KR20100037436A - Fault locator system - Google Patents

Abstract

PURPOSE: It shirks the lightning stoke of the transmission equipment and by shirking the lightning stoke and using data of the monitor unit, shirking with the remote the lightning stoke and deciding location the monitoring diagnostic system does not demand the field moving of checker. CONSTITUTION: It shirks the lightning stoke and the monitor(10) is installed in the pylon neighborhood of the transmission line. The generation whether or not of the lightning stoke damage is measured. It shirks the lightning stoke and the communications translation part(20) relays data measured at with monitor. The transmission line(30) at high speed transmits measurement data relaying by the communications translation part. The IED(40) receives a message measurement data which is quickly transmitted through the transmission line. It is transmitted measurement data received in IED through the communications gateway and it shirks the lightning stoke and the diagnosis processing unit(50) decides location.

Description

Lightning damage monitoring diagnosis system of power transmission equipment

The present invention relates to a technique for diagnosing the location of the lightning damage occurring in a transmission facility, and more particularly, based on the progress direction of the lightning energy measured by the lightning damage monitoring device installed near the transmission facility (for example, a steel tower). Collects the measurement data of individual lightning damage monitoring devices in the remote monitoring diagnosis system, and estimates the damage location of the lightning damage in the entire transmission equipment section from the collected measurement data, and monitors the damage of the lightning damage of the power transmission facilities. It is about a diagnosis system.

In most cases, power transmission equipment is exposed to all environmental hazards, unlike indoor equipment. It is especially exposed to lightning because it is always installed at a higher altitude than its surroundings.

Accordingly, the operation of the power transmission equipment is important, but it is also important how appropriately to deal with the accident and to recover, and the maintenance work to prevent the failure in advance.

Conventionally, in order to check the damage of power transmission facilities against lightning strikes, the inspector was dispatched to the site and inspected. In general, a system for indicating the location of lightning strikes was developed and used by domestic and overseas companies, but this is an accurate lightning strike. Since the location could not be confirmed and the lightning energy could not be measured, it was difficult to determine whether the power transmission equipment was damaged, and therefore, the location and the degree of damage of the power transmission equipment damaged by the lightning strike could not be determined. There is a problem that is difficult to quickly repair the power transmission equipment.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, while using the data of the lightning damage monitoring devices installed in each of the power transmission equipment to determine the location of the lightning damage from a remote location more accurately, the determined lightning strike The purpose of the present invention is to provide a lightning damage detection diagnosis system of a transmission facility that can more accurately analyze and diagnose the lightning damage to a transmission facility from a damage location.

The lightning damage monitoring diagnostic system of the present invention transmission equipment for achieving the above object,

A lightning damage monitoring unit installed near a pylon of a transmission line and measuring whether lightning damage is generated; A communication relay unit which relays data measured by the lightning damage monitoring unit; A transmission line installed to enable lightning protection between the towers, system protection of a power facility, and facility automation, and to transmit measurement data relayed by the communication relay at high speed; An IED (Intelligent Electronic Device) installed in the substation for each section of the power transmission facility to monitor, control and protect the power transmission facility, and to receive measurement data in which high-speed transmission is performed through the transmission line; And collecting and receiving the measurement data received through the communication gateway through a communication gateway to determine the location of the lightning damage, and analyzing and diagnosing the lightning damage of the power transmission facility based on the determined lightning damage location. server); It includes.

In addition, the measurement data of the lightning damage monitoring unit is the current direction and the progress direction of the lightning energy according to whether the lightning damage occurs.

In addition, the transmission line is composed of an optical fiber composite overhead ground wire (OPGW) based on the IEC 61850 protocol, which is a substation automation communication architecture for the automation of substations.

In addition, the remote diagnosis processing unit is configured to install a program for determining the point of change in the direction of progression to the lightning energy in the section on the basis of the specific section on the basis of the direction of the lightning strike energy as the lightning damage location.

In addition, the remote diagnosis processing unit is equipped with a program for analyzing and diagnosing the degree of lightning damage to the power transmission equipment at the lightning damage location through the analysis of the lightning current.

In addition, the diagnostic processing unit further includes a HMI (Human Machine Interface) for displaying the lightning damage location and the lightning current indicating the degree of lightning damage of the power transmission equipment to the damage location in graphical form.

Under the control of the diagnostic processing unit, the HMI displays the lightning damage monitoring units for each section by an icon, and displays a graphic waveform of the lightning current when the icon is clicked.

In addition, the icon indicating the lightning damage monitoring unit is displayed in a specific color when the lightning damage occurs under the control of the diagnostic processing unit.

The present invention can more accurately determine the location of the lightning damage from the remote using the data of the lightning damage monitoring device, and can analyze and diagnose the lightning damage of the power transmission equipment by analyzing the measured lightning energy, thereby preventing lightning strikes. In addition to improving the inconvenience of inspectors coming and going to the site to check the damage of power transmission facilities, it is possible to promptly take appropriate measures according to the lightning strike, as well as to minimize the failure and to reduce the blackout time and the cost of the blackout. By minimizing the electricity quality and increasing consumer awareness, the profitability of the power business can be improved.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a lightning damage monitoring and diagnostic system of a power transmission facility according to an embodiment of the present invention, Figures 2, a and b is an embodiment of the present invention to display the lightning current at the time of lightning damage by the HMI in graphic waveform 3 is a diagram illustrating an enlarged screen for displaying a moving direction with respect to lightning energy during lightning damage by the HMI according to an embodiment of the present invention.

As shown in FIG. 1, the lightning damage monitoring and diagnosing system of the power transmission facility according to the embodiment of the present invention includes a lightning strike monitoring unit 10, a communication relay unit 20, a transmission line 30, and an IED 40. And a diagnostic processing unit 50.

The lightning damage monitoring unit 10 measures whether the lightning damage is generated, and when the lightning damage occurs, wirelessly transmitting measurement data of the direction of the lightning energy and the current waveform when the lightning damage occurs, and is installed near the pylon of the transmission line. .

The communication relay unit 20 receives the measurement data wirelessly transmitted by the lightning damage monitoring unit 10 and relays the measured data to the transmission line 30, and is installed near the pylon of the propagation line.

The transmission line 30 is for transmitting the measurement data relayed by the communication relay unit 20 to the IED 40 at high speed. The lightning protection between the towers and system protection of power facilities and facility automation To make this possible, it is composed of fiber-optic overhead lines based on the IEC 61850 protocol, a substation automation communication architecture.

The IED 40 receives the measurement data of the high-speed transmission through the transmission line 30 and transmits it to the diagnostic processing unit 50 through the communication gateway (G1) (G2), which is a power transmission equipment Installed in the substation of each section is configured to monitor, control and protect the power transmission equipment.

The diagnostic processing unit 50 receives the measured data received by the IED 40 through the communication gateway G1 (G2), collects them, determines the location of the lightning damage, and determines the location of the lightning damage. It is configured to remotely analyze and diagnose the lightning damage of the power transmission facility in the remote area, as shown in Figure 3 attached to the left and right progress direction of the lightning energy in the section based on the specific section based on the progress direction of the lightning energy. The program for determining the point of change to the lightning damage location, and the program for analyzing and diagnosing the degree of lightning damage to the power transmission equipment at the lightning damage location through the analysis of the lightning current as shown in FIG.

At this time, the diagnostic processing unit 50 is configured with a user interface HMI 51, the HMI 51 is the entire section of the power transmission equipment under the control of the diagnostic processing unit 50 as shown in FIG. While displaying the location of each lightning damage monitoring unit 10 with an icon I, the icon Ia corresponding to the lightning damage location is displayed in a specific color, and as shown in FIG. The lightning current indicating the degree of lightning damage of the power transmission facility with respect to the damage position indicated by the added icon Ia is configured to be displayed in a graphic waveform so that the user can visually check.

Referring to Figures 1 to 3 attached to the operation of the lightning damage monitoring diagnosis system of the power transmission system according to the embodiment configured as described above are as follows.

First, as shown in FIGS. 2A and 3, the HMI 51, which is a user interface under the control of the diagnostic processing unit 50, clicks the position of the lightning damage monitoring unit 10 installed in the entire section of the power transmission facility. The icon I is displayed as possible.

At this time, when the lightning damage occurs in the pylon of the specific section, the lightning damage monitoring unit 10 located in the specific section wirelessly transmits the measurement data of the thrust energy and the current waveform of the lightning strike according to the lightning damage.

Then, the wirelessly transmitted measurement data is transmitted to the remote diagnostic processing unit 50 via the communication relay unit 20, the transmission line 30, and the IED 40 and the communication gateway (G1) (G2). ,

The diagnostic processing unit 50 first collects the measurement data transmitted through the communication gateways G1 and G2 to determine the location of the lightning damage.

That is, the program for determining the location of the lightning damage mounted on the diagnostic processing unit 50 is monitored by the lightning damage monitoring unit 10 based on a specific section based on the progress direction of the lightning energy in which radio transmission is performed. In this case, the point where the direction of movement of the left and right sides of the lightning energy in the section changes is determined as the lightning damage position, and the determined lightning damage position is a specific color as shown in FIG. 3 attached through the control of the HMI 51. Is indicated by an icon Ia.

Next, the diagnostic processing unit 50 analyzes the lightning current at the determined lightning damage location through a program for analyzing and diagnosing the degree of lightning damage, thereby diagnosing the lightning damage of the power transmission facility, and the result of the HMI. The control of the display unit 51 displays the image on the screen for the user to visually check.

That is, when the user clicks the lightning damage location icon Ia of a specific color displayed through the HMI 51 as shown in FIG. 2A, the power generation facility of the lightning damage location corresponding to the icon Ia is generated. The lightning current is displayed as a graphic waveform as shown in FIG. 2B, and accordingly, the user can quickly check the damage degree of the transmission apparatus due to the lightning strike from the graphic waveform, and accordingly, a quick recovery operation for the lightning damage. Will be able to promote.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

1 is a block diagram of a lightning protection monitoring diagnostic system of a power transmission facility according to an embodiment of the present invention.

Figure 2a, 2b is a state diagram for displaying a lightning current in the form of a lightning current when lightning strikes by the HMI according to an embodiment of the present invention.

FIG. 3 is an enlarged view of a screen displaying a moving direction with respect to lightning energy during lightning damage by the HMI according to an embodiment of the present invention; FIG.

* Description of the symbols for the main parts of the drawings *

10; Thunder damage monitoring unit 20; Communication relay

30; Transmission line 40; IED

50; Diagnostic processing unit 51; HMI

Claims (7)

A lightning damage monitoring unit installed near a pylon of a transmission line and measuring whether lightning damage is generated; A communication relay unit which relays data measured by the lightning damage monitoring unit; A transmission line installed to enable lightning protection between the towers, system protection of a power facility, and facility automation, and to transmit measurement data relayed by the communication relay at high speed; An IED installed in a substation for each section of the power transmission facility to monitor, control and protect the power transmission facility, and to receive measurement data for high-speed transmission through the transmission line; And, A remote diagnosis processing unit configured to receive the measurement data received by the IED through a communication gateway, determine a location of a lightning damage, and analyze and diagnose a lightning damage of a power transmission facility with respect to the determined lightning damage location; Lightning damage monitoring diagnostic system of a transmission line, characterized in that comprising a. 2. The system of claim 1, wherein the measurement data of the lightning damage monitoring unit is a direction of the lightning energy and a current waveform according to whether the lightning damage is generated. The system of claim 1, wherein the transmission line comprises an optical fiber composite processing ground line (OPGW) based on the IEC 61850 protocol, which is a substation automation communication architecture for automation of a substation. According to claim 1, wherein the remote diagnostic processing unit, A program for judging the point where the progress direction of the lightning energy in the section changes based on the direction of the lightning energy on the basis of the specific section as the lightning damage location; The lightning damage monitoring system of the transmission line, characterized in that the program is configured to analyze and diagnose the degree of lightning damage to the transmission equipment at the lightning damage location through the analysis of the lightning current. The transmission line according to claim 1, wherein the diagnostic processing unit further comprises an HMI for displaying the lightning damage location and the lightning current indicating the lightning damage of the power transmission facility with respect to the damage location in graphic waveform form. Lightning strike damage monitoring system. The method of claim 5, wherein the HMI is configured to display the lightning damage monitoring units for each section under the control of the diagnostic processing unit as an icon, and to display a graphic waveform of the lightning current when the icon is clicked. Lightning strike monitoring system of transmission line. The system of claim 6, wherein the icon displaying the lightning damage monitoring unit is configured to display a specific color when the lightning damage occurs under the control of a diagnostic processing unit.

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