KR102554408B1 - Connection Structure Between Steel-Concrete Hybrid Columns Using Vetical Member - Google Patents

Abstract

In the present invention, a sleeve is formed and connected to the lower end of a composite column composed of external concrete on the outside of the rectangular steel pipe and the rectangular steel pipe, and a vertical member for joining is formed inside the vertical joint between the columns, and the concrete is poured inside the rectangular steel pipe It relates to a buried joint structure of a precast concrete composite column using a vertical member for joining, which allows the joint of the column-to-column joint to be possible while excluding welding work at the time of the column-to-column joint.
A preferred embodiment of the present invention is a tubular rectangular steel pipe of a certain length with a rectangular cross section with a hollow inside, and an external concrete made of precast concrete of a certain thickness on the outside of the rectangular steel pipe. Vertical joint structure between columns and columns In the outer concrete of the column, the lower end of the sleeve is exposed to the lower surface of the outer concrete, and a vertical reinforcing bar is formed vertically at the upper end of the sleeve, and the upper end of the vertical reinforcing bar is embedded in the external concrete so as to protrude a certain length from the upper surface of the rectangular steel pipe. It is configured so that the protruding vertical reinforcing bars of the lower column are inserted into the sleeve of the upper column during the vertical connection between the columns, and non-shrinkage concrete is poured into the sleeve, and the vertical joint for joining is made of wire rods of a certain length. A plurality of members are arranged vertically at regular intervals in a state spaced apart from the inner surface of the rectangular steel pipe at a certain distance from the inside of the rectangular steel pipe so that the member is located in a certain section of the junction between the upper column and the lower column.

Description

Embedded joint structure of precast concrete composite columns using vertical members for joining {Connection Structure Between Steel-Concrete Hybrid Columns Using Vetical Member}

The present invention relates to a buried joint structure of a precast concrete composite column using a vertical member for joining, and more particularly, to form a sleeve at the lower end of a composite column composed of a rectangular steel pipe and external concrete outside the rectangular steel pipe to form a joint. In addition, a vertical member for joining is formed inside the vertical joint between the columns, and concrete is poured into the inside of the rectangular steel pipe, so that welding work is excluded during the jointing between the columns. A vertical member for joining is made possible It relates to a buried joint structure of a used precast concrete composite column.

As buildings become taller, structural systems must be able to more efficiently support vertical loads as well as horizontal loads such as wind and earthquakes, which requires column members with a higher rate of increase in internal strength compared to the rate of increase in cross section. In this respect, the use of composite columns can greatly increase the load capacity and deformation capacity without increasing the cross section, so a structure with high efficiency can be obtained. For these factors, composite columns in which H-beams or steel pipes are embedded are widely used, and concrete-filled steel pipe structures are receiving a lot of attention. Hybrid Column) is often used because it can be planned in an appropriate size to effectively use the interior space of a building.

However, in the case of such a composite column made of steel and concrete, welding work must be preceded at the time of vertical joining at the site. There were problems such as increased risk of fire due to fire.

As a background technology of the present invention, there is Patent Registration No. 1180575 "Precast Concrete Composite Column and Beam Joint Structure Using Rectangular Steel Pipe" (Patent Document 1). In the background art, in the column and beam joint structure consisting of an H-beam that is vertically coupled to the upper composite column and the lower composite column and coupled to the side surface of the coupling member of the upper composite column and the lower composite column, the cross section is a hollow rectangle. A rectangular steel pipe and a panel zone reinforcing plate configured to be radially coupled to the corners at the upper and lower ends of the rectangular steel pipe and a combined steel plate coupled to the outer surface of the panel zone reinforcing plate and manufactured by precast on the outside of the rectangular steel pipe It is composed of external concrete, and the lower end of the combined steel plate formed at the lower end of the upper composite column and the upper end of the combined steel plate formed at the upper end of the lower composite column are mutually coupled, and the joint plate is coupled in the vertical direction at the center to be combined with the web of the beam. The panel zone reinforcing plate formed at the lower end of the upper composite column and the panel zone reinforcing plate formed at the upper end of the lower composite column are combined with the upper and lower flanges of the beam, respectively. It has the advantages of both an inner diaphragm and an outer diaphragm without manufacturing a diaphragm.

However, the above background technology also has problems in that it is difficult to construct because it is difficult to maintain verticality as well as require welding work at the time of vertical bonding between pillars.

Patent registration No. 1180575 "Precast concrete composite column and beam joint structure using rectangular steel pipe"

The present invention is to solve the above problems, construction is easy by constructing a rectangular steel pipe and a composite pillar composed of external concrete outside the rectangular steel pipe, so that construction is easy and welding work is excluded from the outside The purpose is to provide a buried joint structure of a precast concrete composite column using a vertical member for joining that can maintain quality and eliminate safety problems such as fire.

The present invention is a vertical joint structure between pillars and pillars consisting of a tubular rectangular steel pipe of a certain length with a rectangular cross section with a hollow inside and an external concrete made of precast concrete of a certain thickness on the outside of the rectangular steel pipe, In the outer concrete, the lower end of the sleeve is exposed to the lower surface of the outer concrete, and the upper end of the sleeve is composed of vertical reinforcing bars. At the time of vertical connection between the columns, the protruding vertical reinforcing bar of the lower column is inserted into the sleeve of the upper column, and non-shrinkage concrete is poured into the sleeve. Precast concrete using vertical members for joining, characterized in that a plurality of pieces are vertically arranged at regular intervals in a state spaced apart from the inner surface of the rectangular steel pipe at a certain distance from the inside of the rectangular steel pipe to be located in a certain section of the joint between the and lower columns. It is intended to provide a structure for a buried joint of a composite column.

In addition, the vertical member for joining is to provide a buried joint structure of a precast concrete composite column using a vertical member for joining, characterized in that a fixing member having a cross section larger than the size of the cross section of the vertical member for joining is configured.

In addition, it is intended to provide a buried joint structure of precast concrete composite columns using vertical members for joining, characterized in that a plurality of shear connectors are configured on the inner surface of the rectangular steel pipe in a certain section of the joint between the columns.

In addition, it is intended to provide a buried joint structure of a precast concrete composite column using a vertical member for joining, characterized in that a plurality of shear connectors are configured on the outer surface of the rectangular steel pipe.

In addition, a support member is formed by protruding on the inner surface of the rectangular steel pipe at the height of the lower end of the vertical member for joining, and the vertical member for joining is mounted on the upper part of the support member to be supported. Using a vertical member for joining It is intended to provide a buried joint structure of precast concrete composite columns.

In addition, the plurality of vertical members for joining are embedded in a precast concrete composite column using vertical members for joining, characterized in that one or more hoops are formed in the central portion to wrap and connect the plurality of vertical members for joining in the horizontal direction. It is intended to provide a mold joint structure.

In addition, the column is configured so that the rectangular steel pipe protrudes upward by a certain length from the upper end of the external concrete, the through hole is formed through the rectangular steel pipe protruding at the top, the beam is mounted on the top of the lower column, and the beam is continuous For jointing, characterized in that the continuous reinforcing bar for is reinforced through the through hole, the protruding vertical reinforcing bar of the lower column at the top of the beam is inserted into the sleeve of the upper column, and non-shrinkable concrete is poured into the inside of the sleeve. It is intended to provide a buried joint structure of a precast concrete composite column using a vertical member.

In addition, a rectangular steel pipe 20 of a certain length of a rectangular cross section with a hollow inside, and an external concrete 10 made of precast concrete having a certain thickness outside the rectangular steel pipe 20 Column (1) In the vertical joint structure between the pillar 1 and the outer concrete 10 of the pillar 1, the lower end of the sleeve 50 is exposed to the lower surface of the outer concrete 10, and the upper end of the sleeve 50 is vertically The vertical reinforcement 13 is configured, and the upper end of the vertical reinforcement 13 is embedded in the external concrete 10 so as to protrude a certain length from the upper surface of the rectangular steel pipe 20. The protruding vertical reinforcement 13 of the column 1 is inserted into the sleeve 50 of the upper column 1 and non-shrinkable concrete is poured into the sleeve 50, and the rectangular steel pipe of the lower column 1 A support member 23 is formed on the inner surface of the 20 by protruding inward from a certain height from the upper end to the lower part, and a vertical joining member 30 made of H-beam is formed vertically on the upper part of the support member 23. It is intended to provide a buried joint structure of a precast concrete composite column using a vertical member for joining, characterized in that it is mounted and formed to be located in a certain section of the junction between the upper column and the lower column.

In addition, it is intended to provide a buried joint structure of precast concrete composite columns using vertical members for joining, characterized in that a plurality of shear connectors are configured on the inner surface of the rectangular steel pipe in a certain section of the joint between the columns.

In addition, it is intended to provide a buried joint structure of a precast concrete composite column using a vertical member for joining, characterized in that a plurality of shear connectors are configured on the outer surface of the rectangular steel pipe.

In addition, it is intended to provide a buried joint structure of a precast concrete composite column using a vertical member for joining, characterized in that a plurality of shear connectors are configured on the outer surface of the vertical member for joining.

The structure of the embedded joint of the precast concrete composite column using the vertical member for joining of the present invention is a rectangular steel pipe and a sleeve at the lower end of the composite column composed of external concrete outside the rectangular steel pipe, compressive force and tensile force at the joint between the columns Reinforcing bars connected with silver sleeves are used to resist, and a vertical member for joining is formed inside the vertical joint between columns so that concrete is poured inside the rectangular steel pipe, making it easy to construct and excluding welding work from the outside to maintain quality and prevent fires. There is a very useful effect that can eliminate safety problems such as

In addition, by protruding the square tube pipe to the top of the external concrete and forming a through hole through it, the continuous reinforcing bar for beam continuation can penetrate the through hole and the column, so that the beams on both sides of the column can be continuous while maintaining the adhesion with concrete. There are also effects that can be increased.

The following drawings attached to this specification illustrate a preferred embodiment of the present invention, and together with the detailed description of the present invention serve to further understand the technical idea of the present invention, the present invention is limited to those described in the accompanying drawings. It should not be construed as limiting.
1 is a cross-sectional side view of a first embodiment of a buried joint structure of a precast concrete composite column using a vertical member for joining according to the present invention.
FIG. 2 is a plan view of FIG. 1 .
3 is a cross-sectional side view of a second embodiment of a buried joint structure of a precast concrete composite column using a vertical member for joining according to the present invention.
FIG. 4 is a plan view of FIG. 3 .
5 is a cross-sectional side view of a third embodiment of a buried joint structure of a precast concrete composite column using a vertical member for joining according to the present invention.
FIG. 6 is a plan view of FIG. 5 .
7 is a cross-sectional side view of a fourth embodiment of a buried joint structure of a precast concrete composite column using a vertical member for joining according to the present invention.
FIG. 8 is a plan view of FIG. 7 .

Below, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment will be described in detail.

1 is a cross-sectional side view of a first embodiment of a buried joint structure of a precast concrete composite column using a vertical member for joining according to the present invention, FIG. 2 is a plan view of FIG. 1, and FIG. 3 is a vertical joint for joining according to the present invention. It is a cross-sectional side view of a second embodiment of a buried joint structure of a precast concrete composite column using a member, and FIG. 4 is a plan view of FIG. 3.

As shown in FIG. 1, the column 1 of the present invention is a tubular rectangular steel pipe 20 of a certain length with a rectangular cross section with a hollow inside, and a precast concrete of a certain thickness on the outside of the rectangular steel pipe 20 It is made of external concrete 10 made of.

Shear connectors 21 such as a plurality of studs may be configured on the outer surface of the rectangular steel pipe 20, and the shear connectors 21 are installed at regular intervals on the entire outer surface of the rectangular steel pipe 20, or in some sections can only be formed.

In the present invention, the bonding between the pillars 1 is joined using a sleeve 50, and a separate vertical member 30 for bonding is configured inside the pillar 1 to be joined.

The sleeve 50 has a tubular shape with a hollow inside so that the vertical reinforcing bars 13 are configured at the top, and the lower end of the sleeve 50 is the lower surface of the outer concrete 10 of the column 1. is exposed, and vertical reinforcing bars 13 are formed vertically at the upper end of the sleeve 50, and the upper end of the vertical reinforcing bars 13 is embedded in the external concrete 10 so as to protrude a certain length from the upper surface of the rectangular steel pipe 20. do.

The vertical reinforcing bars 13 may be configured at the entire height of the external concrete 10, or may be configured separately on the upper portion of the sleeve 50 and the upper portion of the external concrete 10, respectively.

When the sleeve 50 is configured in this way, as shown in FIG. 1, the protruding vertical reinforcement 13 of the lower pillar 1 is attached to the sleeve 50 of the upper pillar 1 at the time of vertical joining between the pillars 1. By inserting and pouring non-shrinkage concrete into the sleeve 50, the compressive force and tensile force at the junction between the columns 1 are resisted by the vertical reinforcing bars 13 connected to the sleeve 1.

The sleeve 50 may be exposed to the outside by penetrating the external concrete 10 so that a separate injection port or the like communicates with the sleeve 50 for injection of non-shrinkable concrete.

In particular, in the present invention, a separate vertical member 30 for joining is configured inside the joint between the pillars 1 so that the joining between the pillars 1 is performed when concrete is placed inside the rectangular steel pipe 20, The same joining vertical member 30 is made of wire rods of a certain length, such as reinforcing bars and steel rods.

The vertical member 30 for joining is configured in the vertical direction inside the rectangular steel pipe 20 so that the upper end is located on the upper column 1 and the lower end is located on the lower column 1, and the inner surface of the rectangular steel pipe 20 and To maintain a constant distance, and to ensure a uniform quality by maintaining a constant distance in the horizontal direction between the vertical members (30) for bonding.

In particular, in the present invention, by configuring the fixing member 33 having a cross section larger than the size of the cross section of the vertical member 30 for joining at both ends of the vertical member 30 for joining, concrete is formed inside the rectangular steel pipe 20 At the time of casting, the vertical member 30 for joining is integrated with concrete to secure shear force and integrity, and by configuring the fixing member 33 in this way, the length of the vertical member 30 for joining can be shortened. there is.

Such a fixing member 33 is bonded to the end of the vertical member 30 for bonding by a method such as welding, or a screw thread is machined on the outer circumferential surface of the vertical member 30 for bonding, and a nut or the like is attached to the fixing member 33 ) can be used to be screwed to the vertical member 30 for bonding, and although not shown, fixing members 33 may be additionally configured at required locations in addition to both ends of the vertical member 30 for bonding.

At this time, the junction between the pillars 1 constitutes the vertical member 30 for joining from the inside and is joined by pouring concrete, but in addition, a plurality of The shear connector 22 may be configured to additionally secure shear force and integrity.

The shear connector 22 may be formed in the entire section where the joining vertical member 30 is formed, or may be formed only in a part of the section, and, if necessary, in a section outside the section where the joining vertical member 30 is installed. may be formed.

In particular, in the present invention, to position the vertical member 30 for bonding at a certain height inside the junction of the pillar 1 and the pillar 1, at this time, the installation of the vertical member 30 for bonding at a certain height Since it may not be easy, as shown in FIG. 3, the support member 23 is formed by protruding from the inner surface of the rectangular steel pipe 20 at the height of the lower end of the vertical member 30 for joining, and the support member 23 ) It is possible to support the vertical member 30 for bonding is mounted on the upper part of the.

The support member 23 may be made of various members such as a horizontal plate-shaped plate, a u-shaped cross-section member or a rectangular steel pipe, and as shown in FIG. By placing the lower end of the vertical member 30 for bonding on the upper part of the horizontal plate so that the flat plates are bonded, the vertical member 30 for bonding can be accurately installed, and the lower end can be prevented from escaping to the outside.

In particular, in the present invention, since a plurality of vertical members 30 for bonding are installed at regular intervals, in order to reinforce the junction between the pillars 1 while increasing workability, as shown in FIGS. 3 and 4, vertical members for bonding ( At the center of 30), one or more hoop muscles 22 may be configured to wrap and connect a plurality of vertical members 30 for bonding in a horizontal direction.

In this way, by assembling the plurality of vertical members 30 for joining into a hoop bar 22 in advance to form a single assembly, it is very easy to install the pillar 1 into the inside of the rectangular steel pipe 20, The hoop muscle 22 serves to reinforce the joint by positioning it at the joint between the pillars 1.

One such hoop muscle 22 may be installed by welding or the like to form an assembly by binding a plurality of vertical members 30 for joining. More than that can be formed.

5 is a cross-sectional side view of a third embodiment of a buried joint structure of a precast concrete composite column using a vertical member for joining according to the present invention, and FIG. 6 is a plan view of FIG. 5 .

In the above-described embodiment, the vertical connection between the pillars 1 and the pillars 1 has been described with a focus on the embodiment, and in this embodiment, the beam 7 is mounted at the junction between the pillars 1 and the pillars 1 An embodiment of the case will be described.

First of all, in the present embodiment, the pillar 1 allows the beam 7 to be mounted by forming the head part 10a on the upper part of the external concrete 10 so that the beam 7 is mounted. In particular, the pillar In (1), the rectangular steel pipe 20 is configured to protrude further upward by a certain length from the upper end of the external concrete 10. That is, the rectangular steel pipe 20 protrudes further from the upper end of the external concrete 10 by the height at which the beam 7 is mounted.

In this way, when the rectangular steel pipe 20 protrudes to be exposed to the outside, the through hole 26 is formed through the protruding rectangular steel pipe 20, so that the continuous reinforcement 71 for the continuation of the beam 7 penetrates By allowing the sphere 26 and the column 1 to pass through, the beams 7 on both sides of the column 1 can be continued, while the concrete of the rectangular steel pipe 20 protruding from the upper end of the external concrete 10 and can increase the adhesion of

The through hole 26 may be formed in various shapes such as a rectangle or a circle, and may be formed in a plurality of through holes at regular intervals or in a single form.

The joint between the pillars 1 configured in this way is such that the protruding vertical reinforcement 13 of the lower pillar 1 at the top of the beam 7 is inserted into the sleeve 50 of the upper pillar 1, and the sleeve 50 Non-shrinkage concrete is poured into the inside, and a vertical member 30 for joining is configured inside the junction between the columns 1.

7 is a cross-sectional side view of a fourth embodiment of a buried joint structure of a precast concrete composite column using a vertical member for joining according to the present invention, and FIG. 8 is a plan view of FIG. 7 .

As shown in FIG. 7, the column 1 of the present invention is a tubular rectangular steel pipe 20 of a certain length with a rectangular cross section with a hollow inside, and a precast concrete of a certain thickness on the outside of the rectangular steel pipe 20 It is made of external concrete 10 made of.

Shear connectors 21 such as a plurality of studs may be configured on the outer surface of the rectangular steel pipe 20, and the shear connectors 21 are installed at regular intervals on the entire outer surface of the rectangular steel pipe 20, or in some sections can only be formed.

In the present invention, the bonding between the pillars 1 is joined using a sleeve 50, and a separate vertical member 30 for bonding is configured inside the pillar 1 to be joined.

The sleeve 50 has a tubular shape with a hollow inside so that the vertical reinforcing bars 13 are configured at the top, and the lower end of the sleeve 50 is the lower surface of the outer concrete 10 of the column 1. is exposed, and vertical reinforcing bars 13 are formed vertically at the upper end of the sleeve 50, and the upper end of the vertical reinforcing bars 13 is embedded in the external concrete 10 so as to protrude a certain length from the upper surface of the rectangular steel pipe 20. do.

The vertical reinforcing bars 13 may be configured at the entire height of the external concrete 10, or may be configured separately on the upper portion of the sleeve 50 and the upper portion of the external concrete 10, respectively.

When the sleeve 50 is configured in this way, as shown in FIG. 7, the protruding vertical reinforcing bars 13 of the lower pillar 1 are attached to the sleeve 50 of the upper pillar 1 at the time of vertical joining between the pillars 1. By inserting and pouring non-shrinkage concrete into the sleeve 50, the compressive force and tensile force at the junction between the columns 1 are resisted by the vertical reinforcing bars 13 connected to the sleeve 1.

The sleeve 50 may be exposed to the outside by penetrating the external concrete 10 so that a separate injection port or the like communicates with the sleeve 50 for injection of non-shrinkable concrete.

In particular, in the present invention, a separate vertical member 30 for joining is configured inside the junction between the pillars 1 so that the joining between the pillars 1 is performed when concrete is placed inside the rectangular steel pipe 20, The same bonding vertical member 30 is made of H-beam.

In particular, in the present invention, the vertical member 30 for joining made of H-beam is positioned at the center of the cross section of the rectangular steel pipe 20, which can be easily installed at a constant height at the junction of the pillar 1 and the pillar 1 The support member 23 is formed on the inner surface of the square steel pipe 20 of the lower column 1 by protruding inward from a certain height from the upper end to the lower part, and the vertical member 30 for joining made of H-beam is , It can be mounted vertically on the upper part of the support member 23 so as to be positioned in a certain section of the junction between the upper pillar 1 and the lower pillar 1.

The support member 23 may be formed in various shapes, and may be fixed to the inner surface of the rectangular steel pipe 20 by various methods such as bolt bonding.

In particular, a plurality of shear connectors 31 may be configured on the outer surface of the vertical member 30 for bonding, and shear force and integrity may be additionally secured.

At this time, the junction between the pillars 1 constitutes the vertical member 30 for joining from the inside and is joined by pouring concrete, but in addition, a plurality of The shear connector 22 may be configured to additionally secure shear force and integrity.

The shear connector 22 may be formed in the entire section where the joining vertical member 30 is formed, or may be formed only in a part of the section, and, if necessary, in a section outside the section where the joining vertical member 30 is installed. may be formed.

The embedded joint structure of the precast concrete composite column using the vertical member for joining of the present invention as described above is a sleeve at the lower end of the composite column composed of external concrete outside the rectangular steel pipe and the rectangular steel pipe, so that at the junction between the columns Compressive and tensile forces are resisted by reinforcing bars connected by sleeves, and vertical members for joining are formed inside the vertical joints between columns so that concrete is poured inside the rectangular steel pipe, so construction is easy and quality is improved by excluding welding work from the outside. It has a very useful effect to eliminate safety problems such as maintenance and fire. In addition, the rectangular pipe is protruded to the top of the external concrete and the through hole is formed so that the continuous reinforcing bar for beam continuity is formed through the through hole and column There is also an effect of increasing the adhesion with concrete while enabling the continuity of the beams on both sides of the column by allowing the penetration.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and variations without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but is limited only by the claims appended below.

1 : Pillar
10: external concrete
13: vertical reinforcing bar
20: rectangular steel pipe
21, 22: shear connector
23: support member
30: vertical member for joining
33: fixing member
50: sleeve

Claims (11)

A column (1) composed of a tubular rectangular steel pipe (20) of a certain length with a rectangular cross section with a hollow inside, and an external concrete (10) made of precast concrete of a certain thickness on the outside of the rectangular steel pipe (20). (1) In the vertical junction structure between,
In the outer concrete 10 of the column 1, the lower end of the sleeve 50 is exposed to the lower surface of the outer concrete 10, and the vertical reinforcing bar 13 is configured vertically at the upper end of the sleeve 50, so that the vertical reinforcing bar 13 The upper end of the ) is embedded in the external concrete 10 so as to protrude a certain length from the upper surface of the rectangular steel pipe 20, and the protruding vertical reinforcing bar 13 of the lower column 1 is formed during vertical joining between the columns 1 To be inserted into the sleeve 50 of the upper column 1 and to pour non-shrinkage concrete into the sleeve 50,
The vertical member 30 for joining made of a wire rod of a certain length is placed in a certain section of the junction between the upper column 1 and the lower column 1. Inside the rectangular steel pipe 20, the rectangular steel pipe 20 A plurality of pieces are vertically arranged at regular intervals at a certain distance from the inner surface of the
The column 1 is configured so that the rectangular steel pipe 20 protrudes upward by a certain length from the upper end of the external concrete 10, and the through hole 26 is formed through the rectangular steel pipe 20 protruding at the top, , so that the beam 7 is mounted on the upper part of the lower column 1, and the continuous reinforcement 71 for continuation of the beam 7 is reinforced through the through hole 26, and from the upper part of the beam 7 to the lower part A vertical member for joining, characterized in that the protruding vertical reinforcement 13 of the column 1 is inserted into the sleeve 50 of the upper column 1 and non-shrinkable concrete is poured into the sleeve 50 Embedded joint structure of precast concrete composite column. The method of claim 1,
The vertical member 30 for joining is a buried type of a precast concrete composite column using a vertical member for joining, characterized in that the fixing member 33 having a cross section larger than the size of the cross section of the vertical member 30 for joining is configured. junction structure. The method of claim 1,
In a certain section of the junction between the columns (1), a plurality of shear connectors (22) are configured on the inner surface of the rectangular steel pipe (20). The method of claim 1,
A buried joint structure of a precast concrete composite column using a vertical member for joining, characterized in that a plurality of shear connectors 21 are configured on the outer surface of the rectangular steel pipe 20. The method of claim 1,
A support member 23 is formed by protruding on the inner surface of the rectangular steel pipe 20 at the height of the lower end of the vertical member 30 for joining, and the vertical member 30 for joining is mounted on the top of the support member 23 Embedded joint structure of a precast concrete composite column using a vertical member for joining, characterized in that to be supported. The method of claim 1,
A plurality of vertical members for joining (30) using a vertical member for joining, characterized in that one or more hoop muscles (22) are configured in the central portion to wrap and connect the plurality of vertical members for joining (30) in a horizontal direction. Recessed joint structure of precast concrete composite columns. delete delete delete delete delete

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