KR101708274B1 - Integrated hollow bodies for void slab, void slim-floor and flat slab structure using the same - Google Patents

Abstract

The present invention is characterized in that a plurality of lightweight bodies are integrally provided with an upper support member and a lower support member inside a slab, thereby facilitating the installation work and reducing the manufacturing cost, securing a space in which the concrete can be sufficiently filled, Hollow hollow member for a hollow slab and a hollow hollow floor structure using the hollow hollow member.
An integral hollow member for a hollow slab embedded in a slab for constituting a hollow slab is characterized in that the integral hollow member for hollow slab comprises a first hollow member and a second hollow member which are divided into left and right symmetrically, The hollow member and the second hollow member each have an upper support member formed to be long in the longitudinal direction of the integral hollow member, a lower support member spaced apart from the lower portion of the upper support member, and a plurality of A plurality of the hollow hollow members are vertically spaced apart in the width direction, and the hollow hollow member is formed of a hemispherical lightweight unit that is spaced apart from each other and is integrally joined to the upper and lower support members, The upper support member and the lower support member of the adjacent integral hollow member are connected to the upper And the connection member is formed with a cut-out portion on the side where the upper support member or the lower support member is coupled, so that the lower portion of the upper support member or the lower portion of the lower support member is inserted into the cutout portion.

Description

Technical Field [0001] The present invention relates to a hollow hollow member for a hollow slab, and a hollow hollow floor member using the hollow hollow member and a hollow hollow member having the void slab,

The present invention is characterized in that a plurality of lightweight bodies are integrally provided with an upper support member and a lower support member inside a slab, thereby facilitating the installation work and reducing the manufacturing cost, securing a space in which the concrete can be sufficiently filled, Hollow hollow member for a hollow slab and a hollow hollow floor structure using the hollow hollow member.

In recent years, the flat plate structure which directly transfers the slab load to the column is widely used and the demand for the long span is increasing. In this case, the thickness of the slab is thickened to secure the bending and shear resistance of the bottom plate.

However, if the thickness of the slab is increased, the weight of the slab will increase, which will cause additional load burden on the structure.

In order to reduce the weight of the concrete slab, as shown in FIG. 1, a hollow slab structure in which a lightweight body is installed in a concrete slab to remove a central concrete that does not act as a structural member is often used (Patent No. 10-0875698) .

However, since these lightweight bodies are provided separately for each lightweight body, they are cumbersome to manufacture and transport, and the time required for installation on the site becomes long.

In addition, a process of cutting, bending and fastening a reinforcing bar or the like is very troublesome in order to connect and integrate a plurality of lightweight bodies with reinforcing bars or wires.

In addition, since it is necessary to manufacture a lightweight body with a groove for fixing a reinforcing bar or the like, it is costly.

In addition, since the slab reinforcement is disposed immediately on the upper and lower portions of the lightweight body, the space between the lightweight body and the reinforcing bar is narrow and the concrete is not filled tightly, and the reinforcing bars can not be properly fixed because the concrete can not sufficiently cover the reinforcing bars.

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention is to provide an integral hollow body for a hollow slab in which a plurality of lightweight body units are integrally assembled with upper and lower support members to simplify manufacture and installation and shorten the working time.

In addition, a space is provided between the lightweight unit and the reinforcing bar to provide a sufficient space for the concrete to be filled, and an integral hollow body for a hollow slab in which a sufficient amount of concrete can cover the reinforcing bars and the reinforcing bars can be fixed properly, Slim floor and hollow flat plate structure.

Also, it is intended to provide a single-piece hollow body for a hollow slab capable of continuing the slab end while reducing the height of the slab, and a hollow slab floor and a hollow flat plate structure using the same.

According to another aspect of the present invention, there is provided an integral hollow member for a hollow slab to be embedded in a slab for constituting a hollow slab, wherein the integral hollow member for the hollow slab is divided into left and right Wherein the first hollow member and the second hollow member are respectively composed of a first hollow member and a second hollow member, each of the first hollow member and the second hollow member includes an upper support member formed to be long in the longitudinal direction of the integral hollow member, And a hemispherical lightweight unit having a plurality of spaced apart portions between the upper and lower support members, the hemispherical unit being integrally coupled to the upper and lower support members, Wherein the integral hollow member is provided so that a plurality of the hollow hollow members are vertically spaced apart in the width direction, The upper support member and the lower support member of the integral hollow member are interconnected to each other by a connecting member, and the connecting member is formed with a cut-out portion on the side where the upper support member or the lower support member is engaged, And the lower portion of the hollow member is inserted into the cut-out portion.

According to another preferred embodiment of the present invention, the upper support member and the lower support member of the first hollow member are provided with a plurality of coupling protrusions formed with an enlarged portion at an end thereof, and the upper and lower support members of the second hollow member And an engaging hole is formed at a position corresponding to the engaging projection so that the engaging projection is engaged with the engaging projection.

According to another preferred embodiment of the present invention, the first hollow member lightweight unit is provided with an engagement groove formed on the inner side of the open end of the first hollow member lightweight unit and an engagement protrusion engaging with the engagement recess is formed outside the end of the second hollow member lightweight unit The hollow hollow member for a hollow slab according to claim 1,

According to another preferred embodiment of the present invention, the distance between the upper end of the lightweight unit and the upper end of the upper support member and the distance between the lower end of the lightweight unit and the lower end of the lower support member are not less than the maximum size of the coarse aggregate. .

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According to another preferred embodiment of the present invention, the bottom surface of the concrete slab is fixed to the upper surface of the bracket, which is respectively coupled to both side surfaces of the web of the H-shaped steel beam, so that the integral hollow member for the hollow slab is embedded in the concrete slab, And an upper reinforcing bar and a lower reinforcing bar are disposed on upper and lower sides of the hollow member, respectively.

According to another preferred embodiment of the present invention, in the present invention, the upper end of the H-shaped beam is provided with a fixing reinforcing bar which is bent at both ends downwardly inclined and then horizontally bent to be fixed to the lower portion of the H- Floor.

According to another preferred embodiment of the present invention, there is provided a truss deck in which a plurality of truss girders are disposed on an upper portion of a plate; An integral hollow member for the hollow slab disposed between the truss girders of the truss deck; And a concrete slab placed on the truss deck; And a hollow hollow plate structure.

According to the present invention, the integral hollow member for a hollow slab is configured such that a plurality of lightweight body units are integrated with the upper support member and the lower support member, thereby reducing manufacturing cost and facilitating installation.

In addition, the integral hollow member for a hollow slab is constructed such that the reinforcing bars are spaced up and down from the lightweight member so that sufficient concrete can be secured around the reinforcing bars, so that the reinforcing bars can be securely fixed.

1 shows a conventional hollow slab;
2 is a perspective view showing an integral hollow member for a hollow slab of the present invention.
3 is a plan view showing a coupling relationship between the first hollow member and the second hollow member;
4 is a partial cross-sectional perspective view showing a coupling relationship of the lightweight unit;
5 is a side view showing a coupling relationship between the connecting member and the integral hollow member for the hollow slab.
6 is a sectional view showing a hollow slim floor in which an integral hollow member for a hollow slab is embedded.
7 is a sectional view showing a hollow flat plate structure in which an integral hollow member for a hollow slab is embedded.

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

FIG. 2 is a perspective view showing an integral hollow member for a hollow slab of the present invention. FIG. 2 (a) is a perspective view showing a state where the first hollow member and the second hollow member are provided symmetrically, Is a perspective view showing a state in which the first hollow member and the second hollow member are coupled.

As shown in FIG. 2, the present invention relates to an integral hollow member 3 for a hollow slab to be embedded in a slab for constituting a hollow slab, wherein the integral hollow member 3 for hollow slab is divided And the first hollow member 3a and the second hollow member 3b are formed of a first hollow member 3a and a second hollow member 3b which are formed in the longitudinal direction of the integral hollow member 3, A lower support member 32 provided to be spaced apart from the lower portion of the upper support member 31 and a lower support member 32 provided between the upper support member 31 and the lower support member 32 such that a plurality of the support members 31 are spaced apart from each other in the longitudinal direction And a semi-spherical light unit 33 having an inner side opened.

The lightweight unit 33 is hollow and has a hemispherical shape and is open at its side so as to abut against the lightweight unit 33 of another hollow member 3 provided symmetrically to form a closed type Dimensional shape. The closed stereoscopic body can be various stereoscopic bodies such as a sphere, an ellipse, and a rectangular parallelepiped.

The upper support member 31 is integrally coupled to a lower portion of the lightweight unit 33 by a plate formed in a longitudinal direction of the integral hollow member 3 for a hollow slab.

The light unit units 33 are spaced apart from each other by a predetermined distance and a space for concrete flow is formed between them.

The lower support member 32 is integrally coupled to the lower portion of the light unit 33 and is formed to be vertically symmetrical with the upper support member 31.

The upper and lower support members 31 and 32 are integrally coupled to each other so that the first hollow member 3a and the second hollow member 3b ).

Since the first hollow member 3a and the second hollow member 3b are symmetrically formed on the left and right sides of the first hollow member 3a and the second hollow member 3b, the respective lightweight unit 33 abuts against each other to form one sealed lightweight member.

At this time, the first hollow member 3a and the second hollow member 3b may be coupled to each other by various means such as bolts, adhesives or thermocompression bonding.

The upper reinforcing bars 21 and the lower reinforcing bars 22 are disposed at the upper portion of the upper support member 31 and the lower portion of the lower support member 32 so that the integral hollow member 3 is supported by the upper and lower reinforcing bars 21, So that the light unit unit 33 can be fixed in place without flotation when the concrete is poured.

In addition, since the plurality of lightweight body units 33 are carried and installed on the floor by the upper support member 31 and the lower support member 32, the operation is very easy and the air can be shortened.

Since the first hollow member 3a and the second hollow member 3b can be integrally formed of plastic such as PP or PE by using a metal mold, the manufacturing process is simple and the cost can be reduced.

In addition, it can be made of various materials such as metal and styrofoam.

Although not shown in the drawing, a plurality of ribs may be provided outside the light unit 33.

Since the ribs reinforce the rigidity of the lightweight unit 33, the thickness of the lightweight unit 33 can be minimized and the integrity with the concrete can be ensured.

3 is a plan view showing a coupling relationship between the first hollow member and the second hollow member.

3, the upper support member 31 and the lower support member 32 of the first hollow member 3a are provided with a plurality of coupling projections 34 each having an enlarged portion 341 formed at an end thereof And the coupling protrusions 34 are engaged with the coupling protrusions 34 at the upper and lower support members 31 and 32 of the second hollow member 3b, (35) may be formed.

The coupling protrusions 34 protrude from the upper support member 31 and the lower support member 32 of the first hollow member 3a and are formed on a surface abutting the second hollow member 3b when engaged with the second hollow member 3b.

The coupling hole 35 is formed in the upper hollow portion of the second hollow member 3a so that the protruding coupling protrusion 34 is inserted to allow the first hollow member 3a and the second hollow member 3b to be separated from each other, (31) and the lower support member (32).

At this time, an enlarged portion 341 is formed by enlarging the projected end of the engaging projection 34 to a certain size so that the engaging projection 34 does not easily separate from the engaging hole 35, Can be fixed.

Accordingly, the coupling protrusion 34 and the coupling hole 35 can be easily combined with the integral hollow member 3 for a hollow slab without any additional connecting means, thereby reducing the material cost and shortening the working time .

The engaging projections 34 and the engaging holes 35 can be integrally formed when the integral hollow member 3 is formed.

3, the coupling protrusion 34 is shown in the first hollow member 3a and the coupling hole 35 is formed in the second hollow member 3b. However, the first hollow member 3a and the second hollow member The engaging projections 34 and the engaging holes 35 may be repeatedly alternately arranged alternately to each other.

In this case, it is possible to process the first hollow member 3a and the second hollow member 3b into the same mold.

4 is a partial cross-sectional perspective view showing the coupling relationship of the lightweight unit.

4, an engagement groove 331 is formed inside the open end of the first hollow member 3a, and the second hollow member 3b and the lightweight unit 33 A locking protrusion 332 may be formed on the outer side of the end of the locking protrusion 331 to be engaged with the locking protrusion 331.

The lightweight units 33 of the first hollow member 3a and the second hollow member 3b are in contact with each other to pour concrete in a sphere shape.

At this time, the concrete paste may flow into the gap between the bonding portions of the plurality of lightweight body units 33 that are in contact with each other.

Therefore, the plurality of lightweight body units 33 are retained in a single sphere shape, and the inner space is maintained in an empty state by forming the engagement grooves 331 and the engagement protrusions 332 in the end faces of the joints, Can be combined.

The distance between the upper end of the lightweight unit 33 and the upper end of the upper support member 31 and the distance between the lower end of the lightweight unit 33 and the lower end of the lower support member 32 are larger than the largest coarse aggregate dimension.

The concrete may not be filled tightly between the lightweight unit 33 and the reinforcing bars when the distance between the reinforcing bars and the light weight unit 33 is smaller than the maximum size of the coarse aggregate. Therefore, it is preferable that the reinforcing bars are spaced apart from the lightweight unit 33 by a maximum dimension of the coarse aggregate.

Accordingly, since the concrete can be sufficiently filled in the space between the upper reinforcing bars 21 or the lower reinforcing bars 22 and the lightweight unit 33, the adhesion force of the reinforcing bars to be laid can be sufficiently secured.

Since the maximum size of the coarse aggregate is usually about 25 mm, the distance between the light weight unit 33 and the upper support member 31 and the lower support member 32 is preferably 25 mm or more.

5 is a side view showing a coupling relationship between the connecting member and the integral hollow member for hollow slab.

5, a plurality of the integral hollow members 3 are vertically spaced apart in the width direction, and the upper support member 31 and the lower support member 32 of the adjacent integral hollow member 3 May be interconnected by a connecting member (36).

When the lightweight unit 33 is arranged in two directions, the integral hollow member 3 is arranged in a plurality of rows and then the connecting member 36 ) Can be used to fix each other.

The connecting member 36 is a member such as a plate for fixing a plurality of integral hollow members 3 so as to be connected to each other, and can be used for various materials such as plastic, reinforcing bar, and wire.

The connecting member 36 is formed on the upper supporting member 31 or the lower supporting member 32 of the integral hollow member 3 so as to form an incision 361, Or the lower portion of the lower support member 32 may be inserted to be inserted into the cutout 361. [

The cut portion 361 can be easily coupled by fitting the upper and lower support members 31 and 32 of the first hollow member 3a and the second hollow member 3b to each other . In this case, the integral hollow member 3 is preferably made of plastic for inter-member fitting.

6 is a cross-sectional view showing a hollow slim floor in which an integral hollow member for a hollow slab is embedded.

6, the hollow slip floor is formed by placing the bottom surface of the concrete slab 2 on the upper surface of the bracket 12, which is respectively coupled to both side surfaces of the web 11 of the H- And the upper reinforcing bar 21 and the lower reinforcing bar 22 are disposed on the upper and lower portions of the integral hollow member 3 for hollow slabs.

When the slab 2 is installed on the upper portion of the H-shaped beam 1 in the case where the vertical load acting on the slab is large and the dancing of the H-shaped beam 1 is large, the protruding length of the lower H- Lt; / RTI >

The brackets 12 may be provided on both sides of the web 11 of the H-shaped beam 1 so that the slab 2 is installed on the lower side of the upper side of the H-shaped beam 1. [

As a result, the number of floors can be increased during the construction of high-rise buildings, which can increase the economic efficiency.

The hollow slip floor has a fixing reinforcement bar 4 which is bent at both ends of the upper portion of the H-shaped beam 1 to be bent downward and then horizontally bent to be fixed to the lower portions of both side slabs 2 of the H- .

Generally, a compressive force is generated in the lower reinforcing bar 22 when a moment is generated at the end of the slab 2 in the both-end continuous slab 2. [

However, in the case of considering the occurrence of end portions due to an earthquake load or a wind load, it is necessary to fix the lower reinforcing bar 22 for the continuous end, but the slim floor as described above is formed by the web 11 of the H- (22) is installed so as to be disconnected, and additional reinforcement is required.

The fixing reinforcement rods 4 are moved along the outer surface of the upper portion of the H-shaped steel 1 in order to continuously continuous the lower reinforcing bars 22 disposed inside the slabs 2 installed on both sides of the H- You can deploy.

7 is a cross-sectional view showing a hollow flat plate structure in which an integral hollow member for a hollow slab is embedded.

As shown in FIG. 7, the hollow flat plate structure includes a truss deck 5 on which a plurality of truss girders 52 are disposed on a plate 51; An integral hollow member (3) for the hollow slab disposed between the truss girders (52) of the truss deck (5); And a concrete slab (2) laid on the truss deck (5); .

When the trust deck 5 is installed on the slab 2, it is possible to install the concrete after installing the integral hollow member 3 for the hollow slab in the space between the truss girders 52.

The use of the trust deck 5 makes it possible to construct a lightweight, flat plate hollow structure without a horizontal member without the use of a separate formwork.

1: H-shaped steel beam 11: Web
12: Bracket 2: Concrete slab
21: upper reinforcing bar 22: lower reinforcing bar
3: integral hollow member for hollow slab 3a: first hollow member
3b: second hollow member 31: upper support member
32: lower support member 33: light weight unit
331: Retaining groove 332:
34: engaging projection 341:
35: engaging hole 36: connecting member
361: Cutting section 4: Fixing bar
5: Truss deck 51: Plate
52: Truss girder

Claims (9)

An integral hollow member (3) for a hollow slab embedded in a slab for constituting a hollow slab,
The integral hollow member (3) for hollow slab is constituted by a first hollow member (3a) and a second hollow member (3b) divided into left and right symmetrically,
The first hollow member 3a and the second hollow member 3b each have an upper support member 31 formed to be long in the longitudinal direction of the integral hollow member 3 and a lower support member 31 spaced apart from the lower portion of the upper support member 31, The upper support member 31 and the lower support member 32 are integrally formed with the upper support member 31 and the lower support member 32 so as to be spaced apart from each other in the longitudinal direction, And a hemispherical lightweight unit (33) whose inner side is open,
The upper and lower support members 31 and 32 of the integral hollow member 3 adjacent to each other are connected to each other by a connecting member 36 The connection member 36 is formed with a cutout 361 on the side where the upper support member 31 or the lower support member 32 is coupled to the upper or lower support member 31 32) is inserted into the cut-out portion (361).
The method of claim 1,
The upper support member 31 and the lower support member 32 of the first hollow member 3a are provided with a plurality of coupling protrusions 34 each having an enlarged portion 341 formed at an end thereof and the second hollow member 3b (35) is formed in the upper support member (31) and the lower support member (32) of the main body (30) at a position corresponding to the engagement projection (34) The hollow member having a hollow body for a hollow slab.
The method of claim 1,
An engagement groove 331 is formed inside the open end of the first hollow member 3a of the lightweight unit 33 and an engagement groove 331 is formed on the outer side of the end of the second hollow member 3b, (332) is formed to be engaged with the hollow portion (331) of the hollow member (331).
The method of claim 1,
The distance between the upper end of the lightweight unit 33 and the upper end of the upper support member 31 and the distance between the lower end of the lightweight unit 33 and the lower end of the lower support member 32 are not less than the maximum size of the coarse aggregate. .
delete delete The bottom of the concrete slab 2 is mounted on the upper surface of the bracket 12 which is respectively engaged with the both side surfaces of the web 11 of the H-shaped beam 1 and the inside of the concrete slab 2, Characterized in that an integral hollow member (3) for a hollow slab according to the above one aspect is embedded and an upper reinforcing bar (21) and a lower reinforcing bar (22) are arranged on upper and lower portions of the integral hollow member (3) Hollow slim floor.
8. The method of claim 7,
And a fixing reinforcement bar 4 is provided at the upper part of the H-shaped beam 1 so that both ends are bent downwardly and then horizontally bent to be fixed to the lower parts of the both side concrete slabs 2 of the H- A hollow slim floor.
A truss deck 5 in which a plurality of truss girders 52 are disposed on the plate 51;
An integral hollow member (3) for a hollow slab according to any one of claims 1 to 4, which is disposed between truss girders (52) of the truss deck (5). And
A concrete slab 2 placed on the truss deck 5; And a hollow hollow plate structure.

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