KR101171661B1 - System and method for monitoring theft of power line - Google Patents

Abstract

Disclosed is a power line theft monitoring technology that can easily determine a stolen position of a power line, promptly cope with a power line theft, and facilitate an administrator to recover the power line. To this end, the power line theft monitoring system according to the present invention is installed on one side of the power line, when the power line is not applied to the power line theft determination unit for wirelessly transmitting the theft signal; And a plurality of terminal units installed at the other side of the power line, receiving the theft signal from the powerline theft discrimination unit, and transmitting each unique code signal to the powerline theft discrimination unit through powerline communication. The unit analyzes the unique code signal to determine a power line theft position.

Description

System and method for monitoring theft of power line

The present invention relates to a power line theft monitoring system and method. In particular, the present invention relates to a power line theft monitoring system and method capable of quickly and effectively monitoring the power line theft.

In recent years, as the price of raw materials has soared, theft accidents of illegally cutting power lines made of copper have increased rapidly. This power line theft not only results in costly primary damage to repair the cut power lines, but also causes more secondary damage due to the disruption of industrial and living facilities due to power outages.

Accordingly, a monitoring system for preventing theft of power lines has been introduced, but the conventional theft monitoring system is only a degree of observing a facility using a surveillance camera, and the observer must be permanently standing. In addition, there is a problem that it is economically inefficient to monitor all the enormous length of the power line network with a limited shooting range of the surveillance camera. In addition, when the power line is cut off in this way, there is a risk of electric shock by the neglected power line.

It is an object of the present invention to quickly and effectively monitor the theft of power lines. In addition, an object of the present invention is to minimize the primary power failure damage and secondary industrial damage caused by theft of the power line by enabling the rapid follow-up action when the power line theft occurs.

In addition, an object of the present invention is to monitor the occurrence of power line theft efficiently by turning on an alarm light or photographing the location of theft only when the theft occurs.

Power line theft monitoring system according to the present invention for achieving the above object is installed on one side of the power line, when the power line is not applied to the power line theft detection unit for wirelessly transmitting the theft signal; And a plurality of terminal units installed at the other side of the power line, receiving the theft signal from the powerline theft discrimination unit, and transmitting each unique code signal to the powerline theft discrimination unit through powerline communication. The unit analyzes the unique code signal to determine a power line theft position.

In this case, when the power line is not applied to the power line for more than a predetermined time, the power line theft determining unit may control the theft signal to be transmitted from the communication unit to the plurality of terminals.

In this case, the power line theft discrimination unit is provided on one side of the power line, the power supply unit for receiving the AC power from the power line, converts the AC power into DC power to supply power; A communication unit wirelessly transmitting the stolen signal to the plurality of terminal units and receiving the unique code signal from the plurality of terminals through power line communication; And a control unit for controlling the theft signal to be transmitted from the communication unit to the plurality of terminal units when the AC power is not applied to the power supply unit, and analyzing the unique code signal received by the communication unit to determine a power line theft position. It may include.

In this case, each of the plurality of terminal units may include: a wireless receiving unit receiving the theft signal transmitted from the communication unit; A storage unit for storing the unique code signal; A transmitter for transmitting the unique code signal to the communication unit; And a terminal controller configured to control the transmitter to transmit the unique code signal to the communication unit when the wireless receiver receives the theft signal.

In this case, each of the plurality of terminal units may further include a monitoring unit for generating an alarm sound, turning on an alarm lamp, or capturing the power line theft position as an image.

At this time, the control unit determines the power line theft position, and controls to transmit an alarm signal through the communication unit to the terminal unit of the power line theft location, the terminal control unit of the terminal unit receives the alarm signal The monitoring unit can be controlled to operate.

At this time, the power line theft determination unit may be installed in the telephone pole of one side of the wire. In addition, the power line theft determination unit may be installed in the electricity meter in the consumer.

In this case, the power line theft determining unit is installed in the power system at the end of the power system based on the power supply station, the plurality of terminal units are located between the power supply station from the end of the first terminal unit And a second terminal unit installed closer to the power supply station than the first terminal unit, wherein the power line theft discrimination unit receives a first unique code signal of the first terminal unit and a second unique code of the second terminal unit When the signal is not received, the position between the first terminal unit and the second terminal unit may be determined as the power line theft position.

In this case, when the AC power is not applied to the power supply unit, the control unit and the communication unit further includes a preliminary power supply for supplying the preliminary power, the preliminary power supply is charged through the usual power supply, the power supply unit When the AC power is not applied, the secondary battery may be formed of a rechargeable battery that supplies power to the control unit and the communication unit.

In this case, the communication unit may transmit the theft signal to the plurality of terminal units by binary CDMA communication.

In addition, the power line theft monitoring method according to the present invention for achieving the above object comprises the steps of monitoring the application of AC power to the power line theft detection unit installed on one side of the power line; When the application of the AC power is stopped, the power line theft discrimination unit wirelessly transmitting a theft signal to a plurality of terminal units installed on the other side of the power line; After the plurality of terminal units have received the theft signal, transmitting a unique code signal of each of the plurality of terminal units to the power line theft determination unit by power line communication; And determining, by the power line theft determining unit, the power line theft position by analyzing the unique code signal.

In this case, in the step of wirelessly transmitting the theft signal, when the application of the AC power is interrupted for more than a predetermined time, the theft signal may be transmitted from the power line theft determination unit to the plurality of terminal units.

In this case, the method may include generating an alarm sound, turning on an alarm light, or photographing the power line theft position as an image to notify the user of the power line theft.

In this case, the power line theft determination unit may be installed in the telephone pole of one side of the power line.

At this time, the power line theft determination unit may be installed in the electricity meter in the consumer.

In this case, the power line theft determination unit is installed at the end of the power system based on the power supply in the power system, the plurality of terminal units are located between the end of the power system from the power supply terminal first terminal unit And a second terminal unit installed closer to the power supply station than the first terminal unit. The determining of the power line theft position may include: receiving the first unique code signal of the first terminal unit; When the second unique code signal of the second terminal unit is not received, a position between the first terminal unit and the second terminal unit may be determined as the power line theft position.

At this time, when the application of the AC power is stopped, the method further includes the step of applying a preliminary power through the preliminary power supply to the power line theft discrimination unit, the preliminary power supply is charged through the usual power supply, the power supply unit When the AC power is not applied, the secondary battery may be formed of a rechargeable battery that supplies power to the power line theft discrimination unit.

In this case, the wireless transmission of the theft signal may include transmitting the theft signal from the power line theft determination unit to the plurality of terminal units by binary CDMA communication.

According to the present invention, theft signal and the unique code signal are exchanged between the power line theft discrimination unit and the terminal unit, so that theft of the power line can be monitored quickly and effectively.

In addition, the present invention can quickly follow up in the event of the theft of the power line to minimize the primary power failure damage and secondary industrial damage caused by the power line theft.

In addition, the present invention can effectively monitor the occurrence of power line theft by turning on an alarm lamp or photographing the location of theft only when the theft occurs.

1 is a schematic diagram of a power line theft monitoring system according to an embodiment of the present invention.
2 is a block diagram showing the configuration of a power line theft discrimination unit of a power line theft monitoring system according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a communication unit of a power line theft discrimination unit of a power line theft monitoring system according to an exemplary embodiment of the present invention.
4 is a block diagram illustrating a configuration of a control unit of a power line theft discrimination unit of the power line theft monitoring system according to an exemplary embodiment of the present invention.
5 is a block diagram showing the configuration of a terminal unit of a power line theft monitoring system according to an embodiment of the present invention.
FIG. 6 is a diagram illustrating elements constituting a communication network in a powerline theft monitoring system according to an exemplary embodiment of the present invention.
7 is a schematic block diagram showing a power line theft monitoring system according to an embodiment of the present invention and a power line theft monitoring system according to another embodiment of the present invention.
8 is a flowchart illustrating a method for monitoring power line theft according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter will be described the configuration and operation of the power line theft monitoring system according to an embodiment of the present invention.

1 is a schematic diagram of a power line theft monitoring system according to an embodiment of the present invention. 2 is a block diagram showing the configuration of a power line theft discrimination unit of a power line theft monitoring system according to an embodiment of the present invention. 3 is a block diagram illustrating a configuration of a communication unit of a power line theft discrimination unit of a power line theft monitoring system according to an exemplary embodiment of the present invention. 4 is a block diagram illustrating a configuration of a control unit of a power line theft discrimination unit of the power line theft monitoring system according to an exemplary embodiment of the present invention. 5 is a block diagram showing the configuration of a terminal unit of a power line theft monitoring system according to an embodiment of the present invention.

Referring to FIG. 1, the power line theft monitoring system 1000 according to the present invention includes a power line theft determining unit 100 and a terminal unit 200. In this case, the terminal unit 200 may include a first terminal unit 200a, a second terminal unit 200b, a third terminal unit 200c, and a fourth terminal unit 200d. However, the number of the terminal units 200 is not limited thereto.

Referring to FIG. 2, the power line theft discrimination unit 100 is connected to a power line and transmits a theft signal to a terminal unit 200 to be described later when AC power is not applied to the power line. In addition, the power line theft determining unit 100 may be installed at the end of the power system based on the power supply station so as to detect an overall power failure in the power system in the power system. In addition, the power line theft determination unit 100 may be installed in the telephone pole 10. In particular, the power line theft determining unit 100 may include a power supply unit 110, a communication unit 130, and a control unit 140. The power line theft determining unit 100 may further include a preliminary power supply unit 120.

The power supply unit 110 receives an AC power from the power line at one side of the power line. The power supply unit 110 converts the AC power into DC power to supply power to the preliminary power supply unit 120, the communication unit 130, and the control unit 140, which will be described later. The power supply unit 110 may include an AC / DC adapter for converting AC power supplied from a power line into DC power and an EMI filter for removing high frequency noise.

The preliminary power supply unit 120 supplies the preliminary power to the communication unit 130 and the control unit 140 when AC power is not applied to the power supply unit 110. The preliminary power supply unit 120 is normally charged through the power supply unit 110, and when the AC power is not applied to the power supply unit 110, a charge for supplying the reserve power to the communication unit 130 and the control unit 140. It can be formed as a secondary battery capable of discharging.

Referring to FIG. 3, the communicator 130 may include an electrostatic signal transmitter 131, an burglar signal transmitter 132, a unique code signal receiver 133, and an alarm signal transmitter 134.

When the AC power is not applied to the power applying unit 110, the power failure signal transmitter 131 transmits the power failure signal to the terminal unit 200 and a data concentrator (DCU; Data Concentration Unit) which will be described later. At this time, the blackout signal may contain information such as the date and time of the blackout, the blackout time.

When the AC power is not applied to the power applying unit 110, the theft signal transmitting unit 132 transmits the theft signal to the terminal unit 200 and the data collection device through wireless communication. In this case, the theft signal may be transmitted from the theft signal transmission unit 132 to the terminal unit 200 by binary binary code division multiple access (CDMA) communication. Binary CDMA has a simple structure of a receiver, a synchronous algorithm, and an RF circuit configuration, and thus, an economical system can be constructed. In addition, binary CDMA can realize excellent performance, such as having a maximum of 5 to 11 channels and a maximum transmission rate (15Mbps (5MHZ), 60Mbps (20MHz)) for each frequency band.

The unique code signal receiving unit 133 receives each unique code signal from the terminal unit 200 through power line communication.

The alarm signal transmitter 134 transmits an alarm signal to the terminal unit 200 or the data concentrator to easily detect the fact that the power line is stolen.

The controller 140 controls the overall operation of the power line theft determining unit 100. The controller 140 may be formed of a charger IC. The controller 140, referring to FIG. 4, may include a power failure detector 141, a power failure signal generator 142, a burglar signal generator 143, a burglar position determiner 144, and an alarm signal generator. 145 can be configured to include.

The power failure detection unit 141 detects that AC power is not applied to the power supply unit 110, and thus, the detection of power failure, that is, theft of the power line. After detecting the power failure, the power failure detecting unit 141 may control the preliminary power supply unit 120 to supply the preliminary power to the control unit 140 and the communication unit 130.

The power failure signal generator 142 generates a power failure signal when the power failure detection unit 141 detects a power failure, and the power failure signal is transmitted to the terminal unit 200 and the data through the power failure signal transmitter 131 of the communication unit 130. Control to be sent to the concentrator. Such a power failure signal may be accumulated and used as statistics of the power failure information.

When the stolen signal generator 143 detects that AC power is not applied to the power supply 110, the stolen signal generator 143 generates a stolen signal. The burglar signal generator 143 controls the burglar signal to be transmitted from the burglar signal transmitter 132 of the communicator 130 to the terminal 200 through wireless communication. At this time, the anti-theft signal generation unit 143 generates the theft signal only when AC power is not applied from the power line to the power supply unit 110 for more than a predetermined time, in order to prevent a mistake in power line theft. Can be generated. And, the predetermined time may be preferably 5 seconds to 10 seconds.

Theft location determiner 144 analyzes the unique code signal received by the unique code signal receiver 133 of the communicator 130 to determine the power line theft location. A method of determining a specific power line theft position will be described later.

When the alarm signal generating unit 145 detects that AC power is not applied to the power supply unit 110, the alarm signal generating unit 145 sends an alarm signal to the terminal unit 200 corresponding to the power line theft position determined by the theft location determining unit 144. Create and send In this case, the alarm signal generator 145 may generate an alarm signal only when AC power is not applied from the power line to the power supply 110 for a predetermined time. That is, the alarm signal generator 145 generates an alarm signal only when AC power is not applied from the power line to the power supply 110 for more than a predetermined time, in order to prevent an accidental power failure or the like due to power line theft. can do.

The terminal unit 200 receives the theft signal from the power line theft determining unit 100, and transmits a unique code signal of the terminal unit 200 to the power line theft determining unit 100 in response to the theft signal. Such a terminal unit 200 may be formed in the telephone pole. In addition, the terminal unit 200 may be formed at one point of the power line L as a separate relay device when the distance between the telephone pole and the telephone pole is far. In detail, the terminal unit 200 may include a wireless receiver 210, a storage 220, an input 230, a transmitter 240, a monitor 250, and a terminal controller 260. .

The wireless receiving unit 210 receives the theft signal transmitted from the communication unit 130 of the power line theft determining unit 100 by wireless communication. In this case, the wireless communication may be binary CDMA communication.

The storage unit 220 stores a unique code signal containing unique information such as the location of the terminal unit 200. The storage unit 220 may store disconnection of a power line and transmission information of a unique code signal.

The input unit 230 may include a plurality of keypads. In addition, the manager may input a unique code signal of the terminal unit 200 to be stored in the storage unit 220 by operating the keypad of the input unit 230.

When the wireless receiver 210 receives the theft signal, the transmitter 240 transmits the unique code signal to the powerline theft determiner 100 through powerline communication.

The monitoring unit 250 receives an alarm signal from the alarm signal transmitter 134 of the communication unit 130 of the power line theft determining unit 100. In addition, when the monitoring unit 250 receives the alarm signal, the monitoring unit 250 may generate an alarm sound or turn on the alarm lamp at the power line theft position. That is, when a power line theft occurs, an alarm sound may be generated at the site or an intense light or a warning light may be turned on by an LED or a lamp to warn the power line theft from proceeding further, thereby minimizing the power line theft. In addition, when the monitoring unit 250 receives the alarm signal, the monitoring unit 250 may photograph the power line theft position through an CCTV or the like. That is, the monitoring unit 250 may be controlled to operate only when an alarm signal is received, instead of always operating.

The terminal controller 260 controls the detailed operations of the wireless receiver 210, the storage 220, the input 230, the transmitter 240, and the monitor 250.

Specifically, a description of the operation of the power line theft monitoring system 1000 according to an embodiment of the present invention.

The power line theft determining unit 100, that is, the power supply unit 110, the preliminary power supply unit 120, the communication unit 130 and the control unit 140 has a configuration in the power system, based on the power supply terminal termination of the power system It can be installed in the telephone pole 10 of. In addition, the first terminal unit 200a, the second terminal unit 200b, the third terminal unit 200c, and the fourth terminal unit 200d are sequentially positioned from the power line theft determining unit 100 to the power supply side. Can be. In this case, the first terminal unit 200a, the second terminal unit 200b, and the fourth terminal unit 200d may be located in each telephone pole 10. Further, since the distance between the telephone pole 10 where the second terminal portion 200b is located and the telephone pole 10 where the fourth terminal portion 200c is located is far, the relay terminal is located at one point of the power line L. Three terminal parts 200c were further installed.

It is assumed that the power line L between the second terminal portion 200b and the third terminal portion 200c is stolen or disconnected. As a result, AC power is not applied to the power line theft discrimination unit 100. Accordingly, the power line theft determining unit 100 includes a plurality of terminal units 200, that is, a first terminal unit 200a, a second terminal unit 200b, a third terminal unit 200c, and a fourth terminal unit 200d. Theft signal is transmitted by wireless communication. In addition, the first terminal unit 200a, the second terminal unit 200b, the third terminal unit 200c, and the fourth terminal unit 200d correspond to the theft signal, and then the power line to the power line theft discrimination unit 100. Each unique code signal is transmitted through communication. At this time, since the power line L between the second terminal portion 200b and the third terminal portion 200c is disconnected, the power line theft discrimination portion 100 has a unique code signal of the first terminal portion 200a and a second one. Only the unique code signal of the terminal unit 200b is received. Accordingly, the power line theft determining unit 100 may determine the power line theft position between the second terminal unit 200b and the third terminal unit 200c. In addition, the second terminal unit 200b may receive the alarm signal from the power line theft determining unit 100 and monitor the power line theft position through the monitoring unit. The alarm signal may also be transmitted to the manager terminal. Therefore, the manager can recognize the disconnection of the power line through the manager terminal, and immediately go out to the site to promptly process subsequent processing in response to the disconnection of the power line.

Hereinafter, a configuration of a wireless communication network of the power line theft discriminating unit and the terminal unit in the power line theft monitoring system according to the embodiment of the present invention will be described.

FIG. 6 is a diagram illustrating elements constituting a communication network in a powerline theft monitoring system according to an exemplary embodiment of the present invention.

Referring to Fig. 6, a station of a communication network is shown. Stations are divided into master and slave according to their roles. The master manages the entire communication network and only one can exist within a network. The master controls the slave by broadcasting a beacon. The slave can transmit / receive data under the control of the master. In addition, the slave may request its requirements from the master in the contention period. In the present invention, the master corresponds to the power line theft determining unit and the data collection device, the slave may correspond to the terminal unit.

In more detail, the master transmits the beacon to provide timing of the superframe of Binary CDMA. He also manages service quality and power, or plays a role in security certification. Binary CDMA is configured when there are two or more stations operating on the same radio frequency channel within the personal active area.

On the other hand, a piconet consists of a master and one or more slaves, and a multi-piconet consists of a piconet (parent piconet) and a lower piconet formed based thereon. child piconet). The lower piconet is composed of a slave master in the upper piconet and a child master and slave in the master role in the lower piconet.

Resources that can be utilized in a communication network are code channels in code division multiple access (CDMA) schemes and time slots in time division multiple access (TDMA) schemes. In the code division access scheme, when many channels are used at the same time, the transmission rate increases, but the error rate also increases. Therefore, it is possible to actively cope with the channel environment by changing the number of code channels for transmitting data according to the channel situation. The code channel transmits data using all code channels in a good channel condition and a few channels in a bad channel environment. Time slots are an important resource of binary CDMA and are managed by the master and distributed by the request of the slaves and the judgment of the master. In this case, the data collection device becomes a master, and the plurality of power line theft monitoring systems become slaves to form piconets to perform communication between the data collection device and the powerline theft monitoring system.

Hereinafter will be described the configuration and operation of the power line theft monitoring system according to another embodiment of the present invention.

7 is a schematic block diagram showing a power line theft monitoring system according to an embodiment of the present invention and a power line theft monitoring system according to another embodiment of the present invention.

Referring to FIG. 7, in the power line theft monitoring system (a) according to another embodiment of the present invention, the power line theft discrimination unit 100 is located in a telephone pole. On the other hand, the power line theft monitoring system (b) according to another embodiment of the present invention includes a power line theft discrimination unit 100 ′, that is, a power supply unit, a reserve power supply unit, a communication unit and a control unit of the electricity meter 20 of the customer (H) ) May be installed. That is, the power line theft monitoring system (b) according to another embodiment of the present invention includes a data collection device (DCU) for collecting power reading data, and a server connected to the data collection device and a trunk line network. Accordingly, the power line theft monitoring system (b) according to another embodiment of the present invention may be used as a power meter in a remote meter reading system in which a data collection device collects meter data of each meter and transmits it to a server.

In addition, by applying the power line theft notification protocol to the communication modem of the electricity meter used to transmit / receive data with the data collection device in the existing remote metering system, the communication modem used in the remote meter reading system can be used as the communication unit of the power line theft monitoring system. Can be. This will make it possible to build a power line theft monitoring system at low cost by utilizing the existing remote metering system.

Accordingly, the power line theft monitoring system of the present invention may be configured independently for power line theft monitoring (a), or may be configured by sharing a wireless communication modem used for a power meter in a remote meter reading system (a).

Hereinafter will be described a power line theft monitoring method according to the present invention.

8 is a flowchart illustrating a method for monitoring power line theft according to the present invention.

Referring to FIG. 8, in the power line theft monitoring method according to the present invention, the power line theft discrimination unit monitors the supply of AC power to the power line at one side of the power line (S810).

Then, the power line theft discriminator determines whether the application of AC power to the power line is stopped (S820). At this time, if the application of the AC power is not stopped, the flow returns to step S810 to continuously monitor the supply of the AC power on one side of the power line.

On the other hand, when it is determined that the application of the AC power is stopped as a result of the determination in step S820, the reserve power is applied to the power line theft discrimination unit (S830).

In operation S840, it is determined whether the supply interruption of the AC power supply is interrupted for more than a predetermined time. At this time, if the supply interruption of the AC power does not exceed a predetermined time, the flow returns to step S810 to continue monitoring the supply of AC power on one side of the power line.

As a result of the determination in step S840, when the supply interruption of the AC power exceeds a predetermined time, the power line theft discrimination unit transmits a power failure signal to the data collection device installed on the other side of the power line and the plurality of terminal units (S850). In this case, the power failure signal may contain information such as the date and time of the power failure, the duration of the power failure, and the power failure signal may be statistically analyzed and used as a reference value for determining a predetermined time in step S840.

The power line theft determining unit transmits the theft signal to the plurality of terminal units provided on the other side of the power line through wireless communication (S860).

Then, the plurality of terminal units which have received the theft signal transmit each unique code signal to the power line theft discrimination unit through power line communication (S870).

In operation S870, the power line theft discrimination unit receiving the unique code signals analyzes the unique code signals to determine a power line theft location in operation S880.

The alarm sound may be generated at the power line theft position, or the alarm light may be turned on. In addition, by photographing the power line theft location can be notified to the manager of the power line theft (S890). At this time, the notification of the power line theft may be made to the terminal of the administrator.

As described above, the power line theft monitoring system and method according to the present invention may not be limitedly applied to the configuration and method of the embodiments described above, but the embodiments may be modified in various ways. All or part may be optionally combined.

1000; Powerline theft monitoring system
100; Power line theft discrimination unit
110; A power supply 120; Backup power
130; Communication unit 140; Control
200; Terminal
210; A wireless receiver 220; Storage
230; An input unit 240; Transmitter
250; Monitoring unit 260; Terminal control unit
300; Data concentrator

Claims (19)

A power line theft discrimination unit installed at one side of a power line of a power system and configured to wirelessly transmit a theft signal when power is not applied to the power line; And
A plurality of terminal units installed in a power line between the power line theft discrimination unit and a power supply station of the power system;
The plurality of terminal units receive the theft signal from the powerline theft determination unit, and transmits each unique code signal to the powerline theft determination unit through powerline communication using the powerline,
And the power line theft discrimination unit analyzes the unique code signal to determine a power line theft position. The method according to claim 1,
And the power line theft discrimination unit controls the burglar signals to be transmitted to the plurality of terminals when the power line is not applied to the power line for more than a predetermined time. The method according to claim 1,
The power line theft determination unit
A power supply unit installed at one side of the power line and receiving AC power from the power line and converting the AC power into DC power to supply power;
A communication unit wirelessly transmitting the stolen signal to the plurality of terminal units and receiving the unique code signal from the plurality of terminals through power line communication; And
When the AC power is not applied to the power supply unit, the control unit to control the theft signal transmitted from the communication unit to the plurality of terminal units, and a control unit for analyzing the unique code signal received by the communication unit to determine the power line theft location Power line theft monitoring system, characterized in that. The method according to claim 1,
Each of the plurality of terminal units
A wireless receiver configured to receive the theft signal transmitted from the powerline theft discriminator;
A storage unit for storing the unique code signal;
A transmitter for transmitting the unique code signal to the power line theft discriminator; And
And a terminal controller configured to control the transmitter to transmit the unique code signal to the power line theft discrimination unit when the wireless receiver receives the theft signal. The method of claim 4,
Each of the plurality of terminal units
And a monitoring unit for generating an alarm sound, turning on an alarm light, or capturing the power line theft position as an image. The method according to claim 5,
The power line theft determining unit determines the power line theft position, and controls to transmit an alarm signal to the terminal unit of the power line theft position,
The terminal controller of the corresponding terminal unit receives the alarm signal and controls the monitoring unit to operate. The method according to claim 1,
And the power line theft discrimination unit is installed in a telephone pole of one side of the power line. The method according to claim 1,
And the power line theft discrimination unit is installed in a power meter in a consumer. The method according to claim 1,
The power line theft determining unit is installed at the end of the power system based on the power supply station in the power system,
The plurality of terminal units includes a first terminal unit located between the power supply station and the end of the power system and a second terminal unit installed closer to the power supply than the first terminal unit,
When the power line theft discrimination unit receives the first unique code signal of the first terminal unit and the second unique code signal of the second terminal unit is not received, the power line theft discriminator determines the position between the first terminal unit and the second terminal unit. And identifying the power line theft position. The method according to claim 3,
When the AC power is not applied to the power supply unit, further comprising a preliminary power supply unit for supplying a reserve power to the control unit and the communication unit,
The preliminary power supply unit is charged with a normal power supply unit, and when the AC power is not applied to the power supply unit, the power line is characterized in that the secondary battery for supplying and discharging the power supply to the control unit and the communication unit Burglar Surveillance System. The method according to claim 3,
The communication unit
And transmitting the theft signal to the plurality of terminal units by binary CDMA communication. Monitoring an application of AC power to the power line by a power line theft discriminator installed at one side of a power line of a power system;
Transmitting the theft signal to a plurality of terminal units installed in a power line between the power line theft discrimination unit and a power supply station of the power system when the application of the AC power is stopped;
After the plurality of terminal units have received the theft signal, transmitting a unique code signal of each of the plurality of terminal units to the power line theft discriminator by power line communication using the power line; And
And analyzing, by the power line theft discrimination unit, the unique code signal to determine a power line theft position. The method of claim 12,
Wirelessly transmitting the theft signal,
And when the application of the AC power is interrupted for more than a predetermined time, transmitting the theft signal from the power line theft discrimination unit to the plurality of terminal units. The method of claim 12,
Generating an alarm sound, turning on an alarm light, or photographing the power line theft position to notify the user of the power line theft. The method of claim 12,
And the power line theft discrimination unit is installed in a telephone pole of one side of the power line. The method of claim 12,
And the power line theft discrimination unit is installed in a power meter in a consumer. The method of claim 12,
The power line theft determination unit is installed at the end of the power system based on the power supply station in the power system,
The plurality of terminal units includes a first terminal unit located between the power supply station and the end of the power system and a second terminal unit installed closer to the power supply than the first terminal unit,
The determining of the power line theft position,
When the power line theft discrimination unit receives the first unique code signal of the first terminal unit and the second unique code signal of the second terminal unit is not received, the position between the first terminal unit and the second terminal unit is determined. And identifying the power line theft position. The method of claim 12,
When the application of the AC power is stopped, further comprising the step of applying a preliminary power through the preliminary power supply to the power line theft determination unit,
The preliminary power supply unit is charged with a normal power supply unit, and when the AC power is not applied to the power supply unit, the power line is formed of a rechargeable battery capable of charging and discharging to supply power to the power line theft discrimination unit. How to monitor theft. The method of claim 12,
Wirelessly transmitting the theft signal,
And transmitting the theft signal from the power line theft discrimination unit to the plurality of terminal units by binary CDMA communication.

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