KR20130053172A - Connection structure for concrete filled tubular column and flatplate - Google Patents

Abstract

PURPOSE: A connection structure of a concrete filled steel pipe column and a flat plate is provided to improve the bonding strength of the concrete filled steel pipe column and the flat plate, and to improve workability. CONSTITUTION: A connection structure of a concrete filled steel pipe column(10) and a flat plate comprises a shear reinforcement unit(110) and a fixing member(130). The shear reinforcement unit is included in a bonding position of the concrete filled steel pipe column and the flat plate, and increases the shear intensity of the bonding position including a shear connector. The shear connector is connected to the outer surface of the concrete filled steel pipe column. The fixing member fixes a reinforcing bar(20) to the concrete filled steel pipe column.

Description

CONNECTION STRUCTURE FOR CONCRETE FILLED TUBULAR COLUMN AND FLATPLATE}

The present invention relates to a joint structure of a concrete-filled steel tube pillar and a flat plate, and more particularly to a joint structure of a concrete-filled steel tube pillar and a flat plate with improved joint strength and workability.

Concrete Filled Steel Tube (CFT) is a concrete filled steel tube that is filled with concrete in a round or square steel pipe to constrain concrete. One structure is called concrete filled steel pipe structure.

Concrete filled steel pipe structure is structurally stable, such as stiffness, strength, and deformation, and has excellent advantages in fire resistance, construction, and cost, and thus, various studies are being conducted to apply it to the site.

In general, the flat plate structure is a system without a beam, and has been widely applied because of excellent air shortening and floor vibration. However, the flat plate structure must have sufficient performance against the design load due to the vulnerability to punching shear.

That is, in the flat plate structure, as the load is applied, the crack on the tensile side is generated, and the yielding of the rebar is accompanied. The connection between the concrete filled steel pipe column and the reinforced concrete flat plate lacks the structural element to transmit the shear force resulting from the gravity load of the floor, which causes fracture by the punching shear. At the junction, consideration should be given to the introduction of a shear key to resist punching shear in any form.

On the other hand, there is a method of penetrating the reinforcing bar to the pillar as a method of fixing the reinforcing bar reinforcement to the conventional flat plate on the surface of the concrete filled steel pipe pillar. However, in the conventional method of penetrating a reinforcing bar to a column, the workability may be deteriorated when the diameter of the column is large, and interference between the retreat penetrating the column and the retreat tube used for placing concrete on the column, such as a basement top-down method, may occur. There is a problem.

In addition, there is a method of joining the rebar of the flat plate to the steel pipe pillar surface by welding in the field. However, since the slab reinforcement of the flat plate must be made at the same time, there is a problem that the work efficiency decreases because of a lot of field work, and in the case of the basement floor, the weldability may be degraded because it is wet.

The present invention has been proposed in order to solve the conventional problems as described above, the object of the aspect is that the shear force and moment caused by the load acting on the flat plate has a load path that is transmitted to the concrete-filled steel pipe pillar to join the joint It is to provide a joint structure of a concrete-filled steel tube column and a flat plate to improve strength.

In another aspect, an object of the present invention is to provide a joining structure of a concrete-filled steel pipe pillar and a flat plate to improve the workability when fixing the reinforcing steel reinforcement to the flat plate to the concrete-filled steel pipe pillar.

As a technical aspect for achieving the above object, the present invention, in the joining structure of the flat plate of the concrete filled steel pipe pillar and reinforcement, is provided at a position where the concrete filled steel pipe pillar and the flat plate are bonded, A shear reinforcing part including a shear connecting material bonded to an outer surface of the concrete-filled steel pipe pillar to increase the shear strength of the joint portion; and the end of the reinforcing rod is screwed to the outer surface of the concrete-filled steel pipe pillar to thereby recognize the reinforcing bar. It provides a bonding structure of the concrete-filled steel pipe pillar and the flat plate comprising a; fixing member for fixing to the concrete-filled steel pipe pillar.

Preferably, the rebar is formed with a first screw thread on the outer circumferential surface of the end, the fixing member is formed on the fastening means to be joined to the outer surface of the concrete filled steel pipe pillar, and the end of the reinforcement means is inserted And a through-hole formed on the inner circumferential surface of the second screw thread corresponding to the first screw thread.

Meanwhile, preferably, the shear connecting member may be formed with a plurality of first through holes.

Preferably, the shear reinforcing portion is bonded to the lower portion of the shear connecting member, it may include a lower flange disposed in parallel with the flat plate.

In this case, the lower flange may be provided to be in contact with the reinforcing bar to support the reinforcing bar.

Preferably, the shear reinforcing unit, a vertical plate coupled to the shear connecting member; and a horizontal plate bonded to the lower portion of the vertical plate, coupled to one side of the lower flange; may further include a.

Meanwhile, preferably, the shear connecting member has a first through hole, and the vertical plate has a second through hole formed at a position corresponding to the first through hole to be bolted to the shear connecting material.

According to the bonded structure of the concrete-filled steel pipe pillar and the flat plate of the present invention, the shear-filling force and moment caused by the load acting on the flat plate through the shear reinforcing portion provided on the outer surface of the concrete-filled steel pipe pillar Having a load path to the column provides the effect of improving the joint strength of the joint.

In addition, according to an embodiment of the present invention, by fixing the flexural reinforcement or post shear reinforcement reinforced to the flat plate by the fixing member to the concrete-filled steel pipe pillar, it is possible to simply fix the steel rod to the steel pipe pillar by screwing It can be, and there is an advantage that can be fixedly fixed without restrictions on the size and shape of the column. Therefore, it is possible to obtain an effect of improving the workability when joining the concrete-filled steel pipe pillar and flat plate.

1 is a perspective view showing the details of the junction structure of the concrete-filled steel pipe pillar and flat plate according to an embodiment of the present invention.
Figure 2 is an exploded perspective view showing a fixing member of the bonded structure of the concrete-filled steel pipe pillar and flat plate according to an embodiment of the present invention.
3 is a side view illustrating a state in which the fixing member of FIG. 2 is coupled.
Figure 4 is a perspective view showing the details of the junction structure of the concrete-filled steel pipe pillar and flat plate according to another embodiment of the present invention.
5 is a side view of Fig.
Figure 6 is a perspective view showing the details of the junction structure of the concrete-filled steel pipe pillar and flat plate according to another embodiment of the present invention.
7 is a side view of the junction structure shown in FIG.
8 is a perspective view showing a bonding structure of a concrete-filled steel pipe pillar and a flat plate 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 features of the bonded structure of the concrete filled steel pipe pillar and flat plate of 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 joint structure of the concrete-filled steel pipe pillar and the flat plate according to an embodiment of the present invention relates to a joint structure of the flat-filled steel plate and the flat plate reinforces the concrete filled steel pipe to confine the concrete by filling the steel pipe.

Bonding structure 100 of the concrete-filled steel pipe pillar and flat plate according to an embodiment of the present invention, as shown in Figure 1, comprises a shear reinforcing portion 110 and the fixing member 130 Can be.

At this time, the concrete filled steel pipe is not limited to the square steel pipe, as shown in the embodiment shown in Figures 1 to 8, if the flat plate 30 can be bonded various modifications are possible, for example circular It can be a steel pipe.

On the other hand, the shear reinforcing portion 110 is provided at a position where the concrete filled steel pipe pillar 10 and the flat plate 30 is bonded, the shear connection member bonded to the outer surface of the concrete filled steel pipe pillar (10) ( 111) to increase the shear strength of the joint.

That is, the shear reinforcement unit 110 has a shear connector 111 serving as a shear key and serves to transfer the shear force resulting from the gravity load to the pillar.

Specifically, the shear connector 111 is installed to protrude from the concrete filled steel pipe pillar 10 as shown in the embodiment shown in Figure 1 may be embedded in a flat plate of concrete. Accordingly, the shear force and the moment generated by the gravity load acting on the flat plate by the shear connector 111 can be effectively transmitted to the column. Therefore, the flat plate around the concrete-filled steel pipe column 10 can be prevented from breaking the punching shear.

On the other hand, the fixing member 130 as shown in Figures 1 to 3, the end of the reinforcing bar 20 is screwed to the outer surface of the concrete-filled steel pipe column 10 by the screw 20 ) Can be fixed to the concrete filled steel pipe pillar (10).

In this case, the reinforcing bar 20 may be a flexural reinforcing bar reinforcement to the flat plate 30, or post shear reinforcing reinforcing bars are installed to reinforce the shear force around the concrete-filled steel pipe column (10).

In addition, the fixing member 130 may be provided on the outer surface of the concrete filled steel pipe pillar 10, the reinforcing bar 20 is the end of the concrete-filled steel pipe pillar by screwing to the fixing member 130 ( 10) can be fixed. That is, the reinforcing bar 20 may be coupled in a simple process by screwing to the outer surface of the concrete-filled steel pipe pillar 10 without penetrating the concrete-filled steel pipe pillar 10.

The joint structure 100 of the concrete-filled steel pipe pillar and the flat plate according to an embodiment of the present invention, such as a flat plate by the shear reinforcing portion 110 provided on the outer surface of the concrete-filled steel pipe pillar (10) The shear force and the moment caused by the load acting on the 30) has a load path transmitted to the concrete-filled steel pipe column 10 through the shear reinforcement 110, thereby improving the joint strength of the joint. .

In addition, the end of the reinforcing bar 20 reinforcement to the flat plate 30 by the fixing member 130 can be easily mounted by screwing to the concrete filled steel pipe pillar (10). In addition, since the end of the reinforcing bar 20 is bonded to the outer surface of the concrete filled steel pipe pillar 10, unlike when installing the reinforcing bar 20 through the concrete filled steel pipe pillar 10, There is no fear of interference between the tremi tube and the flexural reinforcing bar, and even if the diameter of the steel pipe pillar 10 is small or large, it is possible to secure workability without being affected.

Therefore, the present invention can improve the workability at the time of joining the steel pipe column 10 and the flat plate 30 while improving the bonding strength of the concrete-filled steel pipe pillar 10 and the flat plate 30.

On the other hand, the reinforcing bar 20, the first screw thread 21 is formed on the outer peripheral surface of the end, the fixing member 130, the fastening means 131 is joined to the outer surface of the concrete filled steel pipe pillar (10) And a through hole 133 formed in the fastening means 131 to insert an end of the reinforcing bar 20 and having a second screw thread 134 corresponding to the first screw thread 21 on an inner circumferential surface thereof. have.

That is, as shown in the embodiment shown in Figures 2 and 3, the rebar 20 may be a first screw thread is processed at the end portion that is fixed to the concrete filled steel pipe pillar (10).

In addition, the fastening means 131 may be joined to the outer surface of the concrete-filled steel pipe pillar 10 by welding or the like, and a through hole 133 may be formed inside the fastening means 131. . In addition, a second screw thread 134 having a shape corresponding to the first screw thread 21 is formed on an inner circumferential surface of the through hole 133 so that an end of the rebar 20 is screwed to the fastening means 131. It may be provided.

That is, the fastening means 131 may be provided in the form of a nut or a coupler, for example, may be bonded to the outer surface of the concrete-filled steel pipe pillar 10 by welding or the like and transferred to the site. And in the field by screwing the rebar 20, the first screw line is processed to the fastening means 131, it is possible to fix the end of the reinforcement 20 to the concrete-filled steel pipe column 10 in a simple process. .

On the other hand, the shear connecting member 111 may be formed with a plurality of first through holes 113.

The plurality of first through holes 113, as shown in the embodiment shown in Figure 1, is formed in the shear connecting member 111 to increase the coupling force of the concrete-filled steel pipe pillar 10 and the flat plate 30. You can.

That is, a plurality of the first through holes 113 are formed in the shear connector 111 so that the concrete is filled in the first through holes 113 when the flat plate 30 is filled with concrete. Concrete filled in the first through-hole 113 may be cured in an integrated state with the concrete of the flat plate (30). Accordingly, the bonding force between the concrete-filled steel pipe pillar 10 to which the shear connector 111 is bonded and the flat plate 30 is increased to maximize the shear force reinforcement effect due to the shear connector 111.

In this case, the plurality of first through holes 113 is preferably formed to be spaced apart at a predetermined interval in the longitudinal direction of the shear connecting member 111, as shown in the embodiment, but is not limited to the case shown It can be modified in the form.

On the other hand, Figure 4 and 5 is shown the junction structure 100 of the concrete-filled steel pipe pillar and flat plate according to another embodiment of the present invention.

4 and 5, the shear reinforcing part 110 may include a lower flange 115 joined to a lower portion of the shear connecting member 111 and disposed in parallel with the flat plate 30. .

That is, referring to the embodiment of FIG. 4, the shear reinforcement 110 has a lower flange 115 in a horizontal direction at the bottom of the shear connection member 111 joined to the concrete-filled steel pipe pillar 10 in a vertical direction. Joined may be provided in a '⊥' shape.

Accordingly, the punching shear strength of the joint portion of the concrete-filled steel tube pillar 10 and the flat plate 30 can be further increased. In particular, the slab provided to the flat plate 30 is formed in the compression zone at the position 1/4 times the effective thickness of the slab (see Fig. 5) from the lower surface, the lower flange 115 is located on the compression surface As a result, it is possible to obtain a compression reinforcement effect. Therefore, it is possible to prevent the compressive breakage of the compression zone of the slab can further increase the shear strength of the junction of the steel pipe column 10 and the flat plate 30.

In this case, the lower flange 115 may be provided to be in contact with the reinforcing bar 20 to support the reinforcing bar 20 from the bottom.

That is, although not shown, it is installed so as to contact the reinforcing bar 20 when the lower flange 115 is installed, the reinforcing bar (11) to the lower flange 115 is protruded by a predetermined length from the concrete filled steel pipe pillar (10) As the 20 is mounted, the end of the rebar 20 may be supported.

Accordingly, the punching shear strength by the reinforcing bar 20 bonded to the periphery of the concrete-filled steel pipe pillar 10 can be further enhanced.

On the other hand, Figure 6 to Figure 8 shows the junction structure 100 of the concrete-filled steel pipe pillar and flat plate according to another embodiment of the present invention. FIG. 6 is a perspective view illustrating a joint structure of a concrete-filled steel tube pillar and a flat plate according to another embodiment of the present invention, FIG. 7 is a side view of the joint structure shown in FIG. 6, and FIG. 8 is a flat plate constructed in FIG. 6. It is a perspective view which shows the state.

 6 to 8, the shear reinforcing part 110 is joined to the vertical plate 117 and the vertical plate 117 coupled to the shear connecting member 111 and the lower flange 115. It may further include a horizontal plate 119 coupled to one side of the.

That is, the vertical plate 117 is bonded to the shear connection member 111 that is vertically bonded to the concrete filled steel pipe pillar 10 may be joined to stand in the longitudinal direction of the concrete filled steel pipe pillar (10).

In addition, the horizontal plate 119 is bonded to the lower portion of the vertical plate 117 as shown in the embodiment and is coupled to one side of the lower flange 115, in the width direction of the concrete filled steel pipe pillar (10) Can be bonded.

As described above, another embodiment of the present invention is coupled to the vertical plate 117 and the horizontal plate 119 to form a '⊥' shape in the shear reinforcement 110 of the embodiment shown in FIGS. 4 and 5. This can be in a more attached form. Accordingly, the bonded structure 100 of the concrete-filled steel pipe pillar and the flat plate according to another embodiment of the present invention further improves the resistance to shear force at the joint portion, as well as the concrete-filled steel pipe pillar 10 and the The integrity of the flat plate 30 can be further increased.

On the other hand, the shear connector 111 is provided with a first through hole 113, the vertical plate 117 is formed with a second through hole 118 at a position corresponding to the first through hole 113 It may be bolted to the shear connector 111.

1 to 5, the first through-hole 113 of the shear connecting member 111 is filled with concrete to be poured into the flat plate 30 inside the flat plate 30 and the above. While it serves to enhance the integrity of the shear connector 111, in the embodiment shown in Figures 6 to 8 may serve as a bolt hole for bolting the vertical plate 117.

That is, in the vertical plate 117, the second through hole 118 is formed at a position corresponding to the first through hole 113, and the shear connecting member 111 is brought into contact with the vertical plate 117. In the first through hole 113 and the second through hole 118 through the fastening member such as bolts to fasten the vertical plate 117 and the shear connector 111 can be easily and easily coupled. have.

However, the connection bonding form of the vertical plate 117 and the horizontal plate 119 is not limited to the shape shown in FIGS. 6 to 8, and is connected to the shear connecting member 111 and the lower flange 115. If the punching shear strength can be further reinforced, it can be modified in various forms.

When using the bonded structure of the concrete-filled steel pipe pillar and the flat plate of the present invention, the shear force and the moment caused by the load acting on the flat plate through the shear reinforcing portion provided on the outer surface of the concrete-filled steel pipe pillar is filled with the concrete Having a load path transmitted to the steel pipe column provides an effect of improving the joint strength of the joint.

In addition, by fixing the flexural bars and post shear reinforcing bars that are reinforced on the flat plate by the fixing member to the concrete-filled steel pipe columns, the steel bars can be simply fixed to the steel pipe columns by screwing, and the size and shape of the column There is an advantage that can be fixedly coupled without restriction. Therefore, the workability can be improved when the concrete-filled steel pipe pillar and the flat plate are joined.

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.

10: concrete-filled steel pipe pillar 20: reinforcing bars
30: flat plate 100: bonded structure of flat plate
110: shear reinforcement 111: shear connector
113: first through hole 115: lower flange
117: vertical plate 118: second through hole
119: horizontal plate 130: fixing member
131: fastening means

Claims (7)

In the joining structure of the flat plate in which the concrete-filled steel pipe column and the reinforcing bars are reinforced,
A shear reinforcing part provided at a position at which the concrete-filled steel pipe pillar and the flat plate are joined to each other, the shear reinforcing part including a shear connecting material bonded to an outer surface of the concrete-filled steel pipe pillar; And
A fixing member fixing the reinforcing bar to the concrete-filled steel pipe column by screwing an end portion of the reinforcing bar to the outer surface of the concrete-filled steel pipe column;
Joining structure of the concrete-filled steel pipe pillar and flat plate comprising a.
The method of claim 1,
The rebar, the first screw thread is formed on the outer peripheral surface of the end,
The fixing member includes a fastening means joined to an outer surface of the concrete-filled steel pipe pillar, and a through hole formed in the fastening means to insert an end of the reinforcing bar and having a second screw thread corresponding to the first screw thread on an inner circumferential surface thereof. Joined structure of the concrete-filled steel pipe pillar and flat plate comprising a.
The method of claim 1,
The shear connector is a joint structure of the concrete-filled steel pipe pillar and the flat plate, characterized in that a plurality of first through holes are formed.
According to any one of claims 1 to 3, wherein the shear reinforcing portion
Bonded structure of the concrete-filled steel pipe pillar and the flat plate is bonded to the lower portion of the shear connection material, characterized in that it comprises a lower flange disposed in parallel with the flat plate.
5. The method of claim 4,
The lower flange is provided in contact with the reinforcing bar is a joint structure of the concrete-filled steel pipe pillar and flat plate, characterized in that for supporting the reinforcement from the bottom.
The method of claim 4, wherein the shear reinforcing portion
A vertical plate coupled to the shear connector; And
A horizontal plate bonded to a lower portion of the vertical plate and coupled to one side of the lower flange;
Joining structure of the concrete-filled steel pipe pillar and flat plate further comprising a.
The method according to claim 6,
The shear connector has a first through hole,
Wherein the vertical plate, the second through hole is formed in a position corresponding to the first through hole bonded structure of the concrete-filled steel pipe pillar and flat plate, characterized in that bolted to the shear connector.

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