KR200418121Y1 - The structure of deck panel - Google Patents

Abstract

The present invention relates to the structure of the deck panel, and a truss girder consisting of a triangle of the upper steel and the lattice fixed to the upper end to both sides and the lower steel fixed to the lattice; A coupling plate having protrusions on which lower feet of the both side lattices are fixedly installed; And a deck panel made of a concrete pour plate having a concave groove in which the joining plate is installed, the truss girder and the joining plate are joined by electric resistance spot welding, and the joining plate and the concrete pour plate are sheet metal press-molded (Tox joint) method. Combined by). Therefore, instead of welding the truss girder directly to the concrete pour plate as in the prior art, the truss girder is welded to the joining plate where the sheet metal is press-bonded to the concrete pour plate. As a result, welding points, pin holes, and perforations are not formed in the concrete pouring plate, thereby preventing rust and appearance, and preventing leakage of concrete moisture, thereby eliminating the need for cleaning and painting the concrete pouring plate.

Deck panel, truss girder, binding plate, concrete pouring plate, sheet metal press molding

Description

The structure of deck panel

1 is a front view showing the structure of a conventional deck panel

Figure 2 is a perspective view showing the structure of the deck panel of the present invention

Figure 3 is a partial front cross-sectional view showing the structure of the deck panel of the present invention

4 is a configuration diagram showing various embodiments of the protrusion formed on the coupling plate of the present invention

** Explanation of symbols for main parts of drawings **

20: Deck Panel 21: Truss Girder

214: lower foot 22: coupling plate

221: protrusion 23: concrete pouring plate

231: concave groove

The present invention relates to a deck panel used when building a building, and more particularly, to a deck panel structure consisting of a concrete pour plate, a coupling plate fixed to the concrete pouring plate and a truss girder fixed to the coupling plate.

In general, the frame of the building is formed of reinforced concrete and steel structures. In this structure, conventionally, it has been constructed by using the formwork and the copper bark, but in recent years, the deck panel to replace the formwork and the copper bark is widely used and is becoming common.

The deck panel 10 recently used is composed of a truss girder 12 and a concrete pour plate 11 on which the truss girder 12 is installed. The truss girder 12 installed on the concrete pour plate 11 is a variety of forms, such as straight, square, triangular, but the truss girder 12 shown in Figure 1 is the upper end 121 and the upper end welded to both sides It is composed of a triangle consisting of a lattice (rattice) 122 is installed and the lower root 123 is welded to the lattice 122.

Here, the concrete pour plate 11 is mainly used galvanized steel sheet.

A bending foot 124 of the truss girder 12 is installed by welding an electric resistance spot on the protrusion 111 of the concrete placing plate 11. The protrusion 111 is formed to facilitate welding by high temperature generation due to current concentration (heat concentration), that is, high resistance due to current concentration during electric resistance spot welding.

However, the electric resistance spot welding is easy, but due to excessive heat concentration due to the point contact of the concrete placing plate and the protrusion, the protrusion burns due to excessive heat concentration, or the welding point generated during welding causes peeling of the galvanized steel sheet to cause premature corrosion. As a result, the appearance is poor, the strength is lowered, and during welding of electrical resistance spots, a welding defect called a pinhole (multiple pores) is generated due to excessive current caused by minute welding timing errors. There was a disadvantage that the concrete pour plate is dirty due to leakage of the concrete poured on the plate.

Therefore, there has been a hassle to clean and paint the concrete pouring plate in order to beautifully prevent rust and appearance generated at welding points, pin holes and perforations.

The present invention is a deck panel structure to improve the structural problems in the fixed coupling between the truss girder and the concrete pouring plate of the deck panel described above, the technical problem of the present invention is not indirectly fixed to the concrete placing plate and truss girder The fixed installation prevents welding defects such as welding points, pin holes, and perforations from the concrete pour plates generated during electric resistance spot welding from occurring in the concrete pour plates, thereby eliminating finishing processes such as cleaning and painting work. To provide structure.

The technical problem of the present invention described above is achieved by the following technical configuration.

A truss girder made of steel and lattice; A coupling plate to which the truss girder is fixedly installed; And the technical problem of the present invention is achieved by configuring the deck panel with a concrete pour plate fixed to the coupling plate.

A truss girder consisting of a triangle of an upper steel and a lattice fixed to both sides thereof and a lower steel fixed to the lattice; A coupling plate having protrusions on which lower feet of the both side lattices are fixedly installed; And the technical problem of the present invention is also achieved by configuring the deck panel with a concrete pour plate is formed with a concave groove in which the coupling plate is installed.

The present invention is formed by cutting the truss girder at the concave part of the corrugated lattice to form a lower end of the lattice as an end of the truss girder, exposing the lower end of the lattice to the outside of both ends of the concrete pour plate that is the bottom substrate It is characterized by.

The present invention is characterized in that the bonding plate is fixed to the concrete pour plate by press bonding by means of sheet metal compression molding (Tox joint).

The present invention is characterized in that the concave groove is formed in the concrete pour plate, and the coupling plate is fixed to the concave groove.

The present invention is characterized in that the protrusions are spaced apart from one side or the center of the coupling plate or formed integrally or faced in pairs to be spaced apart or integrally from both sides or the center of the coupling plate.

The structure of the deck panel of the present invention described above will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing the structure of the deck panel of the present invention, Figure 3 is a partial front cross-sectional view showing the structure of the deck panel of the present invention, Figure 4 is a various embodiments of the protrusion formed on the coupling plate of the present invention It is a block diagram shown.

The deck panel of the present invention is a truss girder made of steel and lattice; A coupling plate to which the truss girder is fixedly installed; And a concrete pouring plate on which the coupling plate is fixed.

Deck panel 20 of the present invention is of the upper steel 211 and the lattice 212 is fixed to the upper end to both sides and the lower steel 213 is fixed to the lattice 212 as in the embodiment of FIG. A truss girder 21 made of a triangle; A coupling plate 22 having protrusions 221 on which lower feet 214 of both side lattice 212 are fixed; And a concrete pour plate 23 having a concave groove 231 in which the coupling plate 22 is installed.

At this time, the truss girder 21 is cut at the concave part of the corrugated lattice 212 so that the lower foot 214, which is the lower end thereof, is formed at both ends of the truss girder 21, The lower foot 214 is exposed to the outside of both ends of the concrete pour plate 23 that is the bottom substrate.

The shape of the lower foot 214 is a triangle in Figure 2 (a), (b) is a semi-elliptical shape, where the shape is not limited to this, the electric resistance spot welding is advantageous shape according to the protrusion 221 It is enough.

On the other hand, the deck panel of the present invention is fixed to the steel frame of the steel frame or the formwork of the reinforced concrete structure by the lower foot 214 exposed to the outside of both ends of the concrete pour plate 23.

That is, in the case of steel structure, the lower foot 214 is bent downward to contact the upper surface of the steel beam, and then electric resistance spot welding is performed. In the case of reinforced concrete structure, the lower foot 214 is bent downward. This can be hung on the top side of the formwork.

In the present invention, the upper and lower steels 211 and 213 may be a rod, but steel is preferred, and the concrete pouring plate 23 and the coupling plate 22 may be metal plates, but a galvanized steel sheet is preferable. .

The truss girder described above is not limited to a triangle as in FIG. 3 of the present embodiment, but may be straight, rectangular, or various other shapes.

The present invention is not characterized by the truss girder, but is characterized by the coupling method of the truss girder and the concrete pour plate is not limited to the shape of the truss girder as described above.

In addition, the coupling plate 22 is formed with a protrusion 221 to which the bottom foot 214 of the lattice 212 of the truss girder 21 is fixed, thereby concentrating current to the protrusion 221 during electric resistance spot welding. The heat can be concentrated quickly to facilitate welding.

The protrusion 221 may be implemented in various forms as shown in FIG.

That is, (a), (f) may be formed by separating a plurality of the center or one side of the coupling plate 22, as shown in (b), (e) is not integral or spaced apart on the center or one side, that is, the coupling plate It may be formed in a straight line in the longitudinal direction of (22).

Alternatively, as in (c) and (d), the protrusions 221 may be formed in a pair to face each other, and may be spaced apart or integrally formed, and their positions may be central or both sides.

On the other hand, reference numeral 222 denotes a preferred crimping point for sheet metal crimping and joining, and the crimping point is not limited to this and can be changed depending on circumstances.

This protrusion is not limited to this, but can be implemented in various ways depending on the shape of the lattice lower foot that varies depending on the shape of the truss girder.

And the coupling plate 22 is fixed to the concrete pour plate 23 by pressing coupled by sheet metal compression molding method. Preferably, as in the embodiment of Figure 2 by forming a concave groove 231 in the concrete pour plate 23, by placing the coupling plate 22 in the concave groove 231 by a sheet metal pressing molding method It is preferable to fix the position of the coupling plate 22 during compression bonding. By the sheet metal compression molding method it is possible to prevent the occurrence of corrosion due to the conventional welding point.

The method for manufacturing the deck panel by combining the truss girder, the coupling plate and the concrete pour plate as one of the components of the deck panel of the present invention described above will be described with reference to the drawings shown in FIGS. 2 and 3.

The first manufacturing method of the deck panel is as follows.

First step: The lower foot 214 of the lattice 212 of the truss girder 21 is welded to the protrusion 221 of the coupling plate 22 by electric resistance spot welding.

Second step: The coupling plate 22 of the truss girder 21 is press-bonded to the concrete pour plate 23 by sheet metal compression molding.

Unlike ordinary welding, this sheet metal press molding method is a corrosion-proof type joining method that does not have corrosion burrs or sharp edges, and is joined by a device consisting of a cylindrical press punch and a press die. This is how you do it.

3 is pressed by a Tox Round joint method in the known sheet metal press molding method.

Since the sheet metal compression molding method is well known, the drawings will be omitted.

A circular groove is formed in the press die of the sheet metal crimping and joining method, a donut groove is formed in the bottom of the circular groove, and the press punch presses the center protrusion of the donut groove as a pedestal.

According to this method, two different plates (in this invention, the coupling plate 22 and the concrete pour plate 23) are stacked on the press die, and pressing the two overlapping plates with a press punch causes the plate to be in the circular groove. It will be pushed in and joining will proceed. Subsequently, when the pressing force is further increased, the concrete pouring plate, which is a lower plate, is pushed into a donut-shaped groove and pressed into a button shape among the plate materials pressed by the press punch.

Such a sheet metal crimp molding (Tox joint) is already known in addition to the Tox Round joint method, Tox Flat joint, Tox Vario joint, Tox Rotary Clinching, Tox Clinch Rivet method. Therefore, the present invention can be selectively used in the above manner.

The second manufacturing method of deck panel is as follows.

First step: The concrete pour plate 23 and the coupling plate 22 is press-bonded by a sheet metal compression molding method (Tox joint).

Second step: The coupling plate 22 and the truss girder 21 of the concrete pour plate 23 is welded by electric resistance spot welding.

As described above, the deck panel 20 may combine the truss girder and the coupling plate first by electric resistance spot welding or combine the coupling plate and the concrete pour plate by sheet metal compression molding according to the manufacturing process.

However, preferably the welding point and the pinhole generated by the electric resistance spot welding, which is the object of the present invention, are not formed in the concrete placing plate as long as possible to combine the truss girder and the coupling plate by electric resistance spot welding.

As described above, the present invention does not weld the truss girder directly to the concrete pour plate as in the prior art, but instead of welding the truss girder to the bonding plate where the truss girder is pressed against the concrete pour plate to form an intermediate medium. Indirectly fixed installation by joining plate prevents welding point, pin hole and perforation in concrete pouring plate, preventing rust and appearance, and preventing leakage of concrete moisture. There is no need to effect.

Claims (8)

A truss girder made of steel and lattice; A coupling plate to which the truss girder is fixedly installed; And deck panel structure consisting of a concrete pour plate is fixed to the coupling plate. The method of claim 1, wherein the truss girder is cut at the concave part of the corrugated lattice to form a lower foot, which is the lower end of the lattice, at both ends of the truss girder, wherein the lower foot of the lattice is the bottom plate of the concrete pour plate. Deck panel structure characterized by exposing to both ends outward. The deck panel structure according to claim 1, wherein a protrusion for fixing the lattice lower foot of the truss girder is formed on the coupling plate. The deck panel structure according to claim 1, wherein the coupling plate is fixed to the concrete pour plate by sheet metal compression molding (Tox joint). The deck panel structure according to any one of claims 1 to 4, wherein a concave groove is formed in the concrete pour plate, and the coupling plate is fixed to the concave groove. The truss girder is formed of a triangle consisting of an upper steel and a lattice fixed to the upper end to both sides thereof and a lower steel fixed to the lattice, and the lower plates of the two lattices are fixed to the coupling plate. The projecting portion is formed, the structure of the deck panel, characterized in that the concave groove is formed in the concrete pour plate is installed. The deck panel structure according to any one of claims 1, 2, and 6, wherein the protrusion is spaced apart or integrally formed from one side or the center of the coupling plate. The deck panel structure according to any one of claims 1, 2, and 6, wherein the protrusions are opposed to each other so as to be spaced apart or integrally formed at both sides or the center of the coupling plate.

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