KR20130037886A - System and method for analsing variation of energy usage by diagnosing energy utilization - Google Patents

Abstract

PURPOSE: A system for analyzing the increase and decrease of energy use through energy user diagnosis and a method thereof are provided to utilize external environment information as the standard when energy use progress is diagnosed, thereby accurately analyzing validity for the increase and decrease of the energy use. CONSTITUTION: A collection unit(210) collects information for the amount of used energy from a remote meter. When the amount of used energy increases over a fixed rate, an analysis unit(220) analyzes the validity of energy use increase by comparing energy use progress with external environment information. When the amount of increased used energy is not validity, a deduction unit(230) deducts an energy saving element for a home. A management unit(240) displays the energy saving element through a display unit. [Reference numerals] (210) Collection unit; (220) Analysis unit; (230) Deduction unit; (240) Management unit;

Description

Energy use increase / decrease analysis system and method through diagnosis of energy use {SYSTEM AND METHOD FOR ANALSING VARIATION OF ENERGY USAGE BY DIAGNOSING ENERGY UTILIZATION}

Embodiments of the present invention relate to an energy management system and method for effectively analyzing and reducing energy use through diagnosis of energy use trends.

Recent climate change and energy issues have emerged as global challenges, and power consumption and carbon emissions have emerged as key issues in many areas.

Existing forms of energy consumption are difficult to balance supply and demand because consumption and charges are simply made by initial contracts between users and suppliers, without special control or management functions. It was impossible. Therefore, there are many difficulties in establishing energy management policies in Korea, where resources are scarce.

Recently, measures to efficiently consume limited energy such as time-based differential rate plans and real-time rate plans have been proposed, and efforts have been made to solve energy supply and demand problems. However, existing power meters, water meters, gas meters and operational management servers for suppliers that use them for energy demand measurement and energy management only use algorithms developed for load management and billing purposes.

Korean Patent Registration No. 10-0586931 (Registration Date May 29, 2006) discloses an energy management technology for analyzing the energy consumption pattern based on the actual energy consumption by checking the actual usage in real time.

However, the existing energy management technology displays the energy usage used in each home or building through a meter by hour, day, and month, and simply checks the increase and decrease of energy use by collecting and heating the energy use trend.

The present specification proposes a method for more accurately analyzing the energy use trend through a diagnosis system and effectively reducing and analyzing energy.

The present invention provides an energy management system and method for analyzing energy use effectively through diagnosis of energy use trends.

It provides an energy management system and method that can accurately analyze the feasibility of increasing or decreasing energy use by using external environmental information.

The present invention provides an energy management system and a method for providing a practical energy saving method according to the feasibility of increasing or decreasing energy use.

A collecting unit for collecting energy usage information by an energy device consuming energy at home from a remote meter for each home; Analyzing the energy usage trend by accumulating energy usage information at regular intervals, and analyzing the feasibility of increasing the energy usage by comparing with external environmental information when the energy usage is rapidly increased by a certain ratio in the energy usage trend; Derivation unit for deriving the energy saving factor for the home if it is determined that the use of energy surged more than a certain ratio is not reasonable; And a management unit which displays the energy saving element through the display means in association with the display means which the at least one resident living in the home can check.

According to an aspect, the collector may collect energy usage information for each individual place or energy device in the home through a remote meter, and the analyzer may collect individual places, periods, or energy devices in which energy use has increased by a certain percentage or more in the energy use trend. The feasibility of increasing energy use can be analyzed for at least one of the subjects.

According to another aspect, the analyzer may analyze the feasibility of increasing energy use based on external environment information including at least one of weather, seasons, occupants' access, or the number of occupants.

According to another aspect, the derivation unit may determine at least one of lighting, room temperature, ventilation, or standby power cut off as an energy saving factor.

According to another aspect, the display means may mean a home network device installed in the home to control the driving of the energy device, wherein the manager may remotely control the driving of the energy device according to the energy saving factor through the home network device. Can be.

Collecting energy usage information for each household by an energy device consuming energy at home from a remote meter; Analyzing energy usage trends by accumulating energy usage information at regular intervals; Analyzing the feasibility of increasing energy use in comparison with external environmental information when energy use is rapidly increased by a certain ratio in the energy use trend; Deciding an energy saving factor for the home if it is determined that the use of energy that has increased more than a certain ratio is not feasible; And displaying the energy saving element through the display means in association with the display means which the at least one occupant living in the home can check.

Accurate diagnosis of energy use trends can effectively analyze energy use.

When assessing the trend of energy use, external environmental information can be used as a reference to accurately analyze the feasibility of increasing or decreasing energy use.

If the increase in energy use is considered wasteful, it is possible to induce energy saving in a more proactive way by deriving practical energy saving measures and suggesting them to users.

The energy saving measures derived from the increase in energy use can automatically manage the energy use in the home in an automatic environment by automatically controlling the energy devices in the home.

1 is a view for explaining the relationship between the remote meter and the energy management system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating an internal configuration of an energy management system that provides an analysis function and a saving function for energy use according to an embodiment of the present invention.
3 is a flowchart illustrating an energy management method for providing an analysis function and a saving function for energy use according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The embodiments of the present invention include a power line communication (PLC) technology, an Internet Protocol-Ubiquitous Sensor Network (IP-USN), Wi-Fi, which uses a power line installed as a communication line to supply power to each home or city facility. Based on a wireless communication means such as RF, RF, etc., it can be applied to an integrated energy management system that can monitor and control power consumption, gas consumption, or water consumption consumed in each home or city facility.

1 is a view for explaining the relationship between the remote meter and the energy management system according to an embodiment of the present invention. FIG. 1 illustrates an energy management system 100 that proposes an efficient energy saving method through accurate diagnosis of energy use trends in each home.

The energy management system 100 may provide a control function for the energy increase trend of each home by monitoring energy usage consumed in each home as a server system for energy integrated management. In other words, the energy management system 100 may collect the energy usage information by the energy device 101 consuming energy in each household through the remote meter reader 102 of each household and make a database thereof.

In this case, the energy usage information includes at least one of power usage, gas usage, water usage, or hot water usage, and the remote meter reading unit 102 may include a power meter, a water meter, a gas meter, and the like. In addition, the remote meter reader 102 may be provided with wired / wireless communication means to directly transmit energy usage information consumed in the home to the energy management system 100.

In addition, the energy device 101 may include all devices or equipment installed or installed in a home, such as an air conditioner / heating device, a home appliance, a lighting device, and consume energy resources such as electricity, gas, and water.

The energy management system 100 may analyze the energy usage trend of each household, and also analyze the feasibility of increasing the energy usage in the energy usage trend. Thus, the energy management system 100 may provide a home inhabitant with a specific method to reduce energy when energy waste is detected as a result of feasibility analysis of increased energy use.

In addition, the energy management system 100 may directly manage energy consumption of the home in association with the home network device 103 installed in the home when energy waste in the home is detected. Here, the home network device 103 means a medium that is installed in each home and can centrally control the energy devices 101 existing in the home. For example, the home network device 103 may be configured as a home network wall-pad used in a form attached to a wall of a kitchen or a living room of a home. Here, the home network type wall pad is basically configured as a touch screen to provide an interface function with the residents living in the home, and in addition to the door phone function, it provides various functions including security, disaster prevention, energy device control, It can provide functions such as video call, internet access and TV reception. That is, the home network device 103 may centrally control the energy device 101 by maintaining a connection with the home energy device 101 through a wired / wireless communication interface.

In addition, the home network device 103 is configured as a system with the remote meter 102 or in a form associated with the remote meter 102, the energy management system 100 read the energy usage information read by the remote meter 102 ) Can be sent. The home network device 103 monitors energy usage history such as power on / off time or on / off state for each energy device 101, energy usage for each energy device 101, and total energy consumption at home. At the same time, the energy usage information may be transmitted to the energy management system 100. In this case, the home network apparatus 103 may transmit energy to the energy management system 100 including the energy usage history input manually by the residents, as well as the energy usage history that can be analyzed automatically. In addition, the home network device 103 may control the power and operation of the home energy device 101 under the control of the energy management system 100.

Accordingly, the energy management system 100 centralizes energy use for a plurality of homes (home 1 to home N), and operates in conjunction with the remote meter 102 and / or the home network device 103 to provide energy for each home. Services can be provided that monitor usage and manage energy savings in each household based on energy use trends.

Referring to Figure 2, the detailed configuration and function of the energy management system 200 according to an embodiment will be described in detail.

FIG. 2 is a block diagram illustrating an internal configuration of an energy management system that provides an analysis function and a saving function for energy use according to an embodiment of the present invention. As shown in FIG. 2, the energy management system 200 according to an embodiment may include a collecting unit 210, an analyzing unit 220, a deriving unit 230, and a managing unit 240.

The collecting unit 210 collects energy usage information by energy devices in the home from the remote meter for each home. In this case, the energy usage information may include at least one of power usage, gas usage, water (water / sewerage) usage, and hot water usage. For example, the collector 210 may periodically collect energy usage information through a remote meter, and may collect energy usage information by dividing the energy usage information by individual places (eg, homes, study rooms, living rooms, etc.) or energy devices in the home. .

The analyzer 220 accumulates the energy usage information for each predetermined period and analyzes the energy usage trend. In this case, the analyzer 220 collects energy usage information periodically collected by the collector 210 in minutes, hours, days, weeks, months. ) Energy trends can be analyzed cumulatively over one period of time. In addition, the analysis unit 220 performs a role of analyzing the feasibility of increasing the energy use compared to the external environmental information when the recent energy use is rapidly increased by a certain ratio in the energy use trend. In detail, the analysis unit 220 may extract at least one target of an individual place, a cycle, or an energy device in which energy usage has increased rapidly through the energy use trend, and compares the energy usage of the extracted target with external environmental information The feasibility of increasing usage can be analyzed. In this case, the external environment information may use at least one of weather, seasons, whether residents have access, or the number of residents. Here, whether or not the occupant enters and the number of occupants may be predicted based on the average energy consumption of the corresponding home, or may be directly input by the occupant through a home network device interworking with the energy management system 200. For example, in the summer, the use of air conditioners increases power consumption compared to other seasons, and in winter, energy consumption due to hot water and heating increases compared to other energy sources. You can determine if the increase in use is justified. In other words, assuming that an appropriate range for energy consumption is determined according to external environmental information such as weather, seasons, occupants, or the number of occupants, whether the current energy consumption of a household is appropriate or not. Analyze if it is wasting level. Therefore, the analysis unit 220 may determine that the current increase in energy use is not appropriate even when considering the external environment information when the current energy usage exceeds a predefined energy use range in consideration of external environment information.

The derivation unit 230 may derive an energy saving factor for the home if it is determined that the use of energy that has increased more than a predetermined ratio is not valid, that is, wasted. In this case, the derivation unit 230 may determine at least one of lighting, room temperature, ventilation, or standby power blocking as an energy saving factor as a method for saving energy in the home. Furthermore, the derivation unit 230 may derive an energy saving method (that is, an energy saving factor) in a manner of limiting the driving of home energy devices. For example, when it is determined that the use of electricity in the room is wasted, energy saving methods may be derived in the form of lowering the lighting of the room, lowering the room temperature, or lowering the air volume of the currently operating air conditioner.

The management unit 240 serves to display the energy saving elements derived from the derivation unit 230 through the display means in association with the display means installed in the home so that at least one resident living in the home can be identified. In this case, the display means may mean a communication terminal such as a PC or a smart phone, or a home network device installed in a home to remotely control the driving of an energy device. That is, the management unit 240 shows the energy saving factors derived in order to induce energy savings in the home to the display means so that the residents can confirm. For example, the management unit 240 'the recent increase in the amount of electricity used in the home. It is recommended to lower the lighting in the room or to reduce the room temperature by about 1 degree. ' Thus, the resident can confirm the energy saving measures presented to his home through the display means and decide to start or cancel the control of the increase trend. Furthermore, the management unit 240 may directly remotely control the driving of the energy device according to the energy saving factors derived for the residents' homes through the home network device. In other words, the management unit 240 may generate a control signal for the energy device of the home based on the energy saving factors derived from the derivation unit 230, and then transfer the control signal to the home network device. Accordingly, the home network device installed in the home receives the control signal to control the driving of the energy device, thereby reducing the energy consumption of the home.

Therefore, the energy management system 200 having the above-described configuration can analyze the trend of energy consumption of each home and apply the criteria based on external environmental information to the analyzed trend, thereby enabling accurate analysis of the energy usage. In addition, the energy management system 200 may propose a specific energy saving method for energy saving when it is determined that the energy use in the home is wasted.

3 is a flowchart illustrating an energy management method for providing an analysis function and a saving function for energy use according to an embodiment of the present invention. In the energy management method according to the present embodiment, each step may be performed by the energy management system 200 described with reference to FIG. 2.

In step 310, the energy management system 200 collects energy usage information by the energy devices in the home from the remote meter of each home. In this case, the energy management system 200 may periodically collect energy usage information through a remote meter, and may collect energy usage information by dividing the energy usage information by individual places or energy devices in the home.

In step 320, the energy management system 200 accumulates the energy usage information for each period to analyze the energy usage trend. The energy management system 200 may analyze the energy usage trend by accumulating the energy usage information periodically collected in step 310 for one predetermined period of minutes, hours, days, weeks, and months. . In addition, the energy management system 200 may analyze the feasibility of increasing the energy use compared to the external environment information when the recent energy use is rapidly increased by a certain ratio in the energy use trend. In this case, the energy management system 200 may extract at least one target of individual places, cycles or energy devices in which energy usage has rapidly increased through energy usage trends, and the energy usage of the extracted target may be extracted from weather, seasons, and residents. The feasibility of increasing energy use may be analyzed based on external environmental information including at least one of whether or not the number of residents.

In operation 330, the energy management system 200 may derive an energy saving factor for the home if it is determined that the use of energy that has increased more than a predetermined ratio is not valid, that is, wasted. The energy management system 200 may determine at least one of lighting, room temperature, ventilation standby power blocking, or driving limitation of the energy device as an energy saving factor as a method for saving energy in the home.

In operation 340, the energy management system 200 may display the energy saving element derived in operation 330 through the display means in association with the display means installed in the home so that at least one inhabitant living in the home may be identified. have. In this case, the display means may mean a communication terminal such as a PC or a smart phone, or a home network device installed in a home to remotely control the driving of an energy device. In addition, the energy management system 200 may directly remotely control the driving of the energy device according to the energy saving factors derived for the residents' homes through the home network device. In other words, the energy management system 200 may generate a control signal for the energy device of the home based on the derived energy saving factor, and then transfer the generated control signal to the home network device. Accordingly, the home network device installed in the home receives the control signal to control the driving of the energy device, thereby reducing the energy consumption of the home.

Therefore, the present invention can increase the energy use efficiency by providing a reduction function for energy use through analysis of the energy use and application of the external environment in a passive energy management method for confirming the existing energy use.

As described above, according to embodiments of the present invention, it is possible to accurately analyze the validity of the increase and decrease of energy use by using external environmental information as a reference when diagnosing the energy use trend. As a result of feasibility analysis on the increase and decrease of energy use, it is possible to induce energy saving in a more proactive way by deriving a practical energy saving plan and suggesting it to the user when it is considered that the increase in energy use is wasted.

Methods according to an embodiment of the present invention may be implemented in the form of program instructions that can be executed by various computer means and recorded in a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. In addition, the above-described file system can be recorded in a computer-readable recording medium.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

100, 200: energy management system
101: energy appliances
102: remote meter reading
103: home network device
210: collector
220: analysis unit
230: derivation unit
240: management

Claims (5)

A collecting unit for collecting energy usage information by an energy device consuming energy in the home from a remote meter for each home;
Analyzing the energy use trend by accumulating the energy usage information at regular intervals, and analyzing the feasibility of increasing energy use in comparison with external environment information when the energy use is rapidly increased by a predetermined ratio in the energy use trend;
A derivation unit for deriving an energy saving factor for the home if it is determined that the use of the energy that has increased more than the predetermined ratio is invalid; And
A management unit for displaying the energy saving element through the display means in conjunction with the display means that can be identified by at least one resident living in the home
Energy management system comprising a. The method of claim 1,
The collection unit,
Collecting the energy usage information for each individual place or the energy device in the home through the remote meter,
The analysis unit,
Analyzing the feasibility of the increase in energy use for the individual site, the period, or at least one of the energy devices in which the energy use has increased more than a certain rate in the energy use trend;
Energy management system, characterized in that. The method of claim 1,
The analysis unit,
Analyzing the feasibility of increasing energy use based on the external environmental information including at least one of weather, seasons, the presence or absence of the occupants or the number of occupants
Energy management system, characterized in that. The method of claim 1,
The derivation unit,
Determining at least one of lighting, room temperature, ventilation or standby power cut off as said energy saving factor
Energy management system, characterized in that. The method of claim 1,
The display means,
A home network device installed in the home to control driving of the energy device,
The management unit,
Remotely controlling the driving of the energy device according to the energy saving factor through the home network device
Energy management system, characterized in that.

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