KR102328806B1 - A Leakage voltage monitoring system - Google Patents

Abstract

The present invention relates to a leakage voltage monitoring system. Specifically, for fire prevention and electric shock prevention of electrical equipment, a leak voltage measuring part is always attached to a high-voltage wire or bus-bar insulator whose insulation decreases depending on time and environment, so that a leakage voltage of each phase including phase A, phase B, and phase C of corresponding electrical equipment is measured and is provided to a leakage voltage indicator at a remote location. When the measured voltage is greater than a permissible leakage voltage threshold for each phase or greater than an allowable threshold for a difference in leakage voltage between phases, the leakage voltage indicator sends a warning alarm and transmits error occurrence to a manager terminal to remotely monitor a leakage voltage. The leakage voltage monitoring system comprises a leakage voltage measuring unit (100) and a leakage voltage indicator (200).

Description

Leakage voltage monitoring system

The present invention relates to a leakage voltage monitoring system, and in particular, to prevent safety accidents due to leakage voltage, target electrical equipment to measure leakage voltage (extra high voltage or high voltage wire, bus-bar insulator, etc.) A leak voltage measuring device is installed in the perimeter to measure the leakage voltage by phase of the relevant electrical equipment, and the measured leakage voltage is displayed so that the manager can check it, and at the same time, if the measured leakage voltage meets the abnormal occurrence conditions, a warning alarm and necessary action are taken. It relates to leakage voltage monitoring technology that enables

In modern society, with the development of science and technology and industry, many household or industrial electricity-related facilities that make life convenient and rich are being developed and produced.

In particular, the electricity supplied to the industrial electricity-related equipment is supplied with a higher voltage than that of general household commercial electricity, and various insulation treatments are attempted on the electricity-related equipment to secure the safety of the high-voltage electricity.

When the insulation of electrical equipment is not secured, safety accidents caused by electricity such as electric shock or fire are occurring.

In general, the main causes of safety accidents caused by electricity are short circuit, overcurrent, arc, and leakage voltage. Insulation treatment such as coating or coating of insulating material on the surface if coating is difficult.

Even if insulation treatment such as covering with an insulating material or applying an insulating material is performed, a phenomenon of gradual deterioration of insulation occurs due to deterioration or aging of electrical equipment due to use. This is happening.

In particular, in order to prevent the occurrence of electric shock accidents, fires, and various problems in the electrical system due to leakage voltage, electrical equipment managers regularly visit the site and check the occurrence of leakage voltage using a leakage voltage measuring device.

However, it is inconvenient for an administrator to visit the site one by one and measure the leakage voltage periodically, and if a serious leakage voltage occurs between measurement cycles, it may not be possible to respond quickly, which may lead to a major safety accident.

Therefore, it is necessary to develop a technology capable of monitoring the leakage voltage at all times and accurately.

In order to solve the above problems, the present invention installs a leakage voltage measuring device in the target electrical equipment (extra high voltage or high voltage wire, bus-bar insulator, etc.) To propose a leakage voltage monitoring technology that measures the leakage voltage and displays the measured leakage voltage so that the administrator can check it, and at the same time, when the measured leakage voltage meets the abnormal occurrence condition, a warning alarm and necessary action can be taken do. The following are prior art related to this.

1. Republic of Korea Patent Publication No. 10-1071942 Remote meter reading network-based power line leakage current monitoring system and its operating method 2. Republic of Korea Patent Publication No. 10-2020-0077128 ESS leakage current monitoring device, system and method 3. Republic of Korea Patent Publication No. 10-2021-0033883 Leakage current and insulation monitoring diagnostic monitoring system and method of energy storage device

In order to prevent safety accidents due to leakage voltage, the present invention installs a leakage voltage measuring device in the target electrical equipment (extra high voltage or high voltage wire, bus-bar insulator, etc.) The purpose of this is to measure the leakage voltage by phase of the device, display the measured leakage voltage so that the manager can check it, and at the same time allow a warning alarm and necessary actions to be taken if the measured leakage voltage meets the condition for abnormal occurrence.

In order to achieve the above object, the present invention leakage voltage monitoring system,

a leakage voltage measuring unit 100 installed for each phase of a target to be measured for leakage voltage, measuring the phase-by-phase leakage voltage, and providing the measured leakage voltage value for each phase as a leakage voltage indicator 200;

The leakage voltage value for each phase provided by the leakage voltage measurement unit 100 is displayed, and when the leakage voltage value for each phase provided by the leakage voltage measurement unit 100 exceeds the reference value, the leakage voltage for performing an alarm alarm and protection measures including an indicator 200,

In order to measure the leakage voltage, the object on which the leakage voltage measuring unit 100 is installed includes a high-voltage wire and a busbar insulator.

In order to prevent safety accidents due to leakage voltage, the present invention installs a leakage voltage measuring device in the target electrical equipment (extra high voltage or high voltage wire, bus-bar insulator, etc.) Measures the leakage voltage by phase of each phase and displays the measured leakage voltage so that the administrator can check it, and at the same time, if the measured leakage voltage meets the condition for abnormal occurrence, a warning alarm and necessary actions can be taken. It provides an effect that allows for a quick response.

1 is a conceptual diagram of the present invention;
2 is an overall configuration block diagram of the present invention;
3 is a detailed configuration diagram and functional block diagram of a leakage voltage measuring unit of the present invention;
4 is a detailed configuration diagram of a leakage voltage indicator of the present invention
5 is a functional block diagram of a leakage voltage indicator of the present invention;

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the present inventor's leakage voltage monitoring system (10, hereinafter 'the present invention') is a target electrical equipment (extra high voltage or high voltage wire, bus bar) to measure leakage voltage in order to prevent safety accidents caused by leakage voltage. (Bus-bar) insulator, etc.) to measure the leakage voltage of each phase of the relevant electrical equipment and display the measured leakage voltage so that the measured leakage voltage meets the abnormal occurrence condition. In this case, it is an invention that provides an effect of enabling a quick response in case of excessive leakage voltage by providing a warning alarm and necessary measures.

1 and 2 , the present invention 10 includes a leakage voltage measuring unit 100 and a leakage voltage indicator 200 .

Specifically, the leakage voltage monitoring system of the present invention, as shown in FIG. 1,

a leakage voltage measuring unit 100 installed for each phase of a target to be measured for leakage voltage, measuring the phase-by-phase leakage voltage, and providing the measured leakage voltage value for each phase as a leakage voltage indicator 200;

Displays the leakage voltage value for each phase provided by the leakage voltage measurement unit 100, and when the leakage voltage value for each phase provided by the leakage voltage measurement unit 100 meets the abnormal occurrence condition, an alarm alarm and protective measures are performed including a leakage voltage indicator 200,

In order to measure the leakage voltage, the object on which the leakage voltage measuring unit 100 is installed includes a high-voltage wire and a busbar insulator.

Referring to FIG. 1 , the leakage voltage measuring unit 100 is installed for each phase (by phase A, phase B, and phase C) on an object (high voltage wire, busbar insulator, etc.) to be measured for leakage voltage. The voltage is periodically measured, and the periodically measured leakage voltage value for each phase is provided to the leakage voltage indicator 200 installed at a remote location.

At this time, the object to which the leakage voltage measurement unit 100 is installed to measure the leakage voltage includes a high-voltage wire and a busbar insulator, and it is preferable that the leakage voltage measurement unit 100 measures the leakage voltage every 3 seconds, 1 shows an example in which the leakage voltage measuring unit 100 is installed in each phase on the busbar insulator.

Specifically, the leakage voltage measuring unit 100 installed for each phase on the target to measure the leakage voltage,

For measuring circuit protection and measurement precision, the measurement unit 110 measures the leakage voltage from 0 to 600V in a sequential channel manner and provides the measured leakage voltage value to the effective voltage conversion unit 120;

an effective voltage conversion unit 120 for calculating an effective value of the leakage voltage provided by the measuring unit 110;

An A/D converter 130 for converting the calculated effective value of the leakage voltage into a digital value;

and a communication unit 140 for transmitting an effective value of the leakage voltage converted into a digital value to the leakage voltage indicator 200 .

Referring to FIG. 3 , the measurement unit 110 measures the leakage voltage from 0 to 600 V, and provides the measured leakage voltage value to the effective voltage conversion unit 120 . At this time, the measurement unit 110 measures the leakage voltage of each phase from 0 to 600V in a sequential channel manner for protection of the measurement circuit and measurement accuracy.

For measuring circuit protection and measurement precision, the measuring unit 110 measures the leakage voltage for each phase from 0 to 600V in a sequential channel manner,

A measurement circuit capable of measuring the leakage voltage in the first range and a protection circuit that protects the measurement circuit from a large leakage voltage caused by an instantaneous surge caused by serious breakdown or lightning strike, and the measurement control unit 115 When a leakage voltage in a first range is measured during a leakage voltage measurement operation of a target for which a leakage voltage is to be measured under the control of Wow,

and a measurement circuit capable of measuring a leakage voltage in a second range, wherein the leakage voltage in the second range is measured during an operation of measuring a leakage voltage of a target for which a leakage voltage is to be measured under the control of the measurement controller 115 . a second measurement unit 112 for providing the measured leakage voltage value to the measurement control unit 115,

and a measurement circuit capable of measuring a leakage voltage in a third range, wherein the leakage voltage in the third range is measured during an operation of measuring a leakage voltage of a target for which a leakage voltage is to be measured under the control of the measurement controller 115 . a third measuring unit 113 for providing the measured leakage voltage value to the measuring control unit 115,

and a measurement circuit capable of measuring a leakage voltage in a fourth range, wherein the leakage voltage in the fourth range is measured during an operation of measuring a leakage voltage of a target for which a leakage voltage is to be measured under the control of the measurement control unit 115 a fourth measurement unit 114 for providing the measured leakage voltage value to the measurement control unit 115,

When measuring the leakage voltage of a target for which the leakage voltage is to be measured, the first measurement unit 111 controls the measurement operation, and the first measurement unit 111 fails to provide the leakage voltage value within the first range The second measurement unit 112 controls the measurement operation, and when the second measurement unit 112 does not provide the leakage voltage value in the second range, the third measurement unit 113 controls the measurement operation, 3 When the measurement unit 113 fails to provide the leakage voltage value in the third range, the fourth measurement unit 114 repeatedly performs control of the sequential channel method for measuring operation, but first, second, third, fourth When any one of the measurement units 111 to 114 provides the measured leakage voltage value, the measurement control unit 115 provides the leakage voltage value to the effective voltage converter 120 .

A leakage voltage measurement circuit is configured in a leakage voltage measuring device for measuring a leakage voltage, and the leakage voltage measured by the leakage voltage measurement circuit is generally 1 V or less, but may be several to tens of V, and in some cases, several hundred V. may be That is, although the normal leakage voltage is generally less than 1V, a leakage voltage of several tens to hundreds of V may occur due to a serious breakdown of insulation or an instantaneous surge caused by lightning strikes.

Therefore, the leakage voltage measuring circuit must be able to precisely measure the leakage voltage in a wide range of 0 to hundreds of V. In addition, when measuring leakage voltage of tens to hundreds of V caused by instantaneous surges caused by severe insulation or lightning strikes, , it shall have a measuring circuit protection function to protect the measuring circuit.

However, the conventional leakage voltage measuring device has a leakage voltage of several tens to hundreds of volts, which is caused by a momentary surge due to a serious breakdown of the insulation and the measurement circuit that can measure the leakage voltage in a wide range of 0 to hundreds of V. Although it has a protection circuit that allows the measurement circuit to withstand it, measurement accuracy is sacrificed due to the measurement scale problem as it measures a wide range of leakage voltage from 0 to hundreds of V. That is, there is a problem in that the constant leakage voltage of 1V or less cannot be accurately measured.

In addition, for the sake of measurement accuracy, there is a conventional leakage voltage measuring device configured to measure the leakage voltage by limiting the measurement range to several V or less. There was a problem in that it was not possible to measure the leakage voltage of several tens to hundreds of V.

Therefore, the measurement accuracy that can precisely measure the leakage voltage in a wide range of 0 to hundreds of V and the measurement circuit are protected when measuring leakage voltages of tens to hundreds of V caused by instantaneous surges caused by severe insulation breakdown or lightning strikes. For the measuring circuit protection function, the measuring unit 110 of the present invention is configured to include the first measuring unit 111 to the fourth measuring unit 114 for sequentially measuring the leakage voltage in a channel manner.

Referring to FIG. 3 , the first measurement unit 111 is measured from a measurement circuit capable of measuring a leakage voltage in a first range and a large leakage voltage generated by an instantaneous surge due to severe breakdown or lightning strike. A protection circuit for protecting the circuit, wherein the leakage voltage in the first range measured by the measuring circuit is a leakage voltage in the range of more than 60V and less than or equal to 600V.

The leakage voltage range measured by the measurement circuit configured in the first measurement unit 111 is in the range of more than 60V and less than or equal to 600V, so a measurement error of several to tens of V may occur, but several to tens in the first range, which is greater than 60V and less than or equal to 600V. The measurement error of V is just an error that has no significant meaning.

In addition, the protection circuit configured in the first measurement unit 111 protects the measurement circuit from a large leakage voltage of more than 60V and less than or equal to 600V.

When the leakage voltage of a target for which the leakage voltage is to be measured is measured under the control of the measurement control unit 115, the first measurement unit 111 is configured to measure the leakage voltage value when the leakage voltage in the first range is measured. It is provided to the measurement control unit 115 .

Referring to FIG. 3 , the second measurement unit 112 includes a measurement circuit capable of measuring a leakage voltage in a second range, and the leakage voltage in the second range measured by the measurement circuit is more than 6V and 60V It is characterized in that the leakage voltage is in the following range.

The leakage voltage range measured by the measurement circuit configured in the second measurement unit 112 is in the range of more than 6V and less than or equal to 60V, so a measurement error of several V may occur, but a measurement error of several V in the second range of more than 6V and less than or equal to 60V. is just a meaningless error.

In addition, a protection circuit is not configured in the second measurement unit 112 , because the measurement circuit is not damaged by a leakage voltage of more than 6V and less than or equal to 60V.

The second measurement unit 112 is configured to measure the leakage voltage of a target whose leakage voltage is to be measured under the control of the measurement control unit 115. When the leakage voltage in the second range is measured, the measured leakage voltage value It is provided to the measurement control unit 115 .

Referring to FIG. 3 , the third measurement unit 113 includes a measurement circuit capable of measuring a leakage voltage in a third range, and the leakage voltage in the third range measured by the measurement circuit is greater than 1V and 6V It is characterized in that the leakage voltage is in the following range.

The leakage voltage range measured by the measuring circuit configured in the third measuring unit 113 is in the range of greater than 1V and less than or equal to 6V, so that the leakage voltage in the range of greater than 1V and less than or equal to 6V is measured without measurement error.

In addition, the third measurement unit 113 also does not have a protection circuit, because the measurement circuit is not damaged by a leakage voltage of more than 1V and less than 6V.

The third measurement unit 113 is configured to measure the leakage voltage of a target whose leakage voltage is to be measured under the control of the measurement control unit 115. When the leakage voltage in the third range is measured, the measured leakage voltage value is It is provided to the measurement control unit 115 .

Referring to FIG. 3 , the fourth measuring unit 114 includes a measuring circuit capable of measuring a leakage voltage in a fourth range, and the leakage voltage in the fourth range measured by the measuring circuit is 0V or more and 1V It is characterized in that the leakage voltage is in the following range.

The leakage voltage range measured by the measurement circuit configured in the fourth measuring unit 114 is in the range of 0V or more and 1V or less, so that the leakage voltage in the range of 0V or more and 1V or less is precisely measured without measurement error. That is, the measurement circuit configured in the fourth measurement unit 114 is a circuit that can precisely and precisely measure the leakage voltage in the range of 0V to 1V.

In addition, the fourth measurement unit 114 also does not have a protection circuit, since the measurement circuit is not damaged by a small leakage voltage of 0V or more and 1V or less.

The fourth measurement unit 114 is configured to measure the leakage voltage of a target whose leakage voltage is to be measured under the control of the measurement control unit 115. When the leakage voltage in the fourth range is measured, the measured leakage voltage value It is provided to the measurement control unit 115 .

Referring to FIG. 3 , the measurement control unit 115 controls the operations of the first, second, third, and fourth measurement units 111 to 114 in a sequential channel manner in order to protect the measurement circuit and improve measurement accuracy.

Specifically, when measuring the leakage voltage of the target for which the leakage voltage is to be measured, consider the occurrence of an unexpected large leakage voltage (a large leakage voltage caused by an instantaneous surge due to serious breakdown of insulation or lightning strike), The first measuring unit 111 having a protection circuit that protects the measuring circuit is operated. When the operated first measurement unit 111 fails to measure the leakage voltage value in the first range and does not provide the leakage voltage value, the second measurement unit 112 is operated. When the operated second measurement unit 112 fails to measure the leakage voltage value in the second range and does not provide the leakage voltage value, the third measurement unit 113 is operated. When the operated third measurement unit 113 fails to measure the leakage voltage value in the third range and does not provide the leakage voltage value, the fourth measurement unit 114 is finally operated.

The measurement control unit 115 repeatedly controls the sequential channel method for the first, second, third, and fourth measurement units 111 ′ 114 as described above, but the first, second, third, and fourth measurement units 111 to 114 . ), if any one provides the measured leakage voltage value, the leakage voltage value is provided to the effective voltage converter 120, and then returns to the initial control state in which the first measurement unit 111 is operated again and described above. Control of one sequential channel method is repeated.

Referring to FIG. 3 , the effective voltage conversion unit 120 is configured to calculate an effective value of the leakage voltage value provided by the measurement unit 110 .

The leakage voltage value measured by the measurement unit 110 is the maximum value, and the leakage voltage value displayed on the leakage voltage indicator 200, which will be described later, is an rms value generally used, so the maximum leakage voltage value provided by the measurement unit 110 is It must be converted to an rms value.

Therefore, the effective voltage conversion unit 120 applies the following equation to the leakage voltage value provided by the measurement unit 110 to calculate the effective value leakage voltage value and provides it to the A/D conversion unit 130 .

)RMS leakage voltage = maximum leakage voltage × (1/

)

Referring to FIG. 3 , the A/D converter 130 is configured to convert the rms leakage voltage value provided by the rms voltage converter 120 into a digital value.

Referring to FIG. 3 , the communication unit 140 transmits an effective leakage voltage value converted into a digital value to the leakage voltage indicator 200 .

At this time, it is preferable that the communication unit 140 transmits the effective leakage voltage value to the leakage voltage indicator 200 using RS 485 communication, and it is obvious that other communication methods are also applicable.

In particular, RS 485 communication is a half-duplex communication method widely used in remote automation facilities due to its strong noise resistance, and has the advantage of long-distance communication. It is suitable for transmitting RMS leakage voltage value.

Referring to FIG. 1 , the leakage voltage indicator 200 is installed at a predetermined distance away from the point where the leakage voltage measurement unit 100 is installed, and displays the leakage voltage value for each phase provided by the leakage voltage measurement unit 100 . and, when the leakage voltage value for each phase provided by the leakage voltage measuring unit 100 meets the abnormal occurrence condition, the abnormal occurrence event processing is performed.

Specifically, as shown in FIGS. 4 and 5, the leakage voltage indicator 200 is

a first display unit 210 displaying the current leakage voltage value for each phase;

A second display unit 220 on which the highest leakage voltage value up to now is displayed for each phase;

and a third display unit 230 for displaying a leakage voltage tolerance threshold;

A fourth display unit 240 for displaying the allowable threshold value of the interphase leakage voltage difference, and

The rms leakage voltage value for each phase provided by the leakage voltage measuring unit 100 is displayed on the first display unit 210 as the current leakage voltage value for each phase, and the rms leakage voltage value for each phase provided by the leakage voltage measuring unit 100 is displayed. If it is greater than the maximum leakage voltage value displayed for each phase on the second display unit 220, the rms leakage voltage value for each phase provided by the leakage voltage measuring unit 100 is updated to be displayed on the second display unit 220 as the highest leakage voltage value, , characterized in that it includes an indicator control unit 270 that performs an abnormal occurrence event processing when the phase-by-phase effective leakage voltage value provided by the leakage voltage measuring unit 100 meets the abnormal occurrence condition.

The first display unit 210 is formed on one side of the screen of the leakage voltage indicator 200, and the current leakage voltage value is displayed for each phase.

That is, the effective value leakage voltage values provided by the leakage voltage measuring unit 100 of each phase respectively installed for each phase on the target for which the leakage voltage is to be measured are displayed on the first display unit 210 for each phase under the control of the indicator control unit 270 . do.

The second display unit 220 is formed on one side of the screen of the leakage voltage indicator 200 so that the highest leakage voltage value up to now is displayed for each phase.

That is, the leakage voltage measuring units 100 of each phase respectively installed for each phase on the target for which the leakage voltage is to be measured provide the rms leakage voltage value for each phase periodically measured as the leakage voltage indicator 200, from the past to the present. Among the RMS leakage voltage values, the largest RMS leakage voltage value is displayed for each phase on the second display unit 220 under the control of the indicator control unit 270 .

Accordingly, the manager can monitor the current RMS leakage voltage value for each phase and the highest RMS leakage voltage value for each phase so far through the information displayed on the first display unit 210 and the second display unit 220 , respectively.

The third display unit 230 is configured to display a leakage voltage allowable threshold value, and the fourth display unit 240 is configured to display an interphase leakage voltage difference allowable threshold value.

The leakage voltage tolerance threshold value displayed on the third display unit 230 and the phase leakage voltage difference tolerance threshold value displayed on the fourth display unit 240 is a value input to the leakage voltage indicator 200 by the user, and the leakage voltage The allowable threshold value means a leakage voltage limit value that does not cause a problem, and the phase-to-phase leakage voltage difference allowable threshold value means a leakage voltage difference limit value between phases that does not cause a problem.

The indicator control unit 270 is configured to display an effective leakage voltage value for each phase provided by the leakage voltage measurement unit 100 and, when an abnormality occurs in the leakage voltage, processes an abnormal occurrence event.

That is, the indicator control unit 270 displays the leakage voltage value for each phase provided by the leakage voltage measurement unit 100 on the first display unit 210 as the current leakage voltage value for each phase, and the leakage voltage measurement unit 100 is If the provided rms leakage voltage value for each phase is greater than the maximum leakage voltage value displayed for each phase on the second display unit 220, the leakage voltage measurement unit 100 sets the rms leakage voltage value for each phase as the highest leakage voltage value. ), through the information displayed on the first display unit 210 and the second display unit 220, the manager monitors the current RMS leakage voltage value for each phase and the highest RMS leakage voltage value for each phase so far make it possible

Specifically, the indicator control unit 270 performs an abnormal occurrence event processing when the phase-by-phase rms leakage voltage value provided by the leakage voltage measuring unit 100 meets the abnormal occurrence condition.

The abnormal occurrence event processing of the indicator control unit 270 is greater than the leakage voltage allowable threshold value displayed on the third display unit 230, at least one of the phase-by-phase RMS leakage voltage values provided by the leakage voltage measuring unit 100 is greater than, abnormal It is determined that a leakage voltage has occurred and the contents of the abnormal occurrence are displayed on the screen, and the leakage voltage difference between phases (AB phase, BC phase, AC phase) is calculated using the rms leakage voltage value for each phase provided by the leakage voltage measuring unit 100, and , If at least one of the calculated inter-phase leakage voltage difference is greater than the allowable threshold value for the inter-phase leakage voltage difference displayed on the fourth display unit 240, it is determined that the phase-to-phase abnormal leakage voltage difference has occurred and the abnormal occurrence is displayed on the screen. do.

In this case, the phase-to-phase leakage voltage difference is the absolute value of the phase-to-phase leakage voltage difference (the absolute value of the difference between the A-phase leakage voltage value and the B-phase leakage voltage value, the absolute value of the difference between the B-phase leakage voltage value and the C-phase leakage voltage value, A the absolute value of the difference between the phase leakage voltage value and the C phase leakage voltage value).

To measure the leakage voltage, a leakage voltage greater than the leakage voltage allowable threshold value displayed on the third display unit 230 occurs in the target (high voltage wire, busbar insulator, etc.), or the leakage voltage difference between phases displayed on the fourth display unit 240 is allowed If the phase-to-phase leakage voltage difference greater than the threshold value occurs, there is a high possibility that problems (such as electric shock accident, electrical system abnormality, fire occurrence, etc.) In the event that this abnormal occurrence condition (at least one of the RMS leakage voltage values for each phase is greater than the leakage voltage allowable threshold, at least one of the phase-to-phase leakage voltage differences, and at least one of the phase-to-phase leakage voltage differences is greater than the allowable threshold) , the occurrence of abnormality is displayed on the leakage voltage indicator 200 screen so that the administrator can recognize it before the problem occurs.

For example, the occurrence of an error such as “Exceeding the allowable leakage voltage of phase A” or “exceeding the allowable difference in leakage voltage difference between phases A-B” is displayed on the screen of the leakage voltage indicator 200 in the form of a pop-up screen.

In addition, when the abnormal occurrence event of the indicator control unit 270 is displayed on the screen, a visual or audible warning alarm, abnormal occurrence content is transmitted to an external manager, and abnormal leakage voltage occurs. It is characterized in that it further includes a follow-up action including at least one or more of the cut-off of the electricity supply.

That is, when the abnormal occurrence is displayed in a pop-up on the screen, the indicator control unit 270 may notify a manager in the vicinity of the leakage voltage indicator 200 that an abnormality has occurred in the leakage voltage in a visual or auditory manner.

To this end, the leakage voltage indicator 200 may be provided with a lamp (means for notifying the occurrence of an abnormality in a visual way), a buzzer (means for notifying the occurrence of an abnormality by an auditory method), as shown in FIG. 4 .

That is, the indicator control unit 270 operates a lamp (means for notifying the occurrence of an abnormality in a visual way), a buzzer (means for notifying the occurrence of an abnormality by an auditory method), etc. .

In addition, when the abnormal occurrence is displayed as a pop-up on the screen, the indicator control unit 270 may transmit the abnormal occurrence to a remote manager terminal.

If the manager is not around the leakage voltage indicator 200, only the visual or audible warning alarm means (lamp, buzzer, etc.) installed in the leakage voltage indicator 200 may not notify the manager that an abnormal leakage voltage has occurred.

To this end, by transmitting the contents of the occurrence of abnormalities such as “Exceeding the allowable leakage voltage of phase A” or “Exceeding the allowable leakage voltage difference between phases AB” to the administrator terminal (smartphone, PC, etc.), the leakage voltage indicator (200 ) so that the manager who is not around can recognize that an abnormal leakage voltage has occurred.

In addition, when the abnormal occurrence is displayed in a pop-up on the screen, the indicator control unit 270 may block the supply of electricity to the target (high-voltage wire, busbar) in which the abnormal leakage voltage has occurred through a circuit breaker or the like.

This is to fundamentally block the occurrence of accidents caused by leakage voltage by cutting off the electricity supply to the target (high voltage wire, busbar) where the abnormal leakage voltage has occurred.

On the other hand, the leakage voltage indicator 200 may be configured to further include a fifth display unit 250 to display the change trend information of the effective value leakage voltage value for each phase.

In this case, the indicator control unit 270 stores the rms leakage voltage value for each phase periodically provided by the leakage voltage measurement unit 100, and uses the rms leakage voltage value for each phase stored at a predetermined period to change the rms leakage voltage for each phase. The information is generated, and the generated change trend information of the RMS leakage voltage value for each phase is displayed on the fifth display unit 250 in the form of a graph.

Therefore, the manager can intuitively monitor the fluctuation state of the leakage voltage for each phase through the graph of the fluctuation of the effective leakage voltage value for each phase displayed on the fifth display unit 250 as well as the target for measuring the leakage voltage (high voltage wire, booth It is also possible to predict the insulation state of bar insulators, etc.).

Meanwhile, the leakage voltage indicator 200 may further include a sixth display unit 260 for displaying communication state information for each phase.

In this case, when an abnormality occurs in the communication state with the leakage voltage measuring unit 100 installed for each phase in the target for measuring the leakage voltage, the indicator control unit 270 displays information about the phase in which the communication abnormality occurred is displayed on the sixth display unit ( 260) to be displayed.

The leakage voltage measuring unit 100 installed for each phase on the target to measure the leakage voltage should normally measure the leakage voltage, and the measured leakage voltage value should be normally transmitted to the leakage voltage indicator 200 through the communication channel. A value is displayed on the leakage voltage indicator 200 screen.

Even if the leakage voltage measuring unit 100 normally measures the leakage voltage, if a problem occurs in the communication channel through which the measured leakage voltage value is transmitted, the measured leakage voltage value is not displayed on the leakage voltage indicator 200 screen .

Accordingly, the indicator control unit 270 checks the communication state with the leakage voltage measurement unit 100 installed for each phase on the target for which the leakage voltage is to be measured, and displays information about the phase in which the communication state is abnormal on the sixth display unit 260 . make it possible For example, the communication status information for each phase such as “Phase A communication unavailable” is displayed.

Although the technical idea of the present invention has been described in conjunction with the accompanying drawings, the present invention is illustratively described and does not limit the present invention. In addition, it is a clear fact that anyone with ordinary skill in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

10: leakage voltage monitoring system
100: leakage voltage measuring unit
200: leakage voltage indicator

Claims (10)

In the leakage voltage monitoring system,
a leakage voltage measuring unit 100 installed for each phase of a target to be measured for leakage voltage, measuring the phase-by-phase leakage voltage, and providing the measured leakage voltage value for each phase as a leakage voltage indicator 200;
The leakage voltage measurement unit 100 displays the leakage voltage value for each phase provided, and when the phase leakage voltage value provided by the leakage voltage measurement unit 100 meets the abnormal occurrence condition, an abnormal occurrence event processing is performed. including a voltage indicator 200,

The leakage voltage measuring unit 100,
For measuring circuit protection and measurement precision, the measurement unit 110 measures the leakage voltage from 0 to 600V in a sequential channel manner and provides the measured leakage voltage value to the effective voltage conversion unit 120;
an effective voltage conversion unit 120 that calculates an effective value of the leakage voltage value provided by the measurement unit 110 and provides it to the A/D conversion unit 130;
An A/D converter 130 for converting the rms leakage voltage value provided by the rms voltage converter 120 into a digital value;
and a communication unit 140 for transmitting the RMS leakage voltage value converted into a digital value to the leakage voltage indicator 200,

To measure the leakage voltage, the target on which the leakage voltage measuring unit 100 is installed includes a high-voltage wire and a busbar insulator.
delete According to claim 1,
The measurement unit 110,
A measurement circuit capable of measuring the leakage voltage in the first range and a protection circuit that protects the measurement circuit from a large leakage voltage caused by an instantaneous surge caused by serious breakdown or lightning strike, and the measurement control unit 115 When a leakage voltage in a first range is measured during a leakage voltage measurement operation of a target for which a leakage voltage is to be measured under the control of Wow,
and a measurement circuit capable of measuring a leakage voltage in a second range, wherein the leakage voltage in the second range is measured during an operation of measuring a leakage voltage of a target for which a leakage voltage is to be measured under the control of the measurement controller 115 . a second measurement unit 112 for providing the measured leakage voltage value to the measurement control unit 115,
and a measurement circuit capable of measuring a leakage voltage in a third range, wherein the leakage voltage in the third range is measured during an operation of measuring a leakage voltage of a target for which a leakage voltage is to be measured under the control of the measurement controller 115 . a third measuring unit 113 for providing the measured leakage voltage value to the measuring control unit 115,
and a measurement circuit capable of measuring a leakage voltage in a fourth range, wherein the leakage voltage in the fourth range is measured during an operation of measuring a leakage voltage of a target for which a leakage voltage is to be measured under the control of the measurement control unit 115 a fourth measurement unit 114 for providing the measured leakage voltage value to the measurement control unit 115,
When measuring the leakage voltage of a target for which the leakage voltage is to be measured, the first measurement unit 111 controls the measurement operation, and the first measurement unit 111 fails to provide the leakage voltage value within the first range The second measurement unit 112 controls the measurement operation, and when the second measurement unit 112 does not provide the leakage voltage value in the second range, the third measurement unit 113 controls the measurement operation, 3 When the measurement unit 113 fails to provide the leakage voltage value in the third range, the control of the sequential channel method in which the fourth measurement unit 114 performs the measurement operation is repeatedly performed, but the first, second, third, and fourth When any one of the measurement units 111 to 114 provides the measured leakage voltage value, the leakage voltage comprising a measurement control unit 115 that provides the leakage voltage value to the effective voltage conversion unit 120 . surveillance system.
4. The method of claim 3,
The leakage voltage in the first range is a leakage voltage in the range of more than 60V and less than or equal to 600V,
The leakage voltage in the second range is a leakage voltage in the range of more than 6V and less than or equal to 60V,
The leakage voltage in the third range is a leakage voltage in the range of greater than 1V and less than or equal to 6V,
The leakage voltage in the fourth range is a leakage voltage monitoring system, characterized in that the leakage voltage in the range of 0V or more and 1V or less.
According to claim 1,
The leakage voltage indicator 200,
a first display unit 210 displaying the current leakage voltage value for each phase;
A second display unit 220 on which the highest leakage voltage value up to now is displayed for each phase;
and a third display unit 230 for displaying a leakage voltage tolerance threshold;
A fourth display unit 240 for displaying the allowable threshold value of the interphase leakage voltage difference, and
The leakage voltage measurement unit 100 displays the leakage voltage value for each phase as the current phase leakage voltage value on the first display unit 210 , and the leakage voltage measurement unit 100 provides the leakage voltage value for each phase. If it is greater than the maximum leakage voltage value displayed for each phase on the second display unit 220, the rms leakage voltage value for each phase provided by the leakage voltage measuring unit 100 is updated to be displayed on the second display unit 220 as the highest leakage voltage value, , Leakage voltage monitoring system, characterized in that it comprises an indicator control unit 270 for performing an abnormal occurrence event processing when the phase-by-phase effective value leakage voltage value provided by the leakage voltage measurement unit 100 meets the abnormal occurrence condition.
6. The method of claim 5,
The leakage voltage tolerance threshold value displayed on the third display unit 230 and the phase leakage voltage difference tolerance threshold value displayed on the fourth display unit 240 are input to the leakage voltage indicator 200 by the user. voltage monitoring system.
6. The method of claim 5,
The abnormal occurrence event processing of the indicator control unit 270 is,
If at least one of the effective leakage voltage values for each phase provided by the leakage voltage measurement unit 100 is greater than the leakage voltage allowable threshold value displayed on the third display unit 230, it is determined that an abnormal leakage voltage has occurred and the contents of the abnormal occurrence are displayed on the screen. displayed on,
The leakage voltage difference between phases (AB phase, BC phase, AC phase) is calculated using the phase-by-phase RMS leakage voltage value provided by the leakage voltage measuring unit 100, and at least one of the calculated phase-to-phase leakage voltage difference is the fourth display unit If it is greater than the allowable threshold of the leakage voltage difference between the phases displayed in (240), it is determined that the abnormal leakage voltage difference between the phases has occurred, and the leakage voltage monitoring system comprising displaying the contents of the abnormal occurrence on the screen.
8. The method of claim 7,
The abnormal occurrence event processing of the indicator control unit 270 is,
When an abnormality occurrence is displayed on the screen, a visual or audible warning alarm is performed, the abnormality occurrence is transmitted to an external manager, and the electricity supply to the target with abnormal leakage voltage is cut off, including at least one or more Leakage voltage monitoring system, characterized in that it further comprises measures.
6. The method of claim 5,
The leakage voltage indicator 200,
Further comprising a fifth display unit 250 for displaying the change trend information of the effective value leakage voltage value for each phase,
The indicator control unit 270,
The leakage voltage measuring unit 100 periodically stores the rms leakage voltage value for each phase, and uses the rms leakage voltage value for each phase stored at a certain period to generate change trend information of the rms leakage voltage for each phase, and the generated rms leakage for each phase is stored. Leakage voltage monitoring system, characterized in that the voltage value change trend information is displayed on the fifth display unit 250 in a graph format.
6. The method of claim 5,
The leakage voltage indicator 200,
It further includes a sixth display unit 260 for displaying the phase-by-phase communication state information,
The indicator control unit 270,
When an abnormality occurs in the communication state with the leakage voltage measuring unit 100 installed for each phase in the target for which the leakage voltage is to be measured, the phase information in which the communication abnormality occurred is displayed on the sixth display unit 260 Leakage voltage monitoring system.

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