KR100923978B1 - Bonding Structure of Centrifugal Precast Composite Beam - Google Patents

Abstract

The present invention, pillar 60 or girder 62; Beam 50 coupled to the pillar or girder; A stud (54) coupled to the upper portion of the beam (50); Slab concrete 56 is placed on top of the beam 50 to which the stud 54 is coupled; Consisting, the beam 50, the square steel pipe 10 provided along the longitudinal direction of the beam; A stopper plate (76) coupled to close the cross section of the square steel pipe (10) inside the square steel pipe (10) at a predetermined distance from the end of the square steel pipe (10); Centrifugal concrete portion 30 is formed by the centrifugal force along the longitudinal direction of the square steel pipe 10 in the square steel pipe 10 closed by the stopper plate 76; Hollow core portion 20 formed in the center of the centrifugal molded concrete portion 30 along the longitudinal direction of the square steel pipe (10); A PC steel wire 52 fixed to the stopper plate 76 and embedded in the centrifugal concrete portion 30 positioned below the hollow core portion 20 along the longitudinal direction of the square steel pipe 10; Concrete injection hole 72 formed in the upper surface of the square steel pipe 10 between the end of the square steel pipe 10 and the stopper plate 76; Centrifugal molding precast, characterized in that consisting of; filling concrete 70 is poured into the inner space of the square steel pipe 10 between the square steel pipe 10 and the stopper plate 76 through the concrete injection hole (72) It relates to a joint structure of a composite beam.

Description

Joint of precast composite beam filled with spun cast concrete

The present invention is a beam consisting of a hollow steel core formed in the center of the centrifugal concrete portion along the longitudinal direction of the rectangular steel pipe and the centrifugal concrete portion is formed by the centrifugal force in the longitudinal direction therein; PC steel wire which is placed along the longitudinal direction of the beam to the centrifugal concrete portion located below the hollow core portion; A stud coupled to the upper portion of the beam; And, Slab concrete is poured on the upper beam to which the stud is coupled; The present invention relates to a centrifugal precast composite beam, comprising a joint structure of each part using a centrifugal precast composite beam.

Concrete-filled steel pipe pillar is a composite column that integrates steel pipe and concrete by filling concrete in closed pipe, which is used as structural material due to the effect of increase of strength of concrete due to confining effect of steel pipe and local buckling of steel pipe by concrete. have.

However, despite these advantages, the concrete filled steel pipe column is difficult to determine the degree of filling of the concrete filled in the field, and the top of the concrete filled steel pipe column has a disadvantage that the concrete settlement occurs over time. For this reason, unfilled or tightly poured concrete can cause local buckling of steel pipes, lowering the strength of the members, or sometimes acting as a cause of corrosion of steel and neutralization of concrete, which can affect the safety of the structure. have.

On the other hand, one of the high-strength concrete member is a centrifugal concrete member which is formed by putting concrete in a cylindrical formwork, and then rotating the formwork at high speed. The centrifugal concrete member is capable of high strength of the concrete by receiving the compressive force by the centrifugal force, it is used for PHC pile foundation and the like.

However, the centrifugal concrete member is composed of reinforced concrete material, which is strong in axial force, but weak in bending, so it is limited to be used as a beam member. The joint treatment of the member and the horizontal member was difficult.

The object of the present invention created to solve the above problems is as follows.

First, the present invention is to provide a high-precision centrifugal precast composite beam as a long span member that is advantageous in reducing the floor height by maximizing the compression and bending strength due to the composite action of the steel pipe, high-strength concrete, and PC steel wire.
Second, the present invention is to provide a centrifugal precast composite beam that can secure the tight filling of concrete over the entire length of the steel pipe.

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Third, the present invention is to provide a centrifugal precast composite beam that is advantageous in the treatment of the joint portion of the column and the beam, the large beam and the small beam using a square steel pipe.

In order to solve the above problems, the present invention is a square steel pipe is formed by the centrifugal concrete portion is formed by centrifugal force in the longitudinal direction therein; And, Hollow core portion formed in the center of the centrifugal concrete portion along the longitudinal direction of the square steel pipe; It provides a centrifugal synthetic composite precast structural member, a method of manufacturing the same, and a manufacturing apparatus.

In addition, the present invention includes a joint structure of each part using a centrifugal synthetic precast structural member.

According to the present invention as described above is expected the following effects.

First, since the square steel pipe used in the manufacture of centrifugal concrete also serves as a formwork and structural material, it is possible to maximize the compressive strength and flexural strength by combining the steel pipe and the high-strength concrete, which can be used as a beam member that is advantageous in reducing the height of the floor. Do. Furthermore, since it is made of a hollow cross section, it is easy to carry and install due to its light weight.
Second, since the concrete is manufactured by centrifugal molding in the factory over the entire length of the steel pipe can be filled with concrete tightly, the adhesion between the concrete and the steel pipe is improved to maximize the compounding effect. Therefore, the safety of the structure can be secured, and thus it is advantageous in terms of securing effective space due to its high utilization in long span structures.

Third, the use of the square steel pipe makes it easy to process the joints between the members, and it is possible to secure the quality and shorten the air by precasting the members.

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

1 is a cross-sectional view showing an embodiment of the centrifugal precast composite beam of the present invention.

Centrifugal precast composite beam of the present invention is a square steel pipe 10 is formed in the centrifugal concrete portion 30 is formed by centrifugal force in the longitudinal direction therein; And a hollow core part 20 formed at the center of the centrifugal concrete part 30 along the longitudinal direction of the square steel pipe 10. It is comprised including the beam 50 which consists of.

Centrifugal concrete portion 30 is formed by filling the concrete inside the square steel pipe 10, and then rotating it at a high speed. Therefore, the concrete constituting the centrifugal concrete portion 30 is positioned with a high density along the circumference of the square steel pipe 10 by the centrifugal force, the hollow core portion of the hollow state in the center of the centrifugal concrete portion 30 ( 20) is formed.

That is, in the present invention, since the concrete is densely packed by the centrifugal force, it is possible to reduce the size of the member cross-section by reducing the volume of the concrete. In addition, since the thickness of the centrifugal concrete portion 30 is uniformly maintained throughout the longitudinal direction of the square steel pipe 10, it is possible to prevent disadvantages due to cross-sectional defects of the member. Furthermore, the hollow core portion 20 is a buffer zone in which the impact sound is absorbed, and blocks the transmission of noise transmitted along the steel surface.

Here, as the square steel pipe 10, both square and rectangular cross sections can be used.

Since the beam 50 is manufactured through a factory production, it is possible to secure a quality unlike a concrete filled steel pipe pillar which is filled with a conventional external steel pipe and internal concrete.

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In addition, the present invention is a PC steel wire 52 that is disposed along the longitudinal direction of the beam 50 to the centrifugal concrete portion 30 is located below the hollow core portion 20; A stud (54) coupled to the upper portion of the beam (50); And, the slab concrete 56 is poured on top of the beam 50 to which the stud 54 is coupled; Characterized in that it comprises a.

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In the present invention, the square steel pipe 10 constituting the beam 50 bears a substantial portion of the tensile force acting on the lower portion of the beam 50, but separately in the centrifugal concrete portion 30 positioned below the hollow core portion 20. The tension force is introduced in advance using the PC steel wire 52 along the longitudinal direction of the beam 50.
In addition, the present invention by using the centrifugal composite precast structural member as a member of the beam 50, it is possible to implement a lightweight steel reinforced concrete tank, using the stud 54 to the beam 50 and the slab concrete 56 Because of the connection, it is used as a composite beam with high rigidity.

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Next, FIG. 2 is sectional drawing which shows the joining structure of the centrifugal precast composite beam and the girder 62, and FIG. 3 is a perspective view which shows the joining structure of the centrifugal precast composite beam and the pillar 60. As shown in FIG.

The present invention, as can be seen in Figures 2 and 3, the pillar 60 or girder 62; Beam 50 coupled to the pillar or girder; A stud (54) coupled to the upper portion of the beam (50); Slab concrete 56 is placed on top of the beam 50 to which the stud 54 is coupled; The beam 50 comprises a square steel pipe 10 provided along the longitudinal direction of the beam; A stopper plate (76) coupled to close the cross section of the square steel pipe (10) inside the square steel pipe (10) at a predetermined distance from the end of the square steel pipe (10); Centrifugal concrete portion 30 is formed by the centrifugal force along the longitudinal direction of the square steel pipe 10 in the square steel pipe 10 closed by the stopper plate 76; Hollow core portion 20 formed in the center of the centrifugal molded concrete portion 30 along the longitudinal direction of the square steel pipe (10); A PC steel wire 52 fixed to the stopper plate 76 and embedded in the centrifugal concrete portion 30 positioned below the hollow core portion 20 along the longitudinal direction of the square steel pipe 10; Concrete injection hole 72 formed in the upper surface of the square steel pipe 10 between the end of the square steel pipe 10 and the stopper plate 76; Characterized in that the filling concrete 70 is filled in the inner space of the square steel pipe 10 between the square steel pipe 10 and the stopper plate 76 through the concrete injection hole 72.

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The stopper plate 76 is welded to the inside of the square steel pipe 10, and the beam 50 is constructed by welding or bolting the end of the square steel pipe 10 to the girder 62 or the pillar 60. Filled concrete 70 for integrating these members is poured in the inner space of the square steel pipe between the stopper plate 76 and the end of the square steel pipe 10. However, in order to reinforce the integration, the reinforcing hardware, such as the A-shaped bracket 74 and the bolt 78, may be bonded to the girder or the pillar to be embedded in the filling concrete 70. The filled concrete 70 may be poured before the slab concrete 56, or simultaneously with the slab concrete 56. In the upper surface of the square steel pipe between the stopper plate 76 and the end of the square steel pipe 10, a concrete injection hole 72 must be formed for placing the filling concrete 70, where the concrete injection hole 72 is a square steel pipe. It can also be used to carry out the joining operation of (10) (for example, when joining the nut to the bolt 78 in Fig. 3).

In the present invention, the stopper plate 76 is filled concrete 70 While preventing the flow into the hollow core portion 20 of the beam 50, and serves as a pressure plate for fixing the PC steel wire.

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In FIGS. 2 and 3, the girder 62 and the column 60 may be made of a member made of an outer steel pipe and an inner centrifugal concrete like the beam 50 used in the present invention, but are not limited thereto. It is also applicable to the section steel.

Meanwhile, in FIG. 3, a box-shaped bracket 80 is included between the beam 50 and the pillar 60. 3, the stud 54 and the slab concrete 56 are not shown on the beam 50 and the box-shaped bracket 80.
That is, the present invention is the lower plate 84, the upper plate 82, the upper and lower portions between the beam 50 and the column 60, or the length of the lower plate 84, the lower plate 84 between the beam 50 and the girder 62 A box bracket (80) consisting of left and right plates connecting both ends of the plates (82, 84); It can be configured to further include, wherein, one end of the beam 50 is characterized in that it is seated on the lower plate (84).

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As shown in Figure 3, the beam 50 and the box-shaped bracket 80 is a horizontal connection plate 86 for connecting the upper portion of the beam 50 and the box-shaped bracket 80 at the same time, the beam 50 is seated thickness Can be connected using the overlapping box-shaped bracket 80 portion. Both of these connections may be welded or bolted together, and in the case of bolted joints, bolt holes 79 may be formed in the box-shaped bracket 80 in advance.

In FIG. 3, the H-shaped steel is used as an embodiment of the pillar 60, and the T-shaped bracket 90 is formed on the abdomen of the pillar 60 to couple the box-shaped bracket 80 to a portion other than the upper and lower flanges of the pillar 60. Combined.

While the invention has been described in connection with the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the spirit of the invention. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

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1 is a cross-sectional view showing an embodiment of a centrifugal precast composite beam of the present invention.

2 is a cross-sectional view showing the bonding structure of the centrifugal molded precast composite beam of the present invention.

Figure 3 is a perspective view showing another joining structure of the centrifugal precast composite beam of the present invention.

<Description of Major Symbols in Drawing>

10: square steel pipe 20: hollow core portion

30: centrifugal concrete part 50: beam

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52: PC steel 54: Stud

56: slab concrete 60: pillar

62: girder 70: filling concrete

72: concrete injection hole

76: stopper plate 78: bolt

79: bolt hole 80: boxed bracket

82: upper plate 84: lower plate

86: Horizontal connection plate 90: T-shaped bracket

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Claims (10)

delete Pillar 60 or girder 62; Beam 50 coupled to the pillar or girder; A stud (54) coupled to the upper portion of the beam (50); Slab concrete 56 is placed on top of the beam 50 to which the stud 54 is coupled; The beam 50, Square steel pipe 10 provided along the longitudinal direction of the beam; A stopper plate (76) coupled to close the cross section of the square steel pipe (10) inside the square steel pipe (10) at a predetermined distance from the end of the square steel pipe (10); Centrifugal concrete portion 30 is formed by the centrifugal force along the longitudinal direction of the square steel pipe 10 in the square steel pipe 10 closed by the stopper plate 76; Hollow core portion 20 formed in the center of the centrifugal molded concrete portion 30 along the longitudinal direction of the square steel pipe (10); A PC steel wire 52 fixed to the stopper plate 76 and embedded in the centrifugal concrete portion 30 positioned below the hollow core portion 20 along the longitudinal direction of the square steel pipe 10; Concrete injection hole 72 formed in the upper surface of the square steel pipe 10 between the end of the square steel pipe 10 and the stopper plate 76; Centrifugal molding precast, characterized in that consisting of; filling concrete 70 is poured into the inner space of the square steel pipe 10 between the square steel pipe 10 and the stopper plate 76 through the concrete injection hole (72) Joint structure of composite beam. In claim 2, Between the beam 50 and the pillar 60, or between the beam 50 and the girder 62 A box-shaped bracket (80) consisting of a lower plate (84), an upper plate (82) less than the length of the lower plate (84), and left and right plates connecting both ends of the upper and lower plates (82, 84); In that it includes, Bonding structure of centrifugal precast composite beam, characterized in that the end of the square steel pipe (10) of the beam is seated on the lower plate (84) of the box-shaped bracket. delete delete delete delete delete delete delete

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