KR20230075222A - The connecting apparatus for pole and method for moving utility poll including overhead using the same - Google Patents

Abstract

The present invention relates to an electric pole connecting device and a construction method for relocating electric poles containing overhead distribution lines using the same. The electric pole connecting device refers to an electric pole connecting device that connects a lower part of a new electric pole installed within a certain distance of an existing electric pole and an upper part of the existing electric pole, comprising: a connecting means provided in the shape of a long bar in the longitudinal direction, having one end provided integrally with the top of the new electric pole, and the other end located adjacent to the bottom of the existing electric pole; and a joining means that is fixed to the other end of the connecting means and fixed to the lower part of the existing electric pole, thereby capable of greatly reducing material and construction costs required for relocation to the electric poles.

Description

Pole connecting device and construction method for relocating poles including overhead power distribution lines using it {THE CONNECTING APPARATUS FOR POLE AND METHOD FOR MOVING UTILITY POLL INCLUDING OVERHEAD USING THE SAME}

The present invention relates to an electric pole connecting device and a construction method for relocating an electric pole including an overhead power distribution line using the same. It relates to a construction method for relocating utility poles containing overhead distribution lines.

In the maintenance of current overhead distribution lines, destruction of electric poles due to vehicle collisions or replacement of old electric poles frequently occurs.

In addition, relocation work to change the installation location of electric poles installed on the road is continuously occurring in accordance with maintenance work such as expansion of roads on which electric poles are installed and alignment improvement.

Accordingly, the electric pole relocation construction proceeds to the process of removing the existing electric pole (1) after newly installing a new electric pole (2) in a position adjacent to the existing electric pole (1), as shown in FIG.

However, as new overhead distribution lines such as electric poles, wires and equipment are secured in a location adjacent to the existing poles, excessive material and construction costs are required, and when moving poles to a short distance from the existing poles, work in the vicinity of the extra-high voltage distribution lines is required. As it is accompanied, there is a problem that a worker's safety accident occurs.

The present invention has been devised from the foregoing background, and does not require re-construction of the upper part of the pole including the overhead distribution line when relocating the pole, thereby significantly saving material and construction costs. The purpose is to provide a construction method for relocating electric poles.

In addition, work in the vicinity of conventional extra-high voltage distribution lines is unnecessary, reducing the risk of safety accidents, simplifying the process, lowering the difficulty of construction, improving work efficiency, and pole connecting devices and poles with overhead distribution lines using them. The purpose is to provide a construction method for relocating.

The object of the present invention is not limited thereto, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

The present invention relates to a pole connecting device for connecting the lower end of a new pole installed within a certain distance of an existing pole and the upper end of an existing pole, provided in a long bar shape in the longitudinal direction, one end of which is integrally provided at the top of the new pole, and the other A lightning arrestor installation structure for poles may be provided, which includes a connecting means whose side end is positioned adjacent to the lower end of the existing electric pole, a connecting means fixed to the other end of the connecting means and fixed to a lower part of the existing electric pole.

This connecting means may be provided to be able to adjust the length.

In addition, the connecting means includes a first support having one end integrally provided at the upper end of the new electric pole and having a coupling groove formed on an outer surface thereof, and a slide groove in the longitudinal direction into which the first support is inserted at one end, and extends outward from the slide groove. The length adjustment holes formed therethrough are spaced apart at equal intervals in the longitudinal direction, pass through any one of the plurality of second supports and the plurality of length adjustment holes, and are fastened to the coupling groove to adjust the length of fixing the first support and the second support. may include absences.

In addition, the connecting means is a pair of bodies formed in an arc shape surrounding both sides of the electric pole, one end of the pair of bodies is bent outward, and a fixed flange that is adhered to both sides of the other end of the connecting means and fixed via a fixing member, respectively, a pair The other end of the body of each is bent outwardly and mutually fastened via a fastening member, and a pair of bodies may include a fastening flange that secures the existing electric pole by securing the existing electric pole.

Here, the fixing flange may be provided with a plate-shaped bottom support portion connecting lower ends to support a lower surface of the other end of the connecting means.

In addition, the connecting means may be installed inclined upward from one end to the other end.

And, between the existing electric pole and the bonding means of the electric pole connecting device may be provided with an adhesive portion formed by applying an adhesive to the outer circumferential surface of the existing electric pole.

In addition, in the construction method of relocating a pole including an overhead power distribution line using a pole connecting device, the pole connecting device includes a rod-shaped connecting means with adjustable length and a joining means for fixing the connecting means to an existing electric pole, Installing a new electric pole integrally provided with one end of the connecting means within a certain distance of the existing electric pole, adjusting the length of the connecting means so that the other end of the connecting means is positioned adjacent to the existing electric pole, the other end of the connecting means and It is fixed and installing a bonding means that is fixed by surrounding a part of the existing electric pole, cutting the part spaced downward from the installation position of the bonding means of the existing electric pole to separate the existing electric pole into the upper and lower parts, the lower part of the existing electric pole It may include a demolition step.

According to the present invention, it is possible to significantly save material costs and construction costs because re-construction of the upper part of the electric pole including the overhead distribution line is not required when relocating the electric pole, and as the length of the connecting means is adjusted, it is easy to move between the existing electric pole and the new electric pole. There is an effect that can be connected and supported.

In addition, work in the vicinity of conventional extra-high voltage distribution lines is unnecessary, reducing the risk of safety accidents, and simplifying the process to lower the difficulty of construction, thereby improving work efficiency.

1 is a view schematically showing a conventional electric pole relocation construction.
2 is a view schematically showing a construction method for relocating an overhead power distribution line including an overhead power distribution line using a pole connecting device according to an embodiment of the present invention.
3 is a view schematically showing a state in which an electric pole connecting device according to an embodiment of the present invention is installed.
Figure 4 is an exploded perspective view of the connecting means of the electric pole connecting device according to an embodiment of the present invention.
5 is a front view of a bonding means in a state in which an electric pole connecting device according to an embodiment of the present invention is installed.
6 is a bottom view of a bonding means in a state in which an electric pole connecting device according to an embodiment of the present invention is installed.
7 to 9 are views showing a construction process of relocating an overhead power distribution line including an overhead power distribution line using an electric pole connecting device.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

2 is a view schematically showing a construction method for relocating a utility pole including an overhead distribution line using an electrical pole connecting device according to an embodiment of the present invention, and FIG. 3 is a view showing an electrical pole connecting device according to an embodiment of the present invention A view schematically showing a state, Figure 4 is an exploded perspective view of the connecting means of the electric pole connecting device according to an embodiment of the present invention, Figure 5 is a front view of the connecting means in a state where the electric pole connecting device according to an embodiment of the present invention is installed 6 is a bottom view of the joining means in a state in which the electric pole connecting device is installed according to an embodiment of the present invention, and FIGS. 7 to 9 are construction processes for relocating electric poles including overhead power distribution lines using the electric pole connecting device is a drawing showing

As shown in these drawings, the electric pole connecting device 10 according to the embodiment of the present invention connects the lower end of the new electric pole 30 installed within a certain distance of the existing electric pole 20 and the upper end 21 of the existing electric pole 20. It relates to a pole connecting device 10 that connects, and is provided in a long bar shape in the longitudinal direction, one end is integrally provided at the top of the new pole 30, and the other end is located adjacent to the lower end of the existing pole 20 It includes a connecting means 100, a connecting means 200 fixed to the other end of the connecting means 100 and fixed to a lower part of the existing electric pole 20.

The electric pole connecting device 10 of the present invention connects the upper end 21 of the existing electric pole 20 to the lower end of the new electric pole 30 to maintain the distribution line 24 installed on the upper end 21 of the existing electric pole 20. It is provided so that the installation position of the lower end 22 can be changed in the state in which it is made, and consists of a connection means 100 and a joining means 200.

That is, during maintenance work such as road expansion or alignment improvement, an electric pole relocation work is performed to change the position of the existing electric pole 20 within a certain distance. ) is used as it is, and a pole connecting device 10 is provided to replace the lower end 22 of the existing pole 20 with the lower end of the new pole 30.

The connecting means 100 is provided in a long bar shape in the longitudinal direction, one end is provided integrally with the upper end of the new pole 30, and the other end is positioned adjacent to the lower end of the existing pole 20.

Here, the lower end of the existing pole 20 is located higher than the top of the new pole 30. That is, the existing electric pole 20 corresponds to the upper end 21 where the distribution line 24 is installed, and means the upper end 21 remaining after the lower end 22 is cut and removed, and the new electric pole 30 is the existing electric pole 20 ) Is formed at the same height as the height of the removed lower end 22 or lower than that.

And, in order to minimize the load applied to the connection part of the pole connecting device 10, the connecting part of the electric pole connecting device 10 and the new pole 30, and the coupling part between the pole connecting device 10 and the existing pole 20, connection The means 100 may be installed inclined upward from one end to the other end.

Accordingly, the new electric pole 30 is formed at a height lower than the height of the removed lower end 22 of the existing electric pole 20, and one end of the connecting means 100 is located lower than the other end, so that the connecting means 100 ) And the angle between the central axis of the new pole 30, the angle between the central axis of the connection means 100 and the existing pole 20 is installed to be an obtuse angle. And, as the angle between the connecting means 100 and the central axis of the new electric pole 30, the angle between the connecting means 100 and the central axis of the existing electric pole 20 is closer to 180 degrees, the electric pole connecting device 10, It is possible to minimize the load applied to the connecting portion of the electric pole connecting device 10 and the new electric pole 30 and the coupling part of the electric pole connecting device 10 and the existing electric pole 20.

In addition, since the load applied to the pole connecting device 10 is reduced as the front end of the existing pole 20 is located on the upper side, the installation state of the distribution line 24 is maintained and the joining means 200 to be described later is installed. It is desirable to be located on the upper side as much as possible while securing the part.

This connecting means 100 may be provided to be adjustable in length, and as an example, as shown in FIG. 4, it is composed of a first support 110, a second support 120, and a length adjusting member 101. The length may be provided to be adjustable.

The first support 110 is formed in a long bar shape in the longitudinal direction having an angled cross section, and one side end is integrally provided at the top of the new pole 30 and is formed by being depressed from the outer surface, but a coupling groove formed with a thread on the inside ( 111) is provided.

This first support 110, for example, may be formed by protruding a portion of the outer circumferential surface of the upper end of the new pole 30 inclined upward.

The second support 120 is formed in a long bar shape in the longitudinal direction and has a slide groove 121 in the longitudinal direction into which the first support 110 is inserted at one end, and the other end is the lower end of the existing electric pole 20. is located adjacent to At this time, the slide groove 121 is formed to have a cross-sectional shape corresponding to the first support 110 so that the first support 110 is inserted and moves only in the longitudinal direction.

And, the second support 120 is provided with a plurality of length adjustment holes 122 formed by penetrating outwardly from the slide groove 121 at equal intervals in the longitudinal direction, and may have a rectangular cross section.

The length adjusting member 101 is fastened to the coupling groove 111 through any one of the plurality of length adjusting holes 122 and fixes the first support 110 and the second support 120 . For example, the length adjusting member 101 may be a bolt that passes through any one of the plurality of length adjusting holes 122 and is screwed into the coupling groove 111, but is not limited thereto.

Accordingly, the length of the extension means can be increased as the length adjusting member 101 passes through the length adjusting hole 122 located on one side in the longitudinal direction of the plurality of length adjusting holes 122 and is fastened to the coupling groove 111. , As the length adjusting member 101 passes through the length adjusting hole 122 located on the other side in the longitudinal direction of the plurality of length adjusting holes 122 and is fastened to the coupling groove 111, the length of the extension means can be reduced. .

In addition, for a solid fixing force between the first support 110 and the second support 120, a plurality of coupling grooves 111 are spaced apart at equal intervals in the vertical direction on the first support 110, and the length adjusting member 101 ) is also provided in a corresponding number, and the second support 120 may also be spaced apart at equal intervals in the vertical direction and formed in a plurality of rows.

5 to 6, the bonding means 200 is fixed to the other end of the connecting means 100 and is fixed to a lower portion of the existing electric pole 20, and includes a fixing flange 230 and a fastening flange 220. It is provided with a pair of body 210 to do.

The body 210 is provided as a pair and is formed in an arc shape surrounding both sides of the electric pole, that is, both ends are bent and formed in a curved plate shape in which the electric pole is seated on a concave inner circumferential surface.

The fixing flange 230 is formed by bending one end of the pair of bodies 210 outward, respectively, and adheres to both sides of the other end of the connecting means 100 and is fixed via the fixing member 202, respectively.

In the fixing flange 230, a first fixing hole 231 is formed through and formed at a position corresponding to the second fixing hole 123 formed on the front and rear surfaces of the second support 120, and the first fixing hole ( 231) through the medium of the fixing member 202 fastened to the second fixing hole 123, the pair of fixing flanges 230 are fixed to the front and rear surfaces of the second support 120, respectively.

Also, each of the first fixing hole 231, the second fixing hole 123, and the fixing member 202 may be provided in plurality.

In addition, the fixing flange 230 has a radius plate shape at the other end of the pair of bodies 210 so as to be stably fixed to the second support 120 while securing a friction area with the other end of the second support 120 formed at an upward inclination. It is formed to protrude outward in the direction, but is formed to protrude at a downward slope, so that it may be formed in a parallelogram shape when viewed from the front.

And, the fixing flange 230 is provided with a plate-shaped bottom support portion 232 connecting the lower ends to support the lower surface of the other end of the connecting means 100.

The bottom support 232 may be provided in a plate shape that slopes downward by connecting lower ends of the fixing flange 230, and is provided so that the fixing flange 230 and the second support 120 can be stably coupled. do.

The fastening flanges 220 are formed so that the other ends of the pair of bodies 210 are bent outward to be in close contact with each other, and fastening holes 221 corresponding to each other are formed in each of them to fasten each other through the fastening member 201 as a medium. do.

At this time, the fastening member 201 may be formed of a fastening bolt passing through each fastening hole 221 of the fastening flange 220 and a fastening nut that is screwed to the fastening bolt and tightens between the pair of fastening flanges 220.

In addition, as the fastening flange 220 is mutually fastened with the fastening member 201, the pair of bodies 210 are in close contact with the existing electric pole 20, so that the bonding means 200 and the existing electric pole 20 are stably coupled. The existing electric pole 20 and the second support 120 are stably fixed.

In addition, between the existing electric pole 20 and the bonding means 200, an adhesive portion 240 formed by applying an adhesive to the outer circumferential surface of the existing electric pole 20 is provided.

For example, the adhesive part 240 is preferably made of an unsaturated polyester adhesive and an aramid resin because the adhesive strength does not fall well due to temperature and humidity changes, electrical corrosion, etc., but is not limited thereto. It can be formed from any material as long as corrosion does not occur.

In addition, the adhesive portion 240 is connected to the existing electric pole 20 and the pair of bodies 210 when the pair of bodies 210 are in close contact with the existing electric pole 20 while the fastening flange 220 is mutually fastened with the fastening member 201. Adhesion increases as the contact becomes tighter than each other.

Hereinafter, a construction method of relocating a pole including an overhead distribution line 24 using the pole connecting device 10 will be described with reference to FIGS. 7 to 9 .

In the construction method for relocating an electric pole including an overhead power distribution line 24 using the electric pole connecting device 10 according to the present invention, one end of the connecting means 100 is integrally provided within a certain distance of the existing electric pole 20 installing the new electric pole 30, adjusting the length of the connecting means 100 so that the other end of the connecting means 100 is positioned adjacent to the existing electric pole 20, the other end of the connecting means 100 and A step of installing a bonding means 200 that is fixed and wrapped around a part of the existing electric pole 20 and is fixed, by cutting the part spaced downward from the installation position of the bonding means 200 of the existing electric pole 20 to the existing electric pole 20 ) into an upper end 21 and a lower end 22, and removing the lower end 22 of the existing electric pole 20.

First, as shown in FIG. 7, a step of installing a new electric pole 30 integrally provided with one end of the connecting means 100 within a certain distance of the existing electric pole 20 is performed.

At this time, the connecting means 100 is integrally provided in the new pole 30, and more specifically, the first support 110 is integrally provided and installed in the new pole 30.

Next, a step of adjusting the length of the connecting means 100 is performed so that the other end of the connecting means 100 is positioned adjacent to the existing electric pole 20 .

That is, after adjusting the length of the first support 110 inserted into the slide groove 121 so that the other end of the second support 120 is positioned adjacent to the existing electric pole 20, the length adjusting member 101 is fastened. and fix it

And, as shown in Figure 8, proceeds to the step of installing the bonding means 200, which is fixed to the other end of the connection means 100 and is fixed while surrounding a portion of the existing electric pole 20.

The joining means 200 is moved to the upper side of the existing electric pole 20 in a state where the pair of body 210 is installed to surround both sides of the existing electric pole 20 in a state where the pair of fastening flanges 220 are spread apart, The other end of the second support 120 is inserted between the pair of fixing flanges 230, and when the lower surface of the other end of the second support 120 is seated on the bottom support 232, the first fixing hole 231 and the second support 2 Fasten the fixing member 202 to each fixing hole 123.

In this way, the fixing between the fixing flanges 230 of the joining means 200 is fixed, and in a state where the joining means 200 and the connecting means 100 are fixed, the pair of fastening flanges 220 are pressed so that they come into close contact with each other. The fastening member 201 is fastened to the hole 221 to fasten between the pair of fastening flanges 220 .

Accordingly, the pair of bodies 210 are in close contact with the existing electric poles 20, and the bonding portion 240 bonds between the body 210 and the existing electric poles 20, respectively, and the bonding means 200 is installed on the existing electric poles 20. do.

Then, the part spaced downward from the installation position of the bonding means 200 of the existing electric pole 20 is designated as the cutting part 23, and the cutting part 23 is cut to make the existing electric pole 20 upper part 21 and proceeds to the step of separating into the lower part 22.

With this step, the step of removing the lower end 22 of the existing electric pole 20 can be performed simultaneously, and when the lower end 22 of the existing electric pole 20 is removed, as shown in FIG. 9, the existing electric pole 20 The upper end 21 is connected to the new pole 30 via the pole connecting device 10.

In addition, since the lower part 22 of the existing electric pole 20 is removed and there is no electric pole connected to the ground at the lower part of the upper part 21 of the existing electric pole 20, maintenance work such as road expansion and linear improvement can be carried out there will be

According to the embodiments of the present invention having such a shape and structure, re-construction of the upper part of the pole including the overhead distribution line is not required when relocating the pole, so material costs and construction costs can be significantly saved, and as the length of the connecting means is adjusted, the existing pole There is an effect that can be easily connected and supported between the new poles.

In addition, work in the vicinity of conventional extra-high voltage distribution lines is unnecessary, reducing the risk of safety accidents, and simplifying the process to lower the difficulty of construction, thereby improving work efficiency.

In the above, even though all the components constituting the embodiment of the present invention have been described as being combined or operated as one, the present invention is not necessarily limited to these embodiments. That is, within the scope of the object of the present invention, all of the components may be selectively combined with one or more to operate.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

10: electric pole connector 20: existing electric pole
21: upper part 22: lower part
23: cutting part 24: distribution line
30: new electric pole 100: means of connection
110: first support 111: coupling groove
120: second support 121: slide groove
122: length adjustment hole 123: second fixing hole
200: bonding means 201: fastening member
202: fixing member 210: body
220: fastening flange 221: fastening hole
230: fixing flange 231: first fixing hole
232: floor support 240: adhesive

Claims (8)

It relates to a pole connecting device that connects the lower end of a new pole installed within a certain distance of an existing pole and the upper end of the existing pole,
Provided in the shape of a long rod in the longitudinal direction, one end is provided integrally with the upper end of the new electric pole, and the other end is positioned adjacent to the lower end of the existing electric pole; and
Bonding means fixed to the other end of the connecting means and fixed to a lower portion of the existing electric pole;
A utility pole connector comprising a.
According to claim 1,
The connecting means is
Electric pole connecting device characterized in that the length is provided to be adjustable.
According to claim 1,
The connecting means is
A first support having one end integrally provided with an upper end of the new electric pole and having a coupling groove formed on an outer surface thereof;
a second support having a longitudinal slide groove into which the first support is inserted at one end, and having a plurality of length adjusting holes formed by penetrating outwardly from the slide groove and spaced apart at equal intervals in the longitudinal direction;
a length adjusting member that passes through any one of the plurality of length adjusting holes and is fastened to the coupling groove and fixes the first support and the second support;
Electric pole connector comprising a.
According to claim 1,
The bonding means,
A pair of bodies formed in an arc shape surrounding both sides of the electric pole;
a fixing flange in which one end of the pair of bodies is bent outward and is adhered to both side surfaces of the other end of the connecting means and fixed via a fixing member; and
The other end of the pair of bodies are bent outwardly to be mutually fastened via a fastening member, and a fastening flange for fixing the pair of bodies to the existing electric pole by securing the existing electric pole;
Electric pole connector comprising a.
According to claim 4,
The pole connecting device, characterized in that the fixing flange is provided with a plate-shaped bottom support for connecting between the lower ends to support the lower surface of the other end of the connecting means.
According to claim 1,
The connecting means is an electric pole connecting device, characterized in that installed inclined upward from one end to the other end.
According to claim 1,
An electrical pole connecting device characterized in that an adhesive portion formed by applying an adhesive to an outer circumferential surface of the existing electric pole is provided between the existing electric pole and the bonding means.
The electric pole connecting device includes a rod-shaped connecting means capable of adjusting the length and a bonding means for fixing the connecting means to the existing electric pole, and a new electric pole integrally provided with one end of the connecting means within a certain distance of the existing electric pole. installing;
adjusting the length of the connecting means so that the other end of the connecting means is positioned adjacent to the existing electric pole;
Installing the joining means fixed to the other end of the connecting means and fixed while surrounding a portion of the existing electric pole;
Separating the existing electric pole into an upper end and a lower end by cutting a part spaced downward from the installation position of the bonding means of the existing electric pole; and
Removing the lower end of the existing electric pole;
A construction method for relocating a pole containing an overhead distribution line using a pole connecting device comprising a.

Images