KR20090049403A - Composite concrete plate enclosing fiber reinforced plastics deck - Google Patents

Abstract

The present invention relates to an FRP deck built-in FRP-concrete composite flooring having a structure in which the FRP deck is embedded in the interior of the concrete deck so that the concrete surrounds the outside of the deck made of FRP.

In the present invention, as the FRP-concrete composite flooring plate 1, in which the FRP deck 2 and the concrete 3 are synthesized, the concrete 3 is formed on the upper and front sides, or the upper and left and right sides of the FRP deck 2, respectively. Formed to surround the side, the upper and front and rear sides of the FRP-concrete bottom plate 1, or the upper and left and right sides of the FRP-concrete bottom plate 1 is made of concrete (3), FRP-concrete composite The bottom surface of the bottom plate 1 is provided with a built-in FRP deck FRP-concrete composite floor plate, characterized in that the bottom surface of the FRP deck (2) is exposed.

According to the present invention as described above, in the case of connecting the FRP-concrete composite flooring plate to each other or the girder FRP-concrete composite flooring plate and the girder, such as the connection between concrete and -concrete, In order to avoid the hassle of connecting the lower FRP deck / the upper concrete connection, it is possible to use a variety of concrete connection structures and methods developed in the prior art, the construction is to achieve the effect that is economically made.

In addition, when the shear connection by mounting the FRP-concrete composite floor plate on the girder, it is possible to use the connection structure and method of the concrete floor plate and the girder in a variety of ways, avoiding the conventional complex FRP deck and girder connection structure, The economical construction effect is achieved.

Deck, Deck, Concrete, Interior, Fiber Reinforcement, All

Description

Composite Concrete Plate Enclosing Fiber Reinforced Plastics Deck with Fiber Reinforced Plastic Deck

The present invention relates to a fiber-reinforced plastic deck-incorporated FRP-concrete deck, specifically, so that concrete surrounds the outside of a deck made of fiber-reinforced plastics (hereinafter referred to as "FRP deck"). The FRP deck built-in type FRP-concrete composite flooring having a structure in which the FRP deck is embedded in the interior of the concrete floorboard.

The bottom plate concrete of predetermined thickness is installed on the FRP deck of the type where the upper plate and the lower plate and the bulkhead are integrally formed to form a hollow, and the FRP-concrete composite bottom plate having a structure in which both members are integrated into the upper structure of the bridge The method of use is shown. Such FRP-concrete composite floor plates are manufactured in the form of units having a predetermined width and length, and these units are connected to each other to be used as the entire floor plate or mounted on the girder to be integrally connected with the girder.

However, in the case of the conventional FRP-concrete bottom plate, since the upper part is made of concrete and the lower part is made of FRP deck, when the units are connected to each other side, the upper part uses a method of connecting concrete members, and the lower part is used for FRP. There is inconvenience to connect to each side by using separate connection method. In other words, the upper and lower portions of the unit must be connected using different methods, which is inconvenient accordingly.

In addition, there is a disadvantage in that the cost for the bottom plate installation is increased because the FRP deck is disposed excessively in the portion where the tensile force is applied when connecting the unit.

 In addition, when the unit of the FRP-concrete bottom plate is mounted on the girder, when the girder and the unit are sheared, the lower FRP deck and the girder must be connected, so that the shear connector installed on the girder top can be inserted into the FRP deck. Perforating the deck and filling the concrete or mortar, such as the process for the shear connection of the FRP deck and the girder is complicated, and there is a problem that the increase in construction cost and air is inevitable.

The present invention was developed to overcome the limitations and problems of the prior art as described above, in the FRP-concrete composite floor plate having a composite structure of the FRP deck and concrete floor plate, the side and the top of the lower side in different ways The purpose of the present invention is to provide a new structure of FRP-concrete composite deck, which makes it easy and economical to make side connection of FRP-concrete composite deck by eliminating the hassle and making it possible to use a common method of connecting concrete deck. It is done.

In addition, when mounting the FRP-concrete composite floor plate to the girder, it is an object of the present invention to provide a FRP-concrete composite floor plate that can eliminate the complexity and hassle of the process according to the connection of the FRP deck and the girder.

According to the present invention, in the case of connecting the FRP-concrete composite floorboards to each other to the side or the FRP-concrete composite floorboard and the girder on the girder, the connection between the concrete and -concrete is made, Avoiding the trouble of FRP deck connection / upper concrete connection, it is possible to use a variety of concrete connection structures and methods developed in the prior art, the construction will be effective to achieve that much economically.

In addition, when shearing by mounting the FRP-concrete composite deck on the girder, it is possible to use various structures and methods of connecting the concrete deck and girder, avoiding the complex structure of the conventional FRP deck and girder, The economical construction effect is achieved.

In the present invention, the FRP-concrete composite flooring plate is a composite FRP deck and concrete, the concrete is formed so as to surround the upper and front and rear sides, or the upper and left and right sides of the FRP deck of the composite composite floor plate Upper and front and rear sides, or the upper and left and right sides of the FRP-concrete bottom plate is made of concrete, the lower surface of the FRP-concrete bottom plate has a structure that the lower surface of the FRP deck is exposed structure FRP-concrete composite decks are provided.

In the present invention as described above, the concrete formed on the front, rear, left and right sides of the FRP deck, the thickness (H2) greater than the thickness (H1) of the FRP-concrete composite flooring plate at the position where the FRP deck is installed The lower surface of the concrete formed on the front and rear or left and right sides of the FRP deck may have a structure that protrudes further to the lower portion than the lower surface of the FRP deck, the front and rear sides or left and right side edges of the FRP deck, Buried deeper into portions of concrete having a greater thickness H2, the bottom of the FRP deck at the edge of the FRP deck 2 can be configured to be covered with concrete.

In addition, in the present invention, one or more side surfaces of the FRP-concrete bottom plate may have a structure in which connecting bars protrude.

Hereinafter, the configuration of the present invention will be described by referring to specific embodiments of the present invention with reference to the accompanying drawings.

FIG. 1 is a schematic perspective view of an FRP-concrete composite floor plate 1 having a connecting reinforcing bar 4 protruding from the side as an embodiment of the FRP deck-built FRP-concrete composite floor plate 1 according to the present invention. It is. FIG. 2A shows a schematic cross sectional view along line A-A of FIG. 1, and FIG. 2B shows a schematic cross sectional view along line B-B of FIG. 1.

FRP-concrete composite bottom plate 1 according to the present invention is formed integrally so that the concrete (2) is wrapped around the FRP deck (2) having a cross section consisting of the upper plate, the lower plate and the partition wall is formed Are synthesized. In the present invention, the concrete 3 is not overlaid on the lower surface of the central portion of the FRP deck 2 (however, the concrete can be overlaid on the lower surface of the edge of the FRP deck 2, as in the embodiment described later). . Thus, as in the embodiment shown in Figures 2a and 2b, the composite bottom plate 1 according to the present invention has a built-in FRP deck (2) therein, the lower surface of the FRP deck (2) in the lower surface This will have an exposed structure.

In the embodiment shown in Figs. 1, 2A and 2B, the upper and front and rear sides of the FRP deck 2 (both sides in the direction in which the hollow of the FRP deck is formed), and the left and right sides (the direction in which the hollow of the FRP deck is formed) Concrete (3) is integrally formed so as to surround both sides in the direction perpendicular to the direction. However, the present invention is not limited thereto, and the concrete 3 may be formed only on the top and front and rear sides of the FRP deck 2, and the concrete 3 may not be formed on the left and right sides of the FRP deck 2, and the FRP deck 2 Concrete 3 is formed only on the upper and left and right sides of the) and the concrete 3 may not be formed on the front and rear sides of the FRP deck (2).

On the other hand, as shown in Figure 2b, when the concrete 3 is integrally formed around the FRP deck 2, the concrete flows into a hollow inside of the FRP deck 2 to a certain depth, through this structure FRP Deck 2 and concrete 3 are more firmly integrated. Shown by reference numeral 5 in FIG. 2B is a form dam 5 disposed in the hollow to limit the depth at which the concrete 3 enters the hollow of the FRP deck 2.

3 is a perspective view corresponding to FIG. 1, showing a perspective view showing another embodiment of the present invention. As shown in FIG. 3, the concrete opening or inlet hole 6 is provided in the upper plate of the FRP deck 2 so that concrete can easily flow into the hollow interior of the FRP deck 2 to the installation position of the form dam 5. ) May be formed.

As above, in the production of the FRP-concrete composite bottom plate 1 according to the present invention by pouring concrete 2 to surround the FRP deck 2, the top plate and concrete (2) of the FRP deck (2) Various conventional methods can be adopted for the synthesis between That is, the coupling between the various known FRP deck (2) and concrete, such as silica sand coating on the top plate of the FRP deck (2), or the shear connector is integrally installed so that the shear connector is embedded in the concrete (2) Method can be adopted. In particular, the connecting reinforcing bar 4 illustrated in the drawings may be formed only on one side of the FRP-concrete composite flooring plate 1, or may be formed on two, three or all four surfaces.

4 shows a schematic cross-sectional view at a position corresponding to FIG. 2A of a FRP-concrete composite floor plate 1 according to another embodiment of the invention. In the embodiment shown in FIG. 4, the concrete formed around the FRP deck 2 has a thickness greater than the thickness H1 of the composite floor plate 1 at the position where the FRP deck 2 is installed. H2), the lower surface of the concrete formed around the FRP deck (2) has a structure that protrudes more than the lower surface of the FRP deck (2). As such, the structure in which the lower surface of the concrete formed around the FRP deck 2 protrudes further than the lower surface of the FRP deck 2 may be applied only to the front, rear, left, and right sides of the FRP deck 2, May apply to all.

According to the above embodiment, since the concrete of sufficient thickness exists when the FRP-concrete composite floor plates 1 are laterally connected to each other or when they are integrally combined with the girder on the girder, the connection of the FRP-concrete composite floor plates 1 is performed. This becomes easier. Particularly, when the FRP-concrete composite deck 1 is mounted on the girder, the edge of the FRP-concrete composite deck 1 becomes a position at which a large shear force is applied, so that the concrete around the FRP deck 2 as described above ( By increasing the thickness of 3), it is very easy to have a shear strength that can sufficiently withstand a large shear force.

FIG. 5 is a perspective view showing a FRP-concrete composite bottom plate 1 according to a modified embodiment of the embodiment shown in FIG. 4, and is shown in a perspective view from the bottom. 6A and 6B show schematic cross-sectional views taken along lines C-C and D-D of FIG. 5, respectively.

In the embodiment shown in Figs. 5, 6A and 6B, the concrete 3 is wrapped around the part of the lower surface of the FRP deck 2 at the edge of the FRP deck 2. That is, in the embodiment shown in Figure 4 the edge of the FRP deck 2 is embedded deeper into the concrete of the side. According to such a structure, since the edge of the FRP deck 2 is embedded in the concrete 3, the effect that the possibility of a crack generate | occur | produces in the part where the edge of the FRP deck 2 and the concrete 3 meet is exhibited. .

On the other hand, Figure 7a is a partially enlarged view showing a structure in which the left and right sides of the FRP-concrete composite bottom plate 1 according to the embodiment shown in FIG. 5 is synthesized with the girder 10 in a state mounted on the girder 10 7B is a partially enlarged view showing a structure in which the front and rear sides of the FRP-concrete composite bottom plate 1 according to the embodiment shown in FIG. 5 are combined with the horizontal beams 20 while being mounted on the horizontal beams 20. The figure is shown. As shown in the drawings, when the FRP-concrete composite bottom plate 1 according to the present invention is integrally synthesized by mounting on the girder 10, various types of synthesis that can be applied between the girder 10 and the concrete 3 The structure allows easy connection and synthesis. In the embodiment shown in FIG. 7A, a structure in which the non-shrink mortar 11 is placed on the top surface of the girder 10 so that the connecting reinforcing bar 4 protruding from the side of the FRP-concrete composite floor plate 1 is embedded is illustrated. have.

On the other hand, as shown in Figure 7b, it is also very easy to connect the cross beam 20 made of steel and the FRP-concrete composite floor plate 1, as illustrated in the figure, of the cross beam 20 made of steel Through the method of placing the non-contraction mortar 22 on the upper surface of the crossbeam 20 so that the connecting rod 4 protruding from the side of the stud 21 and the FRP-concrete composite deck 1 installed in the upper portion is embedded. It is possible to easily connect the crossbeam 20 and the FRP-concrete composite floor plate (1). In particular, as shown in Figure 7b, when the lower end 23 of the connecting reinforcing bar 4 is configured to penetrate through the FRP deck (2) of the FRP-concrete composite bottom plate 1 can achieve a more robust connection, synthesis have.

1 is a schematic perspective view of an FRP-concrete composite deck having protruding connecting bars on one side of an embodiment of the present invention.

FIG. 2A is a schematic cross-sectional view taken along line A-A of FIG. 1, and FIG. 2B is a schematic cross-sectional view taken along line B-B of FIG. 1.

3 is a perspective view corresponding to FIG. 1, showing a further embodiment of the present invention.

4 is a schematic cross-sectional view at a position corresponding to FIG. 2A of an FRP-concrete composite flooring plate according to another embodiment of the present invention.

FIG. 5 is a perspective view illustrating a FRP-concrete composite bottom plate according to a modified embodiment of the embodiment illustrated in FIG. 4, and is viewed from below.

6A and 6B are schematic cross-sectional views taken along lines C-C and D-D of FIG. 5, respectively.

FIG. 7A is a partially enlarged view illustrating a structure in which the left and right sides of the FRP-concrete bottom plate according to the embodiment shown in FIG. 5 are combined with the girder while being mounted on the girder.

FIG. 7B is a partially enlarged view illustrating a structure in which the front and rear sides of the FRP-concrete composite floorboard according to the embodiment shown in FIG. 5 are combined with the cross beams while being mounted on the cross beams.

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

1: FRP deck built-in concrete deck 2: FRP deck

Claims (4)

As a FRP-concrete composite flooring plate (1) in which a fiber reinforced plastic deck ("FRP deck") 2 and concrete 3 are synthesized, The concrete 3 is formed to surround the upper and front and rear, or the upper and left and right sides of the FRP deck (2), The upper and front and rear sides of the FRP-concrete composite floor plate 1 or the upper and left and right side surfaces of the FRP-concrete composite floor plate 1 are made of concrete (3), and the lower surface of the FRP-concrete composite floor plate (1). The FRP deck built-in FRP-concrete composite flooring, characterized in that the bottom surface of the FRP deck (2) is exposed. The method of claim 1, Concrete 3 formed on the front, rear, left, and right sides of the FRP deck 2 is larger than the thickness H1 of the FRP-concrete composite flooring plate 1 at the position where the FRP deck 2 is installed. Has a thickness (H2), The lower surface of the concrete (3) formed on the front, rear, left and right sides of the FRP deck (2) has a structure that protrudes further to the lower portion than the lower surface of the FRP deck (2) FRP-concrete composite flooring . The method of claim 2, The front, rear, or left and right side edges of the FRP deck 2 are embedded deeper into portions of the concrete 3 having the greater thickness H2, so that the FRP deck 2 at the edge of the FRP deck 2 FRP-concrete composite flooring, characterized in that the lower surface of the concrete (3) is covered. The method according to any one of claims 1 to 3, FRP-concrete composite floor plate, characterized in that the connecting reinforcing bar (4) protrudes on at least one side of the FRP-concrete composite floor plate (1).

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