KR101202377B1 - Truss girder built-in type deck plate - Google Patents

Abstract

The present invention relates to a truss girder integrated deck plate.
To this end, the present invention is a truss girder is coupled to the upper portion of the deck panel, the deck panel is formed with three reinforcement protrusions in the longitudinal direction, the supporting portion of the same shape is formed on both sides of the reinforcement protrusions, respectively, The truss girder has a lattice material welded to both sides of the upper reinforcing bar, and the lower reinforcing bars are welded to the lower outer side of the lattice material, respectively, so that the lattice foot formed under the lattice material of the truss girder is supported by the deck panel. In the truss girder integrated deck plate to be welded respectively, a reinforcing bar is coupled to the upper reinforcing bar and the two lower reinforcing bars constituting the truss girder of the longitudinal end of the deck plate, the upper bent portion of the reinforcing bar is the upper reinforcing bar Welded to the upper and lower end portions of both sides of the upper bent portion to support the lower rebar, respectively While being welded, the lower connection portion of the stepped portion is characterized in that the welded to each of the deck panel.

Description

Truss girder integrated deck plate {TRUSS GIRDER BUILT-IN TYPE DECK PLATE}

The present invention relates to a truss girder integrated deck plate, and in particular, the lower portion of the truss girder abuts the welded joint to each support portion formed as an upper portion of the deck panel.

In general, the majority of building structures will be constructed using reinforced concrete. The building structure using reinforced concrete is a composite structure in which a combination of concrete, which is a compression material, and a rebar, which is a tension material, is used together. After the formwork is laid, the reinforcement is added and the concrete is poured to dismantle the form after curing is completed. You can get it.

However, at this time, there is a problem in that a large amount of air is required due to the installation of the formwork with plywood, lumber, etc., and the dismantling work for dismantling the formwork after curing the concrete.

As a solution to this problem, a deck plate has been proposed to support the weight of the concrete itself generated during the process of curing concrete and concrete being placed between beams, which are structures for building structures. .

The proposed deck plate is usually a deck panel having a predetermined thickness and width and a truss girder coupled to the upper part of the deck panel in a longitudinal direction. The deck plate has a hook-shaped support portion to be bent to protrude. And, the lower portion of the lattice material constituting the truss girder on the upper portion of the base portion is configured to be joined by a welded joint. At this time, the truss girder is joined to the weld joint by the lower portion of the lattice material that is continuously bent along the longitudinal direction in a constant waveform on the lower side of the upper reinforcing bar, the lattice foot bent in the horizontal direction on the bottom of the lattice material is supported The lower reinforcing bar which is opposed to the part and has a direction parallel to the upper reinforcing bar is formed at the lower part of the lattice material so as to be welded to each other.

However, the deck plate has a problem in that the contact area or the bonding area is small as the support portion is bent in the form of an acid while the lattice foot is supported, so that the deck plate is separated from each other during the construction process.

In addition, as the support portion is bent to have a mountain shape, there is another problem that voids are generated as the concrete being poured is not filled to the inside of the bent support portion.

The present invention allows the truss girder to be stably supported by widening the contact area of the base of the deck panel to which the lower part of the truss girder is opposed, and prevents the deck panel from being deformed by the reinforcement protrusion formed in the longitudinal direction of the deck panel. The truss girder is to be joined to the support portion to be joined by a welding joint, and to prevent the formation of voids in the concrete to be poured.

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The truss girder 20 is coupled to the upper portion of the deck panel 10, the deck panel 10 has three reinforcement protrusions 110 are formed in the longitudinal direction, the same shape on both sides of the reinforcement protrusion 110 Support portions 120 are formed, respectively, the truss girder 20 is a lattice material 220 is welded on both sides of the upper reinforcement 210, respectively, the lower outer side of the lattice material 220 The lower reinforcing bars 230 are welded to each other, and the lattice foot 240 formed under the lattice material 220 of the truss girder 20 is welded to the support part 120 of the deck panel 10. In the truss girder integrated deck plate (A), the reinforcing bar 30 is provided in the upper reinforcement 210 and the two lower reinforcement 230 constituting the truss girder 20 at both ends in the longitudinal direction of the deck plate (A) Is coupled, the upper bent portion 310 of the reinforcing bar 30 is welded to the upper reinforcement 210, the The lower jaw portion 320 of the lower side of both sides of the sub-bent portion 310 is welded while receiving the lower reinforcement 230, respectively, the lower connection portion 330 of the latched portion 320 is welded to the deck panel 10, respectively It is characterized by being.
In addition, a recessed hook 130 is formed at one side in the width direction of the deck panel 10, and an iron hook 140 is formed at the other side of the deck panel 10, and the hooking portion 141 of the hooked hook 140 is formed. It is characterized in that the sealing material 142 is provided on the inside.

In addition, the upper bent portion 310 of the reinforcing bar 30 is installed on the upper upper reinforcement 210 of the truss girder 20 is characterized in that the welding is combined while wrapping the upper reinforcement (210).

In addition, the upper bent portion 310 of the reinforcing bar 30 is characterized in that the welded against the bottom of the upper reinforcement 210 of the truss girder 20.

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According to the present invention, the bottom of the truss girder is joined to the supporting portion formed on the deck panel to be joined by a welding joint, so that the contact area is widened so that the truss girder is stably supported and structurally safe and sag due to concrete load is remarkably. It can be reduced to obtain an effect that can prevent deformation.

In addition, it is possible to further obtain an effect that can prevent the deck panel is deformed by the reinforcement protrusion formed in the longitudinal direction on the deck panel.

In addition, since the support portion constituting the support portion is formed vertically on the upper part of the deck panel, the effect of preventing the generation of voids near the support portion or the truss girder coupled to the support portion in the process of pouring concrete is further increased. You can get it.

In addition, in the process of curing the cast concrete is sufficient curing is made without using a separate club, it is possible to obtain an effect that the work space of the lower portion can be secured widely.

And it can support the load of the concrete more stably to form a very stable support structure, it is possible to obtain an effect that can maintain a good appearance of the lower surface of the deck plate.

1 is a perspective view showing a state where the deck plate according to the present invention is installed.
Figure 2 is an exploded perspective view of the deck plate according to the present invention.
Figure 3 is a side view of the deck plate according to the present invention.
Figure 4 is an enlarged side view of a part of the deck plate according to the present invention.
5 is a perspective view showing another embodiment of the deck plate according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

Truss girder integrated deck plate (A) according to the present invention is a steel frame structure (Steel framed structure: steel structure), reinforced concrete structure (Reinforced concrete structure: RC structure), steel frame reinforced concrete structure (Steel framed reinforced concrete structure: SRC structure) Mainly used in the slab of the building structure, as shown in Figures 1 to 3, the truss girder 20 is coupled to the upper portion of the deck panel 10 to have an integral form.

Here, the deck panel 10 is configured to prevent deformation by forming three reinforcement protrusions 110 in the longitudinal direction, the support portion 120 of the same shape on both sides of the reinforcement protrusions 110. Are formed so that the lattice foot 240 of the truss girder 20 to be described later is welded in a stable supported state.

Each of the supporting parts 120 is formed with two support parts 121 and 121 ′, each of which has a form bent vertically on both sides of the deck panel 10, and the two support parts 121. A horizontal seating portion 122 is formed integrally with each of the upper ends of 121 'being bent to the outside and bent back to the inside.

The deck panel 10 has a recessed hook 130 is formed at one side in the width direction, the convex hook 140 is formed at the other side is configured to be repeatedly coupled in the width direction.

The recessed hook 130 has an end portion of the one side deck panel 10 which is bent upwardly outwardly to form a ridge portion 131, and the ridge portion 131 is horizontally bent outward to the horizontal portion 132. Is formed, and the horizontal portion 132 is bent downward downward again to form a downward inclined portion 133 so that the recess 134 is formed by the ridge 131, the horizontal portion 132, and the downward inclined portion 133. ) Is integrally formed.

The convex hook 140 is configured such that an end portion of the other side of the deck panel 10 is bent upward and inward so that the locking portion 141 is integrally formed.

The inside of the locking portion 141 of the convex hook 140 is provided with a sealing material 142 is configured to prevent the water contained in the concrete to be leaked to the bottom.

The truss girder 20 has a triangular shape at the side, the lower width is 60mm, the height is 100mm, the length is preferably approximately 3,300mm ~ 4,000mm. In addition, one truss girder 20 is arranged in about three rows for this purpose, it is preferable that the deck panel 10 has a width of 3,300 ~ 4,4000mm, 600mm in length. When the truss girder 20 is arranged in three rows on the deck panel 10 having a width of 600 mm, the upper reinforcement 210 of the truss girder 20 is installed at a position of 200 mm around the center and the center. Preferably, the upper reinforcement 210 is 10 ~ 13mm, lattice material 220 is preferably 5 ~ 6mm and lower reinforcement 230 has a diameter of 8 ~ 10mm.

In addition, the truss girder 20 is a lattice material 220 is welded to both sides of the upper reinforcement 210, respectively, the lower reinforcement 230 is bonded to the lower outer side of the lattice material 220 by welding It is configured to have a triangular shape.

The lattice material 220 is bent horizontally to the outside, respectively, the lattice foot 240 is formed, respectively, the truss on the horizontal seating portion 122 formed on the support portion 120 of the deck panel 10 The lattice foot 240 formed at the bottom of the lattice material 220 of the girder 20 is configured to be coupled to the welded joint in a state in which the lattice foot 240 is mounted on each other.

Longitudinal ends of the deck plate (A) are configured to prevent deformation of the reinforcing bar 30 is coupled to the upper reinforcement 21 and the two lower reinforcement 230 of the truss girder 20, respectively. . At this time, the upper bent portion 310 of the reinforcing bar 30, as shown in Figure 3, is joined to the welded joint against the upper reinforcement 210, the lower side of both sides of the upper bent portion 310 In the stepped jaw portion 320, the lower reinforcement 230 is respectively supported by a welded joint to have a butted state, and the lower connection portion 330 of the stepped portion 320 welded joints to the deck panel 10, respectively Combination is configured to prevent the lifting of each other.

As shown in FIG. 4, the upper bent part 310 of the reinforcing bar 30 is installed on the upper reinforcing bar 210 of the truss girder 20 to surround the upper reinforcing bar 210 and weld the joint. It is configured to be combined.

In the present invention, the upper bent portion 310 of the reinforcing bar 30 is installed on the upper upper reinforcement 210 of the truss girder 20 to surround the upper reinforcement 210 is coupled to the welding joint, but such In addition to the configuration, as shown in FIG. 5, the upper bent portion 310 of the reinforcing bar 30 may be coupled to the lower portion of the upper reinforcement 210 of the truss girder 20 to be joined by a welding joint.

On the other hand, the present invention is to be coupled to each other end of the truss girder (20) of the deck plate (A) to each other is joined to the welded joint 30, in addition to this configuration, as shown in Figure 6, support 40 ) Can be combined.

In this case, the support 40 coupled to both ends of the truss girder 20 of the deck plate (A) is coupled to the lower end of the vertical member 410 by a weld joint in a direction perpendicular to the horizontal member 420, the vertical member The upper reinforcement 210 of the truss girder 20 is welded to the upper end of the 410, the lower reinforcement 230 of the truss girder 20 is welded to both ends of the horizontal member 420 It is configured to be joined by a joint.

In the truss girder integrated deck plate having such a configuration, first, three reinforcement protrusions 110 are formed in the deck panel 10 in the longitudinal direction, and the supporting portions 120 having the same shape on both sides of the reinforcement protrusions 110. Let each bend. At this time, the support portion 120 is vertically bent from both sides to the upper portion of the deck panel 10 to form two support portions 121, 121 ', respectively, of the two support portions 121, 121' The horizontal seating portions 122, each of which has an upper end bent outward and bent inward again, have an integral shape.

Next, the deck panel 10 is obtained by bending the recessed hook 130 and the convex hook 140 on one side and the other side in the width direction of the deck panel 10, respectively.

Next, the lattice material 220 is welded to both sides of the upper reinforcement 210, respectively, and the lower reinforcement 230 is welded to the lower outer side of the lattice material 220, respectively, and is configured in a triangular form, and the lattice Lower ends of the ashes 220 are horizontally bent to the outside to obtain the truss girder 20 in which the lattice foot 240 is formed, respectively.

And the lattice foot 240 formed in the lower portion of the lattice material 220 of the truss girder 20 to the horizontal seating portion 122 formed on the support portion 120 of the deck panel 10 is seated to face each other is welded To obtain a truss girder integrated deck plate.

10: Deck Panel 20: Truss Girder
110: reinforcement portion 120: support portion
121,121 ': Supporting portion 122: Horizontal seating portion
210: upper rebar 220: lattice material
230: bottom reinforcement 240: lattice foot

Claims (7)

The truss girder 20 is coupled to the upper portion of the deck panel 10, the deck panel 10 has three reinforcement protrusions 110 are formed in the longitudinal direction, the same shape on both sides of the reinforcement protrusion 110 Support portions 120 are formed, respectively, the truss girder 20 is a lattice material 220 is welded on both sides of the upper reinforcement 210, respectively, the lower outer side of the lattice material 220 The lower reinforcing bars 230 are welded to each other, and the lattice foot 240 formed under the lattice material 220 of the truss girder 20 is welded to the support part 120 of the deck panel 10. In the truss girder integrated deck plate (A),
The reinforcing bar 30 is coupled to the upper reinforcing 210 and the two lower reinforcing bars 230 constituting the truss girder 20 at both ends in the longitudinal direction of the deck plate (A), of the reinforcing bar 30 The upper bent portion 310 is welded to the upper reinforcement 210, the stepped jaw portion 320 of the lower sides of the upper bent portion 310 is welded while supporting the lower reinforcement 230, respectively, Lower connection portion 330 of the jaw portion 320 is a truss girder integrated deck plate, characterized in that the welded to each of the deck panel (10). delete The method of claim 1,
A recessed hook 130 is formed at one side in the width direction of the deck panel 10, and an iron hook 140 is formed at the other side of the deck panel 10, and is located inside the engaging portion 141 of the recessed hook 140. Truss girder integrated deck plate, characterized in that the sealing material 142 is provided. delete The method according to claim 1 or 3,
The upper bent portion 310 of the reinforcement bar 30 is installed on the upper reinforcing bar 210 of the truss girder 20, the truss girder integrated, characterized in that the welding is coupled while wrapping the upper reinforcing 210 Deck Plate. The method according to claim 1 or 3,
The upper bent portion 310 of the reinforcing bar 30 is a truss girder integrated deck plate, characterized in that the welded against the bottom of the upper reinforcement 210 of the truss girder (20). delete

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