KR102075165B1 - Concrete filled tubular column and connecting structure of the same and construction method thereof - Google Patents

Abstract

The present invention provides a connection structure between the concrete filled steel pipe column and the concrete filled steel pipe pillar and a connection construction method thereof.
The concrete-filled steel pipe pillar is provided with an outer steel pipe having a hollow portion filled with concrete therein, an inner steel material disposed vertically in the outer steel pipe, and provided at both inner ends of the outer steel pipe, and joined vertically to an outer circumferential surface thereof. It includes a connecting steel pipe formed with a plurality of vertical plates connected to the outer steel pipe, the end of the inner steel, can be configured to be fixed to the end of the outer steel pipe by being fixed to the inner peripheral surface of the connecting steel pipe.

Description

CONCRETE FILLED TUBULAR COLUMN AND CONNECTING STRUCTURE OF THE SAME AND CONSTRUCTION METHOD THEREOF}

The present invention relates to a connection structure and a method of constructing the connection between the concrete filled steel pipe column and the concrete filled steel pipe pillar, and more specifically, even when a separate steel is disposed inside the steel pipe pillar of the upper and lower inner and outer steel pipes The present invention relates to a connection structure between a concrete-filled steel pipe column and a concrete-filled steel pipe column which facilitates connection, and a method of constructing the connection.

Reinforced concrete structure is a structure type that combines reinforcing steel with excellent tensile resistance and ductility and concrete with excellent compression resistance, forming, fire resistance and economic efficiency. Such reinforced concrete structure is composed of the main members such as columns, beams and walls in the building structure.In addition, the steel and concrete composite structure (Steel formed Reinforced Concrete System, SRC structure) or concrete filled steel pipe structure (Concrete-Filled Tabular System, CFT structure) is used.

In general, reinforced concrete structural systems using deformed reinforcing bars use vertical reinforcing bars that bear tensile stress, and transverse reinforcing bars to improve ductility due to shear stress and restraint effects.

By the way, the rebar processing and reinforcement work is mainly performed in the field, and the reinforcing steel field processing and assembly is a representative manpower-intensive process, the current cost and quality deterioration problem due to the aging of the workforce and rising labor costs. Efforts have been made to improve productivity and quality, such as reinforcing steel mills and prefabricated rebars. In addition, in order to improve the seismic performance of the reinforced concrete structure, the reinforcement details are complicated and the problem of concrete placing due to the excessive reinforcement of the reinforcement may occur.

In addition, the material cost and labor costs required for the formwork for concrete placement in the reinforced concrete structural system occupies a significant portion of the total column construction cost, there is a problem to increase the construction cost.

In this reinforced concrete structure, CFT structure is replaced by steel pipe by omitting reinforcing bar and formwork. In other words, the CFT structure is a structural system filled with concrete in a square or round steel pipe.

In the CFT structure, structurally high tensile steel is located at the outermost part of the member, which improves the bending performance and torsional performance of the member and enables the effective cross-sectional configuration due to the restraining effect of the internal concrete.

However, the CFT structure has a problem that the fire resistance is poor because the steel having a high thermal conductivity and the strength of the material rapidly decreases at a high temperature is located at the outermost side and is vulnerable to an external corrosive environment. Therefore, it is necessary to separately consider fire or corrosion, such as separately applying fireproof coating on the surface of the steel pipe.

In order to solve this problem, in order to improve the fire resistance performance of the CFT column, a separate steel (steel pipe or reinforcing steel) is placed on the concrete filled inside the steel pipe.

However, when a separate steel material is disposed inside the steel pipe, the separate inner steel material must be connected and bonded within the closed end of the steel pipe, so that the construction of the upper and lower pillars is not easy.

Therefore, when a separate steel material is disposed inside the CFT column, it is necessary to connect the steel materials disposed inside the outer steel pipe to easily connect the steel pipe joints, thereby improving the construction properties when joining the upper and lower steel pipes. .

On the other hand, in the conventional joint connection of the upper and lower pillars weld the plate for temporary assembly to the joint portion of the upper and lower pillars connected and bolted after welding the end of the upper and lower pillars, and when the welding joint is completed the temporary assembly The plate is in the process of removing. However, such a method of joining between pillars may cause a problem in that the joining process is cumbersome and material is wasted because of the attachment and removal of plates for temporary assembly in the field.

KR 10-2012-0074130 A

The present invention has been proposed in order to solve the conventional problems as described above, the object is that the inner steel is easily fixed to the outer steel pipe even when the inner steel is disposed inside the steel pipe pillar for improving the fire resistance performance, etc. To provide the connection structure of concrete-filled steel pipe column and concrete-filled steel pipe column, and the method of connection construction, which facilitates jointing of internal steel when joining the upper and lower columns and improves the constructability of steel pipe column connection. Is in.

The present invention as a technical aspect for achieving the above object, the outer steel pipe having a hollow portion is filled with concrete therein; An inner steel material disposed vertically in the outer steel pipe; An end plate installed to close an end of the outer steel pipe and having a through hole formed therein; Connecting steel pipes provided on both inner ends of the outer steel pipe and fitted into the through hole of the end plate and extending in an outer direction of the outer steel pipe; And a vertical plate joined vertically to protrude to an outer circumferential surface of the connecting steel pipe and having one end joined to the end plate and having a plurality of vertical plates formed at a predetermined interval around the outer circumferential surface of the connecting steel pipe. It is configured to be fixed to the end of the outer steel pipe by being fixed to the inner circumferential surface of the connecting steel pipe, the vertical plate provides a concrete-filled steel pipe pillar, characterized in that a plurality of bolt holes are formed, all are exposed to the outside.

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Preferably, the inner steel, it may be composed of a vertical reinforcing bar vertically reinforcement in the outer steel pipe and a band reinforcing the vertical reinforcing bars.

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On the other hand, the present invention as another aspect, in the connection structure of the concrete filled steel pipe pillar connected up and down, the concrete filled steel pipe pillar disposed up and down so that the end is joined; And a joining plate bolted to the vertical plate to connect neighboring vertical plates. The inner steel material and the outer steel pipe of concrete-filled steel pipe pillars connected up and down through the joining of the joining plate. It provides a connection structure of the concrete-filled steel pipe pillar, characterized in that for connecting.

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On the other hand, the present invention as another aspect, the step of producing a concrete-filled steel pipe pillar; and, the vertical plate of the upper steel pipe pillar and the vertical plate and the joining plate of the lower steel pipe pillar bolted to the upper and lower outer steel pipe Steel pipe column connection step for connecting the internal steel; And a concrete filling step of filling concrete inside the outer steel pipe.

According to the connection structure of the concrete-filled steel pipe column and the concrete-filled steel pipe pillar according to an embodiment of the present invention and the connection construction method thereof, by fixing the connection steel pipe at the end of the steel pipe pillar, to improve the fire resistance, etc. Even when the inner steel is disposed inside the column, the inner steel can be easily fixed and mounted on the outer steel pipe and the joints of the inner steel can be easily joined at the time of joining the upper and lower pillars, thereby improving the constructability of the steel pipe pillar connection. You can.

1 is a partial cutaway perspective view showing a connection structure of a concrete-filled steel pipe pillar according to an embodiment of the present invention.
Figure 2a and Figure 2b is a cross-sectional view of a concrete filled steel pipe pillar according to one embodiment of the present invention.
3 is an exploded cross-sectional view of FIG. 2A;
4A is a sectional view taken along line AA ′ of FIG. 2A;
4B is a cross-sectional view taken along line BB ′ of FIG. 3.
5 is a cross-sectional view showing a concrete-filled steel pipe pillar and its connection structure according to another embodiment of the present invention.
6 is a cross-sectional view taken along line CC ′ of FIG. 5.

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 connection structure of the concrete filled steel pipe pillar and the concrete filled steel pipe pillar of the present invention and the connection construction method thereof. However, the present invention is not limited to the technical features of the present invention by the embodiments described or applied to the embodiments described below, and various modifications are possible within the technical scope of the present invention.

Concrete filled steel pipe pillar 100 according to an embodiment of the present invention, as shown in Figures 1 to 4b, the outer steel pipe 110, the inner steel 130 and the connection steel pipe 150 Including, the end of the inner steel 130 through the connection steel pipe 150 may be configured to be fixed to the end of the outer steel pipe (110).

The outer steel pipe 110, the hollow portion 111 is filled with the concrete (C) is formed inside, it may be formed as a square steel pipe or a circular steel pipe.

The inner steel 130 may be disposed vertically inside the outer steel pipe (110). That is, it is reinforced vertically to the concrete filled in the inside of the outer steel pipe 110 to improve the strength of the concrete-filled steel pipe pillar 100 and improve the fire resistance performance.

At this time, if the inner steel 130 is disposed vertically in the interior of the outer steel pipe 110 can improve the strength of the steel pipe pillar, there is no limitation to the type, for example, vertical rebar 131 or steel pipe, etc. This can be variously applied. However, preferably, the inner steel 130, the vertical reinforcement 131 and the vertical reinforcement vertically reinforcement to the inside of the outer steel pipe 110 to improve the concrete filling properties inside the steel pipe pillar as shown in the illustrated embodiment It may be composed of a band reinforcing bar 133 surrounding the (131).

On the other hand, the connection steel pipe 150 is provided on both inner ends of the outer steel pipe 110, a plurality of vertical plates 160 are joined to the outer peripheral surface vertically and connected to the outer steel pipe 110 may be formed. .

That is, the connection steel pipe 150 is formed in a diameter smaller than the diameter of the outer steel pipe 110 may be installed into the inner side of the outer steel pipe 110 at the end of the outer steel pipe 110, the outer steel pipe 110 It may be inserted into the end of the) or fixedly mounted to expose a portion. However, preferably, as shown in the embodiment shown in Figures 1 to 4b may be installed so that a portion of the connection steel pipe 150 is exposed to the end, but is not limited thereto.

In addition, the vertical plate 160 may be vertically bonded to protrude to the outer circumferential surface of the connecting steel pipe 150, it may be formed in plurality at a predetermined interval around the outer circumferential surface of the connecting steel pipe 150. In this case, referring to FIG. 1, the vertical plate 160 may be installed at a position at which the beam 10 is bonded to facilitate the installation of the beam 10.

The vertical plate 160 may serve as a joining means for easily connecting the upper and lower steel pipe columns while increasing the strength of the connection part when connecting the concrete-filled steel pipe columns 100 up and down as will be described later. Can be.

On the other hand, the end of the inner steel 130 may be fitted to the inner circumferential surface of the connecting steel pipe 150. That is, the end of the inner steel 130 is bonded to the connection steel pipe 150 is installed on the end of the outer steel pipe 110, the inner steel 130 can be fixed to the end of the outer steel pipe 110. have.

Thus, the concrete-filled steel pipe pillar 100 according to an embodiment of the present invention, by fixing the connection steel pipe 150 to the end of the steel pipe pillar, to improve the fire resistance, such as the internal steel ( Even when 130 is disposed, the inner steel 130 is easily fixed to the outer steel pipe 110, and as shown below, the joints of the inner steel 130 are easily joined even when the upper and lower pillars are joined. It can play a role.

On the other hand, one embodiment of the present invention, the end of the outer steel pipe 110, the connection steel pipe 150 is penetrated, further comprises an end plate 120 is joined to one end of the vertical plate 160 can do.

That is, the end plate 120 is joined to the end of the outer steel pipe 110, as shown in the embodiment shown in Figures 1 to 3, the through-holes through which the connection steel pipe 150 is fitted to be formed. Can be. The end plate 120 may serve to connect and connect the connecting steel pipe 150 to the outer steel pipe 110 at the end of the outer steel pipe 110, and close the junction of the upper, lower steel pipe pillar It can facilitate the filling of concrete inside the outer steel pipe (110).

On the other hand, the vertical plate 160 is formed with a plurality of bolt holes 161 may be part or all exposed to the outside.

That is, as shown in the illustrated embodiment, the vertical plate 160 is formed through a plurality of bolt holes 161 to enable bolting of the vertical plate 160 of the upper and lower steel pipe columns as will be described later It is easy to connect and connect the upper and lower steel pipe columns. In addition, since some or all of the vertical plate is installed to be exposed to the outside, it is possible to facilitate the bolting operation when connecting the upper and lower steel pipe pillars.

On the other hand, with reference to the embodiment shown in Figures 1 to 4b, it will be described the connection structure and the connection construction method of the concrete filled steel pipe pillar according to another aspect of the present invention.

The connection structure of the concrete-filled steel pipe pillar of the present invention described below and its connection construction method are for connecting the concrete-filled steel pipe pillar 100 according to an embodiment of the present invention configured as described above up and down.

Specifically, the connection structure of the concrete-filled steel pipe pillars 100 according to the embodiment of the present invention, the concrete-filled steel pipe pillars 100 and vertically disposed so that the ends are joined, bolts 162 to the vertical plate 160 It may be configured to include a bonding plate 170 that is bonded to be bonded to, and adjacent to the vertical plate 160. Then, the inner steel 130 and the outer steel pipe 110 of the concrete-filled steel pipe pillar 100 connected up and down through the bonding of the bonding plate 170 is characterized in that at the same time.

That is, the bonding plate 170 may be vertically bonded to the connection steel pipe 150, such as the vertical plate 160, and may be face-bonded with the vertical plate 160 connected to the upper and lower. In addition, as shown in FIGS. 1 and 2A, the joining plate 170 may have a bolt hole 171 corresponding to the bolt hole 161 of the vertical plate 160 to be bolted to the vertical plate 160. Can be.

The vertical plate 160 may be bonded to the connection steel pipe 150 in advance in the factory or the field. Then, after connecting the concrete-filled steel pipe column 100 up and down so that the vertical plate 160 is disposed in a corresponding position, the joining plate 170 is bolted to the vertical plate 160 to upper and lower parts. The inner steel 130 and the outer steel pipe 110 may be connected at the same time. That is, since the inner steel 130 and the outer steel pipe 110 is connected and connected to the connection steel pipe 150, the vertical plate 160 provided in the upper, lower connection steel pipe 150, the bonding plate 170 By bolting through), the inner steel 130 and the outer steel pipe 110 provided at the upper and lower steel pipe pillars can be connected at the same time.

Accordingly, in the related art, when steel is disposed inside the steel pipe pillar, there is a problem in that it is difficult to connect the upper and lower inner steel materials 130 inside the closed section of the outer steel pipe 110 at the joint between the steel pipe pillars. According to the embodiment, since the connection of the inner steel 130 and the outer steel pipe 110 at the junction of the steel pipe pillar by using the connecting steel pipe 150 and the joining plate 170, it is possible to improve the workability.

On the other hand it will be described below the connection construction method of the concrete-filled steel pipe pillar 100 which is another aspect of the present invention.

Connection construction method of the concrete-filled steel pipe pillar 100 according to an embodiment of the present invention, the step of producing a concrete-filled steel pipe pillar 100 according to an embodiment of the present invention, the vertical plate 160 And connecting the steel plate pillar to connect the upper and lower outer steel pipe 110 and the inner steel 130 by bolting the joining plate 170, and the concrete filling to fill the concrete inside the outer steel pipe (110) It may include a step.

In the manufacturing step of the concrete-filled steel pipe pillar 100, the inner steel 130 is vertically disposed inside the outer steel pipe 110, and the ends of the outer steel pipe 110 and the inner steel through the connecting steel pipe 150. It may be performed by connecting the end of 130. The manufacturing step of the concrete-filled steel pipe pillar 100 may be prepared in advance before connecting the upper, lower steel pipe pillar, it may be carried out in a factory or a site.

In the connecting step of the upper and lower steel pipe pillars, the connection steel pipe 150 and the vertical plate 160 of the upper and lower steel pipe columns correspond to each other so as to correspond to each other, the joining plate 170 and the vertical plate 160 By bolting. That is, the connecting step of the steel pipe pillar is the inner steel 130 and the outside by joining the vertical plate 160 of the connecting steel pipe 150 without bonding the inner steel 130 and the outer steel pipe 110 in a separate step. Steel pipe 110 can be connected at the same time.

Accordingly, even when the internal steel member 130 is disposed on the steel pipe pillar, construction properties of the upper and lower steel pipe pillars may be improved. At this time, the vertical plate 160 may not only serve to connect the upper and lower steel pipe pillars, but may also serve to transfer the load of the upper and lower steel pipe pillars without removing the connection after the connection.

On the other hand, with reference to Figures 5 and 6 will be described in the concrete filled steel pipe pillar 100 and its connection structure according to another embodiment of the present invention.

Concrete-filled steel pipe pillar 100 according to another embodiment of the present invention, there is a difference in the configuration and bonding method of the vertical plate 160, compared to the embodiment of the present invention, because of this, upper and lower steel pipe pillar There is a difference in the connection method of. Hereinafter, a detailed description of the same configuration as the embodiment of the present invention will be omitted.

Concrete-filled steel pipe pillars 100 according to another embodiment of the present invention, compared to the embodiment of the present invention, the bending moment acting on the steel pipe pillars is a great embodiment when the axial force acts large.

Concrete-filled steel pipe pillars 100 according to another embodiment of the present invention may be configured to include an outer steel pipe 110 and the inner steel 130 and the connecting steel pipe 150.

The connecting steel pipe 150 is provided on both inner ends of the outer steel pipe 110, a plurality of vertical plates 160 are joined to the outer peripheral surface vertically and connected to the outer steel pipe 110 may be formed.

At this time, the vertical plate 160 is bonded to the outer circumferential surface of the connecting steel pipe 150 and the inner circumferential surface of the outer steel pipe 110, as shown in the embodiment shown in Figure 5, the connecting steel pipe 150 is the outer steel pipe It can be inserted into both ends of the (110).

That is, one side of the vertical plate 160 to be vertically bonded is joined to the connection steel pipe 150 by welding, and the other side of the vertical plate 160 is bonded to the inner circumferential surface of the outer steel pipe 110 is connected to the connection steel pipe ( 150 and the outer steel pipe 110 may be connected. Accordingly, the inner steel 130 and the outer steel pipe 110, the end of which is fixedly mounted in the connection steel pipe 150 may be connected.

In this case, since the vertical plate 160 is inserted and mounted at both ends of the outer steel pipe 110, the upper and lower ends of the outer steel pipe 110 can be directly connected and bonded when the upper and lower steel pipe columns are connected. have.

On the other hand, with reference to Figure 5 looks at with respect to the connection structure of the concrete-filled steel pipe pillar 100 according to another embodiment of the present invention.

The connection structure of the concrete-filled steel pipe pillar 100 according to another embodiment of the present invention, the concrete-filled steel pipe pillar 100 is arranged up and down so that the end is joined, and the joint portion of the adjacent outer steel pipe 110 Including a weld 190 formed around the end, the vertical plate 160 of the concrete-filled steel pipe pillars 100 connected up and down may be disposed in a corresponding position so that the end abuts.

That is, the concrete filled steel pipe pillar 100 according to another embodiment of the present invention, as described above, the upper and lower ends of the outer steel pipe 110 is directly connected, the outer steel pipe 110 is connected to the upper and lower The ends of can be joined by welding.

At this time, the connecting steel pipe 150 and the vertical plate 160 of the upper and lower steel pipe pillars are disposed in a corresponding position so that the end abuts it can directly transfer the load of the upper steel pipe pillar to the lower steel pipe pillar. Accordingly, the upper and lower connection steel pipes 150 and the inner steel 130 may be connected while the outer steel pipes 110 are joined by the welding unit 190.

In the connection structure of the concrete-filled steel pipe column 100 according to another embodiment of the present invention, the upper and lower inner steel 130 is joined while joining the outer steel pipe 110 through the pre-installed connecting steel pipe 150. Therefore, it is possible to facilitate the connection construction of the steel pipe column when the steel is disposed inside the concrete-filled steel pipe pillar (100).

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

100: concrete filled steel pipe pillar 110: outer steel pipe
120: end plate 130: internal steel
150: connecting steel pipe 160: vertical plate
170: bonded plate 190: welded portion

Claims (8)

An outer steel pipe having a hollow portion in which concrete is filled;
An inner steel material disposed vertically in the outer steel pipe;
An end plate installed to close an end of the outer steel pipe and having a through hole formed therein;
Connecting steel pipes provided on both inner ends of the outer steel pipe and fitted into the through hole of the end plate and extending in an outer direction of the outer steel pipe; And,
And a vertical plate joined vertically to protrude to an outer circumferential surface of the connecting steel pipe and having one end joined to the end plate and having a plurality of vertical plates formed at a predetermined interval around the outer circumferential surface of the connecting steel pipe.
An end of the inner steel is configured to be fixed to the end of the outer steel pipe by being fixed to the inner peripheral surface of the connecting steel pipe,
The vertical plate is formed of a plurality of bolt holes, concrete filled steel pipe pillars, characterized in that all of the exposure to the outside.
delete delete The method of claim 1,
The inner steel, concrete filled steel pipe pillars, characterized in that consisting of a band reinforcing the vertical reinforcing bars and the vertical reinforcing bars to the inside of the outer steel pipe.
delete In the connection structure of the concrete filled steel pipe pillars connected up and down,
Claims 1 or 4 of the concrete-filled steel pipe column is arranged up and down so that the end is joined; And,
Including; bolted to the vertical plate, the bonding plate is provided to connect the adjacent vertical plate, including,
Connection structure of the concrete filled steel pipe pillar, characterized in that for connecting the inner steel and the outer steel pipe of the concrete filled steel pipe pillar is connected up and down through the joining of the joining plate.
delete Manufacturing a concrete-filled steel pipe column according to claim 1;
A steel pipe column connecting step of connecting the upper and lower outer steel pipes and the inner steel by bolting the vertical plate and the joining plate of the upper steel pipe column and the vertical plate of the lower steel pipe column; And,
Concrete filling step of filling concrete in the outer steel pipe;
Connection construction method of the concrete-filled steel pipe pillar including a.

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