KR20210003619A - Tublar pole and tublar pole type tower comprising the same - Google Patents

Abstract

The present invention provides a tubular material and a tubular pole type steel tower including the same. According to one embodiment of the present invention, provided is the tubular material, which includes at least two bent boards so as to form a column having an inner space while a plurality of boards are continuously provided on both sides, wherein the boards include connection parts which are extended toward the inner space from at least one of both side ends and into which at least one fastening hole is perforated. The boards adjacent to each other are formed by being fastened to each other by a bolt through the fastening hole. Therefore, the tubular material can be configured to be easily transported in a mountain area.

Description

Pipe material and tubular column pylon including the same {TUBLAR POLE AND TUBLAR POLE TYPE TOWER COMPRISING THE SAME}

The present invention relates to a tube material and a tubular column pylon including the same, and more particularly, to a tube material capable of improving durability and facilitating transport, and a tube column pylon including the same.

In general, high power produced in a power plant is transmitted to a substation as high voltage power through a transmission line, and each substation transforms the transmitted power and is supplied to each region and customer through a wire.

Here, the transmission line is a power facility that supplies high voltage power produced in a power plant to a substation.

The transmission line is constructed by supporting transmission lines such as transmission towers installed along the power supply path, and conventional transmission towers are spaced apart from each other at an appropriate distance so as to stably support the transmission line, that is, the power line through which high voltage flows between the power plant and the substation.

In addition, transmission towers are structures in which power lines that transmit high voltage power are installed, so they are mainly installed in mountainous areas far from general facilities.

In the case of a transmission tower installed on a transmission line, a structure that is strong against load is required because the tension of the power line is very high.In the past, angle pylons, which were mainly formed by bolting angles, were mainly used, but this is large in size to secure installation space. There are difficulties, as well as problems such as hindering the surrounding landscape. Therefore, in recent years, a column in the form of a tubular support, that is, a transmission tower using a pipe, has been proposed and installed.

As a prior patent document related to a column in the form of a tubular support used in a conventional power transmission tower, there may be mentioned Utility Model Publication No. 20-0387799 (2005.06.15.), and a plurality of pipe members extending up and down are flanged together. And a method of assembling a tubular support having a desired height by connecting by a fastening method (flange fastening type).

On the other hand, the general pillar shape used in the transmission tower as described above is a tubular support type, and it can be constructed by connecting several cylindrical pipes or square pipes by a method such as the above-described flange fastening type or a known slim assembly type.

However, the conventional tubular support used as a pillar in a transmission tower has the following problems.

In order to construct a flanged type and slip assembly type tubular support, a large pipe manufactured in the factory must be transported to the installation site and then connected using equipment.

The pipe material used to construct a conventional tubular support is an enlarged heavy object having a thick and heavy weight.

In general, transmission towers are often installed in mountainous areas. Therefore, large pipes are often transported to mountainous areas, and transport is difficult due to the size or weight of the pipes.

In particular, it is common for pipes to go through a tunnel while being transported to a mountainous area. If the diameter of the tunnel is smaller than the diameter of the pipe, the pipe cannot be transported through the tunnel, and the operator seeks another route and the transport time increases. The pipe can be transported through the unpaved mountain area by bypassing the tunnel route, and in this case, the work of the paved transport route in the mountain area is entailed, so that the operator spends more and more time and cost for the transport of the pipe.

In addition, the parts to be fastened between the pipes are easily damaged or corroded due to the external environment (rain, snow, dirt, etc.), and the fastening part is weakened. Therefore, the tubular column pylon manufactured by the fastening of pipes was liable to become weak in durability due to defects in the fastening part due to the external environment.

Embodiments of the present invention are intended to provide a pipe material configured to improve durability by preventing corrosion or defects from occurring in spite of a poor external environment, and to facilitate transportation in mountainous areas.

According to an aspect of the present invention, at least two or more bent or bent plates and extending in one direction to at least one of both side ends of the plate material, and at least one fastening hole is fastened through the perforated connection portion and the fastening hole. A pipe material including a bolt may be provided.

Embodiments of the present invention can improve durability in spite of a poor external environment for a tubular pylon that is always exposed to the outside.

In addition, embodiments of the present invention can be transported more easily in unpaved mountainous areas through a pipe having a reduced weight, and provide ease of passage through a cramped tunnel, thereby eliminating the labor of a worker who has searched for another route and paved the route. It can be reduced.

1 is a perspective view showing an embodiment according to the present invention,
2 is an enlarged view of a flange nut and a connection part in the embodiment of FIG. 1;
Figure 3a is a perspective view of the pipe according to the present invention is fastened up and down,
Figure 3b is an inner perspective view of Figure 4a,
4 is a plan view showing another embodiment according to the present invention,
Figure 5 is a front view showing a tubular iron tower according to the present invention.

Hereinafter, a pipe material according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an embodiment 100 according to the present invention (pipe), and shows a pipe 100 having a substantially cylindrical shape in a configuration constituting a tubular column pylon.

The plate material 110 is a configuration constituting the tube material 100, in the embodiment 100, both side ends of the plate material 110 includes a connecting portion 120 extending toward the inside of the tube material 100, a pair of The plate material 110 is fastened through the connection part 120.

The shape of the plate material 110 is similar to the shape of a curved plate having a circular arc shape in cross section, and the pipe material 100 may have a substantially cylindrical shape as in the above embodiment, but the shape of the plate material is not limited thereto. . That is, the plate material may have an angular shape, and the pipe material formed by fastening each of the plates may take the form of a polygonal polygonal cross-section.

The connection part 120 is a configuration for fastening between the plate members 110 and is provided at both side ends of the plate member 110. A plurality of plate members 110 are in contact with each other at each side end to surround a specific point, thereby forming a pipe 100 having an approximately columnar shape.

The connection part 120 includes at least one or more fastening holes. In the above embodiment, a pair of plate members 110 facing each other and in contact with the connection part 120 is fastened by inserting a bolt into each fastening hole, thereby forming a tube material 100 forming a tubular column tower.

The connection part 120 is formed on both side ends of the plate material 110 to be fastened between the plate materials 110, and the shape protruding toward the inside of the pipe material 100 is not limited. However, in the embodiment 100, the connection part 120 has a shape that is bent from a plate and extended in one direction. That is, the connection portion extends in a direction toward the center in a cross section in a columnar pipe formed by fastening plates.

For example, the pipe 100 shown in FIG. 1 has a shape of a cylinder, whose cross section represents a circle, and its center is a center point of its diameter (hereinafter, referred to as a “center of the pipe”). Accordingly, in FIG. 1, the connecting portions 120 extend in a direction toward the center of the circle from both ends of the plate 110.

In the above embodiment 100, as shown in FIG. 3B attached to the present application, the connection part 120 has a shape that is bent and extended from the plate material 110, and has a constant length from both sides of the plate material 110 It is extended to have a flat end of the connecting portion 120. That is, the connection portion 120 in the embodiment 100 is only partially extended from both side ends of the plate 110 and does not have a shape extending in a substantially rod shape. However, since the shape of the connection portion is not necessarily limited thereto, the shape in which the connection portion is extended through another embodiment of the present invention may be formed in a long rod shape or a sawtooth shape. Therefore, in the embodiment 100, the connection portion 120 has a shape that extends in a shape similar to a plate having a narrow width.

The connection part 120 extending toward the center of the pipe may be located inside the pipe 100 formed by fastening the plate 110 to be protected from the outside. The connection part is blocked from the outside by a plate material, so that corrosion of the connection part due to rain or dust can be prevented. Accordingly, the fastening force of the pipe is maintained, so that the durability of the tubular column formed by assembling the pipe can be improved.

In addition, the bolted connection portion is not visible from the outside by the plate material, so the aesthetics of the tubular column steel tower formed by assembly of the pipe material can be maintained. If the bolted connection is outside or is exposed to the outside, the aesthetics of the tube column pylon is impaired and the person viewing the tube column pylon cannot feel the aesthetic sense. The present inventor's pipe has a connection part in the inner space, so that a person who sees from the outside can see only the surface of the plate, and cannot see the rough and unclear connection due to the bolting. Therefore, the tubular column steel tower made of the pipe material of the present invention can maintain its beauty by revealing a consistent and neat column shape with a flat surface.

In the embodiment 100, the connection part 120 extends horizontally toward the center of the pipe 100, and the connection parts 120 that are fastened and abutted in the pipe 100 do not include an empty space.

If the connecting portion does not extend toward the center of the pipe and extends toward another direction, the fastened connecting portions may include an empty space. Specifically, if the connecting portion is extended toward the inner region of the plate material based on FIG. 1, the fastened connecting portions have an approximately'V' shape when the operator looks at the pipe material from above and thus includes an empty space. In addition, the inner area of the plate means a space formed by stacking the plates.

At least two or more plate members including connecting portions at both side ends may be fastened through each connecting portion to surround the center and form a tube material similar to the shape of a column in which an inner space is formed. The pipe material is a component of a tubular column pylon supporting a high-voltage power line, and may be stacked from the ground to form a tubular column pylon having an approximately column shape.

In consideration of the stacking of the pipes, the plates 110 may be fastened so that the upper and lower surfaces of the pipes 100 are not inclined and maintained in a flat state as shown in FIG. 1.

The connection part 120 may include at least one fastening hole for strong fastening of the plate materials 110. In addition, the fastening holes are formed in a plurality, but are drilled to form at least one row, so that the fastening force acts on a wider area, so that the fastening force between the connection parts 120 may be improved.

In the embodiment 100, the connection part 120 is provided at both ends of the plate material 110 to form a pair, and at least one connection part 120 is connected to the reinforcing part 130 extending in the other direction. . That is, the pair of connecting portions 120 has a shape extending in one direction toward the center of the pipe, and at least one connecting portion 120 further includes a reinforcing portion 130 having a shape extending in the other direction.

The reinforcing part 130 extends in the other direction compared to one direction in which the connection part 120 extends, and in the embodiment 100, the reinforcing part 130 is bent at a substantially right angle to the connection part 120 extending in one direction. The connection part 120 including the reinforcing part 130 has an approximately'b' shape as shown in FIG. 1.

The reinforcing part 130 is a configuration for reinforcing the fastening between the plate members 110, and is fastened with the reinforcing plate 140 to be described later to assist in maintaining the coupling structure of the plate members 110 stably fastened even under strong load. .

In addition, the reinforcing part 130 not only enhances the fastening force of the plate members 110, but also enables pre-assembly of the reinforcing plate 140 to be described later, thereby reducing the labor of a worker in the field. That is, rather than fastening the reinforcing plate 140 to the reinforcing part 130 after the plurality of plate materials 110 are fastened at the work site, the reinforcing part 130 is manufactured after the plate material 110 is manufactured and before being transferred to the work site. ), the plate material 110 is transferred while the reinforcing plate 140 is fastened to the plate material 110 so that the fastening effort at the work site can be reduced by only fastening between the plate members 110 at the work site.

In addition, the reinforcing plate 140, which will be described later, has a rectangular fastening hole, so that even if the bolt is rotated and inserted into the flange nut 150 fastened to the fastening hole of the reinforcing plate 140, the rectangular fastening hole and the prismatic body of the reinforcing plate 140 The flange nut 150 provided with is engaged so that rotation of the flange nut 150 may be prevented.

In the embodiment 100, the neighboring plate 110 has a reinforcing portion 130 formed on only one connecting portion 120 of the pair of connecting portions 120 that are in contact as shown in FIG. 1. Therefore, the embodiment 100 has a shape that seems to be point symmetric with respect to the center of the pipe 100. The pipe 100 to which the reinforcing part 130 and the reinforcing plate 140 to be described later are fastened is point-symmetric in structure, so that the strong fastening force by the reinforcing part 130 and the reinforcing plate 140 is not deflected, so that the pipe 100 is generally An appropriate fastening force can be distributed and the structure of the pipe 100 can be stably preserved.

The reinforcing plate is a configuration for reinforcing the fastening between the plates, and is fastened to the connection part 120 on which the reinforcing part 130 is formed, as shown in the embodiment shown in FIG. 1.

Although the type or shape of the reinforcing plate is not limited, in the embodiment 100, the plate material 110 is fastened to the connection part 120 and the reinforcing part 130 through a reinforcing plate 140 having a'b' shape. Strengthen the interlocking.

The present invention may further include a flange nut having a rectangular body to reinforce the fastening force between the plates.

2 is an enlarged view showing the flange nut 150 and the connection part 120 fastened to the connection part 120 in the embodiment 100 of the present invention, in consideration of engagement with the flange nut 150, the flange nut 150 The shape of the fastening hole into which) is inserted is also a square. Therefore, the fastening hole of the flange nut 150 and the connection part 120 is formed in a square shape, so that the rotation of the flange nut 150 is prevented and the fastening is maintained.

In addition, as shown in FIG. 2, in the embodiment 100 of the present invention, the length direction of the flange nut 150 is formed larger than the thickness of the connection portion 120, so that the fastened portion of the bolt is widened, thereby enhancing the fastening force. In order to reinforce the tightening force of the bolt, the thickness of the connection part 120 may be increased, but in consideration of an increase in weight due to the increase in the thickness of the connection part 120, the bolt tightening force is increased by using a flange nut 150 that is longer than the thickness of the connection part. Can be strengthened.

The pipe material according to the present invention may include a connection part extending in one direction as shown in FIGS. 3A and 3B at the upper and lower edges of the plate material for vertical fastening. This may extend toward the center of the pipe, similar to the connection portion for fastening between plates, and a plurality of pipes may be bolted up and down to be stacked.

In the present invention, at least two or more plate members are fastened to each other through connection portions formed at both side ends to form one pipe. Therefore, in the embodiment 100 shown in FIG. 1, the pipe member 100 is composed of two plate members 110, but the number of plate members is not necessarily limited thereto, and it is possible from 2 to N (N is a natural number of 3 or more). And in the case of Figure 4 shows a pipe 200 composed of four plate (210).

As shown in FIG. 4 attached to the present application, when the pipe 200 is composed of four plates 210, the pipe 200 has a shape as if it is divided into four. In addition, since the above-described connecting portions are provided at both ends of each plate, the pipe 200 shown in FIG. 4 is provided with a total of eight connecting portions, and each plate 210 is formed by fastening.

In addition, in the embodiment shown in FIG. 4, the flange nut is not inserted into the connecting portion of the plate member 210, but only inserted into the reinforcing plate. Accordingly, the fastening force of the plate members 210 may be strengthened by gripping the bolt inserted into the connection part through the flange nut having a short length.

A plurality of pipes 100 according to the present invention may be sequentially stacked from the ground to form a tubular column tower 1000. A plurality of pipes 100 form one column, and a single number of pipes 100 are positioned in one row, so that one tubular column pylon 1000 may be formed as illustrated in FIG. 5.

As described above, one embodiment of the present invention has been described, but those of ordinary skill in the relevant technical field add, change, delete or add components within the scope not departing from the spirit of the present invention described in the claims. Various modifications and changes can be made to the present invention by means of the like, and it will be said that this is also included within the scope of the present invention.

In addition, the above-described terms are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

In addition, when referring to "including" a component herein, it means that other components may be further included rather than excluding other constituent elements unless otherwise specified.

100, 200: administration
110, 210: plate
120: connection
130: reinforcement part
140: reinforcement plate
150: flange nut
1000: tubular column pylon

Claims (9)

It relates to the governmental materials that make up the tubular column tower,
At least two or more bent or bent plate material; including a plurality of the plate material is continuously provided on both sides to form a column in which an inner space is formed,
The plate member includes; a connection part extending toward the inner space at at least one of both side ends and having at least one fastening hole perforated therein,
A tube material formed by fastening the adjacent plate material with a bolt through the fastening hole. The method of claim 1,
The connecting portion extends in one direction toward the center of the inner space, and extends to a predetermined length in all areas of the upper and lower ends of the both ends, so that the entire upper and lower areas are flat at the ends of the connecting portion. The method of claim 1,
At least one of the pair of connecting portions provided at both side ends of the plate member extending toward the plate member side on one surface, at least one or more fastening holes are perforated reinforcement; pipe material comprising a. The method of claim 3,
The reinforcing portion is formed perpendicular to the end of the connecting portion, the pipe extending in one direction. The method of claim 3,
A tube material in which the reinforcing part is formed only in one connection part of a pair of connecting parts in contact with the neighboring plates. The method of claim 1,
At least one of the fastening holes of the connection part is perforated in a polygonal shape,
Including; a flange nut body is formed in a polygonal shape and inserted into the fastening hole of the connection,
The bolt is a pipe to be fastened by being inserted into the flange nut. The method of claim 3,
Including; a reinforcing plate having at least one or more fastening holes perforated and bent at least once or more,
The reinforcing plate is in contact with the connection part and the reinforcing part, and a bolt is inserted into the fastening hole of the connection part and the reinforcing part and the fastening hole of the reinforcing plate to be fastened. The method of claim 7,
At least one of the connection part, the reinforcing part, and the fastening hole of the reinforcing plate is perforated in a polygonal shape,
Including; the body is formed in a polygonal shape and inserted into the fastening hole perforated in a polygonal shape,
The bolt is a pipe to be fastened by being inserted into the flange nut. A tubular column pylon formed by stacking a plurality of pipes according to any one of claims 1 to 8 from the ground and forming at least one row.

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