KR101136582B1 - Deck plate having rebar truss - Google Patents

Abstract

The present invention relates to a bone deck plate coupled to the reinforcement truss, and more particularly to a non-welded reinforcing bar truss integral deck plate in which the reinforcement truss is bonded to the bone deck plate without welding.
According to a preferred embodiment of the present invention, there is provided a trapezoidal cross section which is one side as a whole as a top plate, a side plate bent downwardly at both ends in the width direction of the top plate, and a lower plate bent horizontally at the end in the width direction of each side plate. A unit deck having a configured unit unit repeating in the lateral direction, wherein the hill-shaped deck plate in which the mountain portion formed by the upper plate and the side plate and the valley portion formed by the lower plate and the side plate are continuously formed; It is installed in the bone part of the bone deck plate, a pair of lower bars arranged at intervals below the upper bar and the upper bar, and are joined along the longitudinal direction of the upper bar and the lower bar and bent to form a continuous waveform. A plurality of reinforcing trusses composed of a pair of web reinforcing bars; And at the ends of the first and second screw rods, which are installed at regular intervals along the longitudinal direction of each reinforcing truss, screwed to both sides of the adjustment nut, the adjustment nut and the screws in different directions are machined A non-welded rebar truss integrated deck plate is provided, comprising a plurality of connectors each configured to be bonded to each other and extending the distance between the lower reinforcing bars.

Description

Deck plate having rebar truss

The present invention relates to a bone deck plate coupled to the reinforcement truss, and more particularly to a non-welded reinforcing bar truss integral deck plate in which the reinforcement truss is bonded to the bone deck plate without welding.

As a structural type of high-rise building, steel frame structure or steel reinforced concrete structure, which has excellent durability and seismic resistance, are mainly adopted.In such high-rise buildings, deck plates are generally used for floor slab systems due to the need for shortening of air and reducing labor costs. to be.

Deck plates are largely divided into formwork and structural use. Formwork is to withstand the weight of concrete in the liquid state before construction and the load during construction, and the floor load after the concrete is supported by the concrete floor. Structural supports loads with concrete even after hardening and function as tensile rebar. Structural has the effect of adding rebar, saving the amount of rebar and concrete thickness.

For structural purposes, there are reinforced truss deck plates and synthetic deck plates. Reinforced Truss Deck Plate is a combination of a structural member made of truss in the form of truss and a flat type deck plate (flat deck plate) .The deck plate can be subjected to temporary load by reinforcing truss. It is to reduce the thickness of the structure and to reduce the overall thickness of the base plate by eliminating the bone. Various types have been developed depending on the shape of the reinforcing truss.

However, in the case of the reinforcement truss deck plate, the flat deck plate has little contribution to the bending stiffness and a number of defects occur in the weld joint of the reinforcement truss and the flat deck plate.

An object of the present invention is to provide a non-welded reinforcing bar truss integrated deck plate that can utilize the deck deck plate instead of the flat deck plate to maximize the bending rigidity of the deck plate and eliminate the defects due to the welding joint of the reinforcement truss. .

According to a preferred embodiment of the present invention, there is provided a trapezoidal cross section which is one side as a whole as a top plate, a side plate bent downwardly at both ends in the width direction of the top plate, and a lower plate bent horizontally at the end in the width direction of each side plate. A unit deck having a configured unit unit repeating in the lateral direction, wherein the hill-shaped deck plate in which the mountain portion formed by the upper plate and the side plate and the valley portion formed by the lower plate and the side plate are continuously formed; It is installed in the bone part of the bone deck plate, a pair of lower bars arranged at intervals below the upper bar and the upper bar, and are joined along the longitudinal direction of the upper bar and the lower bar and bent to form a continuous waveform. A plurality of reinforcing trusses composed of a pair of web reinforcing bars; And at the ends of the first and second screw rods, which are installed at regular intervals along the longitudinal direction of each reinforcing truss, screwed to both sides of the adjustment nut, the adjustment nut and the screws in different directions are machined A non-welded integrated reinforcement truss deck plate is provided, comprising a plurality of connectors each configured to be bonded to each other to extend the distance between the lower reinforcing bar.

According to another suitable embodiment of the present invention, the contact plate of the connector has a curved contact surface corresponding to the outer shape of the web reinforcement so as to be in surface contact with the web reinforcement.

According to another suitable embodiment of the present invention, the bent portion of the lower end of the web reinforcement of the reinforcing truss is bent horizontally outward to form a leg portion.

According to another suitable embodiment of the present invention, an insertion groove into which the leg portion of the reinforcing truss can be inserted is formed at the corner portion where the lower plate and the side plate of the bone deck plate meet.

According to another suitable embodiment of the present invention, in order to correspond to the distance between the lower ends of the web reinforcing bar to overlap a part of the lower plate of the corrugated deck plate in two rows to form a connecting portion and the leg of the reinforcing truss is inserted into the connection of each row The insertion hole is formed so that it can be.

According to another suitable embodiment of the present invention, the upper part of the lower plate of the corrugated deck plate corresponding to the interval between the bottom of the web reinforcing angles in two rows to form an insertion hole so that the leg portion of the reinforcement truss can be inserted into the angle do.

According to the present invention, the flexural rigidity of the deck plate itself can be fully utilized, and the reinforcing truss is connected to the bone deck plate without welding through the connector to simplify the coupling of the deck plate and the reinforcing truss and prevent defects due to welding.

The following drawings, which are attached in the present specification, illustrate exemplary embodiments of the present invention, and together with the detailed description of the present invention, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a cross-sectional view schematically showing a non-welded reinforced truss integrated deck plate according to the present invention.
Figure 2 is a perspective view showing the reinforcement truss constituting the non-welded rebar truss integrated deck plate according to the present invention.
Figure 3 is a perspective view showing a connector constituting a non-welded reinforced truss integrated deck plate according to the present invention.
Figure 4 is a view showing a state in which the reinforcement truss is coupled to the deck plate by the connector in a non-welded rebar truss integrated deck plate according to the present invention.
Figure 5 is a schematic cross-sectional view showing other embodiments of the welded non-rebar truss integrated deck plate according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components or parts are denoted by the same reference numerals as much as possible, and detailed descriptions of related known functions or configurations are omitted.

1 is a cross-sectional view schematically showing a non-welded rebar truss integrated deck plate according to the present invention, Figure 2 is a perspective view showing a reinforcing truss, Figure 3 is a perspective view showing a connector.

Referring to Figure 1, the non-welded rebar truss integrated deck plate according to the present invention is a bone deck plate 10, a plurality of reinforcing truss 20, each reinforcing bar integrally coupled to the bone deck plate 10, each reinforcing bar The truss 20 is composed of a plurality of connectors 30 to be integrally coupled to the deck plate 10 without welding.

The corrugated deck plate 10 is a trapezoidal cross section that is one side as a whole, and the side plates 12 and 12 and each side plate 12 are bent downwardly at both ends in the width direction of the upper plate 11 and the upper plate 11, respectively. The unit unit consisting of the lower plates 13 and 13 bent horizontally at the end in the width direction of the cross section is repeated in the lateral direction so that the mountain and lower plates 13 are formed by the upper plate 11 and the side plates 12 and 12. The steel plate is molded so that the valley portion formed by the side plates 12 and 12 is formed continuously.

That is, the ribbed deck plate 10 has a trapezoidal rib having a lower surface defined by the upper plate 11 and the side plates 12 and 12, and a plurality of ribs are parallel to each other, and these ribs are formed by the lower plate 13. It has a cross-sectional shape connected to each other.

The upper plate 11, the side plates 12 and 12 and the lower plate 13 of the bone deck plate 10 may be formed with known embossing or grooves to improve the adhesion performance with the slab concrete.

In the corner portion where the lower plate 13 and the side plates 12 and 12 meet, an insertion groove 14 into which the leg portion 221 of the reinforcing truss 20 is inserted may be continuously or intermittently formed over the entire length. have. When the leg portion 221 is inserted into the insertion groove 14 there is an advantage that can be more firmly coupled to the bone deck plate 10 and the reinforcing truss 20.

Reinforcing truss 20 is coupled by the connector 30 to the bone portion of the bone-shaped deck plate 10 made of the lower plate 13 and the side plates (12, 12).

1 and 2, the reinforcing truss 20 is configured in the form of a truss using a reinforcing bar and consists of an upper reinforcing bar 21, a pair of web reinforcing bar 22 and a pair of lower reinforcing bar 23. The web reinforcing bar 22 is formed by bending the reinforcing bar to form a continuous waveform. The bent portion at the lower end of the web is horizontally bent to form the leg part 221.

The bent portion 222 of the upper end of each web reinforcing bar 22 is coupled to the upper reinforcing bar 21, and the lower reinforcing bars 23 and 23 are respectively coupled to the lower part of each web reinforcing bar 22, and the lower bent part, that is, the leg The portions 221 are spaced apart from each other.

That is, one upper reinforcing bar 21 and two lower reinforcing bars 23, 23 are arranged to be located at the portion corresponding to the vertex of the triangle and a pair along the longitudinal direction of the upper reinforcing bar 21 and the lower reinforcing bar 23 The web reinforcement 22 of the form is combined. Therefore, the cross section of the reinforcing truss 20 has a triangular shape with an open lower surface as in FIG.

The connector 30 is installed between the pair of lower reinforcing bars 23 and 23 to widen the gap therebetween so that the leg portions 221 of the web reinforcing bars 22 and 22 closely adhere to the bone deck plate 10. Or to be inserted into the insertion groove 14.

As shown in Figure 3, the connector 30 is the adjustment nut 31, the first and second screw rods (32, 33), the first and second screw rods (32, 33) screwed to both sides of the adjustment nut (31) Consists of a close contact plate 34 coupled to each end of the.

At this time, the screws formed on the first and second screw rods (32, 33) are formed in the opposite direction to each other when the adjustment screw 31 rotates in one direction, the distance between the contact plate 34 is far away and rotated in the opposite direction The spacing between the contact plates 34 is narrowed.

The contact plate 34 has a curved contact surface 341 corresponding to the outer shape of the web reinforcing bar 22 so as to be in surface contact with the lower reinforcing bar 23. The connector 30 thus configured is installed at regular intervals in the longitudinal direction of the reinforcing truss 20.

According to the present invention as shown in Figure 4, the reinforcing truss 20 to the bone portion of the bone-shaped deck plate 10, the connector 30 is coupled, and then by rotating the adjustment screw 31 of the screw rods (32, 33) The length is elongated and the gap between the lower reinforcing bars 23 and 23 is widened so that the leg 221 of the reinforcing truss 20 is in close contact with the edge of the bone deck plate 10 or inserted into the insertion groove 14 so that the rebar is not welded. The truss 20 may be coupled to the bone deck plate 10. Therefore, the deck plate and the reinforcing truss can be easily combined, and defects caused by welding can be prevented.

Figure 5 is a schematic cross-sectional view showing other embodiments of the welded non-rebar truss integrated deck plate according to the present invention.

In the embodiment shown in Figure 1 described above in the corner portion where the lower plate 13 and the side plates 12, 12 of the bone deck plate 10 for the coupling of the bone deck plate 10 and the reinforced truss 20 An insertion groove 14 into which the leg portion 221 of the reinforcing truss 20 is inserted is formed.

In the embodiment shown in (a) of FIG. 5, when forming the bone deck plate, a part of the lower plate 13 is bent so as to protrude upward to form a connection portion 131, but the connection portion 131 is a lower end of the web reinforcement 22 It is formed in two rows corresponding to the interval between the insertion hole 131a is formed in the connecting portion 131 of each row so that the leg portion 221 of the reinforcing truss 20 can be inserted. If the number of insertion holes 131a is equal to the number of leg portions 221 of the reinforcing truss 20 or if the leg portions 221 of the reinforcing truss 20 spaced apart by the connector 30 can be firmly fixed. Less can be formed.

In another embodiment, as shown in FIG. 5 (b), the angles 15 are coupled in two rows corresponding to the interval between the lower ends of the web reinforcements 22 on the upper part of the lower plate 13. Fix the rebar truss 20 by using. An angle 15 is formed with an insertion hole 151 so that the leg portion 221 of the reinforcing truss 20 can be inserted as shown in (a) of FIG. If the number of insertion holes 151 is equal to the number of leg portions 221 of the reinforcing truss 20 or if the leg portions 221 of the reinforcing truss 20 spaced apart by the connector 30 can be firmly fixed. Less can be formed. Therefore, the reinforcing truss 20 may be firmly coupled by inserting the reinforcing truss 20 spaced apart by the connector 30 into the insertion holes 131a and 151.

Although the present invention has been described with reference to the drawings illustrating the present invention, the present invention is not limited to the embodiments and drawings disclosed herein, and various modifications may be made by those skilled in the art within the scope of the technical idea of the present invention. Can be done.

10: Bone Deck Plate
11: top panel
12: side panel
13: bottom plate
20: Rebar truss
21: Upper rebar
22: web rebar
23: lower rebar
30: end connections
31: Adjustment screw
32,33: screw rod
34: contact plate

Claims (6)

A unit unit consisting of a trapezoidal cross section which is one side as a whole and composed of an upper plate, a side plate bent downwardly at both ends in the width direction of the upper plate, and a lower plate bent horizontally at the end in the width direction of each side plate in a lateral direction. A bone deck plate having a valley formed by the upper portion and the side plate and the valley portion formed by the lower and side plates;
It is installed in the bone part of the bone deck plate, a pair of lower bars arranged at intervals below the upper bar and the upper bar, and are joined along the longitudinal direction of the upper bar and the lower bar and bent to form a continuous waveform. A plurality of reinforcing trusses composed of a pair of web reinforcing bars; And
Installed at regular intervals along the longitudinal direction of each reinforcing truss, respectively, at the ends of the first and second screw rods and the first and second screw rods, which are screwed to both sides of the adjusting nut and the adjusting nut and machined in different directions. A non-welded rebar truss integrated deck plate, comprising a plurality of connectors configured to be coupled to the close contact plate to extend the distance between the lower reinforcing bars. The method according to claim 1,
The contact plate of the connector is a non-welded rebar truss integral deck plate, characterized in that it has a curved contact surface corresponding to the outer shape of the web reinforcement to be in surface contact with the lower reinforcing bar. The method according to claim 1,
A non-welding rebar truss integrated deck plate, wherein the bent portion of the bottom of the web reinforcement of the reinforcing truss is bent horizontally outward to form a leg portion. The method according to claim 3,
Non-welded reinforcing truss integrated deck plate, characterized in that the insertion groove which can be inserted into the leg portion of the reinforcement truss in the corner portion where the lower plate and the side plate of the bone deck plate. The method according to claim 3,
Corresponding to the gap between the bottom of the web reinforcement in two rows overlapping part of the lower plate of the corrugated deck plate to protrude upward to form a connection portion, characterized in that the insertion hole is formed in each of the connection portion so that the legs of the reinforcement truss can be inserted Non-welding rebar truss integrated deck plate. The method according to claim 3,
Non-welded reinforcing truss integral deck, characterized in that the angle is joined in two rows corresponding to the interval between the bottom of the web reinforcement on the upper portion of the lower plate of the bone deck plate and the insertion hole is formed in the angle so that the leg portion of the reinforcing truss can be inserted plate.

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