JP2009245361A - Energy saving support system and energy saving support method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an energy saving support system to urge energy saving to an inhabitant in an easier way to implement. <P>SOLUTION: This system is provided with: an input section 21 in which total power consumption information and identification information for identifying individual electric appliances are inputted; a first correlation computing section 23 which computes a correlation value between changes of total power consumption within a predetermined period and changes of total power consumption which an ideal pattern shows; a second correlation computing section 24 which computes correlation values between changes of total power consumption within a predetermined period and changes of total power consumption which each increase energy pattern shows, respectively; and an output section 27 which outputs advice information for reducing the power consumption of each individual electric device based on the correlation value computed by the second correlation computing section 24 when the correlation value computed by the first correlation computing section 23 is not larger than a first threshold, and the correlation value computed by the second correlation computing section 24 is not larger than a second threshold. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an energy saving support system and an energy saving support method for promoting saving of electric energy consumed indoors.

  Residents living in a house are, for example, information obtained from monthly power company meter reading slips, performance evaluation tables related to power usage provided by power companies, etc., and equipment installed in the house to detect power consumption As a result, the power usage results consumed by a large number of individual electric devices installed in the house are grasped.

  In order to save energy by reducing the electric energy consumed in the house, the resident uses the information obtained by the above-described method to reduce the overall power consumption in the house. Can be set. However, when such energy-saving goals are set, this may force residents to be cramped, such as encouraging them to stop using specific individual electrical devices.

  If the resident can confirm whether each individual electrical device installed in the house is moving at the time that it needs most efficiently or if there is no waste there, the resident The use can be stopped at a certain time zone, or can be switched to use at an efficient time zone. By using the individual electric devices in this way, the operation of each individual electric device is optimized, not the power saving from the entire power consumption, and as a result, the total power consumption can be reduced. It becomes.

  For example, Patent Document 1 discloses that wasteful energy consumption is reduced in order to reduce energy consumption and cost effectively by preferentially reducing wasteful consumption so that comfort is not affected as much as possible. The user chooses the facility operation plan creation means that draws up and presents multiple operation plans that comply with the lower limit of comfort and the upper limit of the energy cost specified by the service user, giving priority to the reduction of energy consumption. An energy management apparatus is provided that includes facility operation execution means for executing control contents of the operation plan proposed.

JP 2005-158020 A

  However, the conventional methods for promoting energy saving including the invention described in Patent Document 1 described above quantitatively evaluate how much actual use has been achieved against the target use plan. It was not possible to notify the inhabitants living indoors how much energy saving was realized for each individual electric device installed indoors based on an objective evaluation index.

  The present invention has been proposed in view of such circumstances, and determines how much energy saving has been realized for each individual electrical device installed indoors based on an objective evaluation index. The purpose is to provide an energy-saving support system and an energy-saving support method that encourage residents to save energy in a form that is easier to realize by giving advice that encourages the appropriate operation of individual electrical equipment .

  In order to solve the above-described problems, an energy saving support system according to the present invention includes total power consumption information indicating the total power consumption consumed indoors, and identification information for identifying individual electrical devices installed indoors. And an ideal pattern indicating a change in total power consumption within a predetermined period based on a reference power consumption of an individual electric device identified by identification information input to the input means, and an ideal pattern Storage means for storing one or more types of energy increase patterns indicating changes in the total power consumption within a predetermined period in which the power consumption is increased in units of individual electrical devices identified by the identification information, and input means The correlation value between the change in the total power consumption within a predetermined period indicated by the total power consumption information input to the value and the change in the total power consumption indicated by the ideal pattern stored in the storage means is calculated. A change in the total power consumption within a predetermined period indicated by the first calculation means, the total power consumption information input to the input means, and the total power consumption indicated by each energy increase pattern stored in the storage means A second calculating unit that calculates a correlation value with each change, a first determining unit that determines whether the correlation value calculated by the first calculating unit is equal to or less than a first threshold, and a second A second determination unit that determines for each energy increase pattern whether the correlation value calculated by the calculation unit is equal to or greater than a second threshold value, and the correlation value determined by the first determination unit is the first To reduce the power consumption of each individual electrical device identified by the identification information based on the energy increase pattern in which the correlation value determined by the second determination means is equal to or greater than the second threshold when the threshold is less than or equal to the threshold Output advice information And output means.

  Further, the energy saving support method according to the present invention includes, as input means, total power consumption information indicating the total power consumption consumed indoors, identification information for identifying individual electric devices installed indoors, and identification Based on the input step in which power consumption information indicating the power consumption consumed by the individual electrical device identified by the information is input, and the reference power consumption of the individual electrical device identified by the identification information input to the input means An ideal pattern indicating a change in the total power consumption within a predetermined period, and a change in the total power consumption within a predetermined period in which the power consumption is increased in units of individual electric devices identified by identification information with respect to the ideal pattern Storage means for storing one or more types of energy increase patterns indicating the change in total power consumption within a predetermined period indicated by the total power consumption information input to the input means, and storage in the storage means A first calculation step for calculating a correlation value with a change in total power consumption indicated by the ideal pattern, and determining whether the correlation value calculated in the first calculation step is equal to or less than a first threshold value The total power consumption within a predetermined period indicated by the total power consumption information input to the input means when the correlation value determined by the first determination step and the first determination step is equal to or less than the first threshold And a correlation value calculated by the second calculation step is a second calculation step for calculating a correlation value between the change in the total power consumption amount indicated by each energy increase pattern stored in the storage unit and the second calculation step. Based on a second determination step for determining whether each energy increase pattern is greater than or equal to a second threshold value, and an energy increase pattern in which the correlation value determined in the second determination step is greater than or equal to the second threshold value And an output step of outputting an advice information to reduce the power consumption of each individual electrical device identified by the identification information.

  According to the present invention, the correlation value between the change in the total power consumption within the predetermined period and the change in the total power consumption indicated by the ideal pattern, and the change in the total power consumption within the predetermined period and each energy increase pattern Based on the correlation value with the change in the total power consumption shown, it is determined how much energy saving is realized for each individual electrical device identified by the identification information.

  Therefore, according to the present invention, from the determination result, as information for reducing the power consumption of the individual electrical device identified by each identification information, advice information for promoting the optimization of the operation of each individual electrical device is provided. By output, it is possible to encourage residents to save energy in a form that is easier to realize, and as a result, the operation of each individual electrical device is optimized based on the advice information and is consumed indoors as a whole. The amount of power consumed can be reduced.

  The energy saving support system to which the present invention is applied is a support system that promotes saving of electric energy consumed by individual electric devices installed in a house.

  FIG. 1 is a diagram showing an overall configuration of an energy saving support system 1 to which the present invention is applied. The energy saving support system 1 includes a data collection device 140 that collects total power consumption information indicating the amount of power consumed indoors and information on individual electrical devices identified by the identification information, and power consumption consumed in the house 100. And a management device 2 for managing the quantity.

  First, the configuration of the house 100 in which information related to the power consumption is managed by the management device 2 will be specifically described.

  As a specific example of the power supply facility, the house 100 is provided with a power transaction meter 101, an ampere breaker 102, a distribution board 103, and a plurality of outlets 104-109 serving as power supply terminals.

  The power transaction meter 101 is connected to a service line and measures the amount of power used purchased from an electric power company or the like.

  The ampere breaker 102 is a cutoff device that is connected between the power transaction meter 101 and the distribution board 103 and prevents excessive current from flowing to the distribution board 103 side.

  The distribution board 103 distributes the electricity supplied via the power transaction meter 101 and the ampere breaker 102, for example, 100 [V] by a single-phase two-wire system and 200 [V] by a single-phase three-wire system. Are supplied to outlets 104-109, respectively.

  The outlets 104 to 109 are wiring connection connectors that output power to individual electric devices and the like, and are connected to individual electric devices installed in the house 100 described later.

  In the house 100 provided with the power supply facilities as described above, as specific examples of individual electric devices used in a general household, an air conditioner 121, an air conditioner 122, a television receiver 123, and a television receiver 124 are provided. A refrigerator 125, a temperature measuring device 126, and a slave unit 127 for solar cell power generation are provided. In the present embodiment, for example, among the above-described individual electric devices, the usage results of the air conditioner 121, the air conditioner 122, the television receiver 123, the television receiver 124, and the refrigerator 125, which have relatively large power consumption, will be described later. To be managed by the management device 2.

  The air conditioner 121 is connected to the outlet 104 and operates by receiving power supply from the outlet 104.

  Similarly, the air conditioner 122 is connected to the outlet 105 and operates by receiving power supply from the outlet 105.

  The television receiver 123 is connected to the outlet 106 and operates by receiving power supply from the outlet 106.

  Similarly, the television receiver 124 is connected to the outlet 107 and operates by receiving power supply from the outlet 107.

  Similarly, the refrigerator 125 is connected to the outlet 108 and operates by receiving power supply from the outlet 108.

  The temperature measuring device 126 is connected to the outlet 109 and receives power supply from the outlet 109 to measure the temperature inside the house 100. Information measured by the temperature measuring device 126 may be transmitted to the management device 2 via the data collection device 140 together with power consumption information described later, and managed by the management device 2.

  In addition, the individual electric equipment that is the target of the measurement of the power consumption is given priority from the individual electric equipment installed in the house 100, for example, by using the rated power consumption, etc. as a determination index, with the relatively high power consumption by the resident. Preferably selected. The individual electrical devices to be managed are selected in such a priority order from the viewpoint of efficiently using a finite number of communication lines for transmission to the management device 2 and the use of devices with large power consumption. This is because it is desirable from the viewpoint of greatly affecting energy saving.

  As illustrated in FIG. 2, the data collection device 140 includes a measurement unit 143, an operation unit 145, a reception unit 146, a storage unit 147, and a transmission unit 148.

  The measuring unit 143 is connected to the indoor wiring connecting the ampere breaker 102 and the distribution board 103, and detects the current flowing through the indoor wiring, thereby measuring the amount of electric power purchased from the electric power company, The amount of electric power is stored in the storage unit 147 as total power consumption information indicating the total amount of power consumed indoors. For example, the measurement unit 143 measures the total power consumption for 30 minutes or 60 minutes, and stores the total power consumption information indicating the measured total power consumption in the storage unit 147.

  The operation unit 145 receives identification information for identifying the individual electric device as information on the individual electric device by the resident. In the present embodiment, the operation unit 145 receives identification information for identifying the air conditioner 121, the air conditioner 122, the television receiver 123, the television receiver 124, and the refrigerator 125 by the resident. Then, the operation unit 145 stores the input identification information in the storage unit 147.

  In addition, as information other than the identification information, the operation unit 145 includes information on a usage time and a usage time zone set as a target for saving power consumption of the individual electrical device as target usage information for each individual electrical device. Entered by the resident. Further, the operating unit 145 receives the rated power consumption information indicating the rated power consumption of the individual electric device by the resident for each individual electric device. The operation unit 145 stores the target usage information and the rated power consumption information regarding the usage time and the usage time zone in the storage unit 147 in association with the identification information.

  The storage unit 147 manages and stores information supplied from the measurement unit 143 and the operation unit 145 as follows. That is, the storage unit 147 stores total power consumption information, and stores target usage information and rated power consumption information associated with each identification information in a storage area indicated by an address corresponding to the identification information.

  The transmission unit 148 transmits the information stored in the storage unit 147 to the management device 2. Specifically, the transmission unit 148 transmits information related to the individual electric equipment set by the operation unit 145 and also displays total power consumption information periodically stored in the storage unit 147, for example, every day (24 hours). Send regularly.

  In the energy saving support system 1, the power usage results of the individual electric devices provided in the house 100 are managed by the management device 2 as shown in FIG. 3, and the power usage used in the house 100 for one day as an evaluation target period, for example. Achievements are evaluated.

  The management device 2 generates ideal pattern information and energy increase pattern information, which will be described later, based on target usage information for each individual electric device installed in the house 100, and changes in the power consumption amount indicated by the generated patterns. In order to quantitatively compare the change in the amount of power consumed in the house 100 during the evaluation target period, the following configuration is provided.

  That is, the management device 2 is usually provided with, for example, a central processing unit (CPU), a read only memory (ROM), a random access memory (RAM), a hard disk drive (HDD), a user interface, and an input / output interface. As shown in FIG. 3, specifically, an input unit 21, an input information storage unit 22, and a first correlation calculation unit 23 are realized by installing software in the computer. And a second correlation calculation unit 24, a control unit 25, an advice information storage unit 26, and an output unit 27.

  The management device 2 captures an increasing change in the amount of power consumed in the house 100 from the correlation values calculated by the first correlation calculation unit 23 and the second correlation calculation unit 24, which will be described later. In order to make it easier, that is, advice information for reducing power consumption is notified to the resident.

  The input unit 21 receives information transmitted from the data collection device 140 installed in the house 100 described above. That is, the input unit 21 receives total power consumption information indicating the total power consumption consumed in the house 100 and identification information for identifying individual electric devices installed indoors in the house 100.

  When the input total power consumption information indicates the total power consumption for 30 minutes, the input unit 21 converts the total power consumption for one hour, for example, and indicates the total power consumption for each converted time Information is stored in the input information storage unit 22.

  Also, the rated power consumption information and the target usage information are input to the input unit 21 as information associated with each identification information. The input unit 21 stores the input information in the input information storage unit 22.

  The first correlation calculation unit 23 changes the total power consumption within a predetermined period indicated by the total power consumption information, and the total power consumption within a predetermined period indicated by an ideal pattern stored in an internal memory 251 described later. The correlation value with the change of is calculated.

  The second correlation calculation unit 24 changes the total power consumption within a predetermined period indicated by the total power consumption information and the total consumption within a predetermined period indicated by each energy increase pattern stored in the internal memory 251 described later. A correlation value with a change in electric energy is calculated.

  The control unit 25 includes ideal pattern information indicating a change in power consumption within a predetermined period used in the first correlation calculation unit 23, and power consumption within the predetermined period used in the second correlation calculation unit 24. More specifically, an increased energy pattern indicating a change is generated and stored in the internal memory 251 as follows.

  Specifically, the control unit 25, based on the reference power consumption amount of the individual electrical device identified by the identification information as shown in FIG. 4A, as shown in FIG. Ideal pattern information indicating a change in the total power consumption by ideal time consumed in the house 100 is generated. For example, the control unit 25 calculates the reference power consumption of each individual electric device by multiplying the rated power consumption of the individual electric device identified by the identification information by the target usage time. And the control part 25 produces | generates ideal pattern information by estimating the total power consumption used as a reference | standard from total power consumption information and the sum total of reference | standard power consumption. In addition, when the ideal power consumption varies depending on the season, the control unit 25 can generate ideal pattern information for each season, as shown in FIG. This is desirable from the viewpoint of notification.

  Note that the control unit 25 generates, as ideal pattern information, a change in the average value of the total power consumption for each hour obtained by dividing the day into 24 equal parts from the total power consumption information accumulated in units of one week or one month. You may make it do.

  In addition, the control unit 25, as shown in FIG. 4C, responds to the individual electric equipment unit identified by the identification information with respect to the change in the total power consumption by ideal time indicated by the ideal pattern information described above. One or more types of energy increase pattern information indicating a change in the total power consumption by time when the power consumption is increased in the above are generated.

  Specifically, as shown in FIG. 5 (A) and FIG. 5 (B), the control unit 25 sets “overuse type of air-conditioning equipment” and “type of long TV viewing time” for the ideal pattern information, respectively. The change of the total power consumption by time when changing to a use state that can increase the energy for each individual electrical device is generated as the energy increase pattern information.

  In addition, the control unit 25 generates a plurality of pieces of energy increase pattern information when a single individual electric device is changed to a use state that can increase energy, so that each individual electric device is in any state. Whether or not the vehicle is in operation can be determined in detail, and appropriate advice information can be notified to the resident for each individual electrical device based on the determination result.

  For example, the control part 25 produces | generates the following some energy increase pattern information with respect to the heat pump water heater which boils hot water with the heat of air using the heat pump technique by a power supply drive.

Here, the heat pump water heater, nighttime operation to raise cooking hot water in the tank in favor of power midnight time zone a high proportion of nuclear power to the total power generation amount of the power generation by electric power companies, CO ₂ emissions It is desirable from the viewpoint of reduction of energy consumption and energy saving.

  For example, the control unit 25 sets the change in the total power consumption by time as shown in FIG. 6A as an ideal pattern in which the heat pump water heater as an individual electric device is operating in the “normal operation type”. . In addition, the control unit 25 can be a “cooking type” as shown in FIG. 6 (B) with respect to an ideal use state indicating a normal operation type of the heat pump water heater as shown in FIG. 6 (A). Changes in total power consumption by time when changed to a use state, and total power consumption by time when changed to a use state that can be a “setting abnormality type” as shown in FIG. Energy increase pattern information corresponding to each change is generated.

  In this way, the control unit 25 stores the generated ideal pattern information and the increased energy pattern in advance in the internal memory 251 before performing a determination process described later.

  In addition, the control unit 25 performs a determination process specifically described later on the correlation value calculation results by the first correlation calculation unit 23 and the second correlation calculation unit 24, and will be described later according to the determination result. The advice information for reducing the power consumption of each individual electric device is read from the advice information storage unit 26. Then, the control unit 25 supplies the read advice information to the output unit 27 in association with the identification information.

  The output unit 27 outputs the selected advice information according to the control command from the control unit 25 in an easy-to-understand format for the resident of the house 100. The advice information indicating the time for prompting the improvement of the state is added.

  And the output part 27 performs the following output processes, for example, in order to notify a resident of the image data which shows the produced graph so that visual recognition is possible. For example, as a first notification form, the output unit 27 converts the data into a data format that can be displayed by display means such as a display, and transmits the data to a computer or the like installed in the house 100 via an electric communication line. As a second notification form, the output unit 27 prints image data indicating the created graph with a printing apparatus. This printed matter is, for example, mailed and delivered to the resident, and the resident is notified of a graph to which advice information is added.

  Note that the output unit 27 is not limited to the format in which advice information is added to a graph and notified so as to be visible as described above, and the computer installed in the house 100 using the information indicated by the advice information as audio data. Or the like.

  The output unit 27 can output the advice information in a form that is easy to understand for the resident of the house 100 by outputting the advice information according to the notification form described above.

  In the management device 2 configured as described above, specifically, advice information that promotes the optimization of operation is selected for each individual electrical device installed in the house 100 according to the processing steps as shown in FIG. The selected advice information is output in an easy-to-understand notification form for residents.

  In step S <b> 11, the control unit 25 refers to the information stored in the input information storage unit 22, and evaluates the hourly change in the total power consumption consumed in the house 100 on an arbitrary evaluation target day. Set as target period data A.

  In step S <b> 12, the control unit 25 refers to the internal memory 251 and sets, as ideal pattern data X, a change in total power consumption indicated by ideal pattern information for each time.

In step S <b> 13, the control unit 25 refers to the internal memory 251, and changes the total power consumption amount by time indicated by the n pieces of energy increase pattern information generated in advance as described above, respectively. ₁ , Y ₂ ,..., Y _n are set.

In step S _<b > 14, the first correlation calculation unit 23 calculates the correlation value r _x between the evaluation target period data A read from the input information storage unit 22 and the ideal pattern data X stored in the internal memory 251 of the control unit 25. Is calculated.

In step S <b> 15, the second correlation calculation unit 24 calculates the evaluation target period data A read from the input information storage unit 22 and the increased energy pattern data Y ₁ , Y ₂ , stored in the internal memory 251 of the control unit 25. ..., correlation values r _x1 , r _x2 , ..., r _xn with Y _n are calculated, respectively.

In step S _<b > 16, the control unit 25 determines whether or not the correlation value r _x calculated by the first correlation calculation unit 23 is greater than 0.90 that is a first threshold value that is arbitrarily set. The control unit 25 proceeds to step S17 when the correlation value is greater than the first threshold value, and proceeds to step S18 when the correlation value is not greater than the first threshold value, that is, when the correlation value is equal to or less than the first threshold value.

  In step S17, the output unit 27 outputs information indicating that the individual electrical device identified by the identification information is optimally used on the evaluation date in a notification form that is easy to understand for the resident. The image data indicating the change in power consumption by time on the evaluation target day with the information that “the device is being used” is added, and the generated image data is sent to the house 100 via the telecommunication line. It transmits to the installed computer, and complete | finishes this process process.

  In step S18A, when the variable i is 1 to n, the control unit 25 repeatedly performs the processes according to step S19 and step S20. When the variable i is not 1 to n, the control unit 25 proceeds to step S18B and performs this processing step. Let it finish.

In step S <b> 19, the control unit 25 determines that each correlation value r _xi (1 ≦ i ≦ n) calculated by the second correlation calculation unit 24 is 0.81 which is a first threshold value arbitrarily set. Judge whether it is large or not. When the correlation value is greater than the second threshold, the control unit 25 proceeds to step S20, and when the correlation value is not greater than the first threshold, that is, when the correlation value is equal to or less than the second threshold, the value of i is set to i + 1. Update and repeat the process of step S19.

  In step S <b> 20, the control unit 25 supplies the output unit 27 with advice information indicating that the increased energy pattern determined to be larger than the second threshold value matches the usage record of the evaluation target period. In addition, the control unit 25 selects advice information for using the individual electrical device under the conditions set as the energy increase pattern from the advice information storage unit 26, and supplies the selected advice information to the output unit 27.

  Since the output unit 27 outputs the advice information selected by the control unit 25 in an easy-to-understand notification form to the resident, for example, the output unit 27 indicates a change in total power consumption for each evaluation target day to which the advice information is added The generated image data is generated, and the generated image data is transmitted to a computer installed in the house 100 via the telecommunication line, and this processing step is completed.

  Here, the 1st specific example which concerns on the processing process mentioned above is shown next. FIGS. 8A to 8C are bar graphs showing examples of changes in total power consumption by time indicated by the energy increase patterns 1 to 3, respectively. FIG. 8D is a bar graph showing changes in total power consumption by time in the evaluation target period.

  Correlation value between the change in total power consumption by time in the evaluation target period shown in FIG. 8D and the change in total power consumption by time shown by the energy increase pattern 1 shown in FIG. Is 0.85, and the change in total power consumption by time in the evaluation target period shown in FIG. 8D and the total power consumption by time shown by the energy increase pattern 2 shown in FIG. The correlation value with the change in the amount is 0.70, and the change in the total power consumption by time in the evaluation target period shown in FIG. 8D and the increased energy pattern 3 shown in FIG. It is assumed that the correlation value with the change in the total power consumption by time shown is 0.65.

  In this case, in step S19 and step S20, the control unit 25 selects advice information corresponding to the increased energy data 1 greater than 0.80 set as the second threshold value.

  A second specific example relating to the above-described processing steps will be described below. FIGS. 9A to 9C are bar graphs showing examples of changes in total power consumption by time indicated by the energy increase patterns 1 to 3, respectively. FIG. 9D is a bar graph showing changes in total power consumption by time in the evaluation target period.

  Correlation value between the change in the total power consumption by time in the evaluation target period shown in FIG. 9D and the change in the total power consumption by time shown by the energy increase pattern 1 shown in FIG. Is 0.65, and the change in total power consumption by time in the evaluation target period shown in FIG. 9D and the total power consumption by time shown by the energy increase pattern 2 shown in FIG. The correlation value with the change in the amount is 0.70. The change in the total power consumption by time in the evaluation target period shown in FIG. 9D and the increased energy pattern 3 shown in FIG. It is assumed that the correlation value with the change in the total power consumption by time shown is 0.85.

  In this case, in step S19 and step S20, the control unit 25 selects advice information corresponding to the increased energy data 3 greater than 0.80 set as the second threshold value.

  As described above, the control unit 25 uses the correlation value as an objective determination index, and compares the energy increase pattern considering the use state for each individual electric device with the actual use of the individual electric device. From these comparison results, appropriate advice information can be notified step by step to the resident.

  As described above, the energy saving support system 1 saves energy for each individual electrical device identified by the identification information based on the correlation values calculated from the first correlation calculation unit 23 and the second correlation calculation unit 24. It is determined how much is realized.

  Then, the energy saving support system 1 outputs advice information that prompts the optimization of the operation of each individual electric device as information for reducing the power consumption of each individual electric device from this determination result. Accordingly, the operation of each individual electric device is optimized and the power consumption consumed indoors as a whole can be efficiently reduced.

  That is, the energy saving support system 1 selects appropriate advice information for each individual electrical device with respect to the change in the total power consumption on the evaluation target date quantitatively evaluated by the management device 2, and selects the selected advice information. Is output in a form that is easy for a resident living in the house 100 to understand, so that the resident can be encouraged to save energy in a form that is more easily realized.

Furthermore, in the energy saving support system 1, the management device 2 estimates the usage trend of the evaluation target day from the change in the total power consumption on the evaluation target day described above, and is consumed in, for example, the house 100 at the end of the month end. CO ₂ emissions converted from electric energy, the electric charges, etc., via the output unit 27 can notify the residents living in house 100.

  Note that the energy saving support system 2 is not limited to the case where it is installed outside the house 100, and may be provided in the house 100, for example. However, in the case where energy saving is supported using information obtained only from individual houses, it is not possible to notify the residents of useful advice information for fixing actions that promote energy saving. This is because it requires a lot of information and experience to determine whether a useless individual electric device is operating.

  The energy saving support system 1 installs the management device 2 outside the house 100, and the management device 2 aggregates data from the plurality of houses 100, so that, for example, household power consumption, standard power usage results by family age, etc. In consideration of the above, it is possible to set the ideal pattern information without depending only on the target use information set in each house 100, and perform the above-described correlation calculation processing and determination processing.

  As described above, the energy saving support system 1 is more effective for the residents living in the individual houses 100 by the management apparatus 2 installed outside the house 100 and collecting and evaluating data from the plurality of houses 100. It is possible to notify advice information that prompts the operation of an appropriate individual electric device.

It is a figure for demonstrating the house where energy saving is supported by the energy saving support system. It is a figure for demonstrating the specific structure of a data collection device. It is a figure for demonstrating the specific structure of a management apparatus. It is a figure for demonstrating the ideal pattern information and energy increase pattern information which are produced | generated by the control part. It is the figure which showed the specific example of the energy increase pattern when it changes to the use condition which can become energy increase for every individual electric equipment. It is the figure which showed the specific example of the energy increase pattern when changing to the some use state which can become energy increase with respect to the same separate electric equipment. It is a flowchart for demonstrating the process of the advice information selected by an energy saving assistance system. It is a figure for demonstrating the determination process with respect to the correlation value calculated by the 2nd correlation calculation part. It is a figure for demonstrating the determination process with respect to the correlation value calculated by the 2nd correlation calculation part.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Energy saving support system, 2 Management apparatus, 21 Input part, 22 Input information storage part, 23 1st correlation calculation part, 24 2nd correlation calculation part, 25 Control part, 251 Internal memory, 26 Advice information storage part, 27 Output unit, 100 housing, 101 power transaction meter, 102 amp breaker, 103 distribution board, 104-109 outlet, 121-122 air conditioner, 123, 124 television receiver, 125 refrigerator, 126 thermometer, 140 data collection Device, 143 measurement unit, 145 operation unit, 147 storage unit, 148 transmission unit

Claims (3)

Input means for inputting total power consumption information indicating the total power consumption consumed indoors and identification information for identifying individual electric devices installed indoors;
An ideal pattern indicating a change in total power consumption within a predetermined period based on the reference power consumption of the individual electrical device identified by the identification information input to the input means, and the identification information with respect to the ideal pattern Storage means for storing one or more energy increase patterns indicating changes in the total power consumption within the predetermined period in which the power consumption is increased in units of identified individual electrical devices;
A correlation value between a change in the total power consumption within the predetermined period indicated by the total power consumption information input to the input means and a change in the total power consumption indicated by the ideal pattern stored in the storage means First calculating means for calculating;
Correlation between the change in the total power consumption within the predetermined period indicated by the total power consumption information input to the input means and the change in the total power consumption indicated by each energy increase pattern stored in the storage means A second calculating means for calculating each value;
First determination means for determining whether the correlation value calculated by the first calculation means is equal to or less than a first threshold;
Second determination means for determining whether the correlation value calculated by the second calculation means is greater than or equal to a second threshold value for each of the increased energy patterns;
When the correlation value determined by the first determination means is less than or equal to the first threshold, the correlation value determined by the second determination means is based on the energy increase pattern that is greater than or equal to the second threshold. An energy saving support system comprising: output means for outputting advice information for reducing the power consumption of each individual electrical device identified by the identification information. The input means is further input with information indicating the rated power consumption and target usage time of the individual electrical equipment identified by the identification information,
The storage means is within a predetermined period set based on a reference power consumption calculated by multiplying the rated power consumption of the individual electrical device identified by the identification information input to the input means by the target usage time. The energy saving support system according to claim 1, wherein a change in total power consumption is stored as the ideal pattern. The input means includes total power consumption information indicating the total power consumption consumed indoors, identification information for identifying the individual electrical equipment installed indoors, and the individual electrical equipment identified by the identification information. An input step in which power consumption information indicating power consumption to be consumed is input;
An ideal pattern indicating a change in total power consumption within a predetermined period based on the reference power consumption of the individual electrical device identified by the identification information input to the input means, and the identification information with respect to the ideal pattern Storage means for storing one or more energy increase patterns indicating changes in the total power consumption within the predetermined period in which the power consumption is increased in units of identified individual electrical devices;
A correlation value between a change in the total power consumption within the predetermined period indicated by the total power consumption information input to the input means and a change in the total power consumption indicated by the ideal pattern stored in the storage means A first calculating step for calculating;
A first determination step of determining whether or not the correlation value calculated in the first calculation step is equal to or less than a first threshold;
When the correlation value determined in the first determination step is less than or equal to a first threshold value, the change in the total power consumption within the predetermined period indicated by the total power consumption information input to the input means, and A second calculation step for calculating a correlation value with a change in total power consumption indicated by each energy increase pattern stored in the storage unit;
A second determination step for determining whether or not the correlation value calculated in the second calculation step is equal to or greater than a second threshold value for each of the increased energy patterns;
Advice information for reducing the amount of power consumption of each individual electrical device identified by the identification information based on the energy increase pattern in which the correlation value determined in the second determination step is equal to or greater than a second threshold. An energy saving support method comprising: an output step of outputting.

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