KR20180017822A - Deck panel - Google Patents

Abstract

The present invention provides a deck panel, comprising: at least one vertical truss girder disposed in a line to be parallel in the longitudinal direction thereof; an upper surface panel rotatably fastened to the vertical truss girder; a hinge coupling member provided to rotatably fasten the upper surface panel to the vertical truss girder; and a rotation prevention bar disposed in the vertical truss girder in the direction perpendicular to the longitudinal direction of the vertical truss girder and limiting a rotation radius of the upper surface panel, thereby reducing a construction period of a building and construction costs and improving stability and construction quality.

Description

Deck panel {DECK PANEL}

The present invention relates to a deck panel capable of shortening the air by improving the structure.

The most widely used construction method is reinforced concrete structure because reinforced concrete structure is good in stiffness, durability, fire resistance, vibration resistance, and sound insulation.

Since the conventional formwork method used to construct such a reinforced concrete structure is complicated in process, it is difficult to disassemble the formwork and formwork, and a large amount of waste material is generated. Therefore, the method using the deck panel is now limited to the floor or ceiling slab .

These deck panels are placed on the floor or ceiling of the building, and after that, the concrete is laid and the structure of the building is formed after a certain period of curing.

However, although such conventional deck panels are limited to slabs on the floor or ceiling of a building, they must be manufactured and transported to a construction site. In addition, It is a situation that the rebar is to be deployed in the field.

Accordingly, since the conventional deck panel is assembled only in the direction of the main body of the bottom slab, it is assembled directly to the upper floor slab where the conventional vertical structure and the formwork method are preheated, at the construction site, The construction work is complicated and it can take a lot of construction period and labor cost.

In other words, the structure of the conventional deck panel and the construction method therefor are disadvantageous in that the overall construction air is lengthened or used only for the bottom slab, and the structure is complicated, which leads to limitations in cost reduction.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a deck panel structure which is modularized and produced in a factory so that the pre-assembled deck panel itself can be easily moved to a site, The present invention also provides a deck panel capable of reducing the construction air cost and improving the stability and the quality of construction since it is possible to assemble or arrange not only the floor slab but also the vertical wall in the field.

In order to achieve the above object, the present invention provides a vertical truss girder comprising: at least one vertical truss girder horizontally arranged in a longitudinal direction; A top panel rotatably coupled to the vertical truss girder; A hinge coupling member for pivotably coupling the upper panel to the vertical truss girder; And a rotation preventing bar disposed on the vertical truss girder in a direction perpendicular to a longitudinal direction of the vertical truss girder to restrict a turning radius of the upper panel.

The vertical truss girder may further include a first lattice formed in a predetermined waveform; A first phase current coupled to an upper pitch of the first lattice to fix the first lattice upper portion; And a first lower current disposed below the first lattice.

In addition, each of the vertical truss girders may be disposed such that the first phase current of one vertical truss girder and the first lower current of one of the other vertical truss girders are adjacent to each other.

The upper panel may include: a second lattice formed in a predetermined waveform; A second phase current coupled to an upper pitch of the second lattice to fix the second lattice upper portion; A second bottom current disposed below the second lattice; And a bending root extending from the free end of the second phase current and being bent in the second downward current direction.

In addition, the anti-rotation bar may be fixed to the vertical truss girder so as to limit the rotation of the upper panel in contact with the second lower frame.

The hinge joint member may include a bent plate having a bent portion formed by bending a plate shape once and fixed to the first phase current and having an opposing face oriented toward the first downward current direction; And a bolt disposed through the opposite surface of the bending plate and spaced from the bent portion by a distance longer than a length of the first phase current and a thickness of the cut surface of the bending root.

The upper panel may further include a first deck plate and a supporter coupling the second lower plate and the first deck plate.

Further, the supporter may further include: an accommodating portion for accommodating the second bottom end; A fixing part formed at both sides of the receiving part and fixed to the first deck plate; And a spacer disposed between the fixing portion and the first deck plate.

The display device may further include a connection panel for connecting the top panels that are spaced apart from each other.

The upper panel may include a second lattice formed in a predetermined waveform; A second phase current coupled to an upper pitch of the second lattice to fix the second lattice upper portion; And a second bottom current disposed below the second lattice.

The upper panel may further include a first deck plate and a supporter coupling the first lower plate and the first deck plate, respectively.

The connection panel may further include a third lattice formed in a predetermined waveform; A third phase current coupled to an upper pitch of the third lattice to fix the upper portion of the third lattice and overlapping all or a portion of the second phase current; A third bottom current disposed below the third lattice; And a fastening unit for receiving and fixing the upper pitch of the second lattice and the third lattice and the second phase current and the third phase current.

The connecting panel may further include a second deck plate and a supporter for coupling the third bottom plate and the second deck plate.

The present invention provides a deck panel that is simple to assemble and can be hinged to reduce the volume during transportation to reduce the transportation cost and facilitates the connection between the top panels, thereby reducing the construction period and reducing the construction cost. Panel can be provided.

1 is a partial perspective view of a vertical truss girder according to an embodiment of the present invention;
Fig. 2 is a view showing a state before the top panel is mounted in Fig. 1;
Fig. 3 is a view showing the top panel mounted in Fig. 1; Fig.
4 is a view showing a state in which the upper panel of Fig. 3 is folded. Fig.
Figure 5 shows two top panels spaced apart and a connecting panel for connection between the top panels.
6 is a view showing a connection between a top panel and a connection panel;

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

Unless defined otherwise, all terms used herein are the same as the generic meanings of the terms understood by those of ordinary skill in the art, and where the terms used herein contradict the general meaning of the term, they follow the definitions used herein.

It is to be understood, however, that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

FIG. 1 is a partial perspective view of a vertical truss girder according to an embodiment of the present invention, FIG. 2 is a view showing a state before a top panel is mounted in FIG. 1, and FIG. 3 is a view showing a top panel mounted in FIG. And Fig. 4 is a view showing a state in which the top panel of Fig. 3 is folded.

1 to 4, a deck panel according to an embodiment of the present invention may include a vertical truss girder 100, an upper panel 200, a hinge joining member 300,

At least one or more vertical truss girders 100 may be arranged in a row in the longitudinal direction.

1, each of the vertical truss girders 100 has a first truss girder 100a and a first truss girder 100a of the first truss girder 100a, Of the vertical truss girder (100b) of the vertical truss girder (100b) of the vertical truss girder (100b) are adjacent to each other.

The vertical truss girder 100 includes a first lattice 110 formed with a predetermined waveform and a first upper lattice 110 coupled to an upper pitch of the first lattice 110 to fix the upper portion of the first lattice 110 120 and a first bottom current 130 disposed below the first lattice 110. [

Specifically, the first lattice 110 may have a constant waveform. The first lattice 110 may be formed by bending the first lattice 110 and may be coupled with the first phase current 120 and / or the first bottom current 130 by a welding or electric point method.

In addition, the first lattices 110 may be arranged as a pair, and may be formed as a triangle, as shown in FIG. 1, such that the upper pitches are in contact with each other and the lower pitches are spaced apart, but they may be disposed as a single first lattice 110.

Here, the electric-pressure-pointing system is capable of increasing the mechanical and physical bonding strength by press-fusing high-voltage electricity between two members.

The truss girder may include a first phase current 120 coupled to an upper pitch of the first lattice 110 and fixing the upper portion of the first lattice 110.

The first phase current 120 may be coupled between the upper pitches of the first lattice 110 as long straight steel bars, and such a coupling method may be realized by the welding or electric point method described above.

The first lower current 130 may be disposed below the first lattice 110. When the first lattices 110 are implemented as a pair, Can be arranged in parallel.

For example, each of the first lower currents 130 may be coupled to the lower pitch of the pair of first lattices 110 as a long straight line of reinforcing bars. Can be implemented.

5, the vertical truss girder 100 may have a plate member 150 such as a first deck plate 250 of a top panel 200 to be described later, have.

The upper panel 200 can be pivotally coupled to the vertical truss girder 100.

The upper panel 200 includes a second lattice 210 formed with a predetermined waveform and a second phase coupled to an upper pitch of the second lattice 210 to fix the upper portion of the second lattice 210. [ A second lower current 230 disposed at a lower side of the second lattice 210 and a second lower current 230 extending from the free end of the second phase current 220 and extending in the second lower current 230 direction As shown in FIG.

The bending rope 240 may be integrally formed with the second phase current 220 and may be coupled to the second lower current 230 by a welding or electric pressure point method.

The second lattice 210, the second phase current 220 and the second bottom current 230 of the top panel 200 are connected to the first lattice 110, The first phase current 120 and the first phase current 130 may be formed in the same shape as the current 120 and the first phase current 130. In this case, The same features can be included.

The second lattice 210, the second phase current 220 and the second bottom current 230 of the top panel 200 are connected to the first lattice 110, the first phase current < RTI ID = 0.0 > When the upper truss girder 120 and the first lower truss 130 are formed in the same shape, they are folded and folded in the same shape as shown in FIG. 4, .

The top panel 200 may further include a first deck plate 250 and a supporter 260 coupling the second bottom plate 230 and the first deck plate 250 together.

Specifically, the first deck plate 250 may be formed as a rectangular plate. Therefore, separate manufacturing processes of engraving or embossing for fixing other members on the first deck plate 250 are unnecessary as in the conventional art, so that the manufacturing cost can be improved.

In addition, the first deck plate 250 may be formed of a galvanized steel plate, a metal plate plated with zinc, or a plywood or a board that can withstand the side pressure to prevent corrosion caused by concrete laid on the building. The pretreatment for preventing corrosion or the disposal of the first deck plate 250 can be performed on the outer surface of the first deck plate 250 or the concrete surface for protecting the concrete surface to be laid.

At least one of the supporters 260 may be disposed on the first deck plate 250 to fix the first panel 200 and the first deck plate 250.

Specifically, the supporter 260 includes a receiving portion 261 for receiving the second lower current 230, and a plurality of supporting portions 262 formed on both sides of the receiving portion 261 and fixed to the first deck plate 250. [ A < / RTI >

The fixing portion 262 may be fixed with a bolt which is fastened through the first deck plate 250, but is not limited thereto.

The supporter 260 may be fixed to the fixing portion 262 and the first deck plate 250 in order to easily adjust the distance between the second bottom plate 230 and the first deck plate 250 and to secure a better bolt fastening force. And a spacer 263 disposed between the first deck plates 250. With the spacer 263, it is possible to secure the thickness of the reinforcing steel coating when the concrete is poured.

2, when the upper panel 200 is fastened to both sides of the vertical truss girder 100, the upper panel 200a on one side is fastened to the even-numbered vertical truss girder 100, And the upper panel 200b on the other side is fastened to the odd-numbered vertical truss girder 100 and arranged so as not to overlap with each other.

Referring to FIG. 3, the hinge joint member 300 is for pivotably coupling the upper panel 200 to the vertical truss girder 100, and may have various fastening systems. However, in the embodiment, (310) and a bolt (320).

Specifically, the bent plate 310 is formed such that a bent portion 311 formed by bending a plate shape once is fixed to the first phase current 120, and an opposite surface is fixed to the first bottom current 130 As shown in FIG.

The bolt 320 is disposed so as to penetrate the opposite surface of the bent plate 310 so that the distance from the bent portion 311 is larger than the distance between the first phase current 120 and the bending root 240 May be disposed at a distance longer than the combined length of the thicknesses.

That is, by the fastening position of the bolt part 320, the bending point 240 of the upper panel 200 and / or the second phase current of the upper phase panel 200 between the first phase current 120 and the bolt part 320 220 can be rotated.

3, the rotation preventing bar 350 is disposed on the vertical truss girder 100 in a direction perpendicular to the longitudinal direction of the vertical truss girder 100 to limit the turning radius of the upper panel 200 .

That is, the upper panel 200 is rotatably disposed on the vertical truss girder 100 by the hinge joint member 300, and the rotation restraining muscle 350 contacts the second lower crest 230, And may be fixed to the vertical truss girder 100 to restrict rotation of the upper panel in the direction of gravity.

It is preferable that the rotation restraining muscle 350 is disposed such that the longitudinal direction of the second bottom end 230 is 90 ° with the longitudinal direction of the first bottom end 130 of the vertical truss girder 100.

The rotation restraining rope 350 may be fixed to the vertical crush girder by a point or an electric pressure point method.

The deck panel according to the embodiment of the present invention is advantageous in that the upper panel 200 can be rotatably disposed on the vertical truss girder 100, have.

In addition, the deck panel according to the embodiment of the present invention can also provide a coupling between the top panels 200.

5 is a view illustrating a connection panel 400 for connection between two top panels and a top panel separated from each other, and FIG. 6 is a view illustrating connection of a top panel and a connection panel 400. FIG.

The embodiment of the present invention may further include a connection panel 400 connecting top panels 200 spaced apart from each other.

6, the connection panel 400 includes a third lattice 410 formed with a predetermined waveform and a second lattice 410 coupled to an upper pitch of the third lattice 410 and disposed above the third lattice 410. [ A third phase current 420 fixed to all or a portion of the second phase current 220 and a third phase current 430 disposed below the third lattice 410, And a fastening unit 440 for receiving and fixing the upper pitch of the lattice 210 and the third lattice 410 and the second phase current 220 and the third phase current 420.

The third lattice 410, the third phase current 420 and the third bottom current 430 are connected to the second lattice 210, the second phase current 220, (230), the detailed description will be omitted.

The fastening unit 440 may be formed by various fastening means but may be formed to have the same or similar shape as that of the hinge fitting member 300 and that the distance between the bolt portion and the bent portion of the fastening unit 440 is The second phase current 220, the third phase current 420, the second lattice 210, and the third lattice 410 in a non-stationary manner.

Further, the connection panel 400 may further include a second deck plate 450 and a supporter 460.

The structure of the second deck plate 450 and the supporter 460 is the same as or similar to that of the first deck plate 250 and the supporter 260 described above.

In other words, the deck panel according to the above-described embodiment of the present invention has a simpler structure than that of the prior art, so that the upper panel is rotatably disposed to assemble the wall and the floor slab together with the deck panel, Since it is easy to move, the manufacturing cost, the transportation cost reduction, and the excellent durability of the building can be realized, and at the same time, the air can be shortened, resulting in a reduction in the construction cost.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. Range and its equivalent range.

100: vertical truss girder 110: first lattice
120: 1st phase current 130: 1st lower current
200: upper panel 210: second lattice
220: Phase 2 current 230: Phase 2 current
240: bending root 250: first deck plate
260: supporter 261: receptacle
262: fixing portion 263: spacer
300: hinge coupling member 310: bending plate
311: bending face 312: facing face
320: bolt part 400: connection panel
410: Third Lattice 420: Third Phase Current
430: third bottom current 440: fastening unit
450: second deck plate 460: supporter

Claims (12)

A vertical truss girder in which at least one longitudinal direction is horizontally arranged in a row;
A top panel rotatably coupled to the vertical truss girder;
A hinge coupling member for pivotably coupling the upper panel to the vertical truss girder; And
And a rotation preventing bar disposed on the vertical truss girder in a direction perpendicular to a longitudinal direction of the vertical truss girder to limit a turning radius of the upper panel.
The method according to claim 1,
The vertical truss girder,
A first lattice formed with a constant waveform;
A first phase current coupled to an upper pitch of the first lattice to fix the first lattice upper portion; And
And a first bottom current disposed below the first lattice.
3. The method of claim 2,
Wherein each of said vertical truss girders is disposed so as to intersect such that a first phase current of one of said vertical truss girders and a first lower current of one of said other truss girders are adjacent to each other.
3. The method of claim 2,
The upper panel includes:
A second lattice formed with a constant waveform;
A second phase current coupled to an upper pitch of the second lattice to fix the second lattice upper portion;
A second bottom current disposed below the second lattice; And
And a bending root extending from the free end of the second phase current and being bent in the second downward current direction.
5. The method of claim 4,
And the rotation restraining muscle is fixed to the vertical truss girder so as to limit the rotation of the upper panel in contact with the second lower end.
5. The method of claim 4,
The hinge-
A bending plate in which a bending portion formed by bending a plate shape once is fixed to the first phase current and the opposing face is disposed to face the first downward current direction; And
And a bolt disposed through the opposite surface of the bending plate and spaced from the bent portion by a distance longer than a length of the first phase current and a thickness of a cut surface of the bending root.
5. The method of claim 4,
Wherein the upper panel further comprises a first deck plate and a supporter coupling the second lower plate and the first deck plate.
8. The method of claim 7,
The supporter includes:
A receiving portion for receiving the second bottom current;
A fixing part formed at both sides of the receiving part and fixed to the first deck plate; And
And a spacer disposed between the fixing portion and the first deck plate.
The method according to claim 1,
Further comprising a connecting panel connecting top panels spaced apart from one another.
10. The method of claim 9,
Each of the upper panels includes a first electrode,
A second lattice formed with a constant waveform;
A second phase current coupled to an upper pitch of the second lattice to fix the second lattice upper portion;
A second bottom current disposed below the second lattice;
A first deck plate; And
And a supporter for combining the second bottom plate and the first deck plate.
11. The method of claim 10,
The connection panel includes:
A third lattice formed with a constant waveform;
A third phase current coupled to an upper pitch of the third lattice to fix the upper portion of the third lattice and overlapping all or a portion of the second phase current;
A third bottom current disposed below the third lattice; And
And a fastening unit for receiving and fixing the upper pitch of the second lattice and the third lattice and the second phase current and the third phase current.
12. The method of claim 11,
The connection panel includes:
A second deck plate, and a supporter for combining the third bottom current and the second deck plate.

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