KR20180134666A - Divice for minimizing electric wire tension of bundle wire and method shifting construction using the same - Google Patents

Abstract

The present invention relates to a device for minimizing a tensioning operation for multiple conductors, capable of minimizing a work area during an aerial relocation operation of a multiple conductor transmission line, and more particularly, to a device for minimizing a tensioning operation for multiple conductors and an aerial relocation method for a multiple conductor electric wire using the same. The device for minimizing a tensioning operation for multiple conductors includes: a reception unit having an open top to have an electric wire mounted therein; a cover for fixing the electric wire to the top after the electric wire is mounted in the reception unit; a U-shaped bolt for coupling multiple conductor electric wires to a body by compressing the reception unit and the cover; and the body having a multiple conductor electric wire holding unit for holding the multiple conductor electric wires in a longitudinal direction to integrally couple all the multiple conductor electric wires to each other. Accordingly, the device for minimizing a tensioning operation for multiple conductors is installed on the multiple conductor electric wires to suppress a relative position change between small conductors other than a section where the aerial relocation is performed, so that an aerial relocation operation for the multiple conductor electric wires is simplified to shorten a work time.

Description

TECHNICAL FIELD [0001] The present invention relates to a multi-conductor short-circuit minimizing apparatus and a multi-conductor short-

TECHNICAL FIELD The present invention relates to a multi-conductor long line work minimizing apparatus for minimizing a work area when changing the position of a transmission tower in a multi-conductor transmission line, or heightening a height of a conventional transmission tower, and a method for air-

As the demand for electric power is increasing due to the development of the industry, the performance improvement and improvement works of electric power facilities are increasingly increasing to efficiently operate the electric power demand. Also, due to the development of the vicinity of the transmission line, And so on.

Due to such regional developments and enlargement of buildings, safety distances between the buildings and transmission lines can not be secured, so that the live parts and the live parts of the transmission lines approach within the minimum insulation distance and cause ground faults, Social cost is increasing due to wide - scale power failure. Therefore, in order to secure the safe distance between the building and the transmission line to prevent this, the requirement for the elevation or elevation of the transmission tower is increasing.

Generally, each circuit in the transmission line for transmitting such large-capacity power is composed of three phases. In order to carry a lot of electric power, one-phase conductor is composed of two strands, four strands or six strands, It has facilities suitable for transportation.

For example, a spacer is provided in a two-conductor transmission line, and when a four-conductor or six-conductor transmission line is used, a spacer damper is provided to prevent vibration of a multi-conductor wire, It has a function to prevent collision.

In order to change the position of the transmission tower and to upgrade the transmission tower during the multi-conductor transmission line, temporary transmission line and temporary tower are installed during the completion of installation of the new tower to ensure stable operation of the power system, . In general, it is necessary to dismantle and install long lines in the nearby suspended pylons in addition to the direct aerial work area in the case of airborne interconnection of multi-conductor transmission lines, and to dismantle and re-install spacers or spacer dampers There is a problem that it is difficult to operate the stable system due to the need for a long term shutdown for the occurrence of additional expenses and work performance.

Korea Registered Registration No. 10-0987530

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to solve the above problems, , It is possible to construct a device for minimizing the disconnection and installation work of the long line of the suspension tower and minimizing the amount of dismantling and installation of the spacer or spacer damper, The present invention is directed to a simplified multi-conductor wire air-laying method using a work minimizing device.

In order to accomplish the above object, the present invention provides a multi-conductor long wire work minimizing apparatus comprising: a multi-conductor wire holding portion (10) for holding a multi-conductor wire in a longitudinal direction; (1).

Specifically, the multi-conductor wire holding portion 10 formed around the body has a receiving portion 20 for opening the upper side to receive the electric wire, a cover 2 for fixing the electric wire to the receiving portion, And a U-shaped bolt (3) for pressing the accommodating portion (20) and the cover (2) to connect the multi-conductor wire to the body.

A hinge portion 13 may be formed on one side of each of the accommodating portion 20 and the lid 2 so as to be hingedly rotated in a vertical direction.

The hinge unit 13 includes a hinge pin 4 passing through a hinge hole 11 formed at one side of each of the accommodating unit 20 and the lid 2. The accommodating unit 20 and the lid 2, Can be combined with each other.

At both ends of the cover, a plurality of fastening holes 16 to which the U-shaped bolts 3 are detachably coupled to the accommodating portion 20 may be formed.

The U-shaped bolt is installed so as to surround the outer surface of the receiving part 10 and inserted into a fastening hole 16 formed in the lid, and can be fastened with nuts 5 and 6 for U-shaped bolts.

The multi-conductor wire holding portion may further include a fixing plate (9) that is seated inside the receiving portion and the cover.

The fixing plate 9 is divided into two members, and the electric wire can be seated by covering the outer surface of the electric wire located between the two divided members. A protrusion 12 protruding in a direction in contact with the side surface can be formed.

In accordance with another aspect of the present invention, there is provided a method of minimizing the length of a multi-conductor wire, comprising the steps of: And installing a multi-conductor long line work minimizing apparatus having the configuration as described above.

A method of minimizing the length of a multi-conductor wire, comprising the steps of: placing a fixing plate (9) on an outer surface of a wire so as to be connected to a multi-conductor wire holding portion of the multi- Can be installed at the last time.

Hereinafter, the process of the multi-conductor wire air-laying method using the multi-conductor long-wire work minimizing apparatus of the present invention will be described in detail.

As described above, according to the present invention, it is possible to reduce work time because there is no need for a long line work in order to protect the power transmission facilities at the place where the steel tower of the single- And the amount of installation and dismantling of the spacer or spacer damper is also minimized, so that it is possible to perform stable system operation with cost reduction and minimization of the rest period.

1 is an exploded perspective view of a multi-conductor long line work minimizing apparatus of the present invention.
FIG. 2 is a schematic view showing a state where the multi-conductor long line work minimizing apparatus of the present invention is combined with a multi-conductor wire.
FIG. 3 is a schematic view of a multi-conductor wire according to an embodiment of the present invention.
4 is a schematic view of a fixing plate of a multi-conductor long line work minimizing apparatus according to the present invention.
5 is a flowchart of a conventional multi-conductor wire air-laying operation method.
6 is a flowchart of a multi-conductor wire-laying operation method using the multi-conductor long-wire work minimization apparatus of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the present invention is not limited to the specifically disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. .

In the following description of the present invention, a detailed description of known related arts will be omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and like parts are denoted by similar reference numerals throughout the specification.

1, the multi-conductor long line work minimizing apparatus of the present invention is divided into a body 1 and a multi-conductor wire holding portion 10, and the multi-conductor wire holding portion 10 is formed on the body 1, So that unbalance tension is absorbed even when a long line is disconnected from a steel tower in which some wires among the multiple conductors are disassembled so as to keep the unbalance tension between the multi-conductor wires at the rear end where the apparatus is installed, .

The multi-conductor wire holding portion 10 is a portion for grasping the multi-conductor wire in the longitudinal direction. In one embodiment, the multi-conductor wire holding portion 10 is formed as a left- So that they can have a shape arranged in an X-shape around the body 1. However, the shape of the body is not limited to this, and it can be changed according to the number and arrangement of wires.

The multi-conductor wire holding portion 10 includes a receiving portion 20, a lid 2, a hinge portion 13, and a fixing plate 9.

The receptacle 2 is for securing the electric wire to the receptacle 20 after the electric wire is seated on the receptacle 20, And the lid 2 are joined to each other using a U-shaped bolt 3.

At least one of the U-shaped bolts 3 may be coupled to the fastening hole, and preferably at least one of the U- U-shaped bolts 3 may be combined.

The hinge portion 13 is formed at one side of each of the receiving portion and the lid so that the hinge portion 13 is coupled to the receiving portion 20 and the lid 2 in a vertical direction. The receptacle 20 and the lid 2 can be connected to each other by the hinge pin 4 passing through the hinge hole 11 formed at one end of each of them.

The hinge portion 13 may further include a spline pin 7 and a pin washer 8 in the vertical direction of the hinge pin so that the hinge pin 4 does not fall out of the hinge hole.

As shown in FIG. 2, the body 1 can be installed vertically to the suspension-type steel-tower multi-conductor wire 15 and is connected to the electric wire with a cover and a U-shaped bolt.

Specifically, the electric wire 15 is inserted and fixed between the receptacle 20 and the lid 2. The remaining multi-conductor wire holders also fix the wires through the same fixation as above.

3 is a view showing the shape of the fixing plate 9 in the multi-conductor long line work minimizing apparatus of the present invention.

3, the fixing plate 9 formed on the inside of the multi-conductor wire holding portion 10 between the receiving portion 20 and the lid 2 may be divided into two members. The fixing plate 9 formed by dividing the two members as described above can enclose the outer surface of the electric wire 15 between the divided members so that the electric wire can be seated. And then the cover 2 is covered with the U-shaped bolt 3.

3, the fixing plate 9 is formed with a plurality of protrusions 12 protruding from the inner surface of the fixing plate 9 so that the fixing plate 9 can stably contact the outer surface of the wire 15 with the protrusions 12. [ And the fixing plate 9 is engaged with the receiving portion 20 of the multi-conductor wire holding portion 10 and the inner surface of the lid 2. Therefore, the electric wire is stably fixed to the inside of the multi-conductor wire holding portion.

In other words, since the fixing plate 9 having the plurality of protrusions 12 formed between the accommodating portion 20 and the lid 2 is formed to press-fit the electric wires, the electric wires can be stably coupled to the multi- have.

Next, the operation and effect of the multi-conductor long line work minimizing apparatus of the present invention having the above-described configuration will be described with reference to a multi-conductor air laying method using a multi-conductor long line work minimizing apparatus.

FIG. 4 shows a multi-conductor line work minimizing apparatus according to an embodiment of the present invention installed on a multi-conductor wire.

4, the steel towers 36, 37 and 38 supporting the multi-conductor wires are used for a suspension tower 36 installed at a place where the horizontal angle of the electric wire is small and a place where the horizontal angle of the electric wire is generated And built-in steel towers (37, 38).

The built-in steel towers 37 and 38 support the horizontal load and the vertical load of the electric wire, and the wire tension and the grounding are supported by the built-in steel towers 37 and 38, And electric wires 32, 33, 34, and 35 may be installed on the iron tower arm portion by insulators 39 and 40, which are electrically insulated.

When the multi-conductor wires 32, 33, 34, and 35 are suspended by the temporary steel towers near the built-in steel tower 37 for constructing a temporary line of the built-in tower, the upper external wires 33 If the long line is dismantled from the built-in steel tower 37, the horizontal load tensile force of the upper outside line 33 of the section from the multi-conductor long line work minimization apparatus 31 to the built-up steel tower 37 is reduced, 38) to the multi-conductor long line work minimizing device 31 are connected to each other by the multi-conductor long line work minimizing device 31 of the present invention, and the other wires 32, 34 , 35).

The tensile force of the upper outer side electric wire 33 of the section from the multi-conductor long line work minimizing device 31 to the built-up pylon 37 is applied to the remaining electric wires 32, 34 and 35 by the multi- The wire tension of the power tower of the steel tower 36 becomes the same, so that it is possible to perform the long cable work after the upper inside wire 33 is suspended in the temporary steel tower while the unbalance tension is not generated.

In the same manner as described above, it is possible to carry out the aerial work with the upper inner wire 32, the lower outer wire 35 and the lower inner wire 34 with the remaining multi-conductor wires.

FIG. 5 is a flow chart of a conventional multi-conductor wire-laying operation method, which comprises a step S1 of removing the spacing insulating spacers for air-fixing the work conductors in a spaced apart interval; A step S2 of installing a suspension type steel tower pulley in an aerial disconnection section; A step S3 of disassembling the long line to the steel tower to be constructed; (S4) the wire from the target tower to the temporary tower; A step (S5) of installing a long line on the temporary steel tower; (S6) of removing a pulley installed in a suspension tower in the air-lift section and performing a long line operation; And an insulating spacer reinstalling step (S7) for keeping the spacing apart from each other at regular intervals so as to be spaced apart from each other in the work section; In order.

In the conventional multi-conductor wire air-laying operation method, the work section refers to a multi-conductor in a built-in steel-tower section adjacent to a built-in steel tower including a portion to which a wire is to be installed, In this method, unhooking and installation of long lines and installation and dismantling of spacers must be carried out in addition to the aerial installation work, and unbalance tension is generated between conductor wires even though the wires are removed one by one. As a result, it takes a long time and a lot of additional cost.

As shown in FIG. 6, the multi-conductor long-wire work minimizing apparatus of the present invention solves the problems of the prior art multi-conductor wire work minimizing apparatus 31, You can carry out the method of working on the change.

3 and 6, the multi-conductor wire air-laying method of the present invention includes a step S11 of separating and removing a spacer or a spacer damper located within one span before and after a steel tower, ; A step (S12) of installing a multi-conductor long line work minimizing device (31) on a wire of a suspending type steel tower (36) positioned at a latest stage of the steel tower to be constructed; A step (S13) of disassembling the long line to the steel tower to be constructed; (S14) the electric wires from the target tower to the temporary tower; A step of installing a long line on the temporary steel tower (S15); Removing the multi-conductor long line work minimizing device 31 (S16); And a step (S17) of installing a spacer or a spacer damper in one span before and after the steel tower to be moved; Proceed in order.

That is, according to the present invention, there is provided an apparatus for minimizing multi-conductor linework, which comprises a plurality of conductor wires integrally fixed to each other, a plurality of conductor wires are connected to a plurality of conductor wires The multi-conductor wire aerial detachment method using a multi-conductor long wire work minimizing apparatus can be realized by a spacer or a spacer damper which is conventionally performed and spaced apart from each other and airtightly fixed at regular intervals It is possible to minimize the number and process of spacers and spacer dampers which are separated and removed on multi-conductor wires and re-installed again. Therefore, it is possible not only to shorten the work time of multi- There is an effect that can be operated.

The above description is merely illustrative of the technical idea of the present invention, and various modifications and changes may be made by 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 scope of the present invention but to limit the scope of the technical idea of the present invention. Therefore, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the same should be interpreted as being included in the scope of the present invention.

1: Body 2: Cover
3: U-shaped bolt 4: Hinge pin
5: Nut for U-shaped bolt 6: Double nut for U-shaped bolt
7: Split pin 8: Pin washer
9: fixed plate 10: multi-conductor wire holding portion
11: Hinge hole 12: Projection
13: Hinge 15: Wires
16: fastening hole 20:
31: Minimization of multi-conductor long line operation device 32: Multi-conductor upper inner wire
33: Multi-conductor upper outside wire 34: Multi conductor lower inner wire
35: Multi-conductor bottom outside wire 36: Suspension type steel tower
37, 38: Built-in pylon 39: My handicapped device
40: Suspension insulator 41: Suspension clamp
42: Spacer

Claims (7)

And a body for forming a multi-conductor wire gripping portion for gripping multi-conductor wires in the longitudinal direction and integrally joining all the multi-conductor wires,
The multi-conductor wire-
A receiving portion for opening the upper side to seat the electric wire;
A cover for securing the electric wire to the accommodation portion and then fixing the electric wire to the accommodation portion; And
And a U-shaped bolt for compressing the accommodating portion and the cover to connect the multi-conductor wire to the body. The method according to claim 1,
And a hinge portion formed on one side of each of the receiving portion and the lid to hinge rotation in a vertical direction,
Wherein the hinge portion is a hinge pin passing through a hinge hole formed in one side portion of each of the receiving portion and the lid, and the receiving portion and the lid are coupled to each other. The method according to claim 1,
Wherein a plurality of fastening holes are formed at both side ends of the cover so that the U-shaped bolts are detachably coupled to the accommodating portion. The method of claim 3,
Wherein the U-shaped bolt is installed so as to surround the outer side surface of the accommodating portion and is inserted into a fastening hole formed in the lid and fastened by a nut for a U-shaped bolt. The method according to claim 1,
The multi-conductor wire-
And a fixing plate that is seated on the inside between the accommodating portion and the cover,
Wherein the fixing plate is divided into two members, and the electric wire is seated by wrapping the outer surface of the electric wire between the two divided members. 6. The method of claim 5,
Wherein a protrusion is formed on an outer side of the fixing plate. In the multi-conductor wire aerial disconnection method,
A multi-conductor wire aerial detachment method according to any one of claims 1 to 6, wherein a multi-conductor wire work minimization device is provided perpendicularly to a longitudinal direction of a wire of a suspending type steel tower located at a latest stage of the steel tower .

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