KR20240014788A - System for protecting electric pole and method thereof - Google Patents

Abstract

The present invention discloses a utility pole monitoring system and method. The utility pole monitoring system of the present invention includes a utility pole detection device installed on each utility pole to detect the riding state of a worker and generate an alarm; A worker terminal carried by the worker; a supervisor terminal carried by the supervisor; and work monitoring that receives boarding status and location information from a utility pole detection device, determines whether work is approved, determines the live wire status, transmits the work status to the registered worker terminal and supervisor terminal, and transmits a warning signal to the utility pole detection device. It is characterized by including a server;

Description

Electric pole monitoring system and method {SYSTEM FOR PROTECTING ELECTRIC POLE AND METHOD THEREOF}

The present invention relates to a utility pole monitoring system and method. More specifically, the present invention relates to a utility pole monitoring system and method. More specifically, it receives the riding status from a utility pole detection device installed on each utility pole, determines whether work is approved and the live state of the pole, and not only warns workers and supervisors, but also warns workers and supervisors of the condition. It relates to a utility pole monitoring system and method that disseminates warnings to utility pole detection devices installed nearby during approval work.

A modern electric power distribution line refers to an electric line that reaches electricity consumers from a power plant, substation, or transmission line without going through another power plant or substation. It usually connects from a distribution substation that converts 154kV or 66kV to 22.9kV, which is the distribution voltage. The power system that reaches customers is commonly referred to as the distribution system.

The distribution system is divided into a high-voltage distribution system from the high-voltage distribution line (22.9kV) drawn from the peripheral transformer of the distribution substation to the pole-mounted transformer located on the consumer side, and a low-voltage distribution system from the secondary side of the pole-mounted transformer to the consumer. In Korea, the high-voltage distribution system adopts a 3-phase 4-wire multi-grounding system with a line-to-line voltage of 22.9kV-y, while the low-voltage distribution system uses a 3-phase 380V for power use and a 3-phase 4-wire system for household use, with a 3-phase 4-wire system using a columnar transformer. It is being supplied to consumers.

A lot of copper is used in low-voltage distribution lines that supply power to homes or buildings, and theft incidents in which some of the distribution lines are cut to obtain copper without permission are constantly occurring.

Meanwhile, communication cables are installed and operated on one side of the electric pole for Internet, cable broadcasting, etc., and due to the unauthorized installation of cables, there are difficulties in smooth cable management and smooth management of the electric pole.

In particular, incidents of theft of power lines located in poorly monitored outdoor agricultural facilities are increasing, and these thefts threaten the livelihood of farmers, and cause a waste of national money due to the risk of electric shock due to cutting power lines for theft and reinstallation of power lines. It is happening.

The background technology of the present invention is disclosed in Republic of Korea Patent Publication No. 10-1659477 (2016.09.23 notice, distribution line theft monitoring system using BLE-based Internet of Things).

As such, in relation to utility poles, accessories such as power lines and cables installed on utility poles are being stolen by outsiders, but the only way to confirm this is through periodic patrols. In addition, unauthorized work by outsiders or external connection of power lines from utility poles can cause social problems, and there is a problem of electric shock accidents occurring due to the inability to recognize power lines as live.

In addition, even if an unauthorized work site is observed, there is a problem in that it is not possible to immediately check whether the work is approved, so no special action can be taken.

The present invention was made to improve the problems described above, and the purpose of the present invention according to one aspect is to receive the riding status from a utility pole detection device installed on each utility pole, determine whether work is approved and the live wire state of the pole, and allow workers and It provides a utility pole monitoring system and method that not only warns supervisors but also transmits warnings to utility pole detection devices installed nearby in the event of unauthorized work.

A utility pole monitoring system according to one aspect of the present invention includes a utility pole detection device installed on each utility pole to detect the upright state of the pole and generate an alarm; A worker terminal carried by the worker; a supervisor terminal carried by the supervisor; and work monitoring that receives boarding status and location information from a utility pole detection device, determines whether work is approved, determines the live wire status, transmits the work status to the registered worker terminal and supervisor terminal, and transmits a warning signal to the utility pole detection device. It is characterized by including a server;

In the present invention, a utility pole detection device includes: a riding detection sensor that detects a riding state; A warning module that outputs a warning signal; A communication module that transmits boarding status and receives warning signals; and a processor operatively coupled to the entry detection sensor, warning module, and communication module; where the processor transmits the entry status and location information detected by the entry detection sensor to the work monitoring server through the communication module. And, it is characterized by receiving a warning signal from the work monitoring server and operating the warning module.

In the present invention, the ride detection sensor is characterized by including a vibration detection sensor.

In the present invention, the work monitoring server is characterized by receiving and storing work information including any one or more of work time, worker, and telephone pole numbers from the worker terminal.

In the present invention, the work monitoring server is characterized in that it receives work approval information for work information from a supervisor terminal and stores it.

In the present invention, the work monitoring server determines whether the work is approved and, if the work is not approved, transmits a warning signal to a utility pole detection device that receives the riding status and a utility pole detection device within a set distance range.

In the present invention, the work monitoring server is characterized in that it determines the live wire state based on the location information of the utility pole whose riding state is input from the distribution automation system and transmits a warning signal to the utility pole detection device whose riding state is input.

In the present invention, the work monitoring server is characterized by transmitting warning signals of unauthorized work and live wires in different patterns.

In the present invention, the work monitoring server is characterized by transmitting an instantaneous reinforcement message to worker terminals and supervisor terminals in risk areas based on learning results of learning illegal work on utility poles based on deep learning.

A utility pole monitoring method according to an aspect of the present invention includes the steps of a work monitoring server receiving riding status and location information from a utility pole detection device; A step where the work monitoring server receives the boarding status and location information and then determines whether the work is approved and whether the line is live based on the location information; A step of the work monitoring server transmitting the work situation to the registered worker terminal and supervisor terminal based on the result of determining whether the work is approved and whether the wire is live; And a step of the work monitoring server transmitting a warning signal to the utility pole detection device based on the results of determining whether the work is approved and whether the wire is live.

In the present invention, the work monitoring server is characterized in that it further includes a step of receiving and storing work information including any one or more of work time, worker, and telephone pole number from the worker terminal.

In the present invention, the work monitoring server is characterized in that it further includes a step of receiving and storing work approval information for work information from the supervisor terminal.

In the present invention, if the work is not approved as a result of determining whether the work is approved, the work monitoring server transmits a warning signal to the utility pole detection device within the set distance range in addition to the utility pole detection device that has received the riding status. .

In the present invention, the step of determining the live wire status is characterized in that the work monitoring server determines the live wire status based on the location information of the utility pole whose boarding status is input from the distribution automation system.

In the present invention, the step of transmitting a warning signal is characterized in that the job monitoring server transmits warning signals of unauthorized work and live wires in different patterns.

The present invention is characterized in that it further includes a step of transmitting an instantaneous reinforcement message to the worker terminal and supervisor terminal in the risk area based on the learning results of the work monitoring server learning the illegal operation of the utility pole based on deep learning.

The utility pole monitoring system and method according to one aspect of the present invention receives the riding status from a utility pole detection device installed on each pole, determines whether work is approved and the live state of the pole, not only warns workers and supervisors, but also warns workers and supervisors in the event of unauthorized work. By disseminating warnings to utility pole detection devices installed nearby, unauthorized work can be monitored efficiently and electric shock accidents caused by live wire work can be prevented.

In addition, according to the present invention, it is possible to intensively crack down on illegal work areas through learning results of illegal work on utility poles, thereby preventing power outages and reducing reinstallation costs due to theft.

Figure 1 is a block diagram showing a utility pole monitoring system according to an embodiment of the present invention.
Figure 2 is a block diagram showing a utility pole monitoring device in a utility pole monitoring system according to an embodiment of the present invention.
Figure 3 is an exemplary diagram showing the installation state of the utility pole monitoring device in the utility pole monitoring system according to an embodiment of the present invention.
Figure 4 is a flowchart illustrating a method for monitoring utility poles according to an embodiment of the present invention.

Hereinafter, the utility pole monitoring system and method according to the present invention will be described with reference to the attached drawings. In this process, the thickness of lines or sizes of components shown in the drawing may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

Figure 1 is a block diagram showing a utility pole monitoring system according to an embodiment of the present invention, Figure 2 is a block diagram showing a utility pole monitoring device in a utility pole monitoring system according to an embodiment of the present invention, and Figure 3 is a block diagram showing the utility pole monitoring system according to an embodiment of the present invention. This is an example diagram showing the installation status of a utility pole monitoring device in a utility pole monitoring system according to an embodiment of the invention.

As shown in Figure 1, the utility pole monitoring system according to an embodiment of the present invention may include a utility pole detection device 10, an operator terminal 40, a supervisor terminal 50, and a work monitoring server 20. .

The utility pole detection device 10 is installed on each utility pole 100 and can detect the upright status of the pole and generate an alarm.

Here, the utility pole detection device 10 may include a riding detection sensor 110, a warning module 140, a communication module 130, and a processor 120, as shown in FIG. 2.

The riding detection sensor 110 can detect the riding state based on a vibration detection sensor.

The warning module 140 can output a warning signal to be recognized visually or audibly.

The communication module 130 can transmit the riding status and receive a warning signal based on wired and wireless communication with the work monitoring server 20.

The processor 120 is operatively coupled to the riding detection sensor 110, the warning module 140, and the communication module 130, and displays the riding status and location information detected by the riding detection sensor 110. It is possible to transmit a warning signal to the work monitoring server 20 through the communication module 130, receive a warning signal from the work monitoring server 20, and operate the warning module 140.

Here, location information may include GPS information and telephone pole numbers.

The worker terminal 40 is carried by the worker, and can access the work monitoring server 20 to input work information including one or more of the working time, worker, and utility pole number for utility pole work.

The supervisor terminal 50 is carried by the supervisor and can access the work monitoring server 20 to input work approval information for work information.

The work monitoring server 20 receives the boarding status and location information from the utility pole detection device 10, determines whether work is approved, determines the live wire state, and reports the work status to the registered worker terminal 40 and supervisor terminal 50. and can transmit a warning signal to the utility pole detection device (10).

Here, the work monitoring server 20 not only receives and stores work information including any one or more of work hours, workers, and telephone pole numbers from the worker terminal 40 in advance, but also receives work information about work information from the supervisor terminal 50. Approval information can be entered and saved.

When the boarding status is received, the work monitoring server 20 determines whether the work is approved based on location information, and if the work is approved, it can transmit the work status to the worker terminal 40 and the supervisor terminal 50.

At this time, the work monitoring server 20 determines the live wire state based on the location information of the utility pole whose boarding state has been input from the distribution automation system 30, and when the boarding state is input, the live wire is detected by the utility pole detection device 10 for which the boarding state is input. A warning signal can be transmitted.

At this time, the work monitoring server 20 can transmit a warning signal to the worker terminal 40 and the supervisor terminal 50 to recognize the work situation in a live wire state.

Meanwhile, the work monitoring server 20 determines whether the work is approved and, if the work is not approved, can transmit an unapproved warning signal to the utility pole detection device 10 within the set distance range along with the utility pole detection device 10 that has received the riding status. there is.

That is, as shown in FIG. 3, a warning signal is transmitted to all utility pole detection devices (10) within the set distance range so that people nearby are aware that unauthorized work is being performed on the utility pole (100) to ensure smooth monitoring. can do.

At this time, the work monitoring server 20 can also transmit a warning signal to the worker terminal 40 and the supervisor terminal 50 to recognize that unauthorized work is being performed in the surrounding area.

Above, when transmitting a warning signal, the work monitoring server 20 can distinguish between the unapproved work and the live wire state by differentiating the warning signal pattern for the unapproved work and the live wire state.

Meanwhile, the work monitoring server 20 can transmit an instantaneous reinforcement message to the worker terminal 40 and the supervisor terminal 50 in the risk area based on the learning results of learning illegal work on utility poles based on deep learning.

In this way, the work monitoring server 20 performs deep learning on illegal work on utility poles and identifies the possibility of illegal work through correlation analysis of illegal work area, work history, work date, and boarding time based on the location information of the utility pole. An instantaneous reinforcement message can be transmitted to predict and strengthen the instantaneous moment.

In addition, the work monitoring server 20 can evaluate the risk of safety accidents for each task through analysis of work information and provide the risk evaluation results to the supervisor's terminal so that the construction supervisor can efficiently prevent safety accidents during work.

As described above, according to the utility pole monitoring system according to an embodiment of the present invention, the riding status is received from a utility pole detection device installed on each utility pole, and the operation approval and live state of the pole are determined to not only warn workers and supervisors. In the event of unauthorized work, a warning is sent to utility pole detection devices installed nearby, which not only efficiently monitors unauthorized work, but also prevents electric shocks due to live wire work, and focuses on cracking down on illegal work areas through learning results from illegal work on utility poles. This prevents power outages and reduces reinstallation costs due to theft.

Figure 4 is a flowchart illustrating a method for monitoring utility poles according to an embodiment of the present invention.

As shown in Figure 4, in the utility pole monitoring method according to an embodiment of the present invention, first, the work monitoring server 20 receives the riding status and location information from the utility pole detection device 10 (S10).

Upon receiving the boarding status and location information from the utility pole detection device 10 in step S10, the work monitoring server 20 determines whether the work due to the boarding state is an approved task (S20).

Here, the work monitoring server 20 not only receives and stores work information including any one or more of work hours, workers, and telephone pole numbers from the worker terminal 40 in advance, but also receives work information about work information from the supervisor terminal 50. Approval information can be entered and saved.

In step S20, it is determined whether the work is approved, and if it is an approved work, the work monitoring server 20 determines whether the utility pole is in a live state based on the location information (S40).

Here, the work monitoring server 20 can determine the live state based on the location information of the utility pole whose boarding state has been input from the distribution automation system 30.

In step S40, if the utility pole whose riding status is input is in a live state, the work monitoring server 20 transmits a live wire warning signal to the utility pole detection device 10 whose riding status is input (S50).

Meanwhile, in step S20, if it is determined whether the work is approved and the work is not approved, the work monitoring server 20 sends an unapproved warning signal to the utility pole detection device 10 within the set distance range along with the utility pole detection device 10 that has received the riding status. transmit (S30).

That is, as shown in FIG. 3, a warning signal is transmitted to all utility pole detection devices (10) within the set distance range so that people nearby are aware that unauthorized work is being performed on the utility pole (100) to ensure smooth monitoring. can do.

Above, when transmitting a warning signal, the work monitoring server 20 can differentiate between unauthorized work and a live line state by changing the patterns of the live line warning signal and the unapproved warning signal.

Based on the results of determining whether the work is approved and whether the wire is live in steps S20 to S30, the work monitoring server 20 transmits the work status to the registered worker terminal 40 and the supervisor terminal 50 (S60).

Meanwhile, the work monitoring server 20 can transmit an instantaneous reinforcement message to the worker terminal 40 and the supervisor terminal 50 in the risk area based on the learning results of learning illegal work on utility poles based on deep learning.

In this way, the work monitoring server 20 performs deep learning on illegal work on utility poles and identifies the possibility of illegal work through correlation analysis of illegal work area, work history, work date, and boarding time based on the location information of the utility pole. An instantaneous reinforcement message can be transmitted to predict and strengthen the instantaneous moment.

In addition, the work monitoring server 20 can evaluate the risk of safety accidents for each task through analysis of work information and provide the risk evaluation results to the supervisor's terminal so that the construction supervisor can efficiently prevent safety accidents during work.

As described above, according to the utility pole monitoring system according to an embodiment of the present invention, the riding status is received from a utility pole detection device installed on each utility pole, and the operation approval and live state of the pole are determined to not only warn workers and supervisors. In the event of unauthorized work, a warning is sent to utility pole detection devices installed nearby, which not only efficiently monitors unauthorized work, but also prevents electric shocks due to live wire work, and focuses on cracking down on illegal work areas through learning results from illegal work on utility poles. This prevents power outages and reduces reinstallation costs due to theft.

Implementations described herein may be implemented, for example, as a method or process, device, software program, data stream, or signal. Although discussed only in the context of a single form of implementation (eg, only as a method), implementations of the features discussed may also be implemented in other forms (eg, devices or programs). The device may be implemented with appropriate hardware, software, firmware, etc. The method may be implemented in a device such as a processor, which generally refers to a processing device that includes a computer, microprocessor, integrated circuit, or programmable logic device. Processors also include communication devices such as computers, cell phones, portable/personal digital assistants (“PDAs”) and other devices that facilitate communication of information between end-users.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will recognize that various modifications and other equivalent embodiments are possible therefrom. You will understand.

Therefore, the true technical protection scope of the present invention should be determined by the claims below.

10: Telephone pole detection device 20: Work monitoring server
30: Distribution automation system 40: Worker terminal
50: Supervisor terminal 100: Telephone pole
110: Seating detection sensor 120: Processor
130: Communication module 140: Warning module

Claims (16)

A utility pole detection device installed on each utility pole to detect the upright status of the pole and generate an alarm;
A worker terminal carried by the worker;
a supervisor terminal carried by the supervisor; and
Receives the boarding status and location information from the utility pole detection device, determines whether work is approved, determines the live wire state, transmits the work status to the registered worker terminal and the supervisor terminal, and sends a warning signal to the utility pole detection device. A utility pole monitoring system comprising a work monitoring server that transmits.
The method of claim 1, wherein the utility pole detection device,
A riding detection sensor that detects the riding state;
A warning module that outputs the warning signal;
a communication module that transmits the boarding status and receives the warning signal; and
Including a processor operatively coupled to the riding detection sensor, the warning module, and the communication module,
The processor transmits the riding state and the location information detected by the riding detection sensor to the work monitoring server through the communication module, and receives the warning signal from the work monitoring server to operate the warning module. A utility pole monitoring system.
The utility pole monitoring system according to claim 2, wherein the riding detection sensor includes a vibration detection sensor.
The utility pole monitoring system according to claim 1, wherein the work monitoring server receives and stores work information including any one or more of work hours, workers, and utility pole numbers from the worker terminal.
The utility pole monitoring system according to claim 1, wherein the work monitoring server receives work approval information for work information from the supervisor terminal and stores it.
The method of claim 1, wherein the work monitoring server determines whether the work is approved and, if the work is not approved, transmits the warning signal to the utility pole detection device within a set distance range along with the utility pole detection device that has received the riding status. A utility pole monitoring system characterized in that.
The method of claim 1, wherein the work monitoring server determines the live wire state based on the location information of the electric pole for which the riding state is input from the distribution automation system and transmits the warning signal to the utility pole detection device for which the riding state is input. A utility pole monitoring system characterized in that.
The utility pole monitoring system according to claim 1, wherein the work monitoring server transmits the warning signals for unauthorized work and live wires in different patterns.
The method of claim 1, wherein the work monitoring server transmits an instantaneous reinforcement message to the worker terminal and the supervisor terminal in a dangerous area based on learning results of learning illegal work on utility poles based on deep learning. system.
A work monitoring server receiving riding status and location information from a utility pole detection device;
After the work monitoring server receives the boarding status and the location information, determining whether the work is approved and whether the line is live based on the location information;
The work monitoring server transmitting a work situation to a registered worker terminal and a supervisor terminal based on a result of determining whether work is approved and the live wire state; and
A method for monitoring a utility pole, comprising the step of the work monitoring server transmitting a warning signal to the utility pole detection device based on a result of determining whether the work is approved and the live wire state.
The method of claim 10, further comprising the step of the work monitoring server receiving and storing work information including any one or more of work hours, workers, and utility pole numbers from the worker terminal.
The method of claim 10, further comprising the step of the work monitoring server receiving and storing work approval information for work information from the supervisor terminal.
The method of claim 10, wherein if the work is not approved as a result of determining whether the work is approved, the work monitoring server transmits the warning signal to the utility pole detection device within a set distance range along with the utility pole detection device that has received the riding status. A utility pole monitoring method comprising the following steps:
The method of claim 10, wherein in the step of determining the live wire state, the work monitoring server determines the live wire state based on location information of the electric pole that has received the boarding state from the distribution automation system. .
The method of claim 10, wherein in the step of transmitting the warning signal, the work monitoring server transmits warning signals of unauthorized work and live wires in different patterns.
The method of claim 10, further comprising the step of transmitting an instantaneous reinforcement message to the worker terminal and the supervisor terminal in a dangerous area based on the learning results of the work monitoring server learning illegal work on utility poles based on deep learning. Featured utility pole monitoring method.

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