KR101687748B1 - stripping deck - Google Patents

Abstract

The present invention relates to a stripping deck, wherein a metal head of a spacer in which a first and a second truss girder is welded has a single length which is a continuous section without a discontinuous section. Therefore, through performing a role of one structural material, on the stripping deck placed on an iron framework, even if a worker is placed by stepping on a truss girder, a steel plate is not be bent or raised.

Description

Stripping deck

The metal head of the spacer to which the first and second truss girders are welded has a single length which is a continuous section without a discontinuous section so that the operator can step on the truss girder on the deck deck placed on the steel frame through the role of one structural member To a deformation-preventing deck which prevents the steel plate from being bent or lifted.

A concrete embodiment of a deformation-type deck in the related art is a structure in which a spacer 30 is coupled between a truss girder 10 and a steel plate 20 as main trusses as shown in Fig. 1 (Patent Document 1) The lower end of the lattice material 12 is extended to both sides of the phase current 11 and the upper end of the lattice material 12 is brought into contact with the inner side of the upper end of the lattice material 12, The steel plate 20 is formed with a through hole 21 and the spacer 30 is made of a synthetic resin material such that the two synthetic resin material spacer bodies 31 are made of a steel material, The spacer body 31 is formed with a female thread facing upward and a female screw formed at a lower portion of the spacer body 31 is inserted into the steel sheet 20 The through hole 21 of the washer < RTI ID = 0.0 > Is coupled by a bolt 40, a two-current (13) of the truss girder 10, it characterized in that the binding to the welded joints eonhyeojyeo the upper head piece 321 of the head spacer 32.

Such a conventional deformation-type deck is to be reused by removing the steel sheet 20 after concrete pouring and curing. 2, the end portion of the deformation-type deck can not be mounted on the upper portion of the flange of the steel frame 40, and the load of the concrete pushed through the separate end portion 50 coupled with the truss girder 10 is transmitted to the steel frame 40, and the clearance between the steel plate 20 of the deformation-type deck plate and the flange of the steel frame 40 is blocked by using a separate filler S.

That is, the load of the concrete to be laid is primarily received by the steel plate 20, and this distributed load is transmitted to the truss girder 10 through the spacer 30 and is transmitted to the end of the truss girder 10, To the steel frame 40 to support the load. In this case, the end portion of the steel plate 20 can prevent the end member from being sagged downward due to the load of the bar concrete, which is coupled to the truss girder 10 through the spacer 30.

After such a conventional deformation-type deck is installed in the steel frame 40, the lower and upper expansion rods are placed on-site perpendicularly to the direction of the main rods (longitudinal direction of the steel strip).

However, the first spacer head of the first spacer to which the first truss girder is welded and the second spacer head of the second spacer to which the second truss girder is welded are separated and separated from each other.

Therefore, between the first truss girder and the second truss girder, only the steel plate is connected as a discontinuous section in which the spacer head is broken.

The steel plate at the portion where the truss girder does not exist tends to be bent easily when the worker hits the truss girder.

Further, when the operator pushes the truss girder upward and applies a force in one direction (the transverse direction of the steel plate), the portion connected only to the steel plate may be bent and lifted.

In addition, the conventional spacers are not connected in the horizontal direction (direction of the discharge direction) of the steel plate, and there is a waste to fail to serve as a structural material, for example, a bottom discharge force for field application.

Patent literature: Korean Patent No. 10-1531493

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a metal head to which a first truss girder and a second truss girder are welded by employing a metal head of a single length in a continuous section without a discontinuous section, And it is an object of the present invention to provide a demolding deck in which a steel plate in a hollow portion of a truss girder is bent or a truss girder is lifted even when it is moved up or down.

To achieve the above object, a deformation-type deck according to claim 1 of the present invention comprises: a steel plate; A first truss girder and a second truss girder disposed at predetermined intervals on the steel plate; A single spacer disposed between the steel plate and the first and second truss girders while the first and second truss girders are fixed; And a coupling member connected to the spacer to support the steel plate, wherein the first truss girder includes a first lattice connecting a first phase current and a first lower current, a first lattice connecting the first phase current and the first lower current, The second truss girder is made of a second lattice material connecting the second phase current and the second bottom current, the second phase current and the second bottom current, and the spacer is made of the first And a first and a second resin bodies formed on both sides of the single-length metal head and to which the coupling member is coupled.

In the de-molding deck according to claim 2 of the present invention, the single-length metal head has a first metal head to which the first bottom current is welded, a second metal head to which the second bottom current is welded, And an interconnecting metal head connecting the first metal head and the second metal head.

The deformation-type deck according to Claim 3 of the present invention further includes an extended metal head extending outside the first metal head or outside the second metal head, There is further formed a body disposed on the portion.

The present invention has the following effects.

The metal head of the spacer is formed of a single-length metal head which is a continuous section in which both the first truss girder and the second truss girder are welded and fixed, whereby the portion of the steel plate between the first truss girder and the second truss girder is bent, Since the single metal head catches the lifting of the part, the worker climbs up on the decking deck mounted on the steel frame to prevent the steel plate from bending or lifting the steel plate to one side, The metal head of the length serves as the main rope such as the lower reinforcement rope along the horizontal direction of the steel plate to obtain a very stable slab.

Further, by providing a body on the outer periphery of the metal head, when the steel plate and the other steel plate are overlapped under the body, the body is blocked below the body so that the overlapped portions are prevented from falling apart or being disturbed to the utmost.

1 is a perspective view showing a conventional de-molding deck structure.
Fig. 2 is an exemplary illustration of an end support structure of a conventional de-molding deck.
3 is a perspective view of a de-molding deck according to a preferred embodiment of the present invention;
Figure 4 is a front view of Figure 3;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 3 is a perspective view showing a deformation-type deck according to a preferred embodiment of the present invention, and FIG. 4 is a front view of FIG.

3 and 4, the deformation-type deck 100 according to the present embodiment includes a steel plate 300, a truss girder 500 disposed on the upper surface of the steel plate 300, A spacer 700 interposed between the girders 500 and an engaging member 900 engaged with the spacer 700.

It is preferable that the steel sheet 300 is a galvanized steel sheet having a transverse direction (an exhaust direction) and a longitudinal direction (a main direction).

The truss girder 500 is a main girder and is disposed on the steel plate 300 at one or more than two at a predetermined interval. That is, if one truss girder 500 is used, it is called one row, two columns are two rows, and three columns are three rows (500a, 500b, 500c).

3, the deformation-type deck 100 of this embodiment is a one-unit deformation-type deck in which the truss girders 500 are arranged in three rows at predetermined intervals in the steel plate 300, Thereby forming a slab form.

The first to third truss girders 500a to 500c are connected to the first to third lower beams 510a to 510c along the main beam direction and the first to third phase beams 530a to 530c, And first to third lattice materials 550a to 500c connecting the first to third phase currents 530a to 530c.

The first to third bottom currents 510a to 510c are two left and right and the first to third current phases 530a to 530c are disposed on the center line of the left and right bottom currents 510a to 510c.

The spacer 700 is composed of a metal head 710 to which the bottom faces of the first to third bottom currents 510a to 510c are welded and fixed and a resin body 730 formed on both sides of the metal head 710 .

That is, the metal head 710 is a single-length metal head 710 having continuous sections connected to the first through third truss girders 500a through 500c as well as between them.

When the metal head 710 having a single length is divided, the first to third metal heads 710a to 710c welded and fixed to the first to third undercuts 510a to 510c and the first and second metal heads 710a to 710c And a first connecting metal head 710e connecting between the second and third metal heads 710b and 710c are formed integrally with the first connecting metal head 710d.

The first and the second connecting metal heads 710d and 710e are disposed in a portion of the steel plate 300 where the first to third truss girders 500a to 500c are not disposed to serve as a structural member or a lower power output do.

Therefore, when the worker climbs on the deck, the first metal head 710d and the second metal rod head 710e catch the truss girder or warp the steel plate of the non-truss girder.

In addition, when the slab is completed after the concrete is poured, the metal head 710 also functions as a bottom discharge rope, which is a field rope, and functions as a bulb.

The resin body 730 is formed on both sides of the single-length metal head 710. For example, the resin body 730 is preferably insert-injected into the outer periphery of the first metal head 710a and the third metal head 710c.

The resin body 730 has first to third resin bodies 730a to 730c formed on both sides of the first to third metal heads 710a to 710c to support the steel plate 300 in a more stable manner have.

The coupling member 900 is composed of a bolt coupled to the resin body 730.

As shown in FIG. 4, it is preferable that an outwardly extending metal head 710f is further installed on any one of the first metal head 710a and the third metal head 710c.

The extended metal head 710f is further formed with a body 730f for pressing a portion where the steel plate 300 is overlapped with another steel plate 300 '.

The steel plate 300 is formed with upward bending portions 310 protruding upward in a transverse direction or along a direction of an exhausting force at predetermined intervals.

Similarly, the upper bent portion 310 'is formed also in the other steel plate 300'.

Therefore, the overlapped portion is a portion where the upper surface of the upper bent portion 310 of the steel plate 300 abuts the lower surface of the upper bent portion 310 'of the other steel plate 300'.

Therefore, when the upper bent portion 310 'of the other steel plate 300' is inserted between the upper bent portion 310 of the steel plate 300 and the body 730f and stacked on top of each other, And blocks the upper portion of the upper bent portion 310 ', thereby suppressing the overlapping portions of the upper bent portion 310' to each other as much as possible.

Of course, the body 730f is fastened with a bolt like a resin body, so that a joint between the steel sheet and the steel sheet can be surely performed.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. It goes without saying that such changes are within the scope of the claims.

100: Deforming deck 300: Steel plate
500: Truss girder 510: Lower current
530: image present 550: lattice material
700: spacer 710: single-length metal head
710a to 710c: first to third metal heads 710d and 710e: first and second metal heads
710f: Extension metal head 730: Resin body
730f: Body 900: Coupling member (bolt)

Claims (3)

delete delete Steel plate; A first truss girder and a second truss girder disposed at predetermined intervals on the steel plate; A single spacer disposed between the steel plate and the first and second truss girders while the first and second truss girders are fixed; And a coupling member coupled to the spacer to support the steel plate,
Wherein the first truss girder comprises a first lattice material connecting the first phase current and the first lower phase current, the first phase current and the first lower current,
The second truss girder comprises a second lattice material connecting the second phase current and the second lower current, the second phase current and the second lower current,
Wherein the spacer includes a metal head of a single length in which the first bottom current and the second bottom current are welded, and first and second resin bodies formed on both sides of the single-length metal head,
Wherein the single metal head has a first metal head to which the first bottom current is welded, a second metal head to which the second bottom current is welded, and a second metal head to which the first metal head and the second metal head are connected, / RTI >
An elongated metal head 710f extending outside the first metal head or outside the second metal head is further formed,
A body 730f is further formed on the extended metal head 710f,
The body 730f presses the overlapped portion where the upper surface of the upper bending portion 310 of the steel plate and the lower surface of the upper bending portion 310 'of the other steel plate abut each other and the lower surface of the body 730f presses the upper bending portion 310 ') To block the top of the decking deck.

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