KR101346736B1 - Improved Semi-concrete filled tube Column Structure - Google Patents

Abstract

The present invention relates to a concrete filled steel pipe column having a one-story or one-section size,
A polygonal iron plate 110 in which a hollow is formed in a tube shape; A plurality of reinforcing bars 120 arranged at the hollow corners of the steel plate 110; And a concrete 130 placed in the hollow of the steel plate 110; , ≪ / RTI >
The improved semi-CFT column 100 is characterized in that the steel plate 110 functions as a mold and resists a shear force after the column is installed and the reinforcing bar 120 and the concrete 130 resist axial force and moment. to provide.
The slab is installed from the bottom to the slab, and the slab is installed up to the top of the roof.
(1) a step of casting foundation concrete to pour foundation concrete; (2) a one-column installation step in which a plurality of modified semi-CFT pillars (100) are vertically coupled and a plurality of two-layered one-section improved semi-CFT columns (100) are installed on the first floor; (3) a two-layered beam installation step of connecting a beam steel frame to the beam bracket 150 of the improved semi-CFT column 100; (4) installing a three-layered beam connecting the beam steel bracket to the beam bracket 150 of the improved semi-CFT column 100; (5) a three-deck deck mounting step of mounting a deck plate on an upper flange of the supporting steel frame; (6) The slab concrete is placed on the deck plate, and the slab concrete is placed between the upper portion of the beam plate 150 and the upper portion of the steel plate 110 without installing a separate diaphragm in the steel plate 110 Simultaneous casting of first and second pillar and three-story slab concrete simultaneously pouring into first and second piles in space; (7) repeating the above steps (2) to (6) from the third layer; And, (8) the rooftop equipment installation step of installing the equipment on the rooftop floor after the final roof concrete placement and curing, including,
The improved semi-CFT column 100 is a concrete filled steel pipe column structure having a one-story or one-section size, and is formed of a polygonal steel plate 110 having a hollow shape in a tube shape; A column steel frame 140 installed at the center of the hollow of the steel plate 110; A plurality of reinforcing bars 120 arranged at the hollow corners of the steel plate 110; And a concrete 130 installed in the hollow of the steel plate 110,
The reinforcing bars 120, the column steel frame 140 and the concrete 130 resist the axial force and the moment, while the steel plate 110 serves as a formwork, The upper end of the steel plate 140 protrudes above the upper end of the steel plate 110 and is further provided with a beam bracket 150. The upper end of the steel plate 110 is at the same level as the upper flange of the beam bracket 150 Wherein the deck plate is mounted on the upper flange of the beam bracket and the beam bracket after the beam steel bracket is connected to the beam bracket and the slab concrete is poured on the deck plate, The diaphragm is not installed in the inside of the steel plate 110 and the slab concrete is simultaneously poured into the space between the beam bracket 150 and the upper end of the steel plate 110 It provides a floor skipping method using an improved semi-CFT columns as

Description

Improved Semi-concrete filled tube Column Structure}

The present invention relates to a concrete filled tube column, in which a steel plate is resistant to a shear force, a reinforcing bar, a column steel and a concrete are resistant to axial forces and moments, A semi-CFT column, which is economical and easy to install, which does not require a covering, a slab that is constructed in the same time as the frame construction of columns and beams, and the roof slab, And a skip floor method using an improved semi-CFT column in which the air shortening effect can be performed in parallel with other operations.

1 is a sectional view and a side view of a conventional concrete filled tube column.

As shown in FIG. 1 (a), since the steel plate 110 'is designed to resist axial force, moment and shear force, the thickness of the steel plate 110' corresponding to all the forces is thick This increased costs and required refractory coating.

Also, as shown by the dotted line in FIG. 1 (b), full penetrated welding is required for the upper and lower connecting portions due to the characteristics of the steel plate 110 ', which is a structural member corresponding to all forces.

The diaphragm is separately welded to the inside of the steel plate 110 'when the bracket is connected to the steel frame 140'. Therefore, there are many limitations in production and assembly. In the case of unskilled workers, It was difficult to expect quality.

Therefore, it is urgent to develop an economical and easy-to-obtain quality method for reducing the thickness and the welding amount of the steel plate by imposing the axial force and moment acting on the column on members other than the steel plate.

In today's increasingly high-tech field, equipment and utilities are important as well as the importance of building framing.

The conventional RC and SRC building works are constructed in the order from the lower floor to the upper floor and the roof floor. Therefore, the above equipment or utility is installed after the roof slab is laid and cured.

Particularly, in the case of a site requiring a very short air, there is a case that not only a building frame but also equipment and a utility are installed at the same time. In this case, air can not be shortened by the conventional method.

Therefore, it is urgent to develop a method to shorten the air by completing construction of slabs on the roof in order to install equipments and utilities as soon as possible on the roof floor, and to complete the roof slab construction in a short time.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is aimed to provide an economical and improved semi-CFT column by reducing the thickness and welding amount of the steel plate because members other than the steel plate bear the axial force and moment acting on the column.

Second, it is intended to provide an improved semi-CFT column in which a diaphragm is not installed inside the steel plate, so that it is easy to manufacture and easy to put concrete into.

Third, it is possible to construct a modularized member, so that it is possible to provide an improved semi-CFT column in which the construction error is significantly reduced in the field.

Fourth, it is possible to construct slabs in the same time with the construction of pillars and beams, to construct the roof slab which is the latest in the past, and to install the equipment on the roof, And to provide a skip floor method using a high-grade semi-CFT column.

In order to solve the above-mentioned technical problems, the present invention is a concrete filled steel pipe column having a one-story or one-

A polygonal iron plate 110 in which a hollow is formed in a tube shape; A plurality of reinforcing bars 120 arranged at the hollow corners of the steel plate 110; And a concrete 130 placed in the hollow of the steel plate 110; , ≪ / RTI >

The improved semi-CFT column 100 is characterized in that the steel plate 110 functions as a mold and resists a shear force after the column is installed and the reinforcing bar 120 and the concrete 130 resist axial force and moment. to provide.

The slab is installed from the bottom to the slab, and the slab is installed up to the top of the roof.

(1) foundation concrete placing step of placing the foundation concrete; (2) a one-column installation step in which a plurality of modified semi-CFT pillars (100) are vertically coupled and a plurality of two-layered one-section improved semi-CFT columns (100) are installed on the first floor; (3) a two-layered beam installation step of connecting a beam steel frame to the beam bracket 150 of the improved semi-CFT column 100; (4) installing a three-layered beam connecting the beam steel bracket to the beam bracket 150 of the improved semi-CFT column 100; (5) a three-deck deck mounting step of mounting a deck plate on an upper flange of the supporting steel frame; (6) The slab concrete is placed on the deck plate, and the slab concrete is placed between the upper portion of the beam plate 150 and the upper portion of the steel plate 110 without installing a diaphragm in the steel plate 110 Simultaneous casting of first and second pillar and three-story slab concrete simultaneously pouring into first and second piles in space; (7) repeating the above steps (2) to (6) from the third layer; And (8) installing a rooftop facility to install facilities on the roof of the final roof layer concrete after curing and curing,

The improved semi-CFT column 100 is a concrete filled steel pipe column structure having a one-story or one-section size, and is formed of a polygonal steel plate 110 having a hollow shape in a tube shape; A column steel frame 140 installed at the center of the hollow of the steel plate 110; A plurality of reinforcing bars 120 arranged at the hollow corners of the steel plate 110; And a concrete 130 installed in the hollow of the steel plate 110,

The reinforcing bars 120, the column steel frame 140 and the concrete 130 resist the axial force and the moment, while the steel plate 110 serves as a formwork, The upper end of the steel plate 140 protrudes above the upper end of the steel plate 110 and is further provided with a beam bracket 150. The upper end of the steel plate 110 is at the same level as the upper flange of the beam bracket 150 Wherein the deck plate is mounted on the upper flange of the beam bracket and the beam bracket after the beam steel bracket is connected to the beam bracket and the slab concrete is poured on the deck plate, The diaphragm is not installed in the inside of the steel plate 110 and the slab concrete is simultaneously poured into the space between the beam bracket 150 and the upper end of the steel plate 110 It provides a floor skipping method using an improved semi-CFT columns of.

According to the present invention, the following effects are expected.

First, since the members other than the steel plate load the axial force and moment acting on the column, the thickness and the welding amount of the steel plate are reduced, thereby providing an economical and improved semi-CFT column.

Second, it provides an improved semi-CFT column that is easy to manufacture and easy to put concrete because no separate diaphragm is installed inside the steel plate.

Third, it is possible to construct a modularized member, which provides improved semi-CFT columns with fewer defects in the field.

Fourth, it is possible to construct slabs in the same time with the construction of pillars and beams, to construct the roof slab which is the latest in the past, and to install the equipment on the roof, It provides a skip floor method using high-grade semi-CFT columns.

1 is a cross-sectional view and a side view of a conventional CFT column.
2 is a cross-sectional view of an improved semi-CFT column of the present invention.
3 is a perspective view of an improved semi-CFT column of the present invention.
Figure 4 is an example of the installation of the improved semi-CFT column of the present invention.
5 (a) to 5 (e) are detailed embodiments of the improved semi-CFT column of the present invention.
6 is a conceptual diagram of a skip floor method using an improved semi-CFT column of the present invention.
7 is a flowchart of a skip floor method using an improved semi-CFT column of the present invention.
8 is a perspective view and a front view of an improved semi-CFT column of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. Improved semi CFT  Pillar

2 is a cross-sectional view of an improved semi-CFT column of the present invention.

The improved semi-CFT column 100 of the present invention, as shown in FIG. 2 (a)

One-story or one-section concrete filled steel pipe columns,

A polygonal iron plate 110 in which a hollow is formed in a tube shape;

A plurality of reinforcing bars 120 arranged at the hollow corners of the steel plate 110; And

A concrete 130 placed in the hollow of the steel plate 110;

Wherein the steel plate 110 serves as a mold and is resistant to a shear force after the column is installed and the reinforcing bars 120 and the concrete 130 resist axial force and moment.

2 (b), the improved semi-CFT column 100 of the present invention further comprises a column steel frame 140 installed at the center of the hollow of the steel plate 110, The steel plate 110 serves as a mold and resists the shear force after the column is installed and the reinforcing bar 120, the column steel frame 140 and the concrete 130 resist axial force and moment.

3 is a perspective view of an improved semi-CFT column of the present invention.

In the improved semi-CFT column 100 of the present invention, a beam bracket 150 is further provided on the upper end of the steel plate 110,

The upper end of the steel plate 110 is at the same level as the upper flange of the beam bracket 150,

When a deck plate is placed on the upper flange of the beam bracket 150 and the beam steel frame after the beam steel bracket is connected to the beam bracket 150 and the slab concrete is laid on the deck plate,

A separate diaphragm is not installed in the steel plate 110 and the slab concrete is simultaneously poured into the space between the beam bracket 150 and the upper end of the steel plate 110.

FIG. 8 is a perspective view and a front view of an improved semi-CFT column of the present invention, and the following photograph is a photograph of a scene carrying a member for test construction of the present invention and a scene after the test construction.

In the improved type semi-CFT column of the present invention, the upper end of the column steel frame 140 is protruded above the upper end of the steel plate 110, and a beam bracket 150 is further installed. The deck plate is mounted on the upper flange of the beam bracket 150 and the beam steel frame, and the deck plate is mounted on the deck plate, The slab concrete is simultaneously poured into the space between the beam bracket 150 and the upper end of the steel plate 110 without installing a separate diaphragm in the steel plate 110 when the concrete is laid .

Figure 4 is an example of the installation of the improved semi-CFT column of the present invention.

As shown in FIG. 4, the steel plate 110 functions as a formwork and resists shear force after the column is installed, and the reinforcing bars 120, the columnar steel bars 140, and the concrete 130 have axial forces and moments The upper and lower connecting portions of the conventional steel plate 110 ', which is a structural member corresponding to all the forces, as shown by the dotted line in FIG. 1 (b), are formed by the conventional method in which full penetrated welding is required Otherwise, full penetrated welding is unnecessary.

5 (a) to 5 (e) are detailed embodiments of the improved semi-CFT column of the present invention.

5, the flange and the web of the column steel frame 140 are joined to the inner wall of the steel plate 110 by the flange connection hardware 170 and the web connection hardware 160, respectively. have.

In conclusion, the present invention is economical because it reduces the thickness and welded area of the steel plate by making the members other than the steel plate bear the axial force and moment acting on the column, so that a separate die or diaphragm diaphragm) is not installed, it is easy to manufacture, and it is easy to pour concrete, and it is possible to construct with modular member, so that the construction error in the field is remarkably reduced.

2. Improved semi CFT  Pillared Skip Floor  Method

FIG. 6 is a conceptual view of a skip floor method using an improved semi-CFT column of the present invention, and FIG. 7 is a flowchart of a skip floor method using an improved semi-CFT column of the present invention.

The skip floor method using an improved semi-CFT column of the present invention is a method for constructing a slab from a lower layer to a separating layer to a roof,

(1) foundation concrete placing step of placing the foundation concrete;

(2) a one-column installation step in which a plurality of modified semi-CFT pillars (100) are vertically coupled and a plurality of two-layered one-section improved semi-CFT columns (100) are installed on the first floor;

(3) a two-layered beam installation step of connecting a beam steel frame to the beam bracket 150 of the improved semi-CFT column 100;

(4) installing a three-layered beam connecting the beam steel bracket to the beam bracket 150 of the improved semi-CFT column 100;

(5) a three-deck deck mounting step of mounting a deck plate on an upper flange of the supporting steel frame;

(6) The slab concrete is placed on the deck plate, and the slab concrete is placed between the upper portion of the beam plate 150 and the upper portion of the steel plate 110 without installing a diaphragm in the steel plate 110 Simultaneous casting of first and second pillar and three-story slab concrete simultaneously pouring into first and second piles in space;

(7) repeating the above steps (2) to (6) from the third layer; And

(8) Final Roof Floor Roof installation to install the equipment on the roof after concrete pouring and curing Step:

, ≪ / RTI >

The improved semi-CFT column 100 is a one-story or one-section-sized concrete filled steel pipe column structure,

A polygonal iron plate 110 in which a hollow is formed in a tube shape; A column steel frame 140 installed at the center of the hollow of the steel plate 110; A plurality of reinforcing bars 120 arranged at the hollow corners of the steel plate 110; And a concrete 130 installed in the hollow of the steel plate 110,

The reinforcing bars 120, the column steel frame 140, and the concrete 130 resist the axial force and the moment, respectively, while the steel plate 110 serves as a formwork,

The upper end of the column steel frame 140 protrudes above the upper end of the steel plate 110 and is further provided with a beam bracket 150. The upper end of the steel plate 110 is the same as the upper flange of the beam bracket 150 The deck plate is placed on the upper flange of the beam bracket 150 and the beam steel frame and the slab concrete is placed on the deck plate, A separate diaphragm is not installed in the plate 110 and the slab concrete is simultaneously poured into the space between the beam bracket 150 and the upper end of the steel plate 110.

The flange and the web of the column steel frame 140 are connected to each other by the flange connection hardware 170 and the web connection hardware 160, 110).

The present invention further includes (9) a final slab concrete casting step of casting a slab concrete of a layer not including slab concrete not including the two layers.

As a result, it is possible to construct a slab at the same time as a pillar and a beam, and to construct a roof slab, which is the latest in the past, The shortening effect is high.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

100`: Conventional CFT column
110`: Steel plate
120`: Refractory Cloth
130`: Concrete
140`: Beam steel frame
100: Improved semi-CFT column
110: steel plate
120: Rebar
130: Concrete
140: Column steel frame
150: Beam bracket
160: Web connection hardware
170: Flange connection hardware
180: connecting auxiliary steel

Claims (7)

1 floor or 1 section concrete filled steel pipe pillar,
A polygonal iron plate 110 in which a hollow is formed in a tube shape;
A plurality of reinforcing bars 120 arranged at the hollow corners of the steel plate 110; And
Concrete 130 is poured into the hollow of the iron plate 110;
, ≪ / RTI >
Column steel frame 140 is installed in the center of the hollow of the steel plate 110; is further configured,
The steel plate 110 is manufactured by joining a plurality of pieces,
The flange and the web of the pillar steel 140 is bonded to the inner wall of the steel plate 110 by the flange connection hardware 170 and the web connection hardware 160, respectively,
The steel plate 110 acts as a formwork and at the same time resist the shear force after the column construction,
Improved semi-CFT column 100, characterized in that the reinforcement 120 and concrete 130 resists axial force and moment. delete In claim 1,
Bobbin bracket 150 is further installed on the upper end of the steel plate 110,
The upper end of the steel plate 110 is characterized in that the same level as the upper flange of the bobbin 150,
When the prosthetic bone is connected to the beam bracket 150, the deck plate is mounted on the upper flange of the beam bracket 150 and the prosthetic bone and when slab concrete is poured on the deck plate,
Improved semi-CFT column, characterized in that the slab concrete is poured into the space between the top bracket 150 and the steel plate 110 at the same time without a separate diaphragm (diaphragm) is installed in the steel plate 110 100.
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