JP2005070959A - Power demand information processing system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make the actual power usage of a consumer close to a scheduled power usage. <P>SOLUTION: The electric energy actually used by each consumer 20 is measured by a power meter 22, and transmitted to a demand management server 11 through a communication line 32. Information on the scheduled power usage is also transmitted from an information terminal 21 to the demand management server 11 through the communication line 32. In the demand management server 11, the actual power usage of each consumer 20 is compared with the scheduled power usage, and a discount of power rate is determined when the actual power usage does not exceed the scheduled power usage, on condition that the scheduled power usage is received from the consumer 20 in advance, and information according to this determination is transferred to the information terminal 21. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a power demand information processing system, and more particularly, to a power demand information processing system suitable for processing information related to power demand based on the amount of power consumed by a consumer.

  Electricity demand fluctuates greatly yearly or day and night due to the widespread use of air conditioners. For this reason, the electric power company is forced to prepare a power generation facility corresponding to the maximum demand, and the greater the fluctuation in demand, the lower the facility operation rate and the higher the power generation cost. Further, if the power demand prior prediction is uncertain, it is necessary to increase the standby power generation facility capacity to cope with the difference between the predicted demand and the actual demand, which also increases the power generation cost.

  On the other hand, although the method for setting the power charge differs depending on the power company, it is generally calculated by the method of “basic charge + unit price of power charge × power consumption”. In addition, with regard to pricing, there are many types of contracts on a yearly basis, such as menus that do not change depending on the season and time, menus that increase during the day and discount at night, and menus that increase during the summer and discount during the other seasons. . As described above, the incentive of setting a difference between the charges at the peak time and the non-peak time of the power demand is given, so that the total power consumption is leveled.

  In addition, in order to grasp the power demand, information such as a planned power consumption amount is transmitted from the consumer to the power supply side, and the demand trend is grasped on the power supply side (Patent Document 1, Patent Document 2).

JP 2002-123578 A (page 3 to page 5, FIG. 1) JP 2002-236725 A (pages 3 to 4, FIG. 1)

  However, simply setting the price menu as described above and simply transmitting information such as planned power consumption from the customer to the power supplier side will not sufficiently convey the consumer's power consumption plan to the power company. It is difficult for electric power companies to fully grasp the demand trends of consumers.

  Especially for small-scale customers such as ordinary households, compared to large-scale customers such as factories and buildings, their power consumption plans are generally more uncertain and it is difficult for power companies to predict demand trends. It is. One reason for this is when the consumer does not fully grasp his or her power consumption.

  An object of the present invention is to bring a consumer's actual power usage closer to the planned power usage.

  In order to solve the above-mentioned problem, the present invention provides a communication line with information on a measured value of the amount of power actually used by a consumer for a power demand management apparatus under the control of a power supply source such as a power company. In addition to transmitting information on the planned power usage of the customer via the communication line, the power demand management device, on the condition that the information on the planned power usage is received in advance from the consumer, The planned power usage of the consumer is compared with the amount of power actually used by the consumer, and the presence / absence of a discount on the power charge is determined (determined) based on the comparison result.

  When the above configuration is adopted, the customer is informed of the planned power usage in advance, and the actual power usage does not exceed the planned power usage, so there is an incentive to discount the electricity bill. As a result, the power usage actually used by the consumer can be brought close to the planned power usage, and as a result, the power supply source can formulate a power consumption plan based on the planned power usage. It becomes possible to fully grasp the demand trend.

  ADVANTAGE OF THE INVENTION According to this invention, a power consumption demand plan can be drawn up based on a consumer's plan electric power consumption, and a demand trend can fully be grasped | ascertained.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of a power demand information processing system showing an embodiment of the present invention. In FIG. 1, a power management source 11 under the management of the power company 10 is installed in the power company 10 serving as a power supply source or power generation source, and this demand management server 11 uses the power usage of a plurality of consumers. As a power demand management device for managing the quantity, it is connected to each customer 20 via a communication line 32.

  On the other hand, each consumer 20 is provided with an information terminal 21 as a consumer information terminal, a wattmeter 22 as an electric energy measuring device, and a load 23. Electric power is supplied to the load 23 of each customer 20 via a power line 31 and a power meter 22, and the power meter 22 and the information terminal 21 are connected to a communication line 32. The communication line 32 is configured to be capable of two-way communication between the demand management server 11 and each consumer 20, and the power meter 22 of each consumer 20 has a power amount actually used by each consumer 20. And information related to the measured value is transmitted to the demand management server 11 via the communication line 32. Each information terminal 21 receives information from the information management server 11 via the communication line 32 and transmits information based on the operation of each consumer to the demand management server 11 via the communication line 32. Yes. In addition, the measured value regarding electric energy is transmitted to the demand management server 11 for every fixed time.

  As the information terminal 21 in each customer 20, as shown in FIG. 2, a display 1 as information display means for displaying input screen information on the screen, a terminal body 2 composed of a personal computer, and various information are input. For example, a keyboard 3 and a mouse 4 are provided as input means, and communication means built in the terminal body 2 is connected to a communication line 32 via a communication cable 5.

  Processing when a load trend setting contract is made between the electric power company 10 and each customer 20 when the demand information is disclosed / contracted using the system in the present embodiment will be described based on the flowchart of FIG. . First, when the process is started (step S11), a discount amount (incentive amount) and time for power usage per unit time from the demand management server 11 of the power company 10 to the information terminal 21 of each customer 20 The discount amount (discount amount) information for which the relationship is set is transmitted as a list, and the information of this list is received by each information terminal 21. For example, as shown in FIG. 4, this list is a list in which the discount amount (discount amount) for the power usage fee for the next month (for one month) is recorded. The discount amount from August 1 to August 31 is set corresponding to the time zone. This discount amount (incentive amount) is calculated based on the actual power consumption of each customer 20 on the condition that the scheduled power usage amount of each customer 20 is notified in advance from each information terminal 21 to the demand management server 11. When the usage amount does not exceed the planned power usage amount, the charge is discounted by the electric power company 10 according to the difference between the contract power amount and the planned power usage amount (contact demand power amount). For example, “1” in the list indicates that the amount of power used per hour is reduced by 1 yen. The incentive amount is not constant for one month in consideration of demand fluctuation, but may be changed every day or every hour. Information on this list is displayed on the screen of the display 1 of each customer 20 (step S13).

  When information related to the list is displayed on the screen of the display 1, a consumption pattern for inputting the scheduled power usage amount of each consumer 20 in association with time is displayed on the screen of the display 1 as an input screen. . At this time, the customer uses the keyboard 3 or the mouse 4 to plan the scheduled power usage amount for each day of the following month based on the incentive amount described in the list on the screen, and loads that content. It inputs as a trend (step S14). In this case, in consideration of small-scale customers on the screen, “daytime (at home)”, “daytime (absence)”, “housework”, “nighttime (at home)”, “nighttime (absence)”, “sleeping” ”Etc., and consumption patterns classified into categories are displayed.

  FIG. 5 shows an example in which the customer selects “daytime (absent)” as the category. When the planned power consumption according to this consumption pattern is input, the terminal main body 2 calculates the usage fee and the incentive amount (step S15), and displays the calculation result on the screen (step S16). For example, in the case of FIG. 5, in the time zone between 20:00 and 22:00, when the planned power consumption is 5 kWh, the power consumption is 3 kWh less than the contract power 8 kWh, and the incentive amount is set to 3 / kWh. Therefore, the discount amount (discount amount) in this time zone is calculated as (contracted electric energy −5 kWh) × 3 yen / kWh = 3 × 3 yen / kWh = 9 yen / kWh, and this calculation result is displayed on the screen. Is displayed.

  When the user is satisfied with the result when the follow-up fee and the incentive amount are displayed on the display 1, the user selects “confirm” to move to the next process. On the other hand, when the user is dissatisfied with the amount presented and the user selects “cancel”, the process proceeds to a process for inputting again (steps S17 and S18).

  When “confirm” is selected by the user, information regarding the scheduled power consumption for each day for one month is transmitted as a load trend from the information terminal 21 via the communication line 32 (step S19).

  In the demand management server 11 that has received the information on the scheduled power amount transmitted from each consumer 20, the actual power consumption (actual power consumption) X measured by the power meter 22 and the schedule that has been notified in advance. Compared with the amount of power used (prior communication power amount) Y, and when the actual power consumption X = the prior communication power amount Y or the actual power consumption X <the prior communication power amount Y, a discount (discount) of the power charge is performed. Make a decision. On the other hand, when the actual power consumption X> the prior contact output amount Y, it is determined (determined) that the power rate is not discounted (discounted), assuming that the amount of power communicated in advance by the customer 20 cannot be observed. Based on this determination or determination, the demand management server 11 transmits the power charge as billing information to the information terminal 21 of each customer 20 via the communication line 32.

  That is, the demand management server 11 includes information input means for inputting information related to the power of each customer 20, for example, information related to the planned power usage of each customer 20, the power actually used by each customer 20, and the like. The information input means compares the planned power usage of each customer 20 with the power used by the customer 20 on the condition that the information on the planned power usage is received from each customer 20 in advance. The determination means for determining whether there is a discount on the power charge based on the comparison result, and the power charge according to the determination of the determination means is generated as charging information, and the generated charging information is communicated to each consumer as a communication target. The billing information generating means to be transmitted to the line 32, the discount amount information in which the relationship between the discount amount related to the power consumption per unit time and the time is set are generated, and the generated discount information is sent to each customer. It is implemented by a microcomputer having a function as a discount amount information generation means for transmitting to the communication line 32 as a signal subject.

  As described above, in the present embodiment, a system is constructed in which the temporal change (load trend) of the planned power consumption of each consumer 20 is transmitted in advance from the information terminal 21 to the demand management server 11 via the communication line 32. As a result, the customer 20 is given an incentive to receive a discount (discount) on the power rate by contacting the planned power usage in advance, so the actual power usage is reduced to the planned power usage. As a result, it becomes possible to bring the actual power usage of the consumer 20 close to the planned power usage. In the power company 10, the power demand of each consumer 20 is leveled. This makes it possible to accurately grasp demand trends.

  Further, when generating information on consumption patterns of each consumer, the above-mentioned power consumption records are classified into categories at regular intervals using a consumption pattern as shown in FIG. And a new consumption pattern can be created using the accumulated result. In this case, since the classification of the categories varies depending on the lifestyle of each household, it is preferable that the categories can be customized for each consumer.

  Further, by continuing this category classification for a certain period, for example, about one month, as shown in FIG. 6, a histogram for each category is accumulated as information on average power consumption, maximum power consumption, etc. By creating a new consumption pattern based on the above, it becomes possible to create a more accurate consumption pattern. That is, by recording information related to past power consumption as a database and obtaining this result as a histogram for each category, a more accurate consumption pattern can be created. FIG. 6 shows a histogram when “daytime (absent)” is selected as the category in the time zone from 8:00 to 10:00. This histogram shows that the average power consumption in this time zone is 2.4 kWh and the maximum power consumption is 7.0 kWh. For this reason, if the customer sets 3 kWh as the planned power consumption for this time zone, this means that the power rate can be discounted (discounted) during this time zone.

  Also, if a record that can secure the superior statistics is secured, the next day's schedule is designated every two hours, for example, as shown in FIG. Expected power consumption). At this time, as a statistic, for example, a power amount that covers 95% of the past power consumption of the corresponding category may be set as a reference.

  Further, instead of selecting such a category, it is also possible to directly input a power amount kWh or the like.

It is a block block diagram of the electric power demand information processing system which shows one Embodiment of this invention. It is a block diagram of a consumer's information terminal. It is a flowchart for demonstrating the effect | action of the system shown in FIG. It is a figure for demonstrating the structure of the list | wrist which described the incentive amount. It is a structure explanatory drawing of the consumption pattern for inputting a plan electric power consumption. It is a figure for demonstrating the relationship between a category and a histogram. It is a figure which shows an example of the input screen of power consumption prediction.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Display 2 Terminal body 3 Keyboard 4 Mouse 5 Communication cable 10 Electric power company 11 Demand management server 20 Consumer 21 Information terminal 22 Power meter 23 Load 31 Power line 32 Communication line

Claims (7)

A power demand management device that manages the power usage of a consumer, and a power measurement device that measures the amount of power used by the consumer and transmits information about the measured value to the power demand management device via a communication line And a customer information terminal that transmits information related to the planned power consumption of the consumer to the power demand management device via the communication line, and the power demand management device uses the planned power usage from the consumer. Comparing the amount of electricity consumed by the consumer with the amount of electricity used by the consumer on the condition that the information on the amount has been received in advance, and determining whether there is a discount on the electricity charge based on the comparison result Power demand information processing system. A power demand management device that manages the power usage of a consumer, and a power measurement device that measures the amount of power used by the consumer and transmits information about the measured value to the power demand management device via a communication line And a customer information terminal that transmits information related to the planned power consumption of the consumer to the power demand management device via the communication line, and the power demand management device uses the planned power usage from the consumer. Comparing the amount of electricity consumed by the consumer with the amount of electricity used by the consumer on the condition that the information on the amount has been received in advance, and determining whether there is a discount on the electricity charge based on the comparison result A power demand information processing system in which a power charge according to this determination is transmitted as billing information to the customer information terminal via the communication line. The power demand information processing system according to claim 1 or 2, wherein the consumer information terminal displays a consumption pattern for inputting the scheduled power usage of the consumer in association with time on the screen as input screen information. Information display means, input means for inputting information on the scheduled power consumption on the screen of the information display means, and communication means for transmitting the information input by the input means to the communication line A power demand information processing system. 4. The power demand information processing system according to claim 1, wherein the power demand management device is a discount in which a relationship between a discount amount related to power consumption per unit time and a time is set. A power demand information processing system, wherein amount information is transmitted to the customer information terminal via the communication line. Information input means for inputting information related to the power of the consumer, and information on the planned power usage from the consumer is received by the information input means in advance. A power demand management apparatus comprising: a determination unit that compares the amount of power used by a house and determines whether or not there is a discount on a power charge based on the comparison result. Information input means for inputting information related to the power of the consumer, and information on the planned power usage from the consumer is received by the information input means in advance. A determination unit that compares the amount of power used by a house and determines whether there is a discount on the power charge based on the comparison result, and a charging information generation unit that generates a power charge according to the determination by the determination unit as charging information And the billing information generation means transmits the generated billing information to a communication line with the consumer as a communication target. 7. The power demand management apparatus according to claim 5 or 6, further comprising discount amount information generating means for generating discount amount information in which a relationship between a discount amount relating to power consumption per unit time and time is set, and the discount amount The information generation unit transmits the generated discount amount information to the communication line with the consumer as a communication target, and is a power demand management apparatus characterized by the above.

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