KR20200107209A - Shear wall reinforced with steel plate - Google Patents

Abstract

The present invention relates to a shear wall for reinforcing a steel plate, which embeds a strip-shaped reinforcing strip steel plate having a long length in a vertical direction in a reinforced concrete wall main body provided between upper and lower slabs or beams, thereby efficiently supporting a gravity load and a lateral load without an increase in a thickness of the shear wall and being easily constructed. The shear wall for reinforcing a steel plate of the present invention comprises: a wall main body made of reinforced concrete to be provided between upper and lower slabs or beams; and a strip-shaped reinforcing strip steel plate embedded in the wall main body in the vertical direction.

Description

Shear wall reinforced with steel plate}

The present invention embeds a long strip-shaped reinforcing strip steel plate in a vertical direction in the interior of the reinforced concrete wall body provided between the upper and lower slabs or beams, thereby effectively reducing the gravitational load and lateral load without increasing the thickness of the shear wall due to the increase in load. It is for a steel sheet reinforced shear wall that is supported by and easy to construct.

A high-rise building with a large building size and height has a significant weight of the building itself. Therefore, a gravity resistance system is also required to support the gravitational load under vertical load, but the effect of lateral loads such as earthquake loads and wind loads is also large, so a lateral force resistance system must be provided to support it.

To this end, a core structure is placed in the center of the building to support both gravitational and lateral loads, or walls are placed between generations.For core structures or intergenerational walls, a concrete shear wall with high rigidity and low construction cost is generally used. It is mainly used.

In order to secure the axial or shear stiffness of the shear wall, a method of increasing the strength of concrete or increasing the amount of reinforcement may be considered.

Among them, the method of increasing the concrete strength may reduce the ductility of the shear wall. In addition, the method of increasing the amount of reinforcing bars within the limited width and size of the wall has a problem in that it is difficult to secure reinforcing bar spacing, and it is difficult to place concrete.

Therefore, there is a limit to securing the wall rigidity only by increasing the concrete strength or the amount of reinforcement, and as a result, the wall thickness has to be increased.

However, since the actual area of the building is determined by the discerning dimension based on the inside of the wall, it is inevitable to decrease the actual use area or rental area when the wall thickness increases.

KR 10-2014-0069752 A

In order to solve the above problems, the present invention is to provide a steel sheet reinforced shear wall that is easy to construct while efficiently supporting gravitational load and lateral load within a limited thickness without increasing the thickness of the shear wall.

The present invention according to a preferred embodiment is composed of a reinforced concrete wall body provided between the upper and lower slabs or beams; And a strip-shaped reinforcing strip steel plate embedded in the wall body in a vertical direction. It provides a steel sheet reinforced shear wall, characterized in that consisting of.

The present invention according to another preferred embodiment is characterized in that the reinforcing strip steel sheet of the lower layer is formed to protrude from the upper layer of the slab or beam, and the reinforcement strip steel sheet of the upper layer is bolted to the upper reinforcing strip steel sheet of the lower layer by a joint plate. Provides a shear wall for reinforced steel sheet.

The present invention according to another preferred embodiment provides a steel plate reinforced shear wall, characterized in that the support plates mounted on the horizontal reinforcement of the slab or beam are coupled in a horizontal direction to both sides of the reinforcing strip steel plate.

The present invention according to another preferred embodiment provides a steel plate reinforcement shear wall, characterized in that a rib plate is coupled to one side of the reinforcement strip steel plate in a direction orthogonal to the reinforcement strip steel plate.

The present invention according to another preferred embodiment provides a steel sheet reinforced shear wall, characterized in that a plurality of shear connectors are coupled to both sides of the reinforcing strip steel sheet.

The present invention according to another preferred embodiment provides a steel sheet reinforced shear wall, characterized in that a plurality of flow holes are formed in the reinforcing strip steel sheet.

According to the present invention, a reinforced concrete wall body provided between the upper and lower slabs or beams is embedded in a reinforced concrete wall body having a long length in a vertical direction, thereby reducing the gravitational load and lateral load within a limited thickness without increasing the thickness of the shear wall. It is possible to provide a steel sheet reinforced shear wall that is easily supported while being efficiently supported.

1 is a front view showing the present invention steel plate reinforced shear wall.
FIG. 2 is a cross-sectional view taken along line A-A' of FIG. 1;
3 is a cross-sectional view taken along line B-B' of FIG. 1;
Figure 4 is a perspective view showing an embodiment of a reinforcing strip steel plate.
5 is a perspective view showing a coupling relationship between the reinforcing strip steel plates of the upper layer and the lower layer.
6 is a perspective view showing a state in which a support plate provided on a reinforcing strip steel plate is mounted on a horizontal reinforcing bar.
7 is a perspective view showing a state in which a support plate provided on a reinforcing strip steel plate is coupled to a horizontal reinforcing bar perpendicular to the top and bottom.
Figure 8 is a perspective view showing a reinforcing strip steel plate provided with a rib plate.
Figure 9 is a perspective view showing a reinforcing strip steel plate provided with a shear connector.
10 is a perspective view showing a reinforcing strip steel plate in which flow holes are formed.

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

1 is a front view showing the present invention steel plate reinforced shear wall, FIG. 2 is a cross-sectional view taken along line A-A' of FIG. 1, and FIG. 3 is a cross-sectional view taken along line B-B' of FIG. And Figure 4 is a perspective view showing an embodiment of the reinforcing strip steel plate.

As shown in Figures 1 to 4, the present invention steel sheet reinforced shear wall is composed of reinforced concrete, the wall body 2 provided between the upper and lower slabs or beams (1); And a strip-shaped reinforcing strip steel plate 3 embedded in the wall body 2 in a vertical direction. It characterized in that it consists of.

The present invention is to provide a steel sheet reinforced shear wall that is easy to construct while efficiently supporting a gravitational load and a lateral load within a limited wall thickness without increasing the thickness of the shear wall.

The steel plate reinforcement shear wall of the present invention is applied to a newly constructed structure, and the reinforced concrete wall main body 2 provided between the upper and lower slabs or beams 1 in which the reinforcing strip steel plate 3 in the shape of a long strip in the vertical direction is provided. It is buried inside.

The reinforcing strip steel plate 3 may be provided only in a single layer, but may be provided continuously in a plurality of layers.

The reinforcing strip steel plate 3 is provided between the vertical reinforcing bars 21 and the horizontal reinforcing bars 22 of the wall at the center of the wall body 2 in cross section.

The reinforcing strip steel plate 3 is provided in a strip shape with a width of about 300 mm in width, so that the shear wall can be efficiently reinforced without disturbing concrete placement.

The reinforcing strip steel plate 3 is for securing axial rigidity and shear rigidity of the shear wall, and may be provided over the entire height of the shear wall. Alternatively, the reinforcing strip steel plate 3 may be provided only under the shear wall where the axial force and the shear force act greatly.

The reinforcing strip steel plate 3 may be provided in one or multiple rows depending on the magnitude of the axial force and the shear force.

5 is a perspective view showing a coupling relationship between the reinforcing strip steel plates of the upper layer and the lower layer.

1, 5, etc., the reinforcing strip steel plate 3a of the lower layer is formed to protrude to the upper part of the upper slab or beam 1, and the reinforcing strip steel plate 3b of the upper layer is the reinforcing strip steel plate of the lower layer ( 3a) It can be configured to be bolted by a joint plate 30 on the upper part.

The reinforcing strip steel plate 3 may be provided only in a single layer, but may be continuously provided in a plurality of layers in order to reinforce the entire area where shear force and axial force act greatly.

However, in the latter case, since the shear wall uses the slab and the lower wall as a unit and separates concrete for each floor, the reinforcement strip steel plate (3) must be cut to fit the height of the floor and constructed separately as the wall vertical reinforcement (21). do.

Therefore, the shear wall of the corresponding layer should be connected by dividing the reinforcing strip steel plate 3 at an appropriate location.

At this time, the reinforcing strip steel plates 3a and 3b divided up and down in the corresponding layer may be connected by the joint plate 30. The joint plate 30 may be coupled by passing a bolt against both sides of the joint of the reinforcement strip steel plate 3b of the upper layer and the reinforcement strip steel plate 3a of the lower layer (Fig. 5).

In general, the wall vertical reinforcement 21 is configured to protrude to the upper part of the slab by the length of the joint in consideration of the joint length. However, since the reinforcing strip steel plates 3a and 3b are mechanically connected by the joint plate 30 and the bolt, it is not necessary to consider the joint length like reinforcing bars.

However, for convenience in the construction of the reinforcing strip steel plates 3a and 3b, the length of the reinforcing strip steel plate 3a of the lower layer protrudes to the top of the slab or beam 1 by matching the joint length of the lower vertical reinforcing bar 21 It is desirable to adjust.

6 is a perspective view showing a state in which a support plate provided on a reinforcing strip steel plate is mounted on a horizontal reinforcing bar, and FIG. 7 is a perspective view showing a state in which a support plate provided on the reinforcement strip steel plate is coupled to a horizontal reinforcing bar perpendicular to the top and bottom.

As shown in FIGS. 4, 6, 7, etc., support plates 31 mounted on horizontal reinforcing bars 11 of slabs or beams 1 are mounted on both sides of the reinforcing strip steel plate 3 in a horizontal direction. I can.

Unlike the steel plate reinforcement method of attaching the steel plate to the existing wall, in the present invention, since the reinforcement strip steel plate 3 is provided inside the new wall, it may be difficult to fix the position of the reinforcement strip steel plate 3. In addition, when the position of the reinforcing strip steel plate 3 is shifted to one side during concrete pouring of the wall body 2, it is difficult to secure a minimum instantaneous distance with the reinforcing bar of the wall body.

Therefore, by combining the support plate 31 on both sides of the reinforcing strip steel plate 3 in the horizontal direction, and mounting the support plate 31 on the horizontal reinforcing bar 11 of the slab or beam 1, the You can make the position fixed.

Accordingly, the upper portion of the reinforcing strip steel plate 3 is supported by a support plate 31 in a structure suspended above the horizontal reinforcing bar 11. And the lower end of the reinforcing strip steel plate 3 is connected to the upper end of the reinforcing strip steel plate 3a of the lower layer to be supported. Therefore, since the reinforcing strip steel plate 3 is accurately positioned in the center of the wall body 2, it is possible to prevent a positional change of the reinforcing strip steel plate 3 during concrete pouring.

In addition, the support plate 31 is formed protruding from the side of the reinforcing strip steel plate 3 to be embedded in the slab or beam 1 concrete. Therefore, the support plate 31 can improve the integrity of the reinforcing strip steel plate 3 and concrete by acting as a shear connector.

It is preferable that the support plate 31 is provided in a pair of top and bottom to be spaced apart from each other for stable support of the reinforcing strip steel plate 3, and is configured to be supported on the upper and lower horizontal reinforcing bars 11 of the slab or beam 1, respectively. Do.

The support plate 31 is mounted on the horizontal reinforcing bar 11 reinforced along the arrangement direction of the reinforcing strip steel plate 3, that is, the direction of the wall body 2.

At this time, as shown in FIG. 7, the horizontal reinforcing bar 11 ′ of the slab or beam 1 disposed in a direction perpendicular to the horizontal reinforcing bar 11 and cut by the reinforcing steel plate 3 It can be welded to the upper support plate 31. In this way, it is possible to maintain the continuity of the horizontal reinforcing bar 11' at the wall junction.

8 is a perspective view showing a reinforcing strip steel plate provided with a rib plate.

As shown in FIG. 8, a rib plate 32 may be coupled to one side of the reinforcing strip steel plate 3 in a direction orthogonal to the reinforcing strip steel plate 3.

Since the reinforcing strip steel plate 3 is a member having a long vertical and thin thickness, warping may occur during the installation process of the reinforcing strip steel plate 3 or during the concrete pouring process.

Therefore, the rib plate 32 is coupled to one side of the reinforcing strip steel plate 3 in a direction orthogonal to the reinforcing strip steel plate 3 so that the rib plate 32 and the reinforcing strip steel plate 3 form a T shape in cross section as a whole. By doing so, it is possible to increase the bending stiffness of the reinforcing strip steel plate 3 and to facilitate self-standing during installation.

In addition, the rib plate 32 is buried in the concrete inside the wall body 2 to improve the integrity of the reinforcing strip steel plate 3 and the concrete while increasing the rigidity of the shear wall.

In addition, the rib plate 32 is supported by the horizontal reinforcing bar 22 on one side of the wall body 2 to maintain a gap between the horizontal reinforcing bar 22 and the reinforcing strip steel plate 3.

9 is a perspective view showing a reinforcing strip steel plate provided with a shear connector.

As shown in FIG. 9, a plurality of shear connectors 33 may be coupled to both sides of the reinforcing strip steel plate 3.

In order to integrate the reinforcing strip steel plate 3 with the concrete of the wall body 2, shear connectors 33 such as shear studs or bolts may be coupled to both sides of the reinforcing strip steel plate 3.

Alternatively, as shown in FIG. 9, after forming a through hole 34 in the reinforcing strip steel plate 3 and inserting the threaded steel bar 331 into the through hole 34, both sides of the steel bar 331 By fixing with the nut 332, it is possible to couple the shear connector 33 to the reinforcing strip steel plate 3 without a welding process.

The shear connector 33 may be provided in a plurality of rows over the entire length of the reinforcing strip steel plate 3.

10 is a perspective view showing a reinforcing strip steel plate in which flow holes are formed.

As shown in FIG. 10, a plurality of flow holes 35 may be formed in the reinforcing strip steel plate 3.

In the present invention, the wall body 2 is divided to the left and right by the reinforcing strip steel plate 3. Therefore, when the flow hole 35 is formed through the reinforcing strip steel plate 3, the flow of concrete can be easily performed through the flow hole 35 when concrete is placed. In addition, since the inside of the flow hole 35 is filled with concrete, the integrity with concrete can be improved.

The flow hole 35 may be formed in a circular shape as shown in (a) of FIG. 10 or a square as shown in (b) of FIG. 10, and may be formed in various shapes.

The flow hole 35 may be formed to be spaced apart from each other so as not to interfere with each other with the support plate 31, the rib plate 32, or the shear connector 33.

In addition, although not shown in the drawings, when the flow hole 35 is formed, the reinforcing strip steel plate 3 is not completely cut out according to the shape of the flow hole 35, and only a part of the reinforcing strip steel plate 3 is cut and the cut portion is It is also possible to bend vertically and use as the shear connector 33.

1: slab or beam
11: horizontal reinforcement
2: wall body
21: vertical reinforcement
22: horizontal reinforcement
3: reinforcement strip steel plate
3a: Reinforcement strip steel plate of the lower layer
3b: reinforcement strip steel plate of the upper layer
30: joint plate
31: support plate
32: rib plate
33: shear connector
331: steel rod
332: nut
34: through hole
35: flow hole

Claims (6)

A wall body (2) composed of reinforced concrete and provided between the upper and lower slabs or beams (1); And
A strip-shaped reinforcing strip steel plate (3) embedded in the wall body (2) in a vertical direction; Steel sheet reinforced shear wall, characterized in that consisting of.
In claim 1,
The reinforcement strip steel plate (3a) of the lower layer is formed to protrude to the top of the upper slab or beam (1), and the reinforcement strip steel plate (3b) of the upper layer is formed by a joint plate (30) on the upper reinforcement strip steel plate (3a) of the lower layer. Steel sheet reinforced shear wall, characterized in that the bolt joint.
In claim 1,
A steel plate reinforcement shear wall, characterized in that the support plate 31 mounted on the horizontal reinforcing bar 11 of the slab or beam 1 is coupled in a horizontal direction on both sides of the reinforcing strip steel plate 3.
In claim 1,
A steel plate reinforcement shear wall, characterized in that a rib plate (32) is coupled to one side of the reinforcement strip steel plate (3) in a direction orthogonal to the reinforcement strip steel plate (3).
In claim 1,
A steel plate reinforcement shear wall, characterized in that a plurality of shear connectors (33) are coupled to both sides of the reinforcing strip steel plate (3).
In claim 1,
The steel plate reinforcement shear wall, characterized in that a plurality of flow holes (35) are formed in the reinforcing strip steel plate (3).

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