KR102372358B1 - Steel pipe structure - Google Patents

Abstract

The present invention relates to a bending-reinforced steel pipe structure, and more particularly, to a semi-cylindrical first steel pipe and a semi-cylindrical first steel pipe by preparing a round steel pipe and cutting the round steel pipe in the longitudinal direction so that the round steel pipe is cut in half. Separated into 2 steel pipes, the first steel pipe is bent at a predetermined angle so that the first steel pipe is curved in the direction of the cut part of the first steel pipe or in a direction opposite to the cut part direction, and the second steel pipe is bent at the same bending angle as the first steel pipe The second steel pipe is bent so as to be curved in the direction of the cut part of the second steel pipe or in a direction opposite to the cut part direction, and the cut part of the bent first steel pipe and the cut part of the second steel pipe are butt welded to each other to form a curved steel pipe structure. It relates to a bending-reinforced steel pipe structure characterized in that.
According to the present invention, by cutting a circular steel pipe in the longitudinal direction, bending the semi-cylindrical first and second steel pipes in a curved manner, and then butt welding them to each other, bending the steel pipe more easily while maintaining the circular shape of the steel pipe It can be done, and it can be made with a large bending angle compared to bending the round steel pipe itself.

Description

Bending-reinforced steel pipe structure {Steel pipe structure}

The present invention relates to a curved, bending-reinforced steel pipe structure.

In general, in the construction of a bridge, the girder is an important element of the bridge that plays a role in transferring the load loads such as the fixed load and vehicle load acting on the superstructure of the bridge to the pier, the substructure of the bridge.

Such a girder can be classified into a steel girder made of steel in the form of a beam, and a concrete girder made by pouring concrete, and a steel girder or a concrete girder has been commonly used in bridge construction.

However, in recent years, the use of a steel pipe girder using a steel pipe having a circular cross section is gradually increasing due to the ease of manufacture and the superiority of the aesthetics.

However, the steel pipe girder has a disadvantage in that the resistance or rigidity to the load applied from the bridge superstructure is weak compared to the steel girder or the concrete girder.

On the other hand, in recent years, in the construction of a curved bridge with beautiful appearance in consideration of the landscape, a curved steel pipe girder suitable for the curvature of the curved superstructure is required.

However, it is necessary to bend a steel pipe girder in the form of a pipe with a circular cross section to match the curvature of the upper structure. There is a problem in that there is a limit to greatly increasing the bending angle of the steel pipe girder due to the structure of the steel pipe girder.

Korean Patent Publication No. 10-2113595 (Notice on May 21, 2020)

The object of the present invention, devised to solve the above problems, is to cut a circular steel pipe in the longitudinal direction, bend the semi-cylindrical first steel pipe and the second steel pipe in a curved shape, and then butt weld them to obtain a circular shape of the steel pipe. An object of the present invention is to provide a bending-reinforced steel pipe structure capable of more easily bending a steel pipe while maintaining its shape, and having a larger bending angle compared to bending a circular steel pipe itself.

In addition, an object of the present invention is to prevent the steel pipe structure from being easily crushed even when a load is applied to the manufactured steel pipe structure by bending the cut steel pipe and then inserting and welding a reinforcing plate inside the steel pipe. To provide a reinforcing steel pipe structure.

The present invention, devised to achieve the above object, provides a bending reinforcement steel pipe structure, in which a circular steel pipe is prepared, and the circular steel pipe is cut in the longitudinal direction so that the circular steel pipe is cut in half to form a semi-cylindrical first steel pipe and a semi-cylindrical The first steel pipe is bent at a predetermined angle so that the first steel pipe is bent in a direction opposite to the cut-off direction or the cut-off direction of the first steel pipe, and the second steel pipe is the first steel pipe. The second steel pipe is bent so as to be curved in the direction of the cut portion of the second steel pipe or in the opposite direction to the cut portion at the same bending angle, and the cut portion of the bent first steel pipe and the cut portion of the second steel tube are butt-welded to form a curved shape It is characterized in that it is completed as a steel pipe structure.

After bending of the first steel pipe, a first reinforcing plate is inserted inside the first steel pipe, the first reinforcing plate is welded to the inside of the cut portion of the first steel pipe, and after bending of the second steel pipe, the inner side of the second steel pipe A second reinforcing plate is inserted into the second reinforcing plate, and the second reinforcing plate is welded to the inside of the cut portion of the second steel pipe.

The first reinforcing plate has a key for coupling that protrudes toward the second reinforcing plate, and the second reinforcing plate has a key slit through which the key for coupling passes.

A coupling key protruding toward the second reinforcing plate is formed in the first reinforcing plate, and a bending groove into which the coupling key is inserted is formed in the second reinforcing plate.

According to the present invention, a circular steel pipe is cut in the longitudinal direction and the semi-cylindrical first and second steel pipes are bent to be bent and then butt welded to each other, so that the steel pipe can be bent more easily while maintaining the circular shape of the steel pipe. There is an effect that can be made with a large bending angle compared to bending the round steel pipe itself.

In addition, the present invention has an effect of preventing the steel pipe structure from being easily crushed even when a load is applied to the steel pipe structure by inserting and welding the reinforcing plate inside the cut and bent steel pipe.

1 is a flowchart showing a method of manufacturing a bending reinforcement steel pipe structure according to an embodiment of the present invention;
3 is an exploded perspective view showing a bending reinforcement steel pipe structure according to an embodiment of the present invention;
4 to 8 are cross-sectional views illustrating a bending reinforcement steel pipe structure according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the bending reinforcement steel pipe structure according to the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are flowcharts illustrating a method of manufacturing a bending-reinforced steel pipe structure according to an embodiment of the present invention, FIG. 3 is an exploded perspective view showing a bending-reinforced steel pipe structure according to an embodiment of the present invention, and FIGS. 4 to 8 is a cross-sectional view showing a bending reinforcement steel pipe structure according to an embodiment of the present invention.

1 to 8 , in the bending reinforcement steel pipe structure according to a preferred embodiment of the present invention, first, a circular steel pipe 100 is prepared (step S100 ). Here, the circular steel pipe 100 is formed in the form of a hollow pipe having a circular cross section.

Then, the circular steel pipe 100 is cut in the longitudinal direction so that the circular steel pipe 100 is cut in half exactly (step S200). The circular steel pipe 100 cut in the longitudinal direction in this way is separated into a first steel pipe 110 having a semi-cylindrical shape and a second steel pipe 120 having a semi-cylindrical shape, respectively.

Next, the first steel pipe 110 having a semi-cylindrical shape is curved (bent) in the direction opposite to the cut section 110a of the first steel pipe 110 or the cut section 110a direction, that is, to form a bending angle of a certain angle. The first steel pipe 110 is bent using a steel pipe bending machine (step S300).

In addition, the second steel pipe 120 having the same semi-cylindrical shape as the first steel pipe 110 is curved (bent) in the direction opposite to the cut part 120a or cut part 120a direction of the second steel pipe 120, that is, The second steel pipe 120 is bent (step S300) using a steel pipe bender to achieve a predetermined bending angle.

In this case, the bending angle of the second steel pipe 120 is the same as the bending angle of the first steel pipe 110 , and the bending direction of the first steel pipe 110 and the bending direction of the second steel pipe 120 are the same.

That is, when the first steel pipe 110 is bent in the direction of the cut portion 110a of the first steel pipe 110 , the second steel pipe 120 is also curved in the direction of the cut portion 120a of the second steel pipe 120 . When the bending process is performed and the first steel pipe 110 is bent in a direction opposite to the cut part 110a direction of the first steel pipe 110, the second steel pipe 120 and the cut part 120a of the second steel pipe 120 are bent. ) is bent in the opposite direction to the direction of bending.

Finally, the bent part 110a of the first steel pipe 110 and the cut part 120a of the second steel pipe 120 are butt welded to each other (step S400) to complete the curved steel pipe structure. In this case, it is preferable that the welding between the cut portions 110a and 120a of the first steel pipe 110 and the second steel pipe 120 is external butt welding.

As such, since it is impossible to bend the circular steel pipe 100 in a curved manner by increasing the bending angle while maintaining the circular shape in the structure of the circular steel pipe 100, the circular steel pipe 100 is cut in the longitudinal direction to obtain a semi-cylindrical shape. When the first steel pipe 110 and the second steel pipe 120 are bent to be curved, the steel pipe can be bent more easily while maintaining the circular shape of the steel pipe, and the circular steel pipe 100 itself is bent. Compared to that, it is possible to manufacture a steel pipe structure with a large bending angle.

On the other hand, after the bending of the first steel pipe 110, the first reinforcing plate 111 is inserted inside the first steel pipe 110, and the first reinforcing plate ( 111) may be welded (step S320).

In other words, an opening is formed in the center of the cut portion 110a formed on the side of the cut first steel pipe 110, and a first reinforcing plate 111 is installed inside the opening, but connecting both sides of the opening The first reinforcing plate 111 is welded to the inner side of the first steel pipe 110 in the form of a weld.

Even if a load is applied to the finally manufactured steel pipe structure due to the first reinforcing plate 111, it is possible to prevent the steel pipe structure from being easily crushed.

At this time, the first reinforcing plate 111 may be bent at the same angle as the curvature of the first steel pipe 110 to be installed long in the longitudinal direction of the first steel pipe 110 , and a plurality of first reinforcing plates 111 . ) may be installed to be spaced apart along the longitudinal direction of the first steel pipe 110 .

In addition, compared to welding the reinforcing plate to the inside of the circular steel pipe 100 , welding the first reinforcing plate 111 to the inside of the cut first steel pipe 110 has an advantage in easy operation.

Also, by inserting the second reinforcing plate 121 inside the second steel pipe 120 , the second reinforcing plate 121 may be welded to the inside of the cut portion 120a of the second steel pipe 120 .

In other words, an opening is formed in the center of the cut portion 120a formed on the side of the cut second steel pipe 120, and a second reinforcing plate 121 is installed inside the opening, but connecting both sides of the opening The second reinforcing plate 121 is welded to the inner side of the second steel pipe 120 in the form of a weld.

Even when a load is applied to the finally manufactured steel pipe structure due to the second reinforcing plate 121, it is possible to prevent the steel pipe structure from being easily crushed.

At this time, the second reinforcing plate 121 may be bent at the same angle as the curvature of the second steel pipe 120 to be installed long in the longitudinal direction of the second steel pipe 120 , and the plurality of second reinforcing plates 121 ) may be installed to be spaced apart along the longitudinal direction of the second steel pipe 120 .

In addition, as compared to welding the reinforcing plate to the inside of the circular steel pipe 100 , welding the second reinforcing plate 121 to the inside of the cut second steel pipe 120 is advantageous in operation.

In this way, the first reinforcing plate 111 is welded inside the first steel pipe 110 and the second reinforcing plate 121 is welded inside the second steel pipe 120 , and then the first reinforcing plate 111 and the second reinforcing plate 111 are welded. The first steel pipe 110 and the second steel pipe 120 are butt welded to each other with the reinforcing plates 121 facing each other and corresponding to each other.

At this time, when the first steel pipe 110 and the second steel pipe 120 are butt welded to each other to form a curved steel pipe structure, the first reinforcing plate 111 and the second reinforcing plate 121 are welded to the inside of the steel pipe structure. These become non-contact with each other.

On the other hand, the first reinforcing plate 111, the coupling key 111a protruding toward the second reinforcing plate 121 is formed, the second reinforcing plate 121, the coupling key (111a) is penetrated A key slit 121a may be formed.

This is when the cut portion 110a of the first steel pipe 110 and the cut portion 120a of the second steel pipe 120 are butt welded to each other, the key slit 121a formed in the second reinforcing plate 121 facing each other. The cutting part 110a of the first steel pipe 110 and the cutting part 120a of the second steel pipe 120 are cut in a state in which the coupling key 111a formed on the first reinforcing plate 111 passes through each other. It is possible to easily butt-weld the first steel pipe 110 and the second steel pipe 120 to each other while maintaining the circular steel pipe 100 in a circular shape.

On the other hand, as another embodiment, the first reinforcing plate 111, the coupling key 111a protruding toward the second reinforcing plate 121 is formed, the second reinforcing plate 121, the coupling key ( A bent groove 121b into which the 111a is inserted may be formed.

This is when the cut portion 110a of the first steel pipe 110 and the cut portion 120a of the second steel pipe 120 are butt welded to each other, the bending groove 121b formed in the corresponding second reinforcing plate 121 facing each other. The coupling key 111a formed on the first reinforcing plate 111 is accommodated inside of It is possible to easily butt weld the first steel pipe 110 and the second steel pipe 120 to each other while maintaining the cut circular steel pipe 100 in a circular shape.

On the other hand, for example, a steel pipe structure manufactured by butt-welding the first steel pipe 110 and the second steel pipe 120 in a state where the first reinforcing plate 111 and the second reinforcing plate 121 are perpendicular to the lower part of the bridge When seated on the pier, which is the structure, when the pier is viewed from above, the steel pipe structure is curved in the transverse direction of the pier, that is, in the left or right direction of the pier.

And, for example, the first steel pipe 110 and the second steel pipe 120 are butt welded to the lower part of the bridge in a state in which the first reinforcing plate 111 and the second reinforcing plate 121 are horizontally welded to each other. When seated on the pier, which is a structure, when the pier is viewed from the side, the steel pipe structure is curved in the upper or lower direction of the pier.

On the other hand, all upper structures such as steel plate or concrete are used on the bending reinforcing steel pipe structure of the present invention.

And, the bending-reinforced steel pipe structure of the present invention is used for a girder bridge, a ramen bridge, a box (underpass, storage tank), and the like. In addition, the bending-reinforced steel pipe structure of the present invention can be used for columns such as piers and abutments, walls, and the like.

In the above, the present invention has been described based on a preferred embodiment, but the technical spirit of the present invention is not limited thereto, and it is possible to make modifications or changes within the scope described in the claims. Those of ordinary skill in the art to which the present invention pertains It is obvious to the user, and such modifications or changes shall fall within the scope of the appended claims.

100: round steel pipe
110: first steel pipe
110a, 120a: cut part
111: first reinforcing plate
111a: key for combining
120: second steel pipe
121: second reinforcing plate
121a: key slit
121b: bending groove

Claims (4)

A circular steel pipe is prepared, the circular steel pipe is cut in the longitudinal direction so that the circular steel pipe is cut in half to be separated into a semi-cylindrical first steel pipe and a semi-cylindrical second steel pipe, respectively, and the first steel pipe is the first steel pipe The first steel pipe is bent at a certain angle so as to be curved in the direction of the cut portion or the opposite direction to the cut direction of The second steel pipe is bent so as to be curved, and the cut part of the bent first steel pipe and the cut part of the second steel pipe are butt-welded to complete a curved steel pipe structure,
After bending of the first steel pipe, a first reinforcing plate is inserted inside the first steel pipe, the first reinforcing plate is welded to the inside of the cut portion of the first steel pipe, and after bending of the second steel pipe, the inner side of the second steel pipe The second reinforcing plate is inserted into the second reinforcing plate inside the cut portion of the second steel pipe, and the second reinforcing plate is welded,
A bending-reinforced steel pipe structure, characterized in that the first reinforcing plate is provided with a coupling key protruding toward the second reinforcing plate, and a key slit through which the coupling key passes is formed in the second reinforcing plate. delete delete A circular steel pipe is prepared, the circular steel pipe is cut in the longitudinal direction so that the circular steel pipe is cut in half to be separated into a semi-cylindrical first steel pipe and a semi-cylindrical second steel pipe, respectively, and the first steel pipe is the first steel pipe The first steel pipe is bent at a certain angle so as to be curved in the direction of the cut portion or the opposite direction to the cut direction of The second steel pipe is bent so as to be curved, and the cut part of the bent first steel pipe and the cut part of the second steel pipe are butt-welded to complete a curved steel pipe structure,
After bending of the first steel pipe, a first reinforcing plate is inserted inside the first steel pipe, the first reinforcing plate is welded to the inside of the cut portion of the first steel pipe, and after bending of the second steel pipe, the inner side of the second steel pipe A second reinforcing plate is inserted into the second reinforcing plate inside the cut portion of the second steel pipe, and the second reinforcing plate is welded,
A coupling key protruding toward the second reinforcing plate is formed on the first reinforcing plate,
Bending reinforcement steel pipe structure, characterized in that the second reinforcing plate is formed with a bent groove into which the coupling key is inserted.

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