KR101844344B1 - the rigid connection structure between precast concrete column and precast concrete beam, the construction method of rigid connection structure using the same - Google Patents

Abstract

The present invention is applicable to a PC column including a column steel frame 110 exposed between a column top concrete 130 and a column lower concrete 140 and a column bracket 120 horizontally installed on an outer surface of the column steel frame 110 (100);
A PC beam (200) comprising a beam concrete (232) and a beam steel frame (210) exposed at the upper end of the beam concrete;
A column lower plate 162 installed below the column steel frame 110;
A column top plate (166) installed on the column lower concrete (140) and having an end exposed to the outside of the column lower concrete (140);
A filler plate 164 installed between the column lower plate 162 and the column upper plate 166;
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A column steel joint plate 400 is installed under the column concrete 130 and the upper part of the column steel joint 110 is joined to the column steel joint plate 400,
The lower end of the beam concrete 232 is mounted on the end of the column lower plate 162 and the column bracket 120 and the support frame 210 are coupled using a plate,
The column lower plate 162 and the column upper plate 166 and the filler plate 164 are of the same size and the filler plate 164 is formed of a columnar reinforcing bar protruding to the lower portion of the column lower plate 162 And a column bottom reinforcing bar 170 protruding upward from the upper portion of the column upper plate 166. The column lower reinforcing bar 170 is formed so as not to interfere with the center reinforcing bar 172 and the center line Characterized by being bent,
An inner bolt (IR) protrudes upwardly from the column top plate 166,
The inner bolt IR penetrates the filler plate 164 and is fastened to the column lower plate 162 so that the inner bolt IR penetrates through the column upper plate 166 and the filler plate 164, The contact surfaces between the plates 162 are prevented from being separated from each other, and the vertical and horizontal loads are transmitted and the column top plate 166, the filler plate 164, and the column bottom plate 162 are generated The displacement is reduced,
The column bracket 120, the support beam 210, and the column steel beam 110 are pushed together when the concrete (not shown) is poured to realize a strong joint. The steel-concrete hybrid PC And a method of constructing a rigid joint structure using the same.

Description

In this paper, we propose a new method of joining a rigid connection between a steel column and a concrete PC column and a PC beam. structure using the same}

The present invention relates to a joint of a steel-concrete hybrid column and a PC beam for realizing a steel joint by joining only a steel material before a joining part by implementing a moment joining method, that is, a steel joining by improving a joining part of a column and a beam, And a method of constructing a rigid joint structure using the same.

In recent years, the use of PC (precast concrete) method has been increasing in order to secure workability and to save air.

Conventional PC method is mainly used for (1) simple installation of PC beams on PC columns, and (2) construction of PC columns and PC beams in one body.

(1) The simple method of mounting the PC beam on the PC column is one of the methods that are widely used at present, but the air is somewhat reduced, but when the lateral force such as an earthquake acts, the column-to- . Therefore, it is necessary to install a shear wall, brace, etc., which is a lateral reinforcement means, so that it is inevitable to increase the construction cost and air without meeting the merit of the PC method planned for air saving.

In addition, a PC mounted on a PC column may cause a safety accident due to the deviation of the column-to-beam connection. Therefore, the use of high - rise structures is limited due to the possibility of structural instability in column - beam connections.

(2) The method of integrally installing the PC column-PC beam member causes the concrete to be laid on the joint, which may cause structural instability in the column-beam joint during the air delay and curing period due to concrete curing The use of high-rise structures is limited.

In order to solve the drawbacks of the conventional PC method, researchers of the PC method of the moment bonding method have been actively carried out, but it is difficult to use it widely in the high-rise structure in particular due to various disadvantages such as complicated construction details, low economic efficiency and poor workability .

Therefore, the present inventor proposed a moment-resisting framework capable of eliminating the installation of the lateral shear reinforcement means such as an additional shear wall (formwork and wet construction method) or a brace while being dry type, and after the column- The frame construction of the precast framing can be carried out without piling, so that similar air and workability of the steel frame construction can be realized. Especially, unskilled workers have come to propose a PC construction method that can be done safely and quickly when only the manual is known.

[Patent Document 1] Korean Registered Patent No. 10-1289934 Post-tensioned compression bonded joint structure of precast SRC column and precast SRC beam, and method of constructing the jointed structure, 2013.07.25. [Patent Document 2] Korean Registered Patent No. 10-1369998 A steel frame integrated steel column for joining a steel column, and a method for constructing a composite column using the same, 2014.03.06

The present invention has been made in order to overcome the above-mentioned problems of the prior art, and it is an object of the present invention to provide a steel frame structure for steel joining by joining only a steel member before joining a joint to implement a moment joining system by improving a joining portion between a column and a beam. - The joint structure of concrete hybrid PC column and PC beam after joint, and the method of construction of steel joint structure using the same.

In order to solve the above-mentioned technical problem, the present invention provides a pillar structure comprising a column steel frame 110 exposed between a pillar upper concrete 130 and a pillar lower concrete 140, and a pillar bracket installed horizontally on the outer surface of the pillar column 110 A PC column 100 including a substrate 120; A PC beam (200) comprising a beam concrete (232) and a beam steel frame (210) exposed at the upper end of the beam concrete; A column lower plate 162 installed below the column steel frame 110; A column top plate (166) installed on the column lower concrete (140) and having an end exposed to the outside of the column lower concrete (140); And a filler plate 164 installed between the column lower plate 162 and the column upper plate 166,

A column steel joint plate 400 is installed under the column concrete 130 and the upper part of the column steel joint 110 is joined to the column steel joint plate 400,

The lower end of the beam concrete 232 is mounted on the end of the column lower plate 162 and the column bracket 120 and the support frame 210 are coupled using a plate,

The column lower plate 162 and the column upper plate 166 and the filler plate 164 are of the same size and the filler plate 164 is formed of a columnar reinforcing bar protruding to the lower portion of the column lower plate 162 And a column bottom reinforcing bar 170 protruding upward from the upper portion of the column upper plate 166. The column lower reinforcing bar 170 is formed so as not to interfere with the center reinforcing bar 172 and the center line Characterized by being bent,

Since the inner bolt IR is protruded upward from the column top plate 166 and the inner bolt IR penetrates the filler plate 164 and is fastened to the column lower plate 162, Prevents the contact surface between the column top plate 166, the filler plate 164, and the column bottom plate 162 from being spaced apart to transmit vertical and horizontal loads, and at the same time, (166), the filler plate (164), and the column lower plate (162)

The column bracket 120, the support beam 210, and the column steel beam 110 are pushed together when the concrete (not shown) is poured to realize a strong joint. The steel-concrete hybrid PC And a method of constructing a rigid joint structure using the same.

According to the present invention, the joint structure of the steel-concrete hybrid column and the PC beam is realized by joining the steel members before the joining, which realizes the moment joining method by improving the joining part between the column and the beam. A method of constructing a rigid bonded joint structure using the same.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view of a joint structure of a steel-concrete hybrid PC column and a PC beam for steel jointing according to the present invention, and a construction method of a steel joint joining structure using the same.
FIGS. 2 to 18 show an embodiment of a joining post-insertion joining structure of steel-concrete hybrid PC columns and PC beams for steel joining, and a joining joining structure using the same.
19 is a view showing another embodiment of a joining post-insertion joining structure of a steel-concrete hybrid PC column and a PC beam for steel joining according to the present invention of the present invention.
FIGS. 20 to 28 illustrate another embodiment of a method of constructing a joint structure of a steel-concrete hybrid PC column and a PC beam, and a method of constructing a steel joint structure using the same, according to the present invention.
FIGS. 29 to 31 illustrate another embodiment of a joining post-installation structure of a steel-concrete hybrid PC column and a PC beam, and a method of constructing a steel joint structure using the same according to the present invention.
FIGS. 32 to 38 illustrate another embodiment of a method of constructing a joint structure of a steel-concrete hybrid PC column and a PC beam, and a method of constructing a steel joint structure using the same, according to the present invention.
Figs. 39 to 45 show another embodiment of the method of constructing a steel-concrete hybrid PC column and a PC beam for a steel joint according to the present invention, and a method of constructing a steel joint structure using the same.
46 to 52 illustrate another embodiment of a joining post-insertion joining structure of a steel-concrete hybrid PC column and a PC beam for steel joining, and a joining joining structure using the same.
Figs. 53 to 59 show another embodiment of a method of constructing a steel-concrete hybrid PC column and a PC beam for joining steel joints, and a method of constructing a steel joint joining structure using the same.
FIG. 60 shows another embodiment of a joint structure of a steel-concrete hybrid PC column and a PC beam for joining steel joints according to the present invention of the present invention.
FIGS. 61 to 64 show another embodiment of a method of constructing a steel-concrete hybrid PC column and a PC beam for joining steel joints according to the present invention, and a method of constructing a steel joint joining structure using the same.

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

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view of a joint structure of a steel-concrete hybrid PC column and a PC beam for a steel joint according to the present invention, The joint structure of the steel-concrete hybrid PC column and the PC beam for the realization of the steel joint of the present invention, and the method of constructing the steel joint structure using the same.

As shown in FIG. 2, the joint structure of a steel-concrete hybrid PC column and a PC beam for realizing the steel joint of the present invention,

 A PC column 100 including a column steel frame 110 exposed between the column top concrete 130 and the column lower concrete 140 and a column bracket 120 horizontally installed on the outer surface of the column steel frame 110, ; A PC beam (200) comprising a beam concrete (232) and a beam steel frame (210) exposed at the upper end of the beam concrete; A column lower plate 162 installed below the column steel frame 110; A column top plate (166) installed on the column lower concrete (140) and having an end exposed to the outside of the column lower concrete (140); And a filler plate 164 installed between the column lower plate 162 and the column upper plate 166,

A column steel joint plate 400 is installed under the column concrete 130 and the upper part of the column steel joint 110 is joined to the column steel joint plate 400,

The lower end of the beam concrete 232 is mounted on the end of the column lower plate 162 and the column bracket 120 and the support frame 210 are coupled using a plate,

The column lower plate 162 and the column upper plate 166 and the filler plate 164 are of the same size and the filler plate 164 is formed of a columnar reinforcing bar protruding to the lower portion of the column lower plate 162 And a column bottom reinforcing bar 170 protruding upward from the upper portion of the column upper plate 166. The column lower reinforcing bar 170 is formed so as not to interfere with the center reinforcing bar 172 and the center line Characterized by being bent,

Since the inner bolt IR is protruded upward from the column top plate 166 and the inner bolt IR penetrates the filler plate 164 and is fastened to the column lower plate 162, Prevents the contact surface between the column top plate 166, the filler plate 164, and the column bottom plate 162 from being spaced apart to transmit vertical and horizontal loads, and at the same time, (166), the filler plate (164), and the column lower plate (162)

The column bracket 120, the support beam 210, and the column steel beam 110 are pushed together when the concrete (not shown) is laid, thereby realizing strong bonding.

At this time, the column horizontal reinforcing bar 300 is reinforced by the reinforcing bar 260 and the coupler C.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower end of the beam concrete 232 is mounted on the end of the column lower plate 162 and the beam member 210 is mounted on the column bracket 120 using the plate A PC beam joining step to join;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

As shown in FIG. 10, the joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint of the present invention,

The beam concrete 232 includes a beam main body concrete 230; And a beam side concrete (240) formed at a side of the beam body concrete (230) while forming a step (242)

A lower surface of the beam side concrete 240 and a lower surface of the beam body concrete 230 are formed on the same level, and a slab (not shown) is mounted on the lower surface 242.

Although not shown in FIG. 10, the joint structure of the steel-concrete hybrid PC column and the PC beam for the steel joint implementation of the present invention is such that the beam main body concrete 230 and the column lower plate 162 are in contact with each other And a beam lower reinforcing bar 220 protrudes from the lower end of the beam main body concrete 230. The beam lower reinforcing bar 220 is reinforced by a column horizontal lower reinforcing bar (not shown) and a coupler (not shown) do.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower surface of the beam side concrete 240 and the lower surface of the beam body concrete 230 are mounted on the end of the column lower plate 162, A PC beam joining step of joining the column bracket 120 with a plate using the column bracket 120;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

The joint structure of the steel-concrete hybrid PC column and the PC beam for the steel joint implementation of the present invention is such that the end portion of the beam-side concrete 240 has a recessed portion 244 So that only the lower end of the beam main body concrete 230 is fixed to the end of the column lower plate 162. [

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered to lower the lower surface of the beam body concrete 230 to the end of the column lower plate 162, A PC beam joining step for joining by use;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the interrupted ends are extended to the extended lines of the corners of the upper concrete 130 and the lower concrete 140 An M-shaped board mounting step of mounting the M-shaped board F1 having a corresponding shape and having a lower end in close contact with the column lower plate 162;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint according to the present invention is formed by joining the bottom portion concrete 230 of the beam body concrete 230 with which the beam body concrete 230 and the column bottom plate 162 are in contact And a lower end plate 250 to which a beam lower reinforcing bar 220 is bonded.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower end plate 250 is lowered to the end of the column lower plate 162, and the beam supporting member 210 is used with the column bracket 120 A PC beam joining step for joining together;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the interrupted ends are extended to the extended lines of the corners of the upper concrete 130 and the lower concrete 140 An M-shaped board mounting step of mounting the M-shaped board F1 having a corresponding shape and having a lower end in close contact with the column lower plate 162;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

19 is a view showing another embodiment of a joining post-insertion joining structure of a steel-concrete hybrid PC column and a PC beam for steel joining according to the present invention of the present invention.

19, the inner bolt (IR) and the column steel joint plate 400 are omitted in the joint post-installation structure of the steel-concrete hybrid PC column and the PC beam for the steel joint implementation of the present invention ,

The columnar steel frame 112 and the columnar lower steel frame 114 are installed in the columnar upper concrete 130 and the columnar lower concrete 140,

 The lower end of the column upper steel frame 112 is formed integrally with the upper end of the column steel frame 110 and the upper end of the lower column steel frame 114 is joined to the lower portion of the column upper plate 166.

FIGS. 20 to 28 illustrate another embodiment of a method of constructing a joint structure of a steel-concrete hybrid PC column and a PC beam, and a method of constructing a steel joint structure using the same, according to the present invention.

In the joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint of the present invention, the column horizontal reinforcement 300 is omitted,

And the compensating portion reinforcing bars 260 may be routed through or through the side surfaces of the column steel frame 110.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower end of the beam concrete 232 is mounted on the PC beam mounting plate 150, and the beam supporting member 210 is coupled to the column bracket 120 using the plate A PC beam joining step;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) installing the compensating part reinforcing bars 260;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

FIGS. 29 to 31 illustrate another embodiment of a joining post-installation structure of a steel-concrete hybrid PC column and a PC beam, and a method of constructing a steel joint structure using the same according to the present invention.

The joint bolt (IR) joint structure of a steel-concrete hybrid PC column and a PC beam for realizing the steel joint of the present invention is omitted,

A reinforcing rib R is joined to the upper portion of the column lower plate 162,

The reinforcing rib R prevents the contact surfaces between the column top plate 166, the filler plate 164 and the column lower plate 162 from being separated from each other, thereby transmitting the vertical and horizontal loads, The displacement generated in the column top plate 166, the filler plate 164, and the column bottom plate 162 is reduced.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower end of the beam concrete 232 is mounted on the end of the column lower plate 162 and the beam member 210 is mounted on the column bracket 120 using the plate A PC beam joining step to join;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

FIGS. 32 to 38 illustrate another embodiment of a method of constructing a joint structure of a steel-concrete hybrid PC column and a PC beam, and a method of constructing a steel joint structure using the same, according to the present invention.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint according to the present invention comprises a column steel frame 110 exposed and installed between the column top concrete 130 and the column lower concrete 140, A PC column (100) including a column bracket (120) horizontally installed on the outer surface of the column steel frame (110);

A PC beam (200) comprising a beam concrete (232) and a beam steel frame (210) exposed at the upper end of the beam concrete;

A column plate 160 installed on the column lower concrete 140 and having an end exposed to the outside of the column lower concrete 140;

A columnar horizontal reinforcing bar 300 installed at an upper end of the column steel frame 110;

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The column horizontal reinforcing bar 300 is reinforced with the compensating reinforcing bar 260 and the coupler C,

The lower end of the beam concrete 232 is mounted on an end of the column plate 160, the column bracket 120 and the beam steel 210 are coupled using a plate,

A columnar reinforcing bar 172 protruding downward from the columnar concrete 130 and a columnar reinforcing bar 170 protruding upward from the columnar plate 160 are formed integrally with one reinforcing bar,

The column bracket 120, the support beam 210, and the column steel beam 110 are pushed together when the concrete (not shown) is laid, thereby realizing strong bonding.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower end of the beam concrete 232 is mounted on the end of the column plate 160 and the beam member 210 is coupled to the column bracket 120 using the plate A PC beam joining step;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint according to the present invention is characterized in that the beam concrete 232 comprises a beam body concrete 230; And a beam side concrete (240) formed at a side of the beam body concrete (230) while forming a step (242)

A lower surface of the beam side concrete 240 and a lower surface of the beam body concrete 230 are formed on the same level, and a slab (not shown) is mounted on the lower surface 242.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower surface of the beam side concrete 240 and the lower surface of the beam body concrete 230 are mounted on the end of the column plate 160, A PC beam joining step of joining the column bracket 120 with the plate using the plate bracket 120;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

The joint structure of the steel-concrete hybrid PC column and the PC beam for the steel joint implementation of the present invention is such that the end portion of the beam-side concrete 240 has a recessed portion 244 ) Is formed,

Only the lower end of the beam main body concrete 230 is mounted on the end of the column plate 160. [

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower surface of the beam body concrete 230 is mounted on the end of the column plate 160, and the beam member 210 is used with the column bracket 120 A PC beam joining step for joining together;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the stopping is performed on the extension lines of the corners of the upper concrete 130 and the lower concrete 140 An M-board mounting step for mounting the M-board (F1) in a corresponding shape and having a lower end in close contact with the column plate (160);

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint according to the present invention is formed by joining the bottom portion concrete 230 of the beam body concrete 230 with which the beam body concrete 230 and the column bottom plate 162 are in contact And a lower end plate 250 to which a beam lower reinforcing bar 220 is bonded.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered to lower the lower end plate 250 to the end of the column plate 160, and the lower end of the lower end plate 250 is lowered to the upper end of the column bracket 120 A PC beam joining step to join;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;

The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the stopping is performed on the extension lines of the corners of the upper concrete 130 and the lower concrete 140 An M-board mounting step for mounting the M-board (F1) in a corresponding shape and having a lower end in close contact with the column plate (160);

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

Figs. 39 to 45 show another embodiment of the method of constructing a steel-concrete hybrid PC column and a PC beam for a steel joint according to the present invention, and a method of constructing a steel joint structure using the same.

In the joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint of the present invention, the column horizontal reinforcement 300 is omitted,

And the compensating portion reinforcing bar 260 is passed through or through the side surface of the pillar steel frame 110.

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower end of the beam concrete 232 is mounted on the column plate 160 and the beam member 210 is coupled to the column bracket 120 using a plate. Beam joining step;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) installing the compensating part reinforcing bars 260;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

46 to 52 illustrate another embodiment of a joining post-insertion joining structure of a steel-concrete hybrid PC column and a PC beam for steel joining, and a joining joining structure using the same.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint according to the present invention is such that the column plate 160 is omitted,

And a PC beam mounting plate 150 installed on the upper end side of the column lower concrete 140 at the same level as the column lower concrete 140,

The lower end of the beam concrete 232 is mounted on the PC beam mounting plate 150 and the column bracket 120 and the beam steel frame 210 are coupled using a plate,

The column bracket 120, the support beam 210, and the column steel beam 110 are pushed together when the concrete (not shown) is laid, thereby realizing strong bonding.

The beam concrete (232) comprises a beam body concrete (230); And a beam side concrete 240 formed at the side of the beam body concrete 230 so as to form a step 242. The lower side surface of the beam side concrete 240 and the lower side of the beam body concrete 230 Are formed on the same level, and a slab (not shown) is mounted on the step 242.

The lower end of the beam body concrete 230 is formed so as to be in contact with the upper surface of the column plate 160. The lower end of the beam body concrete 230 is formed with a recessed portion 244 that is retreated from the end portion of the beam body concrete 230, And is mounted on the end portion.

In addition, a lower end plate 250 to which a beam lower reinforcing bar 220 is bonded is installed at the lower end of the beam main body concrete 230 in contact with the beam main body concrete 230 and the column lower plate 162, .

Figs. 53 to 59 show another embodiment of a method of constructing a steel-concrete hybrid PC column and a PC beam for joining steel joints, and a method of constructing a steel joint joining structure using the same.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint of the present invention is such that the column horizontal reinforcement 300 is omitted and passes through the side of the column steel frame 110, And the secondary reinforcing bars 260 are laid.

60 shows another embodiment of a joint structure of a steel-concrete hybrid PC column and a PC beam for joining steel joints according to the present invention.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint according to the present invention comprises a column steel frame 110 exposed and installed between the column top concrete 130 and the column lower concrete 140, A PC column (100) including a column bracket (120) horizontally installed on the outer surface of the column steel frame (110);

A PC beam (200) comprising a beam concrete (232) and a beam steel frame (210) exposed at the upper end of the beam concrete;

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The lower end of the beam concrete 232 is mounted on an end of the column lower concrete 140 and the column bracket 120 and the beam steel 210 are coupled using a plate,

An upper column reinforcing bar 172 is inserted in the upper column concrete 130. The upper column reinforcing rib 172 is bent and bent in the lower portion of the column upper concrete 130,

The columnar lower reinforcing bar 170 is inserted into the column lower concrete 140 and the lower column reinforcing bar 170 is bent and bent inside the upper portion of the column lower concrete 140,

The column bracket 120, the support beam 210, and the column steel beam 110 are pushed together when the concrete (not shown) is laid, thereby realizing strong bonding.

FIGS. 61 to 64 show another embodiment of a method of constructing a steel-concrete hybrid PC column and a PC beam for joining steel joints according to the present invention, and a method of constructing a steel joint joining structure using the same.

The joint structure of the steel-concrete hybrid PC column and the PC beam for realizing the steel joint according to the present invention is a PC beam installed at the same level as the column lower concrete 140 on the upper end side of the column lower concrete 140 And a mounting plate (150).

The steel-concrete hybrid PC column and the PC beam for the steel joining implementation are manufactured by the method of constructing the steel-concrete hybrid PC column and the PC beam using the joint- By using the joint structure after the joint,

(1) a step of recovering the PC beam 200 on one side of the PC column 100;

(2) The PC beam 200 is lowered so that the lower end of the beam concrete 232 is mounted on the PC beam mounting plate 150, and the beam supporting member 210 is coupled to the column bracket 120 using the plate A PC beam joining step;

(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;

(4) installing the compensating part reinforcing bars 260;

(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;

(6) Concrete pouring step for pouring concrete (not shown);

(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);

And a control unit.

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.

C: Coupler
IR: internal bolt
F1: M board
R: reinforcing rib
100: PC pole
110: Column steel frame
112: Upper column steel frame
114: column lower steel frame
120: Column bracket
130: Upper column concrete
140: Column lower concrete
162: column bottom plate
164: filler plate
166: column top plate
170: Column lower bar
172: Upper column rebar
200: PC Bo
210:
220: Beam bottom reinforcement
230: beam body concrete
232: beam concrete
240: beam side concrete
242:
244:
250: Lower end plate
400: Column steel joint plate

Claims (35)

A PC column 100 including a column steel frame 110 exposed between the column top concrete 130 and the column lower concrete 140 and a column bracket 120 horizontally installed on the outer surface of the column steel frame 110, ;
A PC beam (200) comprising a beam concrete (232) and a beam steel frame (210) exposed at the upper end of the beam concrete;
A column lower plate 162 installed below the column steel frame 110;
A column top plate (166) installed on the column lower concrete (140) and having an end exposed to the outside of the column lower concrete (140);
A filler plate 164 installed between the column lower plate 162 and the column upper plate 166;
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A column steel joint plate 400 is installed under the column concrete 130 and the upper part of the column steel joint 110 is joined to the column steel joint plate 400,
The lower end of the beam concrete 232 is mounted on the end of the column lower plate 162 and the column bracket 120 and the support frame 210 are coupled using a plate,
The column lower plate 162 and the column upper plate 166 and the filler plate 164 are of the same size and the filler plate 164 is formed of a columnar reinforcing bar protruding to the lower portion of the column lower plate 162 And a column bottom reinforcing bar 170 protruding upward from the upper portion of the column upper plate 166. The column lower reinforcing bar 170 is formed so as not to interfere with the center reinforcing bar 172 and the center line Characterized by being bent,
An inner bolt (IR) protrudes upwardly from the column top plate 166,
The inner bolt IR penetrates the filler plate 164 and is fastened to the column lower plate 162 so that the inner bolt IR penetrates through the column upper plate 166 and the filler plate 164, The contact surfaces between the plates 162 are prevented from being separated from each other, and the vertical and horizontal loads are transmitted and the column top plate 166, the filler plate 164, and the column bottom plate 162 are generated The displacement is reduced,
The column bracket 120, the support beam 210, and the column steel beam 110 are pushed together when the concrete (not shown) is poured to realize a strong joint. The steel-concrete hybrid PC Post - joint joint structure of column and PC beam.
The method of claim 1,
The beam concrete (232)
Beam main body concrete 230;
A side surface concrete 240 formed at a side surface of the beam main body concrete 230 so as to form a step 242;
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The lower surface of the beam side concrete 240 and the lower surface of the beam body concrete 230 are formed on the same level and a slab (not shown) is mounted on the step 242. A joint structure of steel - concrete hybrid PC column and PC beam after joint.
3. The method of claim 2,
The end portion of the beam side concrete 240 is formed with a retreated portion 244 which is retreated from the end portion of the beam body concrete 230,
And the lower end of the beam body concrete 230 is mounted on the end of the column lower plate 162. The joint structure of the steel-concrete hybrid PC column and the PC beam is jointed.
4. The method of claim 3,
A lower end plate 250 to which a beam lower reinforcing bar 220 is joined is installed at the lower end of the beam main body concrete 230 where the beam main body concrete 230 and the column lower plate 162 are in contact with each other, Joint structure of steel - concrete hybrid PC columns and PC beams for the realization of steel joints.
The joint structure of a steel-concrete hybrid PC column and a PC beam for the steel joint implementation of claim 1 is used,
(1) a step of recovering the PC beam 200 on one side of the PC column 100;
(2) The PC beam 200 is lowered so that the lower end of the beam concrete 232 is mounted on the end of the column lower plate 162 and the beam member 210 is mounted on the column bracket 120 using the plate A PC beam joining step to join;
(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;
(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;
(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;
(6) Concrete pouring step for pouring concrete (not shown);
(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);
Wherein the reinforced concrete pillar and the PC beam are jointed to each other to form a rigid joint structure.
The joint structure of steel-concrete hybrid PC columns and PC beams for the steel joint implementation of claim 2 is used,
(1) a step of recovering the PC beam 200 on one side of the PC column 100;
(2) The PC beam 200 is lowered so that the lower surface of the beam side concrete 240 and the lower surface of the beam body concrete 230 are mounted on the end of the column lower plate 162, A PC beam joining step of joining the column bracket 120 with a plate using the column bracket 120;
(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;
(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;
(5) installing an M-board (F1) between the PC beams (200) which are orthogonal to each other;
(6) Concrete pouring step for pouring concrete (not shown);
(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);
Wherein the reinforced concrete pillar and the PC beam are jointed to each other to form a rigid joint structure.
The joint structure of the steel-concrete hybrid PC column and the PC beam for the steel joint implementation of claim 3 is used,
(1) a step of recovering the PC beam 200 on one side of the PC column 100;
(2) The PC beam 200 is lowered to lower the lower surface of the beam body concrete 230 to the end of the column lower plate 162, A PC beam joining step for joining by use;
(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;
(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;
The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the interrupted ends are extended to the extended lines of the corners of the upper concrete 130 and the lower concrete 140 An M-shaped board mounting step of providing an M-shaped board F1 having a corresponding shape and having a lower end in close contact with the column lower plate 162;
(6) Concrete pouring step for pouring concrete (not shown);
(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);
Wherein the reinforced concrete pillar and the PC beam are jointed to each other to form a rigid joint structure.
The joint structure of steel-concrete hybrid PC columns and PC beams for the steel joint implementation of claim 4 is used,
(1) a step of recovering the PC beam 200 on one side of the PC column 100;
(2) The PC beam 200 is lowered so that the lower end plate 250 is lowered to the end of the column lower plate 162, and the beam supporting member 210 is used with the column bracket 120 A PC beam joining step for joining together;
(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;
(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;
The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the interrupted ends are extended to the extended lines of the corners of the upper concrete 130 and the lower concrete 140 An M-shaped board mounting step of providing an M-shaped board F1 having a corresponding shape and having a lower end in close contact with the column lower plate 162;
(6) Concrete pouring step for pouring concrete (not shown);
(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);
Wherein the reinforced concrete pillar and the PC beam are jointed to each other to form a rigid joint structure.
5. The method according to any one of claims 1 to 4,
The inner bolt IR and the column steel joint plate 400 are omitted,
The columnar steel frame 112 and the columnar lower steel frame 114 are installed in the columnar upper concrete 130 and the columnar lower concrete 140,
Wherein a lower end of the column upper steel frame 112 is integrally formed with an upper end of the column steel frame 110 and an upper end of the column lower steel frame 114 is joined to a lower portion of the column upper plate 166 A joint structure after joining of steel - concrete hybrid PC columns and PC beams for joining implementation.
delete delete delete delete delete delete A PC column 100 including a column steel frame 110 exposed between the column top concrete 130 and the column lower concrete 140 and a column bracket 120 horizontally installed on the outer surface of the column steel frame 110, ;
A PC beam (200) comprising a beam concrete (232) and a beam steel frame (210) exposed at the upper end of the beam concrete;
A column plate 160 installed on the column lower concrete 140 and having an end exposed to the outside of the column lower concrete 140;
A columnar horizontal reinforcing bar 300 installed at an upper end of the column steel frame 110;
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The column horizontal reinforcing bar 300 is reinforced with the compensating reinforcing bar 260 and the coupler C,
The lower end of the beam concrete 232 is mounted on an end of the column plate 160, the column bracket 120 and the beam steel 210 are coupled using a plate,
A columnar reinforcing bar 172 protruding downward from the columnar concrete 130 and a columnar reinforcing bar 170 protruding upward from the columnar plate 160 are formed integrally with one reinforcing bar,
The column bracket 120, the support beam 210, and the column steel beam 110 are placed together when concrete (not shown) is poured to realize a strong joint,
The beam concrete (232)
Beam main body concrete 230;
A side surface concrete 240 formed at a side surface of the beam main body concrete 230 so as to form a step 242;
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The lower surface of the beam side concrete 240 and the lower surface of the beam body concrete 230 are formed on the same level, and a slab (not shown) is mounted on the step 242,
The end portion of the beam side concrete 240 is formed with a retreated portion 244 which is retreated from the end portion of the beam body concrete 230,
And the lower end of the beam main body concrete 230 is mounted on the end of the column plate 160. The joint structure of the steel-concrete hybrid PC column and the PC beam is as follows.
17. The method of claim 16,
And a lower end plate 250 to which a beam lower reinforcing bar 220 is joined is installed and reinforced at the lower end of the beam main body concrete 230 where the beam main body concrete 230 and the column lower plate 162 are in contact with each other Joint structure of steel - concrete hybrid PC columns and PC beams for the realization of steel joints.
delete delete The joint structure of the steel-concrete hybrid PC column and the PC beam for the steel joint implementation of claim 16 is used,
(1) a step of recovering the PC beam 200 on one side of the PC column 100;
(2) The PC beam 200 is lowered so that the lower surface of the beam body concrete 230 is mounted on the end of the column plate 160, and the beam member 210 is used with the column bracket 120 A PC beam joining step for joining together;
(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;
(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;
The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the interrupted ends are extended to the extended lines of the corners of the upper concrete 130 and the lower concrete 140 An M-shaped board mounting step of providing a M-shaped board F1 having a corresponding shape and having a lower end in close contact with the column plate 160;
(6) Concrete pouring step for pouring concrete (not shown);
(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);
Wherein the reinforced concrete pillar and the PC beam are jointed to each other to form a rigid joint structure.
The joining structure of the steel-concrete hybrid PC column and the PC beam for the steel joint implementation of claim 17 is used,
(1) a step of recovering the PC beam 200 on one side of the PC column 100;
(2) The PC beam 200 is lowered to lower the lower end plate 250 to the end of the column plate 160, and the lower end of the lower end plate 250 is lowered to the upper end of the column bracket 120 A PC beam joining step to join;
(3) a PC beam installation step of repeating the steps (1) and (2) on the other surface of the PC column 100 to install a plurality of PC beams 200;
(4) a compensating part reinforcing bar mounting step in which the compensating part reinforcing bar 260 is reinforced with the horizontal reinforcing bar 300 and the coupler C;
The lower ends of the PC beams 200 are installed between the PC beams 200 orthogonal to each other and the lower ends thereof are brought into close contact with the recesses 244 and the interrupted ends are extended to the extended lines of the corners of the upper concrete 130 and the lower concrete 140 An M-shaped board mounting step of providing a M-shaped board F1 having a corresponding shape and having a lower end in close contact with the column plate 160;
(6) Concrete pouring step for pouring concrete (not shown);
(7) disassembling the M-shaped board F1 during curing or curing the concrete (not shown);
Wherein the reinforced concrete pillar and the PC beam are jointed to each other to form a rigid joint structure.
delete delete delete delete delete delete delete delete delete delete delete delete delete 4. The method of claim 3,
A beam lower reinforcing bar 220 protrudes from the lower end of the beam main body concrete 230 in contact with the beam main body concrete 230 and the column lower plate 162,
Wherein the beam lower reinforcing bar 220 is reinforced by a column lower horizontal reinforcing bar (not shown) and a coupler (not shown). The steel reinforced concrete concrete hybrid PC column and the PC beam are joint- .

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