KR20170121887A - Installation in a column to Beam Structure using SRC and PC - Google Patents

Abstract

The present invention relates to an installation structure of a column and a beam using steel reinforced concrete (SRC) and precast concrete (PC). The installation structure of a column and a beam using SRC and PC comprises: an SRC-PC composite beam (100) enclosing both sides and a lower surface of a shaped steel member, and allowing concrete to be poured and cured while both ends thereof are exposed; an SRC-PC composite column (200) enclosing four surfaces of the shaped steel member, and allowing concrete to be poured and cured; and a connector (300) to connect and couple a side of the SRC-PC composite column (200) and both ends of the SRC-PC composite beam (100). SRC and PC are used in a composite manner, and assembly and construction are carried out at a site. An advantage of a steel frame structure and an advantage of an RC structure are used to manufacture an SRC structure with PC to obtain durability and on-site constructability and reduce construction costs and a construction period. A general PC structure suitable for a mid-sized and a large structure can be optimized for a small structure.

Description

The installation structure of column and beam using SRC and PC is shown in Fig.

The present invention relates to a method of installing a column and a beam using a SRC and a PC in which a SRC method and a PC method are combined and assembled in a factory and assembled in the field.

Generally, in building a building, appropriate structure type is selected from the viewpoints such as purpose and function of the building, securing safety against external force, and economic efficiency.

In this type of structure, a variety of structural systems including wood structures, reinforced concrete structures, and steel structures have been conventionally applied, and among them, reinforced concrete structures and steel structures are most commonly used .

The reinforced concrete structure is constructed by integrating the advantages and disadvantages of reinforcing steel and concrete. The tensile stress of the concrete acts to reinforce the disadvantage of the concrete which is less resistant to tensile stress than the compressive strength And the structure is constructed so that compressive stress is applied to the concrete when the external force acts and tensile stress is applied to the reinforcing bar to resist the external force in combination.

Since the reinforced concrete structure as described above is made by using concrete, which is a relatively inexpensive material, as a main material, it is advantageous in that it is economical because it is low in construction cost and has advantages of high moldability, fire resistance and durability. Therefore, Has been most widely used.

However, the above-mentioned reinforced concrete structure also has a larger self-weight than other structures such as a tree structure, and is liable to cause cracks, and it has a disadvantage of requiring a large amount of air for installation and disassembly work have.

On the other hand, the steel structure is a structure type in which a steel plate and various steel members are assembled by bolt joining or welding or the like in constructing a structure. In the case of a steel used in such a steel structure, The performance is remarkably excellent, and in the production method thereof, the unit members are installed in the center by using a heavy equipment such as a tower crane, and assembled and assembled.

Therefore, construction time of construction is shortened and relatively stable quality is assured. Therefore, most of large-scale high-rise buildings such as office buildings and high-rise residential buildings have been constructed using such a steel structure.

However, even in the case of the above-mentioned steel structure, the material cost is higher than other structural materials, and it is also vulnerable to fire.

In addition, when a slab is formed by using a steel structure, a slab unit such as a Techplate PC slab is mainly used due to the efficiency of construction. Since the slab structure is mounted on the steel frame compensation, the beam- There is a problem that the overall floor height is increased.

In view of the characteristics of the steel reinforced concrete structure and the steel structure as described above, the disadvantages of the respective structural types can be complemented by constructing a combination of these two materials, and a so-called composite structure The interest of the system is growing, and the development is being actively done.

The SRC structure (Steel Reinforced Concrete) based on steel and concrete is one of the most representative examples of such a composite structure system.

The SRC structure is a structure in which a reinforcing bar is disposed around a steel member and a concrete is laid so that the three materials are integrated with each other in constructing a column or beam structure. In the case of such an SRC structure, It is expected that the cost of the construction cost will be reduced due to the reduction of the unit steel amount because the stress (mainly compressive stress) of the members is relatively cheap and the concrete having high compressive strength is shared.

However, in the case of such a general SRC structure, the concrete is poured around the central steel member so that the steel member is embedded in the concrete. In order to delay the local buckling of the steel, Welding is installed. In some cases, steel bars and steel bars are installed. Since SRC column is placed outside of concrete, it is possible to yield the yield strength of steel, and the bending performance against the same cross-sectional area increases due to the increase of moment of steel. However, the bending performance against weak axis is lowered and the local buckling delay effect There is a disadvantage in that a large ductility is not achieved and a steel flange is required to be exposed to the steel flange. In addition, the above-mentioned conventional method is mainly provided for a middle- or large-sized structure, and is disadvantageous in that it is not suitable for a small-sized structure.

Domestic patent registration No. 10-1415253 (Announcement of 2014. 07. 04)

The present invention makes use of the advantages of the steel structure and the advantages of the RC structure to make a SRC structure as a PC to achieve durability, field construction, construction cost, and air savings, And to optimize it.

According to an aspect of the present invention,

SRC-PC composite beam (100) which surrounds both side surfaces and lower surface of the steel material and allows the concrete to be poured and cured while both ends are exposed;

SRC-PC composite column (200) surrounding the slope of the steel and pouring concrete, curing;

A connector 300 connecting the sides of the SRC-PC synthesizing column 200 and both ends of the SRC-PC synthesizer 100;

(Steel Reinforced Concrete) and PC (precast concrete), and is assembled in the field.

According to the present invention, by utilizing the advantages of the steel structure and the advantages of the RC structure, it is possible to manufacture the SRC structure as a PC, thereby realizing durability, field construction, construction cost and air saving, It is possible to optimize the structure even in a small size.

1 is a perspective view showing a steel material forming the SRC-PC composite beam adopted in the present invention.
FIG. 2 is a cross-sectional view showing a state in which the concrete is laid so that the upper and lower surfaces of the steel material according to FIG. 1 are wrapped and the upper surface thereof is exposed, and both ends of the steel material are exposed. FIG.
3 is a perspective view showing a steel material forming the SRC-PC column adopted in the present invention.
4 is a perspective view showing a state in which the SRC-PC column is obtained by placing the concrete in a state in which the slope of the steel material according to FIG. 3 is surrounded and the lower end is exposed.
Fig. 5 is a view showing a connection port connecting SRC-PC composite beams and SRC-PC columns
Figs. 6 to 9 illustrate an embodiment in which the coupling state between the SRC-PC composite beam and the SRC-PC column are respectively shown
10 is a view showing an example in which a slab is placed and fixedly coupled to the upper surface of the SRC-PC composite beam after the SRC-PC composite beam and the SRC-PC column are combined by means of FIG. 6 to FIG.
FIGS. 11 to 13 are views sequentially illustrating the coupling process between the SRC-PC composite beam and the SRC-PC column,
14 to 15 are views showing an example in which the roofing material is seated and joined to the upper end thereof after the SRC-PC composite beam and the SRC-PC column are coupled by FIG. 13

It is to be understood that the specific structural or functional descriptions of embodiments of the present invention disclosed herein are only for the purpose of illustrating embodiments of the inventive concept, It is intended to include all changes, equivalents, or alternatives falling within the spirit and scope of the present invention, as various changes can be made and have various forms, and terms and words used in the specification and claims are to be understood to be either conventional The inventor of the present invention is not limited to the meaning of the present invention and the inventor can define the concept of the term appropriately in order to explain his invention in the best way. . Therefore, the embodiments described in the specification of the present invention and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. It should be understood that various equivalents and modifications are possible or possible.

Also, unless otherwise defined in the description of the present invention, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs I have. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning of the context in the relevant art and, unless explicitly defined herein, are to be interpreted as ideal or overly formal Do not.

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

The present invention provides an SRC-PC composite beam 100 and an SRC-PC composite pole 200, which are integrally manufactured at a factory by combining the SRC method and the PC method and assembled in the field, The SRC-PC composite pillar 200 can be easily assembled and installed in the field by providing the connector 300 connecting between the SRC-PC composite pillar 100 and the SRC-PC composite pillar 200.

The SRC-PC composite beam 100 has a precast concrete structure in which the shaped steel material 110 shown in FIG. 1 is formed therein.

The stud bolts 111 are formed on both side surfaces and the lower surface side of the shaped steel material 110 and the stud bolts 111 are not formed on the upper surface side.

The SRC-PC composite beam 100 as shown in FIG. 2 is obtained by placing and curing the concrete so as to expose both sides of the shaped steel material 110 while exposing both ends and expose the upper surface.

The exposed portion of the SRC-PC composite beam 100 on the upper side is referred to as an exposed surface 112 and the slab 410 can be seated on the exposed surface 112 of the SRC-PC composite beam 100 .

A coupling hole 113 is formed at both ends of the steel material 110 forming the SRC-PC composite beam 100. The coupling hole 113 is engaged with the coupling hole 300, - PC column (200).

In the drawing, reference character C denotes a concrete poured body.

In the present invention, SRC-PC columns 200 are formed by combining SRC and PC, which are combined with both ends of the SRC-PC composite beam 100, As shown.

The SRC-PC column 200 includes an inner shape steel 210 and a plurality of stud bolts 211 protruding from the outer surface of the SRC-PC column 200. The SRC-PC column 200 forms a SRC- The support plate 212 for supporting the SRC-PC column 200 is fixed to the SRC-PC column 200 by welding or the like.

Reference numeral 213 denotes a support reinforcement for reinforcing the SRC-PC column 200 while maintaining a fixed state between the steel plate 210 and the support plate 212 for forming the SRC-PC column 200.

The SRC-PC column 200 as shown in FIG. 4 can be obtained by placing and curing the concrete surrounding the outer side of the shaped steel material 210.

Reference numeral C 'denotes a concrete poured body.

Here, the concrete is laid around the outer side of the shaped steel 210, and the lower end of the shaped steel 210 is exposed.

The SRC-PC composite beam 100 and the SRC-PC column 200 are fabricated at a factory, and can be assembled in the field after being transferred to the site.

The joining position of the SRC-PC composite beam 100 and the SRC-PC column 200 is set according to design, PC composite sheet 100 and the SRC-PC column 200, as shown in FIGS. 6 to 9, after the concrete is inserted and cured.

Here, the connector 300 is as shown in FIG.

The connector 300 is formed with a pair of protruding pieces 320 protruding upward and downward from the rear side of the flat plate 310 and one engaging piece 330 protruding in the longitudinal direction at the center of the front side of the flat plate 310 And a pair of coupling holes 331 are formed in the upper and lower portions of the coupling piece 330, respectively.

The projecting pieces 320 of the connector 300 are coupled with the set positions of the SRC-PC column 200. The joining means may be welding or the like. 6 to 9, when the concrete pouring body C 'is obtained by pouring the concrete after the projecting pieces 320 are fixed at the set position of the steel material 210, the concrete pouring body C' The protruding piece 320 is embedded in the SRC-PC column 200 and the coupling piece 330 is protruded outside the SRC-PC column 200.

The joint piece 330 protruding in this manner and the joint hole 113 formed at the both ends of the SRC-PC composite joint 100 and perforated at the protruded portion which is not surrounded by the concrete inserted body C, And assembled.

6 to 9 illustrate various embodiments according to the coupling between the coupling piece 330 and the coupling hole 113. As shown in FIG.

As described above, the coupling between the SRC-PC composite beam 100 and the SRC-PC column 200 is completed. Then, the slab is placed on the upper surface of the SRC-PC composite beam 100, You can do it.

After the side coupling between the SRC-PC composite beam 100 and the SRC-PC column 200 is performed by the coupling 300, the SRC-PC composite beam 100 is combined with the coupling piece 330 of the coupling 300. 100 are exposed to the outside.

Both end portions of the exposed steel material 110 and the joint parts 330 of the joint 300 may be filled in concrete through a concrete installation process in the field to obtain a completed structure.

FIGS. 11 to 13 sequentially illustrate the above-described processes.

15 shows that the roof material 400 of the building is laid down after the SRC-PC composite board 100 and the SRC-PC column 200 are installed. The roof material 400 is also connected to the SRC-PC . Both ends of the roofing material 400 and the upper end of the SRC-PC column 200 can be connected and fixed by a conventional method and means.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various modifications and changes may be made.

Accordingly, it is to be understood that the technical idea of the present invention is to be understood by the following claims, and all equivalents or equivalents thereof fall within the technical scope of the present invention.

100; SRC-PC composite beam 110; Shaped steel
111; Stud bolt 112; Exposed surface
113; Joint ball 200; SRC-PC Column
210; Shaped steel material 211; Stud bolt
212; A backing plate 213; Support reinforcement
300; Connector 310; Flat plate
320; A protruding piece 330; Coupling piece
331; Bond balls 400; Roofing material
C, C '; Concrete putter

Claims (4)

SRC-PC composite beam (100) which surrounds both side surfaces and lower surface of the steel material and allows the concrete to be poured and cured while both ends are exposed;
The SRC-PC composite column (cushioning), which is exposed to concrete and poured, is exposed to the lower end where the lower end stud bolt is exposed, and the lower end of the lower end of the SRC- 200);
A connector 300 connecting the sides of the SRC-PC synthesizing column 200 and both ends of the SRC-PC synthesizer 100;
, And SRC (Steel Reinforced Concrete) and PC (precast concrete) are combined and assembled in the field. The installation structure of columns and beams using SRC and PC.
The method according to claim 1,
The connector 300 has a pair of protruding pieces 320 protruding upward and downward from the rear side of the flat plate 310 and one engaging piece 320 protruding in the longitudinal direction at the center of the front side of the flat plate 310 (330), and a pair of coupling holes (331) are formed in the upper and lower portions of the coupling piece (330), respectively.
3. The method of claim 2,
The protrusions 320 of the connector 300 are embedded in the SRC-PC column 200 by pouring concrete and the outer surface of the flat plate 310 and the engaging pieces 330 are protruded, 200 combined with the end portion of the shaped steel material 110 constituting the SRC-PC composite ball 100 in a state of being fixedly connected by concrete pouring at the set position of the SRC- Construction of columns and beams using.
The method of claim 3,
The SRC-PC composite joining machine 100 includes a SRC-PC joining part 300 and a SRC-PC joining part 100. The SRC-PC joining part 300 is formed by joining the exposed end of the joining piece 330 and the SRC- Installation structure of columns and beams.

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