KR101375126B1 - Functional deck-plate - Google Patents

Abstract

The present invention relates to a functional deck-plate formed of a plurality of coupled truss girders on a metal panel. The metal panel is integrally bent, has a male connector and a female connector on both sides thereof, and has a plurality of welding protrusions on the top of the metal panel. The male connector is bent outward to be inclined to form an inclined connection part. The inclined connection part is horizontally bent outward to form a horizontal part. The horizontal part is bent inward in a lower direction to integrally form an inclined end part. The female connector is bent inward in an upper direction to form an inclined part. The inclined part is bent outward in a horizontal direction to integrally form a horizontal end part. An out-flow preventing member is provided on the bottom of the horizontal part of the male connector or on the top of the horizontal end part of the female connector to prevent paste from being discharged when deck-plates are bound. The truss girder includes a lattice member which is bent to have wave shape and is welded and coupled to both sides based on an upper steel bar. A lower steel bar is welded and coupled to the outside of the lower lattice member to have a triangle shape. Lower parts of the lattice member are bent outward in the horizontal direction to integrally form foot parts, and the foot part are welded and coupled to the top of the welding protrusions.

Description

Functional Deck Plates {FUNCTIONAL DECK-PLATE}

A plurality of truss girder is coupled to the upper portion of the metal panel, the metal panel is integrally bent so that the connecting male and the connecting arm are formed on both sides of the width direction, respectively, the connecting member or the connecting arm has a leakage preventing member It is provided with a deck plate to prevent the leakage of the paste during binding.

In general, the concrete structure is a composite structure that is used together with the concrete of the compression material and the reinforcement of the tension material, it can be obtained through the process of reinforcing the reinforcing bars after laying the formwork, and then curing the concrete, and then dismantle the form after curing. .

That is, the concrete structure has a problem in that the construction period is long due to the complexity of the above process. In order to solve this problem, a deck plate incorporating a truss girder and a panel has been proposed to be installed between beams to support the load of concrete being poured.

However, the conventional deck plate has a problem that the paste is leaked through the gap during the concrete pouring, or the water is leaked because the binding of the end does not stick out in the bonding process. In particular, the end vulnerable to the load has a problem that the size of the gap is gradually expanded to further promote the outflow and leakage of the paste.

In addition, due to the moisture of the spilled paste caused corrosion of the panel, durability is lowered, there was also a problem in aesthetic appearance.

On the other hand, the conventional deck plate is structurally unstable because the upper and lower reinforcement of the truss girder rely on the coupling of the reticle material, the load is concentrated on both ends in the process of installing the deck plate between the beams and the shape of the end is deformed There was a problem with being vulnerable.

In addition, even when welding the front surface of the panel to join the panel or truss girder or forming a support hole, the panel is formed by simply bending the panel, so that it is difficult to effectively cope with the tensile force caused by the load of concrete. The buckled or bent support is easily deployed, if the shape of the support is complicated, there is a problem that the voids do not occur because the concrete is not filled to the inside.

The present invention is derived in order to solve the above-mentioned conventional problems, the bonding of the two ends of the deck plate to prevent the leakage of paste or leakage of water during concrete pouring, thereby preventing corrosion of the panel, truss The purpose is to provide a functional deck plate that structurally reinforces both ends of the girder, effectively copes with the tension due to the load of the concrete, and the concrete is filled to the inside.

Functional deck plate according to the present invention for achieving the above object, in the deck plate (D) is formed by combining a plurality of truss girder 200 on top of the metal panel 100, the metal panel 100 ) Is integrally bent so that the connecting wheel 110 and the connecting arm 120 are formed on both sides of the width direction, respectively, and a plurality of welding protrusions 130 are formed on the upper surface of the metal panel 100. The connecting ball 110 is bent inclined in the outward direction to form an inclined connection portion 111, the inclined connection portion 111 is bent in an outer horizontal square to form a horizontal portion 112, the horizontal portion 112 The inclined end portion 113 is bent downwardly and integrally formed, the connecting arm hole 120 is bent upwardly inwardly to form an inclined portion 121, and the inclined portion 121 is bent in the outer horizontal direction. The horizontal end 122 is integrally formed The leakage preventing member 140 is provided at a lower portion of the horizontal portion 112 of the connecting male 110 or at an upper portion of the horizontal end 122 of the connecting arm 120 to prevent the leakage of the paste P at the time of binding. And, the truss girder 200 is welded to the lattice material 220 bent in a wave form on both sides with respect to the upper reinforcement 210, respectively, the lower reinforcement 230 on the lower outer side of the lattice material 220 Each of them is welded to form a triangular shape, the lower end of the lattice material 220 is bent in the outer horizontal direction, respectively, foot portion 240 is integrally formed, the foot portion 240 is the welding projection It is placed on top of the 130 is characterized in that the welded.

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In addition, the end member 300 is provided at both ends of the truss girder 200, the end member 300 is formed by combining the vertical member 310 and the horizontal member 320, the vertical member The upper end of the 310 is coupled to the upper reinforcement 210 of the truss girder 200, the lower end is bent at a right angle to form a support member 311, the support member 311 is the metal panel 100 It is coupled to, the upper portion of the horizontal member 320 is characterized in that the lower reinforcement 230 of the truss girder 200 is coupled.

In addition, the welding protrusion 130 of the metal panel 100 is characterized in that the metal panel 100 is formed in a quadruple structure by secondary bending to overlap each other in the longitudinal direction.

In addition, a plurality of reinforcement protrusions 150 having a closed curve shape are provided between the welding protrusions 130 of the metal panel 100 in the longitudinal direction.

As described above, according to the functional deck plate according to the present invention, the connecting male ball or connecting arm of the metal panel is provided with a leak-proof member, the bonding of both ends of the deck plate sticks out, even if the concrete is poured out of the paste or moisture This has the effect of not leaking.

As a result, it is possible to prevent corrosion of the metal panel, thereby preventing deformation of the end portion, improving durability, and preventing aesthetics from becoming messy.

In addition, the end member is provided at both ends of the truss girder to structurally reinforce the truss girder, and can effectively cope with the tensile force due to the load of the concrete.

In addition, by forming the weld projections in a four-ply structure, it can effectively cope with the tensile force due to the load of the concrete, there is an effect that the concrete is filled up to the inside without voids.

And there is an advantage that can be provided to the reinforcement protrusion to reduce the load of the concrete to be poured, more effectively respond to the tensile force.

1 is a perspective view showing a deck plate according to the prior art.
Figure 2 is a perspective view of a metal panel of one embodiment according to the present invention.
Figure 3 is a cross-sectional view of the metal panel of one embodiment according to the present invention.
Figure 4 is a perspective view of the deck plate of one embodiment according to the present invention.
Figure 5 is a perspective view showing the binding state of the deck plate of one embodiment according to the present invention.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

As shown in FIG. 4, the deck plate D according to the present invention is formed by coupling a plurality of truss girders 200 to an upper portion of the metal panel 100, and the metal panel 100 is integrally bent. The connecting male ball 110 and the connecting arm ball 120 are formed on both sides in the width direction, and a plurality of welding protrusions 130 are formed on the upper surface of the metal panel 100.

At this time, the configuration is a configuration disclosed in the general conventional deck plate (D) as shown in FIG.

That is, as shown in Figure 5 in connecting the deck plate (D) and the adjacent deck plate (D), the connection number 110 and the connecting arm (120) is bound to each other to extend in the width direction.

In addition, the deck plate (D) is formed by arranging the truss girder 200 to be described later on the welding protrusion 130 to be welded to each other.

However, the deck plate (D) according to the present invention is provided with a leakage preventing member 140 in the connecting male 110 or the connecting arm (120) to prevent the leakage of the paste (P) when binding.

The shape of the leak-proof member 140 provided in the connecting male 110 or the connecting arm 120 may be configured in various ways to correspond to the specific shape of the connecting male 110 and the connecting arm (120), It is desirable to be able to ensure the tightness.

The outflow prevention member 140 is preferably using an elastic material, such as a rubber material or a urethane material. The outflow prevention member 140 should be made of an elastic material so that the outflow prevention member 140 is also flexible to correspond to the load and deformation acting on the connecting male 110 or the connecting arm 120 at both ends of the metal panel 100. Because it can be modified.

That is, even when the concrete is poured by binding the two ends of the deck plate D by the leakage preventing member 140, the paste P does not leak or water is leaked, and the corrosion of the metal panel 100 is prevented. Therefore, the deformation of the end portion can be prevented and durability can be improved, and the metal panel 100 can be prevented from becoming aesthetically dirty.

On the other hand, the truss girder 200 is welded to the lattice material 220 bent in a wave form on both sides with respect to the upper reinforcement 210, respectively, the lower reinforcement 230 is lower outside the lattice material 220 Each is welded to form a triangular shape.

The configuration of the truss girder 200 is the same as the configuration of a conventional general truss girder, the lower width is preferably 60mm, the height is 100mm, the length is approximately 3,300mm to 4,000mm, one deck plate (D) 2 to 3 rows of truss girder 200 is disposed, and for this purpose, the metal panel 100 is preferably formed to have a width of 600 mm and a length of 3,300 mm to 4,000 mm.

However, the standard is a matter that can be easily changed by those skilled in the art, if the truss girder 200 is arranged in three rows on the metal panel 100 having a width of 600mm, the upper reinforcement 210 of the truss girder 200 It is preferable to be installed at a position within 200mm around the central portion and the center portion, the upper reinforcement 210 is 10mm to 13mm, lattice material 220 is 5mm to 6mm and lower reinforcement 230 is 8mm to 10mm It is preferable to have a diameter of.

The lower ends of the lattice material 220 are each bent in the outer horizontal direction to form the foot part 240 integrally, and the foot part 240 is placed on the upper portion of the welding protrusion 130 and welded thereto.

On the other hand, as shown in Figure 3 the connecting sphere 110 of the metal panel 100 is bent inclined in the outward direction to form an inclined connecting portion 111, the inclined connecting portion 111 is bent in an outer horizontal square A horizontal portion 112 is formed, and the horizontal portion 112 may be bent downward inward to form an inclined end portion 113 integrally.

In addition, the connecting arm 120 may be bent inwardly upward to form an inclined portion 121, and the inclined portion 121 may be bent in an outer horizontal direction to form a horizontal end portion 122 integrally.

The connecting male 110 and the connecting arm 120 may be manufactured in various shapes, but when manufactured in the shape, even if the connecting male 110 covers the upper portion of the adjacent connecting female hole 120 to cast concrete, Since there is no open portion, it is possible to prevent the inflow of paste or moisture directly.

On the other hand, the leakage preventing member 140 may be provided on the lower portion of the horizontal portion 112 of the connecting male 110 or the upper portion of the horizontal end portion 122 of the connecting arm (120).

At this time, the leakage preventing member 140 is manufactured in the shape of a thin film, so that the thickness of about 1mm, it is preferable to prevent the lifting phenomenon of the end due to the leakage preventing member 140.

Meanwhile, as shown in FIG. 4, end portions 300 may be provided at both ends of the truss girder 200.

The end member 300 is formed by coupling the vertical member 310 and the horizontal member 320, the upper end of the vertical member 310 is coupled to the upper reinforcement 210 of the truss girder 200, The lower reinforcement 230 of the truss girder 200 may be coupled to an upper portion of the horizontal member 320.

The deck plate (D) has a problem that the upper and lower reinforcement (210,230) of the truss girder 200 is structurally unstable by relying on the coupling of the reticle material 220, but having the end material 300 more effectively truss Structural reinforcement of the girder 200 can be made.

In addition, the lower end of the vertical member 310 may be bent at a right angle to form a support member 311, the support member 311 may be configured to be coupled to the metal panel 100.

That is, in the prior art, in the process of installing the deck plate (D) between the beams, the load is concentrated on both ends, so that the shape of the end is deformed, there is a problem that structural weakness, but the supporting member 311 is coupled to the metal panel 100 ) Acts as a skeleton so that it can effectively cope with the deformation acting on the end.

Meanwhile, as shown in FIG. 3, the welding protrusion 130 of the metal panel 100 may be formed in a quadratic overlapping structure by second bending the metal panel 100 to overlap each other in the longitudinal direction.

Specifically, the metal panel 100 is bent first to overlap each other to form a two-layered projection, and then the projections are bent secondarily to form a four-layered weld projection 130 having a four-ply structure. will be.

As described above, if the welding protrusion 130 is formed in a four-ply structure, it is possible to overcome the problem that the conventional support hole does not effectively cope with the tensile force caused by the load of concrete and is easily buckled or easily developed.

In addition, despite the structural reinforcement, the shape of the welding protrusion 130 may be relatively simple, and thus concrete may not be filled to the inside, thereby solving the problem of voids.

Meanwhile, a plurality of reinforcement protrusions 150 having a closed curve shape may be provided between the welding protrusions 130 of the metal panel 100 in the longitudinal direction.

The reinforcement protrusion 150 may be manufactured in various shapes, and it is preferable that the reinforcement protrusion 150 be manufactured in a circular to elliptical shape as shown in FIGS. 2 to 5, because the effect of stress reinforcement is most pronounced compared to the volume reduction.

Specifically, the reinforcement protrusion 150 may reduce the load of the concrete by reducing the amount of concrete placed on the upper portion of the metal panel 100, and at the same time, there may be structural reinforcement effects due to irregularities, thereby more effectively responding to the tensile force.

Functional deck plate according to the present invention described above is not limited to the above embodiments, and those skilled in the art without departing from the gist of the invention claimed in the claims below It should be regarded as falling within the protection scope of the claims to the extent that anyone can carry out various changes.

D: Deck plate P: Paste
100: metal panel 110: connecting port
111: inclined connection 112: horizontal
113: inclined end 120: connecting arm
121: Inclined part 122: Horizontal end
130: welding protrusion 140: leak prevention member
150: reinforcement 200: truss girder
210: upper rebar 220: lattice material
230: lower reinforcement 240: foot part
300: end member 310: vertical member
311: support member 320: horizontal member

Claims (5)

In the deck plate (D) is formed by combining a plurality of truss girder 200 on the top of the metal panel 100,
The metal panel 100 is integrally bent so that the connecting male opening 110 and the connecting arm opening 120 are formed on both sides in the width direction, and a plurality of welding protrusions 130 are formed on the upper surface of the metal panel 100. Is formed, the connecting port 110 is bent inclined in the outward direction is formed inclined connector 111, the inclined connector 111 is bent in an outer horizontal square to form a horizontal portion 112, the horizontal Part 112 is bent inward downward to form an inclined end portion 113 integrally, the connecting arm 120 is bent inwardly upward to form an inclined portion 121, the inclined portion 121 is The horizontal end portion 122 is integrally formed by bending in the outer horizontal direction, and the outflow portion is disposed on the lower portion of the horizontal portion 112 of the connecting male 110 or the upper portion of the horizontal end 122 of the connecting arm 120. Prevention member 140 is provided to prevent the leakage of the paste (P) during the binding, the The rudder girder 200 is welded to the lattice material 220 bent in a wave form on both sides with respect to the upper reinforcement 210, respectively, the lower reinforcement 230 is welded to the lower outer side of the lattice material 220, respectively Being formed in a triangular shape, the lower end portions of the lattice material 220 are each bent in the outer horizontal direction to form the foot portion 240 integrally, and the foot portion 240 of the welding protrusion 130 is formed. A functional deck plate, which is placed on top and welded.
delete The method of claim 1,
An end member 300 is provided at both ends of the truss girder 200, and the end member 300 is formed by combining a vertical member 310 and a horizontal member 320, and the vertical member 310. The upper end of the) is coupled to the upper reinforcement 210 of the truss girder 200, the lower end is bent at a right angle to form a support member 311, the support member 311 is coupled to the metal panel 100 And, the top of the horizontal member 320, the functional deck plate, characterized in that the lower reinforcement 230 of the truss girder (200) is coupled.
The method of claim 1,
The welding projection 130 of the metal panel 100 is a functional deck plate, characterized in that formed in a quadruple structure by secondary bending the metal panel 100 to overlap each other in the longitudinal direction.
The method of claim 1,
Functional deck plate, characterized in that a plurality of reinforcement protrusions (150) having a closed curve shape in the longitudinal direction between the weld projections 130 of the metal panel (100).

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