KR20060107735A - Reinforcement structure of cft column and beam setting flat bar in steel pipe - Google Patents

Abstract

The present invention relates to a concrete filled steel tube column and beam joint reinforcement structure, and more specifically to the internal reinforcing plate to increase the adhesion area with the concrete filled in the steel pipe inside the concrete filled steel tube column to bond the shear reinforcement effect of the joint The present invention relates to a concrete filled steel tube column and beam joint reinforcement structure to increase the moment reinforcing effect of the joint by applying a cross diaphragm and to promote the filling of concrete.

The present invention has a technical feature of shear strengthening by joining the inner reinforcing plate consisting of a vertical plate and a stud bolt bonded to both sides of the vertical plate on the inner surface of the concrete filled steel pipe column. That is, the vertical plate of the internal reinforcing plate is joined to the concrete filled steel pipe column in the longitudinal direction and the stud bolts are bonded to both sides of the vertical plate at a predetermined interval so that the stud bolt is located a certain distance away from the concrete filled steel pipe column. will be. The adoption of such internal reinforcement plate allows to expand the volume of concrete bound to the stud bolt 15 than when the stud bolt is directly bonded to the concrete filled steel pipe column.

CFT, Connection, Moment Reinforcement, Shear Reinforcement, Stud Bolt

Description

Reinforcement structure of CFT column and beam setting flat bar in steel pipe}

1 is a view showing a shear reinforcing structure of a conventional concrete filled steel pipe column and cheolgolbo junction.

2 is a view showing a moment reinforcing structure of the conventional concrete filled steel pipe column and the cheolgolbo junction.

3 is a partial cutaway perspective view (a), a cross-sectional view (b) and a longitudinal cross-sectional view (c) of an embodiment according to the invention (filled concrete omitted).

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

10: internal reinforcing plate 20: connecting bracket

11: vertical plate 15: stud bolt

SP: Concrete Filled Steel Pipe Column

PC: Precast Concrete Beam PC-20: Insertion Groove

The present invention relates to a concrete filled steel tube column and beam joint reinforcement structure, and more specifically to the internal reinforcing plate to increase the adhesion area with the concrete filled in the steel pipe inside the concrete filled steel tube column to bond the shear reinforcement effect of the joint The present invention relates to a concrete filled steel tube column and beam joint reinforcement structure to increase the moment reinforcing effect of the joint by applying a cross diaphragm and to promote the filling of concrete.

CFT is an abbreviation of Concrete Filled Steel Tube and refers to concrete filled steel pipe filled with concrete in round or square steel pipe. CFT is a structure that adopts CFT to pillar member among main structural members of frame to resist high axial force. CFT structure shows excellent performance in various aspects such as fire resistance and construction as well as structural aspects such as rigidity, strength, and deformation as steel pipes constrain concrete.

This CFT structure is a new structure system that has been recently developed. In the United States and Japan, relatively many studies have been conducted and applied to the site smoothly. However, the results of the research have been insignificant in Korea and few cases have been applied to the site. to be. However, due to the advantages of the CFT structure as described above, in recent years, various studies and construction cases on this trend is increasing in Korea.

Until now, the research on CFT structure system is mainly used as pillar member using excellent axial compression performance in civil engineering and construction field, and research on joining performance of steel pipe and concrete in CFT member, and research on joints. In particular, in the case of building structures, as a study on the behavior characteristics of the column member in the moment flexible frame, the research on the coupling method in the case where the cheolgolbo penetrates the CFT column has been conducted.

In the CFT structure, the beams and columns are difficult to transmit the loads because all the loads are transmitted at the joints, so the steel pipes are locally broken by the force acting on the beams, or the joints are broken early due to the stress concentration causing local deformation of the steel pipes. For this reason, it is essential to make proper reinforcement to ensure that the joints of the columns and beams have sufficient rigidity and strength. Forms of concrete filled steel tube column-beam connection reinforcement method can be divided into shear reinforcement and moment reinforcement, Figures 1 and 2 shows a shear reinforcement structure and moment reinforcement structure that has been conventionally applied.

As shown in FIG. 1, in the prior art, an iron plate addition reinforcement method of increasing the thickness by applying an iron plate to the outer surface of the concrete filled steel and the pillar for shear reinforcement ((a) of FIG. 1), or the inner surface of the concrete filled steel pipe pillar A stud bolt joint reinforcing method for joining the stud bolts has been adopted (Fig. 1 (b)). However, this conventional technique has a problem in application when a large shear force is applied, such as long span beams. In other words, in the case of the reinforcing method of the steel plate, the problem of deterioration of weldability and economical efficiency was accompanied by the demand of the steel plate having a considerable thickness. Since the impact reinforcement range is limited to the inner side of the steel pipe to which the stud bolts are joined, there is a problem that the shear force of the beam is not sufficiently transmitted to the inside of the concrete filled steel pipe.

On the other hand, as shown in Fig. 2 has conventionally adopted a diaphragm method of inserting a diaphragm in the joint portion in order to reinforce the moment. Conventional diaphragm method can be divided into the inner diaphragm method, the outer diaphragm method and the through-type diaphragm method according to the insertion position of the diaphragm.

The inner diaphragm method as shown in FIG. 2 (a) is a type in which a diaphragm is inserted into a steel pipe and welded to the steel pipe, and the appearance is simple, so that the diaphragm can be easily manufactured and stress is clearly transmitted. However, in case of using the existing cold-formed square steel pipe which is not built-up steel pipe type, it is difficult to insert the inner diaphragm, so the steel pipe has to be cut and welded again. In the case where the thickness is relatively large compared to the thickness, excessive tensile stress occurs in the thickness direction on the surface of the steel pipe which is in contact with the beam, and there is a disadvantage that the joint may cause premature brittle fracture by Lamella tearing.

The outer diaphragm method is a method in which a separate joint is installed by welding or the like in accordance with the shape of the cheolgolbo to be bonded as shown in (b) of FIG. This has a disadvantage that the complex appearance is difficult to manufacture and install the diaphragm and difficult to follow-up work such as finishing work.

The through diaphragm method as shown in FIG. 2 (c) has the advantage that the diaphragm is easy to manufacture and the stress transmission is clear since the steel pipe is cut in the transverse direction and penetrated through the diaphragm to weld with the steel pipe. It's the way it's being adopted. However, since this structure is a diaphragm that divides steel pipe columns laterally, the amount of work for column processing at the joint is increased, and the complexity of the compression side joint is considerably complicated when using beams having different beams because the construction complexity and field welding are required. It has a disadvantage of poor workability and an increase in the unit cost.

The present invention has been made to improve the above-described problems, the shear reinforcement in the vertical vertically bonded to the stud bolts on both sides on the inner surface into the concrete filled steel pipe to sufficiently transfer the shear force of the beam into the concrete filled steel pipe column The purpose of the present invention is to provide a reinforcing structure of concrete filled steel pipe columns and beam joints which increases the yield load of concrete by expanding the volume of concrete constrained to the stud bolts by reinforcing plate.

Another object of the present invention is to provide a reinforcing structure of a concrete-filled steel tube column and beam joint having a simple appearance by adopting a cross-shaped plate as an internal diaphragm in the moment reinforcement, which can effectively transfer stress without changing the shape of the joint.

The present invention to achieve the above object as a reinforcing structure for reinforcing concrete filled steel pipe column and beam joint,

An inner reinforcing plate bonded to an inner surface of the concrete filled steel pipe column; And,

It is connected to the outer surface of the concrete filled steel pipe column to fix the beam to the concrete filled steel pipe column, the connecting bracket disposed to face the inner stiffening plate; including,

The internal reinforcing plate, the vertical plate is joined to stand in the longitudinal direction on the concrete filled steel pipe column; And stud bolts bonded to both sides of the vertical plate at predetermined intervals along a longitudinal direction.

The beam is a precast concrete beam, the connecting bracket is made of a square steel pipe is joined to the concrete filled steel pipe column at a position coinciding with the lower surface of the precast concrete beam,

The precast concrete beam provides a reinforcing structure of the concrete-filled steel pipe column and beam joints, characterized in that the insertion groove for inserting the connection bracket made of the square steel pipe is formed on the bottom end end.

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

The present invention is bonded to the inner reinforcing plate 10 consisting of a vertical plate 11 and the stud bolt 15 bonded to both sides of the vertical plate 11 on the inner surface of the concrete filled steel pipe pillar (SP) at a predetermined spacing reinforcement shear. It has its technical features. That is, the vertical plate 11 of the internal reinforcing plate 10 is joined to the concrete filled steel pipe pillar (SP) in the longitudinal direction to be bonded to the stud bolts 15 are bonded to both sides of the vertical plate 11 at predetermined intervals. The stud bolt 15 is to be located a certain distance away from the concrete filled steel pipe pillar (SP). The adoption of the internal reinforcing plate 10 allows to expand the volume of the concrete bound to the stud bolt 15 than when the stud bolt 15 is directly bonded to the concrete filled steel pipe pillar (SP). As a result, the beam shear force can be sufficiently transmitted to the inside of the concrete filled steel pipe pillar (SP) by the internal reinforcing plate 10, and as a result, the yield load of the joint is increased to complete the stable structure. As a result of the structural analysis, the yield load was increased by 60% when the internal reinforcing plate 10 was adopted.

In order to connect and fix the beams to the concrete filled steel pipe pillars (SP), a connecting bracket 20 is required, and FIG. 3 is used to connect and fix them to the concrete filled steel pipe pillars (SP) according to the adoption of precast concrete beams (PC). Shows the configuration of the connecting bracket (20).

The connecting bracket 20 is made of a square steel pipe and bonded to the concrete filled steel pipe pillar SP at a position corresponding to the lower surface of the precast concrete beam PC. In this case, butt welding is preferably applied. Do. The precast concrete beam (PC) should be connected to and fixed to the connection bracket 20, such as the precast concrete beam (PC) is an insertion groove into which the connection bracket 20 made of the square steel pipe is inserted into the bottom of the end. (PC-20) is adopted to form. That is, the shear reinforcing structure of the connection between the concrete filled steel pipe pillar (SP) and the precast concrete beam (PC) by seating the precast concrete beam (PC) to the connecting bracket 20 of the square steel pipe through the insertion groove (PC-20) Will be completed.

Although the present invention has been described in detail by the embodiments described above, those skilled in the art to which the present invention pertains will be capable of various substitutions, additions and modifications without departing from the technical spirit described above. It is to be understood that such modified embodiments also fall within the protection scope of the present invention as defined by the appended claims below.

According to the present invention as described above, in the reinforcement of the stud bolts reinforced with a vertical internal reinforcing plate bonded to the stud bolts on both sides of the inner side of the inside of the concrete filled steel pipe to sufficiently transfer the shear force of the beam into the concrete filled steel pipe column The yield load of the concrete is increased by expanding the volume of concrete constrained to the bar, resulting in a structurally stable reinforcing structure.

In addition, the present invention in the moment reinforcement by using the cross-shaped plate as the internal diaphragm can be effectively transmitted stress without changing the shape of the joint is completed by the reinforced structure of the concrete filled steel pipe column and beam joint having a simple appearance.

Claims (1)

As a reinforcement structure for reinforcing concrete filled steel pipe columns and beam joints, An inner reinforcing plate bonded to an inner surface of the concrete filled steel pipe column; And, It is connected to the outer surface of the concrete filled steel pipe column to fix the beam to the concrete filled steel pipe column, the connecting bracket disposed to face the inner stiffening plate; including, The internal reinforcing plate, A vertical plate joined to the concrete filled steel pipe column in the longitudinal direction; And stud bolts bonded to both sides of the vertical plate at predetermined intervals along a longitudinal direction. The beam is a precast concrete beam, the connecting bracket is made of a square steel pipe is joined to the concrete filled steel pipe column at a position coinciding with the lower surface of the precast concrete beam, The precast concrete beam reinforcement structure of the concrete-filled steel tube pillar and beam joint using an internal reinforcing plate, characterized in that the insertion groove for inserting the connection bracket made of the square steel pipe is formed on the bottom end.

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