KR101920361B1 - Construction method for slab construction and joist deck plate for slab - Google Patents

Abstract

The present invention relates to a joist deck. More specifically, the present invention relates to a joist deck for slab construction and a slab construction method using the same, which eliminate construction of a small girder in constructing a slab, thereby simplifying the slab construction and shortening the air by eliminating a process such as a formwork construction. Especially, a thickness of the slab of the same span can be reduced, thereby reducing a floor height. Also, the joist deck can ensure an out-of-plane rigidity of a galvanized plate such as preventing warpage and deformation against a side pressure transmitted to the galvanized plate. Especially, stability of a joist such as reinforcing the warpage and a shearing force generated in the joist can be ensured after curing concrete. The slab construction method comprises: a deck module manufacturing process (S100); a slab basic process (S200); a joist deck constructing process (S300); and a concrete placing process (S400).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a slab construction deck and a joining deck plate for slab construction,

The present invention relates to a joist deck, and more particularly, to a joist deck for slab construction and a joining deck thereof for facilitating the workability by omitting a small beam and reducing the thickness of the slab by reducing the thickness of the slab, To a slab construction method using a deck.

As is well known, a building is usually constructed based on various structural components such as a column, a beam, a ceiling, and a stairway. In the case of a column of a small building, usually a form is formed and a concrete is laid. A girder is formed between the columns and a small beam is formed between the girders to support the slab.

However, such a small beam forming method requires a lot of time for forming a formwork, and it takes time for a small beam reinforcement, and when a complex shape is formed due to fixing of a beam reinforcement, workability is inferior.

Therefore, in order to solve the above problems, a deck slab method has been applied to reinforce the beam and to rapidly construct the beam.

This deck slab method has the advantage that the workability is improved compared to the form slab and the process is shortened by pre-production, so that the deck slab method is adopted not only for steel frame but also for reinforced concrete structure.

However, in general deck slabs, it is necessary to add a small beam among the girders installed between the columns in order to apply to a general column spacing of 7 to 8 m within a span of 4 m or less, There is a problem that the thickness of the slab must be increased and the slab thickness must be increased or a small beam must be additionally installed.

Korea Utility Model Registration No. 20-0405522.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a slab installation method and a slab installation method, It is an object of the present invention to provide a slab construction deck capable of reducing the thickness of a slab of the same span and thereby reducing the thickness of the slab, and a slab construction method using the construction deck.

In addition, it is possible to secure the out-of-plane rigidity of the galvanized steel sheet by preventing warpage and deformation against lateral pressure transmitted to the galvanized steel sheet in constructing the joist deck. Especially, The present invention also provides a slab construction method for securing the stability of a long-term line, such as enabling reinforcement, and a slab construction method using the long-line deck.

As a concrete means for achieving the above object, a downwardly protruding joist portion formed of a bent galvanized steel plate having a length, a center of which is opened in an upper portion and a longitudinal direction and a "C" A deck mold having a connecting portion protruding in the horizontal direction in the width direction at both ends of the upper portion; And

And a long truss inserted into the long trunk groove of the deck form frame and projecting upward from the long trunk groove,

A plurality of deck modules are connected to each other through a connecting portion of a deck form frame.

In the long truss,

A plurality of upper and lower horizontal reinforcing bars arranged in four rows in an upward, downward, leftward, and rightward direction so as to form a rectangular cross-sectional structure; And

A first inclined portion connecting the upper and lower horizontal reinforcing bars to each other and connecting the upper and lower horizontal reinforcing bars to each other by spirally wrapping the periphery of the upper and lower horizontal reinforcing bars, A spiral lattice reinforcing bar in which a lower horizontal portion connecting the lower horizontal reinforcing bars at the lower end of the first inclined portion and a second inclined portion continuously connecting the upper horizontal reinforcing bars obliquely bent at the end of the lower horizontal portion are formed continuously And,

The connecting portion of the deck-

The first end of the connection part is formed as a first joint part forming a first coupling groove which is folded upward and opened to the side of the long line groove,

And the other end of the connecting part is formed as a second joint part that forms a second coupling groove which is folded down to open to the side of the long line groove,

The second deck frame of the adjacent deck frame is configured such that the second joint portions of the first joint portion are respectively engaged and engaged with the second engagement groove and the first engagement groove,

In the deck form,

Each of the ribs is configured to include a plurality of rows of rib grooves that open upward and form a width direction,

A deck module manufacturing step of fabricating a plurality of decking molds made of galvanized steel sheets and joining trusses joined to the joining grooves of the decking molds to obtain a deck module;

A slab foundation process constituting a slab foundation by constructing a girder frame for reinforcement of the bottom of the slab and girder reinforcement for reinforcing the girder and girder formers for forming the hulls formed on both sides in the width direction;

A joining deck construction process for joining a plurality of manufactured deck modules to a slab foundation while continuously connecting the deck modules in a width direction to construct a joist deck; And

The concrete pouring process is performed by placing the concrete on the slab foundation and the joist deck on the basis of the construction, thereby forming a bottom portion, a lower projecting girder, a lower projecting girder and an upper depressed horizontal support.

As described above, in the slab construction method using the long-line deck for slab construction and the long deck of the present invention, the construction work of the slab according to each small construction is omitted in constructing the slab, It is possible to reduce the thickness of the slab and to reduce the thickness of the slab, and it is possible to easily obtain the ceiling installation space of ducts, pipes and the like.

In addition, since the galvanized steel sheet constituting the joist deck has a plurality of rows of groove grooves, the out-of-plane rigidity of the galvanized steel sheet is secured, for example, by preventing warping and deformation due to side pressure transmitted to the galvanized steel sheet when concrete is poured. And the horizontal four-row reinforcing bars are connected through the lattice reinforcing bars. Therefore, it is possible to reinforce the warping and shearing forces generated in the joining lines after curing, thereby securing the stability of the joist lines.

1 is an exploded perspective view of a joist deck for slab construction according to the present invention.
FIG. 2 is a perspective view showing a joining deck of a joining deck for slab construction according to the present invention. FIG.
3 is an assembled sectional view of a joist deck for slab construction of the present invention.
4 is an overall process diagram showing a slab construction method using a long-term deck of the present invention.
5 is a schematic view of a process of manufacturing a deck mold in a deck module manufacturing process of a slab construction method using a joist deck of the present invention.
6 is a simplified view of a truss manufacturing process in a deck module manufacturing process of a slab construction method using a long trunk deck of the present invention.
FIG. 7 is a schematic view showing an assembling process in a deck module manufacturing process of a slab construction method using a long-haul deck of the present invention.
8 is a simplified schematic view of the slab foundation process of the slab construction method using the joist deck of the present invention.
FIG. 9 is a schematic view showing a construction process of a long deck of a slab construction method using a long-lived deck of the present invention.
FIG. 10 is a schematic view of a construction process of a long deck of a slab construction method using a long-lived deck of the present invention.
11 is a schematic view of the concrete casting process of the slab construction method using the joist deck of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

First, referring to the present invention's joist deck 1,

Fig. 1 is an exploded perspective view of the present invention's condominium deck, Fig. 2 is an assembled perspective view of the present invention's concrete deck, and Fig. 3 is an assembled sectional view of the present invention's concrete deck.

As shown in Figs. 1 to 3, the joist deck 1 according to the present invention comprises a deck form 200 and a truss truss 300, and by the combination of the deck form 200 and the truss truss 300 The deck module 100 is constituted by the constitution and the assembly of the deck module 100.

Here, the deck form 200 is formed of a galvanized steel sheet having a predetermined width and length.

At this time, the deck form 200 is formed with a long-length portion 210 protruding downward at the center of the deck form 200. The upper portion of the long-length portion 210 has a shape of a " The joist groove 211 is formed.

The deck form frame 200 has a pair of connecting portions 220 and 220 'projecting horizontally on both upper sides in the width direction so that a plurality of deck form frames 200 can be connected and assembled.

At this time, the connecting portions 220 and 220 'firstly include a first joint portion 221 having an end connected to one end of the connecting portion 220. The first joint portion 221 is provided with a joining line 211) side of the first engagement groove 221a.

The second joint portion 221 'is formed with a second joint portion 221' that is folded down to an end portion of the other joint portion 220 '. The second joint portion 221' (221a ').

That is, the deck formwork 200 is configured to be continuously connectable in the width direction, and the first joint part 221 and the second joint part 221 'are connected to the second joint 200 of the adjacent deck form 200 The first joint part 221 is engaged with the second joint groove 221a 'of the second joint part 221' and the second joint part 221 'is coupled with the first joint part 221' and the first joint part 221, (221 ') is fitted to the first coupling groove (221a) of the first joint part (221).

The deck form 200 has a plurality of rows of rib grooves 230 and 230 'as reinforcing means for preventing warpage and deformation due to the side pressure of the deck form 200.

At this time, the rib grooves 230 and 230 'are formed in the widthwise direction of the deck form 200 and are formed in a plurality of rows in the longitudinal direction of the deck form 200, And is formed into a groove shape.

In addition, the deck form 200 is configured to form the jaw coupling portions 240 and 240 'so as to be able to engage with the wedge of the slab at both ends in the longitudinal direction.

At this time, each of the hatch coupling parts 240 and 240 'has an inclined shape gradually widening from the upper end to the lower end, and when viewed from the width direction, the upper part is narrow and the lower part is wide trapezoidal.

The truss truss 300 is configured to be seated in the trunk grooves 211 of the deck form 200 and to form the trunk of the slab when the concrete is poured into the trunk grooves 211. The upper trunk 300 The deck module 100 is formed by combining the deck form 200 and the trunk truss 300.

At this time, in the process of fitting the long truss 300 to the long trunk groove 211 as described above, it is possible to maintain a predetermined gap with the long trunk 210 by using a separate space holding member (not shown) .

In this case, the trunk truss 300 has a rectangular cross-sectional structure. The upper horizontal bar 310 and the lower horizontal bar 320 forming a pair of the lower and the upper trusses 300, And arranged in a row.

The truss truss 300 is formed with a lattice reinforcing bar 320 connecting the upper and lower horizontal reinforcing bars 310 and 310 '.

The upper and lower horizontal reinforcing bars 310 and 310 'are wrapped around the upper and lower horizontal reinforcing bars 310 and 310' in a spiral direction. The upper and lower horizontal reinforcing bars 310 and 310 ' A first inclined portion 322 connecting an upper horizontal portion 321 connecting the upper horizontal portion 321 and an upper horizontal portion 321 connecting the upper horizontal portion 321 and an upper inclined portion 322 connecting the lower horizontal reinforcement 320, A lower horizontal portion 323 connecting the lower horizontal reinforcing bars 320 at the lower end of the lower horizontal portion 323 and a second inclined connecting portion 323 connecting the upper horizontal reinforcing bars 310, And a portion 324 are formed continuously.

That is, the trunk truss 300 is configured as a truss structure through the upper and lower horizontal reinforcing bars 310 and 310 'and the lattice reinforcing bars 320.

The deck frame 200 and the trunk truss 300 are coupled to each other to form a deck module 100. The deck module 100 includes a plurality of deck modules 100, 2 joints 221 and 221 'to form a single long-line deck 1.

Hereinafter, a method of constructing a slab using the present invention's condominium deck having the above-described structure will be described in detail with reference to the accompanying drawings.

4 is an overall process diagram showing a slab construction method using a long-term deck of the present invention.

As shown in FIG. 4, the method of constructing a slab using a long-lined deck of the present invention includes a deck module manufacturing step (S100), a slab foundation step (S200), a long deck construction step (S300), and a concrete casting step .

First, the deck module manufacturing process (S100)

A plurality of deck molds 200 made of galvanized steel sheets and a truss truss 300 coupled to the trunk grooves 211 of the deck formwork 200 are manufactured respectively and the deck trusses 200 And the truss truss 300 can be combined to manufacture one deck module 100. The deck frame 100 can be manufactured through a deck mold making step S110, a truss making step S120, and an assembling step S130 .

Here, the deck mold forming process (S110) can be performed by pressing the galvanized steel sheet 201 with reference to Fig. 5. Through the pressing operation of the galvanized steel sheet, the "de" And a plurality of rows of rib grooves 230 and 230 'are formed in the longitudinal direction of the connecting portions 220 and 220', which are horizontally protruded from both upper ends of the width direction. do.

The first joint part 221 and the second joint part 221 'are formed in the connection parts 220 and 220', respectively. The first and second joint parts 221 and 221 ' The first joint part 221 formed on the connecting part 220 of one side can be folded up and folded upward and the first joint part 221 of the first joint part 221, 1 coupling grooves 221a are formed.

The second joint part 221 'formed on the other side connecting part 220' can be folded down and folded down. The folded second joint part 221 'has a first joint part 221' An engaging groove 221a is formed.

The truss manufacturing process S120 includes a plurality of upper and lower horizontal reinforcing bars 310 and 310 'and a lattice reinforcing bar 320 with reference to FIG.

The upper and lower horizontal reinforcing bars 310 and 310 'constitute a pair of upper horizontal reinforcing bars 310 and a pair of lower horizontal reinforcing bars 320. The upper and lower horizontal reinforcing bars 310 and 310' 310 'are arranged in a sectional top, bottom, left, and right quadrangular structure.

The upper and lower horizontal reinforcing bars 310 and 310 'are connected and fixed via the lattice reinforcing bar 320. The lattice reinforcing bars 320 applied to the upper and lower horizontal reinforcing bars 310 and 310' A first inclined portion 322 connecting the horizontal horizontal portion 321 and a lower horizontal reinforcing bar 320 which is obliquely bent at one end of the upper horizontal portion 321 and a second inclined portion 322 connecting the lower horizontal reinforcing bar 320 at the lower end of the first inclined portion 322 A lower horizontal portion 323 connecting adjacent lower horizontal reinforcing bars 320 and a second inclined portion 324 connecting the upper horizontal reinforcing bars 310 obliquely bent at the ends of the lower horizontal portion 323, So that the upper and lower horizontal reinforcing bars 310 and 310 'are surrounded while being welded together.

That is, the trunk truss 300 is configured as a single truss shape through the arrangement of the upper and lower horizontal reinforcing bars 310 and 310 'and the lattice reinforcing bar 320, the center of which forms a space, The lower horizontal reinforcing bars 310 and 310 ', and the truss truss 300, as shown in FIG.

7, the deck frame 200 is combined with the trunk truss 300 to form a single deck module 100. In this assembling step S130, The truss 300 is placed in the trunk groove 211 of the deck form 200 and the lattice bar 320 formed on the outer circumference of the truss 300 is teig welded to the deck form 200.

That is, the deck module 100 is formed as a single unit by combining the deck form 200 and the trunk truss 300. At this time, the lattice reinforcement 320 and the deck form 200, A predetermined gap may be maintained between the latticed bar 320 and the long groove 211 using a gap holding member (not shown).

The slab foundation process (S200)

Referring to FIG. 8, in constructing the slab, a skeleton for reinforcement is constructed to construct the slab foundation 11.

First, a bottom reinforcing bar 22 is installed to reinforce the bottom portion of the slab.

The girder reinforcement 32 for reinforcement of the girder supporting the lower portion of the bottom portion is constructed by arranging the girder reinforcement 32 corresponding to the girder of the slab, Will be deployed.

In addition, when the girder mold 31 is constructed as described above, the spatter portion 33 is formed so as to be connected to the bottom portion corresponding to the width direction of the girder.

In the joist deck construction step (S300)

Referring to FIGS. 9 and 10, a plurality of deck modules 100 are coupled to the slab foundation 11 constructed as described above, thereby constructing the long deck 1.

At this time, in order to construct the long trunk deck 1, first, one deck module 100 as a reference is coupled to the slab foundation 11, and when the long truss 300 is placed at the top, The bottom reinforcing bars 310 corresponding to the bottom portion of the slab and the upper horizontal reinforcing bars 310 located at the upper portions of the truss truss 300 are formed so that both ends of the deck module 100 are coupled to the opposite girder molds 31, To each other.

A connecting rod 35 may be connected to the lower horizontal reinforcing bar 320 of the truss truss 300 and the connecting reinforcing rod 35 may be connected to the girder reinforcing bar 32. [

In addition, the warp kneading parts 240 and 240 'formed at the longitudinal ends of the respective deck formers 200 may be joined to the spiral parts 33 of the girder molds 31 corresponding to both sides.

The deck module 100 constructed as described above is continuously connected in the width direction so that the first joint part 221 and the second joint part 221 ' The first joint part 221 is coupled with the second joint part 221 'of the mold 200 and the second joint part 221' of the second joint part 221 ' And the second joint portion 221 'may be fitted into the first coupling groove 221a of the first joint portion 221 in a continuous manner.

That is, the deck module 100 is connected to the slab foundation 11, and is continuously connected in the width direction, thereby forming a long-line deck 1 for forming a long line at the bottom of the slab.

The concrete pouring step (S400)

Referring to FIG. 11, the concrete is laid as in the construction of a normal concrete structure. In the present invention, concrete may be placed and cured on the slab foundation 11 and the joist deck 1.

Meanwhile, it is a matter of course that, in the course of pouring the concrete as described above, a general shovel for supporting the concrete load is installed under the girder mold 31 and the deck module 100.

The construction of the slab 10 is completed to form the bottom 20 of the slab corresponding to the bottom reinforcing bar 22 and to the lower portion of the bottom 20 corresponding to the girder mold 31 And a girder 30 for supporting the bottom 20 of the long deck 1. The long deck 1 is formed by projecting the long side portion 210 to the bottom portion of the bottom portion 20 to support the bottom portion 20 thereof, And a horizontal support portion 50 corresponding to the connection portions 220 and 220 'which are recessed into the upper portion of the main trunk deck 1 are formed.

As described above, the slab construction method for slab construction according to the present invention and the method for slab construction using the construction deck of the present invention are characterized in that a plurality of rows of groove grooves are formed in a deck form frame in constructing the long-line deck, It is possible to stabilize the construction while preventing warpage or deformation due to side pressure.

In addition, in constructing the long trusses, a rectangular cross-sectional structure is ensured. In addition, the coupling strength with the bottom reinforcing bars is increased while securing the stability of the trusses. Especially, The thickness of the slab is preferably about 600 mm or more, while the thickness of the slab is preferably about 600 mm or more. Preferably, the thickness of the slab is about 600 mm or more, and the thickness of the slab is reduced. It becomes easy to secure the space corresponding thereto.

In addition, even when the slab is constructed, it is not necessary to construct the formwork for constructing a separate small beam, and the convenience of the slab construction and the shortening of the air are brought about.

1: joist deck 10: slab
11: slab foundation 20: bottom part
22: bottom reinforcing bar 30: girder
31: Girder Formwork 32: Girder Reinforcement
33: Deposition part 35: Bonded reinforcing bars
40: Joint 50: Horizontal support
100: long line module
200: a deck frame 210:
211: Joint groove 220, 220 ': Connection
221: first joint part 221a: first coupling groove
221 ': second joint portion 221a': second joint groove
230, 230 ': rib grooves 240, 240'
300: truss truss 310, 310 ': upper and lower horizontal reinforcing bars
320: Lattice bar 321: Upper horizontal part
322: first inclined portion 323: lower horizontal portion
324: second inclined portion

Claims (7)

delete delete delete delete A deck module manufacturing step S100 for obtaining a deck module 100 by fabricating and joining a plurality of deck molds 200 made of galvanized steel sheets and a trunk truss 300 coupled to the joining grooves of the deck formwork 200, ); A slab foundation process (S200) of arranging a girder reinforcing bar (32) for reinforcement of a girder and a reinforcement of a bottom reinforcing bar (22) for reinforcing the bottom of the slab and constructing a girder molding (31) to form a slab foundation (11); A joining deck constructing step (S300) of constructing the joining deck (1) by continuously connecting the plurality of manufactured deck modules (100) in the width direction while joining them with the slab foundation (11); And the concrete is placed and cured in the upper part of the installed slab foundation 11 and the joist deck 1 to form the bottom 20, the lower projecting girder 30, the lower projecting girder 40, (S400) for forming a concrete slab (50)
The deck module manufacturing process S100 includes a long elongated portion 210 having a galvanized steel plate 201 pressingly protruding downward and having a long line groove 211 formed at an upper center thereof and connecting portions 220 and 220 ' And the deck mold 200 forming the first and second joint portions 221 and 221 'by forming the rib grooves 230 and 230' of a plurality of rows and bending the both side connecting portions 220 and 220 ' A deck mold making step (S110) for making a mold; The upper and lower horizontal reinforcing bars 310 and 310 'are arranged in an upward, downward, left, and right direction so as to have a rectangular cross section, and the peripheries of the arranged upper and lower horizontal reinforcing bars 310 and 310' A truss making step (S120) for wrapping the lattice reinforcing bar (320) and welding; And assembling the formed truss truss (300) to the trunk groove (211) of the deck formwork (200) and welding the deck truss (300) to the deck formwork (200) to complete the deck module (130) During the pressing operation of the galvanized steel sheet 201 in the step (S110), a plurality of rows of rib grooves 230 and 230 'are formed in the widthwise direction while being opened to the upper side, Shaped jutting parts 240 and 240 'which gradually become wider,
Further comprising the step of forming a spiral portion (33) formed on both sides in the width direction when the girder formwork (31) is installed in the slab foundation process (S200).
delete 6. The method of claim 5,
In the joist deck construction step (S300)
Both ends of the deck module 100 are connected to opposite side girder molds 31,
The bottom reinforcing bar 22 formed at the bottom of the slab and the upper horizontal reinforcing bar 310 located at the upper part of the truss truss 300 are joined together,
A connecting reinforcing bar 35 and a connecting reinforcing bar 35 are connected to a girder reinforcing bar 32 in a lower horizontal reinforcing bar 320 of a trunk truss 300 that meets a girder,
Adjacent deck modules 100 are connected to each other by fitting the first and second joint portions 221 and 221 'formed on the two side connecting portions 220 and 220' Slab construction method.

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