KR20190130953A - Apparatus and method for of monitoring and control of smart switchboard - Google Patents

Abstract

The present invention relates to an apparatus of monitoring and controlling a smart switchboard and a method thereof. The apparatus includes a power consumption measuring part for measuring power consumption consumed from a switchboard, a quarterly power consumption deriving part for deriving quarterly power consumption by dividing the measured power consumption quarterly, a quarterly allowable reference power derivation part for deriving quarterly allowable reference power based on the derived quarterly power consumption, an overload occurrence determining part which compares the measured power consumption with the derived quarterly allowable reference power and determines whether the overload of the switchboard occurs, an abnormal situation occurrence determination part which collects environmental information inside the switchboard, and determines whether an abnormal situation occurs inside the switchboard based on the collected environmental information, and a switchboard state control part which controls the state of the switchboard when it is determined that the overload of the switchboard occurs or the abnormal situation occurs in the switchboard.

Description

Smart switchboard supervisory control device and method thereof {APPARATUS AND METHOD FOR OF MONITORING AND CONTROL OF SMART SWITCHBOARD}

The present invention relates to a smart switchboard supervisory control apparatus and method thereof, and more particularly, to derive a quarterly power consumption based on the measured power consumption, and to use the quarterly allowable reference power derived based on the quarterly power consumption. Smart switchgear to determine whether an overload has occurred and to determine whether an abnormal situation inside the switchboard occurs based on environmental information (temperature, humidity, water leakage, vibration, dust, etc.) inside the switchboard. A supervisory control device and a method thereof are provided.

The switchboard is a device that facilitates control of the electricity supply by arranging a measuring instrument, an alarm, etc. in a building equipped with an electrical facility such as a power plant, substation, or a general building. In other words, the switchboard is a device that monitors, controls, and protects the electricity supply by adjusting the electricity supplied from the outside to a level suitable for the building.

Due to the characteristics of the equipment, such a switchboard is kept in a closed state such that high pressure and high current flows so that a person other than a manager cannot easily access or operate it. It is usually stored in a metal box.

On the other hand, such a switchboard is to receive and distribute power in a metal box as mentioned above, so to check whether the operation is smoothly from the outside, the manager must enter the inside through the opening of the enclosure to check I have the inconvenience. In addition, since it is difficult to easily check the status of the switchboard in real time or external, there was a problem that can not be replaced immediately if a fire occurs.

In recent years, 'smart switchgear systems' have been developed that are equipped with electronic sensors in the switchboard to monitor, measure, and control power consumption in real time. However, there are still limitations in preventing accidents such as power outages, short circuits, and fires.

In this regard, Korean Patent Laid-Open Publication No. 2008-0026231 discloses a "digital graphic based switchgear system."

The present invention has been invented to solve the above problems, by dividing the measured power consumption quarterly to derive the quarterly power consumption, using the quarterly allowable reference power derived based on the derived quarterly power consumption An object of the present invention is to provide a smart switchboard supervisory control apparatus and method for determining whether a switchboard is overloaded.

In addition, an object of the present invention is to provide a smart switchboard supervisory control apparatus and method for collecting environmental information (temperature, humidity, leakage, vibration, dust, etc.) inside the switchboard to determine whether or not an abnormal situation occurs in the switchboard. .

Smart switchboard monitoring and control device according to the present invention for achieving the above object is a power consumption measuring unit for measuring the power consumption consumed supplied from the switchboard; A quarterly power consumption derivation unit for dividing the measured power consumption quarterly to derive quarterly power consumption; A quarterly allowable reference power amount deriving unit for deriving a quarterly allowable reference power amount based on the derived quarterly power consumption; An overload generation determination unit which compares the measured power consumption with the derived quarterly allowable reference power and determines whether the switchboard is overloaded; An abnormal situation occurrence determination unit that collects environmental information inside the distribution panel and determines whether an abnormal situation occurs in the distribution panel based on the collected environmental information; And a switchboard state controller configured to control the state of the switchboard when it is determined that an overload or an abnormal situation inside the switchboard occurs in the switchboard.

The overload occurrence determining unit may determine that the switchboard is overloaded when the power consumption exceeds the quarterly allowed reference power as a result of the comparison between the power consumption and the quarterly allowed reference power.

The abnormality occurrence determination unit may collect environmental information including at least one of temperature information, humidity information, leakage information, vibration information, and dust information from detection sensors installed in a switchboard. It is characterized by determining whether or not an abnormal situation occurs in the switchboard by comparing and analyzing the predetermined risk level information.

In addition, the abnormal situation occurrence determination unit is characterized in that if the collected environmental information does not belong to the normal value range of the pre-set risk level information for each information characterized in that the abnormal situation occurred in the switchboard.

In addition, when it is determined that the overload occurs in the switchboard, the switchboard state controller cuts off the power supplied from the switchboard, and generates state information of the switchboard according to the overload.

In addition, the switchboard state controller may be configured such that the temperature information inside the switchboard does not belong to the normal value range of the preset temperature danger level information, or the humidity information inside the switchboard does not belong to the normal value range of the preset humidity danger level information or the inside of the switchboard. The leak information does not fall within the normal range of the leak risk level information, or the vibration information inside the switchboard does not fall within the normal range of the preset vibration danger level information, or the dust information inside the switchboard does not belong to the preset dust danger level information. When not in the normal value range it is characterized in that for generating the status information of the switchboard according to the cause of the abnormal situation.

In addition, the quarterly power consumption derived every quarter is delivered to the power user terminal, and the status information of the switchboard generated according to the overload or the status information of the switchboard generated according to the cause of the abnormal situation is provided to the switchboard manager terminal. It further comprises.

Smart switchboard monitoring control method according to the present invention for achieving the above object comprises the steps of measuring the power consumption consumed supplied from the switchboard by the power consumption measurement unit; Deriving quarterly power consumption by dividing the measured power consumption quarterly by the quarter power consumption derivation unit; Deriving, by the allowable reference power amount deriving unit, a quarterly allowable reference power amount based on the derived quarterly power consumption; Determining, by the overload occurrence determining unit, whether the switchboard is overloaded by comparing the measured power consumption with the derived quarterly allowable reference power; The abnormal situation occurrence determination unit collects the environmental information inside the switchboard and determines whether an abnormal situation occurs in the switchboard based on the collected environmental information: Overloading the switchboard or an abnormal situation inside the switchboard by the switchboard state controller. If it is determined that this has occurred, controlling the state of the switchboard; characterized in that it comprises a.

In addition, comparing the measured power consumption with the derived quarterly allowable reference power amount, and determining whether the switchboard is overloaded, as a result of the comparison between the power consumption and the quarterly allowable reference power amount, the power consumption is a quarterly allowable reference power amount. If it exceeds, it is characterized by determining that an overload occurs in the switchboard.

In addition, collecting the environmental information inside the switchboard, and determining whether an abnormal situation occurs in the switchboard based on the collected environmental information, temperature information, humidity information, leakage information, vibration information from the detection sensors installed inside the switchboard Collecting environmental information including at least one of dust and dust information, and comparing and analyzing the collected environmental information and preset risk level information for each information to determine whether an abnormal situation occurs in the switchboard, If it does not belong to the normal value range of the danger level information, it is characterized in that it is determined that the abnormal situation in the switchboard.

In addition, if it is determined that an overload or an abnormal situation inside the switchboard occurs in the switchboard, controlling the state of the switchboard, if it is determined that the switchboard is overloaded, cut off the power supplied from the switchboard, and state information of the switchboard according to the overload. The temperature information inside the switchboard does not belong to the normal value range of the preset temperature hazard level information, or the humidity information inside the switchboard does not belong to the normal value range of the preset humidity danger level information, or leak information inside the switchboard is The leaking water level does not fall within the normal range of the information, or the vibration information inside the switchboard does not fall within the normal range of the vibration danger level information, or the dust information inside the switchboard is within the normal range of the dust danger level information. If you do not belong to an abnormal situation It is characterized in that for generating the state information of the switchboard according to the phosphorus.

In addition, if it is determined that an overload or abnormality in the switchboard has occurred in the switchboard, after controlling the state of the switchboard, the quarterly power consumption derived every quarter is transmitted to the power user terminal, and The state information of the switchboard generated according to the status information or the cause of the abnormal situation is characterized in that it further comprises the step of transmitting to the switchboard manager terminal.

The smart switchboard supervisory control apparatus and method according to the present invention for achieving the above object is to divide the measured power consumption quarterly to derive the quarterly power consumption, the quarterly allowance derived based on the derived quarterly power consumption By determining whether the switchboard is overloaded by using the reference power amount, if it is determined that the switchboard is overloaded, the power supply to the switchboard may be cut off to prevent a power failure or a fire accident.

In addition, it collects environmental information (temperature, humidity, water leakage, vibration, dust, etc.) inside the switchboard to determine whether the abnormal situation inside the switchboard, and if it is determined that the abnormal situation occurred in the switchboard, the abnormal situation occurred. By sending an alarm to the manager terminal, there is an effect that can be blocked in advance, such as a short circuit or a fire accident in the switchboard.

1 is a view for explaining the configuration of a smart switchboard system applied to the present invention.
2 is a view for explaining the configuration of the smart switchboard monitoring and control device according to the present invention.
3 is a view for explaining the configuration of the quarterly power consumption derivation unit employed in the smart switchboard monitoring and control device according to the present invention.
4 is a view for explaining the procedure of the smart switchboard monitoring control method according to the present invention.

As the present invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description.

However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements.

When a component is referred to as being "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that other components may be present in between. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention. Hereinafter, the same reference numerals are used for the same components in the drawings, and duplicate descriptions of the same components are omitted.

1 is a view for explaining the configuration of a smart switchboard system applied to the present invention.

Referring to FIG. 1, the smart switchboard system applied to the present invention includes a switchboard, a smart switchboard hardware, a database, application software, and web serviceware.

A switchboard is a device that receives high voltage power from a power line in a building or a factory and converts it into a low voltage by a transformer and distributes the power to various electric equipment systems.

Smart switchboard hardware monitors and measures power consumption in real time based on information collected from internally mounted electronic sensors, and not only visualization (visualization), but also control functions such as power consumption measurement and fault monitoring and server information. It consists of a smart switchboard supervisory control device that can transmit data to the network. At this time, the configuration and function of the smart switchboard supervisory control device will be described in detail with reference to the drawings described below.

The database stores smart switchboard hardware information collected through the middleware.

Application software processes and provides the stored data.

Web service ware constitutes web service that can provide information or remote control to PC or mobile device.

2 is a view for explaining the configuration of the smart switchboard monitoring and control device according to the present invention, Figure 3 is a view for explaining the configuration of the quarterly power consumption derivation unit employed in the smart switchboard monitoring and control device according to the present invention.

Referring to FIG. 2, the smart switchboard monitoring and control device according to the present invention includes a power consumption measurement unit 110, a quarterly power consumption derivation unit 120, a quarterly allowable reference power derivation unit 130, and an overload determination. The unit 140, the abnormal situation occurrence determination unit 150, the switchboard state control unit 160 and the monitoring information providing unit 170 is included.

The power consumption measuring unit 110 measures the power consumption consumed by the switchboard.

The quarterly power consumption deriving unit 120 divides the measured power consumption into quarters to derive the quarterly power consumption. Here, the quarter is the first quarter (1/4) corresponding to January-March, the second quarter (2/4) corresponding to April-June, the third quarter (3/4) corresponding to July-September, 10 It is divided into 4 quarters (4/4).

That is, the quarterly power consumption deriving unit 120 derives the quarterly power consumption in 1Q, 2Q, 3Q, and 4Q. Here, it is possible to determine whether the switchboard is overloaded based on the derived quarterly power consumption, and cut off the power supplied from the switchboard.

The quarterly allowable reference power amount deriving unit 130 derives a quarterly allowable reference power amount based on the derived quarterly power consumption amount.

The overload occurrence determination unit 140 compares the measured power consumption with the derived quarterly allowable reference power and determines whether the switchboard is overloaded.

The overload occurrence determination unit 140 determines that the switchboard is overloaded when the power consumption exceeds the quarterly allowed reference power as a result of comparing the power consumption with the quarterly allowed reference power.

The abnormal situation occurrence determination unit 150 collects environmental information inside the switchboard and determines whether an abnormal situation occurs in the switchboard based on the collected environmental information.

The abnormal situation occurrence determination unit 150 may include at least one of temperature information, humidity information, leakage information, vibration information, and dust information from a temperature sensor, a humidity sensor, a leak sensor, a vibration sensor, and a dust sensor installed inside the switchboard. The environmental information including any one is collected, and the collected environmental information is compared with the preset risk level information for each information to determine whether an abnormal situation occurs in the switchboard.

In addition, the abnormal situation occurrence determination unit 150 is an abnormal situation (high temperature, low temperature, high humidity, low humidity, leakage, vibration) inside the switchboard when the collected environmental information does not belong to the normal value range of the preset dangerous water level information for each information Generation, high concentration of dust).

The switchboard state controller 160 cuts off the power supplied from the switchboard when it is determined that the switchboard is overloaded, and generates state information of the switchboard according to the overload.

In addition, the switchboard state control unit 160 does not belong to the normal value range of the preset temperature dangerous water level information, or the humidity information inside the switchboard does not belong to the normal value range of the predetermined humidity dangerous water level information or the switchboard. The internal leakage information does not fall within the normal range of the leak danger level information, or the vibration information inside the switchboard does not fall within the normal range of the preset vibration danger level information, or the dust information inside the switchboard is the preset dust danger level. If the information does not fall within the normal range, the status information of the switchboard is generated according to the cause of the abnormal situation.

The monitoring information providing unit 170 transmits the quarterly power consumption derived every quarter to the power user terminal, and the status information of the switchboard generated according to the overload or the status information of the switchboard generated according to the cause of the abnormal situation is the switchboard manager terminal. To pass on.

Here, the power user terminal is a terminal of a user who uses the power supplied from the switchboard, and the power user can preliminarily recognize the capacitance overload by receiving the quarterly power consumption derived every quarter. The switchboard manager terminal is a terminal of a manager managing a switchboard applied to the present invention, and the switchboard is controlled through the switchboard control step by step through receiving the state information of the switchboard generated according to the overload or the status information of the switchboard generated according to the cause of the abnormal situation. It will be possible to minimize the damage caused by accidents.

4 is a view for explaining the procedure of the smart switchboard monitoring control method according to the present invention.

Referring to FIG. 4, the smart switchboard supervisory control method according to the present invention uses the smart switchboard supervisory control apparatus described above, and a redundant description thereof will be omitted.

First, the power consumption consumed supplied from the switchboard is measured (S100).

Next, as shown in FIG. 3, the measured power consumption is divided by quarter to derive quarterly power consumption (S200).

Next, a quarterly allowable reference power amount is derived based on the derived quarterly power consumption amount (S300).

Next, by comparing the measured power consumption and the derived quarterly allowable reference power amount, it is determined whether the switchboard is overloaded (S400).

In step S400, when the power consumption is compared with the quarterly allowed reference power, it is determined that the switchboard is overloaded when the power consumption exceeds the quarterly allowed reference power.

Next, it collects the environmental information inside the switchboard, and determines whether the abnormal situation occurs in the switchboard based on the collected environmental information (S500).

Step S500 collects environmental information including at least one of temperature information, humidity information, leakage information, vibration information, and dust information from the detection sensors installed in the switchboard, and collects the collected environmental information and the preset risk level for each information. By comparing and analyzing the information, it is determined whether an abnormal situation occurs in the switchboard. If the collected environmental information does not belong to the normal value range of the predetermined level of danger information for each information, it is determined that an abnormal situation occurs in the switchboard.

Next, when it is determined that an overload or abnormal situation inside the switchboard occurs in the switchboard, the state of the switchboard is controlled (S600).

In step S600, when it is determined that an overload occurs in the switchboard, the electric power supplied from the switchboard is cut off, and the state information of the switchboard according to the overload is generated.

In addition, in step S600, the temperature information inside the switchboard does not belong to the normal value range of the preset temperature dangerous water level information, or the humidity information inside the switchboard does not belong to the normal value range of the preset humidity dangerous water level information or leak information inside the switchboard. The preset leak danger level information does not fall within the normal range, or the vibration information inside the switchboard does not fall within the normal range of the vibration danger level information, or the dust information inside the switchboard is the normal value of the preset dust danger level information. When not in the range, the status information of the switchboard is generated according to the cause of the abnormal situation.

Next, the quarterly power consumption derived every quarter is transmitted to the power user terminal, and the state information of the switchboard generated according to the overload or the state information of the switchboard generated according to the cause of the abnormal situation is transmitted to the switchboard manager terminal (S700). .

Through this, the smart switchboard supervisory control apparatus and method according to the present invention divides the measured power consumption quarterly to derive the quarterly power consumption, and uses the quarterly allowable reference power derived based on the derived quarterly power consumption. By determining whether the switchboard is overloaded, if it is determined that the switchboard is overloaded, power supply to the switchboard may be cut off to prevent a power failure or a fire accident.

In addition, it collects environmental information (temperature, humidity, water leakage, vibration, dust, etc.) inside the switchboard to determine whether an abnormal situation occurs inside the switchboard, and if it is determined that the abnormal situation occurred inside the switchboard, an abnormal situation has occurred. By sending an alert to the manager terminal, it is possible to cut off a short circuit or a fire accident in the switchboard in advance.

The functional operations described herein and the embodiments relating to the subject matter are implemented in digital electronic circuitry or computer software, firmware or hardware, including the structures disclosed herein and their structural equivalents, or in combination with one or more of them. It is possible.

Embodiments of the subject matter described herein include one or more computer program instructions, one or more computer program instructions that are encoded on a tangible program medium for execution by a data processing apparatus or to control its operation. It can be implemented as a module. The tangible program medium may be a propagated signal or a computer readable medium. A propagated signal is an artificially generated signal such as a machine generated electrical, optical or electromagnetic signal that is generated to encode information for transmission to a suitable receiver device for execution by a computer. The computer readable medium may be a machine readable storage device, a machine readable storage substrate, a memory device, a combination of materials affecting a machine readable propagated signal, or a combination of one or more of them.

Computer programs (also known as programs, software, software applications, scripts, or code) may be written in any form of programming language, including compiled or interpreted languages, or a priori or procedural languages. It can be deployed in any form, including components, subroutines, or other units suitable for use in a computer environment.

The computer program does not necessarily correspond to a file of the file device. A program may be in a single file provided to the requested program, or in multiple interactive files (eg, one or more files that store modules, subprograms, or parts of code), or other files that hold data or other programs. Some (eg, one or more stored in a markup language document) may be stored within.

The computer program may be deployed to run on a single computer or on multiple computers located at one site or distributed across multiple sites and interconnected by a communication network.

In addition, the logic flows and structural block diagrams described in this patent document describe corresponding acts and / or specific methods supported by the corresponding functions and steps supported by the disclosed structural means, corresponding It can also be used to build software structures and algorithms and their equivalents.

The processes and logic flows described herein are capable of being performed by one or more programmable processors executing one or more computer programs to perform functions by operating on input data and generating output.

Processors suitable for the execution of computer programs include, for example, both general and special purpose microprocessors and any one or more of any form of digital computer. In general, a processor will receive instructions and data from a read only memory or a random access memory or both.

At the heart of a computer is one or more memory devices for storing instructions and data and a processor for performing instructions. In addition, computers are generally such that one or more for storing data, such as magnetic, magneto-optical disks or optical disks, are operable to receive data from, transfer data to, or perform both of these operations. Combined or will include it. However, the computer does not need to have such a device.

The foregoing description presents the best mode of the invention, and provides examples to illustrate the invention and to enable those skilled in the art to make and use the invention. The specification thus produced is not intended to limit the invention to the specific terms presented.

Thus, while the present invention has been described in detail with reference to the above examples, those skilled in the art can make modifications, changes, and variations to the examples without departing from the scope of the invention. In short, in order to achieve the intended effect of the present invention, it is not necessary to separately include all the functional blocks shown in the drawings or to follow all the orders shown in the drawings in the order shown; Note that it may fall within the scope.

100: smart switchboard supervisory control device
110: power consumption measurement unit
120: quarterly power consumption derivation unit
130: quarterly allowable reference power derivation unit
140: overload occurrence determination unit
150: abnormal situation occurrence determination unit
160: switchboard state control unit
170: monitoring information provider

Claims (12)

A power consumption measuring unit measuring power consumption supplied from the switchboard;
A quarterly power consumption derivation unit for dividing the measured power consumption quarterly to derive quarterly power consumption;
A quarterly allowable reference power amount deriving unit for deriving a quarterly allowable reference power amount based on the derived quarterly power consumption;
An overload generation determination unit which compares the measured power consumption with the derived quarterly allowable reference power and determines whether the switchboard is overloaded;
An abnormal situation occurrence determination unit that collects environmental information inside the distribution panel and determines whether an abnormal situation occurs in the distribution panel based on the collected environmental information; And
A switchboard state controller for controlling a state of the switchboard, when it is determined that an overload or an abnormal situation inside the switchboard occurs in the switchboard;
Smart switchboard supervisory control device comprising a. The method of claim 1,
The overload occurrence determining unit determines that an overload has occurred in the switchboard when the power consumption exceeds the quarterly allowed reference power as a result of comparing the power consumption with the quarterly allowed reference power. The method of claim 1,
The abnormality occurrence determination unit collects environmental information including at least one of temperature information, humidity information, leakage information, vibration information, and dust information from detection sensors installed inside the switchboard, and collects the collected environmental information and information for each information. Smart switchgear supervisory control device, characterized in that to determine whether or not an abnormal situation occurs in the switchboard by comparing the analysis of the set risk level information. The method of claim 3,
The abnormal situation occurrence determination unit, smart switchgear monitoring and control device, characterized in that it determines that the abnormal situation has occurred in the switchboard when the collected environmental information does not belong to the normal value range of the predetermined danger level information for each information. The method of claim 1,
The switchboard state control unit, when it is determined that the switchboard is overloaded, smart power switchboard monitoring and control device, characterized in that to cut off the power supplied from the switchboard, and to generate the status information of the switchboard according to the overload. The method of claim 1,
The switchboard state controller may be configured such that the temperature information inside the switchboard does not belong to the normal value range of the preset temperature danger level information, or the humidity information inside the switchboard does not belong to the normal value range of the preset humidity danger level information or leak information inside the switchboard. The preset leak danger level information does not fall within the normal range, or the vibration information inside the switchboard does not fall within the normal range of the vibration danger level information, or the dust information inside the switchboard is the normal value of the preset dust danger level information. Smart switchboard supervisory control device, characterized in that for generating the status information of the switchboard according to the cause of the abnormal situation, if not in the range. The method of claim 1,
Quarterly power consumption, which is derived quarterly, is transmitted to the power user terminal, and the status information of the switchboard generated according to the overload or the status information of the switchboard generated according to the cause of the abnormal situation is further transmitted to the monitor manager terminal. Smart switchgear monitoring and control device comprising a. Measuring, by a power consumption measuring unit, power consumption supplied and consumed from the switchboard;
Deriving quarterly power consumption by dividing the measured power consumption quarterly by the quarter power consumption derivation unit;
Deriving, by the allowable reference power amount deriving unit, a quarterly allowable reference power amount based on the derived quarterly power consumption;
Determining, by the overload occurrence determining unit, whether the switchboard is overloaded by comparing the measured power consumption with the derived quarterly allowable reference power;
Collecting, by the abnormal situation occurrence determination unit, the environmental information inside the switchboard, and determining whether or not the abnormal situation inside the switchboard based on the collected environmental information:
Controlling, by the switchboard state controller, the state of the switchboard if it is determined that an overload or abnormality in the switchboard has occurred;
Smart switchboard supervisory control method comprising a. The method of claim 8,
Comparing the measured power consumption and the derived quarterly allowable reference power amount, and determining whether the switchboard is overloaded,
Smart switchboard monitoring and control method characterized in that it is determined that the switchboard is overloaded when the power consumption exceeds the quarterly allowed reference power as a result of the comparison of the power consumption and the quarterly allowed reference power. The method of claim 8,
Collecting environmental information inside the switchboard, and determining whether the abnormal situation in the switchboard based on the collected environmental information,
Collects environmental information including at least one of temperature information, humidity information, leakage information, vibration information, and dust information from detection sensors installed inside the switchboard, and compares the collected environmental information with preset dangerous water level information for each information. Analyzing whether or not an abnormal situation occurs in the switchboard, if the collected environmental information does not belong to the normal value range of the predetermined risk level information for each information, smart switchboard monitoring characterized in that it determines that the abnormal situation occurred in the switchboard Control method. The method of claim 8,
If it is determined that an overload or abnormality in the switchboard has occurred in the switchboard, controlling the state of the switchboard includes:
If it is determined that the switchboard is overloaded, cut off the power supplied from the switchboard, generate the status information of the switchboard according to the overload, and the temperature information inside the switchboard does not fall within the normal value range of the preset temperature hazard level information or inside the switchboard. The humidity information does not fall within the normal range of the preset humidity level information, or the leak information inside the switchboard does not fall within the normal range of the leak danger level information, or the vibration information inside the switchboard is preset. Smart switchboard supervisory control for generating status information of the switchboard according to the cause of the abnormal situation when the dust does not belong to the normal value range or the dust information inside the switchboard does not belong to the normal value range of the preset dust hazard level information. Way. The method of claim 8,
If it is determined that an overload or abnormality in the switchboard has occurred in the switchboard, after controlling the state of the switchboard,
Quarterly power consumption, which is derived quarterly, is transmitted to the power user terminal, and the status information of the switchboard generated according to the overload or the status information of the switchboard generated according to the cause of an abnormal situation further includes transmitting to the switchboard manager terminal. Smart switchboard monitoring control method characterized in that.

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