KR102391960B1 - Power monitoring system and method thereof - Google Patents

Abstract

The present invention relates to a power monitoring system and a method thereof. The power monitoring system of the present invention includes a power monitoring device inside an enclosure which supplies power to a load, and monitors a power supply state of the enclosure in real time through the device. The power monitoring device determines the cause of power cut off when power is cut off, generates power monitoring information according to the power cut off, and transmits the power monitoring information to an integrated management server. The power monitoring device determines the power cut off by an earth leakage breaker of a watt-hour meter or an earth leakage breaker of the enclosure. When power supplied from the watt-hour meter to the enclosure is cut off, the power monitoring device supplies power in a communicative manner using a battery, and generates and transmits the power monitoring information. The present invention can efficiently manage maintenance personnel of a load management company which operates and manages loads by clarifying the location of responsibility according to the cause of the power cut off and classifying the cause of failure, and can prevent unnecessary dispatch of the maintenance personnel.

Description

POWER MONITORING SYSTEM AND METHOD THEREOF

The present invention relates to a power monitoring system, and more specifically, in order to monitor in real time whether power is cut off due to an unstable watt-hour meter of a power supply company, a power monitoring device is provided in a housing that supplies power to various loads, Through this, when the power inside the enclosure is cut off, a load management company that determines whether the cause of power cut is a problem with the load or the enclosure itself, or a problem with the power supply from the watt-hour meter, and operates and manages the load in case of a problem with the load or the enclosure It relates to a power monitoring system and method for notifying a power supply company and notifying the power supply company in case of a power supply problem to prevent unnecessary dispatch of maintenance personnel of the load management company.

In general, a load that uses electricity, for example, electric devices such as refrigerators, freezers, aquariums, street lights, security lights, and traffic lights, or electronic devices such as computers, communication devices, and CCTV cameras, require stable power supply. Accordingly, in order to stably supply power from a power source to a load, various types of power protection devices are provided. The power protection device includes, for example, an earth leakage circuit breaker, a surge protector, a multi-outlet, and the like, and is generally installed inside a housing for power supply. In addition, a power monitoring device provided on a power supply path to monitor a stable power supply state in real time or periodically has been variously applied.

For example, CCTV cameras are installed in various places where remote monitoring or unmanned monitoring is required for the prevention of incidents, accidents, crimes, natural disasters, and the like. Because CCTV cameras are used in real-time to respond to emergency situations at the scene of an accident or as post-evidence to determine the cause of an accident, continuous operation is required.

Since CCTV cameras are devices that need to be operated for 24 hours according to the characteristics of the devices, due to the characteristics of operating for a long time, malfunction symptoms occur due to network failures and abnormal operations. The CCTV camera is directly dispatched to the site to inspect the CCTV camera.

Therefore, in the event of a breakdown or failure of a CCTV camera, it is necessary to immediately go to the scene to repair or take action.

In addition, CCTV cameras are often installed outdoors, and various parts or devices are prone to damage or problems due to the external environment. The operation status of these CCTV cameras can be too extensive for maintenance personnel to inspect on-site individually, and even if periodic maintenance is performed, unnecessary on-site inspection becomes unnecessary depending on the cause of the problem.

On the other hand, even if the failure of the CCTV camera is confirmed, if the specific cause of the failure is not known, the manager of the CCTV camera must go to the site where the CCTV camera is installed and check the cause of the failure, so a lot of time is required for maintenance or repair.

Indonesia is a country that accounts for about 40% of Southeast Asia in terms of population and economy, and continues to expand and install CCTV cameras in response to traffic accidents, crimes, and terrorism. However, Indonesia's power infrastructure is very weak and lagging far behind ASEAN countries.

Recently, Korea is actively advancing into various fields such as the Indonesian construction market, electric power and infrastructure improvement projects. For example, the Indonesian National Police Agency's first ATMS (Area Traffic Monitoring System) project has been awarded and completed with POSCO, and maintenance is currently underway for the above project. A breaker trip problem often occurs. Accordingly, despite the fact that the above project is not a problem of maintenance work, the maintenance team is dispatched to solve the problem, resulting in inefficient management.

As another example, various loads, such as freezers, refrigerators, oxygen supplies, pressurized water supply devices, etc. installed in buildings or shopping malls such as households, sushi restaurants, frozen warehouses, and aquariums, must be supplied with power in real time, so stable power supply is essential. However, in the case of unstable power infrastructure, the power is frequently cut off suddenly. Therefore, it is necessary to develop a system that monitors the power supply status in real time to clearly identify the cause of power cut off when power is cut off so that prompt action is taken.

Korean Patent Publication No. 10-2146964 (published on August 21, 2020) Korean Patent Publication No. 10-1926815 (published on December 07, 2018) Korean Patent Publication No. 10-1572486 (published on November 27, 2015) Korean Patent Publication No. 10-1698063 (published on January 19, 2017)

An object of the present invention is to provide a power monitoring system and method for accurately identifying the cause of power cut by monitoring in real time whether power is cut off due to an unstable power meter of a power supply company.

Another object of the present invention is to provide a power monitoring system and method that enable efficient maintenance management by accurately identifying the cause of power cut off of the enclosure when the power of the enclosure that supplies power to various loads is cut off.

Another object of the present invention is to provide a power monitoring system and method for monitoring whether the power of the enclosure is cut off in real time to enable collaboration between the power supply company and the company that manages the load and the enclosure.

Another object of the present invention is to monitor the power supply state of the CCTV enclosure that supplies power to the CCTV camera in real time by applying it to the CCTV system, and to process the maintenance personnel of the CCTV system to be dispatched only when the power is cut off due to the failure of the CCTV system. It is to provide a power monitoring system and method for the same.

In order to achieve the above objects, the power monitoring system of the present invention includes a power monitoring device in a housing that supplies power to various loads, and through this, integrated control to monitor the power supply status in real time to determine the exact cause of power cutoff One feature is that it transmits power monitoring information for power cut-off to the center. The power monitoring system of the present invention as described above enables efficient management by determining whether power is generated on the load, the enclosure itself, and the power supply path when power is cut off.

The power monitoring system of the present invention according to this feature includes: a housing connected to a communication network and provided for communication, receiving power through a watt-hour meter and supplying power to a load; It is installed in the housing and monitors in real time whether the power by the watt-hour meter is cut off. When the power supply is cut off from the watt-hour meter, the housing communicatively supplies power using a battery, and the position of the watt-hour meter where the power is cut off and a power monitoring device for generating and transmitting power monitoring information including at least a cut-off time through a communication network; And it is connected to the housing through a communication network, receives power monitoring information from the power monitoring device to determine the cause of power cutoff, and if the power is cut off by the power meter, integrated management to notify the power supply company that manages the power meter Includes server.

In this feature, the enclosure is provided with a CCTV enclosure that supplies power to at least one CCTV camera; The CCTV enclosure is connected to a communication network and transmits the image obtained from the CCTV camera to the integrated management server, and when the power supply from the watt-hour meter is cut off, receives power through the battery and provides power monitoring information to the integrated management server a communication unit that transmits; an earth leakage breaker for supplying the power supplied from the watt-hour meter to the CCTV camera and cutting off the power supply when an internal power accident occurs; the power monitoring device provided between the watt-hour meter and the earth leakage breaker and connected in parallel with the earth leakage breaker for the watt-hour meter and monitoring in real time whether power is cut off to either one of the watt-hour meter and the earth leakage breaker; and a control unit for controlling the communication unit.

In this feature, the housing is provided as a power supply housing that supplies power to general-purpose electric and electronic devices that receive power from the watt-hour meter and process their own functions; The power box may include: a communication unit connected to a communication network to receive power through the battery and transmit power monitoring information to the integrated management server when power supply is cut off from the power meter; an earth leakage circuit breaker that supplies power supplied from the watt-hour meter to the general-purpose electric and electronic devices, and blocks the power supply when an internal power accident occurs; the power monitoring device provided between the watt-hour meter and the earth leakage breaker and connected in parallel with the earth leakage breaker for the watt-hour meter and monitoring in real time whether power is cut off to either one of the watt-hour meter and the earth leakage breaker; and a control unit for controlling the communication unit.

In this feature, the power monitoring device, when AC power is supplied from the watt-hour meter, a filter for removing noise from the AC power and outputting it; a bridge rectifier for rectifying AC power from which noise has been removed from the filter to output a pulsating DC power; a smoothing circuit for smoothing the DC power of the pulsating current output from the bridge rectifier to output the DC power; an inverter converting the DC power output from the smoothing circuit into commercial AC power suitable for the CCTV enclosure or the power enclosure and outputting it; As a rechargeable secondary battery, it is provided inside the CCTV enclosure or the power enclosure, or inside the power monitoring device, and when power is cut off from the watt-hour meter, the CCTV enclosure or the power enclosure can communicate with the communication unit the battery for supplying power for a predetermined time; a battery charger for charging the battery by receiving AC power from which noise has been removed from the filter; a converter receiving DC power from the battery and outputting a DC power of a level suitable for the CCTV enclosure or the power enclosure; a communication module for transmitting power monitoring information to the communication unit; and detecting whether the power supplied to the filter from the watt-hour meter is cut off, and when the power is cut off, controls the battery to supply power to the communication unit, and detects the operation of the battery through the converter. and a controller for controlling the communication module to generate power monitoring information according to power cut off and transmit it to the integrated management server through the communication unit.

In this feature, the power monitoring device, when the power of the CCTV enclosure or the power enclosure is cut off by the earth leakage breaker, further generates power monitoring information according to the power cut off of the CCTV enclosure or the power enclosure, and the integration sent to the management server.

In this feature, when the integrated management server receives power monitoring information from the power monitoring device and determines that the power of the CCTV enclosure or the power enclosure is cut off, the CCTV camera and the CCTV enclosure or the general-purpose electricity It processes to notify the power cut-off condition to the manager terminal of a maintenance person who manages the device and the electronic devices and the power supply box.

As described above, the power monitoring system of the present invention monitors the power supply state in the enclosure in real time using a power monitoring device provided inside the enclosure to determine the cause of power cut off when power is cut off and monitor power according to power cut off By generating and transmitting information, it is possible to accurately determine whether the cause of power cut is a problem with the load or the enclosure, or a problem with the power supply by the watt-hour meter.

In addition, the power monitoring system of the present invention informs the load management company that operates and manages the load and the enclosure when the cause of the power cut is a problem with the enclosure such as load failure, power cutoff and network failure, and in the case of a power supply problem, the power supply company By notifying, it is possible to clarify the location of responsibility according to the cause of power cut off, to classify the cause of the failure, so that the maintenance personnel of the management company can be efficiently managed, and unnecessary dispatch of the maintenance personnel can be prevented.

In addition, the power monitoring system of the present invention is applied to a CCTV system, such as Indonesia, where the power supply is unstable due to frequent lightning due to geographical features, and the cause of failure in the CCTV system caused by the inefficient supply of watt-hour meters. By developing and selling products that judge accurately, competitiveness can be improved in domestic and overseas markets, and it is expected to have a great ripple effect, especially in Indonesia's unstable electric power market.

1 is a block diagram showing a network configuration of a power monitoring system according to the present invention;
2 is a block diagram showing the configuration of a CCTV enclosure having a power monitoring device applied to the CCTV system according to the first embodiment of the present invention;
3 is a block diagram showing the configuration of a power supply enclosure having a power monitoring device applied to a general-purpose power supply system according to a second embodiment of the present invention;
Figure 4 is a block diagram showing the configuration of the power monitoring device shown in Figures 2 and 3;
Figure 5 is a block diagram showing the configuration of the integrated management server shown in Figure 1, and
6 is a flowchart illustrating a processing procedure when the power is cut off by the watt-hour meter of the power monitoring system according to the present invention.

Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited by the embodiments described below. This example is provided to more completely explain the present invention to those of ordinary skill in the art. Therefore, the shapes of the components in the drawings are exaggerated in order to emphasize a clearer description.

The power monitoring system according to the present invention includes a power monitoring device inside the enclosure installed on the power supply path, and monitors the power supply state of the enclosure that supplies power to the load through this in real time, and when power is cut off, the cause of power cut off Process to determine if this is a power supply problem. The power monitoring system of the present invention notifies the power cut-off state to a company (hereinafter referred to as a load management company) that operates and manages the load and the enclosure in response to the cause of power cut off or a power supply company that supplies power to the enclosure.

Therefore, the power monitoring system of the present invention can clearly determine the cause of the power cut to prevent unnecessary dispatch of maintenance personnel of the load management company, and to clarify the location of responsibility according to the cause of the power cut off.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying FIGS. 1 to 6 .

1 is a block diagram illustrating a network configuration of a power monitoring system according to the present invention.

Referring to FIG. 1, the power monitoring system 2 according to the present invention is generated due to an unstable watt-hour meter 400 of a power supply company that supplies power to the enclosure 100 installed on the power supply path. In order to prevent unnecessary dispatch of maintenance personnel of the load management company when the power is cut off, a power monitoring device 150 is provided inside the enclosure 100 for supplying power to various loads 110, and through this By monitoring the power supply state of the enclosure 100 in real time, when the power is cut off, the cause of the power cut is determined, and power monitoring information according to the power cut is generated and transmitted to the integrated management server 200 .

Therefore, the power monitoring system 2 of the present invention determines whether the cause of the power cut is a problem inside the load 110 or the housing 100 or a problem on the power supply by the watt-hour meter 400, and the failure of the load 110 , In the case of a problem with the load 110 or the power housing 100 due to a failure of the enclosure 100 or network failure, etc., inform the load management company, and in the case of a power supply problem, notify the power supply company, By clarifying the location of responsibility and classifying the causes of failure, it is possible to efficiently manage the maintenance personnel of the load management company, and it is possible to prevent unnecessary dispatch of the maintenance personnel.

To this end, the power monitoring system 2 of the present invention includes a load 110 , a housing 100 , and an integrated management server 200 . In addition, the power monitoring system (2) of the present invention may further include a manager terminal (300). The enclosure 100 receives power through the watt-hour meter 400 . The load 110 and the enclosure 100 are connected through a network 20 such as power supply or a cable for power supply and communication, and the enclosure 100 and the integrated management server 200, the integrated management server 200 and Each of the manager terminals 300 is connected through the communication network 10 .

First, the watt-hour meter 400 supplies power to the housing 100 by receiving power from a power supply source such as, for example, Korea Electric Power Corporation or a national power company in Indonesia. The watt-hour meter 400 is installed on the power supply line for supplying power to the housing 100, and when a power accident occurs due to, for example, short circuit, power outage, power supply instability, etc., a trip ( trip) is provided with an earth leakage breaker 410. In particular, in the case of Indonesia, an earth leakage breaker 410 is installed in the watt-hour meter 400 according to the Electricity Safety Act of a state-owned electric power company, and the power supply is unstable due to frequent lightning strikes due to geographical features. Since 410 is frequently tripped, the power supply to the enclosure 100 is unstable. Accordingly, the power monitoring device 150 is used to determine whether the power meter 400 is faulty.

Specifically, the communication network 10 is provided as, for example, a wired communication network, a wireless communication network, a mobile communication network, a LoRa network, a dedicated communication network for the load 110, etc. can The communication network 10 connects the enclosure 100 and the integrated management server 200, the integrated management server 200 and the manager terminal 300 to enable mutual data communication.

The load 110 is installed or provided in various places, has various uses and functions, and is supplied with power to process a unique function, for example, a computer, a server, a communication device, a refrigerator, a refrigerator, an aquarium, etc. It includes electric devices or electronic devices provided in buildings such as shopping malls, offices, and refrigerated warehouses, or installed in facilities such as street lights, security lights, traffic lights, and CCTV cameras. The load 110 receives power through the housing 100 . The load 110 may include various devices that cannot perform a unique function when the power supply is cut off.

The enclosure 100 controls power supply or power supply and data transmission of at least one load 110 . The housing 100 includes a typical configuration for supplying power, for example, a cabinet-shaped case, a door that opens and closes one side of the case, and a plurality of terminal blocks. The enclosure 100 is provided with identification information for identifying an installation location, that is, a location from the integrated management server 200 . The enclosure 100 includes an earth leakage breaker 140 and a power monitoring device 150 therein. The enclosure 100 receives power through the watt-hour meter 400 and supplies power to the load 110 through the earth leakage breaker 140 . At this time, the watt-hour meter 400 is connected in parallel to the earth leakage breaker 140 and the power monitoring device 150 to supply power to each. When the load 110 is a communication device, such as a computer, a CCTV camera, etc., the load 110 and the integrated management server 200 are connected through the communication network 10 to enable mutual data transmission. can

The earth leakage breaker 140 supplies the power supplied from the watt-hour meter 400 to the load 110 and, in order to prevent a power accident of the enclosure 100, when an internal power failure or component failure occurs, the power supply is automatically cut off do.

The power monitoring device 150 is provided in the form of a module and is installed between the earth leakage breaker 410 of the watt-hour meter 400 and the earth leakage breaker 140 of the housing 100, and the earth leakage breaker 140 for the watt-hour meter 400 and connected in parallel with each other. When the power is cut off, the power monitoring device 150 determines at which location the power cutoff position is generated among the housing 100 and the watt hour meter 400 . That is, when the power is cut off, the power monitoring device 150 determines whether the power is cut off by the earth leakage breaker 410 of the watt-hour meter 400 or the power is cut off by the earth leakage breaker 140 of the enclosure 100 .

The power monitoring device 150 supplies power to the communication unit (130 in FIG. 3) of the housing 100 by using a battery (168 in FIG. 4) when the power supplied from the watt-hour meter 400 to the housing 100 is cut off. to enable communication, generate power monitoring information according to power cut off, and transmit it to the integrated management server 200 through the communication unit 130 . Power monitoring information is, for example, generated as log data, identification information corresponding to the enclosure 100 and the watt-hour meter 400, power cut off location, power cut off time, power re-supply, power re-supply time, etc. This is included. Of course, the power monitoring information may be generated even when the power in the enclosure 100 itself is cut off and transmitted to the integrated management server 200 through the communication unit 130 . Therefore, the power monitoring device 150 allows the integrated management server 200 to determine whether the power cut-off is caused by the load 110 or the enclosure 100 or the watt-hour meter 400 through the power monitoring information.

The integrated management server 200 is provided, for example, in an integrated control center of a load management company that operates and manages a plurality of loads 110 installed in different places or an integrated control center of a power supply company that supplies power to the watt-hour meter 400, and the like, and a communication network It is connected to the plurality of housing 100 through (10). When the power monitoring information is transmitted from the power monitoring device 150 of the enclosure 100, the integrated management server 200 determines the location through the identification information of the enclosure 100, and monitors the power monitoring information to determine the cause of power cut to determine The integrated management server 200 generates a notification to take a failure according to the power cut off to the manager terminal 300 of the load management company according to the determination result of the cause of the power cut off, or generates a notification to take the failure to the power supply company do. Of course, the integrated management server 200 may be installed in each of a load management company or a power supply company to inform each other of a failure due to power cut off so that they can cooperate with each other.

In addition, the manager terminal 300 is a communicable device provided by maintenance personnel of the load management company, for example, a smart phone, a tablet phone, a tablet PC, a personal computer, and the like. The manager terminal 300 receives notification information according to the power cut off from the integrated management server 200 so that the maintenance personnel go to the enclosure 100 at the corresponding location to handle the maintenance.

Therefore, the power monitoring system 2 of the present invention determines the cause of the power cut off when the power is cut off in the enclosure 100 and promptly handles the follow-up measures, and when the cause of the power cut occurs on the power supply, load management It is possible to prevent unnecessary dispatch of the company's maintenance personnel.

Hereinafter, the configuration and function of the enclosure and the power monitoring device according to the embodiments of the present invention will be described in detail.

Figure 2 is a block diagram showing the configuration of the CCTV enclosure having a power monitoring device applied to the CCTV system according to the first embodiment of the present invention.

Referring to Figure 2, the power monitoring system (2a) of the first embodiment is applied to the CCTV system, the power monitoring device 150 is installed in the CCTV enclosure (100a).

Specifically, the power monitoring system 2a of this embodiment includes a plurality of CCTV cameras 110a as the load 110 and the CCTV enclosure 100a as the enclosure 100 .

CCTV enclosure 100a receives power from watt-hour meter 400 to supply power to at least one CCTV camera 110a, and integrates management server 200 with images obtained from CCTV camera 110a through communication network 10 ) to control the transmission. In addition, the CCTV enclosure 100a generates power monitoring information by monitoring in real time whether the power is cut off due to power instability and self-power abnormality or failure of the watt-hour meter 400 , and transmits it to the integrated management server 200 .

To this end, the CCTV enclosure 100a includes a control unit 120 , a communication unit 130 , a sensor unit 180 , a blower fan 190 , an earth leakage breaker 140 , and a power monitoring device 150 . CCTV enclosure (100a) is provided with identification information in any one of the control unit 120 and the communication unit (130).

The control unit 120 controls to process the overall operation of the CCTV enclosure (100a). That is, the control unit 120 controls the communication unit 130 , the sensor unit 180 , the blowing fan 190 , and the like.

The communication unit 130 includes, for example, a switch, a router, a modem, and the like, and is connected to the communication network 10 . When power is normally supplied from the watt-hour meter 400, the communication unit 130 receives the supplied power via the power monitoring device 150, and when the power supplied from the watt-hour meter 400 is cut off, the power monitoring device 150 Power is supplied from the battery 168 of the for a certain period of time (eg, about 1 to 2 minutes). The communication unit 130 transmits the image obtained from the CCTV camera 110a to the integrated management server 200 through the communication network 10 in real time. When the power supplied from the power meter 400 is cut off, the communication unit 130 transmits the power monitoring information generated from the power monitoring device 150 to the integrated management server 200 through the communication network 10 .

In this embodiment, in the communication unit 130, a switch, a router, a modem, etc. are sequentially installed between the CCTV camera 110a and the communication network 20 . The communication unit 130 receives power through the power monitoring device 150 when the power supplied from the watt-hour meter 400 is in a normal state, and when the power supplied from the watt-hour meter 400 is cut off, the power monitoring device 150 ) is supplied with power from the battery 168 and is provided to transmit power monitoring information.

The sensor unit 180 includes, for example, a temperature sensor for detecting the internal temperature of the CCTV enclosure 100a, a door sensor for detecting door opening and closing of the CCTV enclosure 100a, a door open detection camera, and the like. The sensor unit 180 may be controlled by the control unit 120 to obtain sensing information or an image, transmit it to the control unit 120 , and transmit it to the integrated management server 200 through the communication unit 130 .

Blowing fan 190 discharges internal air to control the internal temperature of the CCTV enclosure (100a) under the control of the control unit (120). The blower fan 190 may have a rotation speed adjusted in response to the internal temperature of the CCTV enclosure 100a sensed through the temperature sensor of the sensor unit 180 .

The earth leakage breaker 140 receives power from the electricity meter 400 and supplies power to the CCTV camera 110a and the CCTV enclosure 100a except for the communication unit 130, and the CCTV camera 110a and the CCTV enclosure 100a) In the event of a power failure or component failure, the power supply is automatically cut off.

And when the power is cut off, the power monitoring device 150 determines whether the power is cut off by the earth leakage breaker 410 of the watt-hour meter 400 or the power is cut off by the earth leakage breaker 140 of the CCTV enclosure 100a, and the watt-hour meter ( 400), power is supplied to the communication unit 130 using the battery 168, and power monitoring information is generated and transmitted. The configuration and function of the power monitoring device 150 will be described in detail with reference to FIG. 4 .

3 is a block diagram showing the configuration of a power supply enclosure having a power monitoring device applied to a general-purpose power supply system according to a second embodiment of the present invention.

Referring to FIG. 3 , the power monitoring system 2b of the second embodiment is applied to a general-purpose power supply system, and the power monitoring device 150 is installed in the power supply enclosure 100b.

Specifically, the power monitoring system 2b of this embodiment includes general-purpose electric or electronic devices 110b installed in a building or facility as a load 110 and a power supply enclosure 100b as the enclosure 100 . .

The power housing 100b is, for example, provided with a switchboard, a distribution board, a power receiver, etc., and receives power from the watt-hour meter 400 to supply power to a plurality of electric devices or electronic devices 110b having various uses and functions. do. The power supply enclosure 100b can communicate with the integrated management server 200 through the communication network 10 when the electric device or the electronic device 110b is a communication device such as a computer, a server, a CCTV camera, etc., for example. is provided The power supply box 100b generates power monitoring information by monitoring in real time whether the power is cut off due to power instability of the power meter 400 and its own power abnormality or failure, and transmits it to the integrated management server 200 .

To this end, the power housing 100b includes a control unit 120 , a communication unit 130 , an earth leakage breaker 140 , and a power monitoring device 150 . Each of the control unit 120 , the communication unit 130 , the earth leakage breaker 140 , and the power monitoring device 150 of this embodiment processes functions and actions that are substantially similar or identical to those of each of the configurations of the first embodiment.

That is, the control unit 120 controls the communication unit 130 and the like to process the overall operation of the power supply housing (100b).

The communication unit 130 includes, for example, a switch, a router, a modem, and the like, and is connected to the communication network 10 . The communication unit 130 receives the power supplied from the watt-hour meter 400 via the power monitoring device 150 , and when the power supplied from the watt-hour meter 400 is cut off, from the battery 168 of the power monitoring device 150 . Power is supplied for a certain period of time (eg, about 1 to 2 minutes). The communication unit 130 is connected to the integrated management server 200 through the communication network 10 in the case of the communicable electrical device or the electronic device 110b to process data communication with each other. When the power supplied from the power meter 400 is cut off, the communication unit 130 transmits the power monitoring information generated from the power monitoring device 150 to the integrated management server 200 through the communication network 10 . In addition, the communication unit 130 receives power through the power monitoring device 150 when the power supplied from the watt-hour meter 400 is in a normal state, and when the power supplied from the watt-hour meter 400 is cut off, the power monitoring device ( 150) is supplied with power from the battery 168 and is provided to transmit power monitoring information.

The earth leakage breaker 140 receives power from the watt-hour meter 400 and supplies power to the electric devices or electronic devices 110b and the power supply housing 100b except for the communication unit 130, and the electric devices or electronic devices 110b. ) and the power supply box (100b) itself, when an error or component failure occurs, the power supply is automatically cut off.

And when the power supply monitoring device 150 cuts off the power of the power supply housing 100b, whether the power is cut off by the earth leakage breaker 410 of the watt-hour meter 400 or the power supply is cut off by the earth leakage breaker 140 of the power supply housing 100b. By determining, if the power is cut off by the watt-hour meter 400 , power is supplied to the communication unit 130 , and power monitoring information is generated and transmitted.

4 is a block diagram illustrating the configuration of the power monitoring device shown in FIGS. 2 and 3 .

Referring to FIG. 4 , the power monitoring device 150 according to an embodiment of the present invention includes an EMI filter 152 , a bridge rectifier 154 , a smoothing circuit 156 , a DC/AC inverter 158 , and a battery charger 160 . ), a DC/DC converter 162 , a controller 164 , a communication module 166 and a battery 168 . In addition, the power monitoring device 150 may further include a display unit (not shown) for displaying whether power is supplied, whether a battery is operating, and the like by using, for example, a plurality of light emitting diodes (LEDs).

Specifically, when the AC power (AC_IN) (eg, AC 220V) is supplied from the watt-hour meter 400, the EMI filter 152 removes noise for normal power supply to the CCTV enclosure 100a or the power enclosure 100b. print out

The bridge rectifier 154 rectifies the AC power from which noise has been removed from the EMI filter 152 to output a pulsating DC power.

The smoothing circuit 156 smoothes the DC power of the pulsating current output from the bridge rectifier 154 to output the DC power.

DC/AC inverter 158 converts DC power output from the smoothing circuit 156 into commercial AC power suitable for the CCTV camera 110a and the communication unit 130 or the electrical or electronic devices 110b and the communication unit 130 . For example, it is converted into a square wave of AC 220V and 50Hz and output.

The battery 168 is a rechargeable secondary battery, which is provided inside the CCTV enclosure 100a or the power enclosure 100b, or is provided inside the power monitoring device 150, and is charged through the battery charger 160 do. When power is cut off from the power meter 400 , the battery 168 supplies power to the communication unit 130 for a predetermined time under the control of the controller 164 . When power is cut off from the watt-hour meter 400 according to the charging capacity of the battery 168, the time supplied to the communication unit 130 may be adjusted.

The battery charger 160 receives AC power from which noise is removed from the EMI filter 152 and receives the control of the controller 164 to charge the battery 168 .

The DC/DC converter 162 receives DC power from the battery 168 and provides a level of DC power suitable for the CCTV camera 110 and the communication unit 130 or the electric or electronic devices 110b and the communication unit 130 . print out

The controller 164 detects whether the power is cut off through the earth leakage breaker 140 of the CCTV housing 100a or the power supply housing 100b, and the earth leakage breaker 410 of the watt-hour meter 400 . That is, the controller 164 detects whether power is cut off from the watt-hour meter 400 to the EMI filter 152 through the earth leakage breaker 410 of the watt-hour meter 400, and when the power is cut off, the power is transferred to the communication unit 130. By controlling the battery 168 to supply and detecting the operation of the battery 168 through the DC/DC converter 162, identification information according to the power cut off of the watt-hour meter 400, power cut off location, power cut off time, power reset Generates power monitoring information including supply status and power re-supply time. The controller 164 controls the communication module 168 to transmit the generated power monitoring information to the integrated management server 200 through the communication unit 130 . In addition, when the internal power is cut off through the circuit breaker 140 of the CCTV enclosure 100a or the power enclosure 100b, the controller 164 generates power monitoring information corresponding thereto and the communication unit 130 through the integrated management server ( 200) to control the communication module 168 to transmit.

In addition, the communication module 166 is connected to the communication unit 130 and receives the control of the controller 164 to transmit power monitoring information to the integrated management server 200 through the communication unit 130 .

When the power of the watt-hour meter 400 is cut off, the power monitoring device 150 supplies power to the communication unit 130 for a certain period of time using the battery 168, and generates power monitoring information according to the power cutoff to create a communication network ( 10) through the integrated management server 200 . Of course, when the normal power supply is made from the watt-hour meter 400, the CCTV enclosure 100a or the power enclosure 100b receives the power (AC_IN) from the watt-hour meter 400 and receives the CCTV camera 110 and the communication unit of the CCTV enclosure 100a. Power is supplied to the communication unit 130 of the 130 or the electric or electronic devices 110b and the power housing 100b. In this case, the power monitoring device 150 may detect a state in which power is supplied from the power meter 400 , periodically generate power monitoring information, and transmit it to the integrated control server 200 through the communication network 10 .

5 is a block diagram showing the configuration of the integrated management server shown in FIG.

5, the integrated management server 200 of the present invention is connected through a communication network 10 with a plurality of CCTV enclosures 100a or power enclosures 100b installed in different places, and from the CCTV camera 110a. By receiving the acquired image or various data necessary for monitoring and integrated management from the electric device or electronic device 110b through the CCTV housing 100a or the power supply housing 100b, real-time monitoring of the road condition of the installation site, or electric device It is installed in an integrated control center that monitors the operating state of the electronic device 110b. Integrated management server 200 determines the installation place (ie, location) through the identification information of the CCTV enclosure (100a) or the power enclosure (100b). In addition, the integrated management server 200 receives the power monitoring information from the CCTV enclosure 100a or the power enclosure 100b to determine the cause of power cut off, and when the power cut off cause is cut off by the power meter 400, the power supply company to notify the occurrence of a failure.

Here, the function and operation of the integrated management server 200 are described in detail using the configuration of the first embodiment.

Specifically, the integrated management server 200 of this embodiment includes a server unit 210 and a database unit 250 . The server unit 210 includes a control unit 212 , a communication unit 214 , an enclosure management unit 216 , a power cut-off determination unit 218 , and a notification management unit 220 . In addition, the integrated management server 200 further includes an image processing unit 222 . If the integrated management server 200 is applied to the second embodiment, a data processing unit (not shown) for monitoring various data according to the unique functions of the electric or electronic devices 110b instead of the image processing unit 222 . ) may be further included.

The control unit 212 controls the overall operation of the integrated management server 200 to be processed. That is, in the control unit 212 , the functions of the communication unit 214 , the enclosure management unit 216 , the power cut-off determination unit 218 , the notification management unit 220 , the image processing unit 222 , and the database unit 250 are mutually organic. control to be processed.

The communication unit 212 is provided with, for example, a wired/wireless communication module, a mobile communication module, etc., and is connected to each of the plurality of CCTV enclosures 100a and the manager terminals 300 through the communication network 10, each of which is mutual data It handles communication.

The enclosure management unit 216 registers and manages identification information of each of the plurality of CCTV enclosures 100a, determines the installation location of the CCTV enclosure 100a through the identification information, and at least one connected to one CCTV enclosure 100a Various information about the CCTV cameras 110a is registered and managed, for example, the number of connections of the CCTV cameras 110a, the communication address (IP) of the CCTV cameras 110a, and manager information in charge.

The power cut-off determination unit 218 determines whether the power cut-off is caused by the CCTV enclosure 100a itself or the watt-hour meter 400 through the power monitoring information transmitted from the CCTV enclosure 100a. When the power is cut off by the power meter 400 , the power cut determination unit 218 detects the location and time of the power meter 400 that the power is cut off from the power monitoring information and provides it to the notification management unit 220 . The power cut determination unit 218 detects the location and time of the CCTV enclosure 100a where the power is cut off from the power monitoring information even when the power is cut off by the CCTV enclosure 100a itself, and provides the notification management unit 220. may be

The notification management unit 220 transmits notification information to the power supply company when the power cut off by the power meter 400 occurs from the power cut determination unit 218 . The notification management unit 220 may transmit notification information to the manager terminal 300 of the load management company when the power is cut off due to the CCTV camera 110a, the CCTV enclosure 100a, and a network failure.

The image processing unit 222 processes to monitor the road condition of the installation site in real time through the images transmitted from each of the CCTV cameras 110a. The image processing unit 222 may process the complexity of road conditions, parking and stopping violations, signal violations, and the like through image analysis.

And the database unit 250 receives the control of the controller 212 to store and manage at least the enclosure information 252 , the watt-hour meter information 254 , the manager information 256 , the image information 258 , and the power monitoring information 260 . do. In this embodiment, the enclosure information 252 is the identification information of the CCTV enclosure 100a, the installation location, the number of connections of the CCTV cameras 110a, the communication address (IP) of the CCTV cameras 110a, the name of the manager in charge, the manager contact in charge etc. are included. The watt-hour meter information 254 includes an installation place (location) corresponding to each of the CCTV enclosures 100a, the number and identification information of the power supply CCTV enclosure 100a, and the like. The manager information 256 includes a manager name, contact information for the manager terminal 300, and box information for the CCTV enclosure 100a in charge. The image information 258 includes an image transmitted from each of the CCTV cameras 110a and data processed, analyzed and processed. And the power monitoring information 260 includes identification information corresponding to the CCTV enclosure 100a and the power meter 400, power cut off location, power cut off time, power re-supply, power re-supply time, and the like.

The database unit 250 may store and manage various information collected and generated according to the process of processing various functions of the integrated management server 200 under the control of the control unit 212 . Also, the database unit 250 is included in the integrated management server 200, but may be provided as an independent database server.

Therefore, the integrated management server 200 of the present invention determines the cause of power cut through the power monitoring information transmitted from the CCTV enclosure 100a, and according to the determination result, informs the power supply company or maintenance personnel of the failure situation and maintains it It is possible to prevent unnecessary mobilization of maintenance personnel and to clarify the location of responsibility according to the cause of power cut off.

Of course, it is self-evident that the integrated management server 200 can determine the cause of power cut-off through the power monitoring information transmitted from the power enclosure 100b, and inform the power supply company or maintenance personnel of the failure situation according to the determination result. would.

And Figure 6 is a flowchart showing a processing procedure of the power monitoring system according to the present invention. This procedure is handled by the configuration of the power monitoring system shown in Figs. 1 to 5 .

6 , the power monitoring system (2: 2a, 2b) according to the present invention supplies power from the watt-hour meter 400 to the enclosure 100, that is, the CCTV enclosure 100a or the power enclosure 100b in step S500. do. At this time, the watt-hour meter 400 supplies power to the earth leakage breaker 140 and the power monitoring device 150 of the CCTV housing 100a or the power supply housing 100b.

In step S510 , the power monitoring device 150 determines whether power is cut off from the power meter 400 . That is, the power monitoring device 150 detects the power cut-off state of the earth leakage breaker 140 of the CCTV housing 100a or the power supply housing 100b and the earth leakage breaker 410 of the watt-hour meter 400 .

When the power monitoring device 150 detects whether the power is cut off from the watt-hour meter 400 in step S520, the communication unit 130 of the CCTV enclosure 100a or the power enclosure 100b using the battery 168 in step S530. power is supplied, and in step S540 , power monitoring information according to power cut is generated and transmitted to the integrated management server 200 through the communication unit 130 .

Then, in step S540, the integrated management server 200 determines the cause of power cut through the power monitoring information transmitted from the CCTV enclosure 100a or the power enclosure 100b, and if the power is cut off from the power meter 400, to the power supply company It transmits notification information including the location and time of the corresponding watt-hour meter 400 to request maintenance.

In addition, the power monitoring system (2: 2a, 2b) of the present invention is when the power is cut off in the CCTV enclosure 100a or the power enclosure 100b, that is, the CCTV camera 110a, the leakage circuit breaker 140 of the CCTV enclosure 100a. ) and when the power is cut off due to a failure such as a network, or when the power is cut off due to a failure of the general-purpose electric and electronic device 110b, the earth leakage breaker 140 of the power housing 100b, and the network, etc. The power monitoring device 150 generates and transmits power monitoring information according to a corresponding failure. Accordingly, the integrated management server 200 may determine the power monitoring information to determine the cause of the power cut off. Therefore, in this case, the integrated management server 200 notifies the fault condition to the manager terminal 300 of the maintenance personnel, and processes to be dispatched to the corresponding location.

In the above, the configuration and operation of the power monitoring system according to the present invention has been illustrated according to the detailed description and drawings, but this is only described by way of example, and various changes and modifications can be made without departing from the technical spirit of the present invention. It is possible.

2, 2a, 2b: Power monitoring system
10: communication network
100 : hull
100a : CCTV enclosure
100b : power enclosure
110: load
110a : CCTV Camera
110b: general-purpose electrical and electronic devices
130: communication department
140: earth leakage breaker
150: power monitoring device
200: integrated management server
300: administrator terminal
400: watt-hour meter
410: earth leakage breaker

Claims (6)

A power monitoring system comprising:
a housing connected to a communication network to enable communication, receiving power through a watt-hour meter and supplying power to a load;
It is installed in the housing and monitors in real time whether the power by the watt-hour meter is cut off. When the power supply from the watt-hour meter is cut off, the housing uses a battery to communicatively supply power, and the location of the watt-hour meter where the power is cut off and a power monitoring device for generating and transmitting power monitoring information including at least a cut-off time through a communication network; and
An integrated management server that is connected to the housing through a communication network, receives power monitoring information from the power monitoring device, determines the cause of power cut off, and informs the power supply company that manages the power meter if the power is cut off by the power meter Power monitoring system comprising a.
The method according to claim 1,
The enclosure is provided with a CCTV enclosure that supplies power to at least one CCTV camera;
The CCTV enclosure is
a communication unit connected to a communication network to transmit the image obtained from the CCTV camera to the integrated management server, and to receive power through the battery and transmit power monitoring information to the integrated management server when power supply is cut off from the watt-hour meter;
an earth leakage circuit breaker for supplying the power supplied from the watt-hour meter to the CCTV camera and cutting off the power supply when an internal power accident occurs;
the power monitoring device provided between the watt-hour meter and the earth leakage breaker and connected in parallel with the earth leakage breaker for the watt-hour meter and monitoring in real time whether power is cut off to either one of the watt-hour meter and the earth leakage breaker; and
Power monitoring system comprising a control unit for controlling the communication unit.
The method according to claim 1,
the housing is provided with a power supply housing that supplies power to general-purpose electric and electronic devices that receive power from the watt-hour meter and process their own functions;
The power enclosure is
a communication unit connected to a communication network to receive power through the battery and transmit power monitoring information to the integrated management server when power supply is cut off from the power meter;
an earth leakage circuit breaker for supplying power supplied from the watt-hour meter to the general-purpose electric and electronic devices, and cutting off the power supply when an internal power accident occurs;
the power monitoring device provided between the watt-hour meter and the earth leakage breaker and connected in parallel with the earth leakage breaker for the watt-hour meter and monitoring in real time whether power is cut off to either one of the watt-hour meter and the earth leakage breaker; and
Power monitoring system comprising a control unit for controlling the communication unit.
4. The method according to claim 2 or 3,
The power monitoring device,
a filter for removing noise from the AC power and outputting it when AC power is supplied from the watt-hour meter;
a bridge rectifier for rectifying AC power from which noise has been removed from the filter to output a pulsating DC power;
a smoothing circuit for smoothing the DC power of the pulsating current output from the bridge rectifier to output the DC power;
an inverter converting the DC power output from the smoothing circuit into a commercial AC power suitable for the enclosure and outputting it;
A rechargeable secondary battery, the battery being provided inside the enclosure or inside the power monitoring device, and supplying power to the communication unit for a predetermined time so that the enclosure can communicate when power is cut off from the watt-hour meter;
a battery charger for charging the battery by receiving AC power from which noise has been removed from the filter;
a converter receiving DC power from the battery and outputting a DC power of a level suitable for the enclosure;
a communication module for transmitting power monitoring information to the communication unit; and
Detects whether the power supplied to the filter from the watt-hour meter is cut off, controls the battery to supply power to the communication unit when the power is cut off, detects the operation of the battery through the converter, and provides the power of the watt-hour meter Power monitoring system comprising a controller for controlling the communication module to generate power monitoring information according to the cut off and transmit it to the integrated management server through the communication unit.
4. The method according to claim 2 or 3,
The power monitoring device,
Power monitoring system, characterized in that when the power of the enclosure is cut off by the earth leakage breaker, power monitoring information according to the power cut off of the enclosure is further generated and transmitted to the integrated management server.
4. The method according to claim 2 or 3,
The integrated management server,
Power monitoring system, characterized in that when it is determined that the power of the enclosure is cut off by receiving power monitoring information from the power monitoring device, the power monitoring system is configured to notify the power cutoff status to a manager terminal of a maintenance person managing the enclosure.

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