KR101444896B1 - Stripping Deck Spacer, and Stripping Deck Plate using thereof - Google Patents

Abstract

The present invention relates to a spacer (700) mounted between a truss girder (500) and a sheathing board (600). The spacer (700) includes: spacer joining parts (710) which are mounted at right and left sides to face each other and have female screw parts (711) mounted in the vertical direction; a spacer connecting part (720) of which right and left sides are joined to the spacer joining parts (710) to connect the spacer joining parts (710) facing each other to become a single piece; bottom supporting parts (730) each of which has a joining recess (731) cut to a predetermined depth to correspond to the outward appearance of the spacer joining part (710) and an insertion hole (732) vertically penetrated at a position corresponding with the female screw part (711) of the spacer joining part (710); and a fastening bolt (740) fastened to the female screw part (711) of the spacer joining part (710) after passing the sheathing board (600) and the insertion hole (732) of the bottom supporting part (730). Moreover, a deck plate in which the spacer (700), the truss girder (500) and the sheathing board (600) are joined together is provided.

Description

[0001] DEODING DEK SPACER AND DEK PLATE USING THE SAME [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spacer capable of rapidly removing and recycling a formwork plate serving as a base member after concrete is laid and cured, and a deck plate using the same.

Generally, a deck plate is a material for a slab manufactured by processing a metal plate such as a galvanized steel sheet so that a structure can be formed without being disassembled even after concrete is laid, as a substitute for forming a slab of a building.

If the slab structure is constructed using such a deck plate, the time and cost required for the construction work can be reduced because the mold for the concrete floor construction is not needed, and the construction is achieved by fixing the unit products continuously. It is advantageous in that the construction can be facilitated quickly and the quality of a certain quality or more can be ensured by using the factory produced products. In recent years, the case of constructing the slab structure using the deck plate has increased .

Among the currently used deck plates, a truss-type deck plate is a typical material widely used for constructing a slab floor of a large building.

FIG. 1 is a perspective view of a truss type deck plate showing a conventional truss composite deck plate, as shown in FIG. The truss composite deck plate is largely composed of a truss girder 1 and a base member 10 to which a truss girder is fixed. The truss girder 1 is symmetrically arranged with a lattice member 9 which is a truss-shaped metal wire and the upper reinforcing bar 6 and the lower reinforcing bar 8 are fixed to the lattice member 9 by welding.

Here, the base member 10 is used as a formwork, and is manufactured by processing a metal plate such as a galvanized steel plate so that a structure can be formed without being disassembled after the concrete is laid. In recent years, The development of technology is proceeding in the direction of removing and reusing.

A concrete embodiment of the deformation-type deck plate is a structure in which a spacer 30 is coupled between a truss girder 10 and a work plate 20 as shown in FIG. 2 (registered trademark 10-1237325) The upper end of the lattice material 12 is opposed to the upper end of the lattice material 12 and the lower end of the lattice material 12 is joined to the lower end of the lattice material 12 on both sides of the phase current 11, And the spacer 30 is formed by two synthetic resin spacer bodies 31 each having a through hole 21 and a through hole 21. Each of the spacer members 30 has a through hole 21, The spacer body 31 is formed with an upwardly facing female thread 311 and a lower portion of the spacer body 31 is formed by insert injection molding so that the spacer body 31 is connected to both longitudinal ends of the spacer head 32 formed as a sole, The through hole 21 of the form plate 20 is formed at the lower portion of the female thread 311 And two bottom ends 13 of the truss girder 10 are placed on top of the head piece 321 of the spacer head 32 and joined by welded joints. .

The conventional deformation-type deck plate has a structure in which the spacer 30 integrally coupled to the truss girder 10 is coupled to the formwork 20 by the washer 40. After the concrete is laid and cured, It is possible to remove the form plate 20 only by loosening all the bolts 40 attached thereto. That is, it takes a considerable amount of time to assemble and dismount (remove) the decking deck plate. In particular, in the case of removing work, the operator approaches the lower surface of the slab (that is, the ceiling scene) by using an auxiliary means such as a stand, It is necessary to unscrew the washer bolts 40 in an uncomfortable posture one by one so that the workability is extremely reduced and there is also a risk of safety accidents.

In order to improve the heat insulation performance or the sound insulation performance, a plate material such as a heat insulating material or a sound insulating material is attached to the lower part of the deck plate. In the conventional construction method, a heat insulating material or a sound insulating material It was constructed by manpower using the lunar and the like. Therefore, there is a problem that it takes a lot of time for the construction of the heat insulating material or the sound insulating material (sound absorbing material) and the quality control such as the maintenance of the level of the heat insulating material and the sound insulating material is difficult.

In order to solve the above-described problems, a newly created invention provides a spacer capable of performing disassembly of a form board serving as a base member more quickly and safely. It is another object of the present invention to provide a deck plate of a new structure which is easy to install a plate material such as a sound insulating material (plate), a sound absorbing material (plate), and a heat insulating material by providing a deck plate using such a spacer.

Technical features of the present invention are as follows.

The present invention is characterized in that a spacer engaging portion 710 is installed on both left and right sides to face each other and has a female threaded portion 711 formed in a vertical direction; A spacer connecting part 720 which connects the two spacer coupling parts 710 which are coupled to the left and right sides of the spacer coupling part 710 so as to face each other; The upper surface of the spacer coupling portion 710 is provided with a coupling groove portion 731 formed at a predetermined depth in a shape corresponding to the outer shape of the spacer coupling portion 710 so as to be inserted into the lower portion of each of the spacer coupling portions 710, A lower end support 730 vertically penetrating the insertion hole 732 at a position corresponding to the insertion hole 711; And a fastening bolt 740 fastened to the female threaded portion 711 of the spacer coupling portion 710 after passing through the insertion hole 732 of the work plate 600 and the lower support portion 730.

The present invention also includes a truss girder 500 coupled to an upper portion of the spacer 700; And a form board 600 coupled to a lower portion of the spacer 700.

The truss girder 500 includes an upper reinforcing bar 510; A lattice material 520 welded on both sides of the upper reinforcing bar 510 and welded at an upper end to the lower end; And a lower reinforcing bar 530 welded and welded to the lower end of each of the lattice materials 520. The lower reinforcing bar 530 is coupled to the upper portion of the spacer coupling portion 710 or the spacer coupling portion 720.

The fixture bolt 740 is fixed to the joint hole 610 of the form plate 600. The fixture bolt 740 is inserted into the hole 610 of the die 600, And the lower support portion 730, and then is fastened to the female threaded portion 711 of the spacer coupling portion 710.

And a plate material 800 installed on the upper surface of the form plate 600 of the deck plate and positioned between the spacer 700 and the form plate 600.

Technical effects of the configuration of the present invention are as follows.

First, the height of the spacer 700 can be adjusted.

In other words, the lower support portion 730 is detachable, and the height of the spacer coupling portion 710 is adjusted by selectively using the lower support portion 730 having a different thickness, so that it is installed on the upper side of the form board 600 The installation height of the truss girder 500 can be adjusted.

Secondly, the construction of the plate material 800 can be performed easily.

The truss girder 500, the spacer 700, the plate material 800, and the work plate 600 are integrally formed with each other in the same manner as in the first embodiment of the present invention. If assembled and supplied to the site, simply install it. That is, there is no work to be performed separately in the field in order to install the plate material 800 such as a heat insulating material or a sound insulating material.

Third, materials can be saved through the recycling of the form board 600.

In other words, the dismantled formwork board 600 can be reused, minimizing the occurrence of construction waste and reducing the material cost.

Fig. 1 shows an embodiment of a conventional truss type deck plate.
2 shows an embodiment of a conventional deformation-type deck plate.
Figure 3 shows a perspective view of a specific embodiment of the present invention.
4 shows a side structure of a specific embodiment of the present invention.
Figure 5 illustrates specific embodiments of spacers 700 that are components of the present invention.
FIG. 6 is a perspective view showing a further embodiment of the present invention in which a plate material 800 is added.
7 shows a side structure in the case where a plate material 800 is added as another specific embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

The present invention relates to a spacer (700) installed between a truss girder (500) and a formwork (600).

The spacer 700 is installed on the upper surface of the form board 600, and is configured as follows.

3 and 5, the left and right sides of the lower end of the truss girder 500 are supported by the spacer coupling portions 710 so as to be opposed to each other at the center of each of the spacer coupling portions 710, The female thread portion 711 is formed.

The spacer coupling portion 710 may be made of various types of members, and may be made of a nut having a proper size as shown in FIG. 3 or FIG.

When the nut is manufactured as described above, it is preferable that the spacer connecting portion 720 covers the upper surface of the female threaded portion 711 of the nut. This is because the mortar can be prevented from flowing into the internally threaded portion 711 when the mortar is poured, and the fixing bolt 740 can be easily disassembled after mortar curing.

The spacer connection portions 720 are connected to the spacer coupling portions 710 on both sides of the left and right sides to connect the two spacer coupling portions 710 facing each other.

The spacer connection portion 720 may be made of the same metal as the spacer coupling portion 710 and welded to the spacer coupling portion 720 and the spacer coupling portion 710.

As shown in FIG. 5, the spacer connecting portion 720 may be formed in various shapes. The spacer connecting portion 720 may be welded to the upper surface of each of the spacer connecting portions 710 as a simple plate or rod, And a separation preventing tongue 721 protruding in a direction perpendicular to the left and right ends of the spacer connecting portion 720 to prevent the left and right lower ends of the truss girder 500 from being separated from the spacer connecting portion 720 The truss girder 500 may have an elastic shape that protrudes in an arcuate shape at both left and right ends of the spacer connection portion 720 and receives the left and right lower ends of the truss girder 500 when the external force acts, The receiving piece 722 may be further provided.

The lower support portion 730 is inserted into a lower portion of each of the spacer engagement portions 710. The upper end of the lower support portion 730 is provided with a coupling recess portion 731 having a certain depth cut in a shape corresponding to the outer shape of the spacer engagement portion 710, And the insertion hole 732 is vertically penetrated at a position corresponding to the female threaded portion 711 of the spacer coupling portion 710. [

The lower support portion 730 may be detachable and the height of the spacer coupling portion 710 may be adjusted when the thickness of the lower support portion 730 is different.

In addition, the lower support portion 730 may have a structure in which two coupling recesses 731 are formed on the left and right upper surfaces of one body, and the spacer coupling portion 710 is inserted into each of the coupling recesses 731.

The fixing bolt 740 is passed through the insertion hole 732 of the form plate 600 and the lower support part 730 and then is fastened to the female threaded part 711 of the spacer coupling part 710 so that the die 800 and the spacer 700).

The spacer 700 having such a structure constitutes a deck plate together with the truss girder 500 and the form board 600.

3 or 4, the truss girder 500 includes upper and lower reinforcing rods 510 and 510, a lattice material 520 welded to the inside of the upper end of the upper reinforcing rods 510 and welded to the lower end, And a lower reinforcing bar 530 welded to a lower end of each of the ashes 520. The truss deck plate has the same or similar structure as that of the conventional truss deck plate, and a detailed description thereof will be omitted.

The lower reinforcing bar 530 of the truss girder 500 is coupled to the upper portion of the spacer engaging portion 710 or the spacer connecting portion 720 in various ways depending on the shape of the spacer connecting portion 720.

For example, when the spacer connection portion 720 is welded to the upper surface of each of the spacer connection portions 710 as a simple plate or rod to connect the two spacer connection portions 710, the lower reinforcing bar 530 The lower reinforcing bar 530 may be welded to the upper surface of the spacer coupling portion 710 and the separation reinforcing jaw 721 may be welded to the upper surface of the spacer coupling portion 710, When the elastic receiving pieces 722 are further provided at the left and right ends of the spacer connecting portion 720, the respective lower reinforcing bars 530 and 530 can be welded in a state of being seated on the upper surface of the spacer connecting portion 720, May be engaged with the elastic receiving portion 722 of the spacer connecting portion 720 in such a manner as to be fitted into the elastic receiving portion 722 of the spacer connecting portion 720. When it is determined that the elastic receiving member 722 is provided with the elastic receiving member 722 and the elastic coupling member 722 itself is difficult to maintain a stable state by the elastic force of the elastic receiving member 722 itself, May be welded.

The form board 600 may be formed of any one of plate materials such as plywood, synthetic resin, and steel plate having a predetermined standard (width, length, thickness) and functioning to stably support the overall load in the concrete pouring and curing process However, it may be a simple plate-like shape or a plate-like shape in which protrusions bent at regular intervals are formed. As shown in FIG. 3, the form board 600 is provided with a plurality of coupling holes 610 passing through at predetermined intervals along the surface thereof.

These engaging holes 610 may be arranged in the same pattern or staggered from each other.

The fixing bolt 740 is inserted into the coupling hole 610 of the form plate 600 and the insertion hole 732 of the lower support portion 730 and then is fastened to the female threaded portion 711 of the spacer coupling portion 710, The spacer 700, and the die 600 are combined to form a deck plate.

In the deck plate of the present invention, a plate material 800 may be additionally provided, and related examples are shown in Figs. 6 and 7. Fig.

The plate material 800 functions to prevent heat loss from being generated on the surface of the cured concrete or to block the noise. The plate material 800 may be any one of materials having insulation or sound absorption function such as synthetic resin, foam resin, or urethane foam Lt; / RTI >

The plate material 800 is installed on the upper surface of the form plate 600 and penetrates the surface of the plate material 800 at a position corresponding to the coupling hole 610 formed in the form plate 600 as shown in FIG. A plurality of through holes 810 are formed.

The plate material 800 may be a heat insulating material or a sound insulating material. The plate material 800 has the same length and the same length as the form plate 600, and the thickness is determined according to the heat conduction rate condition or the noise standard of the building.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Addition or deletion of a technique, and limitation of a numerical value are included in the protection scope of the present invention.

500: Truss girder
510: Upper reinforcing bar
520: Lattice material
530:
600: die plate
610: Coupling ball
700: Spacer
710:
711: Female threads
720: spacer connection
721:
722:
730: Lower support
731:
732: Insertion ball
740: Fixing bolt
800:
810: Through ball

Claims (7)

A spacer (700) installed between a truss girder (500) and a form board (600)
The spacer (700)
A spacer engaging portion 710 provided on both left and right sides facing each other and having a female threaded portion 711 formed in a vertical direction ;
A spacer connecting portion 720 connecting the two spacer coupling portions 710, which are coupled to the spacer coupling portion 710 on both sides of the spacer coupling portion 710, and which are opposite to each other ;
The spacer engaging portion 710 is provided at its upper surface with an engaging groove portion 731 formed at a predetermined depth in a shape corresponding to the outer shape of the spacer engaging portion 710 so as to be inserted into a lower portion of each of the spacer engaging portions 710, A lower end supporting portion 730 through which the insertion hole 732 is vertically penetrated at a position corresponding to the female threaded portion 711 of the lower portion 711; And
A fixing bolt 740 which passes through the form plate 600 and the insertion hole 732 of the lower support part 730 and is then fastened to the female threaded part 711 of the spacer coupling part 710;
Respectively,
Wherein the spacer coupling part (710) is made of a nut, and the spacer coupling part (720) covers the upper surface of the female threaded part (711) of the nut. The method of claim 1,
The spacer connection portion 720 includes:
The spacer connecting portion 720 may further include a separation preventing protrusion 721 protruding in a vertical direction at both sides of the spacer connecting portion 720 to prevent the left and right lower ends of the truss girder 500 from being separated from the spacer connecting portion 720. Deformable deck spacers. The method of claim 1,
The spacer connection portion 720 includes:
The spacer connecting portion 720 is formed in a shape of a circular arc and protrudes in a circular arc shape. When the external force acts on the elastic connecting portions 720, the elastic receiving pieces 751 are separated from each other and receive the left and right lower ends of the truss girder 500, 722). ≪ / RTI > The method of claim 1,
Wherein the lower support part (730) is detachable structure, and the height of the spacer coupling part (710) is adjusted by varying the thickness of the lower support part (730) to be inserted and detached. A deck plate using the spacer (700) according to any one of claims 1 to 4,
A truss girder 500 coupled to an upper portion of the spacer 700; And
A die 600 coupled to a lower portion of the spacer 700;
≪ / RTI >
The truss girder (500)
An upper reinforcing bar 510;
A lattice material 520 welded on both sides of the upper reinforcing bar 510 and welded at an upper end to the lower end; And
A lower reinforcing bar 530 which is welded to the outside of the lower end of each of the lattice materials 520;
And the lower reinforcing bar 530 is coupled to the upper portion of the spacer coupling portion 710 or the spacer coupling portion 720,
The die 600 may be formed,
A plurality of engagement holes (610) passing through the plate at predetermined intervals along the surface thereof;
Respectively,
The fixing bolt 740 passes through the fitting hole 610 of the die 600 and the insertion hole 732 of the lower supporting portion 730 and is then screwed to the female threaded portion 711 of the spacer coupling portion 710 And the deck plate is fastened to the deck plate. The method of claim 5,
A plate material 800 installed on the upper surface of the form plate 600 and positioned between the spacer 700 and the form plate 600;
Lt; / RTI >
A plurality of through holes 810 penetrating the surface of the plate material 800 at positions corresponding to the engagement holes 610 formed in the die 600;
Respectively,
The fixing bolt 740 passes through the fitting hole 610 of the form plate 600, the through hole 810 of the plate material 800 and the insertion hole 732 of the lower supporting portion 730, Is fastened to the female threaded portion (711) of the spacer coupling portion (710).
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