KR101449084B1 - Load management system in home - Google Patents

Abstract

A technology relating to an intelligent power network is disclosed.
A home-state load management system according to an embodiment of the present invention includes: a metering value detecting unit that detects a metering value indicating a power consumption amount of a power consumer; A consumption level determining unit for determining a power consumption level of the power consumer through the detected metering value; And a lighting control unit for controlling the brightness of the lighting apparatus used in the power supply with a predetermined illumination corresponding to the determined power consumption level, thereby realizing control and management of power consumption of the power supply in real time and improving energy efficiency .

Description

[0002] Load management system in home [0003]

The present invention relates to an intelligent power network technology, and more particularly, to an in-home load management system for controlling and managing power consumption of a power consumer in real time by interlocking an automatic meter-reading system and an illumination control system and improving energy efficiency, House display device.

The Automatic Meter Reading System is a system that performs remote meter reading through the terminal without directly visiting the metering values of water, gas, heat, hot water, etc., as well as the electricity consumed in each customer. It says. Such an automatic meter reading system can collect various quantitative value information by a telephone line, a power line, or a radio frequency system, and is able to grasp billing patterns as well as bill issuance in conjunction with a computer system. In recent years, with the increasing interest in smart grids that optimize energy efficiency by enabling real-time information exchange between power suppliers and consumers by combining information technology (IT) with existing power grids, research on remote meter reading systems And development is rapidly increasing.

However, the existing remote meter reading system is merely a role of providing collected information of the value to suppliers and consumers, and has a problem that it can not provide a solution for controlling and managing the energy consumption patterns of consumers. In particular, it monitors the power consumption of power consumers in real time, and does not offer any solution to reduce power consumption and improve energy efficiency by precisely controlling and managing power consumption according to the power consumption level of power consumers. .

Embodiments of the present invention seek to control and manage the power consumption of power consumers by interlocking the remote meter reading system and the light control system.

Embodiments of the present invention also seek to reduce power consumption and improve energy efficiency by precisely controlling and managing the power consumption of a power consumer according to the power consumption level.

In addition, it will be apparent to those skilled in the art that the embodiments according to the present invention can solve still other technical problems not mentioned above.

A home-state load management system according to an embodiment of the present invention includes: a metering value detecting unit that detects a metering value indicating a power consumption amount of a power consumer; A consumption level determining unit for determining a power consumption level of the power consumer through the detected metering value; And a lighting control unit for controlling the brightness of the lighting apparatus used in the power supply with a predetermined illuminance corresponding to the determined power consumption level.

In one embodiment, the metering value detecting unit detects the metering value from a watt-hour meter or a home-visit control apparatus of an automatic meter-reading system for remotely measuring the power consumption of the power consumer.

In one embodiment, the consumption level determination unit compares the current power consumption amount of the power consumer calculated through the detected metering value with a predetermined reference consumption amount to determine the power consumption level of the power consumer.

In one embodiment, the consumption level determining unit determines the power consumption level of the power consumer as one of a plurality of levels.

In one embodiment, the illumination control unit controls the brightness of the illumination device at an illumination level corresponding to the determined power consumption level among a plurality of illumination levels.

In one embodiment, the lighting control unit controls the brightness of the lighting apparatus to reduce the power consumption level of the power consumer to the reference level when the determined power consumption level is higher than a predetermined reference level .

In one embodiment, the lighting control unit sequentially controls the plurality of lighting apparatuses in accordance with a predetermined control priority order when the plurality of lighting apparatuses used in the power supply are plural.

In one embodiment, the illumination control unit includes: a power supply unit that converts power supplied from a power supplier into driving power for driving the lighting device; And an illuminance adjusting unit for controlling the converted driving power to adjust the brightness of the illumination device to the predetermined illuminance.

In one embodiment, the lighting control unit controls the brightness of the LED lighting apparatus used in the power supply.

In one embodiment, the power supply unit converts an AC power supplied from a power supplier into a DC driving power for driving the LED lighting apparatus.

The home-use display device according to an embodiment of the present invention is a home-use display device that provides power consumption information to the power consumer in an automatic meter-reading system for remotely checking the power consumption of a power consumer, A weighing value detector for detecting a weighing value; And a consumption level determiner for determining the power consumption level of the power consumer based on the detected metering value and transmitting the determined power consumption level information to the lighting control system for controlling the brightness of the lighting device used in the power consumer .

In one embodiment, the in-house display device includes a communication unit that performs information communication with the lighting control system, and transmits the determined power consumption level information to the lighting control system through the communication unit.

Embodiments of the present invention allow for monitoring, as well as control and management, of the power consumption of the power consumer by interlocking the remote metering system and the lighting control system.

Embodiments of the present invention also allow precise control and management of power consumption by adjusting the brightness of a lighting apparatus used in a power consumer stepwise according to the power consumption level.

Furthermore, the embodiments of the present invention can reduce power consumption, improve energy efficiency, and enable the implementation of an intelligent power grid (Smart Grid) by managing the amount of power consumed in the entire power grid system in units of constituent generations.

1 is a block diagram illustrating an example of a power network system to which an in-house load management system according to embodiments of the present invention is applied.
2 is a block diagram showing an example of a remote meter reading system interlocked with an in-house load management system according to embodiments of the present invention.
FIG. 3 is a block diagram illustrating an in-house load management system according to an embodiment of the present invention; FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to clarify solutions to technical problems of the present invention. In the following description of the present invention, however, the description of related arts will be omitted when it is determined that the gist of the present invention can be obscured. In addition, the following terms are defined in consideration of the functions of the present invention, and may be changed according to intentions or customs of a user, an operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

FIG. 1 is a block diagram illustrating an example of a power network system to which an in-house load management system according to embodiments of the present invention is applied.

1, the power grid system 100 includes a power supply 110 that generates and supplies power and a power consumer 130 that consumes the supplied power. The power supply system 110 includes a transmission and distribution system 120, System (Automatic Meter Reading System) 140.

The transmission and distribution system 120 provides power to each power consumer 130 by transmitting and distributing the power produced and supplied by the power supplier 110.

The remote meter reading system (140) measures the amount of power consumed in each customer and stores a meter reading value of the meter value. When there is an inquiry about the meter reading value at the power supplier (110) side, And provides the meter reading value information to the terminal 110 side. In addition, the remote meter-reading system 140 provides information on the power consumption amount or the meter reading value to the power receiver 130 through an in-house display (In Home Display).

However, the remote meter-reading system 140 can provide information on the amount of power consumed in each power consumer 130 to the power supplier 110 or the corresponding power consumer 130, There is a problem that the function can not be provided.

Accordingly, the power grid system 100 can efficiently and precisely control and manage the amount of power consumed in each power consumer 130 by including the in-house load management system 150 according to the embodiments of the present invention .

FIG. 2 is a block diagram illustrating an example of an automatic meter reading system capable of interlocking with an in-house load management system according to an embodiment of the present invention.

2, the remote meter reading system 140 includes a meter unit 212, a home control unit (HCU) 214, an in-home display (IHD) 216, an automatic meter reading server 220, a monitoring server 230, and a meter reading unit 240.

The metering unit 212 converts various types of resource usage such as electricity, water, gas, heat, and hot water used in the customer 210 into predetermined pulses and outputs the pulses. In particular, the metering unit 212 includes a watt-hour meter (WHM) that converts the power consumption of the customer 210 into a predetermined pulse and outputs the pulse. The home control unit (HCU) 214 generates a weighing value through the pulses output from the weighing unit 212. The in-house display unit (IHD) 216 displays various information on the resource usage amount through the metering value and provides it to the customer 210.

The remote meter reading server 220 receives the metering value of the customer 210 and stores the metered value as a meter reading value, and transmits the meter reading value to the monitoring server 230. The remote meter reading server 220 may include a central control unit (CCU) 222, a remote meter reading unit 224, and a meter reading value database 226. The central control unit (CCU) 222 reads the weighing value from the home control unit (HCU) 214. In this case, RS-485 exclusive line communication or Power Line Communication may be used for data communication between the HCU 214 and the CCU 222. The remote meter reading unit 224 generates a meter reading value read by the central control unit (CCU) 222 as meter reading value information for the corresponding customer 210, stores the meter reading value information in the meter reading value database 226, And transmits the meter reading value information to the monitoring server 230 through the communication network whenever a request is made from the server 230. In this case, an RS-232C method may be used for data communication between the central control unit (CCU) 222 and the remote meter reading unit 224, and the communication network may include various communication networks such as an Internet network, an Ethernet network, have.

The monitoring server 230 receives and stores meter reading value information transmitted from a meter reading site located at a plurality of remote locations. For this, the monitoring server 230 may include a meter reading unit 232 and a meter reading value storage unit 234. The meter reading value collecting unit 232 collects meter reading value information from the remote meter reading server 220 in various areas, and the meter reading value storing unit 234 stores the collected meter reading value information by building a database.

The meter reading value inquiry unit 240 searches the meter reading value information stored in the monitoring server 230 for managing the electricity use history of the consumer and charging the charge on the side of the resource supplier requiring the meter reading value information, And inquires necessary information.

The household load management system 150 according to the embodiments of the present invention can manage the load of the power consumer 130, that is, the power consumption amount, in cooperation with the remote meter reading system 140 described above.

FIG. 3 is a block diagram illustrating an in-house load management system according to an embodiment of the present invention.

3, the in-house load management system 150 includes a metric value detector 310, a consumption level determiner 320, and a lighting controller 330.

First, the metric value detecting unit 310 detects a metric value indicating the power consumption of the power consumer. For example, the metering value detecting unit 310 may include a watt-hour meter 212 or a home control unit (not shown) of an automatic meter reading system 140 that remotely meters the power consumption of the power consumer. : 214). In this case, the metering value detection unit 310 may include a predetermined interface unit (not shown) for enabling data communication with the watt hour meter 212 or the home control apparatus 214.

Next, the consumption level determiner 320 determines the power consumption level of the power consumer based on the detected metering value. For example, the consumption level determiner 320 determines the power consumption level of the power consumer by comparing the current power consumption amount (power consumption amount per hour) of the power consumption calculated based on the detected metering value with a predetermined reference consumption amount . In addition, the consumption level determiner 320 may determine the power consumption level of the power consumer as one of a plurality of levels by comparing the current consumption amount with the predetermined reference consumption amounts of different sizes.

Next, the illumination control unit 330 controls the brightness of the illumination device 340 used in the power supply with a predetermined illumination corresponding to the determined power consumption level. For example, when the determined power consumption level is higher than a predetermined reference level, the lighting control unit 330 controls the brightness of the lighting apparatus 340 to reduce the power consumption level of the power consumer to the reference level can do. In this manner, the lighting control unit 330 controls the brightness of the lighting device 340 used in the power supply, thereby enabling management of the power consumption of the power consumer. In addition, the illumination control unit 330 may control the brightness of the illumination device to a level corresponding to the determined power consumption level among a plurality of illumination levels corresponding to a plurality of power consumption levels. In this manner, the lighting controller 330 can adjust the brightness of the lighting device 340 in a stepwise manner corresponding to the power consumption level of the power consumer, thereby enabling accurate management of the power consumption of the power consumer.

The illumination control unit 330 may include a power supply unit 332 and an illuminance adjustment unit 334. The power supply unit 332 converts power supplied from a power supplier into driving power for driving the lighting unit 340 and supplies the driving power. For example, when the lighting apparatus 340 is a LED (Light Emitting Diode) lighting apparatus, the power supply unit 332 supplies AC power supplied from a power supplier to a DC (direct current) It can be converted into a power source and supplied. In this case, the power supply unit 332 may include a switching converter for converting AC power to DC power by switching the voltage or current of the converted DC power to the lighting device 340, And a power controller for controlling the switching of the switching converter through a feedback control circuit so that a constant voltage or a constant current is output through a predetermined output unit, . ≪ / RTI > Meanwhile, the power control unit may be implemented as an MCU (Micro-Controller Unit). Also, according to an embodiment, the power control unit may be implemented using various types of SMPS (Switching Mode Power Supply). The SMPS has a function of transforming a voltage to provide a current, and a switching regulator method, a variable resistance method, an active linear method, etc. can be used. In this case, pulse width modulation (PWM) A phase change method or the like can be applied. The illumination controller 334 controls the converted driving power to adjust the brightness of the illumination device to the predetermined illuminance. For example, when the lighting device 340 is an LED lighting device, the brightness of the LED lighting device can be controlled by controlling the DC driving power supplied to the LED lighting device. That is, the illuminance adjusting unit 334 can adjust the brightness of the LED lighting device through the dimming function of the LED lighting.

In one embodiment, the lighting control unit 330 may control the plurality of lighting apparatuses in turn according to a predetermined control priority order when the plurality of lighting apparatuses 340 used in the power receptacle are plural. For example, the control priority for a plurality of lighting apparatuses is determined in the order of outdoor, indoor, and emergency lights and set in the lighting control unit 330. When the power consumption of the power consumer exceeds the reference consumption amount, 330 to lower or turn off the illuminance of the illumination devices according to the control priority. For this, the lighting controller 330 may use a relay, a switching device, or the like.

In addition, in one embodiment, the metering value detector 310 and the consumption level determiner 320 may be configured to determine whether the power consumption amount (IHD) 216 that provides the power to the power consumer. That is, the in-house display device (IHD) 216 according to an embodiment of the present invention includes a metering value detecting unit 310 for detecting a metering value indicating a power consumption amount of a power consumer, And a consumption level determiner 320 for determining the consumption level and transmitting the determined power consumption level information to the lighting control system 330 for controlling the brightness of the lighting device used in the power consumer. The metering value detecting unit 310 may detect the metering value from the watt hour meter 212 or the in-home control unit (HCU) 214 of the remote metering system 140. The consumption level determiner 320 may determine the power consumption level of the power consumer by comparing the current power consumption amount of the power consumer calculated through the detected metering value with a predetermined reference consumption amount. The consumption level determiner 320 may determine the power consumption level of the power consumer to be one of a plurality of levels. In this case, the in-house display (IHD) 216 includes a communication unit (not shown) for performing information communication with the lighting control system 330, and transmits the determined power consumption level information to the lighting control system (330). Various communication methods such as power line communication, wireless communication, or visible light communication may be applied to communication between the in-house display device (IHD) 216 and the lighting control system 330.

Embodiments of the present invention can be implemented using computer-readable program codes on a computer-readable recording medium. When the embodiments of the present invention are executed through software, the constituent means of the present invention are code segments that execute necessary operations. The program or code segments may also be stored in a processor readable medium of a computer or transmitted in a computer data signal coupled with a carrier wave via a transmission medium or a communication network.

Computer-readable recording media include any type of recording device that stores data that can be read by a computer system. For example, the computer-readable recording medium may include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like. In addition, the computer-readable recording medium may be distributed over network-connected computer systems so that the computer readable code is stored and executed in a distributed manner.

As described above, embodiments of the present invention enable monitoring and control of power consumption of a power consumer by interlocking the remote meter reading system and the light control system. Embodiments of the present invention also allow precise control and management of power consumption by adjusting the brightness of a lighting apparatus used in a power consumer stepwise according to the power consumption level. Furthermore, the embodiments of the present invention can reduce power consumption, improve energy efficiency, and enable the implementation of an intelligent power grid (Smart Grid) by managing the amount of power consumed in the entire power grid system in units of constituent generations.

The present invention has been described with reference to the embodiments. However, it will be understood by those skilled in the art that the present invention may be embodied in various other forms without departing from the spirit or essential characteristics thereof. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. That is, the true technical scope of the present invention is indicated in the appended claims, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

Claims (15)

delete delete delete delete A metering value detecting unit for detecting a metering value indicating a power consumption amount of the power consumer;
A consumption level determining unit for determining a power consumption level of the power consumer through the detected metering value; And
And a lighting control unit for controlling the brightness of a lighting apparatus used in the power supply with a predetermined illumination corresponding to the determined power consumption level,
Wherein the consumption level determination unit determines the power consumption level of the power consumer as one of a plurality of levels by comparing the current power consumption amount of the power consumer calculated through the detected metering value with a predetermined reference consumption amount,
Wherein the lighting control unit controls the brightness of the lighting apparatus to a lighting level corresponding to the determined power consumption level among a plurality of lighting levels. A metering value detecting unit for detecting a metering value indicating a power consumption amount of the power consumer;
A consumption level determining unit for determining a power consumption level of the power consumer through the detected metering value; And
And a lighting control unit for controlling the brightness of a lighting apparatus used in the power supply with a predetermined illumination corresponding to the determined power consumption level,
Wherein the lighting control unit controls the brightness of the lighting apparatus to reduce the power consumption level of the power consumer to the reference level when the determined power consumption level is higher than a predetermined reference level. The method according to claim 6,
Wherein the lighting control unit sequentially controls the plurality of lighting apparatuses according to a predetermined control priority order when the plurality of lighting apparatuses used in the power receptacle are plural. A metering value detecting unit for detecting a metering value indicating a power consumption amount of the power consumer;
A consumption level determining unit for determining a power consumption level of the power consumer through the detected metering value; And
And a lighting control unit for controlling the brightness of a lighting apparatus used in the power supply with a predetermined illumination corresponding to the determined power consumption level,
Wherein the illumination control unit includes:
A power supply unit for converting power supplied from a power supplier into driving power for driving the lighting device; And
And controlling the converted driving power to adjust the brightness of the illumination device to the predetermined illuminance. 9. The method of claim 8,
Wherein the lighting control unit controls the brightness of an LED (Light Emitting Diode) lighting device used in the power supply. 10. The method of claim 9,
Wherein the power supply unit converts an AC power supplied from a power supplier into a DC driving power for driving the LED lighting device and supplies the AC power. A metering value detecting unit for detecting a metering value indicating a power consumption amount of the power consumer;
Comparing the current power consumption amount of the power consumer calculated through the detected metering value with a predetermined reference consumption amount to determine the power consumption level of the power consumer as one of a plurality of levels and outputting the consumption level information An in-house display device, including a level judging section, for providing power consumption information to the power consumer; And
And a lighting controller for receiving the consumption level information output from the in-house display device and controlling the brightness of the lighting device at an illumination level corresponding to the determined power consumption level among the plurality of illumination levels. 12. The method of claim 11,
Wherein the metering value detecting unit detects the metering value from a watt-hour meter or a home control unit of the remote meter-reading system. delete delete 12. The method of claim 11,
Wherein the household load management system includes a communication unit that performs information communication with the lighting control unit and transmits the determined consumption level information to the lighting control unit through the communication unit.

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