KR102272165B1 - Steel beam having horizontal support flat type - Google Patents

Abstract

The present invention relates to a cheolgolbo having a flat plate-type horizontal support, as a cheolgolbo supporting a deck with a deep dance with H-shaped steel having a web connecting the upper and lower flanges, and the cheolgolbo is a horizontal horizontal flange parallel to the upper and lower flanges on both sides of the web of the H-shaped steel. A support is provided, and the horizontal support provides a cheolgolbo that is provided over the entire section of the H-beam.

Description

Steel beam having horizontal support flat type}

The present invention relates to a cheolgolbo having a flat plate-type horizontal support, and more particularly, to a cheolgolbo having a flat plate-type horizontal support to improve rigidity while reducing the amount of steel by forming a horizontal support and a stiffener in a web of H-beam. will be.

In general, as architecture develops, structures supported by pillars or walls, such as performance facilities, public halls, automated factories, automatic warehouses, zoological and botanical gardens, exhibition halls, hangars, gymnasiums, leisure facilities, etc. A variety of buildings are being built, and in recent years, the need for such structures has been greatly raised.

Accordingly, in order to create a better environmental space, we have been continuously conducting R&D in various fields such as structural foundation concrete materials, as well as the development of cutting-edge construction methods and technologies in the fields of architecture and civil engineering.

The advantage of such a large space without pillars lies in maximizing space utilization efficiency. If there is a column in the middle of the space, the space utilization is limited depending on the spacing between the columns, and some space around the column is difficult to utilize.

However, in a space without columns, the entire interior of the building can be used as an effective space. In addition, it has excellent adaptability to environmental changes. In other words, when a change in internal facilities is required according to a change in the future business environment, if there are columns in the existing space, the arrangement of walls such as partitions is significantly restricted. However, if there are no pillars, the arrangement of the wall can be freely performed, so it is possible to adapt to any change of use.

Therefore, building owners of general buildings are demanding long-span structures with a wide distance between the pillars of the building. However, in these long-span buildings, as the length of the span increases, the thickness of the supporting beam constituting the frame of the building becomes thicker and the part that occupies the height of the ceiling increases. There is a disadvantage that increases, and in an area where the height of the building is limited, the desired number of floors of the building cannot be filled, so the rental income decreases sharply, but on the contrary, there was an unreasonable problem that the construction cost of the building increases.

Accordingly, in the prior art, domestic registration patent No. 10-1676841 (hereinafter referred to as 'prior art document 1') and domestic patent publication No. 10-2012-0084394 (hereinafter referred to as 'prior art document 2') installed in buildings Cheolgolbo has been disclosed.

Cheolgolbo disclosed in Prior Art Document 1, in order to support a deck with deep dancing, cut H-beams horizontally, and then welded horizontal plates 50 to 100 mm wider than the width of the flange in both directions to form an asymmetric H-beam. It is manufactured and reinforced by welding T-beams in the reverse direction to the bottom surface of the horizontal plate at both ends, which have a greater moment than the central part.

Cheolgolbo disclosed in Prior Art Document 2 is provided with an H-shaped steel capable of resisting the moment acting on the central portion, and by welding and reinforcing the T-beam steel at the end having a large moment, the amount of steel material of the Cheolgolbo is reduced.

However, since the conventional cheolgolbo disclosed in the prior art documents 1 and 2 is not formed in the same cross-section and the front end surface is partially provided with T-beams only at both ends to be reinforced by welding, the torsion performance and deflection performance of the cheolgolbo are improved with the central Since both sides are different from each other and non-uniform, there is a disadvantage in performance degradation.

And, in the prior art document 1, since the horizontal plate for supporting the deep deck must be secured by 50 to 100 mm or more wider on both sides than the width of the upper flange, not only a large amount of steel is consumed, but also several processes due to the installation of the horizontal plate As this increases, there is a disadvantage in that workability and productivity are lowered.

In addition, in Prior Art Document 2, when installing a deck with a deep dance, the height of the shear stud must be increased to more than the height of the deck plate with a deep dance for a composite effect, so it is structurally difficult to expect a composite effect.

Domestic Registered Patent No. 10-1676841 Domestic Patent Publication No. 10-2012-0084394

Accordingly, the present invention has been devised to solve the problems of the prior art as described above, and a flat plate capable of improving torsional performance by providing a horizontal support portion in the entire web section of H-beam to form the front cross-section in the same cross-section. An object of the present invention is to provide a cheolgolbo having a type horizontal support.

In addition, another object of the present invention is to provide a stiffener at regular intervals between the upper flange of the H-shaped steel and the horizontal support to prevent lateral torsion of the upper flange that may occur during concrete pouring. It is to provide a cheolgolbo having.

Cheolgolbo having a flat plate-type horizontal support according to the present invention for achieving the above object, as a cheolgolbo for supporting a deep dance deck with H-shaped steel having a web connecting the upper and lower flanges, Cheolgolbo, on both sides of the web of the H-beam A horizontal support portion parallel to the upper and lower flanges may be provided, and the horizontal support portion may be provided over the entire section of the H-shaped steel.

In addition, a stiffener is provided between the horizontal support part and the upper flange, and the stiffener may be provided so that the upper surface, the lower surface, and the side surfaces are fixed in contact with the upper flange, the horizontal support part, and the web, respectively.

In addition, the deck has an upper reinforcing bar in its inner upper portion and a lower reinforcing bar and reinforcing bar in the lower inner portion of the deck in the longitudinal direction of the deck, and the lower reinforcing bar and the reinforcing bar are formed by bending their ends to the upper side, thereby reinforcing the shear force. .

According to the cheolgolbo having a flat horizontal support of the present invention, a horizontal support is provided in the entire section of the web of the H-beam so that the front end surface is formed in the same cross-section, and a stiffener is provided at regular intervals between the upper flange and the horizontal support, so that the horizontal support is provided The torsional performance of Cheolgolbeam is improved by this, the bending moment resisting force of the same long-span Cheolgolbeam is increased, and the lateral torsion of the upper flange that may occur during concrete pouring by the stiffener can be prevented. The horizontal friction resistance has the effect of increasing the synthesis effect.

1 is a view showing a cheolgolbo according to the present invention.
Figure 2 is a view showing the installation structure between the deck and the deep dance cheolgolbo according to the present invention.
Figure 3 is a cross-sectional view showing the installation state between the deck and the deep dance cheolgolbo according to the present invention.
4 is a detailed view of the cheolgolbo in FIG.
5 is a view showing the installation process of the steel frame according to the present invention.

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

The terms used in the present invention are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of the user or operator, so the definitions of these terms correspond to the technical matters of the present invention and should be interpreted as a concept.

In addition, the embodiments of the present invention do not limit the scope of the present invention, but are merely exemplary matters of the constituent elements presented in the claims of the present invention, and are included in the technical spirit throughout the specification of the present invention and the scope of the claims. It is an embodiment including a substitutable component as an equivalent in the component.

In addition, optional terms in the examples below are used to distinguish one component from other components, and the components are not limited by the terms.

Accordingly, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

1 to 5 are views showing a cheolgolbo having a flat plate-type horizontal support according to the present invention.

As shown in FIG. 1, the cheolgolbo according to the present invention has a web 130 connecting the upper and lower flanges 110 and 120, and the H-beams 100 and H-beams 100 in which they extend long in the longitudinal direction. ) of the web 130 on both sides of the horizontal support unit 140 provided in parallel with the upper and lower flanges 110 and 120, respectively, and the deep dance deck 200 that is welded and fixed on the horizontal support unit 140, and the deck 200 and the concrete 300 filled on the horizontal support 140 .

Here, the H-beam 100 is a section installed to connect the column 400 and the column 400, and depending on the viewing direction, it may look like an “I”-shaped steel, but it only looks different depending on the viewing direction. Therefore, hereinafter, it is collectively referred to as H-beam.

The H-beam 100 is provided with flanges 110 and 120 parallel to each other at the upper and lower portions thereof, and a vertical web connecting both flanges 110 and 120 between the flanges 110 and 120 . 130 is formed.

And, the horizontal support 140 is a flat plate, each welded to both sides of the web 130 is provided to protrude outward in a parallel state with the upper and lower flanges 110 and 120 .

Such a horizontal support unit 140 is a part that supports the deck 200 installed thereon, and supports the deep deck 200 with negative information (both ends support uniformly distributed load) behavior.

Accordingly, the horizontal support unit 140 is satisfied if the length is greater than or equal to the width of the upper flange 110, and the thickness is 6 to 12t, preferably in consideration of the bending moment and deflection during indefinite information (uniformly distributed load on both ends). It is preferably provided with 9 to 12t to serve as a horizontal stiffener that can withstand the load of the deck 200 .

Therefore, it is possible to minimize the thickness of the web 130 of the H-beam 100, it is possible to reduce the amount of steel, it is possible to improve torsional rigidity and torsional rigidity.

In addition, the horizontal support unit 140 is formed over the entire section along the longitudinal direction of the H-shaped steel 100, so that the front cross-section of the H-shaped steel 100 is formed in the same cross-section to improve torsion and deflection performance, and thus the same length There is an advantage in that the bending moment resistance of the spanned steel beam is increased.

In addition, the stiffener 150 is vertically erected between the horizontal support 140 and the upper flange 110 as described above, and the vertically erected stiffener 150 includes the upper flange 110 and the horizontal support 140 and the web. It is provided in contact with 130 .

That is, the upper surface, the lower surface, and the side surfaces of the stiffener 150 are welded and fixed in contact with the upper flange 110 , the horizontal support part 140 , and the web 130 , respectively, and such a stiffener 150 is an H-shaped steel 100 ) is installed and provided at regular intervals along the longitudinal direction.

Therefore, the stiffener 150 provided as described above reinforces the horizontal shear force while the stiffener 150 supports and supports the upper flange 110, so that when concrete is poured on the deck 200, which will be described later, the upper flange 110 is lateral torsion. There is an effect that can control the concrete, there is an advantage that the composite effect is increased by the horizontal frictional resistance between the concrete 300 and the cheolgolbo after concrete hardening.

In particular, the stiffener 150 is provided between the horizontal support 140 and the upper flange 110 and is embedded in the concrete 300 to enable the integrated behavior of the concrete 300 and the cheolgolbo and the deck 200 . That is, the stiffener 150 serves as a shear key to increase the synthesis effect.
In addition, the stiffener 150 is provided with a chamfer 152 on the side, so that when the deck 200 is placed on the horizontal support unit 140, the chamfered space is utilized to correspond to the chamfering direction of the deck 200. Thus, it can be mounted in an oblique direction.
That is, the deck 200 mounted on the horizontal support unit 140 through the chamfer 152 is the same as the end of the upper plate or can be located on the inside thereof, thereby improving the construction of the deep deck.

On the other hand, the cheolgolbo provided as described above is formed with a length of 12 to 15m and is installed in a structure that receives a large force, and the horizontal support part ( 140) is welded and fixed, and the stiffener 150 is vertically erected between the horizontal support unit 140 and the upper flange 110 to produce a finished product fixed by welding and used in the field.

In addition, a stepped stepped portion 151 is formed on the upper and lower sides of the stiffener 150 facing the web 130, and when the stiffener 150 is installed as shown in FIG. 5 by the stepped portion 151 The stiffener 150 can be provided in close contact with the web 130 while avoiding the interface and interference between the upper flange 110 and the web 130 and between the web 130 and the horizontal support 140, and pouring concrete The sea mortar can be evenly spread and filled in the entire space between the upper flange 110 and the horizontal support 140 of the H-shaped steel 100 .

And, the deck 200 is a deep dance deck manufactured in a factory and provided by assembling it in a cheolgolbo in the field. That is, as in FIGS. 2 and 3, the deck 200 manufactured in the factory is installed by spot welding in a state mounted on both horizontal supports 140 of Cheolgolbo.

As shown in FIG. 4, the deck 200 with such a dance is bent downward to prevent sagging and bending during concrete pouring, and the horizontal deck part 210 having a bent part 211 with reinforced strength. And, the horizontal deck part 210 is formed to be bent downward at regular intervals to serve as a beam supporting the load caused by the bending moment, while bending upward to prevent sagging and bending during concrete pouring to increase the strength. It includes a beam deck 220 having a reinforced bent portion 221, and a reinforcing bar for compensating for the weakness of the tensile stress of the concrete 300 after pouring the concrete with reinforcing bars.

The horizontal deck part 210 and the beam deck part 220 are preferably made of galvanized steel sheet, and the thickness thereof is preferably about 0.8mm.

And, the reinforcing bars provided in the deck 200, the upper reinforcing bars 230 and the upper reinforcing bars 230 installed in the form of a lattice horizontally at the upper part of the horizontal deck part 210 to reinforce the twist and bending of the beam, and the lower part of the beam deck 220 It is installed to reinforce the beam while the end is bent toward the upper reinforcing bar 230 and includes a lower and reinforcing bar 240 and 250 for reinforcing the shear force of the beam.

These reinforcing bars 230, 240, and 250 are embedded in the concrete 300 like the stiffener 150 of Cheolgolbo, thereby reinforcing the concrete 300 and the deck 200 as well as the stiffener 150. 300) and Cheolgolbo, to enable the integrated behavior of the deck 200.

Although the present invention has been described in detail through specific examples, this is intended to describe the present invention in detail, and the present invention is not limited thereto, and by those of ordinary skill in the art within the technical spirit of the present invention. It is clear that the modification or improvement is possible.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific protection scope of the present invention will be clarified by the appended claims.

100: H-beam 110: upper flange
120: lower flange 130: web
140: horizontal support 150: stiffener (stiffener)
151: step 200: deep dance deck
210: horizontal deck part 220: beam deck part
230: upper reinforcing bar 240: lower reinforcing bar
250: rebar 300: concrete
400: pillar

Claims (3)

As a cheolgolbo supporting the deck 200 with a deep dance with H-shaped steel having a web 130 connecting the upper and lower flanges 110 and 120,
The deep deck 200 has a horizontal deck part 210 having a bent part 211 with reinforced strength by bending downward to prevent sagging and bending during concrete pouring, and the horizontal deck part 210. It is formed to be bent downward at regular intervals to serve as a beam supporting the load caused by the bending moment, while bending upward to prevent sagging and bending during concrete pouring. It includes a beam deck 220 and a reinforcing bar for compensating for the weakness of the tensile stress of the concrete 300 after pouring the concrete with reinforcing bars,
Cheolgolbo, but provided with a horizontal support portion 140 for supporting the deck 200, the horizontal support portion 140 as a flat plate, each welded to both sides of the web 130 is parallel to the upper and lower flanges (110, 120) It is provided to protrude outward in a state of
A stiffener 150 is vertically erected between the horizontal support 140 and the upper flange 110,
The stiffener 150 is welded and fixed so that its upper surface, lower surface, and side are in contact with the upper flange 110, horizontal support 140 and web 130, respectively, so as to be embedded in the concrete 300 and cheolgolbo, deck ( 200), while enabling the integrated behavior of
The stiffener 150 is provided with a chamfer 152 on the side, so that the deck 200 can be located on the same or inside the upper plate end portion,
The reinforcing bars provided in the deck 200 are installed in a lattice form horizontally on the upper part of the horizontal deck part 210 to reinforce the twist and bending of the beam, and the upper reinforcing bars 230 and the beam deck 220 are installed in the lower part. Containing a lower and reinforcing bar 240 and 250, the end of which is bent toward the upper reinforcing bar 230 to reinforce the shear force of the beam while reinforcing the beam,
Reinforcing bars 230 , 240 , and 250 are embedded in the concrete 300 like the stiffener 150 of Cheolgolbo to reinforce the concrete 300 and the deck 200 as well as the concrete 300 like the stiffener 150 . ) and cheolgolbo, cheolgolbo to enable the integrated behavior of the deck 200. delete delete

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