KR20190000462U - An Apparatus For Automatically Notifying The Restoration Of A System Power Based On Internet of Things - Google Patents

Abstract

The automatic power supply restoration automatic notification apparatus of the present invention is a system power supply including a power transmission apparatus that supplies external power to a power user through a load switch, a meter transformer, a vacuum breaker, and an electricity receiving transformer, An external electrostatic sensor for measuring current; An internal electrostatic sensor for measuring a current of an output node of the receiving transformer; An electrostatic diagnosing unit for diagnosing and monitoring whether the electrostatic discharge is recovered or not based on the measured value of the external electrostatic sensor and the measured value of the internal electrostatic sensor, and a controller for comparing the measured value of the external electrostatic sensor with a first electrostatic reference value, And an event log generation unit for generating an event log based on the monitoring result of the power failure diagnosis unit and the output of the power failure position detection unit ; A memory for storing the event log; And an IoT communication unit, wherein the IoT communication unit is connected to the Internet through a wireless Internet, transmits the event log to a power supply monitoring platform server through the Internet, and causes the power supply monitoring platform server to transmit the event log to a power management terminal It is possible to notify whether the system power supply is recovered after a power failure.

Description

[0001] The present invention relates to an automatic notification apparatus for a system power recovery based on IoT,

The present invention relates to a system power supply restoration automatic notification device that notifies a manager in real time to restore a relay when a system power is restored after a relay is shut down due to an accident such as an electric power failure in a power substation of an apartment or the like.

In the case of transmission of power generated by a power plant to a real person such as a factory or a general household, the power is transmitted through a transformer and a relay through a multi-stage power drop. Therefore, We are taking steps to connect power power in order of big power.

In particular, electric power consumers such as factories and apartments are equipped with hydropower facilities to safely supply electric power. This water substation protects the transformer from high-voltage electricity supplied by the utility through the protective relay. The switch of the protection relay is turned off when an accident such as power failure occurs in the power substation facility and the power substation administrator must manually turn on the protection relay switch when power is restored after power failure. In this case, if the power substation administrator turns on the switch of the protection relay late at the time of power resupply after power failure, complaints may be generated from the residents using the power and the problem of compensation for damages due to delay may occur. The substation manager should be able to react immediately after power outage when power is restored.

When it is intended to implement a method of automatically turning on the switch of such a protection relay, in order to drive the relay, it is necessary to use a power of a capacity larger than the power supplied, and since a multi-stage connection switch must be used, It was not possible to use an automated protection relay in reality. Therefore, in the power substation facility, the protection relay must be switched on manually while the manager for power handling always resides.

That is, when the power is re-applied after the power failure, the manager has to wait until the power is restored because the power supply is not informed to the relay manager of the transformer.

In addition, a power outage can occur for a variety of reasons, and it is unclear whether the damage caused by the occurrence of such a power outage lies with the power supplier or the operator who operates the power substation facility, there was.

The main object of the present invention is to solve the above problems by providing a real-time notification to the electric power handling manager when the power of the system is restored, thereby eliminating inconveniences of electric power life and various complaints of residents And to provide an automatic notification device when restoring the system power.

Another object of the present invention is to monitor the power supply side of the power supply side node and the power supply state of the user side node and transmit the monitoring result to the power monitoring platform server through the Internet of Things Network To prevent disputes arising from a dispute in case of an accident in advance.

Another object of the present invention is to provide a system in which a power monitoring platform server transmits an instantaneous transmission to a power plant manager in case of occurrence of an event such as power failure / restoration, so that an administrator can quickly recognize the recovery of system power, And to provide an automatic notification device capable of accurately communicating the power recovery state even when it is separated from the facility.

In order to achieve the above-mentioned object, the present invention provides a system power supply including a power transformer for supplying external power to a power user via a load switch, a transformer for a meter, a vacuum breaker, An external electrostatic sensor for measuring a current at an output node of the instrumental transformer; An internal electrostatic sensor for measuring a current of an output node of the receiving transformer; An electrostatic diagnosing unit for diagnosing and monitoring whether the electrostatic discharge is recovered or not based on the measured value of the external electrostatic sensor and the measured value of the internal electrostatic sensor, and a controller for comparing the measured value of the external electrostatic sensor with a first electrostatic reference value, And an event log generation unit for generating an event log based on the monitoring result of the power failure diagnosis unit and the output of the power failure position detection unit ; A memory for storing the event log; A power supply unit for supplying power to the automatic notification device through a rechargeable battery when a power failure occurs; And an IoT communication unit, wherein the IoT communication unit is connected to the Internet through a wireless Internet, transmits the event log to a power supply monitoring platform server through the Internet, and causes the power supply monitoring platform server to transmit the event log to a power management terminal And notify whether the system power supply is recovered after a power failure.

In this case, the IoT communication unit may be configured to communicate with the IoT gateway through one of the wireless networks including the Wi-SUN, the LoRa, and the NB-IoT depending on the wireless network state.

Also, the IoT communication unit may include a selection switch for selecting any one of Wi-SUN, LoRa, and NB-IoT.

When the power recovery is not completed after the resumption of power supply, the controller may be configured to retransmit the power supply resumption event to the power management terminal through the IoT communication unit until power recovery is completed have.

As described above, in the present invention, when an unexpected power failure occurs in a residential area such as an apartment or the like, it is automatically disconnected from the relay of the transformer stage, and after the power is turned on, There is an effect that the user can quickly cope with the problem.

In addition, when the system power is restored, it is possible to promptly notify the personal mobile phone or the PC screen linked to the object internet network, and the power recovery state can be accurately transmitted to the manager even when the manager is absent.

Therefore, when the power is restored, it can be notified to the electric power handling manager in real time, and it is possible to solve the inconvenience of electric power life and various complaints caused by the residents of apartment buildings such as apartments, thereby preventing the economic loss caused by the situation .

Also, according to the present invention, all the event information according to the system power restoration automatic notification can be stored as a history in the memory unit and the power monitoring platform system, so that the possession of a dispute in case of an accident can be solved more smoothly.

1 is a block diagram illustrating a water power transmission system according to an embodiment of the present invention.
2 is a block diagram of an automatic notification apparatus according to an embodiment of the present invention.
3 is a flow chart showing the operation of the automatic notification apparatus when restoring the system power of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, Is provided to fully inform the user. In addition, for convenience of explanation, components may be exaggerated or reduced in size.

However, it should be understood that the following embodiments are provided so that those skilled in the art can understand the present invention without departing from the scope and spirit of the present invention. It is not.

Hereinafter, a water distribution system according to an embodiment of the present invention will be described with reference to FIG.

The power transformer system 100 according to the present invention includes a load breaker switch (LBS) 140, a metering outfit 150, a vacuum circuit breaker (VCB) 160, (TTB) 130, a protection relay 170, an electricity receiving transformer 180, a watt-hour meter 120, and an automatic notification device 110. [

The external power 400 is provided to a power user 700 of an apartment, a factory or the like via a load switch (LBS) 140, a meter transformer (MOF) 150, a vacuum breaker (VCB) 160 and an electricity receiving transformer 180 do. At this time, the protection relay 170 may be installed on the front side or the rear side of the receiving transformer 180, and may be cut off when a power failure or an overvoltage is input to protect the power receiving transformer 180. Here, the front side (or the primary side) means a node connected to the external power 400 in a direction close to the external power 400 when the external power 400 is transmitted to the power user 700 through various stages, Refers to a node connected in a direction close to the power user 700. [

More specifically, the load break switch (LBS) 140 is installed at the first stage of the entire water inside and outside the water distribution facility in the power system, and protects the branch, the division and the power system of the line through the opening and closing of the no-

The MOF 150 is a device in which a current transformer and a voltage transformer are connected together in an enclosure and converts the voltage at the main input side through which high voltage electricity flows into a small value to measure the total amount of use It can be a device. The MOF 150 converts the high voltage power into a low voltage power that can be measured and provides a measurement voltage of, for example, 110V. The test terminal block (TTB, 130) is a test terminal block for installing a watt-hour meter for measuring power.

The vacuum interrupter (VCB 160) has a vacuum of internal insulating material, and absorbs the arc generated in the opening and closing of the vacuum interrupter. Therefore, it is used as a high-voltage circuit breaker on the primary side of the transformer in the cubicle of the substation. This is to absorb the soho arc at the high voltage and open / close of the switch to preserve the performance of the switch. The vacuum breaker (VCB 160) is connected with the protection relay 170 to quickly detect and block overcurrent, overvoltage, undervoltage, phase-to-phase short circuit, ground fault and the like.

In this configuration, the automatic notification device 110 according to an embodiment of the present invention monitors the current or voltage flowing to the output node 115 on the power supply side connected to the low voltage output of the instrumentation transformer (MOF) 150 . At the same time, the current or voltage of the power consumer side node 117 of the secondary side of the power receiving transformer can be monitored.

The automatic notification device 110 may provide the monitoring result to the power supply monitoring platform server 500 through the wireless Internet network 300. [ The wireless Internet object network 300 may include, for example, a LoRa network, a WiSUN network, and an NB-IoT network.

The power supply monitoring platform server 500 may automatically transmit the monitoring result to the power management terminal 600 when an event including power failure and power failure recovery is generated. In this case, for example, the wireless terminal 610 can notify by using a Push Notification Service of a mobile application such as APNS (Apple Push Notification Service) GCM (Google Cloud Message) It is also possible to automatically notify a wired terminal such as a PC using a notification service. Therefore, real-time and immediate notification is possible. In addition, the power management terminal 600 may be a mobile terminal of a water distribution facility manager, a tablet PC, a PC, or the like, which is a user terminal that can be viewed by a water distribution facility manager.

Meanwhile, the power distribution facility manager can view the event log stored in the power monitoring platform server through the power management terminal 600. In the past, there was no interface like a power supply monitoring platform server, so I could not see the event logs stored in the event log of the power monitoring platform server. Also, the power management terminal 600 may view the event log in the memory of the automatic notification device through the power monitoring platform server. In this case, when there is a request from the power management terminal 600, the automatic notification device can transmit the event log of the memory through the communication unit.

Hereinafter, a detailed configuration of the automatic notification device 110, which is a feature of the present invention, will be described with reference to FIG.

The automatic notification device 110 according to one embodiment of the present invention includes a control unit 210, an IoT communication unit 220, a power source unit 230, a memory 240, an external electrostatic sensor 250, .

The control unit 210 includes an electrostatic diagnosis unit 213, an electrostatic position detection unit 215 and an event log generation unit 217. The control unit 210 receives power failure information from an external electrostatic sensor 250 and an internal electrostatic sensor 260 (External / internal power failure), generates an event log, and provides the generated event log to the IoT communication unit 220.

Here, the distinction between external and internal power failure is caused by a power failure of the distribution line due to a supply failure of external power (400, for example, KEPCO wiring line) or a failure of the customer's own incoming wire 410 and the instrument transformer (MOF, 150) Includes blackout. The external electrostatic sensor 250 of the control unit 210 is a sensor for monitoring the output node of the MOF 150 and detects the current or voltage of the output node 115 of the MOF 150 . Preferably, the external electrostatic sensor 250 may be a current sensor that measures the current at the output node 115 of the instrumental transformer (MOF) 150.

The power supply unit 230 includes a rechargeable battery. In general, the power supply unit 230 supplies power for charging and operating the system through a constant power source, and supplies power for operating the system through a rechargeable battery during a power failure.

On the other hand, the internal electrostatic sensor 260 is a sensor for monitoring the secondary node of the receiving transformer 180, and measures the current or voltage of the secondary node 117 of the receiving transformer 180. And may be a current sensor that preferably measures the current of the secondary node 117 of the receiving transformer 180.

The power failure diagnosis unit 213 determines that the power failure occurs when any one of the measured values from the internal electrostatic sensor 260 and the external electrostatic sensor 250 is equal to or lower than the power failure reference value, Transmits a power failure event.

On the other hand, the electrostatic-position detecting unit 215 judges whether the internal / external electric power is on the basis of the measured values from the internal electrostatic sensor 260 and the external electrostatic sensor 250. For example, when the value of the external electrostatic sensor 250 is equal to or less than the first reference electrostatic potential value, the external power failure flag is transmitted to the event log generator 217. When the value of the internal electrostatic sensor 260 is equal to or less than the second reference electrostatic potential value , And transmits the internal power failure flag to the event log generator 217 when the measured value of the external power failure sensor 250 is equal to or greater than the first reference constant current value.

The event log generation unit 217 transmits the event log to the memory 240 and the IoT communication unit 220 based on the flag values from the power failure diagnosis unit 213 and the power failure position detection unit 215. [ At this time, the event log is transmitted only to the memory 240, and the IoT communication unit 220 may transmit the event log through the wireless network 113 based on the event log written in the memory.

The IoT communication unit 220 may be a plurality of wireless modems to which various broadband and short range communication technologies (LTE, ZigBee, Bluetooth, Wi-Fi, Wi-SUN, LoRa, NB-IoT, 110 may transmit the event log to the power supply monitoring platform 500 via the object Internet 300 through the IoT communication unit 225. [ The event log transmitted from the IoT communication unit 220 is connected to the object Internet 300 through the IoT gateway 330.

In this case, the control unit 210 can access the IoT gateway 330 using the network having the highest connection strength among the various wireless communication technologies or the wireless network selected by the user, depending on the situation of the wireless network. In addition, the IoT communication unit 220 according to the present invention may include a selection switch that allows a user to select any one of communication networks including Wi-SUN, LoRa, and NB-IoT.

The memory 240 may store the event log in the automatic notification device 110. Preferably, only event logs for a certain period of time can be stored, event logs having a predetermined period of time can be deleted, and new event logs can be stored.

Hereinafter, the operation of the automatic notification device 110 will be described in detail with reference to FIG.

When the automatic notification device 110 starts to operate for the first time, the occurrence of a power failure is confirmed (S310)

If a power failure has occurred, the power failure position is confirmed and an event log is generated (S320). In this case, if no power failure occurs, the occurrence of a power failure is continuously monitored.

After a power failure occurs and an event log is generated, the event log is stored in the memory and an event is transmitted to the IOT server (S340). In addition, the power management terminal is notified whether the power supply is resumed after the power failure (S350)

The automatic notification device 110 continuously checks whether or not the power recovery is completed (S360). If the power recovery is not completed, the automatic notification device 110 notifies the power management terminal through the IoT server periodically that the power supply has been resumed.

In this case, the power management terminal notifies the power management terminal of the power failure (S360)

If the power manager manually turns on the switch of the protection relay to restore the power failure, the power manager returns to the power failure before monitoring the power failure.

As described above, in the present invention, when an unexpected power failure occurs in a residential area such as an apartment or the like, it is automatically disconnected from the relay of the transformer stage, and after the power is turned on, There is an effect that the user can quickly cope with the problem.

In addition, when the system power is restored, it is possible to promptly notify the personal mobile phone or the PC screen linked to the object internet network, and the power recovery state can be accurately transmitted to the manager even when the manager is absent.

Therefore, when the power is restored, it can be notified to the electric power handling manager in real time, and it is possible to solve the inconvenience of electric power life and various complaints caused by the residents of apartment buildings such as apartments, thereby preventing the economic loss caused by the situation .

Also, according to the present invention, all the event information according to the system power restoration automatic notification can be stored as a history in the memory unit and the power monitoring platform system, so that the possession of a dispute in case of an accident can be solved more smoothly.

100: Water Transmission System
110: Automatic notification device
120: Watt hour meter
130: Terminal Test Block (TTB)
140: Load Breaker Switch (LBS)
150: Metering Out Fit (MOF)
160: Vacuum Circuit Breaker (VCB)
170: Protection Relay
180: power transformer

Claims (4)

In a grid power source including a power transformer that supplies external power to a power user via a load switch, a meter transformer, a vacuum breaker, and a power transformer,
An external electrostatic sensor for measuring a current at an output node of the instrumental transformer;
An internal electrostatic sensor for measuring a current of an output node of the receiving transformer;
An electrostatic diagnosing unit for diagnosing and monitoring whether the electrostatic discharge is recovered or not based on the measured value of the external electrostatic sensor and the measured value of the internal electrostatic sensor, and a controller for comparing the measured value of the external electrostatic sensor with a first electrostatic reference value, And an event log generation unit for generating an event log based on the monitoring result of the power failure diagnosis unit and the output of the power failure position detection unit ;
A memory for storing the event log;
A power supply unit for supplying power to the automatic notification device through a rechargeable battery when a power failure occurs; And
IoT communication unit,
Wherein the IoT communication unit is connected to the Internet through a wireless Internet, transmits the event log to the power supply monitoring platform server through the Internet, and causes the power supply monitoring platform server to transmit the event log to the power management terminal, ≪ / RTI >
System power recovery automatic notification device.
The method according to claim 1,
Wherein the IoT communication unit is configured to communicate with an IoT gateway through any one of wireless networks including Wi-SUN, LoRa, and NB-IoT according to a wireless network state,
System power recovery automatic notification device.
3. The method of claim 2,
Wherein the IoT communication unit includes a selection switch for selecting any one of Wi-SUN, LoRa, and NB-IoT.
System power recovery automatic notification device.
The method according to claim 1,
When the power recovery is not completed after the resumption of power supply, the control unit is configured to cause the power monitoring platform server to retransmit the power supply resumption event to the power management terminal through the IoT communication unit until power recovery is completed
System power recovery automatic notification device.

Images