KR20100093369A - Structure for connecting horizontal beam to h type beam - Google Patents

Abstract

PURPOSE: A coupling structure of a horizontal girder and an h-beam post is provided to increase work stability and to reduce a work time at a construction site. CONSTITUTION: A coupling structure of a horizontal girder comprises a plurality of H-steel posts(10), a bottom plate(20), a cover plate(30), a bracket plate(35) and an H-steel horizontal girder(50). The H-steel post is vertically fixed small-diameter on the ground. The H-steel post is composed of a flange(12) and a web(14). The bottom plate and cover plate are fixed to the H-steel post to be separated to the top and bottom. The bottom plate and cover plate are fixed to be vertically toward the web. The H-steel horizontal girders interlinks with each other.

Description

Structure for connecting horizontal beam to H type beam

The present invention relates to a coupling structure of the H-beams and horizontal beams, and more particularly, the combination of H-beams and horizontal beams that can shorten the working time at the construction site as much as possible, and increase the stability of the working environment of the worker. It's about structure.

In general, building structures are classified according to the material of the structure under stress, which includes masonry building made of brick material, steel frame building made of steel material, reinforced concrete building made of concrete and steel material, and wood material. Wooden buildings.

In particular, in recent years, in the construction of large buildings, reinforced concrete-like buildings have been adopted in construction.

In order to build a reinforced concrete building, first chop the ground, fix the reinforcement column vertically so as not to shake on the ground, and then reinforce the girders (girder, girder) connecting the column and the pillar to meet the design standards of the building. By linking them together) to complete the skeleton. Then, by overlaying concrete, a solid building is completed.

Korean Patent No. 10-0766301 discloses a method of coupling columns and girders of reinforced concrete-like buildings among types of building structures.

The reinforced concrete tank building disclosed in Korean Patent No. 10-0766301 is vertically fixed to the ground so that a plurality of pillars constituting a skeleton are spaced apart, and a girder connecting the plurality of pillars is provided.

The pillars and girders are composed of a pair of spaced flanges and webs connecting the flanges to each other and are provided with H-beams or H-beams having a substantially H-shaped cross section.

According to Korean Patent No. 10-0766301, in order to fix the H-beam girder to the plurality of H-beams, the H-beam girder is first moved to a lower plate which is pre-welded to contact the flange and the web of the H-beam. After mounting, fix bolting. Then, the upper plate is bolted and fixed to the H-beam, and then the upper plate is welded and fixed to contact the flange and the web of the H-beam pillar.

However, the coupling structure of the pillar and the girder according to the Patent No. 10-0766301, there is a problem in the work that the girder is inserted between each flange of the H-beams to pass vertically downward to be mounted on the lower plate have. This leads to a problem of delaying the work time due to a long copper wire of the crane moving the girder and a difficult construction due to a plurality of plates protruding for each floor.

In addition, the coupling structure of the pillar and the girder according to the Patent No. 10-0766301, although the lower plate has the advantage that can be fixed in advance in the factory to the H-beam column, in the case of the upper plate in the construction site Only after the H-beam girder is directly mounted on the H-beam, it is necessary to separately improve and weld the H-beam to contact the flange and the web. .

It is an object of the present invention to provide a coupling structure of an H-beam column and a horizontal beam that can shorten the working time at a construction site as much as possible and increase worker's working environment stability.

The coupling structure of the H-beams and the horizontal beam according to the present invention, the H-beams consisting of a flange arranged at a predetermined interval, the web connecting the flange, and the H-beams to contact the flange and the web A top plate and a bottom plate which are spaced apart from each other, a bracket plate fixed to the H-beams to be in contact with the top plate, the bottom plate and the web, mounted on the bottom plate and fixed to the bracket plate, and fixed to the bracket plate. It includes H-beam horizontal beam.

Here, the lower plate may be formed to protrude to the outside of the H-beams.

In addition, the bracket plate may include a joint integrally formed to protrude outward of the H-beams so as to contact the H-beams on the outside of the H-beams.

In addition, the H-beam horizontal beam may include a lower flange mounted on the upper surface of the lower plate, an upper flange jointly fixed to the upper plate, a web connecting the lower flange and the upper flange and joined to the bracket plate. Can be.

The lower plate of the H-beams and the lower flange of the H-beams are bolted or welded, and the upper plate of the H-beams and the upper flanges of the H-beams are welded. Is coupled, the bracket plate of the H-beams and the web of the H-beams horizontal beam may be bolted.

The combined structure of the H-beams and the horizontal beams according to the present invention, in the mounting of the H-beams on the lower plate formed on the H-beams, such as the horizontal direction or vertical direction can be selectively moved by the operator to mount the work copper By shortening it has the effect of greatly reducing the work time.

In addition, the present invention has the effect of greatly improving the working environment stability of the operator by reducing the work process on the dangerous site in coupling the H-beam horizontal beam to the H-beam column.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the coupling structure of the H-beams and the horizontal beam according to the present invention will be described in detail.

1 is a perspective view showing a preferred embodiment of the coupling structure of the H-beams and the horizontal beam according to the present invention, Figure 2 is an exploded perspective view showing the coupling structure of the H-beams and horizontal beam of Figure 1, 1 is a perspective view showing the H-beam pillar of the configuration.

The coupling structure of the H-beam column and the horizontal beam according to the present invention, referring to Figures 1 to 3, a plurality of H-beam column 10 is fixedly arranged on the ground vertically spaced apart a predetermined interval, and the plurality of An H-beam horizontal beam 50 connecting two adjacent H-beam columns 10 among the H-beam columns 10 is included.

Here, the H-beam column 10 is composed of a flange 12 arranged to be spaced apart by a predetermined interval, and a web 14 connecting the flange 12. The H-shaped steel column 10 having such a configuration may be made of an integral reinforcing material. Preferably, the H-beam column 10 has a horizontal cross-section having a substantially “H” shape connected by the web 14 formed to cross the center of each of the flanges 12.

As shown in FIG. 3, the H-beam column 10 has a lower plate 20 and an upper plate spaced up and down so that the three edge ends of the flange 12 and the web 14 are in contact with each other. 30 is fixed. As the lower plate 20 and the upper plate 30 are fixed to the H-beam 10, a welded joint fixing method may be adopted.

Here, the lower plate 20 is formed in the inner space 15 formed between the flange 12 and the web 14, the H-beam horizontal beam 50 is fixed to the H-beam column 10 ) Is formed in a size protruding a predetermined length outward from the inner space 15 in the horizontal direction.

The lower plate 20 protrudes outward from the inner space 15 to support the H-beam horizontal beam 50 that connects and fixes the plurality of H-beam columns 10 by bolting. do.

Naturally, a plurality of bolt fastening holes 25a are formed in the lower plate 20 in order to fix the H-beam horizontal beam 50 using the high-strength bolt 62. In addition, the bolt fastening hole 54a is also formed in the lower flange 52 of the H-beam horizontal beam 50 so that the high-strength bolt 62 passing through the bolt fastening hole 25a can be sequentially fastened. Of course.

Each of the bolt fastening holes 25a and 54a formed in the lower plate 20 and the H-beam horizontal beam 50 is a center of the lower plate 20 and a web of the H-beam horizontal beam 50. It may be formed / arranged in a plurality of rows on both sides of the lower flange 52 about 14.

The high-strength bolt 62 penetrates through the bolt fastening hole 25a formed in the lower plate 20 at approximately the bottom, and sequentially tightens the bolt formed in the lower flange 52 of the H-beam horizontal beam 50. After penetrating the ball 54a, it is firmly engaged by the nut 64. However, when the H-beam horizontal beam 50 is coupled to the H-beam column 10, it is not necessarily based on the above-described bolting coupling method, the bottom plate 20 and the H-beam horizontal beam 50 of the It is also possible to adopt a welding joint coupling method for connecting the lower flanges 52 to each other by welding. In addition, it is obvious that the above-described bolting and welding joint coupling scheme may be combined / adopted.

On the other hand, the upper plate 30 is preferably formed in a size corresponding to the size of the inner space 15 of the H-beam column 10. That is, the upper plate 30 is formed to have a size that does not protrude outward from the inner space 15. The upper plate 30 serves to weld / fix the upper flange 52 of the H-beam horizontal beam 50 to the H-beam 10.

Here, the present invention, the lower surface of the upper plate 30 and the H-shaped steel column 10 to easily weld the upper flange 52 of the H-beam horizontal beam 50 to the upper plate 30. The lower plate of the upper plate 30 may be provided with a joint iron plate 40 to be connected to each other.

However, only the bolting or welding coupling force of the H-beams horizontal beam 50 to the lower plate 20 and the welding coupling force of the upper plate 30 may not sufficiently support the load and stress of the structure being raised thereon. There is a problem.

In order to solve this problem, the present invention, between the lower plate 20 and the upper plate 30, the upper surface of the lower plate 20 and the lower surface of the upper plate 30 and the H-beams 10 Bracket plate 35 is provided to be vertically fixed to contact one surface of the web (14) of the configuration. Here, the bracket plate 35 is fixed in such a way that the welded joint is fixed to the H-beams (10).

The bracket plate 35 widens the fixing surface fixed to the web 14 of the H-beam column 10 to withstand sufficient load and stress.

As shown in FIG. 3, the bracket plate 35 is formed to protrude a predetermined length (see reference numeral “I”) in the outward direction from the inner space 15. As such, the protruding surface protruding from the inner space 15 of the H-beam column 10 is bolted to one side of the web 54 constituting the H-beam horizontal beam 50.

As shown in FIG. 2, a plurality of bolt fastening holes 55a are drilled on the web 54 of the H-beam horizontal beam 50 so as to be bolted to the bracket plate 35 by a high force bolt 37. Is formed. The process of coupling the H-beam horizontal beam 50 to the bracket plate 35 is not significantly different from that described above. That is, the high-strength bolt 37 passes through the bolt fastening hole 35a formed in the bracket plate 35 and the bolt fastening hole 55a formed in the web 54 of the H-beam horizontal beam 50. After fastening, the nut 39 may be firmly coupled to each other.

In the coupling structure of the H-beam column and the horizontal beam according to the present invention having such a configuration, it is not necessary to move the H-beam horizontal beam 50 in the vertical direction by using a crane. That is, the crane operator only needs to mount the H-beam horizontal beam 50 on the upper surface protruding from the inner space 15 of the lower plate 20, so that the movement work regardless of the vertical direction or horizontal direction It can increase the work efficiency. For this reason, by shortening the copper wire of the H-beam horizontal beam 50, there is also an advantage that can greatly shorten the working time.

In addition, the H-beams 10 provided with the lower plate 20, the upper plate 30, and the bracket plate 35 produce / produce the H-beams 10 that are not actual construction sites. Since the factory is produced / manufactured in consideration of the design value in advance, there is an advantage of reducing the time required for the worker to weld unnecessarily at the construction site and increasing the stability of the worker's working environment.

Referring to the installation process of the coupling structure of the H-beams and horizontal beams according to an embodiment of the present invention made as described above are as follows.

First, the worker in consideration of the design value in advance in the factory producing / manufacturing the H-beam column 10 in the manner of welding the lower plate 20, the upper plate 30, the bracket plate 35 by the H It is fixed to the beam pillar (10).

After moving the H-beams 10 produced / manufactured as described above to a construction site, the H-beams 10 are fixed to the ground to be well ground.

Then, the H-beam horizontal beam 50 is moved by using a crane to be mounted on the upper surface of the lower plate 20 of the H-beam column 10.

As such, the H-beam horizontal beam 50 mounted on the upper surface of the lower plate 20 is first formed using the high-strength bolt 62 and the bolt fastening holes 25a and the H-shaped steel formed on the lower plate 20. After passing through the bolt fastening hole (54a) formed in the flange 52 of the horizontal beam (50) sequentially and fastened / coupled with a nut 64, the bracket plate 35 using another high-strength bolt 37 The bolt fastening hole 35a and the bolt fastening hole 55a formed in the web 54 of the H-beam horizontal beam 50 are sequentially passed through the H-beam pillar 10 by using a nut 39. The H-beam horizontal beam 50 is firmly fixed to.

Finally, by welding the joint plate 40 against the end of the upper plate 30 and the upper flange 12 of the H-beam horizontal beam 50 to the H-beam 10 according to the invention The coupling process of the H-beam horizontal beam 50 for is completed.

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is indicated by the scope of the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts are included in the scope of the present invention. Should be interpreted as

1 is a perspective view showing a preferred embodiment of the coupling structure of the H-beams and horizontal beams according to the present invention,

Figure 2 is an exploded perspective view showing a coupling structure of the H-beam and horizontal beam of Figure 1,

3 is a perspective view showing the H-beam column in the configuration of FIG.

<Explanation of symbols on main parts of the drawings>

10: H-beam column 12: flange

14 web 15 inner space

20: lower plate 25a: bolt fastening hole

30: upper plate 35: bracket plate

35a: bolt fastener 37: high-strength bolt

39: nut 40: joint plate

50: H beam horizontal beam 52: flange

54: Web 54a: Bolt fastener

55a: bolt fastener 62: high-strength bolt

64: nut

Claims (5)

An H-beam column consisting of a flange arranged at a predetermined interval and a web connecting the flange; An upper plate and a lower plate fixed to the H-beams so as to contact the flange and the web; A bracket plate fixed to the H-beams so as to contact the upper plate, the lower plate, and the web; The coupling structure of the H-beams and the horizontal beam mounted on the lower plate and fixed, comprising an H-beam horizontal beam fixed to contact the bracket plate. The method according to claim 1, The lower plate is a coupling structure of the H-beams and the horizontal beam formed to protrude to the outside of the H-beams. The method according to claim 1, The bracket plate, the coupling structure of the H-beams and horizontal beams including a joint formed integrally protruding outward of the H-beams to contact the H-beams on the outside of the H-beams. The method according to claim 3, The H-beam horizontal beam, A lower flange mounted on an upper surface of the lower plate; An upper flange jointly fixed to the upper plate; Joining structure of the H-beams and horizontal beams connecting the lower flange and the upper flange, and comprising a web joined to the bracket plate. The method according to claim 4, The lower plate of the H-beams and the lower flange of the H-beams are horizontally bolted or welded, The upper plate of the H-beams and the upper flange of the H-beam horizontal beam is welded joint, The bracket plate of the H-beams and the web of the H-beams horizontal beam coupling structure of the H-beams and horizontal beams are bolted coupling.

Images