KR101909211B1 - speed deck for slab - Google Patents

Abstract

The present invention relates to an integrated deck for a slab, in which one side of a connecting unit of one steel sheet is inserted and connected between one side of a connecting unit of the other steel sheet and the other lattice foot. In particular, an angled bent piece is formed on the other connecting unit having a longer length than that of one connecting unit, and after insertion, the same is pushed by the bottom surface of another lattice foot and tightly connected with the upper surface of the other connecting unit.

Description

[0001] SPEED DEECK FOR SLAB [0002]

The present invention relates to an integrated deck for a slab, in which the other side connecting portion of a steel plate is inserted and connected between another side connecting portion of another steel plate and another side lattice foot. In particular, an angled bent piece is formed on the other connecting portion, The present invention relates to an integral deck for a slab, which is easily and reliably joined while sealing the leakage of concrete pushed by the bottom surface of the lattice foot and closely contacting the upper surface of the other connecting portion.

Generally, a reinforced concrete structure is a composite structure in which concrete, which is a compressive material, and reinforcing bars, which are a tensile material, are used together. This is a structure in which a mold is formed to form an outer surface of concrete, reinforcing bars are placed on the concrete, And the like.

In recent years, a steel plate form is used as a part of a reinforced concrete structure in order to solve various problems caused by demolition of a form, and in particular, a typical material widely used for a slab floor construction of a large building is a truss composite deck plate, Japanese Patent Application Laid-Open No. 20-0365941).

As shown in FIG. 1, the truss synthetic deck plate of Patent Document 1 includes a truss girder and a base member 100 to which the truss girder is fixed.

The truss girder is composed of a plurality of reinforcing rods such as a top 6 and a bottom 8 and a lattice material 4 for connecting and fixing the reinforcing rods 4. The bottom of the lattice material 4 is provided with a horizontal lattice foot 9 Respectively. At this time, it is preferable that the lattice foot 9 is disposed symmetrically with respect to the phase current 6 positioned at the upper end of the mountain-shaped lattice material 4.

On the other hand, the base member 100 is formed of a galvanized steel sheet. Shaped beads 150, which are two-fold overlapping from the bottom surface 110 and are vertically bent and whose upper portions are bent horizontally, are formed at predetermined intervals, and the predetermined spacing is determined by the lattice foot 9 of the truss girder And is set so as to correspond to the position where it is disposed.

In addition, connecting ends 130 and 140 are formed at both side ends of the base member 100 so that a plurality of base members 100 are continuously installed by a required area.

However, after the connection ends 130 and 140 are connected, a space with the bottom surface 110 is formed, and when the concrete is laid, a small amount of concrete paste leaks into the spaces of the connection ends 130 and 140.

Also, since the connection steps 130 and 140 are bent, the manufacturing process is increased, and the male and female parts 130 and 140 of the connecting part are fastened together.

In Patent Document 2 (Korean Patent No. 10-1214305) for solving this, as shown in FIG. 2, there is a further need for components and processes which prevent leakage of concrete by fixing packing 50 in a space.

On the other hand, it is proposed that a decking deck plate different from the integral deck plate is disclosed in Patent Document 3 (Korean Patent No. 10-1452940).

As shown in FIG. 3, the decking deck plate of Patent Document 3 includes a reinforcing protrusion 310 formed at one end of the plate 300, a reinforcing protrusion 310 'formed at the other end of the adjacent plate 300' The step portion 222 is protruded from the body portion 220 so as to be in contact with the reinforcing step 310 so that the plate 300 can be prevented from being bent by the load.

The lifting prevention portion 222b of the step portion 222 formed on the lower side of the body 220 of the spacer 200 contacts the reinforcing protrusion 310 of the plate 300 to control the deformation due to the load Not only prevents the plate 300 from being separated from the adjacent plate 300 'in the lap joint on the end side of the plate 300 but also prevents the end of the adjacent plate 300' from being lifted when the concrete is poured It is effective.

However, when the plate 300 'bends and the end of the reinforcing jaw 310 is caught by the lift preventing portion 222b, a gap is formed in a triangular shape therebetween, and there is a great possibility that the concrete leaks.

Also, in Patent Document 3, the concrete pushed into the spaces of the reinforcing jaws 310 and 310 'leaks, the supporting length of the step jaws 222 of the body 220 where the lifting preventing reinforcing end portions 320 are engaged is short The reinforcing jaws 310 and 310 ', which are concave and convex, must be reinforced by the weight of the concrete poured in the distance from the center of the connection portion.

Therefore, the formation of the concave-convex reinforcing jaws 310 and 310 'and the structure in which the concave-convex reinforcing jaws 310 and 310' are overlapped with each other are necessarily required, and a finishing process and a bending process for preventing leakage of the concrete must be performed.

For this purpose, it is necessary to add a step of pressing the reinforcing jaws 310 and 310 'of the concave and convex portions like in Patent Document 4 (Korean Patent Laid-Open No. 10-2016-0075112) (see FIG. 4).

Korean Registered Utility Model No. 20-0365941 Korea Patent No. 10-1214305 Korean Patent No. 10-1452940 Korean Patent Publication No. 10-2016-0075112

SUMMARY OF THE INVENTION It is an object of the present invention to provide an integral type deck for slabs which is improved in workability and workability of a connection part and which is free from leakage of concrete to be laid after connection.

In order to achieve the above-mentioned object, the integral deck for slab according to claim 1 of the present invention is characterized in that a slab integral deck in which a lattice foot of a truss girder is welded and fixed to a welding projection of a steel plate, The length of the other connecting portion is longer than the length of the one connecting portion and the other connecting portion is inserted between the other connecting portion of another steel plate and another lattice foot, Like bent piece is further bent in the longitudinal direction along the longitudinal direction so that the height of the mountain-shaped bending piece is higher than the height between the upper surface of the other connecting part and the bottom surface of the other lattice foot, and after the insertion, While the other side is pressed against the bottom surface of the other lattice foot, And the other one-side connecting portion and the above-mentioned beam are laminated and adhered.

The present invention has the following effects.

Since the steel plate has a generally flat straight line, parts or processes that prevent leakage of concrete by using a separate packing or pressing it when it is placed on a flat upper surface of the beam are omitted.

Further, since the bent piece is of the mountain type, it is easy to insert without receiving little resistance when inserted between the one connecting portion and the one-side lattice foot, and the elastic deformation is very easy after insertion.

In addition, the vertexes of the angled bending pieces come into contact with the underside of the other lattice foot, tightly and tightly fitted, thereby reliably acting as a joint between the integral decks for slabs, preventing the operator from slipping off or moving do.

Further, since the mountain-shaped bent pieces serve as both-end fixed beams for applying a reaction force while being pressed between the bottom surface of the other lattice foot and the upper surface of the other side connecting portion, there is no deflection at both ends due to the weight of the concrete, There is no leakage of concrete.

Further, due to the elastic deformation in which the angled bent piece is pressed between the bottom surface of the one side lattice foot and the upper side of the other side connecting portion while applying the reaction force in the vertical direction, the adhesion to the upper surface of the beam (not shown) is further enhanced to surely prevent leakage of the concrete can do.

In addition, since the upper surface of the other connecting portion and the bottom surface of the other connecting portion are very closely adhered to each other, even if a minute space is formed below the mountain-shaped bending portion, the space is very small. Even if concrete leaks, There is no.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view showing a truss synthetic deck plate of Patent Document 1. FIG.
Fig. 2 is a perspective view showing an embodiment of the packing 50 of the patent document 2; Fig.
FIG. 3 is a detailed sectional view showing a connection end portion of the lift-preventing deformation-preventing deck plate of Patent Document 3. FIG.
4 is a photograph of a deck plate subjected to end treatment in Patent Document 4;
5 and 6 are a perspective view and a front view showing an integral deck for a slab according to a preferred embodiment of the present invention.
7 and 8 are a perspective view and a front view of the integral deck for slab and the other integrated deck for slab of Fig.
Figs. 9 and 10 are a perspective view and a front view, respectively, immediately after the connection of the integral deck for slab and the other integral deck for slab of Fig. 5;

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

5 and 6 are a perspective view and a front view showing an integral deck for a slab according to a preferred embodiment of the present invention, and Figs. 7 and 8 are views showing a state in which the integral deck for slab and the integral deck for slab of Fig. And FIGS. 9 and 10 are a perspective view and a front view, respectively, of the integrated deck for slab and the other integrated deck for slab shown in FIG. 5, respectively.

As shown in Figs. 5 and 6, the integral deck 10 for a slab according to the present embodiment includes a steel plate 2 and a truss girder 1 fixed in the longitudinal direction of the steel plate 2, And a plurality of truss girders 1 fixed at predetermined intervals.

The steel plate 2 is formed with welding protrusions 15 which are bent upward at predetermined intervals along the transverse direction.

One side connecting portion 20 and the other side connecting portion 200 are formed on one side and the other side in the longitudinal direction of the steel plate 2.

It is preferable that the length L2 of the other side connection part 200 is longer than the length L1 of the one side connection part 20. The reason for this is as shown in Fig. 10, since the steel sheet length a between the current 6 and the current 6 is the same, and therefore, the joints when the other side connection portion 200b is inserted into the other side connection portion 20a The length (l) is equal to the length (a) of the upper steel plate, so that the overall construction design is uniform and the workability is excellent.

The one-side connecting portion 20 and the other-side connecting portion 200 are integrally formed as a part of the steel plate 2.

In addition, the bottom surface of the integrally formed steel plate 2 is in the form of a flat plate having a flat straight line.

Of course, on the bottom surface of the integrally formed steel plate 2, the seating surface in which the welding protrusions 15 are bent is formed in a strip shape in the longitudinal direction, but takes a flat straight line as a whole.

In particular, the other connecting portion 200 is further formed with an angled bent piece 210 bent along the longitudinal direction.

The mountain-shaped bending piece 210 includes an upward upward inclined bent piece 211 formed to be inclined upward from the free end of the other connecting part 200 and an upward upward inclined bent piece 211 inclined downward from the vertex of the upward upward inclined bent piece 211 And an outward downward oblique bending piece 213 formed thereon.

The height H of the bending piece 210 is formed so as to be higher than the height h between the top surface of the steel plate 2 and the bottom surface of the lattice foot 9, The vertex 215 is caught on the side of the lattice foot 9.

The height h is usually 2 to 3 mm, and the clearance is almost negligible.

The truss girder 1 includes a lattice material 4 connecting the phase current 6 and the bottom current 8 and the phase current 6 and the bottom current 8.

At the lower end of the lattice material 4, a lattice foot 9 extending in the horizontal (horizontal) direction is formed in a semicircular shape.

And the bottom surface of the lattice foot 9 is spot welded while being placed on the top of the welding projection 15. [

Hereinafter, a method of constructing the one-piece type deck 10 for slabs having the structure according to the present embodiment described above will be described. One integrated deck for slab includes an integrated deck 10a for a first slab, Is defined as the integral deck 10b for the second slab.

First, as shown in FIGS. 7 and 8, the integrated deck 10b for a second slab is placed on a first one-side connecting portion 20a of the integral deck 10a for a first slab, The bottom surface of the second other-side connection portion 200b of the second side is placed.

That is, before the mountain-shaped bent piece 210b of the second other-side connecting portion 200b is inserted between the first-side lattice foot 9a and the first-side connecting portion 20a, the apexes 215b Downward oblique bending piece 213b is inserted between the first one side lattice foot 9a and the upper surface of the first one side connecting portion 20a while being caught by the side surface of the first one side lattice foot 9a.

When the integral deck 10b for the second slab is pushed toward the integral deck 10a for the first slab in this state, the vertex 215b of the mountain-shaped bent piece 210b becomes the first one- And deformed while being pressed against the bottom surface of the foot 9a.

As shown in Fig. 10, this deformation causes the outer downwardly inclined bent piece 213b to be deformed into a parabolic shape concave downward.

Therefore, since the apex 215b of the bending piece 210b is pressed against the bottom surface of the first side lattice foot 9a, the following effects can be obtained.

The vertex 215b of the mountain-shaped bent piece 210b is in contact with the bottom surface of the first one-side lattice foot 9a and is tightly fitted to the joint between the integral deck 10a for the first slab and the integral deck 10b for the second slab The role is definitely done.

In addition, since the mountain-shaped bent piece 210b acts as a beam for both ends fixing the reaction force while being pressed between the bottom surface of the first one side lattice foot 9a and the upper surface of the first one side connecting portion 20a, There is almost no leakage of concrete because there is no deflection at both ends.

Further, due to the elastic deformation in which the bending piece 210b is pressed between the bottom surface of the first side lattice foot 9a and the upper surface of the first side connecting portion 20a, The adhesion can be further increased.

Further, the upper surface of the first side connecting portion 20a and the bottom surface of the second side connecting portion 200b have very high adhesion to each other. Even if the space S occurs as shown in FIG. 10, The concrete is leaked because the space is sealed between the upper surface of the other one-side connecting portion 20a and the mountain-shaped bent piece 210b of the other-side connecting portion 200b.

7 and 8, the second other-side connecting portion 200b of the integral-type deck 10b for the second slab is placed on the upper surface of the first-side connecting portion 20a, (20b) is lifted upwards.

It is also possible to insert the end of the outer downwardly inclined bent piece 213b until it is caught by the first one-side welding projection 15a.

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.

1: Truss girder 2: Steel plate
4: Lattice Reagent 6: Phase Current
8: Low current 9: Lattice footnote
15: welding projection
20: one side connection part 200: the other side connection part
210: an angular bending piece 211: an upward upward inclined bending piece
213: outer downward inclined bent piece 215: mountain-shaped bent piece vertex

Claims (1)

A lattice foot of a truss girder is welded and fixed to a welding projection of a flat steel plate on both sides of a flat upper surface of the beam,
One side connecting portion and the other side connecting portion are formed on one side and the other side in the transverse direction of the flat steel plate,
The length of the other side connecting portion is longer than the length of the one side connecting portion,
The other side connecting portion is inserted between another side connecting portion of another flat steel plate and another lattice foot,
The other connecting portion is further formed with an angled bent piece along the longitudinal direction,
The height of the mountain-shaped bending piece is higher than the height between the upper surface of the other connecting part and the lower surface of the other lattice foot,
After the insertion, the other connecting portion, the other connecting portion and the beam are laminated and brought into close contact with each other while being pressed by the bottom surface of the other lattice foot, so that the concrete leakage is prevented between the flat steel plate and the flat upper surface of the flat steel plate And a space formed between the flat upper surface of the other one-side connection part and the mountain-shaped bent piece of the other side connection part is sealed and locked to prevent leakage of the concrete.

Images