KR102173275B1 - Long-span composite beam - Google Patents

Abstract

A long span composite beam is started. The long-span composite beam according to an embodiment of the present invention includes an asymmetric H-beam having a lower flange, an upper flange having a width greater than that, and a web connecting the lower flange and the upper flange; A ribbed steel plate in which the lower part is bent in a trapezoidal shape with a width greater than that of the upper part, and the open cross-sections of both lower ends are joined to the upper flange top to form a closed cross-section, and disposed at a distance set apart from the end of the upper flange; And a plurality of support reinforcing bars disposed on the upper flange between the upper flange end and the rib steel plate.

Description

Long-span composite beam {LONG-SPAN COMPOSITE BEAM}

The present invention relates to a long span composite beam.

Conventional composite beams allow the steel beam and a part of the concrete floor in close contact with it to act as one body, and when the slab is formed on the H-beam, the dance of the composite beam is large and there is an inefficient space.

Accordingly, the lower flange drills a hole in the web of H-beam, which is longer than the upper flange, so that it is integrated with the concrete on both sides, and by welding the support plate to the lower flange so that the deck plate is located on the support plate, the slab position is lowered to reduce the floor height. Techniques that can obtain effects have been disclosed.

However, such a structure may cause cross-sectional defects due to web holes, and thus structural performance of the steel beam against shear, bending, and lateral forces may be deteriorated.

As a technique related to the above-described floor height reduction, please refer to Korean Patent Publication No. 10-2004-0057165 (published on July 2, 2004).

Korean Patent Publication No. 10-2004-0057165 (published on February 2, 2004)

An embodiment of the present invention is to provide a long-span composite beam with improved structural performance and efficiency.

According to an aspect of the present invention, there is provided an asymmetric H-beam having a lower flange, an upper flange having a width greater than that, and a web connecting the lower flange and the upper flange; A rib steel plate having a lower part bent in a trapezoidal shape with a width greater than that of the upper part, and the open cross-sections of both lower ends are joined to the upper end of the upper flange to form a closed cross-section, and disposed at a distance set apart from the end of the upper flange; And a plurality of support reinforcing bars disposed on the upper flange between the upper flange end and the rib steel plate.

’자 형상의 복수의 제2지지철근을 포함할 수 있다.The support reinforcing bar is installed horizontally from the end of the upper flange by a set distance in the inner longitudinal direction of the rib steel plate to support the load of the rib steel plate, and the first support reinforcing bar above the first support reinforcing bar. Bound to the upper flange, wherein both legs are inserted into a plurality of first through holes formed at predetermined intervals on both sides of the upper flange between the end of the upper flange and the rib steel plate.

It may include a plurality of second supporting reinforcing bars in a'shaped shape.

A plurality of first concrete pouring holes are formed at set intervals in the upper plate of the rib steel plate, second through holes are formed at set intervals in both side plates of the rib steel plate, and the inside of the rib steel plate through the first concrete pouring hole It may further include a third support reinforcing bar that penetrates through both side plates of the rib steel plate through the second through hole so that the concrete introduced into the rib and the rib steel plate are integrated.

The rib steel plate may be provided with a ring plate that surrounds the inner and outer surfaces of the rib steel plate.

A plurality of second concrete pouring holes are formed at a set interval in the center of the upper end of the upper flange between the end of the upper flange and the rib steel plate, and concrete flows into the web through the second concrete pouring hole. In order to hold, it has a horizontal cut-off plate to which one side is bonded to both ends of the lower flange, and a vertical cut-off plate vertically extending from the other side of the horizontal cut-off plate to correspond to the height of the web, and both sides and the rear are the vertical cut-off plate. It is blocked by the plate, and includes a formwork in which front ends of both vertical cut-off plates are in contact with the column, and the formwork may have a length set to reach a certain portion of the length of the rib steel sheet from the end of the H-beam.

A plurality of diaphragms are installed inside the formwork, the diaphragms are disposed at a set interval between the web and vertical blocking plates on both sides of the formwork, and at least one third through hole is formed so that concrete is poured into the interior space of the formwork. can do.

The structural performance and efficiency of the long-span composite beam according to an embodiment of the present invention may be improved.

In addition, the trapezoidal rib steel plate is bonded to the asymmetric H-beam to form a closed section, so that the torsion resistance can be increased during construction.

In addition, a steel plate formwork to hold the concrete poured on both sides of the web of H-beams is provided, and the diaphragms with through-holes are placed in the web at regular intervals to connect with the formwork, and the web of H-beams is embedded in concrete to Increased rigidity can increase vibration and resistance

In addition, it is possible to reinforce the strength of the composite beam in place of the rib steel plate by arranging the first support reinforcing bar and the second support reinforcing bar on the top of the upper flange of the H-beam on which the rib steel plate is not placed.

The effects of the present invention are not limited to the effects mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view of a long span composite beam according to an embodiment of the present invention.
Figure 2 shows a state in which the long-span composite beam of Figure 1 is installed between the columns.
Figure 3 is a front view showing the H-beam and rib steel plate of the long-span composite beam of Figure 1;
4 shows another example of the H-beam of FIG. 3.
5 is a plan view showing the long-span composite beam of FIG. 1.
6 is a side view showing a state in which concrete is poured into the long span composite beam of FIG. 1.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the art. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly describe the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, height, etc. of the components may be exaggerated and expressed for convenience. The same reference numbers throughout the specification denote the same elements.

’)으로 절곡되며, 양쪽 하단의 개방된 단면이 H형강(110)의 상부플랜지(112) 상단에 접합되어 폐단면을 형성하되, 상부플랜지(112)의 끝단으로부터 설정된 이격 거리(D)에 배치된 리브강판(120)과, 상부플랜지(112)의 끝단과 리브강판(120) 사이의 상부플랜지(112)의 상부에 배치된 복수의 지지철근(131,132)을 포함한다.1 to 3, the long-span composite beam according to an embodiment of the present invention connects the lower flange 111 and the upper flange 112 and the lower flange 111 and the upper flange 112 having a larger width. H-beam 110 of an asymmetrical shape with a web 113, and a trapezoidal shape ('

'), and the open cross sections at both bottoms are joined to the top of the upper flange 112 of the H-beam 110 to form a closed cross section, but placed at a distance D set from the end of the upper flange 112 It includes a rib steel plate 120 and a plurality of support reinforcing bars 131 and 132 disposed on the upper flange 112 between the ends of the upper flange 112 and the rib steel plate 120.

Here, the width of the upper flange 112 of the asymmetric H-beam 110 is the width of the lower flange (a deck plate or formwork serving as the bottom surface of the slab) and the PC slab member to be attached to the trapezoidal rib steel plate 120 111) wider than the width.

And, in order to increase the sectional efficiency of the structural mechanics of the composite beam, the cross-sectional area of the upper flange 112 of the H-beam 110 may be smaller than the cross-sectional area of the lower flange 111, and thus, the thickness of the upper flange 112 is reduced to the lower flange. It may be thinner than the thickness of (111).

’자 형상의 복수의 제2지지철근(132)을 포함한다. In addition, the plurality of support reinforcing bars 131 and 132 are installed horizontally from the end of the upper flange 112 by a set distance in the inner longitudinal direction of the rib steel plate 120 to support the load of the rib steel plate 120. Reinforcing bars 131 and bound to the upper flange 112 at the top of the first supporting reinforcing bar 131, the distance set on both sides of the upper flange 112 between the end of the upper flange 112 and the rib steel plate 120 Both legs are inserted into the plurality of first through holes (H1, see FIG. 5) formed by '

It includes a plurality of second supporting reinforcing bars 132 of a'shaped shape.

In addition, the long-span composite beam may include a third support reinforcing bar 133 that is coupled through both side plates of the rib steel plate 120. A plurality of first concrete pouring holes H2 are formed in the upper plate of the rib steel plate 120 at predetermined intervals, and second through holes H3 are formed in both side plates of the rib steel plate 120 at predetermined intervals. The third support reinforcing bar 133 is a rib steel plate 120 through a second through hole H3 so that the concrete flowing into the rib steel plate 120 through the first concrete pouring hole H2 and the rib steel plate 120 are integrated. ) Is combined through both side plates.

Specifically, as shown in FIGS. 1 and 3, the above-described H-beam 110 connects the lower flange 111 and the upper flange 112 and the lower flange 111 and the upper flange 112 having a larger width. It has a web 113, and the rib steel plate 120 is bonded thereon to form a closed cross-section.

In this way, by joining the trapezoidal rib steel plate 120 with the asymmetric H-beam 110 to form a closed cross section, it is possible to increase torsion resistance during construction.

Here, the steel plate of the closed section of the rib steel plate 120 has the thickness of the plate to the extent that the side pressure generated by the inflow of liquid concrete into the closed section of the rib steel plate 120 does not cause doubling or crushing due to impact during transport installation. For example, by making it thin to 4.5mm to 9mm, it is possible to reduce the amount of welding and reduce weight during manufacturing and installation.

Through this, even when a slab such as a deck plate or precast concrete is placed on one side of the upper flange 112 of the H-beam 110, the warpage is strong even when a dominant (eccentric) moment occurs, so that separate reinforcement is not required.

A plurality of second concrete pouring holes (H4) are formed at a set interval in the upper center of the upper flange 112 of the H-beam 110 between the end of the upper flange 112 and the rib steel plate 120, and the second concrete is poured. Concrete flows into both sides of the web 113 through the hole H4.

The upper flange 112 of the H-beam 110 is formed to have a larger width than the lower flange 111. In this case, in another embodiment, as shown in FIG. 4, the support steel plate 112b is coupled by a coupling member 115 on the first upper flange 112a having the same width as the lower flange 111, so that the first upper part The flange 112a and the supporting steel plate 112b may serve as the upper flange 112 of the H-beam 110 described above.

On the other hand, referring to Figures 1, 5 and 6, in order to hold the concrete 12, the long span composite beam according to the embodiment of the present invention, a horizontal cut-off in which one side is bonded to both ends of the lower flange 111, respectively. It has a vertical blocking plate 152 extending vertically from the other side of the horizontal blocking plate 151 to correspond to the height of the plate 151 and the web 113, and both sides and the rear are blocked by the vertical blocking plate 152, The front ends of both vertical blocking plates 152 may include a formwork 150 in contact with the pillar.

The formwork 150 has a length set to reach a certain portion of the length of the rib steel plate 120 from the end of the H-beam 110.

A plurality of diaphragms 160 are installed inside the formwork 150, and the diaphragm 160 is disposed at a set interval between the web 113 and the vertical blocking plates 152 on both sides of the formwork 150, and a third through hole One or more (H5) is formed so that the concrete 12 is poured into the inner space of the formwork 150.

In this way, a steel plate formwork 150 for holding concrete poured on both sides of the web 113 of the asymmetric H-beam 110 is provided, and the diaphragm 160 having a third through hole H5 in the web 113 It is connected to the formwork 150 by placing at regular intervals, and by embedding the web 113 of the H-beam 110 into the concrete 12, it is possible to increase the stiffness of the end to increase the vibration and proof strength.

’)으로 절곡된 형상이다. 이때 콘크리트(12)가 유입되도록 리브강판(120)의 상판에 예컨대 직경 75㎜ 이상의 제1콘트리트 타설홀(H2)이 일정간격으로 형성될 수 있다. 1 and 6, the ribbed steel plate 120 has a trapezoidal shape in which the lower part has a larger width than the upper part ('

'). At this time, a first concrete pouring hole (H2) having a diameter of 75 mm or more, for example, may be formed on the upper plate of the rib steel plate 120 so that the concrete 12 is introduced at regular intervals.

The rib steel plate 120 may be provided by bending the uneven steel plate, and through this, it is effective to prevent slipping when the rib steel plate 120 is stepped on during work, and when concrete contacts the rib steel plate 120, the rib steel plate ( 120) can resist slipping between concrete and can achieve integrated behavior.

In addition, both side plates of the rib steel plate 120 have, for example, 30 mm diameter second through holes H3 formed at set intervals, and penetrate both side plates of the rib steel plate 120 through the second through hole H3. The integrated behavior between the concrete 12 and the rib steel plate 120 in the rib steel plate 120 can be achieved through the third support reinforcing bar 133 that is coupled.

The rib steel plate 120 may be provided with a ring plate 140 having a shape surrounding the inner and outer surfaces of the rib steel plate 120 on the end side.

The ring plate 140 resists slipping between the concrete 12 and serves as a spacer so that a certain distance between the rib steel plate 120 and the first support reinforcing bar 131 is maintained.

1, the first support reinforcing bar 131 is installed horizontally from the end of the upper flange 112 by a set distance in the inner longitudinal direction of the rib steel plate 120 to support the load of the rib steel plate 120. The dog is prepared.

’자 형상을 가질 수 있다. In addition, the second support reinforcing bar 132 is bound to the upper flange 112 at the top of the first support reinforcing bar 131, and the upper flange 112 between the end of the upper flange 112 and the rib steel plate 120 Both legs are inserted into the plurality of first through holes H1 formed at set intervals on both sides.

'It can have a shape.

2 and 6, the long-span composite beam according to the embodiment of the present invention described above is integrated with the pillar 10, and has a symmetrical shape with both pillars 10 interposed therebetween.

Here, the first support reinforcing bar 131 is inserted into the inside of the rib steel plate 120 to receive the load of the rib steel plate 120, and the first support reinforcing bar on the stiffener 170 that is welded or bolted to the column 10 The front part of (131) is welded.

The second supporting reinforcing bar 132 is bound to the upper flange 112 above the first supporting reinforcing bar 131 so that the first supporting reinforcing bar 131 and the concrete 12 are integrated.

The first support reinforcing bar 131 and the second support reinforcing bar 132 may reinforce the strength of the composite beam in place of the rib steel plate 120.

In the above, specific embodiments have been illustrated and described. However, it is not limited only to the above-described embodiments, and those of ordinary skill in the art to which the invention pertains will be able to perform various changes without departing from the gist of the technical idea of the invention described in the following claims.

110: H-beam 111: lower flange
112: upper flange 120: rib steel plate
131: first support reinforcement 132: second support reinforcement
133: third support bar 140: ring plate
150: formwork 160: plate

Claims (6)

An asymmetric H-beam having a lower flange, an upper flange having a width greater than that, and a web connecting the lower flange and the upper flange;
A rib steel plate having a lower part bent in a trapezoidal shape with a width greater than that of the upper part, and the open cross-sections of both lower ends are joined to the upper end of the upper flange to form a closed cross-section, and disposed at a distance set from the end of the upper flange; And
Including; a plurality of support reinforcing bars disposed on the upper flange between the upper flange end and the rib steel plate,
The rib steel plate is a long-span composite beam provided with a ring plate in a shape surrounding the inner and outer surfaces of the rib steel plate. The method of claim 1,
The support reinforcement is
A plurality of first supporting reinforcing bars installed horizontally from the end of the upper flange by a set distance in the inner longitudinal direction of the rib steel plate to support the load of the rib steel plate;
Bound to the upper flange above the first supporting reinforcing bar, wherein both legs are fitted into a plurality of first through holes formed at a set interval on both sides of the upper flange between the upper flange end and the rib steel plate.

'Long-span composite beam including a plurality of second supporting reinforcing bars in a shape. The method of claim 1,
A plurality of first concrete pouring holes are formed in the upper plate of the rib steel plate at set intervals,
A second through hole is formed on both side plates of the rib steel plate at a set interval, and the rib through the second through hole so that the concrete flowing into the rib steel plate through the first concrete pouring hole and the rib steel plate are integrated. Long-span composite beam further comprising a third support reinforcing bar that is coupled through both side plates of the steel plate. delete An asymmetric H-beam having a lower flange, an upper flange having a width greater than that, and a web connecting the lower flange and the upper flange;
A rib steel plate having a lower part bent in a trapezoidal shape with a width greater than that of the upper part, and the open cross-sections of both lower ends are joined to the upper end of the upper flange to form a closed cross-section, and disposed at a distance set from the end of the upper flange; And
Including; a plurality of support reinforcement disposed on the upper flange between the upper flange end and the rib steel plate,
A plurality of second concrete pouring holes are formed at a set interval in the center of the upper end of the upper flange between the end of the upper flange and the rib steel plate, and concrete flows into both sides of the web through the second concrete pouring hole,
In order to hold the concrete, it has a horizontal cut-off plate to which one side is joined to each end of the lower flange and a vertical cut-off plate vertically extending from the other side of the horizontal cut-off plate corresponding to the height of the web, and both sides and the rear side Blocked by the vertical blocking plate, including a formwork in contact with the front ends of the vertical blocking plate on both sides,
The formwork is a long span composite beam having a length set to reach a certain portion of the length of the rib steel sheet from the end of the H-beam. The method of claim 5,
A plurality of diaphragms are installed inside the formwork,
The diaphragm is disposed at a predetermined interval between the web and vertical blocking plates on both sides of the formwork, and at least one third through hole is formed to allow concrete to be poured into the interior space of the formwork.

Images