KR102561845B1 - Apparatus for detecting leakage of pole transformer and control method thereof - Google Patents

Abstract

Disclosed are an earth leakage detection device for a pole-type transformer and a control method thereof. An earth leakage detection device for a pole-type transformer of the present invention includes a signal generator for generating a high-frequency pulse signal and injecting it into a power line (L line) of the pole-type transformer; a signal detector detecting a feedback signal of a high-frequency pulse signal from a neutral wire (N) and ground of a pole-type transformer; a control unit for injecting a high-frequency pulse signal through a signal generator and detecting a feedback signal through a signal detector to determine a current leakage state; and a display unit for outputting a result of the determination of the electric leakage state determined by the control unit.

Description

Leakage detection device of pole-mounted transformer and its control method

The present invention relates to an earth leakage detection device for a pole-type transformer and a method for controlling the same, and more particularly, in a pole-type transformer of a low-voltage distribution line, a high-frequency pulse signal is injected into a power line (line L) and then passed through a neutral line (line N) or ground. It relates to an earth leakage detection device for a pole-type transformer that senses a feedback signal and detects an earth leakage in a power line, and a control method thereof.

BACKGROUND OF THE INVENTION [0002] In general, a rapid increase in power demand due to industrial development, a concentration of power demand in large cities, and a trend of increasing the capacity of power facilities of consumers are progressing. In addition, the rapid improvement in the standard of living of the people and the rapid growth of the high-precision industry further increase the demand for qualitative improvement of power supply. Efficient and systematic management of distribution load, such as accurate trend analysis of power demand fluctuations and reliable forecasting of future power demand, is essential to efficiently cope with the trend of power use patterns and power demand changes due to urban overcrowding and rapid increase in power consumption. need.

In a power distribution system mainly responsible for the load part of the power system, stable supply of power can be performed smoothly by a power management system installed between each major substation. In addition, power is supplied to the load of end users through a pole transformer. The capacity of a pole-mounted transformer can be estimated based on the estimated load by dividing the customer into several blocks at the terminal substation.

However, in recent years, the load due to information processing facilities such as computers and cooling and heating loads continues to increase in each consumer. In addition, although it is temporary, the load concentration area expansion and the load concentration phenomenon are further intensified due to the case of using electricity in excess of the predicted power consumption in the industrial area. Due to this, the load of the pole-type transformer changes irregularly, and sometimes the pole-pole transformer is heated due to an overload, accelerating the deterioration of the pole-type transformer.

If the deterioration phenomenon is repeated frequently in a pole-mounted transformer, the lifespan of the transformer is shortened due to damage to the insulation between windings and an increase in leakage current, and in severe cases, accidents such as loss of the transformer due to fire occur, resulting in economic loss as well as human life. It threatens the safety and reliability of power supply, such as damage.

The background art of the present invention is disclosed in Republic of Korea Patent Registration No. 10-1311364 (2013.09.25. Announcement, Distributed power remote monitoring and control access device and distribution power remote monitoring and control system using the same, method thereof).

Currently, devices that automatically shut off in the event of a short circuit (ground fault) are installed and operated in extra-high voltage distribution lines and customer facilities within buildings. The device of is not installed/operated.

In this way, there is a problem in that fire ignition, forest fire spread, electric shock (human and animal, etc.) accidents constantly occur because electricity continues to flow without load shedding in the event of a short circuit (ground fault) in the low voltage distribution line.

The present invention has been made to improve the above problems, and an object of the present invention according to one aspect is to inject a high-frequency pulse signal into a power line (L line) in a pole transformer of a low voltage distribution line, and then to a neutral line (N line) or It is to provide an earth leakage detection device and a control method for a pole-type transformer that detects a leakage signal of a power line by detecting a return signal returning through a ground.

An earth leakage detection device for a pole-type transformer according to an aspect of the present invention includes a signal generator for generating a high-frequency pulse signal and injecting it into a power line (L line) of the pole-type transformer; a signal detector detecting a feedback signal of a high-frequency pulse signal from a neutral wire (N) and ground of a pole-type transformer; a control unit for injecting a high-frequency pulse signal through a signal generator and detecting a feedback signal through a signal detector to determine a current leakage state; and a display unit for outputting a result of the determination of the electric leakage state determined by the control unit.

In the present invention, the signal generator is characterized by injecting a pulse signal in a band of 20 kHz to 100 kHz for 1 ms.

In the present invention, the control unit determines the current leakage state and, in case of leakage, outputs a different color through the display unit to give a warning.

The present invention is characterized by further comprising a circuit breaker for determining an earth leakage state in a control unit and cutting off the output of the pole-mounted transformer in the event of an earth leakage.

A method of controlling an earth leakage detection device for a pole-type transformer according to another aspect of the present invention includes generating a high-frequency pulse signal by a controller through a signal generator and injecting it into a power line (line L) of a pole-type transformer; After the control unit injects the high frequency pulse signal through the signal generator, detecting the return signal of the high frequency pulse signal from the neutral line (N line) and the ground of the pole-type transformer through the signal detector; determining, by a control unit, a leakage state by comparing the feedback signal and a reference value; and outputting, by the control unit, a determination result of an electric leakage state through a display unit.

In the present invention, generating a high-frequency pulse signal and injecting it into a power line of a pole-type transformer is characterized by injecting a pulse signal in a band of 20 kHz to 100 kHz for 1 ms.

In the present invention, the step of outputting the determination result of the electric leakage state is characterized in that the controller warns by outputting a different color in case of electric leakage.

The present invention is characterized by further comprising a step of determining, by a control unit, an earth leakage state, and cutting off the output of the pole-type transformer through a circuit breaker in case of an earth leakage.

An earth leakage detection device for a pole-mounted transformer and a control method thereof according to an aspect of the present invention inject a high-frequency pulse signal into a power line (L-line) in a pole-mounted transformer of a low-voltage distribution line, and then return through a neutral line (N-line) or ground. By monitoring the leakage state of the power line by detecting the signal, it is possible to quickly and accurately detect the leakage of the power line.

1 is a block configuration diagram showing an earth leakage detection device for a pole-type transformer according to an embodiment of the present invention.
2 is an exemplary diagram showing an installation state of an earth leakage detection device for a pole-type transformer according to an embodiment of the present invention.
3 is a flowchart for explaining a control method of an earth leakage detection device for a pole-type transformer according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an earth leakage detection device and a control method for a pole-type transformer according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

1 is a block configuration diagram showing an earth leakage detection device for a pole pole transformer according to an embodiment of the present invention, and FIG. 2 is an exemplary view showing an installation state of an earth leakage detection device for a pole pole transformer according to an embodiment of the present invention.

As shown in FIGS. 1 and 2, the earth leakage detection device 100 for a pole-type transformer according to an embodiment of the present invention includes a signal generator 130, a signal detector 110, a control unit 120, and a display unit 140. Including may include a circuit breaker (150).

The signal generator 130 may generate a high frequency pulse signal and inject it into a power line (L line) of the pole transformer 10 .

Here, the signal generator 130 injects a pulse signal in the 20 kHz to 100 kHz band for 1 ms, so that even if the pulse signal is propagated through the power line (L line), it does not affect the load such as the power line (L line) and customers. It is preferable not to

The signal detector 110 may detect a return signal of a high frequency pulse signal from the neutral line N of the pole transformer 10 and the ground.

For example, when a short circuit occurs due to mixing of the power line (line L) and the neutral line (line N) output from the pole-type transformer 10, the high-frequency pulse signal injected into the power line (line L) passes through the neutral line (line N). It can be returned or returned by being propagated through the ground of the neutral wire (N wire).

Therefore, when a leakage occurs, the high frequency pulse signal propagated through the neutral line (N line) or the ground may be filtered by the signal detector 110 and detected as a feedback signal.

At this time, even when there are a plurality of ground lines on the propagation path of the high frequency pulse signal injected into the power line (L line), the high frequency pulse signal can be propagated through the plurality of ground lines, and thus the return signal can be detected.

The control unit 120 may inject a high-frequency pulse signal through the signal generator 130 and detect a feedback signal through the signal detector 110 to determine the current leakage state.

Here, the control unit 120 may compare the phase and magnitude of the feedback signal with a reference value to determine the leakage state. At this time, the control unit 120 may generate a warning when an electric leakage occurs by determining an electric leakage state.

The display unit 140 may output a determination result of the electric leakage state determined by the control unit 120 .

Here, the control unit 120 may determine the current leakage state, display it as normal through the display unit 140 if it is normal, and output a warning in a different color through the display unit 140 when an electric leakage occurs.

On the other hand, if a circuit breaker 150 that blocks the output of the pole-type transformer 10 is installed and the controller 120 determines the leakage state, the circuit breaker 150 may be operated to cut off power supplied to consumers.

As described above, according to the earth leakage detection device for a pole-type transformer according to an embodiment of the present invention, a high-frequency pulse signal is injected into a power line (line L) in a pole-type transformer of a low-voltage distribution line, and then through a neutral line (line N) or ground. By monitoring the leakage state of the power line by detecting the feedback signal, it is possible to quickly and accurately detect the leakage of the power line.

3 is a flowchart for explaining a control method of an earth leakage detection device for a pole-type transformer according to an embodiment of the present invention.

As shown in FIG. 3 , in the control method of the earth leakage detection device of a pole-type transformer according to an embodiment of the present invention, first, the control unit 120 generates a high-frequency pulse signal through the signal generator 130, and the pole-type transformer 10 ) into the power line (L line) (S10).

Here, the control unit 120 injects a pulse signal in the 20 kHz to 100 kHz band for 1 ms through the signal generator 130, so that even if the pulse signal is propagated through the power line (L line), the power line (L line) and consumers, etc. It is desirable not to affect the load of

After injecting the high frequency pulse signal into the power line (line L) in step S10, the control unit 120 detects the return signal of the high frequency pulse signal from the neutral line (line N) and the ground of the pole transformer 10 through the signal detector 110. Do (S20).

For example, when a short circuit occurs due to mixing of the power line (line L) and the neutral line (line N) output from the pole-type transformer 10, the high-frequency pulse signal injected into the power line (line L) passes through the neutral line (line N). It can be returned or returned by being propagated through the ground of the neutral wire (N wire).

Therefore, when a leakage occurs, the high frequency pulse signal propagated through the neutral line (N line) or the ground may be filtered by the signal detector 110 and detected as a feedback signal.

At this time, even when there are a plurality of ground lines on the propagation path of the high frequency pulse signal injected into the power line (L line), the high frequency pulse signal can be propagated through the plurality of ground lines, and thus the return signal can be detected.

After detecting the feedback signal in step S20, the control unit 120 compares the feedback signal with a reference value to determine a current leakage state (S30).

Here, the control unit 120 may compare the phase and magnitude of the feedback signal with a reference value to determine the leakage state.

In step S30, when the leakage state is determined and no leakage occurs, the control unit 120 displays normal through the display unit 140 (S50).

On the other hand, if an electric leakage occurs by determining an electric leakage state in step S30, the control unit 120 issues a warning in a different color through the display unit 140 (S40).

On the other hand, when an electric leakage occurs by determining an electric leakage state in step S30, the control unit 120 may operate the circuit breaker 150 to block the output of the pole-type transformer 10 to cut off the power supplied to the consumer.

As described above, according to the control method of the earth leakage detection device for a pole-type transformer according to an embodiment of the present invention, after injecting a high-frequency pulse signal into a power line (L-line) in a pole-type transformer of a low-voltage distribution line, a neutral line (N-line) or By monitoring the leakage state of the power line by detecting the return signal returning through the ground, the leakage of the power line can be quickly and accurately detected.

Implementations described herein may be embodied in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Even if discussed only in the context of a single form of implementation (eg, discussed only as a method), the implementation of features discussed may also be implemented in other forms (eg, an apparatus or program). The device may be implemented in suitable hardware, software and firmware. The method may be implemented in an apparatus such as a processor, which is generally referred to as a processing device including, for example, a computer, microprocessor, integrated circuit, programmable logic device, or the like. Processors also include communication devices such as computers, cell phones, 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 this is only exemplary, and those skilled in the art can make various modifications and equivalent other embodiments. will understand

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

10: pole transformer 100: earth leakage detection device
110: signal detection unit 120: control unit
130: signal generating unit 140: display unit
150: breaker

Claims (8)

a signal generator generating a high-frequency pulse signal and injecting it into a power line (L line) of a pole-type transformer;
a signal detector detecting a feedback signal of the high-frequency pulse signal from the neutral line (N) and ground of the pole-type transformer;
a controller configured to inject the high-frequency pulse signal through the signal generator and detect the feedback signal through the signal detector to determine a current leakage state; and
A display unit for outputting a determination result of the electric leakage state determined by the control unit;
Further comprising a circuit breaker for determining the leakage state in the controller and cutting off the output of the pole-mounted transformer in case of an electric leakage;
The earth leakage detection device of the pole-type transformer, characterized in that the signal generator injects a pulse signal in the band of 20 kHz to 100 kHz for 1 ms.
delete The earth leakage detection device of a pole-mounted transformer according to claim 1, wherein the control unit determines the state of the earth leakage and, in case of an earth leakage, outputs a warning in a different color through the display unit.
delete generating, by a control unit, a high-frequency pulse signal through a signal generator and injecting it into a power line (L line) of a pole-type transformer;
detecting, by the controller, a feedback signal of the high frequency pulse signal through a signal detector at a neutral line (N line) and a ground of the pole-type transformer after injecting the high frequency pulse signal through the signal generator;
determining, by the control unit, a current leakage state by comparing the feedback signal with a reference value; and
Including; outputting, by the control unit, a determination result of the electric leakage state through a display unit;
Further comprising the step of determining, by the control unit, the current leakage state, and cutting off the output of the pole-type transformer through a circuit breaker in case of an electric leakage;
The step of generating the high-frequency pulse signal and injecting it into the power line of the pole-type transformer comprises injecting a pulse signal in the band of 20 kHz to 100 kHz for 1 ms.
delete 6. The method according to claim 5, wherein, in the step of outputting the result of determining the earth leakage state, the controller warns by outputting a different color in case of an earth leakage.
delete

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