JP7229002B2 - Energy supply planning system and program - Google Patents

Description

The present invention relates to an energy supply plan setting system and program.

For example, in Patent Document 1, there are multiple plans such as a pay-as-you-go plan that does not depend on fluctuation conditions, a plan that changes the unit price of electricity according to the time of day, and a plan that changes the unit price of electricity according to the season. It is disclosed that the charge calculation means reads the charge plans of these various patterns and calculates the power charge for the desired period based on the estimated usage amount.
For example, in Patent Document 2, the difference between the first electricity rate when the power data in the period set by the user is applied to the current rate plan and the second electricity rate when the power data is applied to the comparison target plan is calculated. Displaying as a calculation result is disclosed.

JP 2016-045560 A JP 2017-191522 A

There are technologies for selecting and displaying the lowest electricity rate plan and for displaying the difference between the current rate plan and the comparison target plan as a calculation result.
However, these techniques are limited to providing information to users. Therefore, users who want to use other rate plans that are different from the current rate plan need to perform the troublesome work of entering various personal information and information on the retailer before switching each time they change retailers. This has been an obstacle for users to change to other rate plans.

An object of the present invention is to allow users to more easily obtain energy supplied based on an energy supply plan suitable for the user, as compared with a configuration in which the user sets the energy supply plan by himself/herself.

The invention according to claim 1 is an energy supply plan setting system used by a contract retailer with which a user has a contract, comprising an acquisition means for acquiring information on the energy supply plan of another retailer, and the acquisition setting means for setting an energy supply plan suitable for the user based on the information acquired by the means; request acquisition means for acquiring the user's request before the start of the billing period ; The energy supply plan setting system is characterized in that , after a period, the energy supply plan to be applied to the actual usage in the billing period that has passed is set based on the request and the actual usage.
The invention according to claim 2 is characterized in that the information acquired by the acquisition means includes information on characteristics of the energy product supplied from the other retailer. energy supply planning system.
In the invention according to claim 3 , the request acquired by the request acquisition means includes at least one of energy by area, energy by type of supply, and rate plan desired by the user. The energy supply plan setting system according to claim 1 , characterized by:
In the invention according to claim 4 , the utilization record grasped by the grasping means is applied to the energy supply plan set based on the utilization record to apply the utilization record to the energy supply plan. 2. The energy supply plan setting system according to claim 1, further comprising billing charge calculation means for calculating a charge to be billed for the actual usage.
According to the fifth aspect of the invention, the computer has an acquisition function for acquiring information on energy supply plans of other retailers, and an energy supply suitable for the user based on the information acquired by the acquisition function. a setting function for setting a plan; a function for obtaining a user's request before the start of a billing period, which is a unit period in which charges are billed for energy use by the user; and a function of grasping the energy usage record of the person in the billing period , and the setting function selects the energy supply plan to be applied to the usage record in the billing period that has passed after the billing period. , the program is set based on the request and the usage history.

ADVANTAGE OF THE INVENTION According to this invention, a user can obtain the energy supplied based on the energy supply plan suitable for a user more easily compared with the structure which a user sets an energy supply plan by himself.

It is a figure showing the whole energy supply plan setting system example of composition. 3 is a diagram illustrating an example hardware configuration of a server and a terminal; FIG. It is the figure which showed the functional structural example of a server. It is a figure showing an example of an energy supply plan management table. It is the figure which showed an example of the demand input screen. It is the figure which showed an example of the usage record management table. FIG. 10 is a diagram showing an example of a billing fee explanation screen; 4 is a flow chart showing the flow of processing by a server;

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
<Configuration of energy supply plan setting system 1>
FIG. 1 is a diagram showing an example of the overall configuration of an energy supply plan setting system 1 according to this embodiment.
The energy supply plan setting system 1 according to the present embodiment is a system for setting an energy supply plan to be applied when supplying energy to an energy user to an energy supply plan suitable for this energy user. . Energy users are hereinafter simply referred to as users. An energy supply plan is a plan for supplying energy to users based on a predetermined system. Examples of the predetermined system include a predetermined price plan, a predetermined energy supply type, a predetermined energy production area, and the like. The type of energy supply is the type of method used to produce the energy that is supplied to the user. Specific examples of types of energy supply will be described later. Examples of energy include electricity and gas.

In this embodiment, the energy supply plan setting system 1 may set a household energy supply plan or an industrial energy supply plan as an energy supply plan to be applied when supplying energy to a user. You can set a plan. That is, the energy supply plan that can be set by the energy supply plan setting system 1 is not limited by the mode of energy supply to which the energy supply plan is applied.

The energy supply planning system 1 is used by energy retailers. Specifically, the energy supply plan setting system 1 is used by an energy retailer with whom the user has a contract. An energy retailer is a business that sells energy as a commodity to users. The energy retailer with which the user has contracted is hereinafter referred to as the contracted retailer.
The energy supply plan setting system 1 includes a server 10 , a terminal 20 and a meter 30 . The server 10, the terminal 20, and the weighing scale 30 are connected via a network.

The server 10 sets an energy supply plan that is applied when supplying energy to a user. The energy supplied to the users is utilized by the users at the facility 40, for example.
The server 10 of this embodiment acquires a user's request regarding an energy supply plan. The server 10 also acquires information on energy supply plans of other retailers. Furthermore, the user's energy usage record is acquired. Then, based on the acquired request of the user, information on energy supply plans of other retailers, and the energy usage record of the user, an energy supply plan suitable for the user is set. Other retailers are energy retailers that are different from contract retailers.

The server 10 is implemented by, for example, a computer. The server 10 may be configured by a single computer, or may be implemented by distributed processing by a plurality of computers. Also, the server 10 may be implemented on virtual hardware provided by cloud computing.

The terminal 20 is provided so that the user's request regarding the energy supply plan can be input. The terminal 20 transmits the input request of the user to the server 10 together with the user identification information that can identify the user who made the request. The terminal 20 includes a display section 21 that displays information.
The terminal 20 is implemented by, for example, a computer, tablet information terminal, or other information processing device.

Meter 30 measures the amount of energy used in facility 40 . The meter 30 of the present embodiment measures the amount of energy used for each predetermined time (for example, one hour), and transmits information on the measured amount of energy used to the server 10 together with the user identification information. Meter 30 is realized by, for example, a smart meter.

The type of network used for connection between the server 10 and the terminal 20 and between the server 10 and the weighing scale 30 is not particularly limited as long as data can be transmitted and received. Examples include the Internet and LAN (Local Area Network). , WAN (Wide Area Network), or the like. A communication line used for data communication may be wired or wireless. Further, the configuration may be such that each device is connected via a plurality of networks or communication lines.

<Hardware configuration example>
FIG. 2 is a diagram showing a hardware configuration example of the server 10 and the terminal 20. As shown in FIG.
As shown in FIG. 2, the server 10 and the terminal 20 are provided with a CPU (Central Processing Unit) 100a as computing means and a memory 100c as main storage means. Each apparatus also includes, as external devices, a nonvolatile recording device 100g, a network interface 100f, a display mechanism 100d, an audio mechanism 100h, and an input device 100i such as a keyboard and mouse.

The memory 100c and the display mechanism 100d are connected to the CPU 100a via the system controller 100b. Network interface 100f, non-volatile recording device 100g, audio mechanism 100h and input device 100i are also connected to system controller 100b via bridge controller 100e. Each component is connected by various buses such as a system bus and an input/output bus.

A program for realizing each function is stored in the nonvolatile recording device 100g. Various functions are realized by loading this program into the memory 100c and executing processing based on this program by the CPU 100a. Examples of the nonvolatile recording device 100g include semiconductor memories such as SSDs (Solid State Drives) and magnetic disk devices such as HDDs (Hard Disk Drives).

<Functional Configuration of Server 10>
Next, the functional configuration of the server 10 will be described.
FIG. 3 is a diagram showing an example of the functional configuration of the server 10. As shown in FIG.
The server 10 includes a transmission/reception section 11 , a request management section 12 , a plan management section 13 , an extraction section 14 , a performance management section 15 , a calculation section 16 and a setting section 17 .

The transmitter/receiver 11 is a network interface for connecting with the terminal 20 (see FIG. 1) and the weighing scale 30 via a network. Thereby, the server 10 exchanges data with the terminal 20 and the scale 30 .

The request management unit 12, which is an example of request acquisition means, manages requests of users regarding energy supply plans. The request management unit 12 acquires the request of the user and the user identification information input to the terminal 20 via the transmission/reception unit 11 . Then, the acquired request is managed in association with the acquired user identification information.

The plan management unit 13, which is an example of acquisition means, manages the energy supply plan. In this embodiment, for example, the user of the energy supply plan setting system 1 inputs information on energy supply plans of other retailers into a terminal (not shown) and transmits the input information to the server 10 . A user of the energy supply plan setting system 1 is a person who performs necessary processing on the energy supply plan setting system 1 to enable setting of the energy supply plan. The plan management unit 13 acquires information on energy supply plans of other retailers via the transmission/reception unit 11, and manages energy supply plans of other retailers specified from the acquired information. The contents of management by the plan management unit 13 will be described in detail later.

The extraction unit 14 extracts one or more energy supply plans suitable for the user from among the energy supply plans managed by the plan management unit 13 . The extraction unit 14 refers to user requests managed by the request management unit 12 . Then, among the energy supply plans managed by the plan management unit 13, an energy supply plan satisfying the referred user's request is extracted as an energy supply plan suitable for the user.

The track record management unit 15, which is an example of a grasping means, manages the user's energy use track record. The performance management unit 15 acquires the energy usage amount information and the user identification information transmitted from the weighing scale 30 via the transmission/reception unit 11 . Then, the energy usage track record specified from the acquired energy usage information is managed in association with the acquired user identification information.

The calculation unit 16, which is an example of a charge calculation unit, calculates a charge to be actually charged to the user based on the user's energy usage record. The calculation unit 16 applies the usage record managed by the record management unit 15 to the energy supply plan extracted by the extraction unit 14 to calculate the fee to be charged to the user. When a plurality of energy supply plans are extracted by the extraction unit 14, the calculation unit 16 applies the actual usage record to each of the extracted energy supply plans to calculate the charge.
In addition, the calculation unit 16 calculates the fee by applying the actual usage record to the currently applied energy supply plan when supplying energy to the user. For example, the calculation unit 16 applies the actual usage record to the energy supply plan currently set by the setting unit 17 to calculate the charge. Then, the difference between this calculated charge and the charge calculated by applying the actual usage record to the energy supply plan extracted by the extraction unit 14 is calculated.

The setting unit 17 sets an energy supply plan to be applied when supplying energy to a user. When only one energy supply plan is extracted by the extraction unit 14, the setting unit 17 sets this one energy supply plan as the energy supply plan to be applied when supplying energy to the user. Further, when a plurality of energy supply plans are extracted by the extracting unit 14, the setting unit 17 determines the charges calculated by the calculating unit 16 based on each of the plurality of energy supply plans and the charges managed by the request managing unit 12. The most suitable energy supply plan for the user is determined based on the user's needs and the needs of the user. Then, the energy supply plan determined to be most suitable is set as the energy supply plan to be applied when supplying energy to the user.
The extraction unit 14 and the setting unit 17 can be regarded as setting means for setting an energy supply plan suitable for the user based on information on energy supply plans of other retailers.

Next, information used for setting the energy supply plan will be described with reference to FIGS. 4 to 6. FIG. Below, as an example, a case where the object of energy supplied based on the energy supply plan is electricity will be described.

<Management Contents of Plan Management Unit 13>
The contents of management by the plan management unit 13 will be described.
FIG. 4 is a diagram showing an example of an energy supply plan management table.
The energy supply plan management table shown in FIG. 4 is a table for managing energy supply plans.

In the energy supply plan management table, the name of the energy supply plan is shown in "Supply Plan".
Also, in "Retailer", the names of other retailers having the target energy supply plan are shown.
In addition, the "contract current" indicates the contract current applied when electricity is supplied based on the target energy supply plan. The contract current is the upper limit of the current that can flow simultaneously in the facility 40 without stopping the supply of electricity when supplying electricity for use in the facility 40 (see FIG. 1).

In addition, the abbreviated name of the electricity supply type is shown in the "supply type". Examples of types of electricity supply include thermal power generation, hydraulic power generation, nuclear power generation, solar power generation, wind power generation, geothermal power generation, and biomass power generation.
In addition, the "area" shows the electricity production area related to the "supply type".

In addition, the "price plan" indicates the price plan that is applied when electricity is supplied based on the target energy supply plan.
The "basic charge (yen)" of the "price plan" shows the basic charge applied when electricity is supplied based on the target energy supply plan. The basic charge is a charge that is incurred regardless of the amount of electricity used.
The "metered rate (yen/kWh)" of the "price plan" indicates the metered rate applied when electricity is supplied based on the target energy supply plan. A usage charge is a charge generated per unit usage of electricity.

"Others" indicates additional items. It should be noted that the "Others" of the "F plan" indicates that "8:00 to 15:59 is a metered charge of 18 yen/kWh". This means that in the "F plan", the "charge (yen/kWh)" fluctuates according to the time period in which electricity is used.

<Example of user request input>
Next, an input example of a user's request regarding an energy supply plan will be described. In the following, an example in which a user "Mr. A" inputs a request regarding an energy supply plan will be described.
FIG. 5 is a diagram showing an example of the request input screen 50. As shown in FIG.
A request input screen 50 shown in FIG. 5 is a screen for the user to input a request regarding the energy supply plan. The request input screen 50 is displayed on the display unit 21 of the terminal 20 (see FIG. 1).

The request input screen 50 displays a date display section 51, an amperage input section 52, a supply type input section 53, a supply type area input section 54, an electricity production area input section 56, and a rate request input section 58. It is

The date display portion 51 displays the date when the request input screen 50 is displayed. In the illustrated example, the date display section 51 displays "July 1, 2018".
The amperage input unit 52 is provided so as to be able to input the contract current desired by the user. In the illustrated example, "30A" is input to the amperage input section 52. As shown in FIG.

The supply type input unit 53 is provided so that the user can input the type of electricity supply desired by the user. In the illustrated example, "sunlight" which means photovoltaic power generation as the electricity supply type is input to the supply type input unit 53 .
Also, when the supply type of electricity is input to the supply type input section 53, the input to the supply type area input section 54 becomes possible. The supply type area input unit 54 is provided so that a user can input an area desired as an electricity production area related to the supply type input to the supply type input unit 53 . In the illustrated example, “Osaka Prefecture” is entered in the supply type area input section 54 . Moreover, when the add button 55 is selected, a supply type input section 53 and a supply type area input section 54 are added.

The electricity production area input unit 56 is provided so that the user can input an area desired by the user as the electricity production area to be supplied to the user. The electricity production area input section 56 can be input when the supply type is not input to the supply type input section 53 . Also, when the add button 57 is selected, an electricity production area input section 56 is added.

The rate request input unit 58 is capable of inputting a request for the cheapest rate plan as a rate plan in the energy supply plan. In the illustrated example, a request for the cheapest rate plan is entered.
When "Mr. A" selects the OK button 59, the inputted request of "Mr. A" is transmitted to the server 10 together with the user identification information related to "Mr. A". The request of "Mr. A" transmitted to the server 10 is managed by the request management unit 12 in association with the user identification information related to "Mr. A".

If the OK button 59 is selected without inputting a request to the amperage input unit 52, the request managing unit 12 assumes that there is no user's request regarding the contract current.
Further, when the OK button 59 is selected without inputting a request to the supply type input unit 53, the request management unit 12 manages it as if there is no user's request regarding the type of electricity supply.
If the OK button 59 is selected without inputting any requests to the supply type area input section 54 and the electricity production area input section 56, the request management section 12 assumes that there is no request from the user regarding the electricity production area and is managed by the request management section 12. be.
Also, if the OK button 59 is selected without inputting a request to the charge request input unit 58, the request management unit 12 manages it as if there is no request from the user regarding the charge plan.

<Processing of extraction unit 14>
Next, processing by the extraction unit 14 will be described. The extraction unit 14 refers to the request of “Mr. A” managed by the request management unit 12 . Then, among the energy supply plans (see FIG. 4) managed by the plan management unit 13, "Mr. A" requests "contract current: 30 A", "supply type: solar power", and " Extract an energy supply plan that satisfies "Electricity Production Area: Osaka Prefecture". Specifically, the extracting unit 14 extracts the "D plan" and "F plan" that satisfy the request of "Mr. A" from among the energy supply plans managed in the energy supply plan management table.

If there is no request related to the "contract current" among the requests of the "user" managed by the request management unit 12, the extraction unit 14 determines which "contract current" is associated with the plan management unit 13. The managed energy supply plan is also determined as an energy supply plan that satisfies the "user's" request regarding the "contract current".
If there is no request related to the "supply type" among the requests of the "user" managed by the request management unit 12, the extraction unit 14 determines which "supply type" is associated with the plan management unit 13. The managed energy supply plan is also determined as an energy supply plan that satisfies the request regarding the "supply type" of the "user".
If there is no request related to the "electricity production area" among the requests of the "user" managed by the request management unit 12, the extraction unit 14 determines which "area" is associated with the plan management unit 13. The energy supply plan managed by the "user" is also determined as an energy supply plan that satisfies the "user's" request regarding the "electricity production area".
Further, if there is no request related to the "price plan" among the requests of the "user" managed by the request management unit 12, the extraction unit 14 determines which "price plan" is associated with the plan management unit 13. The managed energy supply plan is also determined as an energy supply plan that satisfies this request regarding the "price plan" of the "user".

When an energy supply plan that satisfies the user's request is extracted by the extraction unit 14, for example, from the month following the month in which the user inputs the request to the terminal 20, the energy reflecting the user's request will be supplied to the user. supplied by
If the user's request acquired by the server 10 includes a request for a type of electricity supply and a request for an electricity production area, the contract retailer will procure and use electricity that satisfies the user's request. supply to persons. Existing technology may be applied as a method of procuring electricity.
In this example, from August 1, 2018, electricity produced by "solar" power generation in "Osaka" is supplied to "Mr. A" with a contract current of "30A".

Then, when the "next month" of the month in which the user input the request to the terminal 20 has passed, the energy supply plan applied to the user's energy usage record in this "next month" is set.
In this example, as will be described later, after August 2018 has passed, an energy supply plan that is applied to the actual electricity usage of “Mr. A” in August 2018 is set.

<Management contents of performance management unit 15>
Next, the contents of management by the performance management unit 15 will be described.
FIG. 6 is a diagram showing an example of a usage record management table.
The usage record management table shown in FIG. 6 is a table for managing the energy usage record of the user. In the illustrated example, the electricity usage record of "Mr. A" in August 2018 is shown.

The usage record management table indicates the “period” during which the user used electricity. In the illustrated example, "August 1st to August 31st" is shown as the "period".
In addition, the usage history management table shows the "amperage" which means the contract current applied in the "period". In the illustrated example, "30A" is shown as the "amperage".

In addition, the usage record management table shows the “usage amount of electricity by time zone”. In the illustrated example, "50 kWh", which is the amount of electricity used from "0:00 to 7:59", is shown, and "100 kWh", which is the amount of electricity used from "8:00 to 15:59", is shown. , “150 kWh”, which is the amount of electricity used at “16:00 to 23:59”, is shown.
In addition, the "total usage amount" of electricity is indicated in the usage record management table. In the illustrated example, "300 kWh", which is the "total usage amount", is shown.

<Processing of calculation unit 16>
Next, processing by the calculation unit 16 will be described. The calculation unit 16 refers to the electricity usage record of “Mr. A” managed by the record management unit 15 . Then, this usage record is applied to each of the "price plans" (see FIG. 4) of the "D plan" and "F plan" extracted by the extracting unit 14 to calculate the charges.

A method of calculating the charge by applying the actual electricity usage record of "Mr. A" to the "D plan" by the calculation unit 16 will be described with reference to FIGS. 4 and 6. FIG. Since the “total usage” of electricity by “Mr. A” is “300 kWh,” the charge for Plan D is “basic charge: 1,100 yen” + “metered charge: 300 kWh x 25 yen/kWh” = 8,600 yen. .

Next, a method of calculating the charges by applying the actual electricity usage record of "Mr. A" to the "F plan" by the calculation unit 16 will be described with reference to FIGS. 4 and 6. FIG. In the "F plan", "18 Yen/kWh” is applied, and “25 Yen/kWh” is applied as a metered charge corresponding to “200 kWh” which is the usage amount in other time periods. Therefore, the charge for plan F is "basic charge: 1300 yen" + "volume charge: 100 kWh x 18 yen/kWh + 200 kWh x 25 yen/kWh" = 8100 yen.

<Processing of Setting Unit 17>
Next, processing by the setting unit 17 will be described. The setting unit 17 refers to the request of “Mr. A” managed by the request management unit 12 . Then, based on "Mr. A's request for the cheapest price plan", the charge calculated by the calculation unit 16 out of the "D plan" and "F plan" extracted by the extraction unit 14 is A lower “F plan” is set as the energy supply plan to be applied to the usage record of “Mr. A” in August 2018.

<Example of billing fee notification>
Next, an example of notification of billing charges to the user will be described. In addition, below, as the energy supply plan that was applied last time when supplying energy to "Mr. A", that is, the energy supply plan that was applied in July 2018, "B plan" (Fig. 4 ) has been set.
FIG. 7 is a diagram showing an example of the billing fee explanation screen 60. As shown in FIG.
A billing fee explanation screen 60 shown in FIG. 7 is a screen for explaining the billing fee calculated by applying the user's energy usage record to the billing plan in the energy supply plan set in the setting unit 17. The billed fee explanation screen 60 is displayed on the display unit 21 of the terminal 20 .

The billed fee explanation screen 60 includes a period display portion 61, an ampere display portion 62, a usage amount display portion 63, a past plan display portion 69, an applied plan display portion 64, a reference plan display portion 65, and a billed fee. A display portion 66 and a difference display portion 71 are displayed.

The period display portion 61 shows the period during which the user used electricity. In the illustrated example, the period display section 61 indicates "August 1st to August 31st".
The ampere display section 62 displays the contract current applied during the period displayed in the period display section 61 . In the illustrated example, the amperage display section 62 indicates "30A".

The usage amount display section 63 shows the usage amount of electricity for each time period. In the illustrated example, "50 kWh", which is the amount of electricity used from "0:00 to 7:59", is shown, and "100 kWh", which is the amount of electricity used from "8:00 to 15:59", is shown. , “150 kWh”, which is the amount of electricity used at “16:00 to 23:59”, is shown.
In addition, the usage amount display section 63 shows the total usage amount of electricity. In the illustrated example, "300 kWh", which is the total amount of electricity used, is shown.

The past plan display portion 69 displays the energy supply plan that was applied last time when energy was supplied to the user. In the illustrated example, the past plan display section 69 displays "B plan" (see FIG. 4).

The applied plan display section 64 displays the energy supply plan applied to the user's electricity usage record. In the illustrated example, "F Plan" (see FIG. 4) is displayed in the applied plan display section 64. FIG.

In the reference plan display portion 65, an applied plan browsing button 67, an other plan browsing button 68, and a past plan browsing button 70 are displayed. When the user selects the applied plan browsing button 67, the contents of the energy supply plan applied this time are displayed. Moreover, if a user selects the other plan browsing button 68, the content of another energy supply plan will be displayed. The other energy supply plan is an energy supply plan different from the energy supply plan applied this time among the energy supply plans managed by the plan management unit 13 . Further, when the user selects the past plan browsing button 70, the contents of the energy supply plan applied last time are displayed.

The billed price display section 66 displays the billed price calculated by applying the user's energy usage record to the price plan in the energy supply plan applied this time. In the illustrated example, the charge display portion 66 displays "8100 yen". This billed charge is a charge calculated by the calculation unit 16 by applying the electricity usage record of "Mr. A" to the charge plan "F plan".

In the difference display section 71, the charge calculated by applying the usage record to the rate plan in the energy supply plan that was applied last time, and the charge calculated by applying the usage record to the rate plan in the energy supply plan that was applied this time. difference is displayed. In the illustrated example, the price difference display section 71 displays "400 yen cheaper due to switching from B plan to F plan." This difference is the charge calculated by applying the usage record to the previously applied “Plan B” rate plan “Basic charge: 1000 yen” + “Usage charge: 300 kWh × 25 yen / kWh” = “8500 This is the value obtained by subtracting "8100 yen", which is the charge calculated by applying the actual usage record to the "F plan" applied this time, from the "yen".

<Processing example of server 10>
Next, the flow of processing by the server 10 will be described. FIG. 8 is a flow chart showing the flow of processing by the server 10. As shown in FIG.
The request management unit 12 acquires the user's request regarding the energy supply plan from the terminal 20 via the transmission/reception unit 11 (S101).
The extraction unit 14 extracts an energy supply plan suitable for the user based on the user's request acquired by the request management unit 12 and the energy supply plan managed by the plan management unit 13 (S102).

The performance management unit 15 acquires the user's energy usage performance from the weighing scale 30 via the transmission/reception unit 11 (S103).
The setting unit 17 selects one of the energy supply plans extracted by the extraction unit 14 based on the user's request acquired by the request management unit 12 and the user's energy usage record managed by the performance management unit 15. Determine the most suitable energy supply plan for the user. Then, the energy supply plan determined to be most suitable for the user is set as the energy supply plan to be applied when supplying energy to the user (S104).

Thus, in this embodiment, based on the information of the energy supply plan acquired by the plan management part 13, the energy supply plan suitable for a user is set.
In this case, an energy supply plan suitable for the user is set without changing the energy retailer with which the user has a contract. For this reason, users can more easily purchase energy supplied based on an energy supply plan that is suitable for them, compared to the case where users change their contracted energy retailers and set their own energy supply plans. Obtainable.

Further, in the present embodiment, the information on the energy supply plan acquired by the plan management unit 13 includes information on the characteristics of energy products supplied from other retailers. Here, the characteristics of energy as a product include, for example, the type of energy supply, the energy production area, and the like.
In this case, the suitability of the energy supply plan for the user can be seen based on the characteristics of energy as a commodity.

Moreover, in this embodiment, an energy supply plan suitable for the user is set based on the user's request. Here, the request of the user includes at least one of energy by area, energy by type of supply, and price plan desired by the user.
In this case, the suitability of the energy supply plan for the user can be seen based on the suitability of other retailers' energy supply plans for the user's needs.

In addition, in the present embodiment, an energy supply plan to be applied to a user's energy usage record is set. Then, the usage record is applied to the set energy supply plan to calculate the charge to be actually billed.
In this case, based on an energy supply plan suitable for the user's energy usage record, it is possible to set a charge according to the usage record.

In this embodiment, the energy supply plan to be applied when supplying energy to the user is set in the energy supply plan of the other retailer based on the information of the energy supply plan of the other retailer. However, it is not limited to this.
For example, the plan management unit 13 may manage energy supply plans of contract retailers as well as energy supply plans of other retailers. When the setting unit 17 determines that the energy supply plan of the contract retailer is the most suitable energy supply plan for the user, the energy supply plan to be applied when supplying energy to the user is determined by the contract. May be set in the retailer's energy supply plan.

Further, in the present embodiment, when there is one type of energy supply in one energy supply plan, an example in which the energy production area related to this supply type is managed by the plan management unit 13 (see FIG. 4). has been described, but is not limited to this.
For example, when there are multiple types of energy supply in one energy supply plan, the plan management unit 13 may manage the energy production areas associated with each of the multiple types in association with each supply type. . In this case, the extracting unit 14 provides one energy supply associated with the "energy production area" included in the user's request and the "energy production area" not included in the user's request. You may make it extract a plan. Further, the extraction unit 14 extracts one energy supply plan associated with the "energy production area" included in the user's request and the "energy production area" not included in the user's request. It is possible not to extract.

In addition, when the user's request includes two or more "energy production areas", the extracting unit 14 extracts energy that satisfies even one "energy production area" included in the user's request. A supply plan may be extracted, or only an energy supply plan that satisfies all of the "energy production areas" included in the user's request may be extracted.

In addition, when two or more "types of energy supply" are included in the user's request, the extracting unit 14 extracts energy that satisfies even one of the "types of energy supply" included in the user's request. A supply plan may be extracted, or only an energy supply plan that satisfies all "types of energy supply" included in the user's request may be extracted.

Also, the energy supply plans to be extracted by the extraction unit 14 are not limited to all energy supply plans managed by the plan management unit 13 .
For example, among the energy supply plans managed by the plan management unit 13, a predetermined number (for example, 5) of energy supply plans of energy retailers are selected as energy supply plans to be extracted by the extraction unit 14. good too. As the predetermined number of energy retailers, for example, among the energy retailers managed by the plan management unit 13, the order of the number of owned energy supply plans is within a predetermined order. may be an energy retailer belonging to
Moreover, the number of energy supply plans to be extracted by the extraction unit 14 may be changed according to the user's request.

Further, the energy supply plan extracted by the extraction unit 14 is not limited to an energy supply plan associated with a contract current having the same value as the contract current desired by the user.
For example, the extraction unit 14 selects an energy supply plan associated with a "smaller contract current (eg, 15 A)" than the contract current desired by the user (eg, 30 A) as an energy supply plan that satisfies the user's request regarding the contract current. may be extracted. Then, when the electric current that simultaneously flows through the facility 40 is equal to or less than the "small contract current" in the user's electricity usage record, the setting unit 17 selects an energy supply plan associated with the "small contract current". , may be set in the energy supply plan to be applied when supplying energy to the user.
In this case, the meter 30 measures, for example, the value of the current flowing simultaneously in the facility 40 . Then, for each predetermined period (for example, one month), information on the maximum value of the current simultaneously flowing in the facility 40 during this period is transmitted to the server 10 together with the user identification information.

In addition, requests from users regarding price plans are not limited to the above examples.
For example, the request input screen 50 may be provided so that the user can input the upper limit of the charge or the range of the charge desired by the user. Then, the setting unit 17 may set the energy supply plan associated with the price plan that satisfies the price input on the request input screen 50 as the energy supply plan to be applied when supplying energy to the user. good.

In addition, in this embodiment, when setting the energy supply plan to be applied when supplying energy to the user, the same contents as the energy supply plan of other retailers are set. Not limited.
For example, the price plan in the energy supply plan may be set as a price plan obtained by adding or subtracting a predetermined amount from the price plan in the energy supply plan of another retailer. Also, the price plan in the energy supply plan may be set as a price plan obtained by multiplying or dividing the price plan in the energy supply plan of another retailer by a predetermined ratio. In other words, the energy supply plan may be set based on the energy supply plans of other retailers.

In addition, in the present embodiment, an energy supply plan is set based on the user's energy usage record, but the energy supply plan is not limited to this.
For example, an energy supply plan to be applied to the future energy use of the user may be set based on the user's energy use record. In this case, for example, the calculation unit 16 estimates the energy usage amount of the user in the future based on the user's energy usage record for each predetermined period (for example, one month), and the setting unit 17 may set an energy supply plan to be applied to the user's future energy usage based on the estimated usage. In this case, for example, the calculation unit 16 uses the function of artificial intelligence to analyze the user's energy usage record, and based on the analysis result, calculates the future energy usage amount of the user. can be estimated. Machine learning, for example, can be cited as an analysis method using artificial intelligence.

In addition, in the present embodiment, the difference display portion 71 of the billing fee explanation screen 60 (see FIG. 7) shows that the billing fee is lower due to the switching of the energy supply plan that is applied when supplying energy to the user. Although it is displayed that it has become, it is not limited to this.
For example, if the billing rate has increased due to a change in the energy supply plan applied when supplying energy to the user, that fact may be displayed.

Further, in the present embodiment, the server 10 is configured to set the energy supply plan, but the present invention is not limited to this.
For example, the terminal 20 may have the functions of the server 10 . In other words, the terminal 20 may have the functions of the transmission/reception section 11, the request management section 12, the plan management section 13, the extraction section 14, the performance management section 15, the calculation section 16, the setting section 17, and the like of the server 10.

Programs that implement the embodiments of the present invention can be stored in computer-readable recording media such as magnetic recording media (magnetic tapes, magnetic disks, etc.), optical recording media (optical disks, etc.), magneto-optical recording media, and semiconductor memories. It can be provided as stored. Moreover, it is also possible to provide using communication means, such as the internet.

Although the embodiments of the present invention have been described above, the technical scope of the present invention is not limited to the scope described in the above embodiments. It is clear from the scope of claims that various modifications or improvements to the above embodiment are also included in the technical scope of the present invention.

DESCRIPTION OF SYMBOLS 1... Energy supply plan setting system 10... Server 11... Transmission/reception part 12... Request management part 13... Plan management part 14... Extraction part 15... Result management part 16... Calculation part 17... Setting part 20... Terminal, 21... Display unit, 30... Weighing scale

Claims (5)

An energy supply planning system for use with a contract retailer with which a user has contracted, comprising:
obtaining means for obtaining information of energy supply plans of other retailers;
setting means for setting an energy supply plan suitable for the user based on the information acquired by the acquisition means;
request acquisition means for acquiring a request of the user before the start of a billing period, which is a unit period in which the user is billed for energy usage;
grasping means for grasping the utilization record of the user's energy in the billing period ;
has
After the billing period, the setting means sets the energy supply plan to be applied to the actual usage in the billing period that has passed, based on the request and the actual usage. planning system. 2. The energy supply plan setting system according to claim 1, wherein said information acquired by said acquisition means includes information on the characteristics of the energy supplied from said other retailer as a product. 2. The request according to claim 1 , wherein the request acquired by the request acquisition means includes at least one of area-specific energy, supply type-specific energy, and rate plans desired by the user. Energy supply planning system. A fee to be charged for the actual usage obtained by applying the actual usage obtained by the obtaining means to the energy supply plan set based on the actual usage. 2. The energy supply plan setting system according to claim 1, further comprising billing rate calculating means for calculating . to the computer,
a retrieval function for retrieving energy supply plan information of other retailers;
A setting function for setting an energy supply plan suitable for a user based on the information obtained by the obtaining function;
a function of obtaining a request of the user before the start of a billing period, which is a period in which charges are billed for energy use by the user;
a function of grasping the usage record of the user's energy in the billing period ;
to realize
The program , wherein the setting function sets, after the billing period, the energy supply plan to be applied to the actual usage in the elapsed billing period based on the request and the actual usage .

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