KR20130090664A - Method for reinforcing hollow core slab and hollow core slab thereof - Google Patents

Abstract

PURPOSE: A reinforcement method of a hollow slab and a hollow slab thereby are provided to reinforce both ends of a hollow slab using reinforcement metals and topping concrete even if a high load is applied to the hollow slab. CONSTITUTION: A reinforcement method of a hollow slab is as follows. Openings (30) connected to hollow portions (20) are formed on the top surfaces of the ends of a hollow slab (10). Reinforcement metals (40) are arranged inside of the hollow portions through the openings. Topping concrete (50) is placed in the hollow portions through the openings.

Description

Hollow slab reinforcement method and hollow slab according to this method

The present invention relates to a new hollow slab reinforcement method and thereby a hollow slab that can be effectively reinforced end.

Recently, as the rise of buildings is progressed and wide living spaces are required, various technologies for reducing weight while maintaining the strength of slab have been developed.

In particular, as shown in Figure 1, the hollow core slab (hollow core slab) (10) having a plurality of hollow portion 20 formed therein has a very high strength to weight, it is widely used.

The construction and construction method of such a hollow slab is shown in detail in a number of prior documents, including Patent Registration No. 10-0885865, the detailed description thereof will be omitted.

However, this hollow slab 10 has a disadvantage that is very vulnerable to the vertical shear force and the horizontal shear force acting on both ends as the hollow portion 20 is formed therein. In addition, when the bending moment acting on both ends is large, the compressive stress at the lower end may exceed the allowable stress. Particularly, since such a hollow slab 10 is constructed by a mechanized method, the maximum thickness of the slab is limited, so there is a limit in improving the strength of the hollow slab 10.

Therefore, there is a problem that it is difficult to apply the hollow slab 10 to the long span or other high load portion.

Therefore, there is a need for a new way to solve this problem.

The present invention is to solve the above problems, an object of the present invention is to provide a new hollow slab reinforcement method and thereby a hollow slab that can effectively reinforce the end.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention by those skilled in the art.

According to the present invention for achieving the above object, as a hollow slab reinforcement method for reinforcing the end of the hollow slab (10) in which the hollow portion 20 is formed, the hollow on the end surface of the hollow slab (10) Forming an opening 30 in communication with the part 20, placing the reinforcing steel 40 inside the hollow part 20 through the opening 30, and opening the opening 30. Hollow slab reinforcement method comprising the step of pouring the topping concrete 50 into the inside of the hollow portion 20 is provided.

According to another feature of the present invention, a hollow slab reinforcement method for reinforcing an end portion of a hollow slab 10 having a hollow portion 20 formed therein, and an opening 30 communicating with the hollow portion 20 on an upper surface of an end portion thereof. Constructing the hollow slab 10 so as to be formed, and reinforcing the reinforcing steel 40 inside the hollow portion 20 through the opening 30, and through the opening 30 the hollow portion ( 20) there is provided a hollow slab reinforcement method comprising the step of pouring the topping concrete (50) inside.

According to another feature of the present invention, in the hollow slab having a hollow portion 20 formed therein, openings 30 are formed on upper surfaces of both longitudinal ends of the hollow slab 10, and through the opening 30. The reinforcing steel 40 is disposed inside the hollow portion 20, and the hollow slab is provided in the hollow portion 20 by topping concrete 50 being poured and cured.

According to another feature of the invention, the hollow portion 20 is formed to extend to extend from the end of the hollow slab 10 toward the opposite end, the opening portion 30 along the extending direction of the hollow portion 20 It is provided with a hollow slab characterized in that it is elongated.

According to another feature of the invention, the reinforcing steel 40 is provided with a hollow slab, characterized in that extending to the top of the hollow slab 10 through the opening 30.

Hollow slab reinforcement method and a hollow slab according to the present invention is formed with an opening 30 in communication with the hollow portion 20 on the upper end surface, the reinforcement in the interior of the hollow portion 20 through the opening 30 40 is placed, the topping concrete 50 is poured in the hollow portion 20.

Therefore, both ends of the hollow slab 10 are reinforced by the reinforcing steel 40 and the topping concrete 50, thereby reducing the thickness of the hollow slab 10 while maintaining the same strength, thereby enabling a more economical design. There is an advantage in that the hollow slab 10 can be applied to the portion of the long span or other heavy load is applied.

In particular, by reducing the thickness of the slab in a high-rise building, to obtain the effect of reducing the height of the floor and the amount of crypts of the basement floor, there is an advantage that can design an economical structure.

1 is a perspective view showing an example of a general hollow slab,
Figure 2 is a perspective view of a hollow slab according to the present invention,
3 is an exploded perspective view showing a hollow slab according to the present invention;
4 is a front sectional view showing a hollow slab according to the present invention;
5 to 7 is a reference diagram showing a hollow slab reinforcement method according to the invention,
8 to 10 is a perspective view showing a modified example of the reinforcing steel reinforcement to the hollow slab according to the present invention.

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

2 to 4 show a hollow slab according to the present invention, the plurality of hollow portion 20 formed therein is the same as the conventional hollow slab.

At this time, the hollow slab 10 is formed long in the left and right, the hollow portion 20 is formed to extend in the longitudinal direction of the hollow slab 10.

In addition, according to the present invention, openings 30 are formed on upper surfaces of both longitudinal ends of the hollow slab 10, and the reinforcing steel 40 is placed inside the hollow part 20 through the openings 30. The topping concrete 50 is poured into the hollow part 20.

The opening 30 is formed by crushing or cutting the upper surface of the hollow slab 10 after the hollow slab 10 is completely cured or formed integrally from the first molding, in the longitudinal direction of the hollow part 20. It consists of a long elongated shape. In this case, the opening 30 may be formed using a general hammer drill or a cutter for cutting concrete 50. In addition, the formation position, the number, and the length of the opening 30 are appropriately selected according to the degree of reinforcement required.

The reinforcing steel 40 is formed by bending a high-strength reinforcing bar ("J") shape, the lower end is inserted into the hollow portion 20 through the opening 30, the upper end is It is arranged to extend to the upper portion of the hollow slab 10 through the opening 30.

The topping concrete 50 is poured into the hollow part 20 through the opening 30, and fixes the reinforcing steel 40 to reinforce both ends of the hollow slab 10.

Referring to the construction method of the hollow slab 10 configured as described above are as follows.

First, as shown in FIG. 5, the hollow slab 10 in which the hollow part 20 is formed inside as in the prior art is constructed. Since the method of constructing the hollow slab 10 is the same as the conventional method of constructing the hollow slab 10, a detailed description thereof will be omitted.

And, when the construction of the hollow slab 10 is completed, as shown in Figure 6, the opening 30 in communication with the hollow portion 20 on the upper surface of both ends of the hollow slab 10 of the hollow portion 20 It is formed to extend in the longitudinal direction.

As shown in FIG. 7, the reinforcing steel 40 is disposed inside the hollow portion 20 through the opening 30, and as shown in FIG. 4, the hollow is hollow through the opening 30. The topping concrete 50 is poured into the part 20. At this time, the topping concrete 50 is poured in an amount sufficient to completely block the opening 30.

Such a hollow slab reinforcement method and the hollow slab according to the reinforcing hardware 40 is placed inside the hollow portion 20 through the opening 30 in communication with the hollow portion 20, the hollow portion 20 Topping concrete 50 is poured.

Therefore, both ends of the hollow slab 10 are reinforced by the reinforcing steel 40 and the topping concrete 50, thereby reducing the thickness of the hollow slab 10 while maintaining the same strength, thereby enabling a more economical design. There is an advantage in that the hollow slab 10 can be applied to the portion of the long span or other heavy load is applied.

In particular, by reducing the thickness of the slab in a high-rise building, to obtain the effect of reducing the height of the floor and the amount of crypts of the basement floor, there is an advantage that can design an economical structure.

In addition, since the opening 30 has a long hole shape extending in the extending direction of the hollow portion 20, a space for reinforcing the reinforcing steel 40 in a sufficient amount to the hollow portion 20 is secured. It can be, there is an advantage that the pouring of the topping concrete 50 becomes easy.

In addition, the reinforcement 40 is reinforced so as to extend to the upper portion of the hollow slab 10 through the opening 30, there is an advantage that can accurately set the position of the reinforcement 40.

In particular, when the lower end of the structure to be constructed on the upper portion of the hollow slab 10 is connected to the upper end of the reinforcing steel 40 extending to the upper portion of the hollow slab 10, the hollow slab 10 and the hollow slab 10 By improving the bonding strength between the structure to be built on top of), there is an advantage that can further reinforce the strength of the hollow slab (10).

In the present exemplary embodiment, the hollow slab 10 having the hollow portion 20 formed therein is illustrated, and the opening 30 is formed on both top surfaces of the hollow slab 10, but the hollow slab 10 is illustrated. In the manufacturing process, as shown in FIG. 6 by using a specific mold, the opening 30 communicating with the hollow part 20 is integrally formed on the upper surface of both ends of the hollow slab 10, thereby opening the opening ( Without going through the step of forming 30, it may be configured to reinforce the reinforcing steel 40 inside the hollow portion 20 through the opening 30 of the hollow slab 10 immediately constructed.

In addition, the reinforcing steel 40, in addition to the reinforcing bar bent in the form of a "J" (shape) as described above, in the form of a truss girder as shown in Figure 8, or a wire mesh form as shown in Figure 9, Alternatively, as shown in FIG. 10, a plurality of pins 42 may be deformed into various shapes, such as a stud rail shape having a plurality of pins 42 disposed on the upper surface of the long bar 41 at predetermined intervals.

It will be appreciated by those skilled in the art that changes may be made to the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

10. Hollow slab 20. Hollow part
30. Openings 40. Reinforcement
50. Topping Concrete

Claims (5)

As a hollow slab reinforcement method for reinforcing the ends of the hollow slab 10 in which the hollow portion 20 is formed,
Forming an opening 30 in communication with the hollow portion 20 on an upper end surface of the hollow slab 10,
Reinforcing the reinforcing steel 40 inside the hollow portion 20 through the opening 30;
Hollow slab reinforcement method comprising the step of placing a topping concrete (50) inside the hollow portion 20 through the opening (30).
As a hollow slab reinforcement method for reinforcing the ends of the hollow slab 10 in which the hollow portion 20 is formed,
Constructing the hollow slab 10 such that an opening 30 communicating with the hollow portion 20 is formed on an upper end portion thereof;
Reinforcing the reinforcing steel 40 inside the hollow portion 20 through the opening 30;
Hollow slab reinforcement method comprising the step of placing a topping concrete (50) inside the hollow portion 20 through the opening (30).
In the hollow slab formed hollow portion 20 therein,
Openings 30 are formed on upper surfaces of both longitudinal ends of the hollow slab 10,
The reinforcing steel 40 is placed inside the hollow portion 20 through the opening 30,
Hollow slab, characterized in that the topping concrete 50 is poured into the hollow portion 20 is hardened.
The method of claim 3,
The hollow portion 20 is formed to elongate toward the opposite end from the end of the hollow slab 10,
Hollow slab, characterized in that the opening 30 is formed to extend in the extending direction of the hollow portion 20.
The method of claim 3,
The reinforcing steel 40 is hollow slab, characterized in that extending to the top of the hollow slab 10 through the opening (30).

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