KR101865812B1 - Wide girder for precast concrete building structures - Google Patents

Abstract

According to the double girder for PC structure according to the present invention, recesses 22 are formed on both upper sides of the girder B and open to both ends of the girder B, An extension portion 23 spaced apart from each other in the mutually front and rear direction is formed to extend laterally so that the girder B is in contact with the extension portion 23 of the other girder B in the lateral direction The upper and lower sides are opened between the girder B by the concave portion 22 and the extending portion 23 so that the upper end of the lower column A A space portion 24 surrounding the periphery of the reinforcing bar 11 extending upward is formed.
The upper column D and the lower column A and the girder B are disposed in the space 24 so as to prevent the lower column A and the girder B from being inserted into the space 24 when the finishing layer E is formed. The cracks are generated in the joining portions of the upper column D and the lower column A and the girder B or corrosion occurs due to the inflow of rainwater or other foreign matter, There is an advantage that the durability can be prevented from deteriorating.

Description

{WIDE GIRDER FOR PRECAST CONCRETE BUILDING STRUCTURES FOR PC CONSTRUCTION}

More particularly, the present invention relates to a double girder for a PC structure, and more particularly, to a double girder for a PC structure, in which a plurality of girders are integrally combined with a column to increase a strength of a competition, thereby reducing the burden of an upper load, And to a double girder for a PC structure of a new structure which can be formed into an underground structure and a warehouse for storing goods.

Generally, in a multi-story building, a plurality of slabs are vertically spaced apart.

FIGS. 1 and 2 show a general example of a slab construction structure for constructing a slab in this manner. FIG. 1 and FIG. 2 show a plurality of lower pillars A arranged to extend in the vertical direction and spaced apart from each other in the lateral direction, A plurality of girders B each having a bar shape extending in the longitudinal direction of the girder B and having both ends mounted on the upper surface of the lower column A, An upper column D extending upward and downward and connected to the upper side of the lower column A and an upper column D disposed above the lower side of the slab panel C to pour concrete on the upper surface of the slab panel C, (E).

At this time, the lower column A and the upper column D, the girder B, and the slab panel C are manufactured by a PC method that is manufactured in a predetermined size at a factory, and then transferred to the site and assembled.

A plurality of reinforcing bars 11 extend downward from the upper end of the lower column A and a reinforcing bar 11 connected to the reinforcing bars 11 of the lower column A 41 extend downward.

A method of constructing the slab thus constructed will be described below.

First, the lower column A is installed at a predetermined position, and both ends of the girder B are mounted on the upper end of the lower column A.

At this time, the girder B is placed on the upper end of the lower column A so that both ends thereof are spaced apart from each other by a predetermined distance, so that a space 21 for placing concrete between the girders B is formed.

The upper column D is connected to the upper side of the lower column A after the both ends of the slab panel C are mounted on the girder B, The slab can be constructed by placing the concrete in the space 21 to form the finish layer E.

A girder B and a slab panel C are installed on the upper column D and another upper column D is connected to an upper side of the upper column D. Then the finish layer E is formed By repeating the process, it is possible to construct slabs of several layers.

In this method, the lower column A, the upper column D and the girder B are not effectively coupled, and after a lapse of time, the lower column A, the upper column D and the girder B, Cracks are generated in the joint portion of the building, and rainwater or other foreign matter flows into the building, causing corrosion, resulting in deterioration of the durability of the building.

Therefore, there is a need for a new method to solve such a problem.

Korean Registered Patent No. 10-0908920 (Registered on July 15, 2009)

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SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a double girder having a predetermined space formed at both ends of a double girder and having a vertical reinforcing bar extending from a pillar and a horizontal reinforcing bar extending from a double girder The concrete structure is installed in the lattice space, and the structural stability is improved due to the continuity in the vicinity of the bottom, thereby securing the retention performance, thereby preventing long-term stiffening and cracking of the structure through integration between the column and the girder Quot; double girder ".

According to an aspect of the present invention, there is provided a floor structure including a plurality of lower pillars (A) extending in the vertical direction and spaced apart from each other in the lateral direction, and bars extending in the lateral direction, A plurality of slab panels C each of which is formed in a panel shape extending forward and backward and whose both ends are placed on the upper surface of the girder B; And a finish layer (E) formed by placing concrete on the upper surface of the slab panel (C), wherein the upper column (D) is formed to extend in the direction of the lower column The upper end of the column A is provided with a reinforcing bar 11 extending upward and a reinforcing bar 41 or a coupler connected to the reinforcing bar 11 of the lower column A is provided at the lower end of the upper column D. In the slab installation structure, A pair of extending portions 23 spaced apart from each other in the forward and backward directions are formed on both sides of the girder B so as to form a concave portion 22 which is concave downward and open to both ends of the girder B, And the girder B is disposed at the upper end of the lower column A so that the extension portion 23 is in close contact with the extended portion 23 of the other girder B in the lateral direction The peripheral portion of the reinforcing bar 11 extending upward from the upper end of the lower column A is provided between the girder B by the concave portion 22 and the extending portion 23 And a space 24 for enclosing the slab is formed.

According to another aspect of the present invention, the lateral length L1 of the extension portion 23 is shorter than half of the lateral width L2 of the upper surface of the lower column A. Structure is provided.

According to still another aspect of the present invention, there is provided a floor structure for a building, the floor structure comprising a lower portion (27) extending laterally inside the space portion (24) and coupled to a reinforcing bar (11) A slab construction structure is provided.

According to another aspect of the present invention, there is provided a slab construction structure characterized in that a concave groove (25) concaved upward is formed on a lower side surface of the girder (B).

According to another aspect of the present invention, a plurality of fixing members 26 are provided on the upper surface of the girder B so as to protrude upward.

According to another aspect of the present invention, there is provided a slab construction structure, wherein a concave groove 31 is formed on an upper surface of the slab panel C, and a heat insulating material 32 is filled in the concave groove 31 do.

According to another aspect of the present invention, an engaging groove 28 is formed on the bottom surface of the concave portion 22 so as to extend laterally, and is coupled to the engaging groove 28, The support panel 29 includes a plurality of support panels 29 for supporting the side surfaces thereof. A fixing groove 29a into which the lower surface of the upper column D is inserted is recessed downward in the middle of the upper surface of the support panel 29 A slab construction structure is provided.

On the other hand, the description of the technology disclosed herein is merely an example for structural or functional explanation, and the scope of the right of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the disclosed technology should be understood to include equivalents capable of realizing technical ideas. Also, the purpose or effect of the disclosed technology should not be construed as being limited thereby, as it does not mean that a particular embodiment must include all such effects or merely include such effects.

Also, the meaning of the terms described in the present invention should be understood as follows. The terms " first ", " second ", and the like are intended to distinguish one element from another, and the scope of the right should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may be referred to as a first component.

Further, when an element is referred to as being "connected" to another element, it should be understood that other elements may also be present in the middle, although it may be directly connected to the other element. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions describing the relationship between components, such as "between", "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

It should be understood that the singular " include " or " have " are to be construed as including a stated feature, number, step, operation, component, It is to be understood that the combination is intended to specify that it does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

According to the slab construction structure of the present invention, recesses 22 are formed on both upper sides of the girder B and open to both ends of the girder B, The girder B is formed so as to extend in the lateral direction so that the girder B can be brought into close contact with the extended portion 23 of the other girder B in the lateral direction, The upper and lower sides are opened between the girder B by the concave portion 22 and the extending portion 23 so that the upper end of the lower column A is moved upward from the upper end of the lower column A. A space portion 24 surrounding the periphery of the elongated reinforcing bars 11 and 41 is formed.

The upper column D and the lower column A and the girder B are disposed in the space 24 so as to prevent the lower column A and the girder B from being inserted into the space 24 when the finishing layer E is formed. The cracks are generated in the joining portions of the upper column D and the lower column A and the girder B or corrosion occurs due to the inflow of rainwater or other foreign matter, There is an advantage that the durability can be prevented from deteriorating.

1 and 2 are a front view showing a conventional slice construction structure,
3 is a front view showing a slab construction structure according to the present invention,
4 is a front sectional view showing a slab construction structure according to the present invention,
Fig. 5 is a side cross-sectional view showing the FF line section of Fig. 4,
6 is a perspective view showing a girder of a slab construction structure according to the present invention,
7 is a front sectional view showing a girder of a slab construction structure according to the present invention,
8 and 9 are perspective views showing a lower column and a girder of the slab construction structure according to the present invention,
10 is a perspective view showing a slab panel of a slab construction structure according to the present invention,
11 to 15 are reference views showing a construction method of a slab construction structure according to the present invention,
16 is a front sectional view showing a second embodiment of a slab construction structure according to the present invention,
17 is a side cross-sectional view showing a second embodiment of a slab construction structure according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the preferred embodiments to which the present invention belongs.

FIGS. 3 to 15 illustrate a slab construction according to the present invention. The slab construction includes a plurality of lower pillars A configured to extend in the vertical direction and spaced apart from each other in the lateral direction, And a plurality of slabs (B) formed in a panel shape extending in the longitudinal direction and having both ends thereof mounted on the upper surface of the girder (B) A panel C and an upper column D extending vertically and connected to the upper side of the lower column A and a finish layer E formed by placing concrete on the upper surface of the slab panel C ) Is the same as the conventional one.

At this time, a reinforcing bar 11 extending upward is provided at the upper end of the lower column A, and a plurality of sleeves 12 recessed inward are formed at a lower end of the upper column D. The sleeve 12, The reinforcing bar 41 of the upper pillar D is protruded by a predetermined length and the reinforcing bars 11 of the lower pillar A are inserted into the sleeve 12 at the upper end of the lower pillar A.

The lower column A, the upper column D, the girder B and the slab panel C are manufactured by the PC method.

6 to 9, the girder B is formed in the shape of a square bar extending in the lateral direction. The girder B is recessed downward on both upper surfaces thereof, And a pair of extending portions 23 spaced apart from each other in the forward and backward directions are formed on both sides of the concave portion 22 so as to extend in the lateral direction.

Therefore, when the girder B is disposed on the upper end of the lower column A so that the extension portion 23 is in close contact with the extension portion 23 of the other girder B in the lateral direction , The upper and lower sides are opened between the girder (B) by the recess (22) and the extending portion (23) as shown in Fig. 4 and Fig. 9, A space portion 24 that surrounds the periphery of the reinforcing bar 11 extending from the reinforcing bar 11 is formed.

8, the lateral length L1 of the extension portion 23 is shorter than half the lateral width L2 of the upper surface of the lower column A, , When the girder B is placed on the upper end of the lower column A, the lower side of the space 24 is blocked by the upper surface of the lower column A, When the concrete is poured into the space portion 24, the concrete supplied to the space portion 24 is not discharged to the lower side of the space portion 24.

A pair of concave grooves 25 concaved upward is formed on the lower side of the central portion of the girder B. As shown in Fig.

A plurality of fixing members 26 are provided on the upper and lower sides of the girder B so as to be laterally heated.

The fixing member 26 is formed by burying a plurality of reinforcing bars whose lower ends are bent downward at the upper end on the upper surface of the girder B.

A plurality of undersides (27) are arranged to extend laterally in the recess (22).

The lower portion 27 is connected to the reinforcing bar 11 extending upward from the upper end of the lower column A and is buried in the concrete placed in the space 24 as described later, Thereby improving the internal strength and improving the bonding strength between the concrete poured into the space portion 24 and the lower column A. [

The slab panel C has a concave groove 31 extending in the longitudinal direction on the upper surface thereof and a heat insulating material 32 filled in the concave groove 31.

A method of constructing the slab using the slab construction structure thus constructed will be described below.

11, the lower column A is provided at a predetermined position, and the both ends of the girder B are connected to each other such that the extending portions 23 are in close contact with each other, as shown in Fig. 12 And is mounted on the upper end of the lower column (A).

When the girder B is mounted on the upper end of the lower column A, the extending portion 23 is spaced apart from the upper end of the lower column A, (24) are formed.

13, after the slab panel C is installed on the girder B, the slab panel C is placed in the space 24 as shown in Fig. 14, The lower portion 27 is disposed and the lower portion 27 is fixed to the reinforcing bar 11 extending upward from the lower column A.

15, an upper column D is disposed on the upper side of the lower column A, and a reinforcing bar 11 extending upward from the lower column A is disposed on the lower side of the upper column D, Is inserted into the sleeve (12), and then joined to the reinforcing bars (41) formed in the sleeve (12) of the upper column (D) and extending downward.

As a method of joining the reinforcing bars 11 extended to the upper side of the lower pillar A and the reinforcing bars 41 extended to the lower side of the upper pillar D using a separate coupler in addition to the sleeve 12, A method of welding the reinforcing bars 11 and 41 to each other is used.

Concrete may be laid on the upper surface of the slab panel C, the upper surface of the girder B and the space 24 in a predetermined thickness to form the finish layer E as shown in FIG. can do.

According to the slab construction constructed as described above, recesses 22 are formed on both upper sides of the girder B and open to both ends of the girder B, The girder B is formed so that the extension portion 23 is in contact with the extension portion 23 of the other girder B in the lateral direction, The upper and lower sides are opened between the girder B by the concave portion 22 and the extending portion 23 to extend upward from the upper end of the lower column A A space portion 24 surrounding the periphery of the reinforced bar 11 is formed.

The upper column D and the lower column A and the girder B are disposed in the space 24 so as to prevent the lower column A and the girder B from being inserted into the space 24 when the finishing layer E is formed. The cracks are generated in the joining portions of the upper column D and the lower column A and the girder B or corrosion occurs due to the inflow of rainwater or other foreign matter, There is an advantage that the durability can be prevented from deteriorating.

Since the lateral length L1 of the extended portion 23 is shorter than half the lateral width L2 of the upper surface of the lower column A, The lower side of the space portion 24 formed between the opposite ends of the girder B is connected to the upper end of the lower column A so that both ends of the lower portion A). ≪ / RTI >

Therefore, there is an advantage that when the concrete is laid in the space 24, the concrete can be prevented from flowing out to the lower side.

The lower portion 27 is connected to the reinforcing bars 11 and 41 extending to the upper end of the lower column A so as to extend laterally in the space 24, The reinforcing structure is secured and the structural stability is improved and the retreating performance is ensured. When the concrete is placed in the space portion 24, the lower portion 27 is buried in the concrete, The strength of the joint between the concrete and the lower column (A) is further improved.

Since the bottom of the girder B is formed with the concave groove 25 recessed upwardly, the weight of the girder B can be reduced, so that the load of the building is increased by the weight of the girder B itself And it is possible to prevent the strength from being lowered.

A plurality of fixing members 26 protrude upward from the upper surface of the girder B so that concrete is placed on the upper surfaces of the slab panel C and the girder B to form a finish layer E. The fixing member 26 is embedded in the finish layer E so that the bonding strength between the finish layer E and the girder B is further improved.

The concave grooves 31 are formed on the upper surface of the slab panel C and the heat insulating material 32 is filled in the concave grooves 31 to impart heat insulation to the slab panel C. Accordingly, There is an advantage that the slab panel C can be prevented from being thickened by laminating a separate heat insulating member on the slab panel C.

In the present embodiment, it is illustrated that the sleeve 12 is formed below the upper column D so that the reinforcing bar 11 of the lower column A is inserted into the sleeve 12 to be coupled therewith. However, D may be provided with a coupler connected to the reinforcing bars 11 and 41 provided on the upper side of the lower column A. [

16 and 17 illustrate another embodiment according to the present invention. In addition, an engaging groove 28 is formed on the bottom surface of the concave portion 22 so as to extend laterally.

Both ends of the lower side are coupled to the engaging groove 28 in the interior of the space 24 formed when the girder B is mounted on the upper end of the lower column A, A plurality of support panels 29 for supporting the side surfaces are provided.

The support panel 29 is formed in a laterally extending panel shape, and a fixing groove 29a into which the lower side of the upper column D is inserted is recessed downward at the center of the upper surface. .

The support panel 29 is inserted into the engaging grooves 24 in the state that both ends of the girder B are mounted on the upper surface of the lower column A and the scraping space portion 24 is formed between the girders B And a lower end of the upper column D is disposed to be engaged with and fixed to the fixing groove 29a and then the reinforcing bars 11 and 41 extending to the lower side of the upper column D, The reinforcing bars 11 and 41 extending to the upper side of the lower column A can be coupled to each other.

According to the slab construction constructed as described above, a coupling groove 28 is formed on the bottom surface of the concave portion 22 so as to extend laterally, and a lower surface of the upper column D is formed in the coupling groove 28 And a fixing groove 29a into which the lower surface of the upper column D is inserted is formed in the lower part of the upper surface of the supporting panel 29 so as to be concave downward.

Therefore, when the reinforcing bars 11 and 41 of the upper column D and the lower column A are coupled to each other, the upper column D is fixed to the fixing groove 29a of the support panel 29 Since it is possible to connect the reinforcing bars 11 and 41 to each other, it is easier to fix the reinforcing bars 11 and 41.

That is, in the case of the above-described first embodiment, in order to connect the reinforcing bars 11 and 41 of the upper column D and the lower column A with each other, the upper column D is lifted to a proper height by using a crane or the like The upper column D may be continuously moved due to the continuous operation of the upper column D. In this embodiment, the upper column D is stably fixed on the upper surface of the support panel 29 , It becomes easier to fix the reinforcing bars 11 and 41.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It will be possible to do so.

A. Lower column B. Girders
C. Slab Panel D. Top Column
E. Finishing Layer

Claims (7)

A plurality of lower pillars (A) extending in the vertical direction and spaced from each other in the lateral direction,
A plurality of girders B configured in a bar shape extending in the lateral direction and having both ends mounted on the upper surface of the lower column A,
A plurality of slab panels (C) formed in a panel shape extending in the forward and backward directions and having both ends thereof mounted on the upper surface of the girder (B)
An upper column D extending vertically and connected to the upper side of the lower column A,
And a finish layer (E) formed by placing concrete on the upper surface of the slab panel (C)
A reinforcing bar (11) extending upward is provided at an upper end of the lower column (A)
And a reinforcing bar 41 or a coupler connected to the reinforcing bars 11 of the lower pillar A is provided at the lower end of the upper pillar D,
On both upper surfaces of the girder (B), recesses (22) recessed downward and open to both ends of the girder (B) are formed,
On both sides of the girder (B), a pair of extending portions (23) spaced from each other in the forward and backward directions are formed so as to extend in the lateral direction,
When the girder B is disposed at the upper end of the lower column A so as to be in close contact with the extended portion 23 of the other girder B in the lateral direction, A space portion 24 is formed between the girders B by means of the upper and lower portions 23 to surround the periphery of the reinforcing bar 11 extending upward from the upper end of the lower column A,
A coupling groove 28 is formed on the bottom surface of the concave portion 22 so as to extend in the lateral direction,
Further comprising a plurality of support panels (29) coupled to the coupling grooves (28) to support the lower side of the upper column (D)
Wherein a fixing groove (29a) into which the lower side of the upper column (D) is inserted is concaved downward in the middle portion of the upper surface of the support panel (29).
The method according to claim 1,
Wherein a lateral length L1 of the extending portion 23 is shorter than a half of a lateral width L2 of an upper surface of the lower column A. The double girder for a PC structure according to claim 1,
The method according to claim 1,
Further comprising a lower portion (27) extending laterally in the space portion (24) and coupled to a reinforcing bar (11) extending to an upper end of the lower column (A) Double girder.
The method according to claim 1,
And a concave groove (25) concave upward is formed on a lower side surface of the girder (B).
The method according to claim 1,
And a plurality of fixing members (26) project upward from the upper surface of the girder (B).
The method according to claim 1,
Wherein a concave groove (31) is formed on an upper surface of the slab panel (C), and a heat insulating material (32) is filled in the concave groove (31).
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