KR102085624B1 - Connecting structure of Composite column and concrete beam and manufacturing method thereof - Google Patents

Abstract

The closed cross-section composite column and the wide beam connection structure according to an embodiment of the present invention are closed cross-section composite pillars; A 'c' shaped shear key welded around the closed section composite column; Reinforced concrete wide beams extending in a substantially vertical direction to include the shear key in the edge of the closed cross-section composite column; includes, the width of the wide beam may be provided wider than the width of the closed cross-section composite column .

Description

Connecting structure of composite column and concrete beam and manufacturing method

The present invention relates to a closed cross-section composite column and wide beam connection structure and its construction method.

In recent years, urban buildings have been elevated in order to efficiently use limited sites, and high-rise buildings require various structural systems to secure space efficiency and structural safety in terms of structural planning. In addition, the recent rise in raw material prices and increasing labor costs have motivated the R & D of the efficient use of materials.

Concrete filled steel pipe composite structure has a steel pipe that bears tensile force on the outside and concrete that mainly compresses on the inside, so that the steel pipe restrains the internal concrete while concrete prevents local buckling of the steel pipe. It is a structural type with excellent energy absorption capacity. In addition, since the formwork can be removed when placing concrete, the construction cost and construction period can be shortened, and by adopting a synthetic column, the economic effect can be obtained due to the increase of the rental floor area. Due to these advantages, the application of synthetic columns to middle and low-rise buildings including high-rise buildings has increased.

On the other hand, the construction market has been continuously making efforts to shorten the air and reduce the volume as the construction of downtown is increased. The two-way structure consisting of columns, girders, and beams eliminates small beams, and the one-way structure consisting of columns and girders has become possible with the development of composite decks.

The concrete filled steel pipe column prevents the drop in strength of the steel pipe due to buckling because concrete filled inside the steel pipe suppresses local buckling deformation of the steel pipe. In addition, since the filled concrete is bound by steel pipes, the strength increases without falling out of the concrete due to cracking in the reinforced concrete column or the steel reinforced concrete column. Therefore, the concrete filled steel pipe column exhibits high bearing capacity and deformation ability to maintain the load capacity up to the large deformation area after the maximum load capacity.

The most widely applied structure is a ramen structure consisting of a vertical member consisting of pillars, a girder member connecting pillars and pillars, and a beam member connecting girder and girder. Recently, the application of a one-way structure to reduce the volume by removing the small beams in such a ramen structure has been increasing. At this time, if the girder member connecting the pillar to the pillar is composed of a wide beam (wide beam) to have a width wider than the width of the pillar, it is possible to reduce the height of the floor, thereby reducing the volume and the height of the floor. There is this. This one-way structure is made possible by the development of a deep deck, which is 150mm ~ 450mm. Combining structurally strong steel composite pillars and reinforced concrete wide beams, it is possible to reduce the amount of air as well as shorten the air. However, if the joints where heterogeneous materials meet are not properly structured, the column surface and the concrete surface may be separated and collapse may occur.

KR 10-2017-0015872

The present invention has been proposed to solve the conventional problems as described above, by installing a shear key of a specific shape at the interface of the steel composite column and reinforced concrete (shearkey) to increase the rigidity of the joint to transfer the strength of the reinforced concrete wide beam to the column surface To be possible.

As one aspect for achieving the above object, the present invention is a closed cross-section synthetic column; A 'c' shaped shear key welded around the closed section composite column; Reinforced concrete wide beam extending in the vertical direction to include the shear key in the edge of the closed cross-section composite column; including, the width of the wide beam is provided to be wider than the width of the closed cross-section composite column, the closed end The composite facet column, a closed cross-section steel pipe column having at least three bent edges and a pair of foldable steel plate of the rectangular column shape that is not connected to one side is formed by welding to each other; And concrete formed by filling the interior of the closed cross-section steel pipe column, wherein the reinforcing member is further coupled to the auxiliary bent portion of the partially protruded shape to form the unconnected surface, and the foldable steel sheet is It consists of three surfaces formed by bending one steel plate and at least one auxiliary bent portion extending into a smaller size than the other surface, the outer surface of the secondary bent portion is provided with a reinforcing member, a pair of foldable steel sheet When this is combined, the end portion of each of the foldable steel sheet may be disposed in a shape raised on the end of the reinforcing member to be welded.

Here, the shear key is the end of the cross-section '' 'can be welded to the closed cross-section composite column.

In addition, the shear key may be a flat surface portion is welded to the closed section composite pillar.

In addition, the wide beam may be formed by reinforcing the reinforcing bars so as to surround the circumference of the closed cross-section composite pillar, and cast concrete.

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In addition, the cross-section of the foldable steel sheet is provided in a square shape, the cross-section of the closed cross-section steel pipe column formed by the mutual coupling of the foldable steel sheet may be provided in a rectangular shape of the long side is twice the length of the short side.

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In addition, the foldable steel sheet has three bent corners to have one of the auxiliary bent portions, the closed cross-section steel pipe column may be welded to be point-symmetrical with respect to the center point.

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In addition, the foldable steel sheet has four bent corners to have two secondary bent portions, the closed cross-section steel pipe pillar is any one of the secondary bent portion provided in the two foldable steel sheet to replace the reinforcing member It can be welded to be placed in a butt shape.

In addition, the cross section of the foldable steel sheet is provided in a rectangular shape having a long side is provided with a length twice the short side, the closed cross-section steel pipe column formed by the mutual coupling of the foldable steel sheet may be provided with a square cross section.

In addition, the closed end of the steel pipe column may be formed in the welded portion only two parts of the pair of the foldable steel sheet in contact with each other.

In addition, the stiffener for rigid reinforcement may be provided in the longitudinal direction on the surface forming the closed section steel pipe pillar.

In addition, the stiffener may be provided with the same thickness as the combined thickness of the auxiliary bent portion and the reinforcing member.

As another aspect for achieving the above object, the present invention is a construction method of the closed cross-section composite column and wide beam connection structure, the step of setting up a closed cross-section steel pipe column on the ground; Manufacturing a closed cross-section composite pillar by filling concrete in the closed cross-section steel pipe pillar; Forming a shear key having a 'c' shape around the closed cross-section composite column; And reinforcing the reinforcing bars so as to surround all of the closed cross-section composite pillars, and placing concrete.

When a shear key having a predetermined shape is applied to the steel composite column and the reinforced concrete wide beam joint of the present invention, it is possible to secure the integrity of the composite column outer steel surface and the reinforced concrete wide beam interface and improve the rigidity and strength of the joint. In addition, by increasing the rigidity is effective in the initial crack control and has the effect of reducing the deflection in the center.

1 is a perspective view of a closed cross-section composite column and wide beam connection structure according to an embodiment of the present invention,
FIG. 2 is a cross-sectional view (vertical cross section) of II 'of FIG. 1,
3 is a cross-sectional view (sectional view) of II-II 'of FIG. 1,
4A to 4C are views illustrating various embodiments of a structure in which a shear key is coupled to a closed cross-section composite column according to an embodiment of the present invention.
5 is a perspective view of a closed cross-section synthetic column according to an embodiment of the present invention,
6 is a cross-sectional view of a closed cross-section composite column according to an embodiment of the present invention,
7 is a cross-sectional view showing a unit folding steel sheet according to an embodiment of the present invention,
8 is a cross-sectional view showing a shape in which a reinforcing member is coupled to a unit foldable steel sheet according to an embodiment of the present invention;
9 is a perspective view of a closed cross-section composite pillar according to another embodiment of the present invention,
10 is a cross-sectional view of a closed section composite column according to another embodiment of the present invention,
11 is a cross-sectional view showing a unit folding steel sheet according to another embodiment of the present invention,
12 is a cross-sectional view illustrating a shape in which a reinforcing member is coupled to a unit foldable steel sheet according to another embodiment of the present invention.

Hereinafter, with reference to the drawings will be described an embodiment of the present invention; However, the spirit of the present invention is not limited to the embodiments presented.

For example, those skilled in the art that understand the spirit of the present invention may suggest other embodiments that fall within the spirit of the present invention through the addition, modification, or deletion of the elements. It is said to be included in the range.

1 is a perspective view of a closed cross-section composite column and a wide beam connection structure according to an embodiment of the present invention, FIG. 2 is a cross-sectional view (vertical cross-sectional view) of II 'of FIG. 1, and FIG. 3 is a II-II' of FIG. 1. It is sectional drawing (planar sectional drawing) of.

1 to 3, the closed cross-section composite column and the wide beam connection structure 1000 according to an embodiment are substantially perpendicular to the closed cross-section composite pillars 100 and 200 and the closed cross-section composite pillars 100 and 200. It includes a wide beam 300 connected in the horizontal direction. The wide beam 300 may be a reinforced concrete structure. In addition, the width of the wide beam 300 may be provided wider than the width of the closed cross-section composite columns (100, 200).

The closed cross-section composite pillars 100 and 200 will be described in detail with reference to FIGS. 5 to 12, but since the outside is provided with steel pipe pillars 110 and 210, the closed cross-section composite pillars 100 and 200 and the reinforcement 310 are provided. In the case of connecting the wide beam 300 of the reinforced concrete structure formed by reinforcing the concrete 350 and placing the concrete, the bonding strength of the connection portion may be formed low according to the difference of the materials, and thus the shear stiffness of the connection portion. This may be weakly formed.

Accordingly, when connecting the closed section composite columns (100, 200) and the wide beam 300 of the reinforced concrete structure, the shear key 400 on the outer surface of the closed section composite columns (100, 200) for reinforcement of shear stiffness Can be formed.

The shear key 400 may be made of steel, and may be firmly coupled to the closed cross-section composite pillars 100 and 200 and, more particularly, the steel pipe pillars 110 and 210 by welding. The shear key 400 may have a 'c' shape. Shear key 400 is the end of the cross-section '' shape is welded to the closed cross-section composite column (100, 200) (see (a) of Figure 4a, 4b), or the flat surface portion of the closed cross-section composite column Can be welded to (see FIG. 4C). In the former case, two shear keys 400 may be installed adjacent to each other (see FIG. 4B (b)), and an auxiliary steel plate 410 may be attached to the upper or lower portion thereof.

Referring to (b) of FIG. 4B, the shear key 400 having a cross-section 'c' may be coupled to be adjacent to each other to form an 'H' shape. In this case, the coupling strength may be improved and the coupling may be easily performed. In order to weld the horizontal flange 151 and the vertical flange 152 on the outer surface of the steel pipe columns (110, 210) first, the shear key 400 is bolted to the horizontal flange 151 and the vertical flange 153 Couplings 151a, 153a. Of course, additional welding can also be added.

Meanwhile, the closed cross-section composite pillars 100 and 200 may further include a shear stud 410 coupled to protrude into or out of the steel pipe pillars 110 and 210 to further supplement the shear stress (FIG. 4C). Note, the shear stud 410 can also be applied to the structure of Figure 4a or 4b).

In addition, the shear key 400 or the shear stud 410 may be coupled to a position of increasing rigidity in consideration of the structure of the closed cross-section composite pillars 100 and 200 in that the purpose of supplementing the shear force is large.

For example, the interior of the closed cross-section composite columns (100, 200), that is, the inside of the steel pipe columns (110, 210) structurally at least of the auxiliary bending portions (111a, 112a), reinforcing members (121, 122), stiffeners 250 It will have one, they can be formed long in the vertical direction. Therefore, in consideration of the positions of the auxiliary bent portions 111a and 112a, the reinforcing members 121 and 122, the stiffeners 250, and the like, the shear key 400 may be used as the auxiliary bent portions 111a and 112a and the reinforcing members 121 and 122. ), The stiffener 250 and the like may be provided on the outer surface of the steel pipe pillars (110, 210) corresponding to the position.

In addition, the wide beam connecting structure construction method to the closed cross-section composite column according to an embodiment of the present invention comprises the steps of setting up the closed cross-section steel pipe columns (110, 210) on the ground; Manufacturing a closed cross-section composite pillar (100, 200) by filling concrete in the closed cross-section steel pipe pillar (110, 210); Forming a shear key 400 having a 'c' shape around the closed cross-section composite pillars 100 and 200; And reinforcing the reinforcement 310 so as to surround all of the closed cross-section synthetic pillars 100 and 200, and forming the formwork to pour the concrete 350.

Meanwhile, even when the wide beam 300 is connected, the closed cross-section composite pillars 100 and 200 according to an embodiment of the present invention may be formed to have a strong structure such as buckling. Hereinafter, the structure will be described with reference to FIGS. 5 to 12. Will be described in detail.

5 is a perspective view of a closed cross-section composite column according to an embodiment of the present invention, Figure 6 is a cross-sectional view of a closed cross-section composite column according to an embodiment of the present invention, Figure 7 is a unit according to an embodiment of the present invention 8 is a cross-sectional view illustrating a folded steel sheet, and FIG. 8 is a cross-sectional view illustrating a shape in which a reinforcing member is coupled to a unit folded steel sheet according to an embodiment of the present invention.

5 to 8, the closed cross-section composite pillar 100 according to an embodiment of the present invention is a pair of foldable steel sheets 111 and 112 formed by folding a steel plate in a square shape to each other by welding 140 to each other. The concrete 130 may be formed by filling the inside of the closed cross-section steel pipe pillar 110 formed by the step. Of course, the concrete 130 must go through a curing process after filling.

In addition, the folded steel plates 111 and 112 may be auxiliary bending parts 111a and 112a protruding into the closed cross-section steel pipe column 110 by improving the rigidity of the closed cross-section composite column 100 and improving the bonding strength with the concrete 130. ), And the reinforcement members 121 and 122 may be coupled to the auxiliary bent portions 111a and 112a to supplement additional rigidity.

Here, the foldable steel sheet (111, 112) is provided with a square cross-section, and thus a pair of foldable steel sheet (111, 112) is formed by coupling the closed cross-section steel pipe column 110 and the closed cross-section composite column (100) The cross section of the long side may be provided in a rectangular shape longer than twice the short side.

The foldable steel plates 111 and 112 may have a rectangular pillar shape having at least three bent edges and one surface thereof is not connected. That is, the foldable steel sheets 111 and 112 according to the present embodiment are provided by folding the steel sheet to have three surfaces of the same size, and the size of one or both of the last surfaces except for the middle surface of the three surfaces than the other surface. May be provided with at least one auxiliary bent portion (111a, 112a) is extended to be bent to have a small size. That is, the foldable steel sheets 111 and 112 having a square shape may include auxiliary bent portions 111a and 112a that fill one part of the surface without being connected to an adjacent shape, that is, to an adjacent surface.

A closed section steel pipe column 110 may be formed by mutual welding of a pair of foldable steel sheets 111 and 112.

One of the four sides of the folded steel sheets 111 and 112 is provided in an open shape, that is, a square pillar shape in which one surface is not connected, and the pair of folded steel plates 111 and 112 have mutually opened surfaces. The parts which are arranged in contact with each other and are in contact with each other are welded in the longitudinal direction of the pillar to be joined to each other while forming the weld 140. It is preferable to minimize the weld 140 to reduce the man-hours, and in this embodiment, since the welded steel sheets 111 and 112 of the square shape are welded to each other, the weld 140 is shown in FIG. 5. A total of two can be formed, one each on the front and back sides.

Meanwhile, referring to FIGS. 6A and 7A, the pair of foldable steel plates 111 and 112 are arranged to be point symmetrical with respect to the center point of the closed cross-section steel pipe column 110 completed by the coupling. Can be welded. In this case, the foldable steel sheets 111 and 112 have only one auxiliary bending portion 111a and 112a, respectively, and the foldable steel sheets 111 and 112 are auxiliary to the corners at which the auxiliary bending portions 111a and 112a are connected. Ends not provided with the bent portions 111a and 112a are disposed and welded to each other.

Further, reinforcing members 121 and 122 may be provided outside the auxiliary bent portions 111a and 112a of the foldable steel plates 111 and 112 to supplement the rigidity or to serve as a member to assist the welding. The reinforcing members (! 21, 122) have a shape in which the ends of each of the folding steel plates (111, 112) are raised on the ends of the reinforcing members (121, 122) when the pair of folding steel sheets (111, 112) are coupled to each other. It can be arranged to be welded. Accordingly, there is an advantage in that the welded steel sheets 111 and 112 are very easy to position and additional rigidity can be supplemented by the reinforcing members 121 and 122.

6 (b) and 7 (b), the foldable steel plates 111 and 112 may have four bent corners to include two auxiliary bent portions 111b and 112b. In this case, the secondary bent portions 111b and 112b provided in the two folding steel sheets 111 and 112 may be welded to be arranged in a mutually opposite shape to form a closed cross-section steel pipe column 110. In this case, a separate reinforcing member is unnecessary.

Meanwhile, referring to FIG. 8, a shape in which reinforcing members 121 and 122 are coupled to the foldable steel plates 111 and 112 is illustrated. Since the folding steel plates 111 and 112 are placed on the ends of the reinforcing members 121 and 122, the reinforcing members 121 and 122 may be formed in consideration of the appearance of the closed cross-section steel pipe pillars 110 of the folding steel plates 111 and 112. It can be coupled in a state moved inward by the thickness (d).

In addition, the reinforcing members 121 and 122 may have the same thickness as that of the foldable steel sheets 111 and 112 and may be provided with the same material or may be different from each other in welding welding and have a substantially similar thickness.

And, the closed cross-section composite column 100 according to an embodiment posted in Figure 6 (a), the two steel sheets are bent in a square shape so that three corners are formed in a square column shape of one side is not connected Preparing a pair of foldable steel sheet (111, 112), and further coupling the reinforcing members (121, 122) to the auxiliary bent portion (111a, 112a) of the partially protruding shape to form a surface that is not connected And the pair of foldable steel sheets 111 and 112 so that the end portions of the foldable steel sheets 111 and 112 are arranged in the shape of being raised on the ends of the reinforcing members 121 and 122. Welding the two parts in the longitudinal direction to form a closed cross-section steel pipe pillar 110 and the step of filling and curing the concrete inside the closed cross-section steel pipe column 110 can be produced.

In addition, the closed cross-section composite column 100 according to the embodiment posted in Figure 6 (b), the two steel sheets are bent in a square shape to form four corners of the square pillar shape is not connected to one side Preparing a pair of foldable steel sheet (111, 112) (where one side is not connected is formed by the auxiliary bent portion (111b, 112b) of the part protruding from both sides), a pair of foldable steel sheet (111, Step 112 to the secondary bent portion (111b, 112b) is arranged in a mutually opposite form to weld the two parts in the longitudinal direction of the foldable steel sheet (111, 112) to form a closed cross-section steel pipe column 110 and closed section Filling the concrete in the interior of the steel pipe column 110 and curing can be produced.

9 is a perspective view of a closed cross-section composite column according to another embodiment of the present invention, FIG. 10 is a cross-sectional view of a closed cross-section composite column according to another embodiment of the present invention, and FIG. 11 is a unit according to another embodiment of the present invention. 12 is a cross-sectional view showing a folded steel sheet, Figure 12 is a cross-sectional view showing a shape in which the reinforcing member is coupled to the unit folded steel sheet according to another embodiment of the present invention.

9 to 12, another closed cross-section composite pillar 200 according to another embodiment of the present invention is a pair of foldable steel plates 211 and 212 formed by folding a steel plate in a square shape to each other by welding 240 to each other. ) By filling the concrete 230 in the interior of the closed cross-section steel pipe pillar 210 formed. Of course, the concrete 230 must go through a curing process after filling.

In addition, the folded steel plates 211 and 212 may be auxiliary bending parts 211a and 212a protruding into the closed cross-section steel pipe column 210 by reinforcing the rigidity of the closed cross-section composite column 200 and improving the bonding strength with the concrete 230. ), And the reinforcing members 221 and 222 may be coupled to the auxiliary bent portions 211a and 212a to supplement additional rigidity.

Here, the folded steel sheets 211 and 212 are provided in a rectangular shape having a long side of the cross-section is twice as long as the short side, and thus the pair of the folded steel plates 211 and 212 are welded to each other so that the closed side steel pipe columns ( 210 and the cross-section of the closed cross-section composite column 200 may be provided in a substantially square shape.

The foldable steel plates 211 and 212 may have a rectangular pillar shape having at least three bent edges and one surface thereof is not connected. That is, the foldable steel sheets 211 and 212 according to the present embodiment are provided by folding the steel sheet to have three surfaces of the same size, and the size of any one or both of the last surfaces except the middle surface of the three surfaces is larger than the other surfaces. May be provided with at least one auxiliary bent portion (211a, 212a) is extended to be bent to have a small size. That is, the foldable steel sheets 211 and 212 having a rectangular shape may include auxiliary bent portions 211a and 212a that fill one part of the surface without being connected to an adjacent shape, that is, to an adjacent surface. Here, the open one side may be a long side when viewed in cross section.

A closed section steel pipe column 210 may be formed by mutual welding of a pair of foldable steel sheets 211 and 212.

The folded steel sheets 211 and 212 are provided on one side of the four sides (more specifically, the long side when viewed in cross section) in an open shape, that is, a square pillar shape in which one side is not connected, and a pair of folded steel sheets 111. , 112 are arranged in a mutually opposite shape of the faces having an open shape (that is, long sides mutually opposite each other when viewed in cross section) and the contacting parts are welded in the longitudinal direction of the column to be joined to each other while forming a weld 240 . The welding part 240 is preferably minimized in order to reduce the man-hour, and in this embodiment, since the welded steel plates 211 and 212 of the square shape are welded to each other, the welding part 240 is shown in FIG. 9. A total of two can be formed, one each on the front and back sides.

Meanwhile, referring to FIGS. 10A and 11A, the pair of foldable steel sheets 211 and 212 are arranged to be point symmetrical with respect to the center point of the closed cross-section steel pipe column 210 completed by the coupling. Can be welded. In this case, the foldable steel sheets 211 and 212 have only one auxiliary bent portion 211a and 212a, respectively, and the foldable steel sheets 211 and 212 are auxiliary to the corners where the auxiliary bent portions 211a and 212a are connected. Ends not provided with the bent portions 211a and 212a are disposed and welded to each other.

Further, reinforcing members 221 and 222 may be provided outside the auxiliary bent portions 211a and 212a of the foldable steel plates 211 and 212 to supplement the rigidity or to serve as a member to assist the welding. The reinforcing members 221 and 222 have a shape in which the ends of each of the folding steel plates 211 and 212 are raised to the ends of the reinforcing members 221 and 222 when the pair of folding steel sheets 211 and 112 are coupled to each other. Can be disposed and welded. Accordingly, there is an advantage that it is very easy to position the folded steel plates 211 and 212 during welding and additional rigidity can be supplemented by the reinforcing members 221 and 222.

In addition, referring to FIGS. 10B and 11B, the foldable steel plates 211 and 212 may have four bent corners to include two auxiliary bent portions 211b and 212b. In this case, the secondary bent parts 211b and 212b provided in the two folding steel sheets 211 and 212 may be welded to be disposed in a mutually opposite shape to form a closed cross-section steel pipe column 210. In this case, a separate reinforcing member is unnecessary.

Meanwhile, referring to FIG. 12, a shape in which reinforcing members 221 and 222 are coupled to foldable steel plates 211 and 212 is illustrated. Since the end of the reinforcing members 221, 222 is folded steel plate (211, 212) is raised, the reinforcing members (221, 222) of the folding steel plate (211, 212) in consideration of the appearance of the closed end of the steel pipe column 210 It can be coupled in a state moved inward by the thickness (d).

In addition, the reinforcing members 221 and 222 may have the same thickness as that of the foldable steel sheets 211 and 212 and may be provided with the same material or may be welded to each other and have a substantially similar thickness.

The closed cross-section steel pipe pillar 210 according to the present embodiment may have a rigidity problem because a separate reinforcing member is not provided at the long side when viewed in cross section. Accordingly, the stiffener 250 having a thickness substantially equal to the thickness of the sum of the auxiliary bent portions 211b and 212b and the reinforcing members 221 and 222 may be disposed in the longitudinal direction of the pillar. Accordingly, stiffness can be supplemented.

Then, the closed cross-section composite column 200 according to another embodiment posted in Figure 10 (a), the two steel sheets are bent in a square shape so that three corners are formed in a square column shape of one side is not connected Preparing a pair of foldable steel sheet (211, 212), and further coupling the reinforcing members (221, 222) to the auxiliary bent portion (211a, 212a) of the partially protruding shape to form an unconnected surface And a pair of foldable steel sheets 211, 212 so that the end portions of the foldable steel sheets 211, 212 are placed in the shape of being raised on the ends of the reinforcing members 221, 222. Welding the two parts in the longitudinal direction to form a closed cross-section steel pipe pillar 210 and the step of filling and curing the concrete inside the closed cross-section steel pipe pillar 210 can be produced.

In addition, the closed cross-section composite pillar 200 according to another embodiment posted in Figure 10 (b), the two steel sheets are bent in a square shape to form four corners of the square pillar shape is not connected to one side Preparing a pair of foldable steel sheets 211 and 212 (where one side not connected is formed by auxiliary bent portions 211b and 212b having a portion protruding from both sides), and a pair of foldable steel sheets 211 and 212. Auxiliary bent portion (211b, 212b) is arranged in a mutually opposite form 212 to weld the two parts in the longitudinal direction of the foldable steel sheet (211, 212) to form a closed cross-section steel pipe pillar 210 and closed section Filling the concrete in the interior of the steel pipe column 210 and curing can be produced.

In the above description of the configuration and features of the present invention based on the embodiment according to the present invention, the present invention is not limited thereto, and various changes or modifications can be made within the spirit and scope of the present invention. As will be apparent to those skilled in the art, such changes or modifications are intended to fall within the scope of the appended claims.

100, 200: closed section composite column
110, 210: closed section steel pipe column
111, 211: first folded steel sheet
112, 212: second folded steel sheet
111a, 112a, 211a, 212a: auxiliary bending part
121, 122, 221, 222: reinforcing members
130, 230: Concrete
140, 240: welded portion
250: Stiffener
300: wide beam
1000: closed section composite column and wide beam connection structure

Claims (15)

Closed section composite columns;
A 'c' shaped shear key welded around the closed section composite column;
Includes; reinforced concrete wide beam extending in the vertical direction to include the shear key inside the edge of the closed cross-section composite column,
The width of the wide beam is provided to be wider than the width of the closed cross-section composite column,
The closed section composite column,
A closed cross-section steel pipe column having at least three bent edges and a pair of foldable steel sheets having a square column shape having no one side connected thereto are welded to each other; And
Includes; is formed by filling the interior of the closed cross-section steel pipe pillar;
A reinforcing member is further coupled to the auxiliary bent portion of the partially protruding shape to form the unconnected surface,
The foldable steel sheet is composed of three surfaces formed by bending one steel plate and at least one auxiliary bent portion that is bent and extended to a surface having a size smaller than the remaining surfaces.
Reinforcing member is provided on the outer surface of the auxiliary bent portion,
A closed cross-section composite column and a wide beam connection structure, in which a pair of the foldable steel sheets are combined, the end portions of each of the foldable steel sheets are disposed in a shape raised on the ends of the reinforcing members and welded together.
The method of claim 1,
The shear key is a cross-section structure and a wide beam connecting structure, the end of the cross-section 'c' shape is welded to the closed cross-section composite column.
The method of claim 1,
The shear key is a cross-section composite column and wide beam connection structure in which a flat surface portion is welded to the closed cross-section composite column.
The method of claim 1,
The wide beam reinforced structure so as to surround the circumference of the closed cross-section composite column, and formed by pouring concrete closed cross-section composite column and wide beam connection structure.
delete The method of claim 1,
The cross section of the foldable steel sheet is provided in a square shape,
The cross-section of the closed cross-section steel pipe column formed by the mutual coupling of the foldable steel sheet is a cross-section composite column and a wide beam connecting structure, the long side is provided in a rectangular shape of twice the length of the short side.
delete The method of claim 1,
The foldable steel sheet has three bent corners to have one of the auxiliary bent portions,
The closed section steel pipe column is a composite cross-section and wide beam connection structure welded to be point-symmetrical with respect to the center point.
delete The method of claim 1,
The foldable steel sheet has four bent corners to have two auxiliary bends,
The closed cross-section steel pipe pillar is a composite cross-section and wide beam connection structure is welded so that any one of the auxiliary bent portion provided in the two fold steel plate is disposed in a mutually opposite shape while replacing the reinforcing member.
The method of claim 1,
The cross section of the foldable steel sheet is provided in a rectangular shape having a long side of twice the length of the short side,
The closed cross-section steel pipe column formed by mutual coupling of the foldable steel sheet is a cross-section composite column and a wide beam connecting structure is provided with a square cross section.
The method of claim 1,
The closed section steel pipe column is a closed cross-section composite column and a wide beam connection structure in which a weld is formed only at two portions where the pair of foldable steel sheets are in contact with each other.
The method of claim 1,
A closed cross-section composite column and a wide beam connection structure in which a stiffener for rigid reinforcement is provided in a longitudinal direction on a surface forming the closed cross-section steel pipe pillar.
The method of claim 13,
The stiffener is a closed cross-section composite column and a wide beam connection structure is provided with the same thickness of the thickness of the secondary bent portion and the reinforcing member combined.
It is a construction method of the closed cross-section composite column and wide beam connection structure of any one of Claims 1-4, 6, 8, and 10-14.
Laying the closed section steel pipe column on the ground;
Manufacturing a closed cross-section composite pillar by filling concrete in the closed cross-section steel pipe pillar;
Forming a shear key having a 'c' shape around the closed cross-section composite column; And
A method of constructing a closed cross-section composite column and a wide beam connection structure comprising a step of reinforcing reinforcing bars so as to surround all the closed cross-section composite pillars and placing concrete.

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