KR200348477Y1 - Slab Structure making use of Corrugated Type Deck Plate - Google Patents

Abstract

The present invention relates to a slab structure using a corrugated deck plate that can increase the binding strength with concrete and increase the strength of the slab, thereby making the slab slim and light.

The slab structure using a corrugated deck plate according to the present invention is formed on a plate installed on the slab bottom and protruded at regular intervals and a plurality of side holes and a plurality of through-holes formed on the side of the corrugated plate, It characterized in that it comprises a plurality of transverse reinforcing bars installed through the side holes, and a plurality of longitudinal reinforcing bars positioned between the corrugated plate and formed at a right angle with the transverse reinforcing bars.

Therefore, the slab structure using the corrugated deck plate according to the present invention, the binding force between the corrugated deck plate and concrete is large, it is possible to increase the strength of the slab. In addition, it is possible to reduce the weight of the slab by reducing the thickness of the slab, thereby increasing the number of floors has the effect of increasing the land use efficiency per area.

Description

Slab Structure making use of Corrugated Type Deck Plate}

The present invention relates to a slab structure using a corrugated deck plate, more specifically, to increase the binding strength with the concrete, to increase the strength of the slab, the slab deck plate to make the slab slim and lightweight It relates to the used slab structure.

In general, the slabs are used in the building structure in the form of a plate installed between the pillars, the deck plate is installed on the bridge deck and slab bottom to reinforce the slab of the bridge or the building. These slabs are subjected to compressive stress at the top and tensile stress at the bottom. Therefore, the upper part of the slab is used to the concrete strong compressive force and the lower part is to install a reinforcement strong tensile strength.

The slab structure using a conventional deck plate, as shown in Figure 1, installed on the top of the deck plate 101 installed on the slab bottom by bending the reinforcing bars in a zigzag and coupled to the upper and lower reinforcing bar and truss structure The lentrus reinforcement 102 is formed, and the transverse reinforcement 103 is installed to correspond to the deck plate 101 to be combined with the warren truss reinforcement 102 to be coupled to the deck plate 101. Therefore, concrete was poured into this structure to construct the top plate or slab of the bridge.

The slab structure has a problem in that the deck plate 101 falls from the concrete due to impact due to the low binding force between the deck plates 101 and the reinforcing bars 102 and 103 that receive the bending moment by supporting the concrete after the concrete is placed and cured. .

As shown in FIG. 2, which is the AA 'cross-section after the concrete placing and curing of FIG. 1, the tensile load in the longitudinal direction is sufficient strength by the warren truss reinforcement and the deck plate. However, in the transverse direction, there is a problem that the transverse rebar is already bent and the deck plate is weak to the transverse load, so that the load in the transverse direction cannot be tolerated. In addition, there is an effect of reducing the cross-sectional area of the deck plate as a goal, but there was a disadvantage that can not reduce the thickness of the slab. Accordingly, there was a problem that does not contribute significantly to the weight reduction of the slab.

Therefore, the present invention is devised to solve the problems of the prior art as described above, the object of the present invention is to increase the binding strength with the concrete, and to increase the strength of the lower slab, it is possible to slim and lighten the slab It is to provide a slab structure using a corrugated deck plate.

1 is a perspective view showing a slab structure using a conventional deck plate.

2 is a sectional view taken along line AA ′ of FIG. 1 after concrete pouring and curing;

Figure 3 is a perspective view showing a slab structure using a corrugated deck plate according to an embodiment of the present invention.

Figure 4 is a perspective view showing a slab structure using a corrugated deck plate according to a preferred embodiment of the present invention.

5 is a perspective view of a plate joint;

6a and 6b are cross-sectional views showing the coupling structure of the stud.

Figure 7 is a cross-sectional view showing a building structure using a slab structure using a corrugated deck plate according to an embodiment of the present invention.

8 is a flow chart of the slab construction method using a corrugated deck plate according to a preferred embodiment of the present invention.

** Description of the symbols for the main parts of the drawings **

101: Deck plate 102: Warren truss rebar

103: transverse rebar 1: slab

2: pillar 10: plate

20: corrugated plate 21: side hole

22: through-hole 30: crossbar

40: longitudinal reinforcement 50: stud

According to the slab structure using the corrugated deck plate of the present invention for achieving the object as described above, is formed protruding at a predetermined interval on the plate installed on the bottom of the slab, a plurality of side holes and a plurality of side holes penetrating the side A corrugated plate forming a through hole; A plurality of transverse bars installed through the side holes of the corrugated plate; And a plurality of longitudinal reinforcing bars positioned between the corrugated plate and installed at right angles with the transverse reinforcing bars.

It further comprises a plurality of studs coupled to the plate between the upper plate and the bone plate at regular intervals.

Hereinafter, a preferred embodiment of the slab structure using a corrugated deck plate according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

3 illustrates a slab structure using a corrugated deck plate according to an embodiment of the present invention, and FIG. 4 illustrates a slab structure using a corrugated deck plate according to a preferred embodiment of the present invention.

As shown, the slab structure using a corrugated deck plate according to an embodiment of the present invention, the plate 10 is installed on the slab bottom, the bone plate 20 protruding at regular intervals on the plate, and the bone plate Cross rebar 30 penetrating the side holes formed in the, and the reinforcing bar 40 is installed at right angles to the transverse reinforcement, and studs 50 are installed at regular intervals on the plate located between the upper and the corrugated plate It is composed.

The plate 10 is installed on the bottom of the slab 1, the corrugated plate 20 is coupled to the upper portion of the plate 10 by rivets, screws, welding, etc. at regular intervals. In addition, the plate 10 is made of a plurality, these plates 10 are coupled to various joints such as groove joints, clip joints, bolt joints, welding joints. 5 shows grooved joints among the joints of the plate 10.

The corrugated plate 20 is coupled to the upper portion of the plate 10 at regular intervals. The side surface of the corrugated plate 20 is formed with a plurality of side holes 21 penetrating through the corrugated plate 20, a plurality of through holes 22 are formed on the top. Therefore, when concrete is poured into the plurality of side holes 21 and the plurality of through holes 22, the concrete is poured without empty space, and after curing, the corrugated plate 20 by the side holes 21 and the through holes 22. Tightly binds to this concrete. In addition, the transverse reinforcing bar 30 is installed through the side hole 21 at both sides of the side hole 21 of the corrugated plate 20.

The cross rebar 30 is installed and fixed to both sides of the side hole 21 penetrating the side of the corrugated plate 20. With respect to the vertical stress acting on the slab 1, the upper part of the slab 1 is subjected to the compressive stress and the lower part is the tensile stress, which is the transverse reinforcing bar 30 is applied to the lower part of the slab 1 It can withstand the tensile stress in the direction.

The longitudinal reinforcing bar 40 is positioned between the corrugated plate 20 is coupled to the upper or lower portion of the transverse rebar 30 to form a right angle with the transverse rebar. The longitudinal reinforcing bar 40 can withstand the tensile stress in the longitudinal direction acting on the lower portion of the slab 1 with respect to the vertical stress acting on the slab 1. In addition, since the corrugated plate 20 acts together with respect to the tensile stress in the longitudinal direction acting on the lower part of the slab 1, as shown, the longitudinal reinforcement 40 is less than the transverse reinforcement 30. It is desirable to install.

The studs 50 are installed at regular intervals on the plate 10 located between the upper portion of the bone plate 20 and the bone plate 20. The stud 50 serves to fix the plate 10 and the corrugated plate 20 to the slab 1 in the same role as the anchor bolt. Since the anchor bolt is installed after the concrete is placed and cured, the binding force with the concrete is low, but the stud 50 as in the present invention is installed before the concrete is placed, the binding force with the concrete is very large.

6a and 6b show the coupling structure of the stud.

Figure 6a shows that the stud 50 is coupled to the upper portion of the bone plate or plate by fillet welding, Figure 6b shows that the stud 50 is screwed in another example.

Figure 7 shows a building structure using a slab structure using a corrugated deck plate according to a preferred embodiment of the present invention.

As shown, a slab 1 is formed between the pillars 2. Plate 10 is installed on the bottom of the slab 1, the plate 20 is coupled to the upper plate 10. The stud 50 is coupled to the upper plate 10 between the upper plate 20 and the upper plate 20, the transverse reinforcement 30 is installed through the side hole 21 formed in the bone plate. Longitudinal rebar 40 is installed on the upper or lower portion of the transverse rebar (30). In this configuration, the present invention has a high binding force between the plate 10, the corrugated plate 20, and the stud 50 with concrete, and the strength thereof is increased, thereby reducing the slab thickness (h).

Figure 8 shows a flow chart of the slab construction method using a corrugated deck plate according to a preferred embodiment of the present invention.

As shown, the slab method using a corrugated deck plate, a plate joint step 810 for connecting a plurality of plates to be installed on the bottom of the slab with each other, a plurality of side holes penetrating through the plurality of holes and the side formed on the top A bone plate coupling step 820 for coupling the installed bone plate on the plate, a stud coupling step 830 for coupling the stud to the plate located between the top of the bone plate and the bone plate, and the side hole of the bone plate Rebar installation step (840) for installing longitudinal reinforcing bar in the upper or lower reinforcing bars and the transverse reinforcement, plate installation step (850) for installing a plate in which the slab is formed, the plate is combined with the corrugated plate, studs and the rebar; It consists of a concrete placing and curing step 860 to cast and cure concrete on the plate.

Omitting the plate installation step 850 for installing the plate in which the plate and the slab and the reinforcing bar coupled to the slab will be formed in the step, and the plate joint step 810 to joint the plurality of plates to be installed on the bottom of the slab For example, a jointed plate may be installed at the bottom of the slab and corrugated plates, studs, and reinforcing bars may be installed. In addition, the step of installing the stud 830 and the step 840 of installing the reinforcing bar may be interchanged.

Therefore, the slab structure using the corrugated deck plate according to the present invention, through the above-described structure, has a strong binding force with the concrete, there is an advantage that the slab can be slimmed and light weight.

According to the present invention as described above, the binding force between the corrugated deck plate and concrete is large, there is an effect that can increase the strength of the slab. In addition, it is possible to reduce the weight of the slab by reducing the thickness of the slab, thereby increasing the number of floors has the effect of increasing the land use efficiency per area.

Claims (2)

Corrugated plate 20 is formed on the plate 10 is installed on the slab (1) at a predetermined interval protruding, a plurality of side holes 21 and a plurality of through-holes 22 formed on the side; A plurality of transverse bars 30 installed through the side holes 21 of the corrugated plate 20; And Slab structure using a corrugated deck plate is located between the corrugated plate 20 and comprises a plurality of longitudinal reinforcing bar 40 is installed to form a right angle with the transverse reinforcement (30). The method of claim 1, Slab structure using a corrugated deck plate further comprises a plurality of studs (50) coupled to the plate (10) between the upper plate and the upper plate (20) at a predetermined interval.