KR102453100B1 - Self-diagnosis type earth leakage breaker with ICT fusion and its using method - Google Patents

Abstract

According to the present invention, it is possible to determine the failure or failure of the earth leakage breaker by itself through the self-diagnosis function, and to perform an operation test of the earth leakage breaker without shutting off the power supplied to the load facility by using the bypass function, in real time. It relates to an ICT convergence type self-diagnostic earth leakage breaker that can receive and monitor the operation test information of the earth leakage breaker and how to use the same. The ICT convergence self-diagnostic earth leakage breaker according to the present invention may include a bypass unit, a leakage current generator, an earth leakage detection unit, an analysis unit, a storage unit, a notification unit, a communication unit, and a schedule unit. The bypass unit is operated under the control of the main server or the portable terminal to supply power to the electric load through the bypass path so that the power supplied to the electric load is not cut off and the operation test of the earth leakage breaker can be performed. The leakage current generating unit is operated under the control of a main server or a portable terminal to generate a test leakage current for performing an operation test of the earth leakage breaker. The earth leakage detection unit detects a leakage current, and selectively performs a trip operation of the earth leakage breaker main circuit according to the detected leakage current. The analyzer analyzes the trip operation of the main circuit of the earth leakage breaker based on the leakage current detected by the earth leakage detection unit and determines whether the trip succeeds.

Description

Self-diagnosis type earth leakage breaker with ICT fusion and its using method

The present invention relates to an ICT convergence type self-diagnostic earth leakage breaker and a method of using the same. It determines whether the earth leakage breaker is faulty or defective by itself through the self-diagnosis function, and cuts off the power supplied to the load facility using the bypass function. It relates to an ICT convergence type self-diagnostic earth leakage breaker that can perform a motion test without a ground fault circuit breaker and can receive and monitor real-time operation test information of a ground fault breaker and a method of using the same.

In general, an Earth leakage breaker (ELB) cuts off the applied power when a leakage current of a certain level or more occurs, thereby preventing electrical safety accidents and personal accidents and protecting facilities such as facilities. do.

Accordingly, at least one earth leakage breaker of various types is essential for safety in all homes, buildings, and other power facilities.

In addition, the earth leakage breaker is designed to quickly detect and block the leakage current that leaks to the ground where the device is installed, thereby preventing an electric shock accident to the human body and suppressing a fire caused by deterioration of the device and line caused by the leakage current. It is installed and operated in most load circuits to which low voltage AC is supplied.

On the other hand, the Korea Electric Safety Corporation conducts regular inspections by inspectors for each household and building in Korea every 1-3 years. In addition, there is a limit to regular inspection, so there is no choice but to cause some defects in the regular inspection.

In particular, the exact cause cannot be analyzed due to problems such as various failures, but overall, mechanical or electrical and electronic defects are occurring due to the use environment, process (production, installation), short circuit of load equipment, and frequent use by users. In the future, there is a risk of electric safety accidents, electric shocks, and personal accidents, and accidents are actually occurring.

Accordingly, the government or the corporation is promoting and broadcasting to recommend that users perform an earth leakage test once a month, but users are not doing it properly due to the anxiety of power outages and earth leakage tests.

Therefore, for households, buildings, and other power facilities requiring commercial power across the country, it is from the Ministry of Trade, Industry and Energy and city and provincial governors to obtain approval of the electric facility construction plan including earth leakage breaker and whether the reported content meets the technical standards for electric facilities. This is done through pre-use inspection by the Korea Electrical Safety Corporation.

In addition, electric power facilities such as homes and buildings that have passed the inspection are regularly inspected through the inspection funds of the Korea Electric Safety Corporation, and the government/construction company recommends periodic earth leakage test to users.

Due to the installation of the earth leakage breaker and the regular inspection of the earth leakage breaker by the Korea Electric Safety Corporation, the number of casualties has decreased, but the faulty operation of the earth leakage breaker due to manufacturing process defects of the earth leakage breaker and mechanical and electrical and electronic failures according to the usage environment. And human accidents are occurring steadily, and problems such as blackout accidents or instantaneous voltage drop are caused during facility operation.

In addition, it is often very difficult to find the cause of an accident when the earth leakage breaker installed to protect the facilities of the unmanned base is malfunctioning. The inconvenience of having to visit the site by the facility operator follows.

On the other hand, in the case of a conventional earth leakage breaker, in order to check whether there is an abnormality in the earth leakage detection part, it is recommended that the user press the test button about once a month, and it is operated when the test button is pressed. will judge

The earth leakage detection unit of the earth leakage breaker is regulated by law so as not to operate with a leakage current of 30 mA or more, but not with a leakage current of 15 mA or less.

In other words, for a leakage current of 15mA or less, which is irrelevant to safety, the earth leakage breaker should not operate, but the conventional earth leakage breaker flows 30mA or more when the administrator presses the test button to check for abnormalities in the earth leakage detection unit. We check whether there is an abnormality in the earth leakage detection unit only by trip.

In addition, the conventional earth leakage breaker has a problem of tripping the main circuit as it considers a leakage current of 15 mA or less to be inoperative as a leakage current. Accordingly, there is a problem that the earth leakage detection unit of the earth leakage breaker operates even with a minute leakage current to generate a non-electric signal that trips the main circuit, causing inconvenience in use and further damage to property due to a power outage.

In addition, the conventional earth leakage breaker has a problem in that it has no choice but to cut off the power to the entire household in order to perform a test to check whether the earth leakage breaker is malfunctioning, and the necessary power cannot be supplied. In addition, even after the test of the earth leakage breaker is completed, the power is not supplied automatically, and even if the power is cut off due to a simple earth leakage or a surge overvoltage caused by lightning, the earth leakage breaker is tripped after the cause of the trip is resolved. There is a problem that power is not supplied.

Republic of Korea Patent Registration No. 10-0956162 (Announced on May 06, 2010)

Therefore, the technical problem to be achieved by the present invention is to solve the disadvantages of the prior art, and the purpose of the self-diagnosis function is to determine the failure or failure of the inherent function of the earth leakage breaker to cut off the power when an electrical safety accident occurs and notify the user. There is this.

In addition, the purpose is to enable the operation test of the earth leakage breaker to be performed without shutting off the power supplied to the load facility. In addition, the purpose is to enable monitoring of the operation test information of the earth leakage breaker. In addition, after the operation test of the earth leakage breaker is completed, the purpose is to automatically restore the earth leakage breaker.

The ICT convergence self-diagnostic earth leakage breaker according to an aspect of the present invention for achieving this technical task may include a bypass unit, a leakage current generation unit, an earth leakage detection unit, an analysis unit, a storage unit, a notification unit, a communication unit, and a schedule unit. .

The bypass unit is operated under the control of the main server or the portable terminal to supply power to the electric load through the bypass path so that the power supplied to the electric load is not cut off and the operation test of the earth leakage breaker can be performed.

In addition, after the operation test of the earth leakage breaker is completed, the bypass unit is operated under the control of the main server or the portable terminal to block the bypass path so that the power supplied to the electric load can be supplied again through a normal path.

The leakage current generating unit is operated under the control of a main server or a portable terminal to generate a test leakage current for performing an operation test of the earth leakage breaker. In addition, the earth leakage detection unit detects a leakage current, and selectively performs a trip operation of the earth leakage breaker main circuit according to the detected leakage current.

In addition, the analyzer analyzes the trip operation of the main circuit of the earth leakage breaker based on the leakage current detected by the earth leakage detection unit to determine whether the trip succeeds. In addition, the storage unit stores the detection data of the leakage detection unit and the analysis and determination result data of the analysis unit.

In addition, the notification unit notifies the user of the presence or absence of an abnormality in the earth leakage breaker under the control of the analysis unit or the main server. In addition, the communication unit may transmit/receive with a main server or a portable terminal to perform remote diagnosis and self-diagnosis of the earth leakage breaker using wired/wireless communication. In addition, the schedule unit performs a self-diagnosis test of the self-diagnostic earth leakage breaker according to a preset regular inspection schedule of the earth leakage breaker.

In addition, the method of using the ICT convergence type self-diagnostic earth leakage breaker according to another aspect of the present invention comprises the steps of transmitting a self-diagnosis control signal for self-diagnosis of the earth leakage breaker using a main server or a portable terminal to the self-diagnosing earth leakage breaker (S10) and the step of turning on the bypass unit so that power supplied to the electric load is not cut off and power can be supplied to the electric load through the bypass path to perform the operation test of the earth leakage breaker ( S20) may be included.

In addition, the step of generating the leakage current for the test by the leakage current generator (S30), the leakage detection unit detects the leakage current, and selectively performing a trip operation of the leakage current breaker main circuit according to the detected leakage current (S40) may be included.

In addition, the analysis unit analyzes the trip operation of the earth leakage breaker based on the leakage current for the test to determine whether the trip of the earth leakage breaker is successful (S50); It may include the step of returning the circuit breaker to the normal state (S60) and the step of blocking the bypass path by turning off the bypass unit (S70).

As described above, the ICT convergence type self-diagnostic earth leakage breaker and its usage method according to the present invention have the effect of performing an operation test of the earth leakage breaker without cutting off the power supplied to the load equipment. In addition, there is an effect of monitoring the operation test information of the earth leakage breaker, determining whether the earth leakage breaker is defective, and notifying the user, and after the operation test of the earth leakage breaker is completed, the earth leakage breaker can be automatically restored.

In addition, through regular inspection of the earth leakage breaker, it is possible to prevent sudden electrical accidents caused by a long inspection cycle in advance, and to quickly solve faults and defects of the earth leakage breaker by monitoring the operation status information of the earth leakage breaker in real time. there is

1 is a block diagram showing an ICT convergence self-diagnosis earth leakage breaker according to an embodiment of the present invention.
2 is a view showing a monitoring result using a self-diagnostic earth leakage breaker according to an embodiment of the present invention.
3 is a flowchart illustrating a method of using an ICT convergence self-diagnostic earth leakage breaker according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in various different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated. In addition, terms such as “…unit”, “…group”, “…module”, etc. described in the specification mean a unit that processes at least one function or operation, which is implemented by hardware or software or a combination of hardware and software. can be

Hereinafter, the present invention will be described in detail by describing preferred embodiments of the present invention with reference to the accompanying drawings.

Like reference numerals in each figure indicate like elements.

1 is a block diagram showing an ICT convergence type self-diagnostic earth leakage breaker 100 according to an embodiment of the present invention, and FIG. 2 is a view showing a monitoring result using the self-diagnostic earth leakage breaker 100 according to an embodiment of the present invention. to be.

In general, an earth leakage breaker (ELB) is to cut off the power supplied to a building in a home or business place in the event of an electrical safety accident caused by a factor of surge overvoltage due to an earth leakage or lightning strike.

That is, an Earth leakage breaker (ELB) cuts off the applied power when a leakage current of a certain level or more occurs, thereby protecting facilities such as electrical safety accidents and facilities.

The ICT convergence type self-diagnostic earth leakage breaker 100 according to an embodiment of the present invention determines the failure or defect of the unique function of the earth leakage breaker to cut off the power when an electrical safety accident occurs through a self-diagnosis test, and informs the user of the failure and the load facility. The operation test of the earth leakage breaker can be performed without shutting off the supplied power.

In addition, after the test of the self-diagnostic earth leakage breaker 100 is completed when power is cut off due to an earth leakage, the earth leakage breaker 100 is automatically restored to restore power. In addition, even when the power is cut off due to the tripping of the ground leakage breaker 100 due to factors such as a simple short circuit or a surge overvoltage caused by lightning, the power of the ground leakage breaker 100 is automatically restored after the cause of the trip is resolved.

In addition, the ICT convergence type self-diagnostic earth leakage breaker 100 according to an embodiment of the present invention operates in conjunction with the main server 200 or the portable terminal 300 based on the Internet of Things (IoT). That is, under the control of the main server 200 or the portable terminal 300, the operation test of the earth leakage breaker 100 installed in the building of each home or business is performed, and the state information and the operation test result of the earth leakage breaker 100 are performed. can be monitored using the main server 200 or the portable terminal 300 .

The ICT convergence type self-diagnostic earth leakage breaker 100 according to an embodiment of the present invention has a bypass unit 110 , a leakage current generation unit 120 , an earth leakage detection unit 130 , an analysis unit 140 , and a storage unit 150 ). , a notification unit 160 , a communication unit 170 , and a schedule unit 180 .

The bypass unit 110 is operated under the control of the main server 200 or the portable terminal 300 so that the power supplied to the electric load is not cut off and the operation test of the self-diagnosis earth leakage breaker 100 can be performed. Power is supplied to the electrical load through the path path. That is, the bypass unit 110 is provided with a bypass function capable of supplying power to a building of a household or business place even during an operation test of the self-diagnosis earth leakage breaker 100 .

In addition, the bypass unit 110 controls the main server 200 or the portable terminal 300 so that the power supplied to the electric load can be supplied again through a normal path after the operation test of the earth leakage breaker 100 is completed. It operates according to the , and blocks the bypass path.

In addition, the bypass unit 110 may include a bypass cable 111 for supplying power to an electric load through a bypass path, and a bypass switch 112 or a bypass circuit 113 .

The leakage current generator 120 performs an operation test of the self-diagnosis earth leakage breaker 100 under the control of the main server 200 or the portable terminal 300 to detect the presence or absence of an abnormality in the earth leakage breaker 100. To generate a leakage current for testing. In this case, the leakage current generating unit 120 may generate a test leakage current of 15 mA or less and a leakage current of 30 mA or more to perform an operation test of the earth leakage breaker 100 .

The earth leakage detection unit 130 detects a leakage current, and selectively performs a trip operation of the main circuit of the earth leakage breaker 100 according to the detected leakage current. That is, the earth leakage detection unit 130 does not perform a trip operation of the main circuit when the detected leakage current is 15 mA or less, and performs a trip operation of the main circuit when the detected leakage current is 30 mA or more.

The analysis unit 140 analyzes the trip operation of the main circuit based on the leakage current detected by the earth leakage detection unit 130 to determine whether the trip succeeds. In addition, the analysis unit 140 notifies the user of the presence or absence of an abnormality in the earth leakage breaker 100 according to the result of determining whether the trip is successful using the notification unit 160 .

The storage unit 150 may store the detection data of the earth leakage detection unit 130 and the analysis and determination result data of the analysis unit 140 . The notification unit 160 notifies the user of the presence or absence of an abnormality in the earth leakage breaker 100 according to the control of the analysis unit 140 or the control unit 210 . That is, the notification unit 160 may display an audible noise or a visual alarm to notify the user of whether the earth leakage breaker 100 has failed.

The communication unit 170 may transmit/receive with the main server 200 or the portable terminal 300 to perform remote diagnosis and self-diagnosis of the earth leakage breaker 100 using wired/wireless communication. At this time, the communication unit 170 may use at least one of short-range wireless communication such as RF communication, Bluetooth, Wi-Fi, and ZigBee, and long-distance wireless communication such as LTE and 5G.

The schedule unit 180 performs a self-diagnosis test of the self-diagnosis earth leakage breaker 100 according to a preset regular inspection schedule of the earth leakage breaker 100 . That is, the schedule unit 180 controls the bypass unit 110 according to a preset regular inspection schedule so that the power supplied to the electric load can be supplied to the electric load through the bypass path. Turn on (On).

In addition, the schedule unit 180 generates a test leakage current by controlling the leakage current generator 120 , and uses the notification unit 160 based on the analysis result of the analysis unit 140 to cause an abnormality in the earth leakage breaker 100 . The user can be informed of the presence or absence.

In addition, the schedule unit 180 restores the self-diagnosis earth leakage breaker 100 to a normal state so that the power supplied to the electric load can be supplied again through a normal path after the operation test of the earth leakage breaker 100 is completed, The bypass unit 110 is controlled to block the bypass path.

The main server 200 may include a control unit 210 , a display unit 220 , and a communication unit 230 . The control unit 210 may control the bypass unit 110 , the leakage current generation unit 120 , and the earth leakage detection unit 130 .

That is, the control unit 210 controls the bypass unit 110 to turn on/off the bypass path so that the power supplied to the electric load is not cut off and the operation test of the earth leakage breaker 100 can be performed. )do.

In addition, after the operation test of the earth leakage breaker 100 is completed, the control unit 210 controls the earth leakage detection unit 130 so that the power supplied to the electric load can be supplied again through a normal path to self-diagnose earth leakage breaker 100. returns to normal state.

In addition, the control unit 210 may monitor the presence or absence of an abnormality in the earth leakage breaker 100 based on the operation test result of the earth leakage breaker 100 .

The display unit 220 may display the detection data of the earth leakage detection unit 130 and the analysis and determination results of the analysis unit 140 under the control of the control unit 210 . In addition, the display unit 220 may indicate whether there is an abnormality in the earth leakage breaker 100 . That is, when the leakage current for testing is generated in the bypass-on state of the leakage current breaker 100, the measurement waveform of the leakage current may be displayed.

The communication unit 230 may transmit/receive signals to and from the communication unit 170 of the self-diagnosis earth leakage breaker 100 .

In addition, the portable terminal 300 controls the earth leakage breaker 100 in conjunction with the self-diagnosis earth leakage breaker 100 through a short-distance or long-distance wireless communication method, and monitors the state information and operation test results of the earth leakage breaker 100. can

In this case, at least one of short-range wireless communication such as RF communication, Bluetooth, Wi-Fi, and ZigBee, and long-distance wireless communication such as LTE and 5G may be used as the wireless communication method.

That is, the portable terminal 300 may include a self-diagnosis program or a self-diagnosis application that can receive test information shared in real time from the earth leakage breaker 100 and display the received test information on a program screen to confirm. can

In addition, the user can control the bypass unit 110 , the leakage current generator 120 , and the earth leakage detection unit 130 of the self-diagnosis earth leakage breaker 100 by using the portable terminal 300 . That is, the operation test of the earth leakage breaker 100 may be performed using the portable terminal 300 and the presence or absence of an abnormality of the earth leakage breaker 100 may be monitored.

As described above, the ICT convergence type self-diagnostic earth leakage breaker 100 according to an embodiment of the present invention is equipped with a function capable of self-diagnostic testing, so that the fault of the earth leakage breaker 100 periodically through a schedule for automatically performing self-diagnosis and whether it is defective.

3 is a flowchart illustrating a method of using the ICT convergence self-diagnosis earth leakage breaker 100 according to an embodiment of the present invention. The method of using the ICT convergence type self-diagnostic earth leakage breaker 100 according to an embodiment of the present invention is to self-diagnose a self-diagnosis control signal for performing self-diagnosis of the earth leakage breaker using the main server 200 or the portable terminal 300 . In the step of transmitting (S10) to the diagnostic earth leakage breaker 100, power supplied to the electric load is not cut off and power is supplied to the electric load through the bypass path to perform the operation test of the earth leakage breaker 100. The bypass unit 110 may include a step (S20) of turning on (On).

In addition, the step (S30) of the leakage current generating unit 120 generating a leakage current for testing, the earth leakage detecting unit 130 detecting the leakage current, and selectively according to the detected leakage current of the leakage current breaker 100 of the main circuit It may include performing a trip operation (S40).

In addition, the analysis unit 140 analyzes the trip operation of the earth leakage breaker 100 based on the test leakage current to determine whether the trip of the earth leakage breaker 100 succeeds (S50), and the power supplied to the electric load is It may include a step (S60) of returning the earth leakage breaker 100 to a normal state so that it can be supplied through a normal path (S60) and a step (S70) of blocking the bypass path by turning off the bypass unit 110 (S70). have.

At this time, if the trip operation is not normally performed as a result of the determination in step S50 of determining whether the trip is successful, it can be confirmed that there is an abnormality in the earth leakage breaker 100 itself.

In addition, after the step (S50) of determining whether the trip of the earth leakage breaker 100 is successful, the analysis unit 140 or the main server 200 notifies the user of the abnormality of the earth leakage breaker 100 (S51) further may include

As described above, the ICT convergence type self-diagnostic earth leakage breaker 100 according to the present invention can perform a regular self-diagnosis function through a schedule according to the unique function of the earth leakage breaker. In addition, a self-diagnosis function is performed through a simple operation using the main server 200 or the portable terminal 300 to generate an earth leakage situation identical to that of the real one, thereby diagnosing whether a mechanical or electrical failure of the earth leakage breaker 100 has occurred. .

In addition, it is possible to prevent an electrical safety accident by notifying the user of whether a fault has occurred in the earth leakage breaker 100 so that it can be replaced quickly. In addition, the ICT convergence type self-diagnostic earth leakage breaker 100 according to the present invention can reduce the burden of human and physical inspection resources for regular inspection of the earth leakage breaker.

In addition, since the operation test of the earth leakage breaker 100 can be performed without stopping the electric load in use by preventing a power outage of the entire household during the self-diagnosis test, civil complaints and accidents due to regular inspection can be prevented in advance.

Although the preferred embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and can be easily changed by a person skilled in the art from the embodiment of the present invention to equivalent Including all changes to the extent recognized as such.

100: self-diagnosis earth leakage breaker 110: bypass unit
120: leakage current generation unit 130: leakage current detection unit
140: analysis unit 150: storage unit
160: notification unit 170: communication unit
180: schedule unit 200: main server
210: control unit 220: display unit
230: communication unit 300: portable terminal

Claims (6)

In the self-diagnostic earth leakage breaker for performing an operation test of the earth leakage breaker in conjunction with a main server or a portable terminal,
a bypass unit operated under the control of the main server or the portable terminal to supply power to the electric load through the bypass path so that power supplied to the electric load is not cut off and an operation test of the earth leakage breaker can be performed;
a leakage current generating unit operated under the control of the main server or the portable terminal to generate a test leakage current for performing an operation test of the earth leakage breaker;
an earth leakage detection unit that detects a leakage current and selectively performs a trip operation of the earth leakage breaker main circuit according to the detected leakage current;
an analysis unit which analyzes the trip operation of the main circuit of the earth leakage breaker based on the leakage current detected by the earth leakage detection unit and determines whether the trip succeeds; and
By controlling the bypass unit according to a preset regular inspection schedule, the bypass unit is turned on so that the power supplied to the electric load can be supplied to the electric load through the bypass path, and the leakage current generator is controlled to control leakage for testing. It generates a current and notifies the user of the presence or absence of an earth leakage breaker using the notification unit based on the analysis result of the analysis unit. and a schedule unit that restores the self-diagnostic earth leakage breaker to a normal state and blocks the bypass path by controlling the bypass unit.
The main server includes a display unit that displays the measurement waveform of the leakage current when the leakage current for testing is generated in the bypass-on state of the earth leakage breaker to indicate whether the earth leakage breaker is abnormal,
The main server or portable terminal returns the self-diagnosis earth leakage breaker to a normal state by controlling the earth leakage detection unit so that the power supplied to the electric load can be supplied again through a normal path after the operation test of the earth leakage breaker is completed,
The bypass unit operates according to a preset regular inspection schedule under the control of the main server or the portable terminal, and after the operation test of the earth leakage breaker is completed, the bypass path so that the power supplied to the electric load can be supplied again through the normal path. ICT convergence type self-diagnostic earth leakage breaker, characterized in that it cuts off the
delete delete The method of claim 1,
ICT convergence type self-diagnostic earth leakage breaker, characterized in that the leakage current generator generates a leakage current of 15 mA or less and a leakage current of 30 mA or more to perform an operation test of the earth leakage breaker.
In the method of using a self-diagnostic earth leakage breaker for performing an operation test of the earth leakage breaker by using a self-diagnosing earth leakage breaker interlocking with a main server or a portable terminal,
transmitting a self-diagnosis control signal for performing self-diagnosis of the earth leakage breaker to the self-diagnosing earth leakage breaker using the main server or the portable terminal (S10);
A step of turning on the bypass unit so that power supplied to the electric load is not cut off and power can be supplied to the electric load through the bypass path to perform an operation test of the earth leakage breaker (S20);
Leakage current generator generating a test leakage current (S30);
a step (S40) of detecting the leakage current by the earth leakage detection unit and selectively performing a trip operation of the earth leakage breaker main circuit according to the detected leakage current;
analyzing, by an analysis unit, the trip operation of the earth leakage breaker based on the leakage current for the test, and determining whether the trip of the earth leakage breaker is successful (S50);
returning the earth leakage breaker to a normal state so that the power supplied to the electric load can be supplied through a normal path (S60); and
and blocking the bypass path by turning off the bypass unit (S70),
The schedule unit operates under the control of the main server or the portable terminal to control the bypass unit according to a preset regular inspection schedule to turn on the bypass unit so that power supplied to the electric load can be supplied to the electric load through the bypass path. (On), control the leakage current generator to generate a test leakage current, and use the notification unit to notify the user of the presence or absence of an earth leakage breaker based on the analysis result of the analysis unit. Steps (S20) to (S70) are performed to perform a self-diagnostic test of the self-diagnostic earth leakage breaker, and the main server generates a test leakage current in the bypass-on state of the earth leakage breaker, the measurement waveform of the leakage current is displayed to indicate the presence or absence of a fault in the earth leakage breaker with the display unit,
After the main server or portable terminal completes the operation test of the earth leakage breaker, the self-diagnostic earth leakage breaker returns to a normal state by controlling the earth leakage detection unit so that the power supplied to the electric load can be supplied again through a normal path,
After the bypass unit is operated according to a preset regular inspection schedule under the control of the main server or the portable terminal and the operation test of the earth leakage breaker is completed, the bypass path so that the power supplied to the electric load can be supplied again through the normal path A method of using an ICT convergence type self-diagnostic earth leakage breaker, characterized in that it blocks the.
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