KR20200086863A - the improved hollow core slab structure with Light Weight material - Google Patents

Abstract

The present invention aims to form a hollow slab, and provides an improved hollow slab structure with lightweight molding material, which comprises: a deck (F); lower rebars (R3) placed by being spaced apart from each other on the upper side of the deck (F); first upper rebars (R1) placed by being spaced apart from each other on the upper side of the lower rebars (R3); second upper rebars (R2) placed at right angles by being in contact with the upper side of the first upper rebars (R1); and lightweight molding materials (100) installed in a space between the lower rebars (R3) and the first upper rebars (R1). The lightweight molding materials (100) are installed by being lowered into a grid space formed between the first upper rebars (R1) and the second upper rebars (R2) after the lower rebars (R3), the first upper rebars (R1), and the second upper rebars (R2) are all placed.

Description

Improved hollow core slab structure with light weight material

The present invention relates to a hollow slab structure, by improving the workability and air by eliminating the hassle of the process in which the rebar reinforcement work was cut off due to the installation of a lightweight molding material in the conventional construction method, a lightweight molding material for easily implementing the hollow slab structure It relates to a hollow hollow slab structure provided.

Since the central portion of the cross section of the member subjected to the bending has little mechanical function, there is no structural problem even if the central portion is minimized, but rather it is structurally advantageous because the burden on weight is reduced. The most effective application of this concept in general household goods is'corrugated cardboard', and'H-beam' is the representative structural material for construction.

The hollow slab of the reinforced concrete structure is also developed from the above-mentioned concept, and the hollow slab structure realizes a light and durable slab that reduces the structural burden by reducing the structural burden by hollowing instead of filling concrete in the center of the slab section. It is a structure that enables a span structure.

Especially in Japan, the hollow slab is effective for inter-floor noise in multi-family houses and has a long span structure, which is recognized as a suitable structure for long-life homes.

The most effective hollow slab structure is to install a lightweight molding material to form a hollow in the center of the slab cross section.

During construction, the weight and weight of rebar and concrete are applied to the'settling' due to the working load and the'buoyancy' due to the concrete in the liquid state, so the lightweight molding material is effectively floated in the air against these loads acting up and down. Maintaining the position is the most important technique of the hollow slab method.

1 shows a conventional hollow slab structure construction method.

1 is to place the lightweight molding material between the lower and upper rebars to be located in the center of the cross-section of the slab, (1) to install the lower rebar and equipment piping, and (2) to prevent settlement and buoyancy of the lightweight molding material The base is fixed to the formwork, (3) a lightweight molding material is installed and fixed on the base, (4) the upper rebar is reinforced,

After this, it is a method of pouring and curing concrete and demolding the formwork to complete the hollow slab.

However, in the case of the conventional method as described above, the reinforcing work of the lower and upper rebars is cut off due to the installation process of the lightweight molding material,

After installing the lightweight molding material, workers need to step on the lightweight molding material to install the upper rebar, so there is a high risk of damage to the lightweight molding material or injury to the operator, and heavy materials such as upper rebar are mounted on the lightweight molding material. Due to the hassle of the process, there are many complaints in the field due to the hassle of the process.

Accordingly, the present inventor improves the workability and air by resolving the hassle of the process in which the rebar reinforcement work was disconnected due to the installation of the lightweight molding material in the conventional construction method, and improved the hollow hollow slab structure equipped with the lightweight molding material to easily implement the hollow slab structure. Came to develop.

[Document 1] Republic of Korea Patent No. 10-1228642'hollow slab with edge stepped joints for improved integrity', January 25, 2013 [Document 2] Republic of Korea Patent Registration No. 10-1714152 ‘Automatic production method of a closed-body hollow slab’, March 02, 2017

The present invention is proposed to solve the problems as described above. The purpose is to provide a hollow slab structure, which improves the workability and air by eliminating the hassle of the process in which the reinforcing bar reinforcement work was cut off due to the installation of a lightweight molding material in the conventional construction method. It is intended to provide an improved hollow slab structure provided.

In order to solve the above technical problem, the present invention is to form a hollow slab,

Deck (F);

A lower reinforcing bar (R3) spaced apart from the upper part of the deck (F);

A first upper reinforcing bar (R1) spaced apart from the upper portion of the lower reinforcing bar (R3);

A second upper reinforcing bar (R2) that contacts the upper portion of the first upper reinforcing bar (R1) and is reinforced at a right angle;

A lightweight molding material 100 installed in a space spaced between the lower reinforcing bar R3 and the first upper reinforcing bar R1;

Consisting of, including

The lightweight molding material 100 after the lower rebar (R3), the first upper rebar (R1) and the second upper rebar (R2) are all reinforced,

It provides an improved hollow slab structure provided with a lightweight molding material, characterized in that the first upper rebar (R1) and the second upper rebar (R2) is installed by descending between the lattice space formed between each other.

According to the present invention relates to a hollow slab structure, by improving the workability and air by eliminating the hassle of the process in which the reinforcing bar reinforcement construction was cut off due to the installation of a lightweight molding material in the conventional construction method, lightweight molding to easily implement the hollow slab structure An improved hollow slab structure provided with ash is provided.

1 shows a conventional hollow slab structure construction method.
2 is an exploded perspective view of a member such as a lightweight molding material used in the improved hollow slab structure provided with the lightweight molding material of the present invention.
Figure 3 shows the construction procedure of the improved hollow slab structure provided with a lightweight molding material of the present invention.
4 is a perspective view of the combination of FIG.
5 is a completed state of the improved hollow slab structure provided with a lightweight molding material of the present invention.
FIG. 6 shows the construction procedure of FIG. 5.
Figure 7 shows another embodiment of the fitting and the fixture in the present invention.

Hereinafter, the present invention will be described in more detail through an embodiment in which the concept of the present invention as described above is preferably implemented together with the accompanying drawings.

Figure 2 is an exploded perspective view of a member such as a lightweight molding material used in the improved hollow slab structure provided with a lightweight molding material of the present invention,

Figure 3 shows the construction procedure of the improved hollow slab structure provided with a lightweight molding material of the present invention,

4 is a perspective view of the combination of FIG.

And Figure 5 is a completed state of the improved hollow slab structure equipped with a lightweight molding material of the present invention,

Figure 6 shows the construction procedure of Figure 5,

Figure 7 shows another embodiment of the fitting and the fixture in the present invention.

Improved hollow slab structure provided with a lightweight molding material of the present invention,

To form a hollow slab,

Deck (F);

A lower reinforcing bar (R3) spaced apart from the upper part of the deck (F);

A first upper reinforcing bar (R1) spaced apart from the upper portion of the lower reinforcing bar (R3);

A second upper reinforcing bar (R2) that contacts the upper portion of the first upper reinforcing bar (R1) and is reinforced at a right angle;

A lightweight molding material 100 installed in a space spaced between the lower reinforcing bar R3 and the first upper reinforcing bar R1;

Consisting of, including

The lightweight molding material 100 after the lower rebar (R3), the first upper rebar (R1) and the second upper rebar (R2) are all reinforced,

The first upper reinforcing bar (R1) and the second upper reinforcing bar (R2) is characterized in that it is installed by descending between the lattice space formed between each other.

The deck (F) means a slab formwork or deck plate.

The present invention is a plurality of the lightweight molding material 100 are spaced apart from each other at the intervals of the lattice space is fastened to the bottom of the cradle 200,

It characterized in that the cradle 200 is mounted on the first upper rebar (R1).

And the lightweight molding material 100 and the holder 200 is characterized in that connected to the coupling port 300,

The holder 200 is characterized in that coupled to the second upper rebar (R2) with a clip (500).

Hereinafter, the present invention will be described in detail.

The lightweight molding material 100 is made of a conventional material, it is preferably in the shape of a hexahedron or more of a hexahedron with rounded or rounded corners for easy insertion into the lattice space and for tight pouring of slab concrete (SC).

The cradle 200 is coupled to the first upper reinforcing bar (R1) by combining with the lightweight molding material 100, any material can be used as long as the rigidity against bending is secured. It is preferable that it is a lightweight channel shape.

In some cases, the height of the cradle 200 may be adjusted to be used as a pouring level display of the slab concrete (SC).

The present invention is characterized in that it is possible to install a lightweight molding material after the slab reinforcement for the slab is completed to the upper reinforcement, thereby dramatically improving the process of the conventional hollow slab.

The slab rebars are usually lattice-like, forming a lattice space between each other and reinforced in both directions. In the case of the upper rebar, the first upper reinforcing bar (R1) in the direction where the stress is relatively small is the second in the direction where the stress is relatively high Since the upper reinforcing bar (R2) is crossed and reinforced, in the concrete covering thickness that requires a slab, the first upper reinforcing bar (R1) placed below has a margin as much as the thickness of the second upper reinforcing bar (R2) placed above. Even if the holder 200 is mounted on the upper reinforcing bar R1, the method of the present invention can be realized because it does not affect the coating thickness.

In addition, for the workability during transport and installation, the present invention is capable of installing one or more of the lightweight molding materials 100 on the cradle 200,

The distance between the lightweight molding materials 100 in the cradle 200 can be freely adjusted at any time according to the site conditions.

The coupling member 300 is a member for connecting the lightweight molding material 100 and the cradle 200, as shown in the drawing, it is preferable to manufacture by bending the plate material.

The coupling port 300 forms a cradle inserting section 311 into which the cradle 200 is inserted, and a fastening bar 312 is configured to bend the fastening bar 312 after the cradle 200 is inserted. The cradle 200 is easily fixed.

Of course, the upper structure of the coupling port 300 may be configured to have a conventional structure in which the cradle 200 is fixed in one touch.

The lower portion of the coupling portion 300 is fastened to the fixture 400 for fixing the lightweight molding material 100.

The fixture 400 may be fastened to the lower portion of the coupling port 300 by using a member such as a nut and a washer 420 by processing the upper end with a male thread, as shown in FIG.

As illustrated in FIG. 7, the upper end may be formed in a tapered shape with a structure to be fastened in a one-touch manner to the lower portion of the coupling member 300.

In addition, the coupling member 300 has a Z shape in which the plate is bent in the drawing. This is to secure the elasticity (tension) to a certain degree in the process of transportation and construction while simultaneously matching the centers of gravity of the cradle 200 and the lightweight molding material 100 to ensure damage to members. In particular, it serves to absorb the slab concrete pouring pressure acting on other members including the lightweight molding material 100.

Of course, if the coupling sphere 300 maintains the central axis, it may be in the form of ‘J’, ‘T’, ‘ㄷ’, ‘ㄹ’.

The clip 500 may use a conventional iron wire, but in the present invention, by bending an iron or wire having elasticity so that an operator can combine the holder 200 with the first upper reinforcing bar R1 in a one-touch manner. It is desirable to produce.

Figure 3 shows the construction procedure of the improved hollow slab structure provided with a lightweight molding material of the present invention, Figure 4 is a perspective view of Figure 2 combined.

Figure 5 is a completed state of the improved hollow slab structure provided with a lightweight molding material of the present invention, Figure 6 shows the construction procedure of Figure 5.

The construction procedure of the improved hollow slab structure provided with the lightweight molding material of the present invention is as follows.

First, as shown in FIG. 3, after combining the lightweight molding material 100 and the coupling port 300, the cradle 200 is installed.

And after the reinforcement of the lower rebar (R3), the first upper rebar (R1) and the second upper rebar (R2) to the deck (F), as shown in Figure 6 (a), the cradle 200 and the lightweight molding material (100) ) By lowering the coupling body, the cradle 200 is mounted on the first upper rebar R1 and installed.

Subsequently, as shown in FIG. 6(b), the holder 200 and the first upper reinforcing bar R1 are combined with the clip 500.

Next, as shown in Fig. 6(d), the slab concrete SC is poured.

That is, the present invention is to be able to install the lightweight molding material 100 after the reinforcement for the slab is completed, the damage of the lightweight molding material due to the additional load due to the loading of the reinforcing bar to occur during the conventional reinforcement or upper rebar work The discomfort and risk of working on lightweight molding materials are eliminated.

The subsidence and buoyancy acting on the lightweight molding material 100 are transferred to the first lower reinforcing bar R1, whereby the subsided reinforcing bar spacer (not shown) that designates the position of the subordinate first reinforcing bar R1 and receives a working load. ) And the buoyancy is separately charged by the buoyancy prevention device (not shown) installed on the first lower reinforcing bar R1, so that the load acting on the lightweight molding material 100 is less than that of the existing lightweight molding material. It is characterized by being easy to reinforce and relatively safe.

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

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

F: Deck
SC: Slab concrete
R1: First upper rebar
R2: Second upper rebar
R3: Lower rebar
100: lightweight molding material
200: cradle
300: joint
311: cradle insert
312: fastening bar
400: fixture
420: Washer
500: Clip

Claims (4)

To form a hollow slab,
Deck (F);
A lower reinforcing bar (R3) spaced apart from above the deck (F);
A first upper reinforcing bar (R1) spaced apart from the upper portion of the lower reinforcing bar (R3);
A second upper reinforcing bar (R2) that contacts the upper portion of the first upper reinforcing bar (R1) and is reinforced at a right angle;
A lightweight molding material 100 installed in a space spaced between the lower reinforcing bar R3 and the first upper reinforcing bar R1;
Consisting of, including
The lightweight molding material 100 after the lower rebar (R3), the first upper rebar (R1) and the second upper rebar (R2) are all reinforced,
An improved hollow slab structure provided with a lightweight molding material, characterized in that the first upper reinforcing bar (R1) and the second upper reinforcing bar (R2) are lowered and installed between the lattice spaces formed therebetween.
In claim 1,
A plurality of the lightweight molding material 100 are spaced apart from each other at the intervals of the grid space and fastened to the lower part of the cradle 200,
An improved hollow slab structure provided with a lightweight molding material, characterized in that the cradle (200) is mounted on the first upper rebar (R1).
In claim 2,
An improved hollow slab structure provided with a lightweight molding material, characterized in that the lightweight molding material 100 and the cradle 200 are connected to a coupling port 300.
In claim 3,
The holder 200 is an improved hollow slab structure provided with a lightweight molding material, characterized in that coupled to the second upper rebar (R2) with a clip (500).

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