KR101549417B1 - Joint basket for PC column and PC beam - Google Patents

Abstract

The present invention relates to a joint basket for a steel composite beam. When joining a steel composite beam having an H-beam and a PC column, a joint basket in the form of a mold is provided in a joint connection part of both members. A space part is formed inside the joint basket, and is cured after being filled with concrete while a steel frame (H-beam) is embedded therein. As such, a performance of an end assembly of a PC girder and a PC column, having a vertical coupling (perpendicular) structure, is greatly enhanced; the structure integration convenient; and a structural strength greatly improved due to a solid adhesion.

Description

[Joint basket for PC column and PC beam]

In the present invention, in joining a steel-frame composite girder (steel frame composite beam) having an H beam to a PC column, a joint type basket is provided at a joint connection portion of both members, (Orthogonal) structure of PC girder and PC column can be greatly improved, as well as the structure can be easily integrated, and the structural stiffness can be improved by the strong bonding force. And more particularly, to a joint basket for a steel composite beam.

In general, the PC composite method refers to a method in which some or all of the main structural members such as reinforced concrete columns, beams, and slabs are fabricated and assembled in the field, and the concrete is laid on the joints between the members and the slabs .

Among the concrete produced by the factory, the concrete in which the prestress is introduced is referred to as PS concrete or PSC, and the concrete in concrete is referred to as PC concrete or PCC. In the present specification, they are collectively referred to as PC (Precast Concrete).

Such a method is a combined construction method combining a factory production method and a site construction method. It is a bonding structure by a wet joint system and is characterized by being an industrialized construction by factory production and on-site assembly construction.

Therefore, it is produced in factory and assembled on site, so that the quality of the structure is good and it is easy to construct. It is possible to complete underground construction early, shortening the construction period.

On the other hand, the steel structure is a structure system in which a steel member is assembled by a joining method such as rivet, bolt, welding, etc., and can be effectively applied to a high-rise building and a large-scale span building. In addition, It is free and has the advantage of being easy to expand and expand.

Because of these advantages, the steel structure is applied to buildings over middle floors.

FIG. 7 shows a moment diagram for a composite beam produced by a steel beam and a composite beam thereof in a steel frame structure.

As shown in Fig. 7 (a), the composite steel frame and the concrete slab are integrated and completed. As shown in FIG. 7 (b), this composite view is designed to have the largest bending moment at the center portion, so that the concrete slab can withstand the compressive force and the steel frame can withstand the tensile force based on the bending occurring at the central portion.

7 (a), the concrete slab has a compressive resistance due to the flexure of the steel beam because the steel beam which is advantageous for compression and the tensile is integrated by the stud, and consequently the composite slab of FIG. 7 (a) It becomes a structural system capable of designing an economical steel member.

Fig. 8 shows moment moments of the joining portions of the continuous steel girder and the column and their joining portions.

End portions of the steel girders are bent at the ends of the steel frame girders so that the upper portions of the steel frame girders are tensioned, The lower part is compressed. The end portion of such a steel girder is usually referred to as a momentum section.

7 (a), the tensile force acts on the concrete slab. However, since the concrete is weak against the tensile force, the concrete slab acts to increase the strength of the member can not do it.

Therefore, in the structural design of steel beams and steel girders, the steel beam (simple beam) has been designed in consideration of the composite force of the concrete slab, but the steel girder has been designed as a steel girder by excluding the composite force with the concrete slab.

However, such a steel girder design method can be an inefficient design method.

This is because the steel girder should be designed on the basis of the members that can resist the momentum if the momentum is larger than the momentum. This design is considered to be over-designed in the moment-to-moment interval.

In order to solve the inefficient design problem of the steel girder as above, a method as shown in Fig. 9 has been proposed.

That is, when the absolute value of the momentum is larger than the longitudinal moment, the entire steel girder is designed as a member capable of resisting the moment, while the end of the steel frame girder is reinforced by adding the reverse T-shaped steel to the lower portion.

However, this method has a problem that the steel girder dances too much at the end, which causes a large visual problem, and the flange jointing operation is complicated.

In addition, since expensive steel material such as H-section steel and reverse T-section steel is used as a steel girder, there is a problem that economical efficiency is low in material cost.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is a technical object of the present invention to provide a joining method of joining a steel frame composite girder having a H beam and a PC column, In addition, since the joint basket is cured when the concrete in place is filled with the steel frame (H beam) by forming a space in the inside of the joint basket, the end assembling property of the PC girder and the PC column of the vertically coupled (orthogonal) It is, of course, an object of the present invention to provide a joint basket for a steel frame composite beam, which is easy to integrate the structure and has a structural rigidity greatly improved by a strong bonding force.

In order to achieve the above object, a joint basket according to the present invention includes a housing 100 having an upper portion and a longitudinal front and rear portion of the housing 100, and a plurality of side plates 120 and the side plates 120 are connected Holes 121 and 131 through which a fixing bolt B-1 is assembled so as to be assembled with the PC girder 10 are formed at one side of the side plate 120 and the lower plate 130, The other end of the plate 140 facing the through holes 121 and 131 is provided with an attached plate 140 extending from the side plate and the lower plates 120 and 130 so as to be joined to the outer circumferential surface of the plate column 20, And a through hole 141 is formed so that the bolt B-2 is penetratedly coupled.

The slider 122 protrudes along the longitudinal direction of the housing 100 at one side of the inner circumferential surface of the side plate 120. The slider 122 is inserted into the slotted rail of the preformed PC girder 10 11 and placed so that the attached plate 140 is aligned with the end of the PC girder 10 before assembling, and then the attached plate 140 is brought into contact with the PC column 20 .

At this time, when the joint basket is assembled with the PC column 20 in the state of being joined to the PC girder 10, the concrete concrete (C) is installed in the space part 110.

The joint basket is configured to be detached (separated) from the PC girder 10 when the site concrete C is cured in the space 110 of the housing 100.

As described above, according to the present invention, in joining a steel composite joint type girder (steel frame composite beam) having an H beam to a PC column, jointing baskets of a shape of a form are provided on joint connecting portions of both members, (Orthogonal) structure of the PC girder and the PC column is significantly improved, the structure is easily integrated, and the strength of the concrete structure is improved by the firm bonding force The structure rigidity is greatly improved.

1 and 2 show an example of a joint basket according to the present invention,
Figs. 3 to 5 are diagrams illustrating an example of a use state to which the inventive joint basket is applied,
6 is an exemplary view showing another embodiment of a joint basket according to the present invention,
Figs. 7 to 9 are views illustrating a conventional PC-girder and a PC column assembled together.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

First, as shown in FIGS. 1 to 4, the joint basket of the present invention is a housing 100 that serves as a kind of formwork, and the housing 100 is configured such that its top and longitudinal front and rear portions are open.

At this time, a bottom plate 130 connecting the plurality of side plates 120 and the side plates 120 is formed in the housing 100 so that the space 110 is formed.

One side of the side plate 120 and the lower plate 130 is formed with through holes 121 and 131 through which fixing bolts B-1 are assembled so as to be assembled with the PC girder 10, And at the other end thereof is formed a bending plate 140 extending from the side plates and the lower plates 120 and 130 so as to be joined to the outer circumferential surface of the pc column 20. [

At this time, a through hole 141 is formed on the surface of the attached plate 140 so that the assembly bolt B-2 is penetrated.

It is preferable that such a joint basket is formed by cutting or bending a single integral plate member.

5 to 6, a slider 122 protruding along the longitudinal direction of the housing 100 is formed on one side of the inner circumferential surface of the side plate 120, Shaped rails 11 of the preformed PCG girder 10 are arranged so as to be in line with the ends of the PCG girder 10 at the time of assembling before assembling, And when it is completed, the adhered plate 140 is moved toward the PC column 20 so as to be abutted.

That is, the slider protrudes in the form of a convex portion and is provided on both sides of the side plate along the longitudinal direction. When the slider is transported, the slider is pushed to the rear of the end of the PC girder to prevent breakage. It is to be assembled with the PC column.

At this time, when the joint basket is assembled with the PC column 20 in the state of being joined to the PC girder 10, the concrete concrete (C) is installed in the space part 110.

That is, the H beam steel frame branched from the PC girder and the H beam steel frame branched from the PC column are made to correspond to each other in the space portion of the housing, and the separate brackets are assembled together. When the assembly is completed, And the connection ends of the PC girder and the fish column are integrally formed by putting on-site concrete.

The joint basket is configured to be detached (separated) from the PC girder 10 when the site concrete C is cured in the space 110 of the housing 100.

That is, the joint basket may be held in a state of being assembled and joined between the joints of the PC girder and the PC column, but it is preferable that the joint basket can be detached (detached) as needed for aesthetic improvement or the like.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10 ... PC girder 20 ... PC column
100 ... enclosure 110 ... space portion
120 ... side plate 121 ... through hole
122 ... slider 130 ... bottom plate
131 ... through hole 140 ... attached
141 ... through hole

Claims (4)

And a lower plate 130 connecting the plurality of side plates 120 and the side plates 120 so as to form a space 110 in the inside of the housing 100, Holes 121 and 131 through which the fixing bolts B-1 are assembled so as to be assembled with the PC girder 10 are formed at one side of the bottom plate 120 and the bottom plate 130. At the other end opposite to the through holes 121 and 131, The mounting bolt B-2 is mounted on the surface of the attached plate 140 such that the mounting bolt B-2 is inserted into the through- And a slider 122 protruding along the longitudinal direction of the enclosure 100 is formed on one side of the inner circumferential surface of the side plate 120. The slider 122 is formed of a preformed PCG girder 10, Shaped rail (11), so that the attached plate (140) is fixed to the end of the PC girder (10) And then the adhesive sheet 140 is moved toward the PC column 20 and is bonded to the PC column 20, The site concrete 110 is placed so that the on-site concrete C is laid, The joint basket is constructed so that the on-site concrete (C) can be detached (separated) from the PC girder (10) when curing is completed,
The joint basket is formed by bending a single integral plate member. The slider protrudes in the form of a convex portion, and is provided on both sides of the side plate along the longitudinal direction to correspond to the slotted rail of the PC girder, Wherein the steel plate is pushed to the rear of the end of the PC girder to prevent breakage, and when the steel plate is assembled, the steel plate is slid forward so that the steel plate is assembled with the PC column.
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