KR101255317B1 - Arrester Soundness Decision and Line Monitoring System by Measuring Leakage current of Arrester - Google Patents

Abstract

The present invention monitors the leakage current of the lightning arrester when the line is live, and judges the state of the line live when the current is detected, and transmits the line oblique information to the SCADA system when the current is not detected. To monitor the life and death of the line condition caused by the failure of the arrester, and to detect whether the leakage current value is within the normal range and to monitor the arrester state. It is about soundness judgment system.

Description

Arrester Soundness Decision and Line Monitoring System by Measuring Leakage current of Arrester}

The present invention monitors the leakage current of the lightning arrester when the line is live, and judges the state of the line live when the current is detected, and transmits the line oblique information to the SCADA system when the current is not detected. By monitoring the current at the same time, minimizing the error of misunderstanding the line condition due to the arrester failure, and by detecting the arrester leakage current using the arrester leakage current configured to monitor the arrester status by determining whether the leakage current value satisfies the normal range. The present invention relates to an arrester soundness judgment and track life and death monitoring system.

In the case of the power transformer, the fault diagnosis device using the dissolved gas analysis sensor in the insulating oil may be effective because the structure is sealed with the insulating oil therein, but there are many types of gases generated inside the transformer as well as the occurrence of gas. There is a problem in that it does not exert an effect in the front line because it is different depending on the form of deterioration.

In addition, the diagnostic device that utilizes a sensor that detects electromagnetic waves (ultrasound ~ UHF band) that occurs at the same time when a partial discharge occurs inside the breaker or transformer is used. Due to the numerical problem, it is still insufficient to obtain reliability in terms of diagnostic function.

Transformers, circuit breakers, and motors that transmit or generate power using AC power must have insulation performance determined according to the voltage used. If insulation performance falls, failures due to short circuits and ground faults occur.

Such power equipment is operated by adding a device to block the device when an overcurrent or ground voltage occurs so as not to damage other equipment or facilities due to damage, fire, or explosion due to a breakdown during use. The main objective is not to prevent the failure itself but to prevent the spread of the failure.

Therefore, in recent years, there are various devices for preventing the failure of power equipment and diagnosing the deterioration state, such as oil-in-oil analysis sensors and partial discharge diagnostic devices (ultrasound or UHF sensors) of insulating oil in transformers. The company's performance is not enough, and it is still in use.

In another related art related to the present invention, Korean Patent Laid-Open Publication No. 10-2011-0019462 discloses a non-linear method using a differential method that improves the measurement accuracy of a resistive leakage current of an arrester, thereby improving the reliability of the arrester degradation measurement. A method and apparatus for detecting a resistive leakage current of an element lightning arrester, and Korean Unexamined Patent Publication No. 10-2005-0003804 relates to a method and an apparatus for measuring a resistive leakage current using a time delay synthesis method for diagnosing degradation of an arrester. It is irrelevant to the technical configuration of determining whether it is normal and whether the track condition is normal.

The problem to be solved by the present invention is to install a CT sensor in all three phases between the lightning arrester and the ground, and when the leakage current is detected during the live line, it is determined as the live line to transmit a signal to the SCADA system, the current If it is detected, it transmits the line oblique information to the SCADA system, and when the current value is detected and is in the live state, it sends a signal to the reclose relay to prevent the reclose relay from operating. Diagnosis can be made.

Another problem to be solved by the present invention is to install a CT sensor to detect the current in all three phases on the line between the lightning arrester and the ground, and if the measured leakage current value is between 0.2kΩ ~ 0.5kΩ Skada system It is to efficiently diagnose the arrester's soundness by transmitting a signal to the system and by transmitting a signal to the Skada system indicating that an abnormality has occurred in the arrester if it is out of the set range.

The solution of the present invention is to install a CT sensor in all three phases on the line between the lightning arrester and the ground to diagnose the state of the line, and when the leakage current is detected during the line, it is determined that the line is live, indicating that the line is live Transmits information to the SCADA system, and if the current is not detected, transmits line oblique information to the SCADA system, and when the current value is detected by the CT sensor and signals the live state, signals to the reclosing relay. It is configured to prevent the reclosing relay from operating by sending a signal, CT current sensor is installed to detect the current in both phases on the line between the arrester and the ground to diagnose the arrester soundness, and the measured leakage current value is 0.2㎃ If it is between 0.5㎃, it sends a signal to the SCADA system to indicate that it is in a normal state. It is to realize the arrester soundness detection and line life and death monitoring system by detecting the arrester leakage current which is configured to transmit the signal that the arrester has an error to the SCADA system.

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The present invention installs a CT sensor in all three phases between the lightning arrester and the ground, and when the leakage current is detected during the live line, it determines the live line and transmits a signal to the scarda system indicating the live state. If it is not detected, the line slope information is transmitted to the SCADA system to judge the soundness of the line, and when the current value is detected and it is in a live state, a signal is sent to the reclosing relay to prevent the reclosing relay from operating. It has a beneficial effect.

Another effect of the present invention is to install a CT sensor in both phases between the arrester and the ground, and if the measured leakage current value is between the set current value 0.2㎃ to 0.5㎃, the signal indicating that the arrester is in a normal state In order to efficiently detect the health of the arrester by transmitting a signal indicating that an abnormality has occurred in the arrester when it is out of the set range, the signal is sent to the SCADA system.

1 is an installation diagram of a line life and death monitoring system using a conventional potential transformer.
2 is a schematic diagram of a line life and death monitoring system and an arrester soundness determination system using the arrester leakage current detection according to the present invention.
3 schematically illustrates a line life and death monitoring system and an arrester soundness determination system using the arrester leakage current detection according to the present invention.
<Brief Description of Drawings>
11: lightning arrester 12: CT sensor
13: Skada System 14: Reclosure Relay
15: circuit breaker

Hereinafter, the present invention will be described in detail. The present invention is to install a CT sensor on both the three-phase signal line between the lightning arrester and the ground to diagnose the line condition, and when the leakage current is detected during the live line is judged as the live line, the signal indicating that the line is in the live state It is configured to send to the system.

If no current is detected, the line oblique information is transmitted to the SCADA system.If the current value is detected by the CT sensor and the line is in a live state, the reclose relay does not operate by transmitting a signal indicating that the live state is active. It is configured to.

In addition, the present invention is to install a CT sensor on each signal line in order to detect the current flowing in the three-phase signal line between the arrester and the ground in order to diagnose the health of the arrester, the leakage current value measured by the CT sensor is 0.2㎃ to 0.5㎃ If present, the arrester is in a normal state. At this time, a signal indicating the steady state is transmitted to the SCADA system, and if it is out of the set range, the soundness of the arrester is transmitted to the SCADA system to transmit a signal indicating that an abnormality has occurred to the arrester. It is configured to. A specific embodiment according to the present invention will be described.

<Examples>

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the present invention will now be described with reference to the drawings. Figure 2 shows a schematic diagram of a line life and death monitoring system through the arrester leakage current detection in the present invention. Figure 3 shows a flow chart of the operation of the line life and death monitoring system through the arrester leakage current detection in the present invention.

The present invention installs a CT sensor 12 which is a current detector on each of the three-phase signal lines between the arrester 11 and the ground, and diagnoses the integrity of the line based on the current measured by the installed CT sensor 12, and at the same time The technical structure which can diagnose the health of (11) is provided.

The principle of detecting line life and death in the existing outdoor steel substation is as follows: a) Detecting the line voltage acquired through the potential transformer with the low voltage detection relay and transmitting the line life and death to the Skada system, It consists of a structure to prevent the operation of, but there is a problem that occurs a lot of installation and maintenance costs.

The present invention will be described based on FIGS. 2 and 3. In FIG. 2, the present invention installs a CT sensor 12 on all three-phase signal lines between the arrester 11 and the ground to diagnose the line state, and determines that the line is live when the leakage current is detected during the live line. It is configured to transmit a signal to the skadar system 13 indicating that the track is live.

When the current is not detected by the CT sensor 12, the information is transmitted to the skadar system 13 that the line is oblique, and when the current value is detected and is in the live state, the signal is transmitted to the reclose relay 14 It is comprised so that operation | movement of the reclosing relay 14 may be prevented.

In addition, the present invention is to install the CT sensor 12 in each signal line in order to detect the current from all three phases on the line between the arrester 11 and the ground in order to diagnose the health of the arrester 11, the measured leakage current If the value is between 0.2㎃ and 0.5㎃ stored in the memory, it is judged as a normal state.At this time, a signal indicating the normal state is transmitted to the SCADA system, and if it is out of the set range of the current value representing the normal state, the arrester It is configured to send a signal to the SCADA system that an error has occurred.

In order to perform such a function, the line life and death monitoring system using the lightning arrester leakage current and the arrester soundness determination system according to the present invention are equipped with a control program for executing the functions and means described above in a memory, and a microprocessor for performing the function. have.

Looking specifically at the technical configuration for determining the integrity of the line according to the present invention, in order to diagnose the state of the line to install a CT sensor for measuring the current flowing in each of the three-phase signal line between the arrester and the ground, the current from the installed CT sensor It is provided with means for transmitting a signal to the Skada system indicating that it is active when detected.

When the current value is detected and is in the live state, a signal is transmitted to the reclosing relay to prevent operation of the reclosing relay.

If the current value measured by the CT sensor is not detected from each of the three-phase signal lines between the arrester and the ground, a means for transmitting information indicating that the line is oblique is provided to the skadar system.

Looking at the technical configuration for determining the soundness of the arrester according to the present invention in detail, the present invention is provided with a CT sensor installed in each signal line to detect the current flowing in the three-phase signal line between the arrester and the ground to diagnose the health of the arrester Means for determining that the arrester is in a normal state when the measured leakage current value is between 0.2 kV and 0.5 kV of the current stored in the memory, and the means for transmitting a signal indicating the normal state to the scarda system. It is provided.

It is provided with a means for transmitting a signal to the skadar system that an abnormality has occurred in the arrester when it is out of the set range of 0.2 mA to 0.5 mA of the current value indicating the steady state.

The present invention monitors the leakage current of the lightning arrester when the line is live, and judges the state of the line live when the current is detected, and transmits the line oblique information to the SCADA system when the current is not detected. By monitoring the current at the same time, minimizing the error of misunderstanding the line condition due to the arrester failure, and by detecting the arrester leakage current using the arrester leakage current configured to monitor the arrester status by determining whether the leakage current value satisfies the normal range. It provides high industrial applicability because it can judge the soundness of the line and the arrester soundness by providing the arrester soundness judgment and track life and death monitoring system.

Claims (4)

In the arrester soundness judgment and line life and death monitoring system by detecting the arrester leakage current,
A CT sensor installed in each of the three-phase signal lines between the lightning arrester and the ground to diagnose a line state;
Means for determining that the arrester is in a normal state when the leakage current value measured from the installed CT sensor is present between 0.2 kV and 0.5 kV in the memory;
Means for transmitting a signal to the scarda system indicating that an abnormality has occurred in the arrester when the leakage current value measured from the installed CT sensor is outside the range of 0.2 mA to 0.5 mA in the memory;
Means for transmitting a signal indicating a live state to a skadar system when a current is detected from the installed CT sensor;
Means for transmitting a signal to a reclosing relay when the current value is detected and in a live state to prevent operation of the reclosing relay; And
Lightning arrester soundness and line life and death monitoring system through a lightning arrester leakage current detection means having a means for transmitting the information indicating that the line is oblique line when the current value detected by the CT sensor does not exist. delete delete delete

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