KR100758711B1 - Concrete filled deck plates - Google Patents

Abstract

A deck plate having a lower structure including a hollow steel and an upper structure in which concrete is casted is provided to minimize steel members exposed onto a road surface, thereby reducing the occurrence of corrosion and solving the problem related to the durability of the deck plate derived from the corrosion. A lower structure is prepared such that hollow steels(11) are welded to each other side by side. A bottom plate is mounted on the bottom surface of the hollow steels(11) in the lower structure. C-shape steels(12) are installed at the outmost of the hollow steel(11) to cover the hollow steel in a C-shape. A lateral finishing member(21) is provided between the C-shape steels, so that a space in which concrete is casted is formed at the upper portion of the hollow steel. A groove is provided in the lateral finishing member(21) so that a deck plate is hooked in the movement of the deck plate. A reinforcement wire(13) is provided in the upper portion of the lower structure. A spacer is provided at the upper portion of the hollow steel(11) to fix the reinforcement wire(13). A stiffener(16) is provided at the upper portion of the hollow steel(11) to assist the strength of the C-shape steel(12). An upper structure includes concrete casted in order to bury the reinforcement wire(13) in the space.

Description

Concrete Filled Deck Plates with Top-filled Concrete Structures

1 is a schematic perspective view of a perforated plate according to the present invention,

Figure 2 is a schematic plan view showing a state before the concrete is poured in the perforated plate according to the present invention shown in Figure 1,

3 is a schematic cross-sectional view taken along line A-A of FIG. 1,

Figure 4 is a schematic assembly perspective view of the perforated plate according to the present invention showing the assembly structure to achieve the assembled state shown in FIG.

<Description of the symbols for the main parts of the drawings>

1 perforated plate

11 hollow section steel

12 C section steel

13 rebar

20 concrete

The present invention relates to a perforated plate, which is a top plate structure that is temporarily used to smoothly communicate with the upper part of steel molds in construction sites such as temporary bridges, subways, and more specifically, a substructure consisting of hollow section steel, reinforcing bars or wire meshes. New structure to reduce vibration and noise, increase the suppression against corrosion and durability, and reduce the maintenance cost required for steel coating work by constructing the perforated plate to have the upper structure where concrete is poured after installing Of the perforated plate.

The perforated plate, which is used as a temporary bridge for construction, or as a top plate structure such as a subway construction site, is generally manufactured by welding steel materials. Such a perforated plate, along with the lower support structure made of steel serves as a temporary road to support the traffic load of the upper. Therefore, the perforated plates must have sufficient rigidity to support the load applied by the vehicle, etc., respectively passing on the upper portion, and the upper surface is made of the uneven surface to secure sufficient sliding resistance. However, the biggest problem of the conventional double-plate plate having such a configuration is the loud noise and vibration generated by the traffic of the vehicle. In addition, since the upper surface of the conventional perforated plate is also made of steel in addition to the main body, corrosion occurs due to winter salt or calcium chloride, and as a result, durability is degraded.

For this reason, in the past, in the construction site near the city center or private house where civil complaints can be caused, the soil was deposited on the upper part of the existing steel slab, and then asphalt pavement or asphalt coating was used. However, considering that the structure in which the hollow plate is used is a temporary structure, such as a temporary bridge, and eventually needs to be demolished, it is very difficult to fill the soil and install an asphalt pavement on the upper part of the hollow plate and then to remove it later. Not only is it uneconomical, but also causes waste and waste of resources. In addition, when the ascon coating is applied, there is a problem that it is difficult to secure sufficient sliding resistance necessary for vehicle traffic on the upper surface of the perforated plate, and as the ascon is easily peeled off due to repeated vehicle traffic, maintenance such as continuous recoating of ascon. There is a limit that is difficult.

The present invention has been developed to solve the problems of the prior art as described above, dividing the perforated plate into an upper structure and a lower structure, and subsequently welded hollow section steel, install a square on the left and right to manufacture the lower structure, the lower It is an object of the present invention to manufacture a superstructure by placing concrete in the state where reinforcing bars or wire meshes are installed on the structure, and to provide a hollow plate that can greatly reduce the occurrence of noise and vibration.

In addition, an object of the present invention is to provide a porous plate which can reduce the occurrence of corrosion by minimizing the steel exposed to the road surface, and can reduce the durability problems due to corrosion.

In addition, an object of the present invention is to provide a perforated plate that can continuously secure a sufficient sliding resistance for vehicle traffic without a separate maintenance costly.

In the present invention, in order to achieve the above object, the hollow structure consisting of a hollow steel is formed of a hollow steel tube formed side by side to the side by side welded to form a lower structure; C-shaped steel of "C" or "C" shape is installed on the outermost side of the hollow shaped steel and is installed to surround the hollow shaped steel at intervals above the hollow shaped steel; A side finishing member disposed between the C-shaped steels on both sides to form a concrete placing space on the hollow-shaped steel upper portion; Reinforcing bars disposed on an upper portion of the lower structure formed of the hollow section steel; A perforated plate is provided, comprising an upper structure made of concrete which is poured to bury the reinforcing bar in the space made by the upper portion of the hollow shaped steel and the C-shaped steel and the side finishing member.

In the perforated plate according to the present invention as described above, a stiffener for assisting the rigidity of the C-shaped steel is installed on the upper portion of the hollow shaped steel, the stiffener is installed on the upper portion of the hollow shape may be placed on the stiffener.

In addition, in the perforated plate according to the present invention, the bottom surface of the perforated plate may be further provided with a movement preventing member to prevent movement in the transverse direction when the perforated plate is placed on the structure.

Next, with reference to the accompanying drawings will be described the configuration and effect of the perforated plate 1 according to an embodiment of the present invention.

Figure 1 is a schematic perspective view of the perforated plate according to the present invention, Figure 2 is a schematic plan view showing the state before the concrete is poured in the perforated plate according to the present invention shown in Figure 1, Figure 3 A schematic cross sectional view along line AA of FIG. 1 is shown. Figure 4 is a schematic assembly perspective view of the perforated plate according to the present invention showing the assembly structure to achieve the assembled state shown in FIG.

In the porous plate 1 of the present invention, as shown in the figure, the hollow shaped steel 11, that is, the hollow shaped steel 11 made of a square steel pipe in which the hollow is formed side by side to the side by welding to form a lower part of the porous plate To form a structure. On the outermost side of the hollow shaped steel 11 is installed a C-shaped steel 12 having a "c" or "C" shape, the C-shaped steel 12 is also used as a formwork during pouring of concrete 20 to be described later Function. The stiffener 16 may be installed to assist the rigidity of the C-shaped steel 12, the stiffener 16 not only functions to assist the coupling between the C-shaped steel 12 and the hollow-shaped steel 11, the hollow When installing the reinforcing reinforcing bar 13 in the upper portion of the shaped steel (11) also serves as a spacer to secure the position of the reinforcing bar (13).

As shown in the drawing, the spacers 15 are disposed on the upper surface of the hollow section steel 11 in a state in which the hollow section steels 11 are joined to each other to form a substructure, and a wire mesh or reinforcing bar 13 is formed thereon. Is installed. The spacer 15 may be manufactured in a cross shape using an iron plate as shown in the figure. However, the shape and the material of the spacer 15 are not limited thereto. The spacers 15 assist the attachment between the hollow shape steel 11 and the concrete 20 poured on the upper portion and serve to secure the position of the wire mesh or reinforcing bar 13.

On the other hand, on both sides between the short side of the perforated plate 1, that is, both sides between the C-shaped steel 12, the side finishing member 21 made of a bent form of bent steel to form a die function on the hollow-shaped steel 11 upper portion Each is installed. The side closure member 21 made of the bent steel may be formed with a double hook groove 22 to hook the ring when the perforated plate 1 is moved.

Thus, the concrete 20 in the state where the wire mesh or reinforcing bar 13 is disposed in the interior of the space formed by the upper portion of the lower structure made of hollow shaped steel 11, the C-shaped steel 12 and the side closure member 21 ) Is poured and filled. After pouring the concrete 20, the surface of the concrete 20 may be grooved to secure road surface slip resistance.

On the other hand, a bottom plate 14 of steel is installed on the bottom of the hollow shaped steel 11, and when the perforated plate 1 is later placed on a lower structure such as a girder, the bottom plate 14 is moved in the lateral direction. Movement preventing member 17 to prevent the can be installed. The movement preventing member 17 may be installed on the bottom surface of the C-shaped steel (12).

In addition, the bottom surface of the hollow section steel 11, in order to prevent the noise and vibration of the perforated plate 1, the upper surface of the structure on which the perforated plate 1 is placed, such as girder and the perforated plate 1 to be in close contact with each other Member 19 may be installed. In the embodiment shown in the figure the cushion member 19 is composed of a cushion plate and the insertion protrusion 18 and the insertion protrusion 18 is configured to be inserted into the interior of the hollow section steel 11, but not necessarily It is not limited to this.

As described above, in the case of using the perforated plate 1 according to the present invention, due to its own weight, the upper surface of the perforated plate and the lower structure is in close contact with each other so that the change in stress caused by the traffic load is not large. Therefore, the vibration and noise due to the traffic load can be greatly reduced, and the inconvenience of those who live or work around the road can be largely eliminated. In addition, since the amount of steel exposed to the road surface is reduced, corrosion problems due to chemical reactions such as calcium chloride are reduced, thereby improving durability.

In the above described the configuration and features of the present invention based on the embodiment according to the present invention, the present invention is not limited to this, it is possible to be freely modified according to the technical idea of the present invention.

Claims (3)

Hollow section steel (11) made of a square shaped steel in which the hollow is formed side by side welding to form a single body, A lower structure in which a bottom plate 14 is installed at a bottom of the hollow shaped steel 11; C-shaped steel 12 having a "c" or "C" shape installed on the outermost side of the hollow shaped steel 11 and installed to surround the hollow shaped steel 11 at intervals above the hollow shaped steel 11. and; Side finishing members 21 disposed on both sides of the C-shaped steels 12 on both sides to form a concrete pouring space on the hollow-shaped steel 11; A double hook groove 22 formed on the side closure member 21 to hang the ring when the perforated plate is moved; Reinforcing reinforcing bars 13 disposed on an upper portion of the lower structure formed of the hollow section steel 11; A spacer 15 installed at the hollow section steel 11 and an upper portion thereof to fix a position of the reinforcing bar 13; A stiffener (16) formed on the hollow shaped steel (11) to assist the rigidity of the C-shaped steel (12); An upper structure made of concrete 20 which is poured to bury the reinforcing bar 13 in the interior of the concrete placing space made by the upper portion of the hollow section steel 11 and the C-shaped steel 12 and the side finishing member 21 A perforated plate, characterized in that comprising a. delete The method according to claim 1, The bottom surface of the perforated plate (1), when the perforated plate (1) is placed on the structure, further comprises a movement preventing member (17) to prevent movement in the transverse direction.

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