KR20140108815A - Open channel and H-shaped composite beam and steel structure using the same - Google Patents

Abstract

The present invention relates to a composite beam where a steel beam and concrete are integrated, and more particularly, to a depth-reducing composite beam which combines a steel beam with an open channel and an H-beam having a punched vertical portion to concrete without having any separate form, thus achieving efficient utilization of steel and concrete, and to a steel structure using the same, which economically and efficiently reduces negative moments generated on the end portions of the composite beam. According a proper embodiment of the present invention, the depth-reducing composite beam includes: the open channel having a bottom plate, side plates extended upwards from both ends of the bottom plate, and wing plates extended outward from the side plates; the H-beam having an upper flange, a web, and a lower flange, wherein the lower side of the lower flange touches the upper side of the bottom plate of the open channel and coupled therewith, while having a longer length than the open channel so as to allow both ends thereof to protrude by a given length from the open channel, and the web has a plurality of connection holes formed spaced apart from each other on the upper portion thereof between the wing plates of the open channel and the upper flange in a longitudinal direction; a plurality of first connection members fixed to the top of the wing plates of the open channel located at both sides of the web through first connection holes formed on the upper portion of the web of the H-beam; concrete filled inside the open channel so as to be integrally combined to the open channel, and the lower flange and the web of the H-beam; and slab concrete formed on top of the wing plates of the open channel to allow the upper flange and the upper portion of the web of the H-beam to be embedded thereinto and combined integrally thereto.

Description

[0001] The present invention relates to an open channel and an H-shaped composite beam and a steel structure using the same,

The present invention relates to a composite beam in which a steel beam and a concrete are integrated, and more particularly, to a composite beam integrally formed of an open channel and a vertical perforated H-shaped steel, without using a separate form, The present invention relates to a steel beam structure that can be economically and effectively reduced at the end portion of a composite beam by using a composite beam with a reduced beam height.

Since the existing steel frame building is constructed by placing the bottom plate on the upper part of the steel frame, the floor height is increased as compared with the RC frame, which limits the waste of energy and materials and efficient utilization of the effective space. In particular, in the case of urban areas, the number of usable layers at the same height is limited, which is economically disadvantageous. Recently, a variety of slim floor construction methods have been developed in Europe to reduce the floor height of steel-framed buildings. Slim Floor is a shallow synthetic flooring that can be used to reduce flooring by installing a floor plate in a steel frame dance. In the early 1980s, a solution to the height limitation of buildings in northern Europe such as Sweden and Finland And it is widely used in the UK and Europe. It was introduced in Korea in the early 2000s and is currently being used in various fields. This method has the advantage that the floor space can be increased when the height of the building is limited or the slanting line is limited, because the interlayer distance is reduced by 25 ~ 40cm compared to the conventional general steelworking method.

As a background of the present invention, there is a patent registration No. 10-0718294 'steel beam for slim bottom plate using cold formed steel' (Patent Document 1). This patent proposes a steel beam in which a single steel plate is bent to form a shear stud which can be used for a lower flange, a web, and a stud bolt. The steel frame proposed by this patent has a horizontal flange and a horizontal flange. The upper part of the web is bent to form a horizontal part and the cut part is formed at a regular interval so that the horizontal part forms a shear stud and the concrete inserted into the cut part flows smoothly. However, there is a drawback in that it is not easy to popularize in the domestic construction site because the time and manpower operation for manufacturing the steel beam is inevitable.

(Patent Document 1) Patent Registration No. 10-0718294 'steel beam for slim bottom plate using cold formed steel'

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the problems of the above- Compositor  Non-H type casting rolling Roll beam  It aims at securing easiness of production and economical efficiency by using ready-made products (H-shaped steel).

Another problem of the present invention is Composite beam  In a steel structure including a steel column, At the end  It aims to integrate the behavior by serializing the connections and to increase the economic strength by using reinforcing bars without increasing the beam.

An open channel comprising a bottom plate, a side plate extending upwardly at both ends of the bottom plate and a wing plate extending outwardly from the side plate, according to a preferred embodiment of the present invention; And a lower flange is placed in contact with the upper surface of the bottom plate of the open channel to engage with the bottom plate of the open channel and has a length longer than that of the open channel, An H-shaped steel plate having a plurality of first connection holes spaced along the reclamation direction at the upper portion of the web between the blade of the open channel and the upper flange; A plurality of first connecting members fixed to the wing plate on the upper surface of the wing plate of the open channel located on both sides of the web through the first connecting holes formed in the upper portion of the web of the H-shaped steel; An inner channel filled in an open channel, a bottom flange of an H-shaped steel, and an in-filled concrete integrally composited with the web; And a slab concrete which is formed on the upper side of the blade plate of the open channel and the upper flange of the H-shaped steel and the upper part of the web are embedded to be integrally synthesized.

At this time, a plurality of second connection holes are further formed at the lower part of the web of the H-shaped steel corresponding to the reclamation direction between the wing plate of the open channel and the lower flange of the H-shaped steel, The effect can be improved.

The second connection member may further include a plurality of second connection members coupled to the inner surface of the side plate of the open channel located on both sides of the web through each second connection hole formed in the lower portion of the web of the H-shaped steel.

On the other hand, asymmetric H-shaped steel in which the width of the lower flange is larger than the width of the upper flange can be used for the H-shaped steel.

In addition, the open channel can bend the corrugated steel sheet to integrally form the bottom plate, the side plate, and the blade plate.

The first connecting member may be any one of a C-shaped steel, a-shaped steel, a Z-shaped steel, and a closed end steel pipe.

On the upper surface of the lower flange of the H-shaped steel, a lower reinforcing bar for crack control can be installed in the reclamation direction.

The steel structure using the beam-lowering type composite beam according to a preferred embodiment of the present invention comprises a web and an H-shaped steel column composed of both flanges joined to each other on both sides of the web in a balanced manner; First and second H-shaped brackets joined to flanges on both sides of the H-shaped steel column perpendicularly to the longitudinal direction of the H-shaped steel column, respectively; The first and second helical brace composites are brazed to the first and second H brackets by bolt joints using cover plates, respectively. And a plurality of continuous reinforcing bars fixed to the upper surface of the connecting member so as to connect the first and second helical compression type composite beams joined to both sides of the H-shaped steel through the H-shaped steel columns, Type composite viewing includes an open channel including a bottom plate, a side plate extending upwardly at both ends of the bottom plate, and a wing plate extending outwardly from the side plate; A bottom flange, a bottom flange, a bottom flange, a bottom flange, a top flange, a web, and a bottom flange, the bottom flange being in contact with the top surface of the bottom plate 111 of the open channel to engage with the bottom plate of the open channel, An H-shaped steel plate having a plurality of first connection holes formed at an upper portion of a web between the blade of the open channel and the upper flange at regular intervals along the reclamation direction; A plurality of first connecting members fixed to the wing plate on the upper surface of the wing plate of the open channel located on both sides of the web through the first connecting holes formed in the upper portion of the web of the H-shaped steel; An inner channel filled in an open channel, a bottom flange of an H-shaped steel, and an in-filled concrete integrally composited with the web; And a slab concrete which is formed on the upper side of the blade plate of the open channel and the upper flange of the H-shaped steel and the upper part of the web are embedded to be integrally synthesized.

Here, the H-shaped beams of the first and second H-shaped brackets and the first and second beam-reducing composite bow are the same, and the thicknesses of the respective portions of the first and second H-shaped brackets are the same as those of the corresponding first and second helical- Which is thicker than the thickness of the upper flange, the web and the lower flange.

In addition, each of the first and second H-shaped brackets may be further provided with an inverted T-shaped reinforcing bracket.

Since the open channel coupled to the H-shaped steel according to the present invention functions as a formwork for pouring concrete, a separate formwork is unnecessary and the first connecting member passing through the H-shaped steel connects the open- Therefore, it is possible to prevent the open channel from spreading when the concrete is poured. In addition, since H-shaped steel is completely covered by concrete, a separate refractory sheath is unnecessary, and the deck plate for constructing the slab is mounted on the open channel wing plate located in the dance of the H-shaped steel,

In the steel structure according to the present invention, continuous joining through a steel column is used at the end of joining of the composite beam and the steel column to consolidate the behavior to integrate the behavior, and the web is welded to the web of the H- It is possible to reinforce the continuous reinforcing bars on the connecting member passing through the connecting hole, so that it is possible to secure a sufficient covering thickness necessary for the continuous reinforcing bar without increasing the thickness of the slab.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a beam-reducing composite end according to the present invention; FIG.
Fig. 2 is a perspective view of the beam reduction type composite beam according to the present invention.
Fig. 3 is an elevational view of the beam-reducing composite type H beam according to the present invention.
4 is a cross-sectional view of the center of the beam-lowering type composite beam according to the present invention, and 4b is a longitudinal sectional view taken along line AA of 4a.
5 is a front view of a steel structure using a beam-reducing composite beam according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Fig. 1 is a cross-sectional view of an end portion of a beam-reducing composite type composite beam according to the present invention, Fig. 2 is a perspective view of a composite beam with reduced beam according to the present invention, to be.

As shown in FIG. 1, the beam reduction type composite beam according to the present invention includes an open channel 110, a vertical perforated H-shaped beam 120 joined to the open channel 110, a web of vertical perforated H- A first connecting member 130 passing through the open channel 110 and joined to the open channel 110, a quick filler 140 filled in the open channel 110, And slab concrete 150 formed above open channel 110 and overlying upper flange 121 and web 122 of vertical perforated H-beam 120.

The open channel 110 rolls a thin steel sheet and rolls the thin steel sheet to form a bottom plate 111, side plates 112 and 112 extending vertically upward at both ends in the width direction of the bottom plate 111, The wing plates 113 and 113 extending outwardly in parallel with the bottom plate 111 are integrally formed.

Although the cold forming method is preferable for mass production, it may be manufactured by a press working method, or the bottom plate 111, the side plate 112 and the blade plate 113 may be formed as separate plates and welded integrally It is possible.

It is preferable that the side plate 112 extends vertically from the bottom plate 111 from the viewpoints of ease of fabrication and simplicity of calculation of the structure. However, the angle extending from the bottom plate 111 is not limited to securing the integrity with the concrete, And the concrete can be appropriately determined within a range that does not cause any difficulty in placing the concrete. The height of the side plate 112 is formed to be lower than the height of the web 122 of the vertical perforated H-shaped steel 120 to be described later so that a part of the slab concrete 150 is positioned in the dancing of the vertical perforated H-

The wing plate 113 is intended to receive a deck plate for slab concrete pouring and is shown to extend outwardly in FIG. 1, but does not preclude extending to the inside.

The vertical perforated H-shaped section 120 includes an upper flange 121, a lower flange 123 spaced apart from and spaced apart from the upper flange 121, and a web 122 vertically disposed on and connecting the upper and lower flanges 121 and 123 An H-shaped roll-formed finished product which is rolled and cast into an H-shaped section as a longitudinal member having an H-shaped cross-sectional shape is applied.

However, the present invention is not limited to the application of such preformed H-shaped steel, but may be a built-up product prepared by separately preparing upper and lower flanges 121 and 123 and a web 122 plate and welding them. In the case of built-up, it is possible to construct a cross section more efficiently by applying plates of different kinds or thickness to each other between upper and lower flanges or between upper and lower flanges and webs.

Although the upper flange 121 and the lower flange 123 of the H-shaped section 120 have the same width, the width of the lower flange 123 is larger than the width of the upper flange 121, Can be used.

The web 122 of the vertical perforated H-shaped section 120 located above the wing plates 113 and 113 of the open channel 110 is formed in the upper part of the web 122 along the longitudinal direction of the perforated H- A plurality of first connection holes 124 are drilled at regular intervals and the web 122 of the vertical perforated H-shaped section 120 located below the wing plates 113 and 113 of the open channel 110 is provided with a web 122, a plurality of second connection holes 125 are formed at regular intervals along the longitudinal direction of the vertical perforated H-shaped steel 120. The shape of the first and second connection holes 124 and 125 is not limited to that shown because the first filling concrete 140 can flow and the first and second connecting members 130 and 160 can penetrate. As shown in FIG. 3, when the second connection hole 125 is perforated, its position is preferably zigzag with the position of the first connection hole 124 to minimize the cross-sectional defect.

The vertically perforated H-shaped steel pipe 120 having such a configuration is placed in contact with the upper surface of the bottom plate 111 of the open channel 110 and joined with the bottom plate 111 of the open channel 110, , Joining may be any joining method known in the art such as welding joining.

2, the overall length of the perforated vertical H-beam 120 is longer than the open channel 110 so that a constant length of both ends protrudes from the open channel 110, So as to secure a space for joining with the bracket as described later.

The first connection member 130 penetrates the first connection hole 124 to restrict the opening of the open channel 110 when the quick filler concrete 140 is inserted into the upper surface of the wing plates 113 and 113 of the open channel 110, Which is also a means for providing a continuous reinforcing bar mounting surface as described below. Although an example in which a section steel is applied to the first connecting member 130 is shown in the drawing, a C-section steel, a Z-section steel, a closed end steel pipe, or the like may be used.

When it is determined that additional adhesion of the open channel 110 and the quick filler concrete 140 is necessary or that tension reinforcement under the neutral point of the composite beam is necessary, the side plate of the open channel 110 A plurality of second connecting members 160 coupled to the inner surfaces of the first and second connecting members 112 and 112 may be further provided.

The open channel 110 is filled with a fillet concrete 140 and is integrated with the open flange 123 and the web 122 of the open channel 110 and the H- Slab concrete 150 is formed above the wing plates 113 and 113 so that the upper flange 121 and the upper portion of the web 122 of the H-shaped steel 120 are embedded and integrated. The inner filled concrete 140 and the slab concrete 150 are not poured with a time lag but the inner filled concrete 140 is installed at the same time that the slab concrete 150 is installed.

As described above, according to the present invention, since the open channel 110 coupled to the vertical perforated H-shaped steel 120 functions as a form for casting the quick filled concrete 140, a separate form is unnecessary, Since the first connecting member 130 passing through the open channel 110 connects the wing plates 113 and 113 of the open channel 110 on both sides of the vertical perforated H-shaped steel 120, the open channel 110 Can be prevented from spreading. In addition, since the perforated H-shaped beam 120 is completely covered with the inner filled concrete 140 and the slab concrete 150, no separate refractory coating is required, Since the slab is constructed above the wing plates 113 and 113 of the channel 110, the floor height of the building can be reduced accordingly.

4 is a cross-sectional view of the center of the beam-lowering type composite beam according to the present invention, and 4b is a longitudinal sectional view taken along line A-A of 4a.

4A, when the structural peak is required to be reinforced, the upper side of the lower flange 123 of the vertical perforated H-shaped section 120 is provided with a recessed direction A lower crack reinforcement 170 may be installed.

In the above-described embodiment, the side plate 112 of the open channel 110 is a flat plate. However, as shown in FIG. 4B, the open channel 110 may be formed by bending a corrugated steel plate, The plate 111, the side plate 112, and the blade plate 113 may be integrally formed. When the open channel 110 is formed of a corrugated steel plate, the adhesion performance between the quick filler concrete 140 and the open channel 110 can be further improved.

5 is a front view of a steel structure using a beam-reducing composite beam according to the present invention.

As shown in Fig. 5, the steel structure using the beam-lowering type composite beam 10 is formed in the longitudinal direction of the H-shaped column at the flanges 22 and 22 of the H-shaped column 20 and the H- The first and second H-shaped brackets 30 and 30 and the first and second H-shaped brackets 30 and 30 vertically coupled to the first and second H-shaped brackets 30 and 30 are bolted together using the cover plate 50, 10 of the first connecting member 130 and the first and second beam-reducing composite belts 10 and 10 connected to both sides of the H-shaped steel through the H- And a plurality of continuous reinforcing bars 40 fixed to the reinforcing bars 40.

The H-shaped column 20 is composed of a web 21 and both flanges 22 and 22 joined to each other on both sides of the web in a balanced manner. The first and second H-shaped brackets 30 and 30 are made of high strength, Can be applied.

Generally, in case of continuous beam, since the moment of the beam end portion is larger than the center moment, the beam endurance is increased to increase the strength of the beam end portion. This increases the overall dancing. The steel structure according to the present invention has a high strength, H beams can be used to lower beams. Therefore, the height of the first and second H-shaped brackets 30 and 30 is the same as the height of the H-shaped beams of the first and second helical compression type composite bowls 10 and 10, and the first and second H-shaped brackets 30 and 30 Is thicker than the thickness of the upper flange 121, the web 122 and the lower flange 123 of the corresponding first and second beam-reducing type composite beams.

The continuous reinforcing bar 40 not only serves to connect the first and second beam-reducing composite beams 10 and 10 connected to both sides of the H-shaped beam through the H-beam column, It is also a means. In case of the Slim Floor method using existing H beam, the thickness of the concrete slab on the H beam is small, so it is difficult to arrange the reinforcement. The first connection hole 124 of the web 122 of the H-shaped steel 120 of the beam-reducing composite type composite 10 according to the present invention is perforated and the first connection member 130 penetrating the first connection hole 124 is inserted into the open channel 110 The reinforcing bars can be placed on the upper surfaces of the wing plates 113 and 113. That is, since the continuous reinforcing bar 40 is disposed at the lower end of the upper flange 121 of the H-shaped steel, a sufficient covering thickness can be ensured without increasing the thickness of the slab.

In the case where a high-strength built-up H-shaped steel is used and the proof strength is increased by reinforcing steel reinforcement and the strength is to be reinforced at the end portions, the inverted T-shaped reinforcing brackets 60 are provided under the first and second H- Can be installed. Generally, the end facing the column does not have a duct or facility piping installed at the bottom. Therefore, even if an inverted T-type reinforcing bracket 60 is installed at the end portion after confirming the architectural design, the increase in total dancing does not occur.

Therefore, in the steel structure according to the present invention, the connection is continuous by using the continuous reinforcing bars 40 passing through the steel column 20 at the ends where the composite beams 10 and the steel columns 20 are joined, The continuous reinforcing bar 40 can be placed on the first connecting member 130 passing through the first connecting hole 124 formed in the web 122 of the H-shaped steel composing the composite beam 10, It is possible to secure a sufficient coating thickness necessary for the continuous reinforcing bar 40 without increasing the strength of the reinforcing bars 40. Therefore,

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

110: open channel 111: bottom plate
112: side plate 113: wing plate
120: H beam 121: H beam upper flange
122: H-shaped web 123: H-shaped lower flange
124: first connection hole 130: first connection member
140: Inner Filled Concrete 150: Slab Concrete
125: second connection hole 160: second connection member
170: Lower reinforcing bar 20: H-shaped steel column
30: first and second H-shaped brackets 10: beam damping type composite beam
40: continuous reinforcing bar 50: cover plate
60: Reverse T-type reinforcement bracket

Claims (10)

And includes a bottom plate 111, side plates 112 and 112 extending upward from both ends of the bottom plate 111 and open plates 110 and 112 including vanes 113 and 113 extending outward from the side plates 112 and 112, );
And the bottom face of the lower flange 123 is placed in contact with the upper face of the bottom plate 111 of the open channel 110 to form an opening of the open channel 110. The upper flange 121, the web 122 and the lower flange 123, And the upper flange 121 and the lower flange 121 of the open channel 110 are coupled to the bottom plate 111 and have a longer length than the open channel 110 so that a predetermined length of both ends is protruded from the open channel, An H-shaped steel pipe 120 having a plurality of first connection holes 124 formed at a predetermined interval along the reclamation direction on the web 122 corresponding to the web 122;
The upper surface of the wing plates 113 and 113 of the open channel 110 located on both sides of the web 122 through each of the first connection holes 124 formed on the web 122 of the H- A plurality of first connecting members 130 fixed to the first and second connecting members 113 and 113;
Filled core 140 filled in the open channel 110 and integrated with the open channel 110, the lower flange 123 of the H-beam 120 and the web 122; And
And a slab concrete 150 formed above the wing plates 113 and 113 of the open channel 110 and integrally formed by filling the upper flange 121 and the upper portion of the web 122 of the H- Composite Composite Composite. The method according to claim 1,
A plurality of second connection holes 125 are further formed at the lower portion of the web of the H-shaped steel between the blade plate 113 of the open channel and the lower flange 123 of the H- Wherein the composite effect between the concrete (140) and the H-shaped steel (120) is promoted. The method of claim 2,
Which are coupled to the inner surfaces of the side plates 112 and 112 of the open channel 110 located on both sides of the web 122 through respective second connection holes 125 formed in the lower portion of the web 122 of the H- 2 connecting member (160). ≪ Desc / Clms Page number 20 > The method according to claim 1,
Wherein the H-shaped steel (120) is an asymmetric H-shaped steel in which the width of the lower flange (123) is greater than the width of the upper flange (121). The method according to claim 1,
Wherein the open channel (110) comprises a bottom plate (111), a side plate (112) and a wing plate (113) integrally formed by bending a corrugated steel plate. The method according to claim 1,
Wherein the first connecting member (130) is any one of a C-shaped steel, a-shaped steel, a Z-shaped steel, and a closed end steel pipe. The method according to claim 1,
And a lower reinforcing bar (170) for crack control is further provided on the upper surface of the lower flange (123) of the H-shaped steel in the reclamation direction. An H-shaped steel column 20 composed of a web 21 and both flanges 22, 22 joined to each other on both sides of the web in a balanced manner;
First and second H-shaped brackets (30, 30) respectively coupled to flanges (22, 22) of the H-shaped column at right angles to the longitudinal direction of the H-shaped column;
The first and second helical type composite beams 10 and 10 being bolted to the first and second H type brackets 30 and 30 by bolts using a cover plate 50; And
And a plurality of continuous reinforcing bars (40) fixed to the upper surface of the connecting member so as to connect the first and second helical compression type composite beams joined to both sides of the H - shaped steel through the H -
The first and second beam damping type synthetic view,
And includes a bottom plate 111, side plates 112 and 112 extending upward from both ends of the bottom plate 111 and open plates 110 and 112 including vanes 113 and 113 extending outward from the side plates 112 and 112, );
And the bottom face of the lower flange 123 is placed in contact with the upper face of the bottom plate 111 of the open channel 110 to form an opening of the open channel 110. The upper flange 121, the web 122 and the lower flange 123, And the upper flange 121 and the lower flange 121 of the open channel 110 are coupled to the bottom plate 111 and have a longer length than the open channel 110 so that a predetermined length of both ends is protruded from the open channel, An H-shaped steel pipe 120 having a plurality of first connection holes 124 formed at a predetermined interval along the reclamation direction on the web 122 corresponding to the web 122;
The upper surface of the wing plates 113 and 113 of the open channel 110 located on both sides of the web 122 through each of the first connection holes 124 formed on the web 122 of the H- A plurality of first connecting members 130 fixed to the first and second connecting members 113 and 113;
Filled core 140 filled in the open channel 110 and integrated with the open channel 110, the lower flange 123 of the H-beam 120 and the web 122; And
And a slab concrete 150 formed above the wing plates 113 and 113 of the open channel 110 and integrally formed by filling the upper flange 121 and the upper portion of the web 122 of the H- Steel structure. The method of claim 8,
The H-shaped beams of the first and second H-shaped brackets 30 and 30 and the first and second beam reduction type composite beams 10 and 10 have the same height and the respective portions of the first and second H-shaped brackets 30 and 30 Is thicker than the thickness of the upper flange (121), the web (122), and the lower flange (123) of the corresponding first and second beam reduction type composite beams. The method of claim 8,
And an inverted T-shaped reinforcing bracket (60) is further provided under the first and second H-shaped brackets (30, 30).

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