-joining.

FIG. 1C is a perspective view of a beam joined to a hollow steel tube column through a beam joint structure according to the present invention. FIG.

In the structure using hollow steel tube columns, beams and columns are difficult to transmit loads when the joints break prematurely due to stress concentration causing deformation.

The joining structure of the hollow steel pipe column and the steel beam according to the present invention is such that the column joint plate 11 is attached to the outer surface of the hollow steel pipe column 1 to increase the thickness thereof and the horizontal stiffener 21 is installed The buckling is prevented so that the joining portion of the column has a sufficient rigidity and proof stress while the joining between the column and the beam is simplified, thereby improving the workability.

The steel beam 2 is joined to the hollow steel tube column 1 via the first shaft joint member 10 and the second shaft joint member 20 and the joint member 10 and the second shaft joint member 20 ) And the steel beam 20 can be joined with any joining structure known in the art, that is, steel joining, simple joining and semi-joining, and the joining method can be selected from the group consisting of workability, Can be selected.

FIG. 2 is a perspective view of a joint structure of a hollow steel pipe column and a steel beam according to another embodiment of the present invention, and FIG. 3 is a perspective view of a joint structure of a hollow steel pipe column and a steel beam according to another embodiment of the present invention.

Although the hollow steel pipe column 1 having a rectangular cross-section is described and illustrated, the present invention is not limited thereto, and a plurality of steel plates may be welded together to form a rectangular cross-section. In addition, it is also possible to use a hollow steel pipe column 1a configured to face the ribbed channel member shown in Fig. 2 or a hollow steel pipe column 1b made of a plurality of steel plates shown in Fig. 3, It can be applied to a column having a cross section. Also, although not shown, the hollow of the hollow steel tube columns 1, 1a, 1b is filled with concrete and can be applied to a CFT column and a CFT structure.

As described above, according to the present invention, steel plate reinforcement and stiffener are provided at the joining portion of the column, so that the column joining portion is reinforced to have sufficient rigidity and proof strength, and joining of the column and the beam is simplified.

In addition, the beam can be installed at any position of the column by a simple method, and the detail of the joint is simple, so that the workability can be improved and the cost of the joint can be reduced.

In addition, the length of the diaphragm protruding outwardly of the column can be reduced as compared with the conventional outer diaphragm. Thus, when building the underground structure by the top-down type, the diameter of the diaphragm for installing the column can be reduced.

Although the present invention has been described in detail with reference to the disclosed embodiments, those skilled in the art will be able to make various modifications and alterations without departing from the technical idea of the present invention will be. This invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: first shaft joint member 11: column joint plate
12: Beam joining plate 20: Second shaft joining member
21: Horizontal Stiffener 1: Hollow Steel Pipe Column
2:

Claims (5)

A hollow steel tube column 1,
A first shaft joint member 10 joined to both surfaces of the first shaft of the hollow steel tube column 1,
A second shaft joining member 20 joined to both surfaces of a second shaft orthogonal to the first shaft of the hollow steel tube column 1,
And a steel beam (2) joined to the hollow steel tube column (1) through a first shaft joint member (10) and a second shaft joint member (20)
The first shaft joint member (10)
(11) having a rectangular cross section extending at both ends in the width direction so as to protrude from the hollow steel pipe column (1) by a predetermined length and joined to the steel pipe column (1) And a beam connecting plate (12) protruded to be engaged with the web of the steel beam (2)
The second shaft joint member (20)
The columnar joint plates 11 are spaced apart from each other in the longitudinal direction of the hollow columnar pipe 1 in the height of the columnar joint plate 11 so that both ends thereof are joined to the projected extended portions of the columnar joint plate 11, Wherein the inner edge joined to the steel pipe (1) is cut into a fan shape and is composed of a pair of horizontal stiffeners (21, 21) to which the upper and lower flanges of the steel beam (2) Joint structure of beams. The method according to claim 1,
In the hollow steel tube column 1,
Wherein the steel pipe is a single member having a rectangular cross section. The method according to claim 1,
In the hollow steel tube column 1,
And the channel member having the ribs are abutted against each other. The method according to claim 1,
In the hollow steel tube column 1,
Wherein a plurality of steel plates are joined together by welding to form a hollow section of hollow steel tube columns and steel beams. 5. The method according to any one of claims 1 to 4,
Wherein the hollow of the hollow steel pipe column (1) is filled with concrete. The structure of the joint between the hollow steel pipe column and the steel beam.

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