KR20160035239A - Deck module for composit structure and composition slab using the deck module, and method for fabricating and constructing the composition slab using the deck module - Google Patents

Abstract

The purpose of the present invention is to provide a composite structure which realizes a long span composite floor and a composite beam by improving structural performance due to high strength; is advantageous to control deflection because free load transfer, which is not limited to one direction, is practicable; secures high-quality construction by reducing an error in construction due to modularization of the members; reduces a construction period and costs for temporary equipment by promoting reductions in the temporary equipment and workload; and a constructing method thereof. Additionally, another purpose of the present invention is to provide a high-strength deck module for a composite structure which is suitable for realizing the composite structure. In order to achieve these purposes, the present invention provides the deck module for a composite structure, comprising: a deck plate; at least a pair of hollow type shear reinforcing bodies installed in a surface of the deck plate to face each other in an approximately orthogonal direction, and includes space member installation windows; space members assembled on the space member installation windows; and hollow type deflection reinforcing bodies laid above the space members to be supported. In addition, the present invention provides the composite concrete structure using the deck module of the structure, and the constructing method thereof.

Description

Technical Field [0001] The present invention relates to a deck module for a composite structure, a synthetic concrete structure using the deck module, and a method of constructing the deck module,

The present invention relates to a composite structure deck module having an optimal structure capable of improving structural performance and durability, improving workability and construction quality, shortening construction time and construction cost, and a composite structure using the deck module, The present invention relates to a technique for providing a construction method of a building.

Generally, a composite floor system is used to form a floor slab of a building and is applied for the purpose of shortening the construction period.

Specifically, the composite floor system is used for forming a floor slab of a general building, and supports the lower surface of the slab with a thin deck plate without installing and demounting the concrete, So that the structural performance of the member can be improved and the construction period can be shortened.

As an example of a composite structure, a conventional composite floor system in which a deck plate is provided to form a floor slab will be described with reference to FIGS. 1 and 2. FIG.

1 and 2, a conventional synthetic floor system according to the related art includes a deck plate 1 serving as a form, a lattice 2 connecting upper and lower sides 3 and 4 to each other, To form a floor slab.

The top 3 and bottom 4 attached to the lattice 2 serve as an upper reinforcing bar and a lower reinforcing bar of a general concrete structure so that the upper and lower reinforcing bars 3 and concrete are compressed, Around the underside (4) plays a role to resist the tension.

On the other hand, in general, the space between the pillars of a building is called a span, and the wider the span, the more abundant the ability to accommodate the various demands of the building.

On the other hand, the conventional synthetic floor system has been increasingly used because it has less deflection due to the construction load generated during the slab construction and can reduce the molding cost.

However, in the application of the above-described composite floor system, there is still a hypothesis such as a hanging due to a deflection problem due to a construction load, which is disadvantageous for securing a work space.

In addition, there is a disadvantage in that the construction cost and the construction period are increased due to the installation work of the reinforced concrete installation such as the bridge and the like.

As can be seen from FIG. 1, the deck plate has a narrow width (W) of 600 mm to 800 mm per piece. Three deck plates and nine wires welded to the reticle are welded together do. Therefore, there is a problem that the workability is inevitably deteriorated due to many types of constituent materials.

Therefore, it is possible to realize a long span slab by improving the structural performance, it is advantageous to control deflection, can secure high quality through reduction of the construction error, and can reduce the cost and air by reducing the installation work and workload A new technology capable of realizing floor systems and composite beams is required.

Deck plate unit for slab construction and concrete slab having the same, Deck plate connection structure, Korean Registered Patent No. 10-0703060 (Mar. 28, 2007) Deck plate having stepped stiffener, Korean Registered Patent No. 10-1083698 (2011.11.09.) Deck plates for concrete slabs, Korean Registered Patent No. 10-0996424 (Nov. 18, 2010) A truss, a deck plate structure on which the truss is installed, and a method of constructing the deck plate structure, Korean Patent Registration No. 10-1080440 (Oct. 31, 2011). Non-welded reinforced truss integral deck plate, Korean Registered Patent No. 10-1136582 (Apr. 26, 2012) Truss-monolithic deck plate, Korean Registered Patent No. 10-0963579 (Jun.

SUMMARY OF THE INVENTION The present invention has been made to solve all the problems of the prior art, and it is possible to realize the long span composite bottom and the composite beam by improving the structural performance by the high strength, , A composite structure capable of securing a high construction quality through reduction of a construction error through modularization of members, and also capable of reducing costs and air related to a temporary facility by reducing the installation facility and workload, and a construction method thereof It has its purpose.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a deck module for a composite structure which is indispensable for realizing a composite structure capable of achieving the above objects and is suitable for high strength.

In order to achieve the above object, the present invention provides a deck plate comprising: a deck plate; At least a pair of hollow-type shear reinforcement members installed at substantially right angles to face each other on the surface of the deck plate and having spacing windows; A spacing member assembled to a spacing window of the perforated shear reinforcement; And a hole-shaped flexural reinforcement member which is supported on the gap member and is supported on the spacer member.

The effect of the present invention will be described below.

First, according to the present invention, it is possible to provide a composite structure advantageous for control of deflection by enabling a long span composite bottom and a composite beam to be achieved by improving the structural performance by increasing the strength and freely transferring loads without being limited to one direction.

Secondly, according to the present invention, it is possible to assemble and arrange the gap material in the groove reminiscent of the shape of a comb formed on each column of the perforated shear reinforcement without welding, Can be minimized.

Third, according to the present invention, it is possible to reduce a construction error by modularization using a high-strength perforated plate, and it is possible to secure a high construction quality by reducing a construction error through modularization.

Fourth, according to the present invention, it is possible to minimize the deflection due to the construction load due to the improved structural performance as compared with the conventional deck plate system, Can be shortened.

Figure 1 is a cross-sectional view of a deck module of a conventional composite floor system
Figure 2 is a perspective view of the deck plate and lattice of the existing composite floor system shown in Figure 1;
3 is a perspective view of a deck module for a composite structure according to the present invention;
Fig. 4 is a perspective view of a perforated shear reinforcement applied to Fig.
Fig. 5 is a perspective view of the hole-type bending reinforcement applied to Fig.
Fig. 6 is a perspective view of the gap material applied to Fig.
Fig. 7 is a side view of the deck module for composite structure of Fig. 3 viewed from the direction "A"
Fig. 8 is a perspective view of the main part of Fig. 7 showing a state in which a spacer is installed in the perforated shear reinforcement; Fig.
Figure 9 is a perspective view of a composite floor of the present invention constructed using the composite deck module of Figure 3;

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 3 to 9.

3 to 9, a deck module D for a composite structure according to the present invention includes a deck plate 1, a deck plate 1 installed on the deck plate 1 in a direction substantially perpendicular to the deck plate 1, (3) assembled to the interval resetting window (202) of the hole type shear reinforcement (2), and at least one pair of pierced shear reinforcements (2) 3) and has a hole-shaped bending reinforcement (4) having an oil chamber (401).

Here, the deck plate 1 is formed of a zinc steel plate and has a support portion 101 for supporting the lower end portion 203 of the hole-like shear reinforcement member 2.

The support portion 101 has a support groove 102 into which the lower end portion 203 of the hole type shear reinforcement member 2 is inserted. That is, the support groove 102 is formed by a support portion 101 protruding from the surface of the deck plate 1 so as to cover the lower end portion 203 of the perforated shear reinforcement member 2 from both sides, .

At this time, the support portion 101 is formed by bending the support groove 102 so as to be elastically deformable in the width direction of the support groove 102.

The width of the intermediate portion of the support groove 102 is the smallest in the longitudinal direction of the groove, and the width of the support groove 102 becomes larger toward the upper side and the lower side. That is, the support groove 102 is formed to be in a shape to be fitted to the lower end portion 203 of the hollow type shear reinforcement member 2 having the concave intermediate portion.

On the other hand, on the front and rear surfaces of the column 201 (column) of the perforated shear reinforcement 2, the spacers 3 are fixed to the perforated shear reinforcement 2, 3) The engagement grooves 201a and 201b into which the engagement portions 301a and 301b of the front and rear ends are inserted are formed.

In other words, at both ends of the front side and the rear side of the gap material 3, the engagement portions 301a and 301b, which deviate from the left and right widths of the interval reset window 202 of the hole type shear reinforcement member 2, The latching portions 301a and 301b are engaged with the latching grooves 201a and 201b on the front and rear surfaces of the longitudinal column 201, respectively.

The latching grooves 201a and 201b are spaced apart from each other along the longitudinal direction of the longitudinal column 201.

" 모양을 띠며, 상기 간격재(3)의 유공형 휨보강체(4)를 지지하는 면은 유공부(401)를 갖는다.6 and 7, the spacers 3, when seen from the side,

Quot ;, and the surface of the spacer 3 supporting the hollow reinforcing member 4 has the oil hole 401. [

The rear side engagement portion 301b of the engagement portions 301a and 301b provided at both ends of the spacing member 3 is engaged with the engagement groove 201b formed on the rear surface of the column 201, Is fitted to the engagement groove of the rear surface located higher than the engagement groove (201a) on the front surface of the longitudinal direction column (201) in which the side engagement portion (301a) is formed.

As shown in the drawing, it is preferable that the escape grooves 303 are formed on the surfaces of the spacers 3 that are seated in the spacing windows 202 at both ends so as to avoid interference with the columns 201 when assembled. That is, it is possible to form the escape grooves 303 which are recessed inwardly at the central portions of both ends of the gap material 3 so that the interference with the column 201 in the vertical direction can be more easily eliminated.

This is for improving the assembling property of the spacing material 3. Since the entire length of the spacing material 3 is out of the width of the spacing window 202, The column member 201 is aligned with the position of the escape groove 303 formed at the central portion of both ends of the gap member 3 in a state where the spacer member 3 is inserted halfway into the spacer member 202 of the shear reinforcement member 2, So that interference between the spacers 3 and the column 201 is avoided and the spacers 3 can be more easily assembled to the perforated shear reinforcement 2. [

On the other hand, in the material, the hole-type shear reinforcement member 2 and the hole-type flexural-reinforcement member 4 are made of a metal material such as a steel plate, or made of fiber reinforced plastic (FRP; AFRP (aramid fiber reinforced plastic), CFRP Carbon fiber reinforced plastic), GFRP (glass fiber reinforced plastic), BFRP (boron fiber reinforced plastic).

The oil holes 401 formed in the hollow-type flexural reinforcement 4 are intended to firmly maintain the adhesive force between concrete, though plate-shaped reinforcements are used.

Hereinafter, the assembling process and operation of the deck module D for a composite structure according to the present invention will be described.

First, a deck plate 1, a hole-type shear reinforcement 2, a spacer 3, and a hollow-type flexural reinforcement 4 are prepared.

Next, the lower end portion 203 of the hollow type shear reinforcement member 2 is inserted into the space between the support portions 101 of the prepared deck plate 1, and the assembly of the deck plate 1 and the hollow type shear reinforcement member 2 is performed Complete.

At this time, a support groove 102 is formed between the support portions 101. The support portion 101 is elastically deformable in the width direction due to the material properties of the tech plate and the geometrical characteristics of the protruded support portion 101 itself The support portion 101 is easily inserted into the inside of the support portion 101 when the lower end portion 203 of the hole type shear reinforcement member 2 is inserted into the support portion 101. As the insertion is completed, .

The perforated shear reinforcement member 2 assembled as described above is a constituent element that is erected in the longitudinal direction, and serves as a stirrup (rein) for reinforcing the shear force in the reinforcing concrete member.

On the other hand, after the deck plate 1 and the hole type shear reinforcement member 2 are assembled, the hole type shear reinforcement member 2 and the spacer member 3 are assembled.

More specifically, the spacing member 3 is inserted into the spacing window 202 of the perforated shear reinforcement member 2, and the spacing member 3 is inserted into the recesses 301a and 301b provided at both ends of the spacing member 3 The rear side engaging portion 301b is engaged with the engaging groove 201b formed on the rear surface of the longitudinal column 201 constituting the perforated shear reinforcement member 2, The front side engaging portion 301a of the portions 301a and 301b includes the engaging groove 201a formed in the front surface of the column 201 constituting the perforated shear reinforcement 2, 301b are fitted to the front engagement grooves 201b at positions relatively lower than the rear engagement grooves 201b.

As a result, the spacing member 3 is fixed to the perforated shear reinforcement member 2 in a dynamically stable state.

Since the total length of the spacing member 3 is out of the width dimension of the spacing re-installation window 202 in the above assembling process, when the spacing member 3 is tilted at the time of assembling, And the spacer is horizontally mounted in the half-lifted state inside the re-installation window 202.

Then, a hole-type bending stiffener 4 is provided between the pair of spacing members 3, which are respectively assembled to the pair of the hole-type shear reinforcement members 2 so as to face each other.

That is, both side edges of the hole type flexural reinforcement member 4 are supported on the facing spacer member 3.

The engaging portions 301a and 301b provided at both the front and rear sides of the spacer 3 are engaged with the engaging grooves 201a and 201b formed on the front and rear surfaces of the column 201, Even if a rotational moment is applied to the spacer 3 due to its own weight and the load of the hole-shaped flexural reinforcements 4 placed thereon, it is not transmitted by the interference of the engagement grooves 201a and 201b, So that the assembled state is maintained.

Particularly, the front side and rear side engaging portions 301a and 301b formed at both ends of the gap material 3 are caught in the front engaging groove 201a and the rear engaging groove 201b of the longitudinal column 201, respectively By being fixed at different heights on the column 201 in the fixed state, the assembled state can be dynamically maintained more stably.

Therefore, the spacing member 3 can support the perforated stiffener 4 while maintaining a very stable and stable state without conduction.

After the assembling of the deck module D of the present invention is finished, the deck plate 1, the hole-type shear reinforcement 2, the spacing member 3, and the pore- The reinforcement member 4 is encapsulated with concrete (C).

At this time, it is needless to say that the bottom surface of the deck plate 1 can be exposed.

Meanwhile, in the process of manufacturing the synthetic concrete structure, when the steel plate 401 is simply inserted into the reinforcement body, the adhesion between the concrete is deteriorated, and the concrete separated by the steel plate The regions have different intensities and become rather weak.

Therefore, in the present invention, by providing the oil holes 401 in the hollow-type flexural reinforcement 4 constituting the composite structure deck module D, the adhesion force between the concrete is firmly maintained even though the plate type reinforcement is used .

In the meantime, in the present invention, the through-hole 302 provided in the interval resetting window 202 or the spacing member 3 provided in the hole-type shear reinforcement body 2 constituting the deck module for composite structure D is formed into a hole- It is a matter of course that the adhesive force between the concrete is firmly maintained when the synthetic concrete structure is manufactured like the flow-through 401 provided in the flexural reinforcement 4. [

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them.

For example, in the above-described embodiment, it is of course possible to arrange the hole type shear reinforcement member 2 and the spacing member 3 first, and then to install these assemblies on the deck plate 1. [

The number and the spacing of the engaging grooves 201a and 201b formed on the front and rear surfaces of the longitudinal column 201 of the perforated shear reinforcement 2 and the height of the perforated shear reinforcement 2 Of course, can be changed according to the design specifications for optimum design of the composite structure.

If the strength of the synthetic concrete structure is to be increased, the spacers 3 and the perforated stiffeners 4 may be installed in multiple layers along the height direction of the longitudinal columns 201 according to design specifications have.

In the above-described embodiment, the engagement grooves 201a and 201b are formed on both the front and rear sides of the longitudinal column 201 of the hole type shear reinforcement member 2, Both of the side and rear side end portions are provided with the engaging portion 301 extending outwardly, but the present invention is not limited thereto.

It is needless to say that both the front side and the rear side both ends of the spacer 3 are provided with the latching portions 301a and 301b extending outwardly and the longitudinal column 201 of the perforated shear reinforcement 2, It is most preferable that the engagement grooves 201a and 201b are formed on both the front and rear sides of the spacer 3 so that the engagement portions 301a and 301b of the spacer 3 are engaged. (3) is provided with a latching portion extending outward at one end of the longitudinal direction column (201) of the hole-like shear reinforcement (2) Even if the grooves are formed, the fixation of the spacers can be performed.

Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

The present invention can reduce the construction error and the quality of the construction quality due to the improved structural performance and excellent workability when the composite concrete structure is constructed through the modularization of the optimum type high strength member based on the mechanical principle, The construction cost can be reduced through shortening of the air.

Therefore, the present invention can be effectively applied to the construction of beams and slabs for large-scale discount stores, large-scale discount stores, and high-rise buildings, and in addition, due to the modularization of members, it can be effectively utilized for remodeling work, Invention.

D: Deck module 1: Deck plate
101: Support part 102: Support groove
2: Perforated shear reinforcement 201: Column in the vertical direction
201a: front catching groove 201b: rear catching groove
202: Interval reinstallation window 203: Lower end
3: spacer 301:
302: through hole 303: escape groove
4: Porous type flexural reinforcement 401:
C: Concrete

Claims (12)

A deck plate;
At least a pair of hollow-type shear reinforcement members installed at substantially right angles to face each other on the surface of the deck plate and having spacing windows;
A spacing member assembled to a spacing window of the perforated shear reinforcement;
And a punch-type flexural reinforcement body that is supported on the gap member. The method of claim 1, further comprising:
Wherein the deck plate is provided with a support portion for supporting a lower end portion of the hole type shear reinforcement member. 3. The method of claim 2,
The support portion
And a support groove into which the lower end of the hole type shear reinforcement is inserted. The method of claim 3,
The support groove
And a support portion protruding from the deck plate surface so as to cover the lower end portions of the perforated shear reinforcement member on both left and right sides thereof. 5. The method of claim 4,
The support portion
And wherein the deck module is formed by being bendable in a width direction of the support groove so as to be elastically deformable. 6. The method of claim 5,
The support groove
Wherein a width of the intermediate portion is the smallest in the longitudinal direction of the groove, and a width of the intermediate portion is increased toward the top and bottom of the groove. The method according to claim 1,
And a plurality of shear reinforcements,
At least one or more than one engaging groove is formed in at least one of the front surface and the rear surface of the column in the longitudinal direction of the perforated shear reinforcement body so as to receive the engaging portion extending outward from at least one of the ends of both the front and rear sides Features deck module for composite structure. 8. The method of claim 7,
The engaging groove
And a plurality of spaced apart portions are formed along the longitudinal direction of the column. 8. The method of claim 7,
Preferably,
From a side view,

&Quot;.< / RTI > 10. The method of claim 9,
And the surface for supporting the piercing-type flexural-stiffening member of the gap member has an oil hole. A deck plate;
At least a pair of hollow-type shear reinforcement members installed at substantially right angles to face each other on the surface of the deck plate and having spacing windows;
A spacing member assembled to a spacing window of the perforated shear reinforcement;
A hollow reinforcing member which is supported on the gap member;
And a concrete that encapsulates the deck plate, the hole type shear reinforcement, and the gap member and the hole type reinforcement member. Installing a pair of hole-type shear reinforcements which are erected in a direction perpendicular to the plane of the deck plate so as to face each other in a spaced-apart relationship;
Assembling the gap members into the pair of hollow-type shear reinforcements;
Providing a hollow stiffener between the spacers;
And a step of encapsulating the deck plate, the hole type shear reinforcement member, the gap member, and the hole type flexural reinforcement member with concrete, wherein the composite deck module comprises: Synthetic concrete structure construction method.

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