KR20150041886A - Load control apparatus based on advanced metering infrastructure and operating method thereof - Google Patents

Abstract

Disclosed are a load control device based on an advanced metering infrastructure (AMI) and an operating method thereof. The load control device based on an AMI comprises a power control switch controlling introduced power according to a power control command; a smart watt-hour meter installed in a consumer, measuring and providing an amount of electricity consumed, and receiving the power control command to operate the power control switch; a data collecting device collecting the amount of electricity consumed and an operational state of the consumer from the smart watt-hour meter, providing the same to an AMI server, sensing an overload state on the basis of the amount of electricity consumed by the consumer to output the power control command to the smart watt-hour meter, and transferring the power control command, which is input in the event of emergency in power demand and supply, to the smart watt-hour meter; and a power control server selecting the consumer according to a preset power control schedule in the event of the emergency in power demand and supply, generating the power control command, and outputting the generated power control command through the data collecting device.

Description

TECHNICAL FIELD [0001] The present invention relates to a load control device based on a remote meter reading infrastructure and a method of operating the load control device based on an automatic meter reading infrastructure.

The present invention relates to a load control apparatus based on a remote meter reading infrastructure and a method of operating the same. More particularly, the present invention relates to a load control apparatus To a load control device based on a meter reading infrastructure and a method of operating the same.

The Advanced Metering Infrastructure (AMI) system is a system for measuring, collecting, and analyzing information on energy use by transmitting and receiving information to and from consumer devices such as smart watt-hour meters using various communication networks.

This remote meter reading infrastructure system basically collects information on the demand power of the customer mainly for the purpose of managing the energy use of the customer and enabling efficient use of energy.

On the other hand, the Power Management System (PMS) is used to automatically program the power control in large residential complexes, factories, industrial complexes and buildings, to facilitate the power supply through automatic measurement, System, it is possible to control, maintain and manage electric power distribution facilities mainly, to centrally monitor fire fighting, communication, and other air conditioning facilities, and collectively manage all power control related to interlocking, starting, and stopping of various facilities have.

BACKGROUND OF THE INVENTION [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2009-0031049 (published on Mar. 25, 2009, entitled " Method of calculating optimum power rate system based on remote meter reading data).

In order to prevent blackout in case of power supply unstable in performing power management, emergency load control that cuts off power supply through cyclical power failure in each region is implemented.

In the case of emergency load control, there is a problem that all the customers on the distribution line can suffer damage regardless of the customer who causes the overload due to the electrostatic method of the distribution line unit.

Moreover, even public important facilities such as hospitals, elevators, traffic lights, and the like are subject to power failure, which causes confusion.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a system and method for controlling a load of an electric power meter, And a method of operating the same.

According to an aspect of the present invention, a load control device based on an automatic meter reading infrastructure includes: a power control switch for interrupting an incoming power according to a power control command; A smart watt hour meter installed in a customer to measure and provide power consumption, and operate a power control switch by receiving a power control command; It collects power consumption and operation status of the customer from the smart watt hour meter and provides it to the AMI server. It detects the overload status based on the power consumption of the customer and outputs the power control command to the smart watt hour meter. To a smart watt hour meter; And a power control server for generating a power control command by selecting a customer according to a power control schedule set when the power supply and demand is generated and outputting the generated power control command through a data concentrator.

The present invention is characterized by further comprising a database for storing a control target priority according to a power supply situation according to a customer type and storing a power control schedule for power control in an emergency power supply and demand.

The data concentrator according to the present invention is characterized by transmitting and receiving data by a smart watt hour meter and a power line communication scheme.

The data concentrator according to the present invention is characterized in that the data concentrator is installed on the side of the transformer and detects an overload state based on the power consumption of the consumer accommodated in the transformer.

In the present invention, the power control server notifies a target customer of a load cut-off state through a mobile phone text message when a power supply / demand emergency occurs or an overload occurs and the power supply control server is shut down.

In the present invention, the power control server detects the real-time load status of each customer through power consumption and operating state of the customer provided through the AMI server.

According to another aspect of the present invention, there is provided a method of operating a load control device based on an automatic meter reading infrastructure, comprising: receiving and sensing a power consumption amount from a smart watt hour meter of a customer in connection with an AMI server; Selecting a control target customer according to a power usage amount and a power control schedule according to whether a power control server generates an electricity supply / demand emergency; And generating and outputting a power control command to the smart watt hour meter of the control target customer.

In the present invention, the power control schedule includes a control target priority according to a power supply situation according to a customer type.

The load control device and its operation method based on the remote meter reading infrastructure according to the present invention can extract the overload parts based on the remote meter reading infrastructure when executing the load control in case of power supply and demand emergency, It is possible to reduce the power failure caused by the power failure.

Also, when performing load control for individual customers according to the present invention, voluntary power saving can be induced by preferentially performing load control for a customer who violates the contract power.

In addition, according to the present invention, the load control device can be constructed based on the remote meter reading infrastructure, thereby reducing the construction cost and the operation cost, and contributing to the post management and simplification of the system.

FIG. 1 is a block diagram illustrating a load control apparatus based on a remote meter reading infrastructure according to an embodiment of the present invention.
2 is a view for explaining a load control situation by a load control device based on an automatic meter reading infrastructure according to an embodiment of the present invention.
FIG. 3 is a flowchart illustrating a method of operating a load control device based on a remote meter reading infrastructure according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a block diagram illustrating a load control apparatus based on a remote meter reading infrastructure according to an embodiment of the present invention. FIG. 2 is a block diagram of a load control system according to an embodiment of the present invention, Fig.

1, a load control apparatus based on a remote meter reading infrastructure according to an embodiment of the present invention includes a power control switch 60, a smart watt hour meter 50, a data concentrator 40, and a power control server 10, .

The power control switch 60 is installed in the smart watt hour meter 50 and interrupts the incoming power according to the power control command. That is, the power control switch 60 interrupts the incoming power from the transformer in accordance with the power control command generated in accordance with the power control schedule when the transformer (not shown) is overloaded or the power supply / reception emergency occurs.

The smart watt hour meter 50 is installed in a customer and measures and provides a power consumption amount. The smart watt hour meter 50 receives a power control command and transmits the power control command to the power control switch 60.

The smart watt hour meter 50 provides a meter reading result and an operating state of the power consumption through the power line communication method with the data concentrator 40 installed at the side of the toaster and receives operation related information from the AMI server 30 remotely You can also update.

The AMI server 30 collects the electric power consumption of the customer measured from the smart watt hour meter 50 installed in the customer by using various communication networks in the AMI system, and charges and analyzes the consumption amount for each customer.

The data concentrator 40 collects power consumption and operating state of the customer from the smart watt hour meter 50 and provides it to the AMI server 30. The data concentrating device 40 senses the overload state based on the power consumption of the customer, And transmits a power control command to the smart watt hour meter 50 when the power supply emergency occurs.

The data concentrator 40 communicates with the smart watt hour meter 50, which is accommodated in the transformer, in an overload state in a power line communication manner, and when the sum of the power consumption used in each customer reaches a threshold of the reference power amount of the transformer, Command to the smart watt hour meter 50 to activate the power control switch 60 to shut off the incoming power.

When such an overload state occurs, the AMI server 30 may notify the customer of the power control object of the load control state through a mobile phone text message.

The power control server 10 senses the real-time load status of each customer from the smart watt hour meter 50 in association with the AMI server 30 and selects a customer according to the power control schedule set when the power supply / And outputs a power control command through the data concentrator 40. [

In addition, the load control device based on the remote meter reading infrastructure according to the present embodiment stores a control target priority according to the power supply situation according to the customer type and stores a power control schedule for power control in case of emergency power supply .

That is, according to the power control schedule, for example, when the nationwide reserve power is less than 2 million kW, the load control can be performed for the overloaded customer by the one-step control.

For example, it is possible to perform load control according to power demand as well as collection management for overpriced customers and nonpayment customers.

If the nationwide reserve power is less than 1 million kW, load control can be performed for a non-critical customer such as a house or a school by a two-step control.

As shown in FIG. 2, according to the power supply and demand emergency state, the individual customers accommodated in the transformer are not subjected to the load control in a lump, and the overloaded customers or the non-important customers are preferentially selected to perform the load control, So that it can be minimized.

In addition, it is also possible to perform the cyclic interruption in units of one hour for each control target priority group.

The power control server 10 can notify the target customer of the load cutoff state through a mobile phone text message when the power supply and demand emergency occurs or an overload occurs.

In addition, the power control server 10 receives the customer type in association with the AMI server 30, stores it in the database 20 so that it can be utilized when setting the control target priority, And may be extracted and provided.

As described above, according to the load control device based on the remote meter reading infrastructure according to the present invention, when load control is performed in the event of a power supply emergency, an overload portion can be extracted based on the remote meter reading infrastructure, So that the power failure due to the batch control can be reduced.

FIG. 3 is a flowchart illustrating a method of operating a load control device based on a remote meter reading infrastructure according to an embodiment of the present invention.

As shown in FIG. 3, in the method of operating the load control device based on the remote meter reading infrastructure according to the embodiment of the present invention, another power control schedule may be set in the power supply and demand and stored in the database 20 (S10 ).

That is, when the reserve power of the whole country is less than 2 million kW, the load control can be performed for the overloaded customer by the one-step control.

For example, it is possible to perform load control according to power demand as well as collection management for overpriced customers and nonpayment customers.

If the nationwide reserve power is less than 1 million kW, the power control schedule can be set so that load control can be performed for a non-critical customer such as a house or a school by a two-step control.

It is also possible to set the control target priority group for performing the cyclic interruption.

In the state where the power control schedule is set as described above, the power control server 10 detects the power consumption of the customer from the smart watt hour meter 50 of the customer in connection with the AMI server 30 (S20).

Of course, the power control server 10 also monitors the nationwide spare power state through the power supply / demand situation of the whole country in order to determine the state of occurrence of the power supply and demand emergency.

The power control server 10 determines whether a power supply / demand emergency state has occurred in accordance with the nationwide preliminary power situation (S30).

At this time, if the power supply / demand situation is normal, the process returns to step S20 where the power consumption of the customer is sensed.

However, when the power supply / demand emergency state occurs, the customer according to the set power control schedule is selected (S40).

That is, according to the power control schedule, the power control server 10 can select an overloaded customer exceeding the contracted power according to the result of detecting the power consumption by the first stage control when the nationwide reserve power is less than 2 million kW.

For example, it is possible to perform load control according to power demand as well as collection management for overpriced customers and nonpayment customers.

In addition, if the nationwide reserve power is less than 1 million kW, you can choose a non-critical customer's home or school with a two-step control.

On the other hand, the power control server 10 can select the control target priority group for performing the cyclic interruption according to the nationwide reserve power.

Thereafter, the power control server 10 generates and outputs a power control command for load control to the selected customer (S50).

The smart watt hour meter 50 of the customer who received the power control command activates the power control switch 60 to turn off the incoming power so that the load can be controlled.

As described above, according to the operation method of the load control device based on the remote meter reading infrastructure according to the present invention, when the load control is performed in the event of an electricity supply and demand emergency, the overload parts are extracted based on the remote meter reading infrastructure, The power failure due to the batch control can be reduced. When performing the load control for each individual customer, it is possible to induce a voluntary power saving by performing the load control preferentially to the customer who violated the contract power.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the technical scope of the present invention should be defined by the following claims.

10: Power control server 20: Database
30: AMI server 40: data concentrator
50: Smart watt hour meter 60: Power control switch

Claims (8)

A power control switch for interrupting the incoming power according to the power control command;
A smart watt hour meter provided in a customer and measuring and providing a power usage amount and operating the power control switch in response to the power control command;
Collecting power consumption and operating status of the customer from the smart watt hour meter and providing the collected usage information to the AMI server, detecting an overload status based on the power consumption of the customer, outputting the power control command to the smart watt hour meter, A data concentrator for transmitting the input power control command to the smart watt hour meter; And
And a power control server for selecting the customer according to a power control schedule set when a power supply emergency occurs and generating the power control command and outputting the generated power control command through the data concentrator.
The system according to claim 1, further comprising: a database for storing a control target priority according to a power supply status according to a customer type, and storing the power control schedule for power control in case of power supply and demand emergency, Of the load.
The apparatus of claim 1, wherein the data concentrator transmits and receives data to and from the smart watt hour meter through a power line communication scheme.
The load control apparatus according to claim 1, wherein the data concentration device detects an overload state based on a power consumption amount of the customer installed in the transformer and accommodated in the transformer.
2. The load control device according to claim 1, wherein the power control server notifies a target customer of a load cut-off state through a mobile phone text message when a power supply and demand emergency occurs or an overload occurs, .
The load control apparatus according to claim 1, wherein the power control server detects a real-time load state of each customer through an electric power usage amount and an operating state of the customer provided through the AMI server.
Receiving a power usage amount from a smart watt hour meter of a customer in connection with an AMI server and detecting the power usage amount;
Selecting the control target customer according to the power usage amount and the power control schedule according to whether the power control server generates an electricity supply / demand emergency; And
And generating and outputting a power control command with the smart watt hour meter of the control target customer.
The method according to claim 7, wherein the power control schedule includes a control target priority according to a power supply situation according to a customer type.

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