KR20240022843A - Shear reinforcing bar assembly using bar-chair unit and construction method thereof - Google Patents

Abstract

In the present invention, a bar chair unit is mounted on the upper part of the lower slab reinforcement bar so that they are spaced apart from each other in four directions around a pillar, and a plurality of internal shear reinforcing bars are combined with the upper slab reinforcement bar provided on the upper part of the bar chair unit facing each other to provide variable installation. This is about a shear reinforcing bar assembly using a bar chair unit that is possible and has excellent constructability and economic efficiency.
The shear reinforcing bar assembly using the bar chair unit of the present invention is embedded and installed inside a slab joined to a pillar, and is mounted on the upper part of the lower rebar of the slab so as to be spaced apart from each other in four directions around the pillar, and the upper rebar of the slab is placed on the upper part of the bar chair unit. This mounted bar chair unit; And a plurality of internal shear reinforcing bars coupled to the upper reinforcing bars of the slab mounted on the upper part of the pair of bar chair units between a pair of spaced apart bar chair units facing each other. It is characterized by being composed of.

Description

Shear reinforcing bar assembly using bar-chair unit and construction method thereof}

In the present invention, a bar chair unit is mounted on the upper part of the lower slab reinforcement bar so that they are spaced apart from each other in four directions around a pillar, and a plurality of internal shear reinforcing bars are combined with the upper slab reinforcement bar provided on the upper part of the bar chair unit facing each other to provide variable installation. This is about a shear reinforcing bar assembly using a bar chair unit that is possible and has excellent constructability and economic efficiency.

In the case of a flat plate structure where the slab is directly supported on a column without beams, or a foundation plate constructed on top of the ground, the slab and column are directly connected.

Therefore, local stress concentration may occur around the column, which may lead to punching shear failure of the floor slab around the column.

Penetrating shear failure occurs around the column upward and outward (downward and outward in the case of foundation plates) at an angle of approximately 45°. The failure pattern is very brittle, so special care is required to prevent shear failure during design.

Previously, shear reinforcement bars were installed on the floor slab around the column to prevent such piercing shear failure.

For example, there is a technology that arranges multiple stirrups in a + shape outside the rebar that penetrates the column joint. However, because the stirrup is formed in a closed form, the task of inserting and installing the slab rebar into the stirrup is cumbersome.

Registered Patent No. 10-1557388 also surrounds the outside of four straight positioning reinforcing bars with a first stirrup, and wraps the first stirrups with a second stirrup in a direction perpendicular to the first stirrup to form a reinforcing bar assembly unit for shear reinforcement. . However, this technology has the disadvantage of lowering productivity and increasing costs because the assembly of the stirrup is very complicated and automatic production is difficult.

Additionally, there is a technology that bolts multiple stud bolts to a steel strip and arranges them in two rows in each direction around the column. However, the use of steel plates and stud bolts increases costs.

Registration Patent No. 10-0947339 also has the disadvantage of forming a shear reinforcement structure using steel, so it requires a large amount of steel, making it uneconomical, and making it difficult to fix the position when pouring concrete.

In addition, the reinforcement range of the shear reinforcement structure is determined depending on the cross-sectional size of the column or the thickness of the slab, etc. However, the above conventional technology uses steel strips or guide plates of a fixed length, so the variability due to changes in member size is low.

In order to solve the above problems, the present invention is intended to prevent shear failure at the slab-column joint, and is intended to provide a shear reinforcing bar assembly using a bar chair unit that is easy to construct, allows variable installation, and is highly economical. .

The present invention according to a preferred embodiment relates to a shear reinforcing bar assembly embedded and installed inside a slab joined to a column. It is mounted on the upper part of the lower rebar of the slab so as to be spaced apart from each other in four directions centered on the column, and is installed on the top of the slab. Bar chair unit on which the upper rebar is mounted; And a plurality of internal shear reinforcing bars coupled to the upper reinforcing bars of the slab mounted on the upper part of the pair of bar chair units between a pair of spaced apart bar chair units facing each other. It provides a shear reinforcing bar assembly using a bar chair unit, characterized in that it consists of.

The present invention according to another preferred embodiment is that the internal shear reinforcing bars have a horizontal portion mounted on the upper part of the upper reinforcing bars in a direction perpendicular to the upper reinforcing bars so as to cross the plurality of rows of upper reinforcing bars on which the internal shear reinforcing bars are mounted. Provided is a shear reinforcing bar assembly using a bar chair unit, characterized in that it consists of a pair of vertical parts bent downward at both ends.

The present invention according to another preferred embodiment is that the bar chair unit includes a horizontal part on which the upper reinforcing bar of the slab is mounted, a vertical part bent downward at both ends of the horizontal part, and horizontally bent outward at the ends of the vertical part to form an upper part of the lower reinforcing bar of the slab. It provides a shear rebar assembly using a bar chair unit, wherein a plurality of rows of end shear rebars composed of supports mounted on are arranged in two directions so as to be perpendicular to each other.

The present invention according to another preferred embodiment is for constructing a shear rebar assembly using the bar chair unit, including the steps of (a) arranging the lower rebar of the slab; (b) mounting the bar chair unit on the upper part of the lower rebar and fixing it to the lower rebar so that they are spaced apart from each other in four directions around the position where the pillar is to be constructed; (c) fixing a plurality of rows of upper reinforcing bars to the upper part of a pair of facing bar chair units centered on the positions of the pillars and fixing them to the bar chair units; And (d) installing a plurality of internal shear reinforcing bars to the upper reinforcing bars mounted on the upper part of the pair of bar chair units between the pair of bar chair units facing each other and fixing them to the upper reinforcing bars; It provides a construction method of a shear rebar assembly using a bar chair unit, characterized in that it consists of.

According to the present invention, bar chair units are mounted on the upper part of the lower slab reinforcement bar so that they are spaced apart from each other in four directions around the pillar, and a plurality of internal shear reinforcing bars are mounted and connected to the upper slab reinforcement bar provided on the upper part of the bar chair unit facing each other. It is possible to provide a shear rebar assembly using a bar chair unit.

Therefore, since the internal shear reinforcing bar can be mounted using the upper slab reinforcing bar, the composition of the internal shear reinforcing bar is simple, greatly improving productivity and constructability.

Additionally, the size of the bar chair unit can be adjusted according to changes in slab thickness or column cross-section size, providing excellent variability.

In addition, since bar chair units composed of end-end reinforcement bars that are orthogonal to each other can be produced at the factory through automatic bending and automatic welding, it is economical to improve manufacturability and reduce costs.

Figure 1 is a perspective view showing a shear rebar assembly using a bar chair unit of the present invention installed inside a slab.
Figure 2 is a perspective view showing the shear reinforcing bar assembly of the present invention.
Figure 3 is a perspective view showing internal shear reinforcing bars.
Figure 4 is a perspective view showing internal shear reinforcing bars coupled to upper reinforcing bars.
Figure 5 is a perspective view showing an internal shear reinforcing bar provided with an anchoring portion.
Figure 6 is a perspective view showing end shear reinforcing bars.
Figure 7 is a perspective view showing a bar chair unit.
Figure 8 is a perspective view showing another embodiment of the bar chair unit.
Figures 9 to 12 are diagrams showing step-by-step processes for the construction method of a shear rebar assembly using the bar chair unit of the present invention.

Hereinafter, the present invention will be described in detail according to the accompanying drawings and preferred embodiments.

Figure 1 is a perspective view showing a shear rebar assembly using a bar chair unit of the present invention installed inside a slab, and Figure 2 is a perspective view showing a shear rebar assembly of the present invention.

As shown in Figures 1 and 2, the shear reinforcing bar assembly using the bar chair unit of the present invention is embedded and installed inside the slab (2) joined to the pillar (1), centered around the pillar (1) A bar chair unit (4) on which the upper reinforcing bar (22) of the slab (2) is mounted on the upper part of the lower reinforcing bar (21) of the slab (2) so as to be spaced apart from each other in four directions; And a plurality of internal shear reinforcements coupled to the upper reinforcing bar 22 of the slab 2 mounted on the upper part of the pair of bar chair units 4 between a pair of spaced apart bar chair units 4 facing each other. rebar (5); It is characterized by being composed of.

The present invention is intended to prevent piercing shear failure at the slab-column joint, and to provide a shear reinforcing bar assembly using a bar chair unit that is easy to construct, allows variable installation, and is highly economical.

The shear reinforcing bar assembly (3) of the present invention is embedded and installed at the joint of the column (1) inside the slab (2) joined to the column (1).

The shear reinforcing bar assembly (3) consists of four bar chair units (4) and a plurality of internal shear reinforcing bars (5).

Here, the slab 2 is a concept that includes not only the bottom plate of each floor composed of mass plates but also the lowest base plate.

The bar chair unit 4 is mounted on the upper part of the lower reinforcing bar 21 placed on the slab 2, and four of them are arranged to be spaced apart in four directions around the column 1 connected to the slab 2.

That is, the two bar chair units 4 facing each other are arranged symmetrically around the pillar 1, and the two bar chair units 4 in the direction perpendicular to this are arranged symmetrically around the pillar 1. It is placed.

The bar chair unit 4 is provided outside the dangerous section, that is, d/2 (d=effective depth of slab) on the outer surface of the column 1.

When constructing a floor slab, the upper reinforcing bars (22) and lower reinforcing bars (21) placed inside the slab (2) are arranged vertically and spaced apart from each other, so after placing the lower reinforcing bars (21), a separate support reinforcing bar is installed on the upper part of the lower reinforcing bars (21). (Right reinforcing bars) must be installed.

The bar chair unit (4) can serve as a support reinforcement when arranging the upper reinforcement (22) of the slab (2).

To this end, the height of the bar chair unit 4 can be set to be equal to the distance between the lower reinforcing bar 21 and the upper reinforcing bar 22 of the slab (2).

On the upper part of the facing bar chair unit (4), the upper reinforcing bars (22) of the slab (2) are mounted in multiple rows.

The bar chair unit 4 has excellent variability because its size can be adjusted according to changes in the thickness of the slab 2 or the cross-sectional size of the column 1.

The internal shear reinforcing bar (5) is an upper reinforcing bar (22) of the slab (2) mounted on the upper part of the pair of bar chair units (4) between a pair of bar chair units (4) facing each other and spaced apart from each other. is bound to (Figure 4).

That is, the internal shear reinforcing bar (5) is coupled to the upper part of the upper reinforcing bar (22) of the slab (2) mounted on the upper part of the bar chair unit (4).

The internal shear reinforcing bar (5) is installed on the outside of the column (1) between the bar chair units (4) on both sides. A plurality of the internal shear reinforcing bars 5 may be installed to be spaced apart from each other in the longitudinal direction of the upper reinforcing bars 22.

The internal shear reinforcing bar (5) improves resistance to piercing shear at the slab critical cross section.

The internal shear reinforcing bar (5) is mounted on the upper reinforcing bar (22) of the slab (2) by using the upper reinforcing bar (22) of the existing slab (2). Therefore, the internal shear reinforcing bar (5) can be formed in a very simple configuration, has excellent productivity, and is easy to construct.

The internal shear reinforcing bar (5) is installed after arranging the upper reinforcing bar (22) of the slab (2), and can be temporarily fixed with the upper reinforcing bar (22) and a tie line.

Figure 3 is a perspective view showing an internal shear reinforcing bar, Figure 4 is a perspective view showing an internal shear reinforcing bar coupled to an upper reinforcing bar, and Figure 5 is a perspective view showing an internal shear reinforcing bar provided with an anchoring portion.

As shown in FIGS. 3 to 5, the internal shear reinforcing bars 5 are oriented perpendicular to the upper reinforcing bars 22 so as to cross the plurality of rows of upper reinforcing bars 22 on which the internal shear reinforcing bars 5 are mounted. It may be composed of a horizontal portion 51 mounted on the upper reinforcing bar 22 and a pair of vertical portions 52 each bent downward at both ends of the horizontal portion 51.

The internal shear reinforcing bar 5 may be formed of a horizontal portion 51 and a pair of vertical portions 52 bent at both ends of the horizontal portion 51, respectively, to form a U-shape with an open lower portion.

The horizontal portion 51 is a portion mounted on the upper reinforcing bar 22 of the slab 2, and can be temporarily fixed by the upper reinforcing bar 22 and a tie line.

The vertical portion 52 is bent downward at both ends of the horizontal portion 51, and prevents puncture shear failure by crossing the puncture shear failure surface at the critical cross section.

When installing the internal shear reinforcing bar (5) to the upper reinforcing bar (22), the vertical portion (52) is formed to slope downward to the outside so that the plurality of rows of upper reinforcing bars (22) are easily accommodated in the lower part of the internal shear reinforcing bar (5). It is desirable.

The internal shear reinforcing bar (5) can be formed in a U-shape to be simply mounted on the upper reinforcing bar (22) by utilizing the existing upper reinforcing bar (22) placed in the slab (2). Therefore, the shape is simple, so processing is very easy, and installation is also simple, greatly improving constructability.

At the bottom of the vertical portion 52 of the internal shear reinforcing bar 5, a fixing portion 53 bent in the outer or inner horizontal direction may be formed to be more firmly anchored inside the slab 2 (see Figure 5). a) and (b)).

Figure 6 is a perspective view showing an end shear reinforcing bar, and Figure 7 is a perspective view showing a bar chair unit.

As shown in FIGS. 6 and 7, the bar chair unit 4 may be constructed by combining a plurality of rows of end shear reinforcing bars 40 with connecting bars 44.

The end shear reinforcing bar 40 includes a horizontal portion 41 on which the upper reinforcing bar 22 of the slab 2 is mounted, a vertical portion 42 bent downward at both ends of the horizontal portion 41, and the vertical portion ( It may be composed of a support portion 43 that is horizontally bent outward at the end of 42) and mounted on the upper part of the lower reinforcing bar 21 of the slab 2. At this time, the bar chair unit 4 arranges the end shear reinforcing bars 40 in a direction perpendicular to the upper reinforcing bars 22 on which they are mounted, and connects reinforcing bars 44 across the plural rows of end shear reinforcing bars 40. Connect the neighboring end shear reinforcing bars (40).

Figure 8 is a perspective view showing another embodiment of the bar chair unit.

As shown in Figure 8, the bar chair unit 4 has a horizontal portion 41 on which the upper reinforcing bar 22 of the slab 2 is mounted and a vertical portion bent downward at both ends of the horizontal portion 41 ( 42) and a support portion 43 that is horizontally bent outward at the end of the vertical portion 42 and mounted on the upper portion of the lower reinforcing bar 21 of the slab 2. A plurality of rows of end shear reinforcing bars 40 are orthogonal to each other. It can be arranged and configured in two directions.

The bar chair unit 4 may be configured by arranging two sets of plural rows of end shear reinforcing bars 40 to be perpendicular to each other.

Each end shear reinforcing bar 40 may be formed in a U-shape with an open lower part, similar to the internal shear reinforcing bar 5.

That is, the end shear reinforcing bar 40 is composed of a horizontal portion 41 in the horizontal direction and a vertical portion 42 integrally bent downward at both ends of the horizontal portion 41, and in addition, the slab 2 The support part 43 may be formed by bending horizontally outward at the lower part of the vertical part 42 so as to be mounted on the upper part of the lower reinforcing bar 21.

The end shear reinforcing bars 40 orthogonal to each other reinforce the slab 2 in two directions.

Accordingly, the ductility of the slab (2) around the column (1) reinforced by the end of the shear rebar assembly (3) is greatly increased.

That is, the end shear reinforcing bar 40 disposed in parallel with the internal shear reinforcing bar 5 penetrates the shear crack surface in the same way as the internal shear reinforcing bar 5 and resists piercing shear. And the end shear reinforcing bar 40 disposed in a direction perpendicular to the internal shear reinforcing bar 5 serves to anchor the end of the shear reinforcing bar assembly 3 within the slab 2, thereby forming a column ( 1) Increase the ductility of the surrounding slab (2).

The end shear reinforcing bars 40 constituting the bar chair unit 4 have a very simple shape. In addition, since the orthogonal end shear reinforcing bars 40 can be arranged at regular left and right intervals, automatic welding and automatic bending are easy.

Accordingly, the bar chair unit 4 can be brought into the field by pre-assembling end end reinforcement bars 40 that are orthogonal to each other by automatic bending and automatic welding at a factory, thereby improving manufacturability and reducing costs.

The bar chair unit 4 not only plays a structural role, but also serves as a support reinforcement supporting the upper reinforcement 22. Therefore, the vertical portion 42 of the end shear reinforcing bar 40 can be formed to be inclined downward and outward to stably support the upper reinforcing bar 22.

The bar chair unit (4) is fixed by fixing the lower support portion (43) to the lower reinforcing bar (21) with a tie line, and then placing the upper reinforcing bar (22) on the upper part of the bar chair unit (4). , Construction can also be done by fixing the upper reinforcing bar (22) to the bar chair unit (4) using a tie line.

Figures 9 to 12 are diagrams showing step-by-step processes for the construction method of a shear reinforcing bar assembly using the bar chair unit of the present invention.

The method of constructing a shear rebar assembly using the bar chair unit of the present invention relates to a method of constructing a shear rebar assembly using the bar chair unit of the present invention described above.

In the present invention, (a) the step of reinforcing the lower reinforcement 21 of the slab 2 is first performed (FIG. 9).

That is, after installing the slab formwork, lower reinforcement bars (21) are placed in the vertical and horizontal directions on the upper part of the formwork.

When the slab (2) is a base plate, the lower reinforcing bars (21) can be placed on the ground or the upper part of the lower abandoned concrete without a formwork.

In order to secure the covering thickness of the lower reinforcing bar 21, the lower part of the lower reinforcing bar 21 may be supported with a spacer or a bar chair.

Next, (b) the bar chair unit (4) is mounted on the upper part of the lower reinforcing bar (21) and fixed to the lower reinforcing bar (21) so that they are spaced apart from each other in four directions around the position where the pillar (1) is to be constructed ( Figure 10).

In step (b), the bar chair unit (4) is mounted on the upper part of the lower reinforcing bar (21) arranged in two directions: vertically and horizontally.

The bar chair units 4 are arranged to be spaced apart from each other in four directions. The bar chair unit 4 may be provided at a distance of more than d/2 from the surface of each pillar 1 at the position where the pillar 1 is installed.

The bar chair unit 4 is formed by bending and assembling a plurality of reinforcing bars. The height is the same as the interval between the upper and lower reinforcing bars 21 and 22 of the slab 2, and the upper part can be formed to be flat.

The bar chair unit (4) is fixed in situ to the lower reinforcing bar (21) using a tie line, etc.

The bar chair unit (4) can be placed in an appropriate position according to the thickness of the slab (2) and the cross-sectional size of the pillar (1), and depending on the change in the thickness of the slab (2) or the cross-sectional size of the pillar (1) Variability is excellent.

And (c) a plurality of rows of upper reinforcing bars 22 are mounted on the upper part of each pair of bar chair units 4 facing each other around the position of the pillar 1 and fixed to the bar chair unit 4 (FIG. 11 ).

The upper reinforcing bar 22 of the slab 2 is mounted on the upper part of the bar chair unit 4.

Since the upper reinforcing bar 22 is arranged in two directions, longitudinally and horizontally, like the lower reinforcing bar 21, the upper reinforcing bar 22 is placed on top of a pair of bar chair units 4 facing in a direction parallel to each direction in which the upper reinforcing bar 22 is placed. Mount the rebar (22).

The upper reinforcing bar 22 is mounted on the upper flat surface of the bar chair unit 4 and then fixed in situ with a tie wire, etc.

Finally, (d) a plurality of internal shear reinforcing bars ( 5) Install and secure to the upper reinforcing bar (22) (Figure 12).

A plurality of internal shear reinforcing bars (5) can be installed to be spaced apart from each other in the plurality of rows of upper reinforcing bars (22) mounted on the upper part of a pair of bar chair units (4) facing each other.

Two pairs of bar chair units 4 facing each other are arranged to be perpendicular to each other, and accordingly, the upper reinforcing bars 22 are also arranged to be perpendicular to each other in two directions. Therefore, the internal shear reinforcing bars 5 are also arranged in rows orthogonal to each other.

The internal shear reinforcing bar (5) is fixed in situ to the upper reinforcing bar (22) by a tie wire, etc.

1: pillar
2: slab
21: Lower rebar
22: Upper rebar
3: Shear rebar assembly
4: Bar chair unit
40: End shear rebar
41: horizontal part
42: vertical part
43: support part
5: Internal shear rebar
51: horizontal part
52: vertical part
53: Fusing unit

Claims (4)

It relates to a shear reinforcing bar assembly (3) embedded and installed inside a slab (2) joined to a column (1),
A bar chair unit (4) mounted on the lower reinforcing bar (21) of the slab (2) so as to be spaced apart from each other in four directions around the pillar (1) and on which the upper reinforcing bar (22) of the slab (2) is mounted; and
A plurality of internal shear reinforcing bars coupled to the upper reinforcing bars 22 of the slab (2) mounted on the upper part of the pair of bar chair units (4) between a pair of bar chair units (4) facing each other and spaced apart from each other. (5); Shear reinforcing bar assembly using a bar chair unit, characterized in that it consists of.
In paragraph 1:
The internal shear reinforcing bar (5) is mounted on the upper part of the upper reinforcing bar (22) in a direction perpendicular to the upper reinforcing bar (22) so as to cross the plural rows of upper reinforcing bars (22) on which the internal shear reinforcing bar (5) is mounted. A shear rebar assembly using a bar chair unit, characterized in that it consists of a horizontal portion (51) and a pair of vertical portions (52) bent downward at both ends of the horizontal portion (51).
In paragraph 1:
The bar chair unit 4 includes a horizontal portion 41 on which the upper reinforcing bar 22 of the slab 2 is mounted, a vertical portion 42 bent downward at both ends of the horizontal portion 41, and the vertical portion 42. ) is horizontally bent outward at the end of the slab (2) and consists of a support portion (43) mounted on the lower reinforcing bar (21) of the slab (2). It is characterized by being arranged in two directions so as to be perpendicular to each other. Shear rebar assembly using a bar chair unit.
To construct a shear reinforcing bar assembly using the bar chair unit according to paragraph 1,
(a) reinforcing the lower reinforcement (21) of the slab (2);
(b) fixing the bar chair unit (4) to the upper part of the lower reinforcing bar (21) so that they are spaced apart from each other in four directions around the position where the pillar (1) is to be constructed;
(c) placing a plurality of rows of upper reinforcement bars (22) on the upper part of a pair of bar chair units (4) facing each other around the position of the pillar (1) and fixing them to the bar chair unit (4); and
(d) a plurality of internal shear reinforcing bars (5) on the upper reinforcing bars (22) mounted on the upper part of the pair of bar chair units (4) between the pair of bar chair units (4) facing each other and spaced apart from each other. Installing and fixing to the upper reinforcing bar (22); A method of constructing a shear rebar assembly using a bar chair unit, characterized in that it consists of:

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