KR102032696B1 - the connection structure between composite precast beam and composite precast column - Google Patents

Abstract

The present invention in the connection structure of the composite PC beam (B) and the composite PC column (C),
The composite PC column (C) is a column steel frame (CS) vertically installed on the connection portion of the composite PC beam (B) and a column bracket (CB) horizontally installed on the column steel frame (CS) and a vertical column reinforcement (CSS) The composite PC beam (B) is configured to include a beam bracket (BB) and the lower reinforcement (BS) exposed to the upper and lower portions of the boconcrete (BC) end, respectively, and the beam connecting reinforcement (RB) is installed through the connecting portion and characterized in that one end is fastened to the exposed end of the bottom reinforcement (BS) by a coupler (CP), the connecting portion is filled with the slab concrete (not shown) at the same time It provides a connection structure of a composite PC beam and a composite PC pillar characterized in that.
In addition, the beam connecting reinforcement (RB) is a composite PC beam, characterized in that; the other end is cut at the center of the connection portion and the beam connecting reinforcement (RB`) to which the column insertion anchor (RA) is fastened to the cut portion; It provides the connection structure of PC pillar,
In addition, the beam connecting reinforcement (RB) is bent horizontally bent after passing through the column steel (CS) in the center of the connecting portion is cut bent portion (BBR``) beam connecting reinforcement (RB``) It provides a connection structure of a composite PC beam and a composite PC pillar, characterized in that;

Description

The connection structure between composite precast beam and composite precast column}

The present invention relates to a connection structure between a synthetic PC beam and a synthetic PC column, and by shortening the length of the lower reinforcement bar of the synthetic PC beam to prevent interference with the synthetic PC column, to ensure workability and safety, The present invention relates to a connection structure between a composite PC beam and a composite PC column that satisfies the architectural structural standard that the reinforcing bar must be extended to the inside of the column using a beam connecting rebar as an extension means.

12 is a view illustrating a connection structure between a conventional synthetic PC beam and a synthetic PC column, and below is an excerpt of a part of <Architecture Structure Standard>.

<Construction Structure Standard>

0508.5.2 Settlement of positive moment reinforcing bars

(1) At least 1/3 of the positive moment reinforcing bar in simple members and at least 1/4 of the positive moment reinforcing bar in continuous members are to extend along the same side of the member to the supporting part. In the case of beams, these reinforcing bars shall extend not less than 150mm into the support.

(2) When the flexural member is part of the main structure supporting the lateral load

를 발휘할 수 있도록 정착되어야 한다. In accordance with 0508.5.2 (1), the constant moment reinforcing bar to be extended into the supporting part shall be the design standard yield strength at the front of the supporting part.

It must be settled so that it can be used.

At the connection of the composite PC column and the composite PC beam connected to the steel frame, the bottom reinforcing bar is penetrated as shown in FIG. The rebar should extend to the inside of the column (Fig. 12 (b)). However, when connecting the composite PC column and the composite PC beam as shown in Figs. 12 (a) and (b), difficulties arise in construction due to the interference of the lower reinforcing bars.

Since the bottom reinforcement of the composite PC beam is embedded in the beam, the construction of the beam has been pointed out because the bottom reinforcement cannot be installed inside the column.

Therefore, it is urgent to develop a construction method that satisfies the above structural standards and can be easily constructed even by unskilled workers.

[Document 1] Republic of Korea Patent Publication No. 10-2010-0046685 ‘Joint connection structure of H-beam and square steel pipe column’, May 07, 2010 [Patent 2] Republic of Korea Patent Publication No. 10-2011-0023989 'Connecting medium of beam and column of stackable prefabricated buildings and construction method of prefabricated buildings using the same', March 09, 2011

The present invention is proposed to solve the conventional problems as described above. The purpose is to extend the bottom reinforcing bar through the composite PC column or to extend one third or one fourth of the reinforcing bar to the inside of the column at the connection of the composite PC column and the composite PC beam connected by steel Rather, it is intended to provide a connection structure of composite PC beam and composite PC column that satisfy the building standard by extending the extra beam connecting reinforcement with mechanical coupling.

In order to solve the above technical problem, the present invention, in the connection structure of the composite PC beam (B) and the composite PC column (C),

The composite PC column (C) is a column steel frame (CS) vertically installed on the connection portion of the composite PC beam (B) and a column bracket (CB) horizontally installed on the column steel frame (CS) and a vertical column reinforcement (CSS) The composite PC beam (B) is configured to include a beam bracket (BB) and the lower reinforcement (BS) exposed to the upper and lower portions of the boconcrete (BC) end, respectively, and the beam connecting reinforcement (RB) is installed through the connecting portion and characterized in that one end is fastened to the exposed end of the bottom reinforcement (BS) by a coupler (CP), the connecting portion is filled with the slab concrete (not shown) at the same time It provides a connection structure of a composite PC beam and a composite PC pillar characterized in that.

In addition, the beam connecting reinforcement (RB) is a composite PC beam, characterized in that; the other end is cut at the center of the connection portion and the beam connecting reinforcement (RB`) to which the column insertion anchor (RA) is fastened to the cut portion; It provides the connection structure of PC pillar,

In addition, the beam connecting reinforcement (RB) is bent horizontally bent after passing through the column steel (CS) in the center of the connecting portion is cut bent portion (BBR``) beam connecting reinforcement (RB``) It provides a connection structure of a composite PC beam and a composite PC pillar, characterized in that;

According to the present invention, at the connection of the composite PC column and the composite PC beam connected to the steel frame, the bottom reinforcing bar penetrates the composite PC column according to the construction structure standard, or the reinforcement of the reinforcement 1/3 or 1/4 or more of the reinforcing bar to the inside of the column. It provides a connection structure between composite PC beam and composite PC column that satisfies the building standard by extending the separate beam connecting reinforcement without mechanical extension.

1 is a perspective view of a synthetic PC beam used in the present invention.
Figure 2 is a perspective view of a synthetic PC column used in the present invention.
3 to 5 show the construction process of the first embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention.
6 to 7 show the construction process of the second embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention.
8 to 9 illustrate the construction process of the third embodiment of the connection structure between the composite PC beam and the composite PC pillar of the present invention.
10 to 11 show the construction process of the fourth embodiment of the connection structure of the composite PC beam and the composite PC pillar of the present invention.
12 illustrates a connection structure between a conventional synthetic PC beam and a synthetic PC column.
FIG. 13 is a structural diagram of a beam connecting rebar used in FIG. 11.
FIG. 14 illustrates the reinforcing bar used in FIG. 13.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is a perspective view of a synthetic PC beam used in the present invention, Figure 2 is a perspective view of a synthetic PC column used in the present invention, Figures 3 to 5 is a first structure of the connection structure of the composite PC beam and synthetic PC column of the present invention The construction process of one embodiment is shown.

In the present invention,

'Connected structure of composite PC beam and composite PC pillar', 'connected structure of improved composite PC beam and composite PC column', 'connected structure of composite PC beam and composite PC column with steel connection' and 'improved steel structure' Although the name of the invention is changed to the connection structure of the synthetic PC beam and the synthetic PC column, etc., all of the embodiments of the "connection structure of the synthetic PC beam and the synthetic PC column" and all of them can be used interchangeably.

The first embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention is a connection structure of the composite PC beam (B) and the composite PC column (C),

The composite PC column (C) is a column steel frame (CS) vertically installed on the connection portion of the composite PC beam (B) and a column bracket (CB) horizontally installed on the column steel frame (CS) and a vertical column reinforcement (CSS) ),

The synthetic PC beam (B) is configured to include a beam bracket (BB) and the lower reinforcement (BS) exposed to the upper and lower portions of the bocon concrete (BC) end, respectively,

A beam connecting reinforcing bar (RB) is installed through the connecting portion, characterized in that one end is fastened to the exposed end of the lower reinforcing bar (BS) by a coupler (CP),

The connection portion is characterized in that the filling at the same time as the slab concrete (not shown).

And as shown,

The synthetic PC beam (B) is composed of four,

Four synthetic PC beams (B) are connected to one synthetic PC column (C),

A beam connecting reinforcing bar (RB) connecting two synthetic PC beams (B) opposite from each other is mounted on a beam connecting reinforcing bar (RB) connecting two synthetic PC beams (B) facing each other.

The first embodiment of the connection structure of the composite PC beam and the composite PC pillar of the present invention is a so-called coupler joint method as shown in Figures 3 to 5,

The bottom reinforcing bar (BS) is a method of using a separate beam connecting reinforcing bar (RB) and coupler (C) joints penetrating the synthetic PC column (C). This is a mechanical reinforcing bar joint using a coupler (C), and when using a coupler (C) that satisfies the design criterion yield strength, as shown in FIG. have.

6 to 7 show the construction process of the second embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention.

In the second embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention, the beam connecting reinforcing bar (RB) in the first embodiment,

The other end is cut in the center of the connecting portion and the beam connecting reinforcing bar (RB`) to which the column insertion anchor (RA) is fastened to the cut portion;

The second embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention extends the reinforcement 1/3 or 1/4 or more of the reinforcing bar to the supporting portion as suggested in the structural structural standard.

That is, by using the coupler (C) to utilize the mechanical joint of the reinforcing bar and using the column insertion anchor (RA), such as expansion head reinforcement or nut-type fixing tool to achieve the structural performance as shown in Figure 12 (b).

Coupler joints are mechanical joints and therefore meet structural requirements.

However, if the lower reinforcing bar is fixed to the pillar 150mm or more according to the building structural standards, it is possible to settle without the use of the column insertion anchor (RA).

And not shown,

An end portion of the beam connecting rebar RB ′ to which the pillar insertion anchor RA is fastened is bent 90 degrees horizontally or vertically.

In addition, the pillar insertion anchor RA may be excluded from the beam connecting rebar RB`.

8 to 9 illustrate the construction process of the third embodiment of the connection structure of the composite PC beam and the composite PC pillar of the present invention.

The third embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention is the beam connecting reinforcing bar (RB) in the first embodiment,

After bending horizontally past the column steel frame (CS) in the center of the connection portion, the bent portion of the bent portion is a bending portion (BRB ``);

The third embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention utilizes the mechanical joint of the reinforcement using a coupler and uses a hook having a 90 ° bent portion (BRB``). This is a structural performance such as).

The difference between the second embodiment and the third embodiment of the present invention is the difference between the compressive bar and the tensile bar.

Compression rebars have shorter anchorage and joint lengths than tensile rebars.

However, if the seismic design is applied according to the building structural standards, the joints and anchoring should be carried out in accordance with the tensile reinforcing bar, even in the case of beam reinforcing bars.

Accordingly, the third embodiment of the present invention uses the hook having a 90 ° bent portion (BRB``) as shown in Figs. 8 to 9 to the bottom reinforcing bar (BS) and the connecting reinforcing bar (RB``) to the tensile bar It is a way to settle on a pillar so as to conform.

And the beam connecting reinforcement (RB),

Instead of bending horizontally past the column steel CS in the center of the connecting portion may be characterized in that it is bent vertically upward.

10 to 11 show the construction process of the fourth embodiment of the connection structure of the composite PC beam and the composite PC pillar of the present invention.

In the fourth embodiment of the connection structure of the composite PC beam and the composite PC column of the present invention,

The coupler CP is omitted,

The beam connecting reinforcement (RB),

The beam connection penetrating the center of the connecting portion to form an overlapping portion (A) overlapping the bottom reinforcement (BS) and the end portion is bent vertically and then cut and the bent portion becomes the bent portion (BRB```). Reinforcing bars (RB```);

The fourth embodiment of the present invention is a U-shaped anchoring reinforcing bars, that is, the U-shaped fixing reinforcing bars (BS) and the beam connecting reinforcing bars (RB```) by overlapping so that the overlapping portion (A) is formed in a so-called U-type fixing method. It is a method to secure additional fixing performance through 90 ° hook of rebar (RB```).

Since the joint length of beam reinforcing bar (BS) and beam connecting reinforcing bar (RB```) must satisfy the joint length according to the structural structural standard, the length between the bore concrete (BS) and the composite PC column (C) is overlapped. A) That is, it should be designed larger than the joint length.

The hook with the 90 ° bent portion (BRB```) of the U-shaped settled reinforcing bars (RB```) can secure additional structural performance when seismic design is applied according to the building structural standards.

FIG. 13 is a structural diagram of a beam connecting rebar used in FIG. 11.

As shown in Fig. 13 (a),

In order to maintain the same level without interfering the beam reinforcing bars (RB```) intersecting in four directions, some of the beam connecting bars (RB```) interruption may be bent.

And as shown in Figure 13 (b),

The upper end of the bent portion BRB``` is horizontally bent in the direction of the bobbin BB.

In this case, while ensuring structural stability, the upper end of the bent portion (BRB```) bent is mounted on the bobbin (BB) for convenience in the installation process.

FIG. 14 illustrates the reinforcing bar used in FIG. 13.

In FIG. 13, when the reinforcing bar 100 having a groove in which the beam connecting rebar RB``` is inserted and fixed is inserted into an intersection of the beam connecting rebar RB```, which intersects in four directions, the rebar is additionally formed. The installation process can be convenient and can prevent the position change of rebar when placing concrete.

As the reinforcing bar 100 is composed of two upper and lower parts as shown in the drawing, when the conventional height adjusting means such as screw coupling is applied, the leveling of the reinforcing bar RB``` becomes possible.

All the above-described embodiments may be applied in a mutually overlapping manner.

In conclusion, according to the present invention, at the connection of the composite PC column and the composite PC beam connected to the steel frame, the bottom reinforcing bar penetrates the composite PC column or reinforces 1/3 or 1/4 or more of the reinforcing bars of the constant moment according to the architectural structural standard. It does not extend to the inside of the column, but provides a connection structure between the composite PC beam and the composite PC column satisfying the building standard by extending the separate beam connecting reinforcement by mechanical coupling.

Although the present invention has been described in connection with the preferred embodiment as mentioned above, various modifications and variations are possible within the scope without departing from the gist of the present invention, it can be used in various fields.

Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

B: Synthetic PC Beam
BC: Boconcrete
BB: Bobbracket
BS: Bottom reinforcement
C: composite PC column
CS: Column Steel
CB: Pillar Bracket
CSS: Column Reinforcement
RB, RB`, RB``, RB```: beam rebar
BRB``, BRB```: break
RA: Column insertion anchor
CP: Coupler
A: overlap
100: rebar support

Claims (2)

In the connection structure of composite PC beam (B) and composite PC column (C),
The composite PC column (C) is a column steel frame (CS) vertically installed on the connection portion of the composite PC beam (B) and a column bracket (CB) horizontally installed on the column steel frame (CS) and a vertical column reinforcement (CSS) ),
The composite PC beam (B) is configured to include a beam bracket (BB) and the lower reinforcement (BS) exposed to the upper and lower portions of the bocon concrete (BC) end, respectively,
A beam connecting reinforcing bar (RB) is installed through the connecting portion, characterized in that one end is fastened to the exposed end of the lower reinforcing bar (BS) by a coupler (CP),
The connecting portion is characterized in that the filling at the same time as the slab concrete (not shown),
The coupler CP is omitted,
The beam connecting reinforcement (RB),
The beam connection penetrating the center of the connecting portion to form an overlapping portion (A) overlapping the bottom reinforcement (BS) and the end is bent vertically and then cut and the bent portion becomes the bent portion (BRB```). Reinforcing bars (RB `` `);
The upper end of the bent portion (BRB```) is a connecting structure of a composite PC beam and a composite PC column having an improved steel connection, characterized in that the horizontal bending in the direction of the bobbin (BB).
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