KR102567830B1 - Assembly of steel beam with easy construction - Google Patents

Abstract

The present invention provides a steel beam assembly with easy construction comprising: a plurality of steel beams (10) separated from each other to be positioned at regular intervals; and one or more spacing bars (20) consisting of first and second spacing bars (21, 25) to connect adjacent steel beams (10) to each other, and having a first hinge part (210) provided on one end portion of the first spacing bar (21) and coupled to one side portion of a steel beam (10) positioned on one side portion, a second hinge part (250) provided on the other end portion of the second spacing bar (25) and coupled to the other side portion of a steel beam (10) positioned on the other side portion, and a third hinge part (230) provided on the other end portion of the first spacing bar (21) and one end portion of the second spacing bar (25).

Description

Assembly of steel beam with easy construction {Assembly of steel beam with easy construction}

The present invention relates to a steel beam assembly, and more specifically, a steel beam can be installed very conveniently and quickly in a site where it is difficult to secure a work space where the space is relatively narrow or surrounded by other structures, It also relates to a steel beam assembly that is easy to store and can be reused for a long time.

A steel beam, commonly called an H-beam, is a steel column made to be used as a frame of a building. In addition to reinforced concrete buildings or steel-framed buildings, it holds the retaining walls so that they do not collapse at the site where excavation work of a certain depth or more is in progress. It is widely used for its purpose.

Since these steel beams themselves are quite heavy, move the steel beams to the location where construction is required using a crane, etc., and then place the lower part of each steel beam in a state where the steel beams are vertically erected at each point where construction is required. It is installed sequentially through the steps of fixing and coupling to the pre-cast concrete foundation.

However, construction sites or demolition sites do not cover more than a certain area or are not made of open land that can secure enough work space, and the site periphery is surrounded by separate buildings or structures, such as in the city center, or is very narrow. In this case, it is not easy to install the steel beam in this conventional manner. Therefore, there is an urgent need for a technology capable of more conveniently installing a steel beam at a work site or conveniently disassembling and collecting an already installed steel beam.

Republic of Korea Patent Publication No. 2021-0115759

The present invention has been proposed to improve the problems of the prior art, and the object of the present invention is to construct steel beams very conveniently and at the same time even if the work site is narrow, and to dismantle and collect the constructed structure very quickly. It is to provide a steel beam assembly that can be performed efficiently.

The present invention, in order to achieve this object, a plurality of steel beams (10) located spaced apart from each other at regular intervals; The first and second spacing bars 21 and 25 are composed of at least one connecting between the adjacent steel beams 10, and the first spacing bars 21 are located on one side of each end portion. A first folding part 210 coupled to one side of the steel beam 10 is provided, and the other side of the steel beam 10 is located at the other end of each of the second spacing bars 25. A second folding portion 250 coupled to is provided, and a third folding portion 230 is provided at the other end of each of the first spacing maintaining bars 21 and at one end of each of the second spacing maintaining bars 25 Including, the first folding part 210, each of the first coupling end 211 coupled to one side portion of the steel beam 10 located on one side portion; and the first spacing maintaining bar 20 It is provided at one end of each bar 21 and consists of first folding ends 213 rotatably coupled to each of the first coupling ends 211; Each of the second folding parts 250 is provided at the other end of the second coupling end 251 and the second spacing bar 25 coupled to the other side of the steel beam 10 located at the other side. It consists of a second folding end 253 rotatably coupled to each of the two coupling ends 251; Each of the third folding parts 230 is provided at one end of each of the third folding end 231 provided at the other end of the first spacing maintaining bar 21 and the second spacing maintaining bar 25, respectively. to the fourth fold end 233 coupled to each end 231; It is characterized by its technical characteristics.

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At this time, each of the first space keeping bars 21 has a first fixed bar 22 having a first folding end 213 provided at one end and a third folding end 231 provided at the other end. is made of a first spacing control bar 24 coupled to the other end of the first fixing bar 22; Each of the second space keeping bars 25 has a second fixing bar 26 having a second folding end 253 provided at the other end and a fourth folding end 233 provided at one end, and the other end is 2 may be made of a second spacing control bar 28 coupled to one end of the fixing bar 26.

In addition, at this time, at least one of the one side and the other side of the steel beam 10 has a through hole for coupling with either the first folding end 213 or the second folding end 253. (11) may be formed with different vertical heights.

In addition, at this time, at least one of the front and rear parts of the steel beam 10 has a first connection end 13 for maintaining a distance from the steel beam 10 located at a certain distance in the front or rear Alternatively, any one of the second connection ends 15 may be provided.

In the present invention, a plurality of steel beams are interconnected by spacing bars, but the spacing bars themselves as well as the spacing bars are connected in a configuration in which each of the spacing bars is folded at a certain angle with respect to the steel beam, so that the space is relatively narrow or the surroundings are different. It is very convenient and quick to install steel beams at the same time in a site where it is difficult to secure a working space surrounded by structures.

In addition, the present invention is suitable for demolition in that it is possible to fold and fold the steel beam structure by simple separation of fastening bolts, so that it is easy to store even in a narrow space, and it is very convenient to dismantle and collect the structures after construction is completed. It has the advantage of being able to significantly reduce the work time according to the process and of course being able to reuse it for a long time.

1 is a schematic configuration diagram showing a folded state of a steel beam assembly according to the present invention.
Figure 2 is a schematic configuration diagram showing the unfolded state of the steel beam assembly according to the present invention.
Figure 3a is a schematic configuration showing a folded state of the spacing bar in the steel beam assembly according to the present invention.
Figure 4b is a schematic configuration diagram showing a state in which the spacing bar is unfolded in the steel beam assembly according to the present invention.

Looking at the preferred embodiment according to the present invention in detail with reference to the accompanying drawings, as follows, in detailing the embodiment of the present invention, there is no direct relationship with the technical features of the present invention, or A detailed description will be omitted for matters that are obvious to those skilled in the art.

The present invention relates to an assembly of steel beams, and has a technical feature comprising a steel beam 10 and a spacing bar 20. Hereinafter, each of these configurations will be described in detail.

The steel beam 10 is a section steel such as a conventional H beam, and may be formed of a plurality of pieces spaced apart from each other at regular intervals. Although three steel beams 10 are disclosed in the drawing, it can be made of two or four or more, of course.

At this time, as shown in FIG. 1, the steel beam 10 may have a plurality of through holes 11 having different vertical heights formed on at least one of one side and the other side. The through hole 11 may be formed in both the upper and lower portions of the steel beam 10 as shown in the drawing, as well as may be formed in any one selected portion.

This through hole 11 is for coupling with either the first folding end 213 or the second folding end 253 in each of the first and second spacing bars 21 and 25 to be described later. The reason for forming a plurality of through-holes 11 is that the coupling position of the first and second spacing bars 21 and 25 may vary depending on the vertical height of the steel beam 10 and the construction site.

In addition, as disclosed in FIG. 1, in the present invention, any one of the first connection end 13 and the second connection end 15 is provided on at least one of the front and rear parts of the steel beam 10. It does not rule out the case of The drawing discloses a case in which connection ends are provided in both the upper and lower parts, but, unlike this, any one connection end may be provided in a specific area.

The first and second connection ends 13 and 15 are for coupling with the auxiliary spacing maintaining bar 30 for maintaining a distance with the steel beam 10 located at a predetermined distance in the front or rear, which will be described later. Reference numeral 17 denotes a fastening hole for coupling with any one of the first and second connecting ends 13 and 15, and if one of the connecting ends is provided at a specific part, the fastening hole 17 is also provided at the upper or lower part accordingly. It may be formed in any one of the sites.

The spacing bar 20 is a means for maintaining and adjusting the distance between the adjacent steel beams 10 on one side and the steel beam 10 on the other side, and the spacing bar 20 according to the present invention is a first spacing bar (21) and a second space maintaining bar (25).

At this time, a first folding portion 210 is provided at one end of each first spacing maintaining bar 21, and a second folding portion 250 is provided at the other end of each second spacing maintaining bar 25, The third folding part 230 is provided at the other end of each first spacing maintaining bar 21 and at one end of each second spacing maintaining bar 25.

In addition, each of the first folds 210 is coupled to one side of the steel beam 10 located on one side, and each of the second folds 250 is the other side of the steel beam 10 located on the other side. It is coupled to the side portion, and each of the second folding parts 250 connects the first and second spacing bars 21 and 25, respectively.

Meanwhile, in the present invention, as disclosed in FIGS. 3A and 3B , each of the first folds 210 includes a first coupling end 211 and a first fold end 213, and the second folds 250 ) is composed of the second coupling end 251 and the second folding end 253, and the third folding part 230 is composed of the third and fourth folding ends 131 and 233, respectively.

In this case, each of the first coupling ends 211 is coupled to any one of the through holes 11 formed on one side of the steel beam 10 located on one side and fixed to the steel beam 10, Each of the first folding ends 213 is provided at one end of each of the first spacing bars 21 and is rotatably coupled to each of the first coupling ends 211 .

And, each of the second coupling ends 251 is coupled to any one of the through holes 11 formed on the other side of the steel beam 10 located on the other side and fixed to the steel beam 10, and the second Each of the folding ends 253 is provided at the other end of each of the second space keeping bars 25 and is rotatably coupled to each of the second coupling ends 251 .

In addition, each of the third folding ends 231 is provided at the other end of each of the first spacing maintaining bars 21, and each of the fourth folding ends 233 is provided at one end of each of the second spacing maintaining bars 25. It is coupled to each of the third folding end 231. The third and fourth folding ends 231 and 233 are rotatably coupled to each other.

In addition, at this time, the present invention does not exclude the case where the first and second spacing bars 21 and 25 are composed of the first and second fixing bars 22 and 26 and the first and second spacing control bars 24 and 28, respectively. don't In this case, each of the first fixing bars 22 has a first folding end 213 provided at one end thereof, and each of the second fixing bars 26 has a second folding end 253 provided at the other end thereof. .

In addition, each of the first spacing control bars 24 has a third folding end 231 provided at the other end, and one end thereof is coupled to the other end of the first fixing bar 22, and the second spacing control bar 28 Each has a fourth folding end 233 at one end and the other end is coupled to one end of the second fixing bar 26.

First and second spacing adjusting units 241 and 281 may be formed at one end and the other end of each of the first and second spacing adjusting bars 24 and 28, respectively. Each of the first and second spacing adjusting units 241 and 281 is made of a double-headed bolt as shown in the drawing, and is engaged with the first and second spacing adjusting bars 24 and 28 and the first and second fixing bars 22 and 26, respectively. can

In this case, as shown in FIG. 3B, when the first and second spacing adjusting units 241 and 281 are rotated in one direction or the other direction, the first and second spacing adjusting bars 24 and 28 and the first and second fixing bars ( 22, 26) as the distance between the angles increases or narrows, it is possible to adjust the distance between adjacent steel beams 10 according to the intended distance.

For convenience of description, the accompanying drawing discloses a case in which two spacing bars 20 are provided vertically between adjacent steel beams 10, but, unlike this, one spacing bar 20 is provided or , Or, of course, three or more spacing bars 20 may be provided. This may vary depending on the vertical height of the steel beam 10, the characteristics of the building, and the situation at the construction site.

A schematic usage state of the present invention having such a configuration will be described with reference to the foregoing description and accompanying drawings.

First, the steel beam assembly is transported to a site where the construction of the steel beam is required. In the steel beam assembly according to the present invention, as shown in FIG. 1, each of the spacing bars 20 may be folded and stored, and loaded in a vehicle in a folded and assembled state, and then transported to a construction site.

When the steel beam assembly arrives at the site, the spacing bar 20 provided between the steel beams 10 is spread. That is, the third and fourth folding ends 231 and 233 are rotated in one direction and the other direction, respectively, to spread the first and second spacing bars 21 and 25 horizontally, and then the first and second folding ends 211 , 251) are rotated in one direction and the other direction to adhere to one side and the other side of the steel beam 10 located on one side and the other side, respectively.

When the first and second spacing bars 21 and 25 are spread horizontally, the third and fourth folding ends 231 and 233 are naturally in close contact with each other, and a separate fastening bolt is applied to the third and fourth folding ends 231 , 233) through-coupled to each of the fastening holes 232 and 234 formed in each of the third and fourth fold ends 231 and 233 closely coupled to each other.

When the third and fourth fold ends 231 and 233 are coupled, a separate fastening bolt is applied to each of the fastening holes 212 and 252 formed in the first and second fold ends 211 and 251 and the steel beam 10 ) is coupled to any one of the through holes 11 formed on one side and the other side of the first and second fold ends 211 and 251, respectively, on one side and the other side of the steel beam 10. fixed on each

As shown in FIG. 2, when each of the first and second spacing bars 21 and 25 is fixed to one side and the other side of the adjacent steel beam 10 in an unfolded state, it is unfolded using a separate crane or the like. After moving the steel beam assembly to a location where installation is required, adjust the lower portion of each steel beam 10 constituting the steel beam assembly to be located at the upper portion of the other cast concrete foundation.

When the lower end of each of the steel beams 10 is located at the upper end of the other cast concrete foundation, as shown in FIG. 3B, the first and second spacing adjusting units 241 and 281 are rotated in one direction or the other, respectively, to form a steel beam assembly. Fine adjustment is made so that each lower end of each of the steel beams 10 constituting the concrete base is accurately positioned on top of the concrete foundation, and then each lower end of the steel beam 10 is fixed to the concrete foundation.

After that, other steel beam assemblies are also spread as shown in FIG. 2, and then sequentially applied to the upper part of the concrete foundation located at another point through the same steps, and adjacent steel beam assemblies are mutually connected using a separate auxiliary spacing bar 30. When the liver is integrated, the construction work of the steel beam according to the present invention is completed.

When a steel beam assembly is constructed to support a temporary building rather than a fixed building, after the construction of the site is completed, the constructed steel beam assembly is dismantled in the reverse order of the above steps, and each fastening bolt is separated, as shown in FIG. The steel beam assembly can be transported and stored in a folded state to prepare for the next construction.

In the above, the description has been limited to the preferred embodiments of the present invention, but this is only an example, and the present invention is not limited thereto and can be modified and implemented in various ways, and furthermore, separate technical features are provided based on the disclosed technical idea. It will be obvious that it can be added and implemented.

10: steel beam 11: through hole
17: coupling hole 20: spacing bar
21: first interval maintenance bar 25: second interval maintenance bar
22, 26: first and second fixing bars 24, 28: first and second spacing control bars
210: first folding portion 230: third folding portion
250: second folding portion 211: first coupling end
213: first folding end 231: third folding end
233: 4th folding end 241: first gap adjustment unit
251: second coupling end 253: second folding end
281: second spacing control unit

Claims (5)

A plurality of steel beams 10 spaced apart from each other at regular intervals;
The first and second spacing bars 21 and 25 are composed of at least one connecting between the adjacent steel beams 10, and the first spacing bars 21 are located on one side of each end portion. A first folding part 210 coupled to one side of the steel beam 10 is provided, and the other side of the steel beam 10 is located at the other end of each of the second spacing bars 25. A second fold portion 250 coupled to is provided, and a third fold portion 230 is provided at the other end of each of the first spacing maintaining bars 21 and at one end of each of the second spacing maintaining bars 25 Including; spacing bar 20;
Each of the first folding parts 210 is provided at one end of the first coupling end 211 and the first spacing bar 21 coupled to one side of the steel beam 10 located on one side. It consists of first folding ends 213 rotatably coupled to each of the first coupling ends 211; Each of the second folding parts 250 is provided at the other end of the second coupling end 251 and the second spacing bar 25 coupled to the other side of the steel beam 10 located at the other side. It consists of a second folding end 253 rotatably coupled to each of the two coupling ends 251; Each of the third folding parts 230 is provided at one end of each of the third folding end 231 provided at the other end of the first spacing maintaining bar 21 and the second spacing maintaining bar 25, respectively, and third folding to the fourth fold end 233 coupled to each end 231; A steel beam assembly that is easy to construct, characterized in that made. delete According to claim 1,
Each of the first spacing maintaining bars 21 has a first fixing bar 22 having a first folding end 213 provided at one end and a third folding end 231 provided at the other end, and the first end is It consists of a first spacing control bar 24 coupled to the other end of 1 fixing bar 22; Each of the second space keeping bars 25 has a second fixing bar 26 having a second folding end 253 provided at the other end and a fourth folding end 233 provided at one end, and the other end is Consisting of a second spacing control bar 28 coupled to one end of the 2 fixing bar 26; Steel beam assembly that is easy to construct, characterized in that. According to claim 1,
At least one of the one side and the other side of the steel beam 10 has a through hole 11 for coupling with either the first folding end 213 or the second folding end 253. A steel beam assembly that is easy to construct, characterized in that it is formed with different vertical heights. According to claim 1,
At least one of the front and rear parts of the steel beam 10 has a first connection end 13 or a second connection for maintaining a distance with the steel beam 10 located at a certain distance in the front or rear. A steel beam assembly that is easy to construct, characterized in that any one of the steps (15) is provided.

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