KR20110043512A - System and method for deciding a fault type of power transmission line - Google Patents

Abstract

PURPOSE: A system and a method for determining a failure type of a power transmission line using lightening information are provided to accurately grasp the failure type created in a transmission line. CONSTITUTION: A failure information collecting unit(110) actually collects the failure information from a failure recording system. A lightening occurrence time information collecting unit(130) collects the lightening occurrence time from a lightening sensing system. A failure type determining unit(150) includes a lightening failure determining unit and other failure determining unit. A lightening failure determining unit determines the failure of transmission line caused by lightening through the comparison of the transmission line disconnection time information and the lightening generation time information.

Description

System and method for deciding a fault type of power transmission line

The present invention relates to a transmission line failure type determination system and method, and more particularly, a transmission line failure that can quickly and accurately grasp the failure type of the transmission line using a new transmission line failure type determination system and method. Type determination system and method.

In general, the transmission line is a power facility for supplying electric power generated from the power plant to each region through a substation for power supply.

Therefore, accidents of transmission facilities in modern society are directly connected to long-term power supply interruption and have a significant social impact.

Such transmission lines are supported by transmission towers, and the transmission towers are installed at predetermined intervals between the power plant and the substation so as to stably support the transmission lines.

In addition, the transmission towers are mainly installed in the mountainous area to be separated from the general facilities because the transmission lines are installed to transmit high power.

However, since such transmission lines are widely installed throughout the region, they are exposed to dangers such as wind, snow, rain, and lightning, causing frequent breakdowns.

Therefore, there has been a need to identify the types of failures that occur in transmission lines and to eliminate them accordingly.For example, the types of failures of transmission lines such as short circuits using relays and methods of recognizing ground faults are identified. Various methods for detection have been proposed.

However, the conventional failure type detection method has a lot of limitations in determining the failure type, so a new concept of failure type detection method is required.

The present invention has been proposed to solve the above-mentioned problems, and an object of the present invention is to quickly and accurately grasp a failure type occurring in a transmission line using a new transmission line failure type determination system and method.

In addition, an object of the present invention is to facilitate determination of failure types such as lightning, short circuit, ground fault, or surge through failure information from the failure recording system and lightning information from the lightning detection system.

Transmission line failure type determination system of the present invention for achieving the object of the present invention as described above, the occurrence of lightning from the failure information collecting unit for collecting the actual failure information from the failure recording system when the failure of the transmission line and the lightning detection system Lightning failure judgment unit for determining whether the transmission line failure due to lightning based on the comparison value of the lightning occurrence time information collection unit for collecting time information and the transmission line blocking time information and lightning occurrence time information of the actual failure information; And a display unit for displaying a failure result determined from the failure type determination unit, including a failure type determination unit including other failure determination units that determine a failure type by comparing previously stored failure type information with actual failure information.

At this time, the failure type information is pre-stored, it is preferable to further include a failure type information storage unit for receiving and updating the result of the failure.

In addition, the lightning failure judging unit compares the transmission line blocking time information with the lightning occurrence time information among the actual failure information collected from the failure recording system, and detects lightning occurrence time information having a time difference smaller than a set value. It is desirable to judge the failure.

And, if it is determined that the lightning failure determination unit is a failure due to a lightning strike, it is preferable to determine the pylon near the lightning occurrence position among the pylons on the transmission line determined as the failure as a failure pylon.

On the other hand, the transmission line failure type determination method of the present invention for achieving the object of the present invention as described above, (a) collecting the actual failure information from the failure recording system when the failure of the transmission line and (b) lightning strikes Collecting the lightning occurrence time information from the detection system; and (c) determining whether the transmission line is damaged by the lightning based on a comparison value of the transmission line blocking time information and the lightning occurrence time information among the actual failure information; (d) displaying the determined failure result.

At this time, in the step (c), comparing the transmission line blocking time information and the lightning occurrence time information among the actual failure information collected from the failure recording system, when detecting the lightning occurrence time information having a time difference less than the set value lightning strike It is preferable to judge the failure by.

Further, in the step (c), if it is determined that the failure is not due to a lightning strike, collecting the stored failure type information and comparing the collected failure type information and the actual failure information to determine the failure type further. It is preferable to include.

On the other hand, the transmission line failure type determination method of the present invention for achieving the above object of the present invention, the step of collecting the actual failure information from the failure recording system when the failure of the transmission line and collecting the previously stored failure type information And comparing the collected failure type information with actual failure information to determine a failure type and displaying the determined failure result.

According to the transmission line failure type determination system and method of the present invention, it is possible to quickly and accurately grasp the failure type occurring in the transmission line by using the new transmission line failure type determination system and method.

In addition, according to the transmission line failure type determination system and method of the present invention, it is possible to easily determine the failure type such as lightning, short circuit, ground fault or surge through the failure information from the failure recording system and the lightning information from the lightning detection system. It has an effect.

In addition, according to the transmission line failure type determination system and method of the present invention, it is possible to shorten the failure recovery time by quickly identifying the failure type.

1 is a diagram illustrating a configuration of a transmission line,
Figure 2 is a schematic diagram showing the overall configuration of the transmission line failure type determination system according to an embodiment of the present invention,
3 is a flowchart illustrating a transmission line failure type determination method in order according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention described below are provided to enable those skilled in the art to more easily understand the present invention, and the scope of the present invention is not limited to the described embodiments.

Hereinafter, a transmission line failure type determination system according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 1 to 2.

1 is a diagram illustrating the configuration of a transmission line, Figure 2 is a schematic diagram showing the overall configuration of a transmission line failure type determination system according to an embodiment of the present invention.

1 to 2, the transmission line failure type determination system 100 according to an embodiment of the present invention determines the type of failure of the transmission line (2a) when the failure caused by lightning, etc. in the transmission line and displays it It is configured to.

In the present invention, the transmission lines 2a and 2b are disposed in various paths so as to transmit and distribute electric power. And the transmission line (2a, 2b) is provided with a circuit breaker (10a, 10b) for blocking the transmission and distribution when an abnormality occurs.

In addition, the transmission line failure type determination system 100 of the present invention, the failure recording system 200 for real-time monitoring and recording the power equipment such as the transmission line (2a, 2b) and breakers (10a, 10b) and the occurrence of lightning It operates in conjunction with the lightning detection system 300 for detecting.

Transmission lines 2a and 2b are usually supported by a plurality of pylons 1a, 1b and 1c, and pylons 1a, 1b and 1c support power stations (not shown) and substations (not shown) to stably support the transmission lines. It is installed at predetermined intervals between). These transmission lines (2a, 2b) is hypothesized to supply the power generated in the power plant to the power supply through the substation to each region. In addition, since transmission lines 2a and 2b are widely installed throughout the region, they may be exposed to dangers from wind, snow, rain, and lightning, causing frequent failures.

Accordingly, the transmission line failure type determination system 100 according to an embodiment of the present invention is connected to the failure recording system 200 and the lightning detection system 300 to perform lightning, short circuit, ground fault or surge accident of a power transmission line, which is a power facility. If a problem occurs, the transmission line (2a, 2b) of the failure type is detected and displayed.

In more detail, the transmission line failure type determination system 100 according to an embodiment of the present invention includes a failure information collecting unit 110, a lightning occurrence time information collecting unit 130, a failure type determining unit 150, and a failure type. And an information storage unit 170 and a display unit 190.

The failure information collecting unit 110 is a failure waveform of the voltage, current, and the like generated from the failure recording system 200 when the failure of the transmission line (2a, 2b) and the actual time such as the break time information of the breakers (10a, 10b) Collect fault information.

That is, the fault information collecting unit 110 receives the break time information and the fault waveform information that can be checked by the fault recording system 200, and the fault information generated by the fault recording system 200 is passed through the A / D converter. It is transmitted to the fault information collecting unit 110.

Here, the fault recording system 200 displays various kinds of information such as interruption time, voltage waveform, current waveform, etc. of the substation power equipment and is used for power equipment operation.

In addition, the failure recording system 200 remotely monitors and outputs fault waveforms and cut-off time information of transmission lines connected to the plurality of transmission lines 2a and 2b. Since the configuration of the failure recording system 200 is a known matter, a detailed description thereof will be omitted.

That is, the failure information collecting unit 110 receives the actual failure information from the failure recording system 200 when a failure occurs in the transmission lines 2a and 2b and transmits the failure information to the failure type determination unit 150.

The lightning occurrence time information collecting unit 130 collects the lightning occurrence time information from the lightning detection system 300 at the time of lightning occurrence, reads the collected lightning occurrence time, and transmits it to the failure type determination unit 150 to be described later.

That is, the lightning occurrence time information collecting unit 130 serves to collect and transmit the lightning occurrence time information that can be checked by the lightning detection system 300.

Here, the lightning detection system 300 detects a lightning strike in various known manners and sequentially generates data regarding lightning strikes including lightning occurrence time information. Since the lightning detection system 40 is a known matter, a detailed description thereof will be omitted.

In addition, the lightning occurrence time information collecting unit 130 may be configured on the lightning detection system 300 to transmit the lightning occurrence time information. That is, the lightning occurrence time information collecting unit 130 may be configured in the lightning detection system 300 to detect the occurrence of lightning occurrence time information and transmit the detected lightning transmission time information to the failure type determination unit 150 through various communication networks. .

The failure type determination unit 150 includes a lightning failure determination unit 153 and other failure determination unit 155.

The lightning failure determination unit 153 receives and uses the transmission line blocking time information and the lightning time information among the actual failure information, and based on a comparison value comparing the blocking time information and the lightning occurrence time information among the actual failure information, Judging whether the transmission line has failed.

The set value is set in advance based on the correlation between the lightning strike time and the breaker break time. That is, it can be set variably according to the environment such as breaker and transmission line.

That is, the lightning failure determination unit 153 compares the blocking time information according to the breaker operation of the power transmission line from the failure recording system 200 with the lightning time information collected from the lightning detection system 300, and the time difference between the two time information. If it is smaller than the preset value by use, that is, detecting the lightning occurrence time information having a small time difference, it is determined that the failure due to lightning.

In addition, when the lightning failure determination unit 153 determines that the failure is caused by the lightning strike, the pylon near the lightning occurrence position among the pylons on the transmission line determined as the failure may be determined as the failure pylon.

In addition, when the lightning failure determination unit 153 confirms the position of the lightning near pylon based on the last lightning occurrence time information from the lightning detection system 300, the display unit 190 transmits the line name, lightning occurrence time or Pylon nose number, etc. can be displayed to inform outside.

If it is determined that the failure of the transmission line is not a failure due to a lightning strike, the failure determination unit 155 receives the failure type information previously stored in the failure type information storage unit 170 to be described later, and the actual failure type information received. Compare failure information to determine failure type.

When the failure type information storage unit 170 determines that the lightning failure determination unit 153 does not indicate a failure due to a lightning strike, the failure type information storage unit 170 is stored in the failure waveform and the failure type information storage unit 170 from the actual failure information. Determine fault types by comparing fault waveforms for each fault type (short, ground or surge).

The failure result determined as described above is displayed on the display unit 190 through various output methods such as a pop-up format.

In addition, when the failure type is determined, the actual failure waveform and its result value, that is, the failure type are transmitted to the failure type information storage unit 170 and updated.

Hereinafter, with reference to Figure 3 will be described in detail with respect to the transmission line failure type determination method according to an embodiment of the present invention.

3 is a flowchart illustrating a transmission line failure type determination method in order according to an embodiment of the present invention.

First, when failure occurs due to lightning or the like on the transmission line 2a, actual failure information is collected from the failure recording system 200 (S10).

Next, if a lightning strike occurs around the transmission line 2a (S20), the lightning detection system 300 detects the lightning strike and generates lightning data.

In this case, the lightning data includes a lightning strike time, a lightning strike position, and the like.

Subsequently, the lightning occurrence time information is collected from the lightning information generated by the lightning detection system 300 (S30). Then, the transmission line blocking time information and the lightning occurrence time information among the actual failure information collected from the failure recording system 200 are compared (S40), and the transmission line failure due to the lightning is determined based on the comparison value.

The set value is set in advance based on the correlation between the lightning strike time and the breaker break time. That is, it may be set variably according to the environment such as the breaker and the transmission line.

That is, by comparing the break time information according to the breaker operation of the transmission line from the fault recording system 200 and the lightning time information collected from the lightning detection system 300, the time difference between the two time information is greater than the preset value set by use. When it is small (S50), that is, when lightning strike time information having a small time difference is detected, it is determined that the failure is caused by lightning strike.

On the other hand, by comparing the break time information according to the breaker operation of the transmission line from the failure recording system 200 and the lightning time information collected from the lightning detection system 300, the time difference between the two time information than the preset value set by use If large (S50) or if a failure occurs in the transmission line but no lightning occurs around the transmission line, that is, if it is determined that the failure of the transmission line is not caused by the lightning, the failure type information storage unit 170 The received failure type information is received (S70) and the received failure type information is compared with the actual failure information (S80) to determine the failure type (S90).

 The failure result determined as described above is displayed on the display unit 190 through various output methods such as a pop-up format.

In addition, in the transmission line failure type determination method according to an embodiment of the present invention, if the failure type is determined, the actual failure waveform and its result value, that is, the failure type is transmitted to the failure type information storage unit 170 and updated. It may further include.

According to the transmission line failure type determination system and method of the present invention, by using a new transmission line failure type determination system and method to express the failure type in an easy form, it is possible to quickly and accurately grasp the failure type occurred on the transmission line. It can be effective.

In addition, according to the present invention, it is possible to easily determine the type of failure, such as lightning, short circuit, ground fault or surge through the failure information from the failure recording system and the lightning information from the lightning detection system.

In addition, according to the present invention, there is an effect that the failure recovery time can be shortened by quickly identifying the failure type.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments described in the present invention are not intended to limit the technical idea of the present invention but to explain, and the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: transmission line failure type determination system 110: failure information collection unit
130: lightning occurrence time information collection unit 150: failure type determination unit
153: lightning failure judgment unit 155: other failure determination unit
170: failure type information storage unit 190: display unit
200: fault recording system 300: lightning detection system

Claims (8)

Failure information collecting unit for collecting the actual failure information from the failure recording system when a failure of the transmission line;
A lightning occurrence time information collecting unit configured to collect lightning occurrence time information from a lightning detection system when a lightning strike occurs;
A lightning fault determination unit determining whether a transmission line is broken due to a lightning strike based on a comparison value of the transmission line blocking time information and the lightning occurrence time information among the actual failure information; And a failure type determination unit for comparing the previously stored failure type information with the actual failure information to determine a failure type. And
A display unit which displays a failure result determined from the failure type determination unit;
Transmission line failure type determination system comprising a.
The method of claim 1,
A failure type information storage unit which stores failure type information in advance and receives and updates the failure result;
Transmission line failure type determination system further comprises.
The method according to claim 1 or 2,
The lightning fault determination unit,
When the lightning occurrence time information having a time difference smaller than the set value is detected by comparing the transmission line blocking time information and the lightning occurrence time information among the actual failure information collected from the failure recording system, it is determined that the failure is caused by lightning strike. Transmission line failure type determination system.
The method of claim 3,
The lightning fault determination unit,
If it is determined that the failure due to the lightning, the transmission line failure type determination system, characterized in that for determining the failure of the pylon close to the location of the lightning tower among the towers on the transmission line determined as the failure.
(a) collecting actual failure information from the failure recording system when a failure of the transmission line occurs;
(b) collecting lightning occurrence time information from the lightning detection system when a lightning strike occurs;
(c) determining whether a transmission line has failed due to a lightning strike based on a comparison value of the transmission line blocking time information and the lightning occurrence time information among the actual failure information; And
(d) displaying the determined failure result;
Transmission line failure type determination method comprising a.
The method of claim 5,
In the step (c),
When the lightning occurrence time information having a time difference smaller than the set value is detected by comparing the transmission line blocking time information and the lightning occurrence time information among the actual failure information collected from the failure recording system, it is determined that the failure is caused by lightning strike. Transmission line failure type determination method.
The method according to claim 5 or 6,
In the step (c),
If it is determined that the failure is not due to a lightning strike, collecting previously stored failure type information; And
Determining a failure type by comparing the collected failure type information with actual failure information;
Transmission line failure type determination method characterized in that it further comprises.
Collecting actual failure information from a failure recording system when a failure of a transmission line occurs;
Collecting previously stored failure type information;
Determining a failure type by comparing the collected failure type information with actual failure information; And
Displaying the determined failure result;
Transmission line failure type determination method comprising a.

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