KR101490701B1 - Combination structure for stripping deck plate - Google Patents

Abstract

The present invention relates to a combination structure for stripping deck plate, which includes a deck panel disposed on a placed concrete and a truss girder including upper and lower steel bar and a lattice and disposed at one side of the deck panel and in which the deck panel is stripped from the concrete after concrete curing. The combination structure comprises: a spacer disposed between the deck panel and the truss girder and fixing the deck panel and the truss girder in a spaced state; and a panel fixing member which detachably fixes the deck panel to the spacer. The panel fixing member comprises: a male block which provides a support force in such a manner that one portion is connected to a coupling hole formed in the spacer in a state of passing through the deck panel while being moved forward by pressurization; a female block which is connected to the remaining part of the male block through a through-hole through which the male block passes in a state of being disposed on the opposite side of the spacer, wherein the female block support the deck panel and is separated from the male block so that the female block is separated from the deck panel; and a block fastener which couples the male block to the coupling hole of the spacer and the through-hole of the female block and separates the female block from the male block according to the forward movement of the male block.

Description

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

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a decking deck plate joining structure, and more particularly, to a decking deck plate joining structure capable of easily separating a deck panel constituting a deck plate from concrete after curing of concrete.

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.

Such a deck plate is divided into an integral deck plate integrally formed with the slab without being removed even after the curing of the concrete slab and a deformation-type deck plate for removing the bottom plate after curing of the concrete slab.

There is a de-molding deck plate proposed in Korean Patent Registration No. 10-1404178 as a de-molding deck plate of the prior art.

1, the truss girder 10 is a deformation type deck A having a spacer 30 between a truss girder 10 and a form plate 20, And the lower end of the lattice material 12 is extended to both sides of the lattice material 12 so that the upper end of the lattice material 12 is abutted and joined by welding. And the spacer 30 is formed in a shape that the two synthetic resin spacer bodies 31 are formed of a steel material, The spacer body 31 is formed with a female thread 311 facing downward and the spacer head 32 is connected to the head part 32. The head part 32 is formed by insert injection molding so as to be coupled to both longitudinal ends of the head 32, 321 are bent to be narrowed from the lower part toward the upper part, And a female screw 311 formed at the lower portion of the spacer body 31 is coupled to the through hole 21 of the form plate 20 by a bolt 40 having a washer penetrating from the bottom to the top, And two lower ends 13 of the truss girder 10 are placed on the head piece 321 of the spacer head 32 and joined together by welding.

In this prior art, after the concrete is cured, the washer bolt 40 is rotated one by one, separated from the spacer body 31, and then the formwork board 20 is separated from the concrete.

However, in the prior art, since the washer-equipped bolts 40 must be separated from the spacer body 31 individually in order to dismantle the form plate 20, the disassembling time is long and the disassembly force must be increased. .

Korean Patent Publication No. 10-1404178

The present invention has been made in order to overcome the problems of the prior art as described above, and it is an object of the present invention to provide a deck panel detachable from a deck panel without detaching a fixing member for fixing the deck panel and the spacer from the spacer, And a joint structure of a deformation-type deck plate which can reduce cost.

According to another aspect of the present invention, there is provided a decking deck plate comprising a deck panel disposed on a concrete laid, a truss girder configured by upper and lower reinforcing bars and lattices, The decking panel includes a deck panel and a truss girder, and the deck panel is separated from the concrete after the concrete is cured. The deck panel includes a deck panel and a truss girder, ; And a panel fixing member for detachably fixing the deck panel to the spacer, wherein the panel fixing member is partly inserted into the fastening hole formed in the spacer while passing through the deck panel while being advanced by pressing A male block fastened to provide a bearing force; The deck panel being separated from the deck panel while being detached from the deck panel, the deck panel being connected to the deck panel, ; And a block fastener for fastening the male type block to the through hole of the spacer and the through hole of the female type block and separating the male type block from the male type block according to advancement of the male type block.

In addition, the fastening hole may be formed to be equal to or longer than the length of the male block, and the female block may be separated from the male block while receiving the whole male block according to the advance of the male block.

For example, the block fastener may include a first serration in the form of a tooth protruding along the longitudinal direction on at least one side of the male block; A second serration formed in a serrated shape in the fastening hole of the spacer to engage with a part of the first serration to fix the male block and to allow advancement of the male block by pressing; A third serration formed in the form of a tooth on the through-hole of the female block to engage the remaining portion of the first serration to fix the male block; And the third serration is formed to be elastically deformable on the wall surface of the through hole in a state where the third serration is formed along the longitudinal direction and elastically deformed into a shape opened by pressing to release the engagement of the third serration, And may include an elastic piece allowing forward movement.

The second serration is protruded in a direction to prevent backward movement of the male block while allowing forward movement of the male block, and the third serration is protruded in a direction opposite to the second serration .

Meanwhile, the panel fixing member may include a fixing bolt in the form of a headless bolt that is partly screwed to the fastening hole of the spacer while being advanced by rotation to provide a supporting force; A fixing nut for supporting the deck panel while being screwed with the remaining portion of the male block while being disposed on the opposite side of the spacer and separated from the deck panel by being separated from the fixing bolt by advancing the fixing bolt; And a female screw formed on the inner circumferential surface of the fastening hole of the spacer and screwed into the fastening bolt.

Further, the present invention may further comprise a girder fixing member for detachably fixing the truss girder to the spacer, wherein the girder fixing member is formed as a groove in the spacer so as to form a part of the lower reinforcing bar constituting the truss girder An accommodation holder for accommodating the housing; A pressure cover which is coupled to the receiving holder in such a manner as to shield the receiving holder and presses and fixes the lower reinforcing bar; And a cover fastener for fixing the pressure cover to the receiving holder.

For example, the cover fastener may include a serrated cover serration protruding along the longitudinal direction on both side surfaces of the pressure cover; And a holder serration protruding from both sides of the receiving holder and mating with the cover serration.

The decking deck plate coupling structure according to the present invention is characterized in that the deck panel is separated from the spacer by advancing the male block without separating the deck panel from the spacer, So that the deck panel can be easily dismantled and the disassembling time can be shortened, thereby reducing the cost.

Specifically, according to the present invention, the male block can be fixed to the spacer and the female block as the first serration formed on the male block is engaged with the second serration of the spacer and the third serration of the female block, Since the first serration and the third serration are disengaged from each other through the widening, the male block can be separated from the female block by the advancing by pressing.

Further, according to the present invention, since the second serration is protruded in a direction to prevent the backward movement of the male block, the male block is fastened in a state of being suspended from the spacer and at the same time, advancement by pressurization is possible, The deck panel can be supported while the female block is fastened with the male block suspended.

Further, according to the present invention, since the fastening holes formed in the spacer are formed to be equal to or longer than the length of the male block, the male block advancing by the pressing can be received in the fastening hole and can be smoothly separated from the female block.

Further, according to the present invention, since the truss girder and the spacer are detachably coupled without welding, the time required for the welding operation is reduced, and the amount of electricity required for welding is significantly reduced.

1 is a perspective view showing a deck plate according to the prior art;
2 is a perspective view showing a coupling structure of a deformation-type deck plate according to the present invention;
3 is a bottom exploded perspective view showing the panel fixing member shown in Fig.
Fig. 4 is a longitudinal sectional view showing the separated state of the panel fixing member shown in Fig. 3; Fig.
Fig. 5 is a longitudinal sectional view showing a state of engagement of the panel fixing member shown in Fig. 4; Fig.
6 is a longitudinal sectional view showing a girder fixing member of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted.

2, the decking plate 10 comprises a deck panel 10 and a truss girder 20. The deck panel 10 cures the concrete. The deck panel 10 cures the concrete, ) For separating from the concrete, and may include the spacer 30 and the panel fixing member 100.

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 by fixing the deck panel 10 and the truss girder 20 in a spaced apart state. The spacer 30 is interposed between the deck panel 10 and the truss girder 20, do.

The spacer 30 may be made of metal or plastic and is fixed to the truss girder 20 through the girder fixing member 200 while being fixed to the deck panel 10 through the panel fixing member 100 So that the deck panel 10 and the truss girder 20 are held apart from each other.

2, the spacers 30 can support the lower reinforcing bars 22 of the truss girder 20 at the same time while forming a pair of lower reinforcing bars 22, To each other.

The panel fixing member 100 is a component for detachably fixing the deck panel 10 to the spacer 30 through the male and female structures.

The panel fixing member 100 may be configured to include a male block 110, a female block 120, and a block fastener 130, for example, as shown in FIG.

The male block 110 is a member constituting the male type of male and female structures, and is constituted by a rod-shaped bar form as shown in Fig.

Here, the male block 110 preferably has a rectangular bar shape since a first serration 131 having a tooth shape, which will be described later, is formed along one side surface thereof.

This male block 110 is partially fastened to the fastening hole 31 formed in the spacer 30 while passing through the deck panel 10 while advancing through the pressure of the user.

That is, the male block 110 is partially fastened to the fastening hole 31 formed on the bottom surface of the spacer 30, and a part thereof is fixed to the spacer 30 to provide a supporting force for supporting the deck panel 10.

3, the female block 120 is formed as a nut and has a through-hole 121 through which the male block 110 passes, and the female block 120 is connected to the deck panel 10 And the deck panel 10 is fixed to the male block 110 while being fastened to the remaining part of the male block 110 in a close contact state.

That is, the male block 110 is coupled with the female block 120 together with the deck panel 10 as the female block 120 is fastened to the remaining portion in a state where a part thereof is fastened to the fastening hole 31 of the spacer 30 The deck panel 10 is fixed to the spacer 30 while supporting the deck panel 10.

The male block 120 is detached from the deck panel 10 while being separated from the remaining portion of the male block 110 by advancing the male block 110 during disassembly of the deck panel 10, Allow disassembly.

The length L1 of the fastening hole 31 formed in the spacer 30 is preferably equal to or longer than the length L2 of the male block 110 as shown in FIG.

That is, the fastening hole 31 can accommodate the entirety of the male block 110 advanced by the user's service.

Accordingly, the male block 110 can be smoothly separated from the female block 120 as it is accommodated in the fastening hole 31 while advancing through the user's pressurization.

The block fastener 130 is a component for fastening the male block 110 to the fastening hole 31 of the spacer 30 and the through hole 121 of the female block 120. As the female block 110 advances, And is a component that separates the female block 120 from the male block 110.

For example, the block fastener 130 may comprise a first serration 131, a second serration 132, a third serration 133, and an elastic piece 134, as shown in FIG. 4 have.

The first serration 131 is protruded along the longitudinal direction of the male block 110 in the form of a saw tooth on the side of the male block 110 as shown in FIG.

The first serration 131 is preferably protruded to the male block 110 in the form of a spur gear.

Here, the first serrations 131 may be formed on both sides of the male block 110 as shown in FIG. 4, and may be formed only on one side of the male block 110, as shown in FIG.

The second serration 132 is a component for preventing the backward movement of the male block 110 while being engaged with a part of the first serration 131. The second serration 132 is formed on the wall surface of the fastening hole 31, And fixes the male block 110 to the spacer 30.

As shown in FIG. 4, the second serration 132 is formed in a wedge-like shape that is upwardly inclined. Therefore, it is preferable that the second serration protrudes in a direction allowing forward movement while preventing the backward movement of the male block 110.

Accordingly, the male block 110 can provide a supporting force in a state of being coupled to the spacer 30 through the coupling of the first serration 131 and the second serration 132, And can be accommodated in the hole 31.

4, the third serration 133 is formed along the longitudinal direction of the elastic piece 134 to be described later and is disposed in the through hole 121 of the female block 120, The male block 110 is fixed to the female block 120 while being engaged with the first serration 131 through the elastic force.

4 and 5, it is preferable that the third serration 133 protrude in a direction opposite to the second serration 132 and protrude in a direction to prevent the detachment of the female block 120. [

Accordingly, the female block 120 can support the deck panel 10 while being coupled to the male block 30 through the engagement of the third serration 133 and the first serration 131, The elastic block 134 can be separated from the male block 110 by the expansion of the elastic piece 134.

4, the resilient piece 134 is resiliently deformable on the wall surface of the through hole 121 of the female block 120, The third serration 133 is formed in the longitudinal direction of the second serration.

The elastic piece 134 is engaged with the third serration 133 through the elastic force and engaged with the first serration 131 by the force of the user (see the arrows in FIGS. 4 and 5) Thereby allowing the male block 110 to advance.

Here, the elastic piece 134 may be provided on one side wall of the through hole 121, or may be provided on both side walls of the through hole 121 as shown in FIG.

The male block 110 is partially fixed to the first and second serrations 131 and 132 by the expansion of the elastic piece 134 by the user when the deck panel 10 is fixed, The elastic piece 134 is restored to its original position and then the remaining part is fastened to the through hole 121 through the first serration 131 and the third serration 133 to be inserted into the female block 120 to fix the deck panel 10 to the spacer 30.

The male block 110 is advanced by pressing of the user as the disengagement of the third serration 133 is released by the expansion of the elastic piece 134 by the user at the time of disassembly of the deck panel 10, 30 and separated from the female block 120 to separate the deck panel 10 from the spacer 30.

The panel fixing member 100 may have a male and female threaded structure to fix the deck panel 10 to the spacer 30.

Specifically, the panel fixing member 100 may include a fixing bolt 150, a fixing nut 160, and a female screw portion 170 as shown in FIG.

7, the fixing bolt 150 is formed in the form of a normal headless bolt, and a groove 151 is formed in the bottom surface to which a user's tool can be coupled, and is advanced while rotating by an operator.

Here, the grooves 151 may be formed in various shapes depending on the tool.

The fixing nut 160 is screwed with the fixing bolt 150 to support the deck panel 10.

The female screw portion 170 is formed along the inner circumferential surface of the fastening hole 31 of the spacer 30 as shown in FIG. 7, and the fastening bolt 160 is screwed.

The lower end of the fixing bolt 150 is screwed to the fixing nut 160 and the upper end of the fixing bolt 150 is screwed to the female threaded portion 170 of the spacer 30, The deck panel 10 is fixed to the spacer 30 together.

The fixing bolt 160 is advanced by rotation when the deck panel 10 is disassembled and is accommodated in the fastening hole 31 of the spacer 30 and separated from the fastening nut 160 to separate the deck panel 10 .

Further, the present invention may be configured to further include a girder fixing member 200 as shown in FIG.

The girder fixing member 200 is a component for detachably fixing the truss girder 20 to the upper portion of the spacer 30 in a non-welding manner. The lower reinforcing bar 22 constituting the truss girder 20 is connected to the spacer 30 ) Without welding.

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

The receiving holder 210 is formed in the shape of a groove on the top of the spacer 30 as shown in Fig. 6 to accommodate a part of the lower reinforcing bar 22 of the truss girder 20.

The pressurizing cover 220 is a component that presses and fixes the lower reinforcing bar 22 received in the receiving holder 210. The pressurizing cover 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 cover 220 may be made of the same material as the spacer 30 and may be formed in a wedge shape that becomes narrower toward the lower side and may be inserted into the receiving holder 210 in a widened form by pressing. Of course, it is preferable that the receiving holder 210 is formed to correspond to the pressing cover 220.

The cover fastener 230 is a component for preventing the pressure cover 220 from being separated at random by fixing the pressure cover 220 fitted in the receiving holder 210 to the receiving holder 210. [

For example, the cover fastener 230 may be configured to include a cover serration 231 and a holder serration 232 as shown in FIG.

The cover serrations 231 are protruded along the longitudinal direction with a saw-tooth shape on both sides of the pressure cover 220 as shown in the figure.

The holder serration 232 protrudes from both sides of the receiving holder 210 in a manner corresponding to the cover serration 231 and is engaged with the cover serration 231.

That is, the pressurizing cover 220 is fitted to the upper portion of the receiving holder 210, and the cover serration 231 is engaged with the holder serration 232, And fixed.

On the other hand, the truss girder 20 may be fixed to the spacer 30 by welding, unlike the above.

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 opens the elastic block 134 with the female block 120 in close contact with the deck panel 10, and advances the male block 110 to move the through hole 121 of the female block 120, Is pushed into the fastening hole (31) of the elastic member (30) and the resilient piece (134) is returned to its original position.

6, a part of the male block 110 is fastened to the fastening hole 31 of the spacer 30 through the coupling of the first serration 131 and the second serration 132, And the remaining portion is fastened to the through hole 121 of the female block 120 through the coupling of the first serration 131 and the third serration 133 to connect the deck panel 120 together with the female block 120, (10) is fixed to the spacer (30).

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 cover 220 to the receiving holder 210, Is fixed to the spacer 30.

At this time, as the cover serration 231 and the holder serration 232 are engaged with each other by the pressurization of the pressurizing cover 220, the lower reinforcement 22 is inserted into the receiving holder 210, 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.

On the other hand, the operator dismantles the deck panel 10 from the concrete after the concrete is cured.

At the time of disassembly, the worker pushes the male block 110 into the fastening hole 31 of the spacer 30 while spreading the elastic piece 134.

At this time, the male block 110 advances as the engagement with the third serration 133 is released by the expansion of the elastic piece 134 as shown in the lower right end of Fig. 6, At the same time, the deck panel 10 is separated from the spacer 30 while being separated from the female block 120.

As a result, the operator dismounts the deck panel 10.

As described above, the coupling structure of the deformation-type deck plate according to the present invention is such that the male block 110, which fixes the deck panel 10 to the spacer 30, is rotated one by one so that the male block 110, the deck panel 10 can be separated from the spacer 30, so that the deck panel 910 can be easily dismantled and the disassembling time can be shortened, thereby reducing the cost.

Specifically, as the first serration 131 formed in the male block 110 is engaged with the second serration 132 of the spacer 30 and the third serration 133 of the female block 120, The first serration 131 and the third serration 9133 can be fixed to the spacer 30 and the female block 120 and the engagement of the first serration 131 and the third serration 9133 is released through the expansion of the resilient piece 134, The female block 110 can be separated from the female block 120 by advancing by pressing.

According to the present invention, since the second serration 132 is protruded in a direction to prevent the backward movement of the male block 110, the male block 110 is fastened in the state of being suspended from the spacer 30, The third serration 133 is protruded in the opposite direction to the second serration 132 so that the female block 120 is fastened in a state of being suspended from the male block 110 and the deck panel 10 Can support.

According to the present invention, since the fastening hole 31 formed in the spacer 30 is formed to be equal to or longer than the length of the male block 110, the male block 110 advancing by the pressing is accommodated in the fastening hole 31 So that it can be smoothly separated from the female block 120.

In addition, according to the present invention, since the truss girder 20 and the spacer 30 are detachably coupled without welding, the time required for the welding operation is reduced, and the amount of electricity required for welding is significantly reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various changes, substitutions, and alterations can be made therein 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 31: fastening hole
100: panel fixing member 110: male block
120: female block 121: through hole
130: Block fastener 131: First serration
132: Second Serration 133: Third Serration
134: Elastic piece 150: Fixing bolt
160: Fixing nut 170: Female thread part
200: girder fixing member 210: accommodating holder
220: pressure cover 230: cover fastener
231: Cover Serration 232: Holder Serration

Claims (7)

A decking panel disposed on the laid concrete, and a truss girder composed of upper and lower reinforcing bars and lattices and disposed on one side of the deck panel, so as to separate the deck panel from the concrete after the concrete is cured. In the structure,
A spacer interposed between the deck panel and the truss girder to fix the deck panel and the truss girder in a spaced apart state; And
And a panel fixing member detachably fixing the deck panel to the spacer,
The panel fixing member
A male block which is supported by a part of the fastening hole formed in the spacer while passing through the deck panel while being advanced by pressing to provide a supporting force;
The deck panel being separated from the deck panel while being detached from the deck panel, the deck panel being connected to the deck panel, ; And
And a block fastener separating the male block from the male block in accordance with advancement of the male block while fastening the male block to the through hole of the spacer and the through hole of the female block, rescue.
The connector according to claim 1,
Wherein the male block is formed to be equal to or longer than the length of the male block to allow separation of the female block and the male block while accommodating the entire male block in accordance with advancement of the male block.
2. The block fastener according to claim 1,
A first serration in the form of a tooth protruding along the longitudinal direction on at least one side of the male block;
A second serration formed in a serrated shape in the fastening hole of the spacer to engage with a part of the first serration to fix the male block and to allow advancement of the male block by pressing;
A third serration formed in the form of a tooth on the through-hole of the female block to engage the remaining portion of the first serration to fix the male block; And
Wherein the third serration is elastically deformable on a wall surface of the through hole in a state in which the third serration is formed along the longitudinal direction and is elastically deformed into a shape opened by pressure to release the engagement of the third serration, Wherein the elastic deformation of the decking deck plate includes an elastic piece allowing the deformation of the decking deck plate.
The method of claim 3,
The second serration includes:
Shaped block is formed so as to protrude in a direction to prevent backward movement of the male block while allowing advancement of the male block,
The third serration includes:
Wherein the first and second serrations are protruded in a direction opposite to the second serration.
The panel fixing apparatus according to claim 1,
A fixing bolt in the form of a headless bolt for advancing by rotation and partly screwed into the fastening hole of the spacer to provide a supporting force;
A fixing nut for supporting the deck panel while being screwed with the remaining portion of the male block while being disposed on the opposite side of the spacer and separated from the deck panel by being separated from the fixing bolt by advancing the fixing bolt; And
And a female screw portion formed on an inner circumferential surface of the fastening hole of the spacer and screwed to the fastening bolt.
The method according to claim 1,
And a girder fixing member for detachably fixing the truss girder to the spacer,
The girder fixing member
A receiving holder formed in a groove in the spacer to receive a part of a lower reinforcing bar constituting the truss girder;
A pressure cover which is coupled to the receiving holder in such a manner as to shield the receiving holder and presses and fixes the lower reinforcing bar; And
And a cover fastener for fixing the pressure cover to the receiving holder.
7. The cover fastener according to claim 6,
A cover serration in the form of a sawtooth protruding along the longitudinal direction on both side surfaces of the pressure cover; And
And a holder serration protruding from both sides of the receiving holder to engage with the cover serration.

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