KR101626710B1 - Composition and construction method of steel-plate concrete slab structures - Google Patents

Abstract

The present invention relates to a steel plate reinforced concrete slab structure and a construction method thereof. A slab according to the present invention of main members constituting a steel plate reinforced concrete structure is constructed with lower steel plate reinforced concrete and is reinforced by the large amount of ribs at a lower portion of a steel plate to increase constructability. However, in the present invention, a rib is not necessary by using a temporary reinforcing material. In a lower steel plate reinforced concrete slab of the present invention, when side steel plate reinforced concrete walls connected to the lower steel plate reinforced concrete are connected, concrete is not connected by the steel plate surface of the side steel plate reinforced concrete so that it is not structurally efficient. Therefore, the steel plate reinforced concrete slab structure connects concrete by removing the steel plate at the connection portion between the side steel plate reinforced concrete walls, and can be easily constructed to be the same as the lower portion thereof by using the steel plate as a structural member.

Description

Technical Field [0001] The present invention relates to a steel plate concrete slab structure,

The present invention aims at improving the rib reinforcement of a substantial amount due to the construction of the slabs as the lower steel plate concrete among the main members constituting the steel plate concrete structure. In the present invention, the provision of the provisional temporary stiffener to make the ribs unnecessary, When slab is applied, the steel plate at the connection part of the side steel plate concrete wall in the part where the concrete connection is cut off due to the steel plate side of the side plate steel concrete is not structurally efficient at the connection with the side plate steel concrete wall connected to the bottom steel plate concrete The present invention relates to a steel plate concrete slab structure and a method of constructing the steel plate concrete slab structure, which are constructed so that concrete is connected through a removal box, and a steel plate is used as a structural member on the upper part of the slab.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floor slab structure which is a structural member which is combined with a steel plate concrete structural wall to receive a vertical load and which is resistant to the bending strength in an out-of-plane direction and a construction method.

Steel Plate Reinforced Concrete structure refers to a structure filled with concrete placed between double-sided steel plates. It is connected with a tie bar between the double-sided steel plates, and a stud is attached to the double-sided steel plate to secure the adhesion between the concrete and the steel plate.

The steel plate concrete structure has the effect of shortening the air compared to the existing reinforced concrete method in which the concrete is installed after the reinforcing bars are installed and the form is removed.

In addition, since the modular construction method using steel plate concrete structure can be installed by assembling piping, duct, cable tray, etc., which are system facilities, at the factory or field production site in advance, it is possible to reduce the amount of site construction, mechanized construction, It is possible to greatly shorten the construction air of major facilities such as nuclear power plants.

Meanwhile, among the main members constituting the steel plate concrete structure, the lower steel plate concrete slab is reinforced by a substantial amount of ribs under the steel plate to improve the workability according to the conventional technique.

This is because, in the conventional reinforced concrete structure, the support bar supported by the lower slab is used to prevent the excessive slippage of the slab being laid when the slab is installed, whereas the steel plate reinforced concrete structure of the present invention does not utilize the support bar, And it is an object of the present invention to provide a self-supporting structure for a putting load.

However, not only the amount of the ribs for supporting the concrete is considerably large as the pressure of the concrete is increased, but also the application of the excessive rib is liable to be vulnerable to horizontal delamination at the interface with the concrete.

In addition, when connecting the lower steel plate concrete slab and the side steel plate concrete wall connected to each other, the concrete connection is disconnected by the steel plate side of the side plate steel concrete, which is a structural inefficiency.

In addition, there is a disadvantage in that it is not easy to manufacture and construct because the design standard for installing reinforcing bars is provided at the upper part of the slab in a manner similar to that of RC.

Korean Patent No. 10-0849711 discloses a steel plate structure and a steel plate concrete wall, and a registered steel plate 10-0125374 discloses a steel plate concrete wall and a manufacturing method thereof. However, And it is different from the technical composition and action effect of

A problem to be solved by the present invention is to use a support bar supported by a lower slab in order to prevent excessive slippage of a slab placed in a conventional reinforced concrete structure, And the reinforced steel plate itself is supported by the concrete pouring load by itself.

In order to solve the problems of the present invention, a steel plate concrete slab structure includes both side walls in which a concrete (6) is partially laid, a grid-like angle (7 Is provided so as to be joined to the steel plate 1 through the tie bar slab 22 and the tie bar bolt 33 and the slab tie bar 8 is mechanically joined to the grid- And an upper slab steel plate 15 and a grid-like angle 16. The steel plate concrete slab structure shown in FIG.

Another object of the present invention is to provide an angle bracket for connecting to a wall, an inner threaded nut for holding a slab tie bar and a nut type slab, Bolts 13, and the like.

Another object of the present invention is to provide a tie-bar slab (2) and a tie bar bolt (3) each of which can be separated from a double-side steel plate (1) by a threaded tie bar structure and a stud slab ) And a stud bolt (5).

According to another aspect of the present invention, there is provided a method of constructing a steel plate concrete slab, comprising the steps of: forming both sidewalls to which concrete 6 is partially laid; A step of installing a grid-like angle 7 so as to be joined to the steel plate 1 via the tie bar slab 22 and the tie bar bolt 33 in order to ensure the installation of the side walls and the slab to be constructed later, ; Connecting to a slab tie bar (8) through a mechanical connection with a grid-like angle (7) on a bottom steel plate of the slab; The upper structural module including a reinforcing slab 9 for horizontal steel plate joining and a provisional reinforcing material 10 for deflection control according to the load of the uncured concrete when the slab is slid; Dismantling the temporary installation material (10) after the concrete is cured to some extent; And installing the upper slab steel plate 15 and the grid-shaped angle 16 in the steel slab.

Disclosure of the Invention Problems to be Solved by the Invention. In other words, it dramatically improves the problems such as cut-off of concrete connection with the side steel plate concrete wall where the bottom steel plate concrete is connected, insufficient workability due to the large amount of work such as upper reinforcement and rib welding, .

1 is a cross-sectional view of a steel plate concrete wall embodiment before a steel plate concrete slab is installed.
2 is a perspective view of the grid-like angle 7 installed to the steel plate 1 through the tie bar slab 22 and the tie bar bolt 33 in order to ensure the installation of the side walls and the slab to be constructed later, An embodiment is shown in Fig.
3 shows a state in which the lower steel plate of the slab is installed.
Fig. 4 shows an embodiment of lifting the upper structure for slab installation and connection of the upper structure walls after the construction of Fig. 3;
FIG. 5 shows an embodiment in which the slab concrete 14 is installed after the upper and lower modules are combined after the shape is formed in FIG.
6 shows a state in which the temporary installation material is disassembled.
FIG. 7 shows a state in which the upper slab construction is completed through the installation of the upper slab plate 15 and the grid-shaped angles 16 after the step of FIG.

Hereinafter, the present invention will be described in detail.

According to the conventional technology, the slab is reinforced by a substantial amount of ribs at the lower part of the steel plate in order to improve the workability by using the lower steel plate concrete. In the present invention, however, Is configured to be unnecessary.

   In addition, when the conventional steel plate concrete slab is applied, the concrete connection is cut off due to the steel plate surface of the side plate steel when the steel plate is connected to the side plate steel to which the lower steel plate concrete is connected. And the concrete is connected by removing the steel plate at the connection portion.

In addition, the steel plate is constructed as a structural member on the upper part of the slab so as to be easily constructed. A specific embodiment according to the present invention will be described.

<Examples>

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the present invention will now be described with reference to the drawings. FIG. 1 is a cross-sectional view of a steel plate concrete wall embodiment before a steel plate concrete slab is installed.

The walls are each composed of a tie bar slab 2 and a tie bar bolt 3 as threaded separable tie bars constituting a double-sided steel plate 1, a stud slab 4 as a thread-separable stud configuration and a stud bolt 5 And the concrete 6 is partially installed.

The present invention relates to a tie bar slab (2) and a tie bar bolt (3) each of which is a tie bar separable tandem structure with a double-side steel plate (1), a stud slab (4) and a stud bolt And forming the sidewalls to which the concrete 6 is partially laid.

In which the grid-like angles 7 are joined to the steel plate 1 through the tie bar slab 22 and the tie bar bolt 33 in order to ensure the installation of the side walls and the slab to be constructed later and the structural performance, Is shown in Fig.

That is, in order to secure the installation and structural performance between the side walls and the slab to be constructed later, the grid-like angle 7 is joined to the steel plate 1 via the tie bar slab 22 and the tie bar bolt 33, And a step of installing the stepping motor.

The grid-like angle 7 functions not only to bond the wall and the slab but also to reduce the stress in the concrete inside the wall slab connection through the effect of increasing the secondary stiffness at the joint.

A cable line, a small diameter duct, or the like may pass through the space inside the grid-shaped angle 7 shown in FIG.

3 shows a state in which the lower steel plate of the slab is installed. And the slab tie bars 8 are mechanically connected to the grid-shaped angles 7, as shown in Fig.

That is, it includes connecting to the slab tie bars 8 through mechanical bonding with the grid-like angles 7 on the lower steel plate of the slab.

FIG. 4 illustrates an embodiment of lifting the upper structure for slab placement and connection between upper structure walls after the state of FIG. 3 is formed. The upper structural module including the reinforcing slab 9 for horizontal steel plate joining and the temporary building material 10 for controlling the deflection in accordance with the load of the uncured concrete at the time of slab pouring is salvaged.

At this time, the temporary installation material 10 includes an angle 11 for connecting with the horizontal wall, a nut-shaped slab 12 having a threaded inner surface for holding the slab tie bar 8, An easy bolt 13 and the like.

FIG. 5 shows an embodiment in which the slab concrete 14 is installed after the upper and lower modules are coupled after the shape is formed in FIG. And after the concrete has hardened to some extent, dismantling the temporary installation material 10. 6 shows a state in which the temporary installation is dismantled.

FIG. 7 shows a state in which the construction of the upper slab is finished through the installation of the upper slab steel plate 15 and the grid-shaped angle 16 after step 6 of FIG. Structural fastening of the corresponding slab is completed by fixing the external thread on the slab tie bar 8 with a nut or the like.

The technical structure is summarized.

The present invention relates to a tie bar slab (2) and a tie bar bolt (3) each of which is a tie bar separable tandem structure with a double-side steel plate (1), a stud slab (4) and a stud bolt And a grid-like angle 7 is formed between the tie-bar slab 22 and the tie-bar 22 so as to secure the installation of the side walls and the slab to be constructed later and the structural performance, Is connected to the steel plate 1 through a bar bolt 33 and is connected to a slab tie bar 8 through a mechanical connection with a grid-like angle 7 on a lower steel plate of the slab, A steel plate concrete slab structure in which an upper slab steel plate 15 and a grid-like angle 16 are provided on the upper slab plate.

The steel slab concrete slab construction method will be described in detail.

A tie bar slab 2 and a tie bar bolt 3 each being a tie bar separable from a double-side steel plate 1, a stud slab 4 as a thread-separable stud configuration, and a stud bolt 5 A step 6 of forming a tie bar slab 22 and a tie bar 6 to form a slab 22 and a tie bar 22 in order to ensure the installation of the side walls and the slab to be constructed later, Connecting the slab tie bar (8) to the steel plate (1) through bolts (33), connecting the steel plate (1) with the slab tie bars (8) through mechanical bonding with the grid - like angles (7) A method of manufacturing a concrete structure, comprising: a step of raising an upper structural module including a reinforcing slab (9) for jointing and a provisional reinforcing material (10) for deflection control in accordance with the load of the concrete not hardened at the time of slab pouring; (10), and installing the upper slab plate (15) and the grid-like angle (16).

A step of forming both sidewalls constituted by a tie bar slab and a tie bar bolt as a tie bar separable by a double-sided steel plate 1 and a stud bolt, a stud slab and a stud bolt, A step of installing a grid-like angle so as to bond with the steel plate through a tie bar slab and a tie bar bolt in order to ensure the installation of the side walls and the slab to be installed later and a structural performance, A step of connecting to the slab tie bar 8 through mechanical bonding with the angle and a step of mounting the upper structure module including the provisional reinforcement for horizontal steel plate joining and temporary provisioning for controlling the deflection of the unreinforced concrete when the slab is poured, A step of disassembling the temporary installation material after the concrete is cured to some extent, It is very likely to be used industrially because it can directly evaluate the material properties of the device / parts including the step of installing the steel plate and the grid angle.

One; Steel plate 2; Taiba Slab
3; Taiba Bolt, 4; Stud Slab
5; Stud bolt 6; concrete
7; Grid-like angle 8; slab tie bar
9; Reinforced slab 10;
11; Angle 12; Nut type slab
13; Bolts 14; Slab concrete
15; Slab steel plate 16; Lattice angle
22; Tie bar slab 33; Taiba Bolt

Claims (5)

In a steel plate concrete slab structure that does not use a strut,
A grid-like angle 7 is formed between the tie bar slab 22 and the tie bar bolt 33 (see FIG. 1) to form a double-sided wall in which the concrete 6 is partially laid, ) To be joined to the steel plate 1,
The upper slab plate 15 and the grid-shaped angle 16 are installed on the slab tie bar 8 on the lower steel plate of the slab by connecting the slab tie bar 8 through the mechanical connection with the grid- And,
An angle 11 for connecting with the horizontal wall, a nut type slab 12 having a thread formed on the inner surface for holding the slab tie bar 8, and an interim 11 composed of an angle 11 and a bolt 13, And a mounting member (10)
The two sidewalls each comprise a tie bar slab 2 and a tie bar bolt 3 as a tie bar separable tie bar structure with a double sided steel plate 1 and a stud slab 4 and a stud bolt 5) steel plate concrete slab structure. delete delete In a method of constructing a steel plate concrete slab without using a strut,
Forming a side wall on which a concrete (6) is partially laid;
A step of installing a grid-like angle 7 so as to be joined to the steel plate 1 via the tie bar slab 22 and the tie bar bolt 33 in order to ensure the installation of the side walls and the slab to be constructed later, ;
Connecting to a slab tie bar (8) through a mechanical connection with a grid-like angle (7) on a bottom steel plate of the slab;
Lifting a superstructure module including a reinforcing slab (9) for horizontal steel plate joining and a provisional reinforcing material (10) for deflection control according to the load of the unconstrained concrete at the time of slab pouring;
Disassembling the temporary installation material (10) after the concrete is cured; And
Providing an upper slab plate (15) and a grid-like angle (16)
The two sidewalls each comprise a tie bar slab 2 and a tie bar bolt 3 as a tie bar separable tie bar structure with a double sided steel plate 1 and a stud slab 4 and a stud bolt 5). &Lt; / RTI &gt; delete

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