KR102329336B1 - Power distribution method using bypass cable - Google Patents

Abstract

The present invention relates to a distribution live wire construction method using a bypass cable suspended by a barge wire, the configuration of which is to install at least one barge wire fixed by relying on an electric pole as a work section for live wire work, wherein the barge wire is installed on the electric pole A wire installation step (S10) that is fixed by relying on the fixed awning; , One end of the bypass cable is connected to the high-voltage wire at the end of the work section, the other end is connected to the pad switch, and one end of the bypass cable is connected to the high-voltage wire at the other end of the work section, and the other end is the pad switch. and a cable installation step (S30) in which at least two or more of the bypass cables are installed at all ends of the work section while being installed depending on the work section; A fixing step (S40) of supporting and fixing the bypass cable by relying on the wire to make it possible; At the same time as completely blocking the electrical connection with the bypass cable through the pad switch, high-voltage wires except for the work section are electrically connected to each other through the bypass cable to prevent a power outage while performing work. A setting step (S50) to
The safety of workers working in the work section is protected by blocking the electricity flowing in the work section, but the high-voltage wire in the work section is kept in a live state through the bypass cable to prevent power failure on the consumer side connected to the high-voltage wire. Since the bypass cable is floated and fixed at a predetermined height through a number of fixed pulleys that depend on the clamshell, it does not obstruct pedestrians or vehicles in the work section, providing convenience for pedestrians and vehicles. , walking and vehicle traffic is ensured, so that the worker can comfortably perform work regardless of the working time, thereby minimizing safety accidents caused by the operator's mistake.

Description

Power distribution method using bypass cable floating by a barge wire {Power distribution method using bypass cable}

The present invention relates to a distribution live wire method using a bypass cable suspended by a barge wire, and more particularly, by blocking electricity flowing in the work section, the safety of workers working in the work section is protected, but the high-voltage wire in the work section is By maintaining the live wire through the bypass cable, it prevents power failure on the consumer side connected to the high-voltage wire. Not only does it not interfere with pedestrians or vehicles, so it is possible to provide convenience for pedestrians and vehicles, as well as secure walking and vehicle traffic, allowing workers to work comfortably regardless of working hours. It relates to a distribution live wire construction method using a bypass cable floating by a barge that can minimize safety accidents caused by mistakes of

In general, when replacement work such as electric poles, gold bars, insulators, and (high voltage) wires is required, a work section is set and the electric flow is completely blocked in the work section so that the worker can safely perform the work.

However, if the worker cuts off the electricity flowing through the high-voltage wire in the work section to safely perform the work, a power outage occurs on the consumer side connected to the high-voltage wire during the work period. The work is performed by maintaining the high-voltage wire in a live state by compensating for the connection.

However, due to the long length of the bypass cable that maintains the high-voltage wire in a live state and the rather heavy weight, most bypass cables, except for both ends connected to the high-voltage wire, are laid on the ground to prevent pedestrians from walking or work. When the road on which the vehicle is driven is included in the lower part of the section, there is a problem that prevents the operation of the vehicle.

In addition, due to the above problems, the worker is required to work quickly in order to minimize the time required for the work.

[Document 0001] Republic of Korea Patent Publication No. 10-1103553 (2012.01.06) [Document 0002] Japanese Patent Application Laid-Open No. 2013-212027 (2013.10.10)

The present invention has been proposed to solve all the problems as described above, and its purpose is to cut off electricity flowing in the work section to protect the safety of workers working in the work section, but the high-voltage wire in the work section uses a bypass cable. At the same time, it prevents power failure on the consumer side connected to the high-voltage wire by maintaining the live wire through the Not only can it provide convenience for pedestrians and vehicles because it does not obstruct the passage, but also because it ensures pedestrian and vehicle traffic, workers can comfortably perform work regardless of working hours, An object of the present invention is to provide a distribution live wire method using a bypass cable that is floated by a barge that can minimize safety accidents.

The distribution live wire construction method using a bypass cable floating by a wire wire according to the present invention for achieving the above object installs at least one wire wire fixed by relying on an electric pole as a work section for the live wire work, but the wire wire is A wire installation step (S10) that is fixed by relying on an awning that is installed and fixed on a pole; and a switch installation step of installing a pad switch that determines the on-off of the electrical connection of the bypass cable on the selected pole (S20) ); and one end of the bypass cable is connected to the high-voltage wire at the end of the working section and the other end is connected to the pad switch, and one end of the bypass cable is connected to the high-voltage wire at the other end of the working section, and the other end is A cable installation step (S30) in which at least two or more of the bypass cables are installed at all ends of the work section while being connected to the pad switch; A fixing step (S40) of supporting and fixing the bypass cable by relying on the fishing line so as to be spaced apart and floating; At the same time, the electrical connection with the bypass cable is turned on through the pad switch, while the high-voltage wires except for the work section are electrically connected to each other through the bypass cable while performing work. A setting step (S50) to prevent power failure; consists of,
In the setting step (S50), the bypass cable connecting one end of the working section and the pad switch is called a first bypass cable, and the other bypass cables are sequentially connected to the second bypass cable, the third bypass cable, … , referred to as an n-th bypass cable, a switch for determining on-off of the first bypass cable in the pad switch connected to the bypass cable to determine ON-OFF of the bypass cable is called a first switch, and the other second, ... , n A switch that determines the on-off of the bypass cable is set to the second, ... , n switch,
A first step (S51) of setting a first switch of the pad switch connected to the first bypass cable from OFF to ON, and a first step (S51) of the pad switch connected to the second bypass cable. After turning the second switch from OFF to ON, a second step (S52) of blocking the electrical connection of the high-voltage line connected to the second bypass cable, and the third, ... , n the third of the pad switch connected to the bypass cable, ... , after turning the n switch from off to on, the third, ... , n A third process (S53) of blocking the electrical connection of the high-voltage wire connected to the bypass cable, and a fourth process (S54) of blocking the electrical connection of the high-voltage wire connected to the first bypass cable (S54) ), characterized in that it consists of.

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As described above, according to the distribution live wire method using the bypass cable suspended by the clamshell according to the present invention, the safety of workers working in the work section is protected by blocking the electricity flowing in the work section, but the high-voltage wire in the work section is By maintaining the live wire through the bypass cable, it prevents power failure on the consumer side connected to the high-voltage wire. Not only does it not interfere with pedestrians or vehicles, so it is possible to provide convenience for pedestrians and vehicles, as well as secure walking and vehicle traffic, allowing workers to work comfortably regardless of working hours. It has the effect of minimizing safety accidents caused by mistakes.

1 is a block diagram of a distribution live wire method using a bypass cable floating by a barge according to an embodiment of the present invention;
FIG. 2 is a view for explaining a distribution live wire method using a bypass cable floating by the barge wire shown in FIG. 1; FIG.

A distribution live wire method using a bypass cable floating by a barge according to a preferred embodiment of the present invention will be described in detail based on the accompanying drawings. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the gist of the present invention will be omitted.

1 and 2 show a distribution live wire method using a bypass cable floated by a barge according to an embodiment of the present invention, FIG. 1 is a bypass cable floating by a barge according to an embodiment of the present invention. Fig. 2 shows a block diagram of the distribution live wire method used, respectively, for explaining the distribution live wire method using the bypass cable floating by the barge wire shown in Fig. 1 .

As shown in the figure, the distribution live wire method 100 using a bypass cable floated by a wire according to an embodiment of the present invention includes a wire installation step (S10), a switch installation step (S20), and a cable installation It includes a step (S30), a fixing step (S40), and a setting step (S50).

As shown in Figures 1 and 2a, the clamshell installation step (S10) is to install at least one clamshell 10 fixed by relying on the electric pole 1 as a work section to be worked on a live line, but the clamshell 10 ) is to be fixed by relying on the false tree (2) that is installed and fixed on the electric pole (1).

Here, the wire 10 serves to support the bypass cable 30 to be installed later and float it in the air, and has excellent durability in order to prevent it from being broken or damaged by the heavy bypass cable 30 . It is preferable to use it as a stranded wire.

In order to install the hook wire 10, first perform the operation of installing and fixing the hook 2 that can firmly support and fix the wire 10 to the electric pole, and then rely on the hook 2 It goes without saying that the wire 10 is firmly connected and fixed.

As shown in Figures 1 and 2b, the switch installation step (S20) is a pad switch 20 that determines the on-off of the electrical connection of the bypass cable 30 on the selected electric pole (1). installation process.

That is, as shown in FIG. 2F , the pad switch 20 turns on-off the electrical connection between the bypass cable and 30 connected to the pad switch 20 to finally turn the pad switch 20 on and off. It is used as a medium for turning on or off the electrical connection with the high-voltage wire 3 connected to the bypass cable 30 .

1 and 2d, in the cable installation step (S30), one end of the bypass cable 30 is connected to the high-voltage wire 3 at the end of the work section, and the other end is connected to the pad switch 20 and One end of the other bypass cable 30 is connected to the high voltage wire 3 at the other end of the working section, and the other end is connected to the pad switch 20, but the bypass cable 30 is connected to the working section. It is a process that is installed at all ends of the working section with at least two or more installed according to the

For example, when the working section is formed as a single line in a straight line, since the bypass cables 30 are respectively connected to one end and the other end of the line, a total of two bypass cables 30 are required, and the working section is alphabetical. When the high-voltage wire 3 is branched like the tee (T), since the bypass cables 30 are respectively connected to the ends of each line, a total of three bypass cables 30 are required, and the work section is When the high-voltage wire 3 is formed like a cross (┼), since the bypass cables 30 are respectively connected to the ends of each line, a total of four bypass cables 30 are required.

Here, the reason for connecting the bypass cables 30 to the high-voltage wire 3 side at the end of the work section is that the electric flow inside the work section must be blocked in order for the operator to safely perform electrical work inside the work section, and , in order to block the electrical flow, the electrical connection of the high-voltage wire 3 at the end of the working section should be cut off, and then the inconvenience of generating a power outage on the consumer side connected to the high-voltage wire 3 is caused. Even if the connection of the high-voltage wire 3 of ) to supply electricity to the consumer side connected to the high-voltage wire (3) by the live wire operation.

As shown in FIGS. 1 and 2C to 2E, the fixing step (S40) is performed by relying on the wire 10 so that the bypass cable 30 can float at a predetermined height from the ground. In the process of supporting and fixing the bypass cable 30,

A fixed pulley 40 having a transfer roller 41 formed on the upper portion so as to be easily transferred by riding the barge wire 10, and an anchoring roller 42 capable of placing the bypass cable 30 on the lower portion. ) A running line connecting process (S41) for connecting and fixing a plurality of errands 50 so that a plurality of the fixed pulleys 40 can easily maintain a constant distance, and the fixed pulley on the joga line 10 ( 40) A plurality of sequential installations, but a pulley installation process (S42) of installing the transfer roller 41 of the fixed pulley 40 so that it can be transported on the claw line 10, and relying on the clamshell 10 A cable fixing process (S43) of fixing the bypass cable 30 with the seating rollers 42 of the plurality of upper fixing pulleys 40 fixed by the A pulley arrangement step (S44) of transferring a plurality of the fixed pulleys 40 together with (50) in one direction so that the fixed pulleys 40 are arranged at regular intervals is included;

The cable installation step (S30) is performed together with the cable fixing process (S43).

That is, in the fixing step (S40), the bypass cable 30 is supported through a plurality of the fixed pulleys 40 installed on the wire 10 so that the bypass cable 30 is connected to the fixed pulley 40. ) is suspended at the installed height, thereby preventing the problem that the bypass cable 30 is laid on the floor to prevent the passage of pedestrians or vehicles in the process of performing electrical work construction in the work section. Stable work can be induced while ensuring smooth passage of vehicles.

In particular, since the bypass cable 30 is floated to a predetermined height to safely secure pedestrian walking and vehicle passage, there is no restriction on the working period, so that the worker can comfortably perform the work without rushing. Safety of work can be secured by minimizing safety accidents that may occur due to mistakes.

Here, since the fixed pulleys 40 supporting the bypass cable 30 by relying on the wire 10 through the pulley arrangement step S44 are arranged at regular intervals, the high weight of the bypass cable ( The weight of 30) can be evenly distributed and supported by a plurality of the fixed pulleys 40 , so that stable support of the bypass cable 30 can be induced through the fixed pulleys 40 .

1 and 2f, the setting step (S50) is to cut off (OFF) the electrical connection of the high-voltage wire 3 located at the end of the work section to completely block the electrical flow into the work section. At the same time, by turning on the electrical connection with the bypass cable 30 through the pad switch 20 , the high voltage wires 3 except for the work section are electrically connected to each other through the bypass cable 30 . to prevent power outages while performing work.

That is, the work section in which the operator works can be safely performed because electricity does not flow, and the high-voltage wire 3 that is electrically disconnected is electrically connected through the bypass cable 30 and the high-voltage wire 3 It is possible to perform work in the working section in a live wire state where electricity can be stably supplied to the consumer side connected to the

On the other hand, in the setting step (S50), the bypass cable 30 connecting one end of the work section and the pad switch 20 is called a first bypass cable, and the other bypass cables 30 are sequentially removed. 2 bypass cable, 3 bypass cable, … , called the nth bypass cable,

A switch for determining on-off of the first bypass cable in the pad switch 20 connected to the bypass cable 30 to determine ON-OFF of the bypass cable 30 . is called a first switch, and the other second, ... , n A switch that determines the on-off of the bypass cable is set to the second, ... , n switch,

1, the setting step (S50) is a first process of setting the first switch of the pad switch 20 connected to the first bypass cable from OFF to ON. (S51) and after turning the second switch of the pad switch 20 connected to the second bypass cable from OFF to ON, the electrical side of the high-voltage wire 3 connected to the second bypass cable A second process (S52) of blocking the connection, and the third, ... , n the third of the pad switch 20 connected to the bypass cable, ... , after turning the n switch from off to on, the third, ... , n The third step (S53) of blocking the electrical connection of the high-voltage wire 3 connected to the bypass cable, and the third step (S53) of blocking the electrical connection of the high-voltage wire 3 connected to the first bypass cable and a fourth step (S54).

That is, as shown in FIG. 2f, the setting step (S50) is performed while electrically connecting the bypass cable 30 connected to the high-voltage wire 3 to each other through the operation of the pad switch 20, and the connected bypass The electrical connection of the high-voltage wire 3 on the pass cable 30 side is sequentially blocked so that the electricity flowing to the work section is stably cut off.

At this time, the portion where the electrical connection is cut off in the high-voltage wire 3 through the bypass cable 30 is compensated for connection, and power is continuously supplied to the consumer connected to the high-voltage wire 3 as well.

The distribution live wire method 100 using the bypass cable suspended by the clamshell of the present invention made of the above process blocks electricity flowing in the work section to protect the safety of workers working in the work section, but the high voltage of the work section The electric wire 3 is maintained in a live state through the bypass cable 30 to prevent a power failure on the consumer side connected to the high-voltage electric wire 3, and at the same time, the bypass cable 30 is dependent on the overhead wire 10. Since it is fixed to a predetermined height through a plurality of fixed pulleys 40 that By securing the passage, the worker can comfortably perform work regardless of the working time, thereby minimizing safety accidents caused by the operator's mistake.

The distribution live wiring method 100 using a bypass cable floating by a barge wire according to an embodiment of the present invention having the configuration as described above cuts off electricity in the work section as follows, and at the same time connects the high-voltage wire 3 to a live state to form with

Here, a case in which the work section is formed in a 'T' shape will be described as an example, but the construction method is not limited to this type of work section, of course.

First, as shown in Fig. 2a, after installing the armature 2 on the electric pole 1 included in the work section, the nail 10 is tautly connected to the pole 2 and fixed to the pole (2). 10) is installed horizontally. (S10)

Here, the wire 10 is configured to support and float the bypass cable 30 , and of course, it is installed at a suitable height in consideration of the installation height of the bypass cable 30 .

Then, as shown in FIG. 2b, the pad switch 10 that determines the on-off (ON-OFF) of the electrical connection of the bypass cable 30 to the selected electric pole 1 is installed and fixed. (S20)

Here, if it is difficult to install and fix the pad switch 20 on the electric pole 1, it is of course possible to install and fix a separate support to the support.

Then, as shown in FIG. 2D, one end of the bypass cable 30 is connected to the high-voltage wire 3 at the end of the work section and the other end is connected to the pad switch 20, and the other bypass cable ( One end of 30) is connected to the high-voltage wire at the other end of the work section, and the other end is connected to the pad switch 20 .

Here, due to the nature of the work section being formed in a 'T' shape, there are a total of three ends, and three bypass cables 30 are required to connect each end, and the bypass cable 30 will be described. For convenience, they are sequentially referred to as first, second, and third bypass cables. (S30)

Then, as shown in Figures 2c to 2e, the first, second, and third bypass cables are spaced apart from the ground at a predetermined height so that they can float and a fixed sheave 40 that depends on the wire 10 is installed. Through this, the first, second, and third bypass cables are supported and fixed at a predetermined height. (S40)

Then, as shown in FIG. 2f, the first switch of the pad switch 20 connected to the first bypass cable is set from OFF to ON (S51),

After turning the second switch of the pad switch 20 connected to the second bypass cable from off to on, the electrical connection of the high voltage wire 3 connected to the second bypass cable is cut off ( S52),

After turning the third switch of the pad switch 20 connected to the third bypass cable from off to on, the electrical connection of the high voltage wire 3 connected to the third bypass cable is cut off ( S53),

By blocking the electrical connection of the high-voltage wire connected to the first bypass cable (S54), the electricity flowing to the work section is completely cut off, and at the same time, the high-voltage wire with the electrical connection cut off is the first, second, and third They are connected to each other through a bypass cable so that the high-voltage wire 3 is maintained in a live state. (S54)

Here, the method of cutting off the electricity of the high-voltage wire can be blocked by cutting off a normal jumper wire formed in the high-voltage wire.

As described above, when the electricity flowing in the work section is completely cut off, the operator can safely and comfortably perform the work in the work section.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are illustrative and not limited to the above-described embodiments, those of ordinary skill in the art will realize that various modifications and equivalent embodiments are possible therefrom. point can be understood. In addition, it is a matter of course that modifications by those skilled in the art are possible within the scope that does not impair the spirit of the present invention. Accordingly, the scope of claiming the right in the present invention will not be defined within the scope of the detailed description, but will be limited by the claims and its technical spirit to be described later.

1. Jeonju 2. Gaanmok
3. High-voltage wire
10. Clamshell 20. Pad Switch
30. Bypass cable 40. Fixed pulley
41. Feed roller 42. Place roller
50. errands
S10. Clamshell installation step S20. switch installation steps
S30. Cable installation step S40. fixed stage
S41. Running line connection process S42. Pulley installation process
S43. Cable fixing process S44. Pulley Placement Process
S50. Setting step S51. Step 1
S52. Second process S53. 3rd process
S54. 4th process
100. Distribution live wire method using bypass cable suspended by barge wire

Claims (3)

At least one nail 10 fixed by relying on the electric pole 1 is installed in the working section for the live wire work, and the nail 10 is fixed by relying on the electric pole 1 and fixed by the pole 1 a clamshell installation step (S10);
A switch installation step (S20) of installing a pad switch (20) that determines the on-off of the electrical connection of the bypass cable (30) on the selected electric pole (1);
One end of the bypass cable 30 is connected to the high voltage wire 3 at the end of the work section, the other end is connected to the pad switch 20, and one end of the other bypass cable 30 is at the other end of the work section. A cable installation step in which at least two or more of the bypass cables 30 are installed at all ends of the work section while being connected to the high-voltage wire 3 of the (S30);
A fixing step (S40) of supporting and fixing the bypass cable 30 by relying on the wire 10 so that the bypass cable 30 is spaced apart from the ground at a predetermined height and can float; and
By cutting off (OFF) the electrical connection of the high-voltage wire 3 located at the end of the work section, the electrical flow into the work section is completely blocked, and at the same time, it is connected to the bypass cable 30 through the pad switch 20. A setting step (S50) of preventing a power outage while performing work by turning on the electrical connection so that the high-voltage wires 3 except for the work section are electrically connected to each other through the bypass cable 30; includes; is done by
In the setting step (S50), the bypass cable 30 connecting one end of the working section and the pad switch 20 is referred to as a first bypass cable, and the other bypass cables 30 are sequentially connected to the second bypass cable 30 . pass cable, third bypass cable, ... , referred to as an n-th bypass cable, the first bypass in the pad switch 20 connected to the bypass cable 30 to determine ON-OFF of the bypass cable 30 . A switch that determines on-off of the cable is called a first switch, and the other second, ... , n A switch that determines the on-off of the bypass cable is set to the second, ... , n switch,
A first step (S51) of setting a first switch of the pad switch 20 connected to the first bypass cable from OFF to ON, and the second bypass cable connected to the first step (S51) After turning the second switch of the pad switch 20 from off to on, a second step (S52) of cutting off the electrical connection of the high voltage wire 3 connected to the second bypass cable, and sequentially the Third, … , n the third of the pad switch 20 connected to the bypass cable, ... , after turning the n switch from off to on, the third, ... , n The third process (S53) of blocking the electrical connection of the high-voltage wire (3) side connected to the bypass cable, and blocking the electrical connection of the high-voltage wire (3) side connected to the first bypass cable Distribution live wire method using a floating bypass cable, characterized in that consisting of a fourth step (S54). delete delete

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