KR102656170B1 - Slim floor built-up composite beam system in which T-type unit with perforated web using H-beam and lower flange steel plate for deck support are combined - Google Patents

Abstract

The present invention relates to a slim floor built-up composite beam system for pouring concrete. To be described in more detail, it has a pair of perforated webs produced by zigzag cutting the H-beam or built-up beam that has been primarily processed on the lower hot-rolled sheet material. A composite beam formed by welding a T-type unit and a T-shaped steel unit beam produced by build-up are joined to the lower part of the composite beam of the T-type unit with a perforated web, omitting the process of bending and forming the steel material and forming it with minimal contact welding. This is about a slim floor built-up composite beam system that combines a T-type unit with a perforated web using an H beam and a lower flange steel plate for deck support.

Description

Slim floor built-up composite beam system in which T-type unit with perforated web using H-beam and lower flange steel plate for deck support are combined}

The present invention relates to a slim floor built-up composite beam system for pouring concrete. To be described in more detail, it has a pair of perforated webs produced by zigzag cutting the H-beam or built-up beam that has been primarily processed on the lower hot-rolled sheet material. A composite beam formed by welding a T-type unit and a T-shaped steel unit beam produced by build-up are joined to the lower part of the composite beam of the T-type unit with a perforated web, omitting the process of bending and forming the steel material and forming it with minimal contact welding. This is about a slim floor built-up composite beam system that combines a T-type unit with a perforated web using an H beam and a lower flange steel plate for deck support.

Most composite beams at home and abroad are bent-type composite beams, which are produced by cutting and bending hot-rolled steel. This processing process lengthens the overall work process and can also cause quality problems as the work process increases. is receiving criticism. The use of composite beams using section steel is very limited, and for example, it is very difficult to replace various members in building structures with large loads. In addition, for the majority of curved composite beams, it is difficult to supply hot-rolled sheets when manufacturing composite beams and composite columns. Production time is required for cutting and bending when processing composite beams and composite columns, and the construction period is delayed due to post-processing work, etc. The reality is that continuous quality control of structural members is difficult.

In order to compensate for the shortcomings of these composite beams, a method of processing columns pre-assembled with concrete composite beams has been developed. Steel-concrete composite beam is implemented so that the steel beam and concrete behave as a single member, so that when receiving a bending moment, most of the compressive stress is borne by the concrete, and the tensile stress is borne by the steel material, lowering the height of the beam and increasing the floor height of the building structure. It can be reduced and the resistance strength and resistance stiffness of the cross section of the beam are increased, making long-span structures possible, and the ultimate performance or deformation performance is increased. However, the use of composite beams using section steel can only be used in a limited way.

KR 10-1991638 B1 KR 10-1880492 B1 KR 10-1406583 B1 KR 10-1456366 B1

In order to solve the above problems, the present invention omits the process of bending and forming steel materials in buildings with large loads that are difficult to replace with bending forming members, and zigzags the primary processed H-beam or built-up beam formed with minimal contact welding. A T-type unit with a perforated web cut into a shape and a T-beam steel unit beam produced as a built-up are welded and joined to the lower hot-rolled sheet material, and the T-type unit with a perforated web using an optimal H beam is combined with the lower flange steel plate for deck support. It provides a slim floor built-up composite beam system.

In order to solve the above problems, the present invention includes: a lower hot-rolled sheet (100); It is coupled to the upper part of the lower hot-rolled sheet 100, spaced apart in the longitudinal direction, and is zigzag cut with the center of the web of the primary processed H-beam or built-up beam 300 as the reference line to form a plurality of honey-shaped spaces 210). A T-type unit (200) with a pair of perforated webs formed; A slim floor that combines a T-type unit with a perforated web using an H beam and a lower flange steel plate for deck support, characterized in that it includes a deck plate 400 mounted on both upper sides of the lower hot-rolled sheet material 100. A built-up composite beam system is presented.

In addition, the present invention includes a T-type unit 200 with a single perforated web that is extended and coupled between a T-type unit 200 with a pair of perforated webs and is coupled to the upper part of the lower hot-rolled sheet material 100. It is characterized by

In addition, the present invention is characterized in that the T-type unit 200 with one perforated web is formed to be higher or lower in height than the T-type unit 200 with a pair of perforated webs.

In addition, in the present invention, a bending plate 220 and a reinforcing bar 230 are installed through the honey-shaped space 210 of the T-type unit 200 with a perforated web, and the bending plate is installed on the upper part of the honey-shaped space 210. The upper plane 223 of 220 is coupled, and the lower plane 221 of the bending plate 220 is coupled to the lower hot rolled sheet 100.

In addition, the present invention is characterized in that a stiffener 240 is provided for fixing the lower hot-rolled sheet 100 and the T-type unit 200 with a perforated web.

In addition, the deck plate 300 of the present invention is formed with uneven portions, and is characterized in that both ends are obliquely bent and closed.

In addition, the present invention installs a T-shaped steel unit beam 500 produced as a built-up in the lower part of the lower hot-rolled sheet 100, and installs it at the position where the T-shaped unit 200 with a pair of perforated webs is disposed. It is characterized by

In addition, the present invention couples the flanges of a pair of T-shaped steel unit beams 500 to the lower part of the T-shaped unit 200 having a pair of perforated webs, and the web of the pair of T-shaped steel unit beams 500 It is characterized in that it is coupled to the upper part of the lower hot rolled sheet material 100.

In addition, the present invention is characterized by including a plurality of flat bars 250 on the upper flange of the T-type unit 200 with a pair of perforated webs.

In addition, the lower hot-rolled sheet 100 of the present invention is characterized by a receiving bent portion 110 capable of accommodating a T-type unit 200 with a perforated web and wings 120 formed on both sides.

In addition, the present invention is characterized in that the flat plate 260 is installed through the honey-shaped space 210 of the T-type unit 200 with a perforated web, and is coupled to the upper part of the honey-shaped space 210.

A T-type unit with a perforated web and a lower part for deck support using an optimal H-beam that combines a honey-type T-beam steel unit beam cut from the primary processed H-beam or built-up beam on which the concrete according to the present invention is poured and a lower hot-rolled sheet material. The slim floor built-up composite beam system combining flange steel plates omits the bending and forming process using the lower hot-rolled sheet material, and is produced as a T-type unit and build-up with a perforated web cut from the primary processed H-beam or built-up beam. By using the T-beam steel unit beam, the quality and economic efficiency can be improved by minimizing the processing process of the end, center, and side sections of the composite beam.

In addition, the connection between the T-type unit with a perforated web and the lower hot-rolled sheet can be made more robust by welding a bending plate to the upper and lower hot-rolled sheets of the honey-shaped space of the T-type unit with a perforated web and welding an L-shaped stiffener. let it be

In addition, it has the effect of being applied to buildings with large loads in the form of a tapered section where a T-shaped steel unit beam is placed at the bottom of the composite beam of a T-shaped unit with a perforated web.

In addition, by supporting deck plates on both sides of the lower hot-rolled sheet, the floor height of the building is lowered, and the column spacing is designed to be long, which has the effect of increasing space utilization and area.

Figure 1 is a front view and a side view showing the zigzag cutting reference line and shape of the primary processed H beam or built-up beam of the present invention.
Figure 2 is a perspective view of a T-type unit with a perforated web of the present invention.
Figure 3 is a perspective view of the slim floor built-up composite beam of the present invention.
Figure 4 is a perspective view of a slim floor built-up composite beam in which a T-type unit with a single perforated web of the present invention is extended and coupled between a T-type unit with a pair of perforated webs.
FIG. 5 is a cross-sectional view showing that the height of the T-type unit with one perforated web of FIG. 4 is higher than the height of the T-type unit 200 with a pair of perforated webs.
FIG. 6 is a cross-sectional view showing that the height of the T-type unit with one perforated web of FIG. 4 is lower than the height of the T-type unit 200 with a pair of perforated webs.
Figure 7 is a cross-sectional view of the T-type unit with one perforated web of Figure 4;
Figure 8 is a perspective view of the bending plate of the present invention.
Figure 9 is an enlarged perspective view of the installation of the bending plate, rebar, and stiffener of Figure 4.
Figure 10 is a cross-sectional view of another embodiment in which concrete of the slim floor built-up composite beam of the present invention is poured.
Figure 11 is a cross-sectional view of another embodiment in which concrete of the slim floor built-up composite beam of the present invention is poured.
Figure 12 is a front view of a slim floor built-up composite beam in which a T-type unit with a single perforated web of the present invention is extended and coupled between a T-type unit with a pair of perforated webs.
Figure 13 is a perspective view of another embodiment of the lower hot-rolled sheet material of the present invention.
Figure 14 is a perspective view of a slim floor built-up composite beam in which a T-type unit with a single perforated web is extended and coupled between a T-type unit with a pair of perforated webs on the lower hot-rolled sheet material of Figure 13.
Figure 15 is a perspective view of a flat plate of the present invention.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts that are not relevant to the description are omitted, and similar parts are given similar symbols throughout the specification. The symbols for the flanges and webs of T-shaped units with perforated webs and T-shaped steel unit beams are omitted. Similar reference numbers in the drawings refer to identical or similar functions across various aspects.

Hereinafter, in order to enable those skilled in the art to easily practice the present invention, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.

The present invention is a T-type unit with a pair of perforated webs obtained by zigzag cutting an H-beam or built-up beam that is first processed by contact welding by cutting the lower hot-rolled steel without a bending forming process, and a pair of T produced by built-up. It relates to a slim floor built-up composite beam system that welds and joins section steel unit beams. The T-section steel unit beam has a structure formed by a flange and a web.

Hereinafter, with reference to 1 to 12 showing embodiments of the present invention, the T-shaped unit 200 and the T-shaped steel unit beam 500 with a perforated web of the present invention are provided with only an upper flange or a lower flange on the web. It is characterized by forming.

First, the lower hot-rolled sheet 100, which is a main component for achieving the present invention,

It is manufactured by heating a semi-finished steel slab, pressing and stretching it to make it thinner, and cutting it to a certain size in the length direction. The width and length are manufactured according to the size of the composite beam.

In addition, the lower hot-rolled sheet 100 is formed to be wider than the width of both ends of the flange of the T-type unit 200, which has a pair of perforated webs coupled at regular intervals, so that the deck plate 300 can be seated.

In addition, as in the embodiment shown in FIGS. 13 and 14 of the present invention, the lower hot-rolled sheet 100 has wings 120 formed on both sides, and a U-shaped receiving bend 110 between the two wings 120. ) is formed to accommodate a T-type unit 200 with a pair and/or one perforated web, and the receiving bent portion 100 of the lower hot-rolled sheet 100 increases the rigidity of the composite beam, This has the effect of lowering the floor height of the building.

The T-type unit 200 with a perforated web, which is a main component for achieving the present invention,

The primarily processed H-beam or built-up beam 300 is cut in a zigzag, or ladder-shaped, direction up and down using the center of the web as a reference line to form a plurality of honey-shaped spaces 210 and protrusions, and the first processed By using H-beam or built-up beam 300, quality and economic efficiency can be realized by minimizing the processing process.

In addition, since the primary processed H-beam or built-up beam (300) is cut based on the center of the web, a T-type unit (200) with an identical pair of perforated webs can be manufactured, so a T-type unit (200) with two perforated webs can be manufactured through a simple cutting process. Since the T-type unit (200) can be obtained at the same time, productivity and economic efficiency can be improved.

In addition, the manufactured T-type unit 200 with a pair of perforated webs is spaced at regular intervals on the upper part of the lower hot-rolled sheet 100 and joined by welding. As the upper flanges are spaced apart from each other, it is possible to secure an entrance space for work such as pouring concrete and placing rebar.

In addition, the honey-shaped space 210 of the T-type unit 200 with a pair of perforated webs coupled to the upper part of the lower hot-rolled sheet 100 has an opening through which the bending plate 220 and the reinforcing bar 230 can be installed. is formed, and the opening becomes a moving passage when pouring concrete, and is integrated with the bending plate 220 and the reinforcing bar 230 installed through it, as well as the T-type unit 200 with a pair of perforated webs, thereby improving the performance of the composite beam. can be further improved.

The bending plate 220 has a lower plane 221 formed at both ends, an inclined surface 222 bent upward from the lower plane 221 at both ends, and an upper plane bent horizontally at the inclined surface. (223), the upper plane 223 of the bending plate 220 is welded to the upper part of the honey-shaped space 210 of the T-type unit 200 with a pair of perforated webs, and the lower part of both ends The flat surface 221 is joined to the lower hot-rolled sheet 100 by welding, thereby strengthening the connection between the lower hot-rolled sheet 100 and the T-type unit 200 with a perforated web more firmly.

In addition, as in the embodiment shown in FIG. 15 of the present invention, the flat plate 260 is formed in a longitudinal plate shape and is installed through the honey-shaped space 210 of the T-type unit 200 with a perforated web. By integrating it with the T-type unit 200 with a perforated web, the performance as a composite beam can be further improved.

In addition, a spacer 231 is installed at the lower part of the reinforcing bar 230 installed through the honey-shaped space 210 of the T-type unit 200 with a pair of perforated webs, so that the lower hot-rolled sheet material 100 and the reinforcing bar 230 are installed. ) to ensure easy concrete pouring and to have the effect of unifying the concrete.

In addition, the lower hot-rolled sheet 100 and the T-type unit 200 with a pair of perforated webs are joined by welding an L-shaped stiffener 240, thereby forming the lower hot-rolled sheet 100 and the T-type unit 200 with a pair of perforated webs. ) can be strengthened.

Next, the deck plate 300, which is a major component for achieving the present invention,

The cross section is formed in a wave shape with concavo-convex portions, and both sides are bent to be inclined and closed at the ends. This is a shape applied to secure the support performance for the live load that will be added in the future by securing the support cross-sectional area of the deck plate 300 forming the floor height. The wave shape may be a wave forming a normal curvature or a repeatedly bent shape, and the interval and height, thickness of the steel of the deck plate 300, etc. can be implemented in various ways depending on design standards or site conditions.

The deck plate 300 is seated on both sides of the lower hot-rolled plate 100, and is connected to the honey-shaped space 210 of the T-type unit 200 with a pair of perforated webs and the waves of the deck plates 300 on both sides. By placing reinforcing bars 230 in the recessed portion of the shape, they can be embedded and integrated through concrete pouring.

Next, the T-type unit 200 with one perforated web, which is the main component for achieving the present invention,

It is extended and coupled between the T-type units 200 with a pair of perforated webs, and is coupled to the upper part of the lower hot-rolled sheet 100, which has the effect of reducing costs by reducing the amount of steel used, and in addition, one perforated web The T-type unit 200 and the T-type unit 200 with a pair of perforated webs are installed overlapping each other to ensure structural continuity of the composite beam.

In addition, the T-type unit 200 with one perforated web is formed to be higher or lower in height than the T-type unit 200 with a pair of perforated webs to improve the rigidity of the composite beam or reduce the cost by reducing the amount of steel used. It works.

Next, the T-beam steel unit beam 500 produced by built-up, which is a major component for achieving the present invention,

It is installed at the bottom of the lower hot-rolled sheet 100, and is installed at the location where the T-type unit 200 with a pair of perforated webs is placed. By producing it as a build-up, the processing process can be minimized to realize quality and economy. will be.

In addition, the flanges of a pair of T-shaped steel unit beams 500 are each coupled to the lower part of the T-shaped unit 200 having a pair of perforated webs, and the web of the pair of T-shaped steel unit beams 500 is hot-rolled at the bottom. It is joined to the upper part of the plate 100, and has an effect that can be applied to buildings with a large load in the form of a tapered section where the T-shaped steel unit beam 500 is placed at the bottom of the composite beam of the T-shaped unit 200 with a perforated web. there is.

In addition, the T-type unit 200 with a pair of perforated webs includes a plurality of flat bars 250 on the upper flange, and the flat bars 250 are flat or formed at an angle.

In addition, the flat bar 250 is disposed at regular intervals between the T-type units 200 with a pair of perforated webs to strongly connect and integrate the T-type units 200 with a pair of perforated webs. It can prevent the composite beam from being distorted.

100: Lower hot rolled sheet 110: Receiving bending part
120: Wing 200: T-type unit with perforated web
210: Honey-shaped space part 220: Bending plate
221: lower plane 222: slope
223: upper plane 230: rebar
231: spacer 240: stiffener
250: Flat bar 260: Flat plate
300: Primary processed H beam or built-up beam 400: Deck plate
500: T-beam steel unit beam produced through build-up

Claims (11)

Lower hot rolled sheet material (100);
It is coupled to the upper part of the lower hot-rolled sheet 100, spaced apart in the longitudinal direction, and is zigzag cut with the center of the web of the primary processed H-beam or built-up beam 300 as the reference line to form a plurality of honey-shaped spaces 210). A T-type unit (200) with a pair of perforated webs formed;
Included is a deck plate 400 mounted on both upper sides of the lower hot-rolled sheet 100,
Characterized in that a T-type unit 200 with a single perforated web is extended and coupled between the T-type units 200 with a pair of perforated webs, and is coupled to the upper part of the lower hot-rolled sheet material 100. A slim floor built-up composite beam system that combines a T-type unit with a perforated web using an H-beam and a lower flange steel plate for deck support.
delete According to paragraph 1,
A T-type unit with a perforated web using an H beam, characterized in that the T-type unit 200 with a single perforated web is formed at a higher or lower height than the T-type unit 200 with a pair of perforated webs. A slim floor built-up composite beam system that combines a lower flange steel plate for deck support.
According to paragraph 1,
A bending plate 220 and a reinforcing bar 230 are installed through the honey-shaped space 210 of the T-type unit 200 with the perforated web, and the bending plate 220 is installed on the upper part of the honey-shaped space 210. A T-type unit and deck support with a perforated web using an H beam, characterized in that the upper plane 223 of the is coupled, and the lower plane 221 of the bending plate 220 is coupled to the lower hot-rolled sheet 100. Slim floor built-up composite beam system combining lower flange steel plates.
According to paragraph 1,
A T-type unit with a perforated web using an H beam, characterized in that it is provided with a stiffener 240 for fixing the lower hot-rolled sheet 100 and the T-type unit 200 with a perforated web, and a lower flange steel plate for deck support. This combined slim floor built-up composite beam system.
According to paragraph 1,
The deck plate 400 is a slim floor built-up composite beam in which a T-type unit with a perforated web using an H-beam and a lower flange steel plate for deck support are combined, in which uneven portions are formed, and both ends are obliquely bent and closed. system.
According to paragraph 1,
A T-shaped steel unit beam 500 produced as a built-up is installed in the lower part of the lower hot-rolled sheet 100, and is installed at a position where a T-shaped unit 200 with a pair of perforated webs is disposed. A slim floor built-up composite beam system that combines a T-type unit with a perforated web using an H-beam and a lower flange steel plate for deck support.
According to paragraph 1,
The flanges of a pair of T-shaped steel unit beams 500 are each coupled to the lower part of the T-shaped unit 200 having the pair of perforated webs, and the web of the pair of T-shaped steel unit beams 500 is hot-rolled at the bottom. A slim floor built-up composite beam system that combines a T-type unit with a perforated web using an H beam, which is coupled to the upper part of the plate 100, and a lower flange steel plate for deck support.
According to paragraph 1,
A T-type unit with a perforated web using an H beam, characterized in that it includes a plurality of flat bars (250) on the upper part of the upper flange of the T-type unit (200) with a pair of perforated webs, and a lower part for deck support. Slim floor built-up composite beam system combining flange steel plates.
According to paragraph 1,
The lower hot rolled sheet 100 is
For supporting a T-type unit with a perforated web and a deck using an H beam, characterized by an accommodating bend 110 capable of accommodating a T-type unit 200 with a perforated web and wings 120 formed on both sides. Slim floor built-up composite beam system combining lower flange steel plates.
According to clause 10,
A flat plate 260 is installed through the honey-shaped space 210 of the T-type unit 200 with the perforated web, and is coupled to the upper part of the honey-shaped space 210 using an H beam. Slim floor built-up composite beam system that combines a T-type unit with a perforated web and a lower flange steel plate for deck support.