KR100739920B1 - Compsite structure of column and beam - Google Patents

Abstract

A composite structure of a column and a beam is provided to have no necessity for installing and dismantling a form, to increase structural efficiency by having high stiffness against the cross-section area and to form a slim floor by preventing an increase in story height after installing a slab. The composite structure of a column and a beam, for having no necessity for installing and dismantling a form, increasing structural efficiency by having high stiffness against the cross-section area, and forming a slim floor by preventing an increase in story height after installing a slab, includes a steel plate beam(100) composed of an I-shaped beam main body and a beam concrete housing portion extended laterally from the side of the I-shaped beam main body or a base plate and provided with a concrete housing space, and a steel plate assembly(200) placed to a beam joint of a column(10) to couple with an end of the steel plate beam and composed of an I-shaped assembly main body having the corresponding shape to the end of the I-shaped beam main body and an assembly concrete housing portion extended laterally from the side of the I-shaped assembly main body or the side plate to have the corresponding shape to the end of the beam concrete housing portion.

Description

COMPOSITE STRUCTURE OF COLUMN AND BEAM

1 to 6 show an embodiment of a composite structure according to the present invention,

1 is a perspective view of a first embodiment.

Figure 2 is a perspective view of one embodiment of a steel sheet forming beams.

3 is a cross-sectional view of one embodiment of a steel sheet forming beam.

4 is a perspective view of a first embodiment of a steel sheet assembly;

5 is a perspective view of a second embodiment;

6 is a perspective view of a second embodiment of a steel sheet assembly;

7 is a sectional view of a second embodiment of a steel sheet assembly.

** Description of the symbols for the main parts of the drawings **

10: pillar 11: vertical rebar

12: strip reinforcing bar 20: bottom plate unit

30: concrete 100: sheet steel beam

110: type I body portion of the beam 120: concrete receiving portion of the beam

200: steel plate assembly 210: type I body part of the assembly

211: upper flange 212: lower flange

213: strip reinforcing hole 220: concrete receiving portion of the assembly

221: bottom plate support of the assembly 230: reinforcement plate

231: upper reinforcing plate 231a: upper support plate

232: lower reinforcement plate 232a: lower support plate

TECHNICAL FIELD The present invention relates to the field of construction, and more particularly, to a composite structure in which pillars and beams constituting a building are combined.

In order to construct an efficient building, it is necessary to adopt the most appropriate structural form in consideration of various aspects such as the purpose of use, function, safety of external force, and economic feasibility.

The structural form of the building can be divided into wood structure, reinforced concrete structure, steel structure, etc. Today, the reinforced concrete structure and steel structure are the most representative structural forms.

 Reinforced concrete structure is a composite of two kinds of materials, which have excellent compressive strength but weak tensile strength and rebar having the opposite pros and cons, and are economical due to low construction cost, high fire resistance and high durability. Due to its advantages, it is most actively used from the past to the present.

However, this reinforced concrete structure has a high self weight, is easy to cause cracking, and corrosion of reinforcing bars is a major problem, and construction costs and air consumption due to the installation and dismantling of formwork are high. It has the same disadvantages.

Steel structure is a structural type that assembles steel plate and various shaped steel members by the joining method such as bolting and welding.Its excellent overall structural performance is due to the excellent material itself, and it is organized using heavy equipment such as tower crane. Since the construction time can be shortened and a certain quality can be guaranteed, most large high-rise buildings have recently adopted this structure.

However, this steel structure is also pointed out as a problem that the cost of the material is very expensive compared to other structures, and because the fire resistance is weak, a separate fireproof coating construction is required.

Recently, studies on a so-called hybrid structure system that composes the characteristics of the reinforced concrete structure and the steel structure in a complex manner to complement each other's shortcomings are being actively conducted, and the most representative one is steel reinforced. Concrete) structure.

In constructing the column or beam structure, this structure is designed to reinforce steel bars and cast concrete around the steel member so that these three materials behave as a single body. By compressing the concrete share of the compressive stress, it is possible to obtain the effect of reducing the construction cost due to the reduction of the amount of steel required.

However, even in the case of the SRC structure, since the installation and dismantling work of the formwork is basically necessary, it can be said that the existing problems with the reinforced concrete structure.

In other words, it can be said that the design of a new concept structure form which fundamentally solves the problems of the conventional structure as described above is still urgently requested.

The present invention has been made to solve the above problems, do not need to install and dismantle the formwork, high rigidity compared to the cross-sectional area is excellent structural efficiency, the column to implement a slim floor without increasing the height after installing the slab Its purpose is to present a composite structure of information.

In order to achieve the object as described above, the present invention extends laterally from the side or bottom plate of the I-shaped body portion 110 and the I-shaped body portion 110 of the beam, and the inside of the concrete Steel plate formed beam 100 having a concrete receiving portion 120 of the beam formed with a receiving space; Installed in the beam coupling position of the column 10 is installed to be coupled to the end of the steel sheet forming beam 100, and the I-shaped assembly having an end shape corresponding to the end of the I-shaped body portion 110 of the beam Concrete receiving portion of the assembly extending laterally from the side or bottom plate of the I-shaped body portion 210 of the assembly to have an end shape corresponding to the body portion 210 and the end of the concrete receiving portion 120 of the beam ( Presenting a composite structure of a column and a beam comprising a; steel plate assembly 200 having a.

The steel sheet forming beams 100 are coupled to a plurality, the steel plate assembly 200 is preferably formed so that the end of the number corresponding to the ends of the plurality of steel sheet forming beams 100 is exposed laterally.

The steel plate assembly 200 preferably has a + -shaped cross-sectional shape so that the end portion is exposed in the front and rear and left and right directions of the pillar 10.

The steel plate assembly 200 is installed to be embedded in the inner region of the column 10, the vertical reinforcing bar 11 of the column 10 is installed in the remaining area of the region where the steel plate assembly 200 is installed in the vertical direction It is preferable.

A band reinforcing hole 213 is formed in the web of the I-type main body 210 of the assembly, and the band reinforcing bar 12 of the pillar 10 surrounds the outer surface of the vertical reinforcing bar 11, It is preferable to be installed to penetrate the band reinforcing hole 213.

The concrete receiving portion 220 of the assembly is preferably formed from the end of the I-shaped body portion 210 of the assembly to the outer region of the band reinforcing hole 213 installation area.

It is further preferred to further include a reinforcement plate 230 extending outward from the web of the I-shaped body portion 210 of the assembly so that it is installed on substantially the same plane as the side of the pillar 10.

The steel plate assembly 200 is installed to be embedded in the inner region of the column 10, the vertical reinforcement 11 of the column 10 is installed in the vertical region in the remaining area of the region where the steel plate assembly 200 is installed. In the web of the I-shaped body portion 210 of the assembly, a band reinforcing hole 213 is formed, and the band reinforcing bar 12 of the pillar 10 surrounds the outer surface of the vertical reinforcing bar 11 and In addition, it is installed so as to penetrate the band reinforcing hole 213, the concrete receiving portion 220 of the assembly is the outer side of the band reinforcing hole 213 installation area from the end of the I-shaped body portion 210 of the assembly It is formed up to the region, the reinforcement plate 230 is preferably installed between the concrete receiving portion 220 and the band reinforcing hole 213 installation region of the assembly.

It is preferable to further include an upper reinforcing plate 231 extending upward from the upper surface of the upper flange 211 of the I-type body portion 210 of the assembly.

It is preferable that an upper support plate 231a is further provided between the inner surface of the upper reinforcing plate 231 and the upper surface of the upper flange 211 of the I-shaped main body 210 of the assembly.

It is preferable to further include a lower reinforcing plate 232 extending downward from the lower surface of the lower flange 212 of the I-shaped body portion 210 of the assembly.

It is preferable that a lower support plate 232a is further provided between the inner surface of the lower reinforcing plate 232 and the lower surface of the lower flange 212 of the I-shaped main body 210 of the assembly.

The steel plate formed beam 100 is formed with a bottom plate support portion 121 of the beam extending inward or outward from the outer end of the concrete receiving portion 120 of the beam so that the bottom plate unit 20 is supported, the steel plate The assembly 200 is preferably formed with a bottom plate support 221 of the assembly having an end shape corresponding to the end of the bottom plate support 121 of the beam.

At the inner end of the concrete receiving portion 220 of the assembly, a bent portion 222 that is bent upwardly or downwardly is formed to be in surface contact with the side surface of the I-shaped body portion 210 of the assembly, and the bent portion 222 is formed. It is preferable that the inner surface of the) and the side surface of the I-type body portion 210 of the assembly is coupled by the bent portion coupling means 223.

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

As shown in Figure 1 below, the composite structure of the pillar and beam according to the present invention is basically composed of a steel sheet assembly 200 disposed on the steel sheet forming beam 100 and the pillar 10.

First, with reference to Figures 2 and 3 will be described with respect to the steel sheet forming beam 100, which is one of the components of the composite structure according to the present invention.

As shown in FIG. 2, the steel plate forming beam 100 extends laterally from the side or bottom plate of the I-shaped main body 110 of the beam and the I-shaped main body 110 of the beam, and It takes a configuration provided with a concrete receiving portion 120 of the beam in which the receiving space of the concrete is formed.

In this case, the steel sheet forming beam 100 is fixed to the position where the beam of the building is to be formed, and only by pouring the concrete 30 to the concrete receiving portion 120 of the beam, the steel sheet-concrete composite structure It is possible to form a beam structure by.

Further, when the bottom plate support portion 121 of the beam extends from the outer end of the concrete receiving portion 120 of the beam inward or outward, as shown in Figure 3, deck plate (deck plate), PC A beam-slab integrated structure can be obtained by pouring the concrete 30 in a state in which the bottom plate unit 20 such as (Pre-Cast) slab is supported on the bottom plate support portion 121.

Such a steel sheet forming beam 100 can be obtained by processing a steel sheet material by a method such as press working, roll forming, etc., may be formed by a folded structure of one steel sheet, or by a structure in which two or more steel sheets are combined It may be formed.

This allows the following effects to be obtained.

First, since the concrete receiving portion 120 of the steel sheet forming beam 100 serves to prevent the separation of the poured concrete, no separate formwork installation and dismantling work is required.

Second, the steel sheet forming beam 100 is to have a reinforcing effect by the I-shaped steel basically in the beam structure, in particular, the bottom plate forming the concrete receiving portion 120 to act as a lower tension member inside the steel plate-concrete composite structure. As a result, a structurally excellent cross section can be obtained.

Third, when the bottom plate support portion 121 is formed at the outer end of the concrete receiving portion 120 of the beam, thereby supporting the bottom plate unit 20, so that the slab is the upper portion of the beam when obtaining a beam-slab integrated structure Since it is not located within the dance of the beam, it is possible to reduce the height of the floor as much as the thickness of the bottom plate unit 20, it is possible to further obtain the effect of implementing a slim floor system as a whole.

Hereinafter, the steel plate assembly 200 to which the steel sheet forming beams 100 are coupled will be described.

As shown in FIG. 4, the steel plate assembly 200 is basically installed at the beam coupling position of the column 10 and is configured to couple to the end of the steel sheet forming beam 100.

This is the I-shaped body portion 210 of the assembly having an end shape corresponding to the end of the I-shaped body portion 110 and the I-shaped portion of the assembly so as to have an end shape corresponding to the end of the concrete receiving portion 120 of the beam. It takes a configuration with the concrete receiving portion 220 of the assembly extending laterally from the side or bottom plate of the main body portion 210.

Accordingly, by placing the steel sheet forming beams 100 at the corresponding positions of the steel sheet assembly 200 and joining them by welding or the like, the joining operation of the steel sheet forming beams 100 to the column 10 can be easily performed. Can be.

When the inner end of the concrete receiving portion 220 of the assembly is joined to the side or bottom of the I-shaped body portion 210 of the assembly by welding or the like, the above structure is taken. In order to further solidify the coupling therebetween, As shown in FIG. 7, a bent portion 222 bent upward or downward is formed at an inner end of the concrete receiving portion 220 of the assembly so as to be in surface contact with the side surface of the I-shaped main body 210 of the assembly, It is preferable to take a structure in which the inner surface of the bent portion 222 and the side surface of the I-type body portion 210 of the assembly are joined by the bent portion coupling means 223.

Here, the bent portion coupling means 223 may be implemented by welding or the bolt-nut fastener of FIG.

The steel plate assembly 200 may have a different configuration depending on the number of steel plate forming beams 100 to be coupled. When the steel plate forming beams 100 are coupled to each other, the steel plate assembly 200 includes a plurality of steel plate forming beams ( What is necessary is just to take the structure formed so that the edge part of the number corresponding to the edge part of 100) may be exposed to the side.

In particular, when the steel sheet forming beam 100 has a configuration that is coupled in all directions in the front and rear and left and right directions about the pillar 10, the steel sheet assembly 200 is shown in FIG. It is preferable from the viewpoint of structural stability that it is configured in a + -shaped cross-sectional shape so that the ends are exposed in the front-back direction and the left-right direction.

When the vertical reinforcing bar 11 is disposed inside the column 10, the steel plate assembly 200 is installed to be embedded in the inner region of the column 10, and the vertical reinforcing bar 11 of the column 10 is connected to the steel plate assembly ( It is preferable in view of structural stability that the steel sheet assembly 200 is supported by the reinforcing bar assembly inside the column 10 by taking the structure provided in the vertical region in the remaining region of the region 200 is installed.

Furthermore, in the case where the band reinforcing bars 12 are arranged inside the pillar 10, as shown in FIGS. 1 and 4, the band reinforcing bars 213 are formed in the web of the I-shaped main body 210 of the assembly. More preferably, the strip reinforcing bar 12 of the pillar 10 surrounds the outer surface of the vertical reinforcing bar 11 and has a structure installed to penetrate the strip reinforcing hole 213.

As such, when the band reinforcing bar 12 is installed, interference may occur with the concrete receiving unit 220 of the assembly. In order to prevent this, the concrete receiving unit 220 of the assembly is an I-type main body 210 of the assembly. It is preferable to take the structure formed from the edge part to the outer area | region of the band reinforcing hole 213 installation area | region.

5 and 6, there is further provided a reinforcement plate 230 extending outward from the web of the I-shaped body portion 210 of the assembly to be installed on substantially the same plane as the side of the column 10. In this case, in this case, the acupressure strength between the reinforcement-concrete composite and the reinforcement plate 230 forming the column 10 may be more resistant to bending, torsional behavior, and the like of the steel plate assembly 200. desirable.

The reinforcing plate 230 is preferably installed between the concrete receiving portion 220 and the band reinforcing hole 213 installation area of the assembly in terms of efficient operation of the member.

In order to further increase the resistance by the reinforcing plate 230 as described above, the upper reinforcing plate 231 or lower flange 212 extending upward from the upper surface of the upper flange 211 of the I-shaped body portion 210 of the assembly. It is preferable to take the configuration further provided with a lower reinforcing plate 232 extending downward from the lower surface.

Here, it is preferable that an upper support plate 231a is further provided between the inner surface of the upper reinforcement plate 231 and the upper surface of the upper flange 211 of the I-shaped main body 210 of the assembly, and the lower reinforcement is provided. The lower support plate 232a is further provided between the inner surface of the plate 232 and the lower surface of the lower flange 212 of the I-shaped main body 210 of the assembly. desirable.

In the case where the bottom plate support part 121 of the beam is formed in the steel sheet forming beam 100 as described above, the steel plate assembly 200 also has an end shape corresponding to the end of the bottom plate support part 121 of the beam. It is preferable that the bottom plate support 221 of the assembly is formed to form an integral bottom plate support structure by combining them.

When the bottom plate support 121 of the beam and the bottom plate support 221 of the assembly have a unitary structure, and concrete is poured while the bottom plate unit 20 is supported thereon, in effect, the beam slab column It is because a very rigid structure which is an integrated type can be obtained.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

The present invention does not require the installation and dismantling of the formwork, the rigidity of the cross-sectional area is excellent in structural efficiency, and even after the slab installation to propose a composite structure of pillars and beams to implement a slim floor.

Claims (14)

I-shaped body portion 110 of the beam, the concrete receiving portion 120 of the beam is formed to extend laterally from the side or bottom plate of the I-shaped body portion 110 of the beam, the concrete receiving space is formed therein Steel sheet forming beam 100 provided; Installed in the beam coupling position of the column 10 is installed to be coupled to the end of the steel sheet forming beam 100, and the I-shaped assembly having an end shape corresponding to the end of the I-shaped body portion 110 of the beam Concrete receiving portion of the assembly extending laterally from the side or bottom plate of the I-shaped body portion 210 of the assembly to have an end shape corresponding to the body portion 210 and the end of the concrete receiving portion 120 of the beam ( Steel plate assembly 200 having a 220; Composite structure of columns and beams containing. The method of claim 1, The steel sheet forming beam 100 is a plurality is combined, The steel plate assembly 200 Composite structure of the pillar and the beam, characterized in that formed so that the end portion of the number corresponding to the end of the plurality of steel sheet forming beams 100 is exposed laterally. The method of claim 2, The steel plate assembly 200 Composite structure of the pillar and the beam, characterized in that it has a + -shaped cross-sectional shape, so that the end portion is exposed in the front and rear and left and right directions of the pillar (10). The method of claim 3, The steel plate assembly 200 is installed to be embedded in the inner region of the column 10, The vertical reinforcing bar (11) of the pillar (10) is a composite structure of the pillar and beam, characterized in that installed in the vertical direction in the remaining area of the region where the steel plate assembly 200 is installed. The method of claim 4, wherein A band reinforcing hole 213 is formed in the web of the I-type main body 210 of the assembly, The strip reinforcing bar 12 of the pillar 10 surrounds the outer surface of the vertical reinforcing bar 11 and is installed to penetrate the strip reinforcing hole 213. The method of claim 5, The concrete receiving portion 220 of the assembly The composite structure of the pillar and the beam, characterized in that formed from the end of the I-shaped body portion 210 of the assembly to the outer region of the band reinforcing hole (213) installation area. The method according to any one of claims 1 to 6, And a reinforcing plate 230 extending outward from the web of the I-shaped body portion 210 of the assembly so as to be installed on substantially the same plane as the side of the pillar 10. Composite structures. The method of claim 7, wherein The steel plate assembly 200 is installed to be embedded in the inner region of the column 10, The vertical reinforcing bar 11 of the pillar 10 is installed in the vertical region in the remaining area of the region where the steel plate assembly 200 is installed, A band reinforcing hole 213 is formed in the web of the I-type main body 210 of the assembly, The strip reinforcing bar 12 of the pillar 10 is installed to surround the outer surface of the vertical reinforcing bar 11 and to penetrate the strip reinforcing hole 213. The concrete receiving portion 220 of the assembly From the end of the I-shaped body portion 210 of the assembly to the outer region of the band reinforcing hole 213 installation area, The reinforcement plate 230 is a composite structure of the pillar and beam, characterized in that installed between the concrete receiving portion 220 and the band reinforcing hole 213 installation area of the assembly. The method according to any one of claims 1 to 6, The composite structure of the pillar and beam further comprising an upper reinforcement plate (231) extending upward from the upper surface of the upper flange (211) of the I-type body portion 210 of the assembly. The method of claim 9, Between the inner surface of the upper reinforcing plate 231 and the upper surface of the upper flange 211 of the I-shaped body portion 210 of the assembly, an upper support plate (231a) for supporting both mutually and Composite structure of beams. The method according to any one of claims 1 to 6, And a lower reinforcing plate (232) extending downward from a lower surface of the lower flange (212) of the I-type main body (210) of the assembly. The method of claim 11, Between the inner surface of the lower reinforcing plate 232 and the lower surface of the lower flange 212 of the I-shaped body portion 210 of the assembly, a lower support plate 232a, characterized in that further provided with each other and Composite structure of beams. The method according to any one of claims 1 to 6, The steel plate formed beam 100 is formed with a bottom plate support portion 121 of the beam extending inward or outward from the outer end of the concrete receiving portion 120 of the beam so that the bottom plate unit 20 is supported, The steel plate assembly (200) is a composite structure of pillars and beams, characterized in that the bottom plate support portion (221) of the assembly having an end shape corresponding to the end of the bottom plate support portion 121 of the beam is formed. The method of claim 1, At the inner end of the concrete receiving portion 220 of the assembly The bent portion 222 bent upward or downward is formed to be in surface contact with the side surface of the I-type main body 210 of the assembly, An inner surface of the bent portion (222) and the side of the I-shaped body portion 210 of the assembly is coupled to the composite structure of the pillar and beam, characterized in that coupled by the bent portion coupling means (223).

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