KR20090067308A - Bar truss integrated deck-plate - Google Patents

Abstract

A trust bar integrated deck plate is provided to reduce stress generated in the compressed side by moving a trust bar and a deck plate in one. A trust bar integrated deck plate(10) is composed of an upper plate(11), a side plate(12) which is bent to be inclined downwardly at both ends of the upper plate, a lower plate(13) which is horizontally bent at the lower part of the side plate, connecting units(14,14') formed in the free end of the lower plate, a reinforcing stiffener(15) projected from the upper, lower, side plates of the deck plate, a corrugated reinforcing bar(21) arranged in upper and lower reinforcing bars, and a truss bar(20) welded at the contact point of upper and lower reinforcing bars.

Description

Bar truss integrated deck-plate

The present invention relates to deck plates, and more particularly to deck plates that have long spanning and high load support characteristics without increasing dance.

In recent years, buildings built in urban areas have tended to become higher in order to maximize the efficiency of land use, and steel structures or steel reinforced concrete structures, which are excellent in durability and seismic resistance, are mainly adopted as structural forms of high-rise buildings. It is common to use deck plates in floor slab systems because of the need for air shortening and labor costs in these high-construction buildings.

Deck plates can be largely divided into formwork, structural and synthetic deck plates. Formwork deck plates are used only as formwork without the function of structural materials. Structural deckplates design deck plates as structural materials, and concrete placed on them is non-structural materials, and serves as floor smoothness, vibration, noise prevention, and insulation. To do. Synthetic deck plate combines the functions of formwork and structural deck plate, and serves as a formwork, and also plays a role of structural material as a composite section integrated with concrete after slab concrete casting. Synthetic section of concrete and composite deck plate In the concrete slab will bear the compressive force and the composite deck plate will bear the tensile force.

The existing composite deck plate is formed by bending the upper plate, side plate and lower plate for ease of construction and integrity with the concrete placed on the deck plate, and the dance (vertical distance between the upper plate and the lower plate) is usually 50 mm and 75 mm have been formed. Synthetic deck plate is a shape that can be interlocked after concrete is hardened by bending plate to form protrusion and depression or forming groove and embossing on the surface because it is very important to be integrated with concrete placed on deck plate. .

In the construction of steel frame and steel reinforcement concrete structure, the existing deck plate is installed on the upper flange of steel frame beam. At this time, due to the structural limitations of the deck shape and thickness, there is a problem that the installation of the temporary holding column is installed when the deflection exceeds the norm value when applied to the long span.

In addition, the deck plate is a plate element of thin plate thickness and large width ratio, which is easy to cause local buckling. As it is long spanned, local compression buckling occurs easily on the compression side, and it is difficult to secure structural stability because it becomes geometrically unstable.

The problem to be solved by the present invention is to provide a truss-integrated deck plate is possible to increase the structural stability to the local buckling of the deck plate consisting of a thin plate and increase the load bearing characteristics without increasing the dancing.

According to the present invention, a unit unit including an upper plate, side plates bent inclined downward from both ends of the upper plate, and lower plates bent horizontally at the end of each side plate is repeatedly formed in a transverse direction, and In the deck plate connected to each other by a connecting means formed at the free end, the upper and lower plates and the side plate of the deck plate is formed so as to protrude reinforcement stiffeners, respectively, and arranged the upper and lower reinforcing bar in parallel and Corrugated reinforcement is placed on the lower reinforcing bar and welded and fixed at the point where each reinforcing bar is connected to the reinforcing stiffener so that the truss reinforcing truss is formed to cover part of the upper plate and the lower plate of the deck plate and the front surface of the side plate. It provides a truss muscle integrated deck plate characterized in that.

At this time, the corrugated reinforcing bar is characterized in that each of its upper and lower ends bent inward and outward to form a leg portion.

In addition, the lower leg portion of the corrugated reinforcement is characterized in that it is bent upward inward.

In the present invention, since the resistance to deflection occurring in the plate during the installation process is large, long span construction can be performed without temporary support, thereby reducing the air shortage and material costs due to the convenience of construction, thereby obtaining economic benefits.

In addition, it is possible to increase the length of the truss without increasing the dance by reinforcing the truss and to increase the safety of the worker by effectively resisting the increased construction load in accordance with the truss reinforcement.

In addition, by combining the truss muscle to allow the deck plate and the truss muscle to act integrally, it is possible to relieve the stress generated on the compression side to ensure the stability of the buckling and the safety of the cross section.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a front view of a deck plate reinforced with a truss muscle according to the present invention.

The present invention combines a truss bar 20 assembled with reinforcing bars to reinforce rigidity to the known deck plate 10.

Deck plate (10) in the present invention can be applied to both the formwork, structural and composite deck plate, preferably after the slab concrete pouring at the same time acting as a formwork to combine the formwork and structural deck plate Synthetic deck plate that acts as a structural material with a composite section integrated with concrete is applied. An example of such a composite deck plate is a dance-deep architectural composite deck plate described in Korean Patent No. 379783 filed and registered by the present applicant.

The deck plate 10 schematically illustrated in FIG. 1 has a trapezoidal shape, which is a whole shape, and has side plates 12 and each side plate bent downwardly at both ends of the upper plate 11 and the upper plate 11. Unit unit consisting of the lower plate 13 bent horizontally at the end of the (12) is a shape formed repeatedly in the horizontal direction, the connecting means (14, 14 ') are formed at the free end of the lower plate (13) These allow the deck plates to be connected in series.

The upper and lower plates 11 and 13 and the side plate 12 of the deck plate 10 according to the present invention maintain a distance from the truss muscle 20, respectively, to prevent damage caused by welding directly to the plate and made of a thin plate The reinforcement stiffeners 15 for reinforcing the rigidity of the upper and lower plates 11 and 13 and the side plates 12 are formed to protrude.

Figure 2 is a perspective view of the truss muscle for reinforcing the deck plate according to the present invention.

In the present invention, as shown in Figure 2, the truss 20 is arranged in parallel with the upper reinforcing bar 22 and the lower reinforcing bar 23, the upper reinforcing bar 22 and the lower reinforcing bar (23) 21) and arrange the truss by welding and fixing it at the point where each rebar contacts.

On the other hand, the corrugated reinforcing bar 21 bends each of its upper and lower ends inward and outward to form legs 21a and 21b. At this time, the upper leg portion 21a is bent horizontally outward so as to be located on the upper plate 11 of the deck plate 10, and the lower leg portion 21b is bent upwardly inward to Place it on the bottom plate (13). By bending the lower leg 21b upward in this way, the slab cast steel 30 can be spaced apart from the deck plate lower plate 13 without using a separate spacer.

The truss root 20 configured as described above is welded to the reinforcement stiffener 15 to cover a part of the upper plate 11 and the lower plate 13 of the deck plate 10 and the front surface of the side plate 12.

3A and 3B are perspective views schematically showing an example of arranging truss muscles on a deck plate according to the present invention.

Truss muscle 20 according to the present invention can be arranged to be symmetrical to each other on the deck plate 10 as shown in Figure 3a so that the lower leg portion (21b) alternately overlap each other on the lower plate (13). Alternatively, as shown in FIG. 3B, the construction of the slab cast iron 30 at the connection between the deck plates 10 may be eliminated by staggering each other on the deck plate 10.

As described above, the deck plate composed of thin plates can be expected to have the following effects by being reinforced by truss muscles.

Deck plate is thin plate thickness and plate width of large width ratio is easy to cause local buckling. As in the present invention, it is possible to make long span without increasing dance by reinforcing with truss and effectively increase construction load by truss reinforcement. Resistant can improve worker safety.

In addition, the general deck plate consisting of a thin plate is a long span, the local compression buckling easily occurs on the compression side and becomes a geometrically unstable shape, in the present invention by combining the truss muscle deck plate and truss muscle behaves integrally By doing so, the stress generated on the compression side can be alleviated to ensure the stability against buckling and the safety of the cross section.

1 is a front view of a deck plate reinforced with a truss muscle according to the present invention.

Figure 2 is a perspective view of the truss muscle for reinforcing the deck plate according to the present invention.

3A and 3B are perspective views schematically showing an example of arranging truss muscles on a deck plate according to the present invention.

<Description of Symbols for Major Parts of Drawings>

10 deck plate 11: top plate

12: side plate 13: lower plate

14, 14 ': connecting means 15: reinforcing stiffener

20: Truss bar 21: Corrugated rebar

21a, 21b: leg 22: upper reinforcing bar

23: lower reinforcing bar 30: slab cast steel

Claims (3)

A unit unit consisting of an upper plate, side plates bent downwardly inclined at both ends of the upper plate, and lower plates bent horizontally at the end of each side plate are repeatedly formed in a transverse direction, and are formed at the free end of the lower plate. In the deck plate is continuously connected to each other by the formed connecting means, Reinforcement stiffeners are formed on the upper and lower plates and side plates of the deck plate, respectively, The upper and lower reinforcing bars are arranged in parallel, and the corrugated reinforcing bars are disposed in the upper and lower reinforcing bars, and the truss bars formed in the truss form by being welded and fixed at the point where each reinforcing bar contacts are part of the upper plate and the lower plate of the deck plate. Truss root integrated deck plate, characterized in that bonded to the reinforcing stiffener to cover the front of the side plate. The method of claim 1, The corrugated reinforcing bar is a truss bar integral deck plate, characterized in that the upper and lower ends of the corrugated reinforcement to form a leg portion. The method of claim 2, The truss bar integral deck plate, characterized in that the lower leg portion of the corrugated reinforcement is bent upward.

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