KR20220158544A - Indirect hot-line working method - Google Patents

Abstract

The present invention relates to an indirect live-wire work method, which comprises: a step of checking a work environment; a step of executing a protection work; a step of installing a novel transformer; a step of connecting an existing transformer and the novel transformer; and a step of applying power to the novel transformer, wherein a work regarding a single-phase transformer in an uninterrupted state without using an uninterrupted transformer vehicle can be executed. Therefore, the present invention is capable of realizing the replacement of a transformer.

Description

Indirect hot-line working method {INDIRECT HOT-LINE WORKING METHOD}

The present invention relates to an indirect live wire working method, and more particularly, to an indirect live wire working method capable of carrying out single-phase shift-related work in an uninterrupted state without using an uninterruptible transformer vehicle.

In accordance with the recent surge in electricity demand, power facilities to respond to it are continuously being expanded, and as the level of demand for electricity quality by power users increases, even instantaneous power outages are subject to civil complaints, resulting in collective actions and lawsuits by electricity users such as claims for compensation. As a situation in which cases are increasing, an uninterruptible construction method in which construction is performed in a state in which power is not cut off (live wire state) is being performed in order to supply high-quality power during distribution construction.

In the process of performing the uninterruptible work as described above, direct live-line work has been performed in the past for live-line work, but recently, indirect live-line work has been performed to ensure the safety of workers.

On the other hand, it is possible to simplify the single-phase alternator-related construction method work by developing protection products for indirect live-line charging parts following the abolition of direct live-line work. and replacement were possible, but in accordance with the abolition of direct live line, the installation of uninterruptible transformer vehicles is essential for the uninterruptible work of the current indirect live single-phase shifter-related construction method (single-phase shifter three-phase, single-phase shifter replacement).

However, in the related art, as an uninterruptible transformer vehicle is used, there is a problem in that an additional budget is required due to an increase in labor cost and machine expenses and an additional work time due to installation and removal of the uninterruptible transformer vehicle. Therefore, there is a need to improve this.

The background art of the present invention is published in Republic of Korea Patent Publication No. 2019-0025499 (published on March 11, 2019, title of invention: manual hydraulic multi-function extra-high pressure insulated gear gripper plier stick for hot-line work and indirect live-line method using the plier stick) has been

The present invention has been made to improve the above problems, and an object of the present invention is to provide an indirect live wire working method capable of performing single-phase shift-related work in an uninterruptible state without using an uninterruptible transformer vehicle.

An indirect live wire working method according to a first embodiment of the present invention includes: checking a working environment; carrying out protection work; Installing a new transformer; Connecting the existing transformer and the new transformer; and applying power to the new transformer.

The step of checking the working environment is characterized in that it is checked whether the new transformer can be mounted on the hanger band.

The step of connecting the existing transformer and the new transformer is characterized by connecting the neutral wire of the new transformer and the existing transformer after connecting the neutral wire of the new transformer to each other.

An indirect hot wire working method according to a second embodiment of the present invention includes: checking a working environment; carrying out protection work; Installing a replacement transformer; operating the replacement transformer and the existing transformer; and removing the existing transformer.

The step of checking the working environment is characterized in that it is checked whether the replacement transformer can be mounted on the hanger band.

The replacement transformer and the existing transformer are connected in parallel and operated.

In the indirect live wire working method according to the present invention, three-phase operation can be implemented by installing a new transformer in addition to the existing transformer in an uninterrupted state without using an uninterruptible transformer vehicle.

In the indirect live wire working method according to the present invention, the transformer can be replaced by operating the existing transformer and replacement transformer in parallel in an uninterrupted state without using an uninterruptible transformer vehicle, and removing the existing transformer.

1 is a flowchart schematically showing an indirect live wire working method according to a first embodiment of the present invention.
Figure 2 is a diagram schematically showing a process of three-phase transformer by the indirect live wire working method according to the first embodiment of the present invention.
3 is a flowchart schematically showing an indirect live wire working method according to a second embodiment of the present invention.
4 is a diagram schematically showing a process of replacing a transformer by an indirect live wire working method according to a second embodiment of the present invention.

Hereinafter, an embodiment of an indirect live wire working method according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or practice of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

1 is a flowchart schematically showing an indirect live line working method according to a first embodiment of the present invention, and FIG. 2 is a schematic diagram showing a process of three-phase transformer by an indirect live line working method according to a first embodiment of the present invention. it is a drawing Referring to FIGS. 1 and 2, in the indirect live line working method according to the first embodiment of the present invention, an indirect live line method is applied, and a single-phase transformer is converted into a three-phase transformer in an uninterruptible state without using a separate uninterruptible transformer vehicle. can be changed

First, the operator checks the working environment (S110). That is, the worker checks the state of the hanger band 20 installed on the electric pole 10 in the field. For example, the existing transformer 110 is installed in the hanger band 20 mounted on the electric pole 10, and the operator can check whether the new transformer 120 can be installed on the hanger band 20. On the other hand, the primary side of the existing transformer 110 is connected to the high voltage line (30), the secondary side is connected to the low voltage line (40).

The operator checks the working environment and, if the new transformer 120 can be installed in the hanger band 20, performs protection work (S120). For example, a worker may cover an insulating sheet 60 in a region requiring insulation using an indirect live wire method using the insulating tool 50 . An area covered by the insulating sheet 60 may be an area connected to the existing transformer 110 and the high voltage line 30 and the low voltage line 40 . That is, a bushing connected to one phase of the high voltage line 30 to which the existing transformer 110 is connected, a cutout switch, a down wire, etc. may be covered by the insulating sheet 60. In addition, two or three wires of the high-voltage cable 30, complete power lines, and the like may be covered by the insulating sheet 60. In addition, the insulating sheet 60 may be covered at various points to ensure the safety of workers.

On the other hand, when the new transformer 120 cannot be installed on the hanger band 20, it is difficult to apply the indirect live wire working method according to the present invention, so the work can be performed using an uninterruptible transformer vehicle.

When the protection work is completed, a new transformer 120 is installed (S130). For example, two new transformers 120 may be installed on the hanger band 20, respectively. Each new transformer 120 may be equipped with a cutout switch. The secondary down line of each new transformer 120 may be connected to the low voltage line 40.

When the installation of the two new transformers 120 is completed, the existing transformer 110 and the new transformer 120 are connected (S130). This process takes place in an uninterrupted state. More specifically, the neutral wires of the new transformer 120 are connected to each other, and then the neutral wires of the existing transformer 110 and the new transformer 120 are connected. For example, after installing the two new transformers 120 in the hanger band 20, the secondary side neutral wires provided in each new transformer 120 may be connected to each other. Since power is not applied to the new transformer 120, terminal block wiring is possible, and the neutral wire can be stripped and connected as needed. On the other hand, the existing transformer 110 may be connected by compressing and connecting the neutral wire of the bare neutral wire and any one of the new transformer 120 to the bare neutral wire with the same sleeve.

The high-tension cable connection work for applying power to the new transformer 120 is performed in an indirect live wire method using an insulating tool 50 (S140).

When the existing transformer 110 and the new transformer 120 are connected to each other, power is applied to the new transformer 120 (S150). That is, when power is applied to the new transformer 120 by the cutout switch, the existing transformer 110 and the new transformer 120 are three-phased.

When power is applied to the new transformer 120, the operator can remove the insulating sheet 60 using the insulating tool 50.

The indirect live wire working method according to the first embodiment of the present invention is to convert a single-phase shift into a three-phase shift in a three-phase distribution line, and the insulating sheet 60 covers equipment to be protected by using an insulating tool 50. let it do In addition, two new transformers 120 are installed in the hanger band 20 without a separate uninterruptible transformer device. When the new transformer 120 is installed, the neutral wire of the existing transformer 110 is stripped and compressed and connected to the neutral wire of the new transformer 120 in an uninterrupted state. Due to this, power failure does not occur during the work process, and it is possible to convert single-phase indirect live line to three-phase without using a vehicle for an uninterruptible transformer.

3 is a flowchart schematically showing an indirect live line working method according to a second embodiment of the present invention, and FIG. 4 is a view schematically showing a process of replacing a transformer with an indirect live line working method according to a second embodiment of the present invention. to be. Referring to FIGS. 3 and 4, in the indirect live line working method according to the second embodiment of the present invention, the indirect live line method is applied, and a single-phase transformer can be replaced in an uninterruptible state without using a separate uninterruptible transformer vehicle. have.

First, the operator checks the working environment (S210). That is, the worker checks the state of the hanger band 20 installed on the electric pole 10 in the field. For example, the existing transformer 210 is installed in the hanger band 20 mounted on the electric pole 10, and the operator can check whether the replacement transformer 220 can be installed on the hanger band 20. Meanwhile, the primary side of the existing transformer 210 is connected to the high voltage line 30, and the secondary side is connected to the low voltage line 40.

The worker checks the working environment and, if the replacement transformer 220 can be installed in the hanger band 20, performs protection work (S220). For example, a worker may cover an insulating sheet 60 in a region requiring insulation using an indirect live wire method using the insulating tool 50 . An area covered by the insulating sheet 60 may be an area connected to the existing transformer 210 and the high voltage line 30 and the low voltage line 40 . That is, a bushing connected to one phase of the high-tension line 30 to which the existing transformer 210 is connected, a cutout switch, a down wire, and the like may be covered by the insulating sheet 60 . In addition, the two wires of the high-voltage cable 30, the power wire complete, etc. may be covered by the insulating sheet 60. In addition, the insulating sheet 60 may be covered at various points to ensure the safety of workers.

Meanwhile, when the replacement transformer 220 cannot be installed on the hanger band 20, it is difficult to apply the indirect live wire working method according to the present invention, so the work can be performed using an uninterruptible transformer vehicle.

When the protection work is completed, the replacement transformer 220 is installed (S230). For example, the replacement transformer 220 may be installed in the hanger band 20 . A cutout switch may be mounted on the replacement transformer 220 . The secondary down line of the replacement transformer 220 may be connected to the low voltage line 40 .

When the installation of the replacement transformer 220 is completed, the existing transformer 210 and the replacement transformer 220 are operated (S240). This process takes place in an uninterrupted state. More specifically, the replacement transformer 220 and the existing transformer 210 maintain a state connected in parallel, and when power is applied to the replacement transformer 220 by a cutout switch, the replacement transformer 220 is operated. For example, since the replacement transformer 220 is connected to the high voltage cable 30 having the same phase as the existing transformer 210, the replacement transformer 220 and the existing transformer 210 may be connected in parallel on one phase. When the replacement transformer 220 and the existing transformer 210 are connected in parallel, parallel operation is possible.

When the existing transformer 210 and the replacement transformer 220 operate in parallel, the existing transformer 210 is removed (S250). A worker may turn off the cutout switch of the existing transformer 210 and remove the existing transformer 210 and the cutout switch connected to the existing transformer 210 .

After removing the existing transformer 210, the worker may remove the insulating sheet 60 using an insulating tool 50.

The indirect live wire working method according to the second embodiment of the present invention is to replace single-phase shifters in 3-phase and 1-phase lines, so that the insulation sheet 60 covers the equipment to be protected by using the insulation tool 50 . In addition, one replacement transformer 220 is additionally installed in the hanger band 20 without a separate uninterruptible transformer device. When the replacement transformer 220 is installed, the replacement transformer 220 is operated in parallel with the existing transformer 210, and then the existing transformer 210 is removed. Due to this, it is possible to replace the indirect live line single-phase shifter without power failure occurring during the work process and without using a vehicle for an uninterruptible transformer.

In the indirect live wire working method according to the first embodiment of the present invention, three-phase operation can be implemented by installing a new transformer in addition to the existing transformer in an uninterrupted state without using an uninterruptible transformer vehicle.

In the indirect live wire working method according to the second embodiment of the present invention, the existing transformer can be removed after operating the existing transformer and replacement transformer in parallel in an uninterrupted state without using an uninterruptible transformer vehicle.

The present invention has been described with reference to the embodiments shown in the drawings, but this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments. will understand Therefore, the true technical protection scope of the present invention should be determined by the claims below.

10: Jeonju 20: Hanger Band
30: high voltage cable 40: low voltage cable
50: insulation tool 60: insulation sheet
110: existing transformer 120: new transformer
210: existing transformer 220: replacement transformer

Claims (6)

Checking the work environment;
carrying out protection work;
Installing a new transformer;
Connecting the existing transformer and the new transformer; and
Indirect live wire working method comprising the; step of applying power to the new transformer.
The method of claim 1, wherein the step of checking the working environment
Indirect live wire working method, characterized in that for checking whether the new transformer can be mounted on the hanger band.
The method of claim 1, wherein the step of connecting the existing transformer and the new transformer
Indirect live wire working method, characterized in that for connecting the neutral wire of the new transformer to each other and then connecting the neutral wire of the new transformer and the existing transformer.
Checking the work environment;
carrying out protection work;
Installing a replacement transformer;
operating the replacement transformer and the existing transformer; and
An indirect live wire working method comprising the step of removing the existing transformer.
The method of claim 4, wherein the step of checking the working environment
Indirect live wire working method, characterized in that for checking whether the replacement transformer can be mounted on the hanger band.
According to claim 4,
Indirect live wire working method, characterized in that the replacement transformer and the existing transformer are connected in parallel and operated.

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