KR102435245B1 - Reinforcement apparatus for steel beams - Google Patents

Abstract

Provided in the present invention is a steel frame structure to reinforce the connecting portion of a connecting beam and a long-span beam, which may comprise: a connecting beam which is welded to a column in a transverse direction; a long-span beam which is coupled by the end portion coming in contact with the end portion of the connecting beam; a pair of brackets which are formed at one side of the upper end of the connecting beam and one side of the upper end of the long-span beam; a pair of wire coupling holes which are formed at a column which is at a location higher than the height of the upper end of the connecting beam and the long-span beam; and a pair of wires of which one side is connected to the bracket and the other side is connected to the wire coupling hole to tow the connecting beam and the long-span beam. Here, the side surface and the lower surface of the connecting beam and the long-span beam may be supported with a reinforcing member. Therefore, as for the connecting beam and the long-span beam, a towing structure is formed to prevent sagging at the tension load section at which sagging occurs. Furthermore, a reinforcing structure is formed to support at a compression load section to which a pressing pressure is applied. Consequently, the structure may be supported in a more stable and solid manner. In addition, an H-beam or an I-beam which are smaller than the conventional long-span beam may be used by the reinforcing structure, thereby reducing construction costs and increasing the floor height of the building.

Description

A steel structure for reinforcing the connection between connecting beams and long span beams {REINFORCEMENT APPARATUS FOR STEEL BEAMS}

The present invention relates to a steel structure for reinforcing the connection part of a connecting beam and a long and long beam, and more particularly, in a steel structure, in the tensile load section of both ends of the connecting beam and the long and long, the wire connected to the column is connected to the connecting beam and the long. It is possible to provide a more robust steel structure by pulling the upper end of the spanning beam and supporting the side and bottom of the connecting beam and the long span beam with a reinforcement member in the compression load section at both ends of the connecting beam and the long span beam. It relates to a steel structure that can provide a very stable steel structure by allowing the columns to distribute and bear all the loads applied to the connecting beam and the long span beam.

In general, in structures such as self-propelled ground parking lots, factories, and large logistics warehouses, steel structures to support the load of buildings are constructed by vertically constructing steel frames, mainly H-beams or I-beams, on the ground, and between adjacent columns, also H Long-term span beams made of beams or I-beam steel frames are installed horizontally.

In this case, the H-beam and the I-beam have a structure in which an upper flange formed on the upper portion and a lower flange formed on the lower portion are integrally formed with the vertical web in the center.

Therefore, it is not easy to directly connect the end of the long gantry beam made of H-beam or I-beam to the side of the H-beam or I-beam column. After manufacturing by welding the connecting beam (2) for easy connection of the long and long span beams (3) to the site, butt the end of the long span beam (3) to the end of the connecting beam (2) at the site, and the coupling plate (4) Convenience of construction is promoted by fastening the bolts (B) and nuts (N).

However, in the case of such a steel structure, since it is designed based on the column and the end part of the long span beam, where the load (moment) acts the most, the size of the long span beam becomes unnecessarily large, which is uneconomical, reduces the construction cost, and increases the floor height. It has an impossible disadvantage.

Figure 2 is a view exemplarily showing the load and self-weight acting on the column and the long-term span beam of a conventional steel structure. In a state where the long-term span beam is connected to the column, the upper side of the tension load acts on both ends of the connecting beam and the long span beam, , a compressive load is applied to the lower side in the opposite direction.

Therefore, for a more stable and robust structure, a traction structure is required to prevent deflection in the tensile load section where deflection occurs in the connecting beam and the long-span beam, and to support the compressive load section where the pressing pressure is applied. Reinforcement structure is required.

[Prior art literature]

1. Republic of Korea Patent No. 10-2254052

2. Republic of Korea Patent No. 10-1926532

An object of the present invention is to form a traction structure to prevent deflection in the tensile load section in which deflection occurs in the connecting beam and the long girder beam, and to form a reinforcement structure to support the compressive load section where the pressing pressure acts. It can support the building more stably and firmly, and the reinforcing structure makes it possible to use a smaller H-beam or I-beam than the existing long-span beam, reducing construction costs, increasing the floor height of the building, and, above all, connecting By transferring the load applied to all bolts and coupling plates connecting the beam and the long span directly to the column, the column can bear a large part of the moment of the long span, almost all of the load applied to the span is reduced to the column. The purpose is to enable the construction of a very stable and robust structure by being able to disperse.

The steel structure for reinforcing the connection part of the connecting beam and the long-term beam according to an embodiment of the present invention for achieving the above object is a connecting beam welded in the transverse direction to a column, and an end at the end of the connecting beam A pair of brackets formed on one side of the upper end of the connecting beam and one of the upper end of the connecting beam, and a pair formed on a pole at a position higher than the height of the upper end of the connecting beam and the Jangjiganbo of the wire coupling hole, one side of which is connected to the bracket and the other side is connected to the wire coupling hole, and a pair of wires to pull the connecting beam and the long and long beams, and the side and lower ends of the connecting beam and the long and long beams are on the reinforcing member It is characterized in that it is configured to be supported by

According to an embodiment of the present invention, the reinforcing member is composed of a lower coupling plate for supporting and reinforcing the lower end of the connecting beam and the long gantry and a web combining plate for supporting and reinforcing the side surfaces of the connecting beam and the long ganja, the The lower coupling plate is in close contact with one side of the pillar in the longitudinal direction of the pillar and extends in one direction from the top of the pillar coupling plate and the pillar coupling plate in which a plurality of through holes for fastening the fastener are perforated to the connecting beam and the long axis. A lower flange coupling plate in close contact with the lower flange of the beam connection part and having a plurality of through-holes for coupling the connecting beam and the long span beam together by a fastener, and the column coupling plate and the lower flange coupling plate are installed vertically in the middle part It is made of a reinforcing plate to prevent sagging of the lower flange coupling plate by being welded, and the web coupling plate is made of a pair, each in close contact with one side of the pillar in a direction perpendicular to the longitudinal direction of the pillar and fastening the fastener A plurality of through-holes are extended in one direction from the side of the perforated column coupling plate and the column coupling plate to be in close contact with the web of the connecting beam and the connecting beam and the connecting beam to combine the connecting beam and the long paper together by a fastener. It is characterized in that it consists of a web coupling plate with a plurality of through-holes perforated for it.

According to the effect of the present invention as described above, a traction structure is formed to prevent deflection in the tensile load section in which deflection occurs in the connecting beam and the long girder beam, and a reinforcing structure for supporting the compressive load section where the pressing pressure is applied. By forming it, the building can be supported more stably and firmly, and the H-beam or I-beam that is smaller than the existing long-distance beam can be used due to the reinforcing structure, thereby reducing the construction cost and increasing the height of the building.

In addition, the present invention adopts a structure that allows the column to distribute the load applied only to all the bolts and coupling plates connecting the conventional connecting beam and the long-span beam, so that the building can be supported more stably and firmly and the construction cost is reduced. can do it

In particular, after the concrete slab is installed on the steel structure, a larger load is applied to the long span beam. The present invention cures the concrete by curing the connecting traction wire, the traversing wire and the bracket in a state embedded in the concrete of the slab. Afterwards, the slab will hold the connecting beam and the long-to-long beam by the connecting and long-term bearing wire, which is a very useful invention to prevent the sagging of the connecting beam and the long-to-long beam.

1 is an exploded perspective view showing a conventional steel structure;
Figure 2 is a view exemplarily showing the load and the self-weight acting on the column and the long span beam of a conventional steel structure.
Figure 3 is an exploded perspective view showing a steel structure for reinforcing the connection portion of the connecting beam and the long gantry beam according to an embodiment of the present invention.
Figure 4 is a perspective view of the combination of Figure 1;
Fig. 5 is a cross-sectional view of Fig. 2;
6 is a reference view showing the construction state of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. The terminology used herein is for the purpose of referring to specific embodiments only, and is not intended to limit the invention. The singular forms used herein also include the plural forms unless the phrases expressly indicate the opposite. The meaning of "comprising," as used herein, specifies a particular characteristic, region, integer, step, operation, element and/or component, and other specific characteristic, region, integer, step, operation, element, component, and/or group. It does not exclude the existence or addition of Although not defined otherwise, all terms including technical and scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention belongs. Commonly used terms defined in the dictionary are additionally interpreted as having a meaning consistent with the related technical literature and the presently disclosed content, and unless defined, are not interpreted in an ideal or official meaning.

The embodiments of the present invention described with reference to a perspective view specifically represent ideal embodiments of the present invention. As a result, various modifications of the illustrations are expected, for example, modifications of manufacturing methods and/or specifications. Accordingly, the embodiments are not limited to a specific shape of the illustrated area, and include, for example, a shape modification by manufacturing. For example, regions shown or described as being flat may have characteristics that are generally rough and/or non-linear. Also, portions shown as having sharp angles may be rounded. Accordingly, the regions shown in the drawings are only approximate in nature, and their shapes are not intended to depict the exact shape of the regions, and are not intended to narrow the scope of the present invention.

Hereinafter, preferred embodiments of the steel structure for reinforcing the connection part of the connecting beam and the long-term beam according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an exploded perspective view showing a steel structure for reinforcing the connection part of the connecting beam and the long pole according to the embodiment of the present invention, Figure 4 is a combined perspective view of Figure 1, Figure 5 is a cross-sectional view of Figure 2, Figure 6 is a reference view showing the construction state of the present invention.

First, it should be noted that in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In addition, in describing the present invention, detailed descriptions of related known functions or configurations will be omitted so as not to obscure the gist of the present invention.

The present invention The steel structure for reinforcing the connection part of the connecting beam and the long girder according to the embodiment of the present invention is a vertical column 100 and a connecting beam 200 welded to the column 100 in the transverse direction. ), and a pair of Jangjiganbo 300 coupled to the end of the connecting beam 200 while facing each other, and formed on one side of the upper end of the connecting beam 200 and the upper end of the Jangjiganbo 300 . Brackets 240 and 340, and a pair of wire coupling holes 733 and 743 formed in the post 100 at a position higher than the top height of the connecting beam 200 and the long gantry 300, and one side of the brackets 240 and 340. A pair of wires 730 and 740 that are connected and the other end is connected to a wire coupling hole 733 and 743 to pull the connecting beam 200 and the long pole 300, and the connecting beam 200 and the long pole 300 ) side and bottom are configured to be supported by reinforcing members.

At this time, the reinforcing member is a lower coupling plate 400 for supporting and reinforcing the lower end of the connecting beam 200 and the long pole 300, and a web for supporting and reinforcing the side of the connecting beam 200 and the long pole 300. Doedoe consisting of a coupling plate 500, the lower coupling plate 400 is in close contact with one side of the pillar 100 in the longitudinal direction of the pillar 100 and a plurality of through holes 411 for fastening the fasteners 750 and 751. The perforated column coupling plate 410 and the lower flanges 320 and 330 of the connecting beam 200 and the long gantry 300 connecting portion A extending in one direction from the upper portion of the column coupling plate 410 It is made of a lower flange coupling plate 420 in which a plurality of through-holes 421 for coupling the connecting beam 200 and the long gantry 300 together by means of fasteners 750 and 751 in close contact with each other are perforated, and a web coupling plate ( 500) is a column coupling plate 510 in which a plurality of through holes 511 for fastening the fasteners 750 and 751 to one side of the column 100 in close contact with the longitudinal direction of the column 100 are perforated, respectively. And, it extends in one direction from the side of the column coupling plate 510 and is in close contact with the webs 210 and 310 of the connecting beam 200 and the long gantry 300 connecting part A, and is connected by fasteners 750 and 751. A plurality of through-holes 521 for coupling the beam 200 and the long pole 300 together are made of a perforated web coupling plate 520 . In this case, an upper coupling plate 700 for connecting the upper flanges 220 and 320 of the connection part A may be further provided.

The present invention also provides a coupling plate (400, 500) to the coupling plate (400, 500) and the fastener (750, 751) for coupling with the connecting beam (200) and the long ganja (300), respectively, the webs (210, 310), the lower flanges (320, 330) of the coupling plates (400, 500). It is natural that the through-holes corresponding to the through-holes 411, 421, 511, and 521 should be perforated.

The pillar 100 is usually erected vertically on the foundation of the building, and the Jangjiganbo 300 is installed horizontally between the pillar 100 and the pillar 100 to support the floor or slab (C) of the building. However, the pillar 100 and the long pole 300 usually use an H-beam or an I-beam.

In the present invention, a pair of the brackets 240 and 340 is formed on the upper end of the connecting beam 200 , and the other pair is formed on the Jangjiganbo 300 . This is for the pillar 100 to directly support the connecting beam 200 and the long gantry beam 300 . Therefore, the present invention enables the most stable structure, the column 100, to pull the connecting beam 200 and the long-span beam 300 on which a tensile load is applied by the wires 730 and 740, so that the connecting beam 200 and the long-span beam It is possible to disperse the beam 300 to the column 100 .

At this time, the brackets 240 and 340 are better adjacent to the connection portion (A) of the connecting beam 200 and the Jangjiganbo 300 . This is because the connection part (A) is the most vulnerable part to the load in the connecting beam 200 and the long gantry beam 300 .

The wires 730 and 740 are composed of a long-term traction wire 730 for traction of a long pole and a connection traction wire 740 for traction with a connecting beam.

One end of the wire (730,740) is made of a ring part (731,741) to be coupled to the through hole (241,341) of the bracket (240,340) with a bolt and a nut, and the other end is to be inserted into the wire coupling hole (733,743) of the column (100). It is preferable that the bolts 732 and 742 are formed so that they can be coupled with a nut.

In addition, in the present invention, the brackets 240 and 340 and the wires 730 and 740 are buried in the concrete of the slab (C) and cured when the concrete slab (C) is constructed.

Therefore, the brackets 240 and 340 and the wires 730 and 740 in the cured concrete slab C hold the connecting beam 200 and the long pole 300, and eventually the connecting beam 200 and the long pole 300. ) to prevent sagging.

As described above, although the present invention has been described by way of limited embodiments, the present invention is not limited thereto, and it is described below with the technical idea of the present invention by those of ordinary skill in the art to which the present invention pertains. Various modifications and variations are possible within the scope of equivalents of the claims to be made.

100: pillar
200: connection beam
300: Jangjiganbo
400: lower coupling plate
500: web bonding plate
750: volt
751: nut
A: Connection

Claims (2)

A connecting beam welded in the transverse direction to the column,
And Jangjiganbo coupled to the end of the connecting beam,
A pair of brackets formed on one side of the upper end of the connecting beam and one side of the upper end of the Jangjiganbo;
A pair of wire coupling holes formed in the column at a position higher than the top height of the connecting beam and the long pole,
A pair of wires having one side connected to the bracket and the other side connected to the wire coupling hole to pull the connecting beam and the long pole,
The side and lower ends of the connecting beam and the long gantry beam are configured to be supported by a reinforcing member,
The reinforcing member is composed of a lower coupling plate for supporting and reinforcing the lower end of the connecting beam and the long girth, and a web coupling plate for supporting and reinforcing the side surfaces of the connecting beam and the long girder,
The lower coupling plate is in close contact with one side of the pillar in the longitudinal direction of the pillar and extends in one direction from the upper portion of the pillar coupling plate and the pillar coupling plate having a plurality of through-holes for fastening the fastener to the connecting beam and long It is closely attached to the lower flange of the connecting beam and is vertically installed in the middle of the lower flange coupling plate and the column coupling plate and the lower flange coupling plate in which a plurality of through holes for coupling the connecting beam and the long shaft together by a fastener are drilled. It consists of a reinforcing plate to prevent the lower flange coupling plate from sagging by being welded,
The web coupling plate is made of a pair, each in close contact with one side of the pillar in a direction perpendicular to the longitudinal direction of the pillar and a plurality of through-holes for fastening the fastener to the side of the pillar coupling plate and the pillar coupling plate A connecting beam extending in one direction from the connecting beam and being in close contact with the web of the connecting beam and the connecting beam, characterized in that it is composed of a web coupling plate with a plurality of through holes perforated for combining the connecting beam and the Jangji-ganbo together by a fastener. A steel structure for reinforcing the connecting part of the long pole. delete

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