KR20160000817U - Spacer combination structure of non-welding deck plate - Google Patents

Abstract

The present invention relates to a deck panel, a deck panel on which a concrete is laid on an upper part of the deck panel, a truss girder which is composed of upper and lower reinforcing bars and lattices and is disposed on an upper part of the deck panel, A deck panel and a spacer for a deck plate for fixing the deck panel and the truss girder in a state of being spaced apart from each other, ; And a girder fastener for fixing the lower reinforcing bar constituting the truss girder to the spacer without welding.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spacer for a deck plate,

The present invention relates to a joint structure of a spacer for a deck plate without a weld, and more particularly to a joint structure of a spacer for a deck plate and a truss girder, To a coupling structure of a spacer for a deck plate.

Generally, most of the building structures are constructed using reinforced concrete.

The conventional reinforced concrete structure is a composite structure in which concrete, which is a compressive material, and reinforcing bars, which are a tensile material, are jointly applied. After setting the form in a predetermined form and placing reinforcing bars in the formwork, concrete is installed and cured and the formwork is disassembled .

On the other hand, in recent years, the deck plate which is a technique to integrate the formwork installation process through the plywood or the grooved material and the reinforcement process of the reinforcing bar has been proposed and constructed, thereby reducing construction time and cost.

As a deck plate of the prior art, there is a truss girder integral type deck plate proposed in Korean Patent Registration No. 10-1202377.

1, a truss girder 20 is coupled to an upper part of a deck panel 10, and three decks 110 are formed in a longitudinal direction of the deck panel 10, The truss girder 20 is welded to both sides of the upper reinforcing bar 210 and the lattice material 220 is welded to both sides of the reinforcing protrusion 110, The lower reinforcing bar 230 is welded to the lower portion of the lattice material 220 so that the lattice material 220 formed on the lower portion of the lattice material 220 of the truss girder 20 is formed in the receiving portion 120 of the deck panel 10. [ Wherein the truss girder integral deck plate A is welded and welded to the upper and lower reinforcing bars 210 and 240. The upper reinforcing bars 210 and the lower reinforcing bars 210 constituting the truss girder 20 at both ends in the longitudinal direction of the deck plate A, The upper bending portion 310 of the reinforcing bar 30 is connected to the reinforcing bars 30, The upper and lower bending portions 320 of the lower bending portion 310 are welded to the lower reinforcing bars 230 and welded to the lower reinforcing bars 320, 330 are welded to the deck panel 10, respectively.

In this prior art, the truss girder 20 and the deck panel 10 are joined together by welding.

However, in the prior art, since the lattice material 220 of the drag girder 20 is fixed to the deck panel 10 through a welding operation, there is a problem that the construction time is increased and the electric consumption for welding is increased.

In the prior art, there is a risk of puncturing on the welded portion during the welding operation, and when the concrete is placed on the deck panel 10, there is a problem that the concrete paste leaks onto the welded portion.

Furthermore, in the prior art, when the welding portion is defective, the deck panel 10 and the truss girder 20 are separated from each other, and the truss girder 20 may lose its function.

On the other hand, as another prior art, there is a deck plate proposed in Korean Patent Registration No. 1079781 'Spacer coupling structure for truss girder'.

The prior art is composed of a steel plate constituting a bottom plate of a deck plate, a truss girder formed of a truss structure, and a spacer connecting the steel plate and the truss girder in a spaced apart relationship.

Here, the spacer is coupled with the truss girder while being screwed with a fixing plate that is identical to the lower end of the truss girder, and is engaged with the steel plate while the bolt is tightly coupled with the steel plate.

However, in this prior art, since the fixing plate fixed to the upper part of the spacer is fixed by welding with the bottom of the truss girder, it is troublesome to individually weld the fixing plate and the bottom plate, There is a problem that the electric consumption is increased.

Furthermore, in order to fix the steel plate to the spacer, the prior art has a problem that it is troublesome to fasten the spacer with the bolt in a state where the spacer is accurately positioned in the fastening hole of the steel plate, and the position of the spacer can not be changed, .

Korean Patent Publication No. 10-1202377 Korean Patent Publication No. 10-1079781

The present invention has been made in order to solve the problems of the prior art as described above, and it is possible to reduce the construction time and cost by fixing the deck panel and the truss girder to the spacer by welding without welding, Welded deck plate, which can flexibly change the fixing position of the spacer while easily fixing the spacer without fixing the spacer to the spacer.

According to another aspect of the present invention, there is provided a deck plate spacer assembly for a deck plate, the deck plate having a deck panel disposed on a laid concrete, a truss girder configured by upper and lower reinforcing bars and lattices, And a spacer which is installed between the deck panel and the truss girder and fixes the deck panel and the truss girder in a state of being spaced apart from each other, A panel fastener capable of fixing the position so as to be changeable; And a girder fastener for fixing the lower reinforcing bar constituting the truss girder to the spacer without welding, wherein the panel fastener is protruded in the form of a facing angle on the upper surface of the deck panel, and a part of the spacer is fitted A pair of latching angles extending along the longitudinal direction of the deck panel to form openings on both sides thereof; And a pair of latching protrusions respectively protruding from both sides of the spacer in a shape corresponding to the latching angle and being inserted through the opening and being engaged with the latching angle, A receiving holder formed to receive a portion of the lower reinforcing bar; A press block which presses and fixes the lower reinforcing bar while being fitted to the receiving holder in a form of shielding the upper portion of the receiving holder; And a block fixing member for fixing the pressing block to the receiving holder to prevent the pressing block from coming off, wherein the block fixing member includes a tooth block block Reaction; And a holder serration protruding from both side surfaces of the receiving holder to be engaged with the block serration, wherein the receiving holder is formed in a shape that the width becomes narrower toward the bottom, and the pressing block corresponds to the receiving holder And is fixed by the engagement of the block serration and the holder serration so that the truss girder is fixed to the spacer It can be fixed in one-touch manner.

Further, the latching angle can be pressed in such a manner that the latching angle is inclined so as to narrow the end portion toward the deck panel, and the latching jaw inserted into the opening portion presses the latching jaw while elastically deforming the end portion.

In addition, the pressing block may be formed with a seating groove which is recessed in a form capable of coming into close contact with the lower reinforcing bar.

According to the present invention, the deck panel and the truss girder are fixed to the spacer by the panel fastener and the girder fastener in a non-welding manner, But also significantly reduces the amount of electricity required for welding.

Further, since the welding method is not employed, the disassembling method is much easier than dismantling the structure bonded by the existing welding method at the time of disassembly.

On the other hand, since the time required for fixing is very short, the energy consumption and the time taken for welding are significantly reduced as compared with the case of welding one by one.

Unlike the welding method, which is difficult to reuse once-used structures, the structure according to the present invention has a structure advantageous for resource saving and recycling since it can be used many times after dismantling.

In addition, since the spacer can be fixed to the deck panel through the angles of engagement and the jaws without the need of welding or bolt holes in the deck panel, leakage of the concrete paste can be prevented when the concrete is poured, and accordingly, a more high-quality concrete slab structure .

Meanwhile, since the spacing jaws of the spacers are inserted into the jutting angles protruding along the longitudinal direction of the deck panel, the spacers can be moved according to the jarring, so that the fixing positions of the spacers can be changed according to the situation in the field. The truss girder is fixed to the receiving holder through the coupling of the block serration and the holder serration to press the lower reinforcing bar of the truss girder, so that the truss girder can be easily fixed to the spacer by a one-touch method.

1 is a perspective view showing a deck plate according to the prior art;
Fig. 2 is a perspective view showing a de-welding deck plate according to the present invention; Fig.
3 is an exploded perspective view showing a coupling structure of a spacer for a de-welding deck plate according to the present invention;
4 is a vertical cross-sectional view showing a coupling structure of the spacer according to the present invention;
5 is a longitudinal sectional view showing another embodiment of the present invention;

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. In the description of the present invention, a detailed description of general functions and configurations of related arts will be omitted.

The coupling structure of the deck plate spacer according to the present invention is provided between the deck panel 10 and the truss girder 20 constituting the deck plate 1 as shown in Fig. 2, A panel fastener 100 and a girder fastener 200 as a coupling structure of a spacer 30 connecting the girders 20 without welding.

Here, the truss girder 20 has a truss-like shape composed of an upper reinforcing bar 21, a lower reinforcing bar 22 and a lattice 23 as in a conventional deck plate, and the deck panel 10 has a thin thickness And is manufactured in a set size.

The spacer 30 is formed in a block shape as shown in Fig. 3, so that the deck panel 10 is interposed between the truss girder 20.

The spacers 30 may be made of metal or plastic and may be integrally formed to support the pair of lower reinforcing bars 22 individually while supporting the panel fasteners 100 and the girder fasteners 200, 20 are fixed to the deck panel 10 in a spaced apart state.

The panel fastener 100 is a component for fixing the fixing position of the spacer 30 in a changeable state while fixing the deck panel 10 and the spacer 30 without welding.

For example, the panel fastener 100 may include a locking angle 110 and a locking protrusion 120 as shown in FIGS.

The latching angle 110 is a component that provides the latching portion of the spacer 30 and protrudes from the upper surface of the deck panel 10 while forming a pair of angles facing each other as shown in Figures 3 and 4 .

As shown in FIG. 3, the latching angles 110 extend along the longitudinal direction of the deck panel 10, and openings 110a are formed on both sides.

That is, the latching angle 110 forms a rail shape along the longitudinal direction of the deck panel 10, and constitutes a coupling portion in which the spacer 30 is movably coupled.

3, the latching jaw 120 is protruded from both sides of the spacer 30 and is inserted through the opening 110a of the latching angle 110 to fix the spacer 30 to the deck panel 10 Lt; / RTI >

The engaging jaw 120 is formed in a shape corresponding to the engaging angle 110, so that it can be fitted and fixed while being in tight contact with the engaging angle 110.

Accordingly, the spacer 30 is fitted through the opening 110a and can be fixed at a predetermined position while moving along the latching angle 110 by pressing or striking.

4, the end portion of the stopping angle 110 may be bent in a downwardly inclined manner, so that the stopping angle 120 is elastically deformed by the stopping protrusion 120, So that it can be fixed. In this case, when the engaging jaw 120 of the spacer 30 is inserted into the opening 110a of the engaging angle 110, the engaging jaw 120 can be inserted as the end portion is opened by the operator.

The girder fastener 200 is a component for fixing the truss girder 20 to the upper portion of the spacer 30 without welding and is characterized in that the lower reinforcing bar 22 constituting the truss girder 20 is welded to the spacer 30 without welding .

The girder fastener 200 may include a receiving holder 210, a pressing block 220, and a block fixing member 230, for example.

The receiving holder 210 is formed in the shape of a groove on the top of the spacer 30 as shown in Figs. 3 and 4 to receive a portion of the lower reinforcing bar 22 of the truss girder 20.

The pressing block 220 is a component for pressing and fixing the lower reinforcing bar 22 received in the receiving holder 210. As shown in FIG. 4, the pressing block 220 is inserted into the receiving holder in a form of shielding the upper portion of the receiving holder 210 So that the lower reinforcing bar 22 is pressed.

The pressing block 220 may be formed of the same material as the spacer 30, and may be formed in a wedge shape having a smaller width as it goes downward, and may be inserted into the receiving holder 210 in a spreading manner by pressing. Of course, it is preferable that the receiving holder 210 is formed in the shape of 'V' which becomes narrower as it goes down to correspond to the pressing block 220.

5, the pressing block 220 may be formed with a seating groove 220a which is depressed in a form of pressing a reinforcing bar on the lower surface (circular arc shape in FIG. 5).

That is, since the pressing block 220 is in close contact with the lower reinforcing bar 22 through the receiving groove 220a, the close contact area is enlarged and the lower reinforcing bar 22 can be more firmly pressed and fixed.

The block fixing member 230 is a component that prevents the pressing block 220 from being separated by arbitrary by fixing the pressing block 220 fitted in the receiving holder 210 to the receiving holder 210. [

For example, the block fixing member 230 may include a block serration 231 and a holder serration 232 as shown in FIGS.

The block serrations 231 are protruded along the longitudinal direction of the press block 220 in the form of saw teeth on both sides of the press block 220 as shown in the figure.

The holder serration 232 protrudes from both sides of the receiving holder 210 in a shape corresponding to the block serration 231 and is engaged with the block serration 231 as shown in FIG.

That is, since the pressing block 220 is fitted to the upper portion of the receiving holder 210, the block serration 231 is engaged with the holder serration 232, And fixed.

The installation process and operation of the present invention including the above-described components will be described.

The operator fixes the lower portion of the spacer 30 to the deck panel 10. [

At this time, the operator inserts the engagement protrusion 120 of the spacer 30 into the opening 110a of the engagement angle 110, and then hits or presses the spacer 30 along the longitudinal direction of the engagement angle 110, (30) to the set fixed position.

Then, the worker fixes the truss girder 20 on the upper portion of the spacer 30.

Specifically, the worker places the lower reinforcing bar 22 of the truss girder 20 in the receiving holder 210 of the spacer 30, fixes the pressing block 220 to the receiving holder 210, Is fixed to the spacer 30.

At this time, when the operator presses the press block 220, the lower reinforcement 22 is inserted into the receiving holder 210 while the block serration 231 and the holder serration 232 are engaged with each other, Is pressed and fixed.

The deck plate 1 constructed as described above is constructed on a building site, and the concrete is placed and cured on the deck panel 10 to form a slab structure.

The deck panel 10 and the truss girder 20 are welded by the panel fastener 100 and the girder fastener 200 in a weldless manner to the spacer panel 10 and the truss girder 20, (30), it is possible to greatly reduce manpower, electricity consumption, and cost as well as the time required for the welding operation, thereby shortening the manufacturing time and increasing the production amount.

Since the spacer 30 can be fixed to the deck panel 10 through the engaging angles 110 and the engaging jaws 120 without using welds or bolt holes, leakage of the concrete paste can be prevented when the concrete is laid, Accordingly, a higher quality concrete slab structure can be constructed.

Since the engaging jaw 120 of the spacer 30 is inserted into the engaging angle 110 protruded along the longitudinal direction of the deck panel 10 and the spacer 30 can be moved according to the engaging angle 110, 30 can be changed.

The pressing block 220 constituting the girder fastener 200 is inserted into the receiving holder 210 and fixed to the receiving holder 210 through the coupling of the block serration 231 and the holder serration 232, The truss girder 20 can be easily fixed to the spacer 30 in a one-touch manner because the lower reinforcing bar 22 of the girder 20 is pressed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is not intended to limit the scope of the invention. It will be apparent to those skilled in the art that various changes, substitutions, and alterations can be made hereto without departing from the spirit of the invention.

1: deck plate 10: deck panel
20: Truss girder 21: Upper reinforcing bar
22: lower reinforcing bar 23: lattice
30: Spacer 100: Panel fastener
110: Engagement angle 110a:
120: hanging jaw 200: girder fastener
210: accommodating holder 220: pressing block
220a: seating groove 230: block fixing member
231: Block Serration 232: Holder Serration

Claims (3)

A deck panel disposed on the laid concrete, a truss girder formed of upper and lower reinforcing bars and lattices and disposed on an upper portion of the deck panel, and a deck panel disposed between the deck panel and the truss girder, In the coupling structure of the spacer for fixing the girder in a spaced apart state,
A panel fastener capable of fixing the deck panel and the spacer so that the position of the spacer can be changed while fixing the deck panel and the spacer without welding; And
And a girder fastener for fixing the lower reinforcing bar constituting the truss girder to the spacer without welding,
The panel fastener includes:
A pair of engaging angles protruding in the form of facing angles on the upper surface of the deck panel to engage with a portion of the spacer and extend along the longitudinal direction of the deck panel to form openings on both sides; And
And a pair of latching protrusions protruding from both sides of the spacer in a shape corresponding to the latching angle and being inserted through the opening opening and being engaged with the latching angle,
In the girder fastener,
A receiving holder formed in a groove on the spacer to receive a portion of the lower reinforcing bar;
A press block which presses and fixes the lower reinforcing bar while being fitted to the receiving holder in a form of shielding the upper portion of the receiving holder; And
And a block fixing member for fixing the pressing block to the receiving holder to prevent the pressing block from coming off,
Wherein the block-
A serration-type block serration protruding along the longitudinal direction on both sides of the press block; And
And a holder serration protruding from both sides of the receiving holder to be engaged with the block serration,
The receiving holder is formed in such a shape that its width becomes narrower toward the bottom,
The press block includes:
Wherein the holding holder is fixed to the receiving holder by a combination of the block and the holder serration while being formed in a wedge shape having a smaller width toward the lower portion corresponding to the receiving holder, Wherein the truss girder is fixed to the spacer in one-touch manner.
The method according to claim 1,
The latching angle,
Wherein the deck panel is bent in such a manner as to be inclined toward the deck panel toward the end thereof and is pressed in such a manner that the end portion is elastically deformed by the engaging jaw inserted into the opening so as to press the engaging jaw Bond structure.
The method according to claim 1,
The press block includes:
And a seating groove recessed in such a shape as to come into close contact with the lower reinforcing bar is formed.

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