JP2022113018A - Information processing system, control method for information processing system, information processing device and program - Google Patents

Abstract

To provide an information processing system enabling a user of a refrigerator to confirm electricity expense that could be reduced through an operation of the refrigerator in an energy saving mode.SOLUTION: An information processing system includes: a calculation section calculating a reduction amount that is electricity expense that could be reduced through an operation of a refrigerator in an energy saving mode on the basis of an operating time of operating the refrigerator in the energy saving mode or the number of times of transfer to the energy saving mode of the refrigerator; and a notification section notifying a user of the refrigerator of the reduction amount calculated by the calculation section.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to an information processing system, an information processing system control method, an information processing apparatus, and a program.

Patent Literature 1 discloses a refrigerator that performs power-saving operation that consumes less power than normal operation in order to save energy.

JP 2014-088987 A

The present disclosure provides an information processing system, a control method of the information processing system, an information processing device, and a program that allow a user of the refrigerator to check the electricity bill that has been reduced by operating the refrigerator in the energy saving mode.

The information processing system according to the present disclosure is based on the operation time during which the refrigerator operates in the energy-saving mode or the number of times the refrigerator has shifted to the energy-saving mode. and a providing unit that provides the user of the refrigerator with the reduced amount calculated by the calculating unit.

Further, in the information processing system control method according to the present disclosure, the refrigerator operates in the energy-saving mode based on the operation time during which the refrigerator operates in the energy-saving mode or the number of times the refrigerator shifts to the energy-saving mode. A reduction amount, which is the reduced electricity cost, is calculated, and the calculated reduction amount is provided to the user of the refrigerator.

In addition, the information processing device according to the present disclosure is a reduction amount that is the electricity bill that can be reduced by operating the refrigerator in the energy saving mode, and is the operation time during which the refrigerator operates in the energy saving mode, or the refrigerator is in the energy saving mode. a providing unit for providing the user of the refrigerator with the reduction amount calculated based on the number of times of transition to the refrigerator.

In addition, the program in the present disclosure is a reduction amount that is the electricity bill that can be reduced by operating the computer of the information processing device in the energy saving mode of the refrigerator, the operation time that the refrigerator operates in the energy saving mode, or the above It functions as a providing unit that provides the user of the refrigerator with the reduction amount calculated based on the number of times the refrigerator has switched to the energy saving mode.

The information processing system, the control method of the information processing system, the information processing device, and the program according to the present disclosure can provide the user of the refrigerator with reduced electricity bills due to the operation of the refrigerator in the energy saving mode. Therefore, the user of the refrigerator can check the electricity bill that can be reduced by operating the refrigerator in the energy saving mode.

1 is a diagram showing the configuration of a refrigerator control system according to Embodiment 1; FIG. FIG. 2 is a diagram showing configurations of a refrigerator, a terminal device, and a refrigerator control server according to Embodiment 1; A diagram showing an example of a user-related information management DB according to Embodiment 1 A diagram showing an example of a home screen according to Embodiment 1 A diagram showing an example of a reduction amount screen in Embodiment 1 Flowchart showing the operation of the refrigerator control system according to Embodiment 1 Flowchart showing the operation of the refrigerator control system according to Embodiment 1 Flowchart showing the operation of the refrigerator control system according to Embodiment 1 The figure which shows an example of the reduction amount screen in the modification 1 A diagram showing an example of a reduction amount screen in modification 2 FIG. 10 is a diagram showing configurations of a refrigerator, a terminal device, and a refrigerator control server in Modification 3; FIG. 4 shows the configurations of a refrigerator, a terminal device, and a refrigerator control server according to Embodiment 2; Flowchart showing the operation of the refrigerator control system according to Embodiment 2 FIG. 11 shows configurations of a refrigerator, a terminal device, and a refrigerator control server according to Embodiment 3; Flowchart showing the operation of the refrigerator control system according to Embodiment 3

(Knowledge, etc. on which this disclosure is based)
At the time when the inventors came up with the present disclosure, there was a technology for refrigerators to operate in an energy-saving mode. However, with the conventional technology, the inventors found a problem that it is difficult for the user of the refrigerator to check how much the electricity bill has been reduced by operating the refrigerator in the energy saving mode. have come to constitute the subject of this disclosure.
Accordingly, the present disclosure provides an information processing system, a control method of the information processing system, an information processing device, and a program that allow the user of the refrigerator to check the electricity bill that has been reduced by operating the refrigerator in the energy saving mode.

Hereinafter, embodiments will be described in detail with reference to the drawings. However, more detailed description than necessary may be omitted. For example, detailed descriptions of well-known matters or redundant descriptions of substantially the same configurations may be omitted.
It should be noted that the accompanying drawings and the following description are provided to allow those skilled in the art to fully understand the present disclosure and are not intended to limit the claimed subject matter thereby.

(Embodiment 1)
Embodiment 1 will be described.
[1-1. Constitution]
[1-1-1. Configuration of refrigerator control system]
FIG. 1 is a diagram showing the configuration of a refrigerator control system 1000. As shown in FIG.
A refrigerator control system 1000 corresponds to an example of an information processing system of the present disclosure.

A refrigerator control system 1000 is a system in which a terminal device 2 used by a user P of a refrigerator 1 controls the refrigerator 1 via a global network GN. The global network GN includes the Internet, telephone networks and other communication networks.
In the present embodiment, the terminal device 2 corresponds to an example of the information processing device of the present disclosure.

A refrigerator control system 1000 includes a refrigerator 1 . In FIG. 1, the refrigerator 1 is installed in the home H of the user P. As shown in FIG. The refrigerator 1 has a main box body 10 with an open front, and the main box body 10 is formed with a refrigerating compartment 11, an ice making compartment 12, a fresh freezing compartment 13, a freezing compartment 14, and a vegetable compartment 15. - 特許庁A left door 11A and a rotary right door 11B are provided at the front opening of the refrigerator compartment 11 . The ice making compartment 12, the fresh freezing compartment 13, the freezing compartment 14, and the vegetable compartment 15 are provided with drawers 12A, 13A, 14A, and 15A for storing foods, respectively.

The refrigerator 1 of the present embodiment is connected for communication with the communication device 4 installed in the home H of the user P, and communicates with the refrigerator control server 3 via the communication device 4 .

The communication device 4 connects to the global network GN and communicates with the refrigerator control server 3 connected to the global network GN. The communication device 4 transfers data transmitted and received between the refrigerator 1 and the refrigerator control server 3 . Further, the communication device 4 transfers data transmitted and received between the terminal device 2 establishing communication connection with the communication device 4 and the refrigerator control server 3 .

A refrigerator control system 1000 includes a terminal device 2 having a touch panel 22 . The terminal device 2 is configured by, for example, a smart phone or a tablet terminal, and is used by the user P of the refrigerator 1 . An application program for controlling the refrigerator 1 is installed in the terminal device 2 . In the following description, an application program for controlling the refrigerator 1 is referred to as a "refrigerator control application" and denoted by "212".
In the present embodiment, refrigerator control application 212 corresponds to an example of the program and application program of the present disclosure.

In FIG. 1, a user P who is at home is indicated by a dotted line, and a user P who has left home H is indicated by a solid line. When the terminal device 2 is used by a user P who is at home, the terminal device 2 communicates with the refrigerator control server 3 via the communication device 4 or not via the communication device 4 to operate the refrigerator 1 using the function of the refrigerator control application 212 . Control. Further, when the terminal device 2 is used by the user P who has left home H and cannot establish a communication connection with the communication device 4 , the function of the refrigerator control application 212 enables the refrigerator control server to operate without the communication device 4 . 3 to control the refrigerator 1.

A refrigerator control system 1000 includes a refrigerator control server 3 . The refrigerator control server 3 is a server device that controls the refrigerator 1 and connects to the global network GN.

Refrigerator control system 1000 includes weather server 5 . The weather server 5 is a server device that provides weather data about the weather in the area where the refrigerator 1 is installed. In the present disclosure, as the weather data provided by the weather server 5, the temperature data of the area including the installation location of the refrigerator 1 is exemplified. Other data such as In the present disclosure, the one temperature data provided by the weather server 5 indicates at least the daily minimum temperature.

In each figure, each of the refrigerator control server 3 and the weather server 5 is represented by one block, but this does not necessarily mean that each of the refrigerator control server 3 and the weather server 5 is composed of a single server device. not something to do. For example, each of the refrigerator control server 3 and the weather server 5 may be configured including a plurality of server devices with different processing contents. Also, in each figure, the refrigerator control server 3 and the weather server 5 are illustrated as separate server devices, but these server devices may be configured as the same server device.

Next, configurations of the refrigerator 1, the terminal device 2, and the refrigerator control server 3 will be described.
FIG. 2 is a diagram showing configurations of the refrigerator 1, the terminal device 2, and the refrigerator control server 3. As shown in FIG.

[1-1-2. Refrigerator configuration]
First, the configuration of the refrigerator 1 will be described.
The refrigerator 1 includes a refrigerator control section 16 , a refrigerator communication section 17 , a cooling section 18 and a sensor section 19 .

The refrigerator control unit 16 includes a refrigerator processor 160 that executes programs such as a CPU (Central Processing Unit) and an MPU (Micro-processing unit), and a refrigerator storage unit 161 . Refrigerator control unit 16 controls each unit of refrigerator 1 by reading and executing control program 1611 stored in refrigerator storage unit 161 by refrigerator processor 160 . Refrigerator processor 160 functions as refrigerator communication control unit 1601 and operation mode execution unit 1602 by executing control program 1611 .

Refrigerator storage unit 161 includes a memory that stores programs executed by refrigerator processor 160 and data processed by refrigerator processor 160 . Refrigerator storage unit 161 stores a control program 1611 executed by refrigerator processor 160 and various other data. Refrigerator storage unit 161 has a non-volatile storage area. Refrigerator storage unit 161 may include a volatile storage area and constitute a work area of refrigerator processor 160 .

The refrigerator communication unit 17 is a communication interface having a configuration related to communication such as a radio circuit and an antenna conforming to a predetermined communication standard, and communicates with the refrigerator control server 3 according to the predetermined communication standard. The communication standard used by the refrigerator communication unit 17 may be a wireless communication standard (for example, IEEE802.11a/11b/11g/11n/11ac, Bluetooth (registered trademark)) or a wired communication standard.

The cooling unit 18 includes a compressor 181, a condenser 182, a capillary tube 183, a cooler 184, a cooling fan 185 that sends the cold air generated by the cooler 184 to each housing chamber, and divides the cold air sent by the cooling fan 185. A mechanism for cooling each storage chamber of the refrigerator 1 such as a damper 186 is provided, and each storage chamber of the refrigerator 1 is cooled according to the control of the refrigerator control unit 16 .

The sensor unit 19 includes various sensors such as an illuminance sensor 191 and outputs detection values to the refrigerator control unit 16 for each sensor. The illuminance sensor 191 is provided at a predetermined position of the refrigerator 1 and detects the illuminance of the place where the refrigerator 1 is arranged. In the present disclosure, the larger the detection value of the illuminance sensor 191 is, the brighter the location of the refrigerator 1 is.

As described above, refrigerator control unit 16 functions as refrigerator communication control unit 1601 and operation mode execution unit 1602 .

Refrigerator communication control unit 1601 communicates with devices connected to global network GN via refrigerator communication unit 17 . In the present disclosure, refrigerator communication control unit 1601 communicates with refrigerator control server 3 via refrigerator communication unit 17 .

The operation mode execution unit 1602 shifts the operation mode of the refrigerator 1 to any of normal mode, outing mode, shopping preparation mode, winter mode, and automatic power saving mode, and executes processing corresponding to the operation mode.
Outing mode corresponds to an example of the first mode of the present disclosure. The shopping preparation mode corresponds to an example of the second mode of the present disclosure. Winter mode corresponds to an example of the third mode of the present disclosure. The automatic power saving mode corresponds to an example of the fourth mode of the present disclosure.

In the following description, when going out mode, shopping preparation mode, winter mode, and automatic power saving mode are not distinguished, they are referred to as "energy saving mode". The energy saving mode is an operating mode that consumes less power than the normal mode. Note that the normal mode is an operation mode that consumes more power than the energy saving mode.

[1-1-2-1. outing mode]
The outing mode is an operation mode that can be shifted to when the user P leaves home H where the refrigerator 1 is installed.
When refrigerator communication control unit 1601 receives, from refrigerator control server 3, first transition instruction information indicating an instruction to transition to outing mode, operation mode execution unit 1602 changes the operation mode of refrigerator 1 to an operation mode other than outing mode. to go out mode.

For example, the operation mode executing unit 1602 reduces at least one of the rotation speed of the compressor 181 and the rotation speed of the cooling fan 185 in the outing mode from the rotation speed in the normal mode. As a result, the operation mode execution unit 1602 reduces at least one of the amount of cooling of each storage chamber of the refrigerator 1 and the amount of cold air circulating in the refrigerator 1 in the outing mode. In the outing mode, the internal temperature of the refrigerator 1 rises by, for example, 1° C. compared to the normal mode.

After shifting the operation mode of the refrigerator 1 to the outing mode, the operation mode executing unit 1602 ends the outing mode when an outing mode end trigger occurs, and changes the operation mode of the refrigerator 1 from the outing mode to a mode other than the outing mode. Move to operation mode.

For example, when the operation mode execution unit 1602 detects that at least one of the left door 11A, the right door 11B, and the drawers 12A, 13A, 14A, and 15A is opened/closed by an open/close sensor (not shown), it is determined that an end trigger is generated. , exit outing mode. In addition, the operation mode executing unit 1602 determines that an end trigger has occurred and terminates the outing mode when a predetermined time (for example, 8 hours) has elapsed since transition to the outing mode. Further, when an instruction to shift to another operation mode is received, the operation mode execution unit 1602 determines that an end trigger has occurred, and terminates the outing mode.

[1-1-2-2. Shopping preparation mode]
The shopping preparation mode is an operation mode that can be shifted to when the user P is at the shopping destination, and increases the amount of cooling inside the refrigerator 1 compared to the normal mode.
The shopping destination is, for example, a store that sells food, and corresponds to an example of the food available destination of the present disclosure.

By setting the operation mode of the refrigerator 1 to the shopping preparation mode before storing the food obtained at the shopping destination by the user P in the refrigerator 1, the internal temperature of the refrigerator 1 can be made lower than that in the normal mode. Therefore, the refrigerator 1 prevents the temperature inside the refrigerator 1 from temporarily rising due to the food being stored in the refrigerator 1 by the user P, and quickly optimizes the temperature of the newly stored food. storage temperature can be reached.

The reason why the power consumption in the shopping preparation mode is smaller than that in the normal mode is that the interior of the refrigerator is not rapidly cooled due to the temporary increase in the storage capacity of the refrigerator.

When refrigerator communication control unit 1601 receives from refrigerator control server 3 second transition instruction information indicating an instruction to transition to the shopping preparation mode, operation mode execution unit 1602 sets the operation mode of refrigerator 1 to an operation other than the shopping preparation mode. mode to shopping preparation mode.

For example, in the shopping preparation mode, the operation mode execution unit 1602 increases at least one of the rotation speed of the compressor 181 and the rotation speed of the cooling fan 185 from the rotation speed in the normal mode. As a result, the operation mode executing unit 1602 increases at least one of the cooling amount of each storage room of the refrigerator 1 and the circulation amount of cool air in the refrigerator 1 in the shopping preparation mode.
As a result, in the shopping preparation mode, the internal temperature of the refrigerator 1 is lowered by, for example, 2° C. compared to the normal mode.

After shifting the operation mode of the refrigerator 1 to the shopping preparation mode, the operation mode execution unit 1602 ends the shopping preparation mode when a trigger for ending the shopping preparation mode is generated, and changes the operation mode of the refrigerator 1 from the shopping preparation mode. Shift to an operation mode other than the shopping preparation mode.

For example, when the operation mode execution unit 1602 detects opening/closing of at least one of the left door 11A, the right door 11B, and the drawers 12A, 13A, 14A, and 15A, it determines that an end trigger has occurred and ends the shopping preparation mode. In addition, the operation mode executing unit 1602 determines that an end trigger has occurred and terminates the shopping preparation mode when a predetermined period of time (for example, two hours) has elapsed since transition to the shopping preparation mode. Further, when an instruction to shift to another operation mode is received, the operation mode execution unit 1602 determines that an end trigger has occurred, and terminates the outing mode.

[1-1-2-3. winter mode]
The winter mode is an operation mode that can be shifted to when the current season is winter, and the internal temperature of the refrigerator 1 is, for example, 1° C. to 2° C. higher than in the normal mode. In winter, some people tend not to like cold food, so it is desirable to be able to set the temperature inside the refrigerator to a temperature suitable for winter. Therefore, by operating the refrigerator 1 in the winter mode, the internal temperature of the refrigerator 1 can be set to a temperature suitable for winter.

When the refrigerator communication control unit 1601 receives from the refrigerator control server 3 third transition instruction information indicating an instruction to transition to the winter mode, the operation mode execution unit 1602 changes the operation mode of the refrigerator 1 from an operation mode other than the winter mode. Switch to winter mode.

For example, the operation mode execution unit 1602 reduces at least one of the rotation speed of the compressor 181 and the rotation speed of the cooling fan 185 in the winter mode from the rotation speed in the normal mode. As a result, the operation mode execution unit 1602 reduces at least one of the amount of cooling of each storage chamber of the refrigerator 1 and the amount of cold air circulating in the refrigerator 1 .

After shifting the operation mode of the refrigerator 1 to the winter mode, the operation mode execution unit 1602 ends the winter mode when a trigger for ending the winter mode is generated.
For example, the operation mode execution unit 1602 generates an end trigger when a refrigerator operation unit (not shown) provided on the door or inside the refrigerator compartment 11 receives an operation to end the winter mode or change the temperature inside the refrigerator from the user P. End winter mode. Further, when the operation mode execution unit 1602 receives termination instruction information indicating an instruction to terminate the winter mode from the refrigerator control server 3, the operation mode execution unit 1602 determines that an termination trigger has occurred and terminates the winter mode.

[1-1-2-4. Auto power saving mode]
The automatic power saving mode is an operation mode to which the refrigerator 1 automatically shifts, unlike the outing mode, the shopping preparation mode, and the winter mode.

The operation mode execution unit 1602 changes the operation mode of the refrigerator 1 from an operation mode other than the automatic power saving mode to an automatic power saving mode when the state in which the detection value of the illuminance sensor 191 is equal to or less than a predetermined value continues for a predetermined time or longer (for example, 5 minutes or longer). switch to mode.

For example, in the automatic power saving mode, the operation mode execution unit 1602 reduces at least one of the rotation speed of the compressor 181 and the rotation speed of the cooling fan 185 from the rotation speed in the normal mode. As a result, the operation mode execution unit 1602 reduces at least one of the amount of cooling of each storage compartment of the refrigerator 1 and the amount of cold air circulating in the refrigerator 1 in the automatic power saving mode.

After shifting the operation mode of the refrigerator 1 to the automatic power saving mode, if the detection value of the illuminance sensor 191 exceeds a predetermined value, the operation mode executing unit 1602 assumes that a trigger for ending the automatic power saving mode has occurred, and automatically switches to the automatic power saving mode. to an operation mode other than automatic power saving mode.

[1-1-3. Refrigerator control server configuration]
Next, the configuration of the refrigerator control server 3 will be described.
The refrigerator control server 3 includes a server control section 30 and a server communication section 31 .

The server control unit 30 includes a server processor 300 which is a processor such as a CPU or MPU that executes programs, and a server storage unit 310 . The server control unit 30 controls each unit of the refrigerator control server 3 by causing the server processor 300 to read and execute the control program 311 stored in the server storage unit 310 . The server processor 300 functions as a server communication control unit 301 , a calculation unit 302 , a database processing unit 303 , and a current date/time unit 304 by executing control programs stored in the server storage unit 310 .

The server storage unit 310 has a memory that stores programs executed by the server processor 300 and data processed by the server processor 300 . The server storage unit 310 stores a control program 311 executed by the server processor 300, setting data relating to settings of the refrigerator control server 3, a user-related information management DB 312, and various other data. The server storage unit 310 has a nonvolatile storage area that stores programs and data in a nonvolatile manner. The server storage unit 310 may include a volatile storage area and configure a work area for temporarily storing programs to be executed by the server processor 300 and data to be processed.

FIG. 3 is a diagram showing an example of the user-related information management DB 312. As shown in FIG.

The user-related information management DB 312 is a database that stores various information related to users of the refrigerator 1 . One record R stored in the user-related information management DB 312 has a user ID 3121 , refrigerator communication information 3122 , terminal device communication information 3123 , reduction amount information 3124 , and performance information 3125 . Note that one record R stored in the user-related information management DB 312 may further have one or more different types of information.

User ID 3121 is identification information that identifies user P who uses refrigerator control application 212 .

Refrigerator communication information 3122 is information for communicating with refrigerator 1 . Refrigerator communication information 3122 includes, for example, address information and security information.

The terminal device communication information 3123 is information for communicating with the terminal device 2 in which the refrigerator control application 212 used by the user P with the user ID 3121 associated with the same record R is installed. The terminal device communication information 3123 includes, for example, address information and security information.

The reduction amount information 3124 is information indicating the reduction amount. The reduction amount is the electricity cost of the refrigerator 1 that can be reduced by operating the refrigerator 1 in the energy saving mode. The reduction amount information 3124 indicates the reduction amounts for the past 13 months including this month, with the current month being this month. It should be noted that the amount of reduction other than this month indicated by the amount of reduction information 3124 is the amount of reduction for the most recent 12 months based on this month. Hereinafter, the current month is expressed as "this month".

The track record information 3125 is information indicating the operation track record in the energy saving mode. The performance information 3125 includes outing mode performance information 3126 , shopping preparation mode performance information 3127 , winter mode performance information 3128 , and automatic power saving mode performance information 3129 .

Outing mode record information 3126 indicates the operating time in the outing mode.
The shopping preparation mode record information 3127 indicates the number of transitions to the shopping preparation mode.
The winter mode performance information 3128 indicates the operation time during which the winter mode was operated.
The automatic power saving mode record information 3129 indicates the operating time in the automatic power saving mode.

The server communication unit 31 is a communication interface having a configuration related to communication such as a radio circuit and an antenna according to a predetermined communication standard, and communicates with devices connected to the global network GN according to the predetermined communication standard. In this embodiment, the server communication unit 31 communicates with the refrigerator 1 and the terminal device 2 .

As described above, the server control unit 30 functions as the server communication control unit 301 , the calculation unit 302 , the database processing unit 303 and the current date/time unit 304 .

The server communication control section 301 communicates with the refrigerator 1 and the terminal device 2 via the server communication section 31 .

The calculation unit 302 calculates the reduction amount. A method of calculating the reduction amount by the calculation unit 302 will be described later.

The database processing unit 303 performs information processing related to the user-related information management DB 312 such as record R generation, record R storage, and record R update.

The current date/time unit 304 keeps the current date/time (current year, month, day, and time).

[1-1-4. Configuration of terminal device]
Next, the configuration of the terminal device 2 will be described.
The terminal device 2 includes a terminal control section 20 , a terminal communication section 21 , a touch panel 22 and a GNSS (Global Navigation Satellite System) 23 .

The terminal control unit 20 includes a terminal processor 200 which is a processor such as a CPU or MPU that executes programs, and a terminal storage unit 210 . The terminal control unit 20 controls each unit of the terminal device 2 by reading and executing the control program 211 stored in the terminal storage unit 210 by the terminal processor 200 . A refrigerator control application 212 is installed in the terminal device 2 in advance. By reading and executing the refrigerator control application 212, the terminal processor 200 controls the first terminal communication control unit 201, the second terminal communication control unit 202, the setting unit 203, the detection unit 204, the determination unit 205, the display control unit 206, It functions as an operation control unit 207 . Details of these functional units will be described later.
In the present embodiment, terminal processor 200 corresponds to an example of a computer of the present disclosure.

The terminal storage unit 210 has a memory that stores programs executed by the terminal processor 200 and data processed by the terminal processor 200 . The terminal storage unit 210 stores a control program 211 executed by the terminal processor 200, setting data related to settings of the terminal device 2, a refrigerator control application 212, a user ID 3121, installation location information 213, and various other data. The terminal storage unit 210 has a nonvolatile storage area that stores programs and data in a nonvolatile manner. The terminal storage unit 210 may comprise a volatile storage area and constitute a work area of the terminal processor 200 .
The installation location information 213 is information indicating the installation location of the refrigerator 1 . The installation location information 213 indicates, for example, the address of the home H, the postal code, and the like.

The terminal communication unit 21 is a communication interface having a configuration such as a radio circuit and an antenna according to a predetermined communication standard, and communicates with devices connected to the global network GN according to the predetermined communication standard. In this disclosure, the wireless communication standard is exemplified as the communication standard used by the terminal communication unit 21 .

The touch panel 22 includes a display panel such as a liquid crystal display panel, and a touch sensor provided over the display panel or integrally therewith.

The GNSS 23 measures the current position of the terminal device 2 . The GNSS 23 generates position data indicating the current position of the terminal device 2 and outputs it to the terminal control section 20 .

As described above, the terminal control unit 20 functions as the first terminal communication control unit 201, the second terminal communication control unit 202, the setting unit 203, the detection unit 204, the determination unit 205, the display control unit 206, and the operation control unit 207. do.
In the present embodiment, the display control unit 206 corresponds to an example of the providing unit of the present disclosure.

The first terminal communication control section 201 communicates with the refrigerator control server 3 via the terminal communication section 21 .

The second terminal communication control section 202 communicates with the weather server 5 via the terminal communication section 21 . More specifically, the second terminal communication control section 202 transmits temperature data request information to the weather server 5 . The temperature data request information includes installation location information 213 stored in the terminal storage unit 210 . Upon receiving the temperature data request information, the weather server 5 transmits to the terminal device 2 the temperature data of the area including the setting location indicated by the installation location information 213 included in the temperature data request information. The second terminal communication control unit 202 receives temperature data from the weather server 5 as a response to the temperature data request information. Second terminal communication control section 202 outputs the received temperature data to determination section 205 . In this embodiment, the second terminal communication control unit 202 outputs to the determination unit 205 a plurality of pieces of temperature data up to a date a predetermined number of days before the present.

The setting unit 203 makes various settings related to the functions of the refrigerator control application 212 . For example, the setting unit 203 performs various settings related to the functions of the refrigerator control application 212 by setting the setting values in the corresponding setting items in the application setting data. Note that the application setting data is data related to setting of functions of the refrigerator control application 212 and includes various setting items. The application setting data is stored in a predetermined storage area accessible by refrigerator control application 212 .

The setting unit 203 sets the position of the home H of the user P as a reference for detection by the detection unit 204 . In the following description, the position of user P's home H is referred to as "home position".
Further, the setting unit 203 sets a range in which the user P is not out of the home, that is, a range to be regarded as the home H in detection by the detection unit 204, based on the set home position. In the following description, the range set as the home H by the setting unit 203 is referred to as "home range".

The setting unit 203 also sets the location of the shopping destination that serves as a reference for detection by the detection unit 204 . In the following description, the location of the shopping destination will be referred to as "shopping location". In this embodiment, the setting unit 203 can set a plurality of shopping locations.
Further, the setting unit 203 sets a range to be regarded as a shopping destination in detection by the detection unit 204 for each set shopping destination. In the following description, the range set by the setting unit 203 as shopping destinations is referred to as "shopping destination range".

The setting unit 203 also sets the installation location of the refrigerator 1 . Installation location information 213 indicating the installation location of refrigerator 1 set by setting unit 203 is stored in terminal storage unit 210 .

The detection unit 204 detects whether the user P has left home H by detecting whether the terminal device 2 is located outside the home range set by the setting unit 203 . More specifically, the detection unit 204 detects whether or not the position of the terminal device 2 indicated by the position data output from the GNSS 23 is outside the home range, thereby determining whether or not the user P has left home H. detect. Note that the detection unit 204 detects that the user P has gone out of the home H when a predetermined time (for example, 5 minutes) has passed without returning to the home range after the terminal device 2 has moved out of the home range. It may be detected that As a result, it is possible to prevent the later-described outing mode notification card from being displayed/hidden repeatedly on the touch panel 22 in a short period of time when the user P moves back and forth on the boundary line of the home range.
The detection unit 204 outputs detection results to the display control unit 206 .

The detection unit 204 detects whether or not the user P is located at the shopping destination based on the position of the terminal device 2 indicated by the position data output from the GNSS 23 . The detection unit 204 detects that the user P is located at the shopping destination when the terminal device 2 is continuously located within the shopping destination range set by the setting unit 203 for a predetermined time (for example, 10 minutes) or longer.
The detection unit 204 outputs detection results to the display control unit 206 .

Based on the temperature data output from the second terminal communication control section 202, the determination section 205 determines whether or not the current season is winter. The determination unit 205 calculates the average of the daily minimum temperatures indicated by the plurality of temperature data received by the second terminal communication control unit 202, and the calculated average of the daily minimum temperatures is a predetermined temperature (for example, 6°C). It is determined whether or not the If the determination unit 205 determines that the calculated average daily minimum temperature is equal to or higher than a predetermined temperature, the determination unit 205 determines that the current season is a season other than winter. On the other hand, when the determination unit 205 determines that the calculated average daily minimum temperature is lower than the predetermined temperature, the determination unit 205 determines that the current season is winter.
The determination unit 205 outputs the determination result to the display control unit 206 .

The display control unit 206 causes the touch panel 22 to display a user interface. Hereinafter, this user interface will be referred to as an "application UI" and denoted by "2060". The display control unit 203 provides various information to the user P by displaying the application UI 2060 on the touch panel 22, and receives various inputs from the user P. FIG. Details of the application UI 2060 will be described later. In the present embodiment, display control unit 206 receives an instruction from user P via application UI 2060 to shift the operation mode of refrigerator 1 to one of outing mode, shopping preparation mode, and winter mode.

The operation control unit 207 changes the operation mode of the refrigerator 1 to the outing mode when the display control unit 206 receives an instruction to shift the operation mode of the refrigerator 1 to the outing mode from the user P via the application UI 2060 . Further, when the display control unit 206 receives an instruction from the user P via the application UI 2060 to shift the operation mode of the refrigerator 1 to the shopping preparation mode, the operation control unit 207 changes the operation mode of the refrigerator 1 to the shopping preparation mode. to Further, when the display control unit 206 receives an instruction from the user P to shift the operation mode of the refrigerator 1 to the winter mode via the application UI 2060, the operation control unit 207 sets the operation mode of the refrigerator 1 to the winter mode. .

As described above, the display control unit 206 causes the touch panel 22 to display the application UI 2060 . In the application UI 2060 of the present disclosure, a home screen HG and a reduction amount screen SG are displayed.

FIG. 4 is a diagram showing an example of the home screen HG.

The home screen HG has a mode display area HA1. The mode display area HA1 is an area indicating the current operating mode of the refrigerator 1, and displays a mode image G1, which is an image indicating the current operating mode of the refrigerator 1. FIG. In FIG. 4, the mode display area HA1 displays a mode image G1 indicating the normal mode, indicating that the current operating mode of the refrigerator 1 is the normal mode.

The home screen HG has a notification card display area HA2. The notification card display area HA2 is an area for displaying one notification card TC. The notification card TC is a card-shaped icon that notifies the user P of predetermined information. The notification card display area HA2 displays one notification card TC according to a predetermined priority. In FIG. 4, the notification card display area HA2 displays an outing mode notification card. In addition, in the notification card display area HA2, when the user P performs a predetermined touch operation in the notification card display area HA2, the type of notification card TC to be displayed is switched.

In the present disclosure, one notification card TC displayed in the notification card display area HA2 is one of an outing mode notification card, a shopping preparation notification card, and a winter mode notification card.

The outing mode notification card is a notification card TC for setting the operation mode of the refrigerator 1 to the outing mode. When the detection unit 204 detects that the user P has left home H, the display control unit 206 displays the out-out mode notification card in the home screen HG so as to be selectable. When the outing mode notification card displayed in the notification card display area HA2 is touch-operated, the operation control unit 207 sets the operation mode of the refrigerator 1 to the outing mode. Accordingly, in application UI 2060, mode image G1 displayed in mode display area HA1 of home screen HG indicates outing mode.

The shopping preparation mode notification card is a notification card TC for setting the operation mode of the refrigerator 1 to the shopping preparation mode. The display control unit 206 selectably displays the shopping preparation mode notification card on the home screen HG when the detection unit 204 detects that the user P is at the shopping destination. When the shopping preparation mode notification card displayed in the notification card display area HA2 is touch-operated, the operation control unit 207 sets the operation mode of the refrigerator 1 to the shopping preparation mode. Accordingly, in application UI 2060, mode image G1 displayed in mode display area HA1 of home screen HG indicates shopping preparation mode.

The winter mode notification card is a notification card TC for setting the operation mode of the refrigerator 1 to the winter mode. When the determination unit 205 determines that the current season is winter, the display control unit 206 displays the winter mode notification card in the home screen HG so as to be selectable. When the winter mode notification card displayed in the notification card display area HA2 is touch-operated, the operation control unit 207 sets the operation mode of the refrigerator 1 to the winter mode. Accordingly, in application UI 2060, mode image G1 displayed in mode display area HA1 of home screen HG indicates the winter mode.

Note that the types of notification cards TC displayed in the notification card display area HA2 are not limited to the three types described above, and there may be further different types of notification cards TC.

The home screen HG has a reduction amount display button B1. The reduction amount display button B1 is a software button for displaying the reduction amount screen SG. The reduction amount display button B1 can be touch-operated. When the reduction amount display button B1 is touch-operated on the home screen HG, the application UI 2060 transitions from the home screen HG to the reduction amount screen SG.

FIG. 5 is a diagram showing an example of the reduction amount screen SG.

The reduction amount screen SG has a first reduction amount display area HA3. The first reduction amount display area HA3 is an area for displaying the reduction amount for this month, the reduction amount for the previous month, which is the month before this month, and the reduction amount for this month and the same month one year ago.

The reduction amount screen SG has a second reduction amount display area HA4. The second reduction amount display area HA4 is an area for displaying the reduction amount for the most recent one year from this month to this month in a bar graph for each month. In the second reduction amount display area HA4, the reduction amount for the same year as the current month and the reduction amount for a year different from the current month, that is, the previous year, are displayed in bar graphs of different colors. The second reduction amount display area HA4 shown in FIG. 5 indicates the reduction amount for the most recent year including June to June in a bar graph for each month, with June as the current month. In the second reduction amount display area HA4 shown in FIG. 5, the bar graph from January to June and the bar graph from July to December of the previous year are displayed in different colors.

The vertical axis of the bar graph displayed in the second reduction amount display area HA4 differs according to the largest reduction amount among the reduction amounts for one year to be displayed. In the present disclosure, if the largest reduction amount among the reduction amounts displayed for one year is 20 yen or less, the vertical axis of the bar graph displayed in the second reduction amount display area HA4 is from 0 yen to 20 yen. is set to the scale of Further, in the present disclosure, when the largest reduction amount among the displayed reduction amounts for 12 months is 21 yen or more and 50 yen or less, the vertical axis of the bar graph displayed in the second reduction amount display area HA4 is , is set on a scale of 0 yen to 50 yen. Further, in the present disclosure, when the largest reduction amount among the displayed reduction amounts for 12 months is 51 yen or more and 100 yen or less, the vertical axis of the bar graph displayed in the second reduction amount display area HA4 is , is set on a scale of 0 Yen to 100 Yen.

Note that the scale of the vertical axis of the bar graph displayed in the second reduction amount display area HA4 is merely an example, and is not limited to the above three types. The scale of the vertical axis of the bar graph displayed in the second reduction amount display area HA4 may be set more finely according to the largest reduction amount.

The reduction amount screen SG has a return button B2. The return button B2 is a software button for screen transition to the home screen HG. When the return button B2 is touch-operated on the reduction amount screen SG, the application UI 2060 transitions from the reduction amount screen SG to the home screen HG.

[1-2. motion]
Next, the operation of this embodiment will be described.

[1-2-1. Operation related to transition of operation mode]
First, the operation of refrigerator control system 1000 related to transition of the operation mode of refrigerator 1 will be described.

FIG. 6 is a flow chart showing the operation of refrigerator control system 1000 . In FIG. 6 , a flowchart FA shows the operation of the terminal device 2 , a flowchart FB shows the operation of the refrigerator control server 3 , and a flowchart FC shows the operation of the refrigerator 1 .

As shown in the flowchart FA, the display control unit 206 of the terminal device 2 determines whether or not the notification card TC has been touch-operated (step SA1).

When the display control unit 206 determines that the notification card TC has not been touch-operated (step SA1: NO), the process of step SA1 is performed again.

On the other hand, when the display control unit 206 determines that the notification card TC has been touch-operated (step SA1: YES), the operation control unit 207 generates transition instruction information corresponding to the touch-operated notification card TC (step SA2).

In step SA2, the operation control unit 207 generates first transition instruction information when the touch-operated notification card TC is the outing mode notification card.
Further, in step SA2, the operation control unit 207 generates second transition instruction information when the touch-operated notification card TC is the shopping preparation mode notification card.
Further, in step SA2, the operation control unit 207 generates third transition instruction information when the touch-operated notification card TC is the winter mode notification card.

The first terminal communication control unit 201 adds the user ID 3121 stored in the terminal storage unit 210 and transmits the transition instruction information generated by the operation control unit 207 to the refrigerator control server 3 (step SA3).

As shown in the flowchart FB, the server communication control unit 301 of the refrigerator control server 3 determines whether or not the shift instruction information has been received from the terminal device 2 (step SB1).

When the server communication control unit 301 determines that the migration instruction information has not been received from the terminal device 2 (step SB1: NO), the process of step SB1 is performed again.

On the other hand, when the server communication control unit 301 determines that the migration instruction information has been received from the terminal device 2 (step SB1: NO), it refers to the user-related information management DB 312 to obtain the user ID 3121 added to the migration instruction information. The containing record R is identified (step SB2).

Next, the server communication control unit 301 transmits the shift instruction information received from the terminal device 2 to the refrigerator 1 based on the refrigerator communication information 3122 included in the specified record R (step SB3).

As shown in flowchart FC, operation mode execution unit 1602 of refrigerator 1 determines whether or not a transition trigger for shifting the operation mode of refrigerator 1 to the energy saving mode has occurred (step SC1).

In this embodiment, there are four types of transition triggers: a first transition trigger, a second transition trigger, a third transition trigger, and a fourth transition trigger.

The first transition trigger is that the refrigerator 1 has received the first transition instruction information.
The second shift trigger is that the refrigerator 1 has received the second shift instruction information.
The third shift trigger is that the refrigerator 1 has received the third shift instruction information.
The fourth transition trigger is that the detected value of the illuminance sensor 191 has continued for a predetermined time or longer (for example, 5 minutes or longer).

When the operation mode execution unit 1602 determines that the transition trigger has not occurred (step SC1: NO), the operation mode execution unit 1602 performs the process of step SC1 again.

On the other hand, when operation mode execution unit 1602 determines that a shift trigger has occurred (step SC1: YES), it shifts the operation mode of refrigerator 1 to the energy saving mode corresponding to the type of shift trigger that has occurred (step SC2).

When the first shift trigger is generated, operation mode execution unit 1602 shifts the operation mode of refrigerator 1 from an operation mode other than outing mode to outing mode in step SC2.
When the second transition trigger occurs, operation mode execution unit 1602 shifts the operation mode of refrigerator 1 from an operation mode other than shopping preparation mode to shopping preparation mode in step SC2.
When the third shift trigger is generated, operation mode execution unit 1602 shifts the operation mode of refrigerator 1 from an operation mode other than winter mode to winter mode in step SC2.
When the fourth shift trigger is generated, operation mode execution unit 1602 shifts the operation mode of refrigerator 1 from an operation mode other than the automatic power saving mode to the automatic power saving mode in step SC2.

Operation mode execution unit 1602 determines whether or not an end trigger corresponding to the operation mode shifted in step SC2 has occurred (step SC3).

When the operation mode execution unit 1602 determines that the termination trigger has not occurred (step SC3: NO), it continues the operation mode shifted to in step SC2, and performs the determination in step SC3 again.

On the other hand, when the operation mode execution unit 1602 determines that the end trigger is generated (step SC3: YES), it shifts the operation mode of the refrigerator 1 to an operation mode other than the operation mode shifted in step SC2 (step SC4). .

[1-2-2. Operation related to reduction amount]
Next, the operation of the refrigerator control system 1000 related to the reduction amount will be described.

FIG. 7 is a flow chart showing the operation of refrigerator control system 1000 . In FIG. 7, a flow chart FD shows the operation of the refrigerator 1, and a flow chart FE shows the operation of the refrigerator control server 3. FIG. Flowchart FE of FIG. 7 is based on the premise that refrigerator control server 3 appropriately processes record R corresponding to refrigerator 1 as a communication partner.

The operation of refrigerator control system 1000 shown in FIG. 7 is performed in parallel with the operation of refrigerator control system 1000 shown in FIG.

As shown in the flowchart FD, the operation mode execution unit 1602 of the refrigerator 1 determines whether or not the operation mode of the refrigerator 1 has been changed (step SD1).

When the operation mode execution unit 1602 determines that the operation mode of the refrigerator 1 has not been changed (step SD1: NO), the operation mode execution unit 1602 makes the determination in step SD1 again.

On the other hand, when the operation mode execution unit 1602 determines that the operation mode of the refrigerator 1 has been shifted (step SD1: YES), it generates transition operation mode information (step SD2).

The shift operation mode information is information indicating the operation mode shifted by the operation mode execution unit 1602 .
When the operation mode of refrigerator 1 is shifted to the normal mode, operation mode execution unit 1602 generates transition operation mode information indicating the normal mode in step SD2.
When the operation mode of refrigerator 1 is shifted to the outing mode, operation mode execution unit 1602 generates transitional operation mode information indicating the outing mode in step SD2.
When the operation mode of refrigerator 1 is shifted to the shopping preparation mode, operation mode executing section 1602 generates transition operation mode information indicating the shopping preparation mode in step SD2.
When the operation mode of refrigerator 1 is shifted to the winter mode, operation mode execution unit 1602 generates shift operation mode information indicating the winter mode in step SD2.
When the operation mode of refrigerator 1 is shifted to the automatic power saving mode, operation mode execution unit 1602 generates transition operation mode information indicating the automatic power saving mode in step SD2.

When the operation mode execution unit 1602 generates the shift operation mode information, the refrigerator communication control unit 1601 transmits the shift operation mode information generated by the operation mode execution unit 1602 to the refrigerator control server 3 (step SD3).

As shown in flowchart FE, database processing unit 303 of refrigerator control server 3 determines whether the month indicated by the current date and time kept by current date/time unit 304 has changed (step SE1). That is, the database processing unit 303 determines whether or not the calendar month has changed based on the current date and time kept by the current date/time unit 304 .

When the database processing unit 303 determines that the month has changed (step SE1: YES), it updates the reduction amount information 3124 of the record R in the user-related information management DB 312 (step SE2).

To elaborate on step SE2, the database processing unit 303 deletes the reduction amount of 12 months ago that the reduction amount information 3124 has. Then, the database processing unit 303 shifts each of the reduction amounts from 11 months ago to this month by one month. That is, the database processing unit 303 regards the reduction amount of 11 months ago as the reduction amount of 12 months ago, the reduction amount of 10 months ago as the reduction amount of 11 months ago, and the reduction amount of 9 months ago as the reduction amount of 10 months ago. The amount of reduction 8 months ago is the amount of reduction 9 months ago, the amount of reduction 7 months ago is the amount of reduction 8 months ago, the amount of reduction 6 months ago is the amount of reduction 7 months ago, and the amount of reduction 5 months ago is The previous reduction amount is the reduction amount of 6 months ago, the reduction amount of 4 months ago is the reduction amount of 3 months ago, the reduction amount of 3 months ago is the reduction amount of 4 months ago, and the reduction amount of 2 months ago is the reduction amount The reduction amount information 3124 is updated so that the reduction amount of three months ago is set, the reduction amount of one month ago is set to the reduction amount of two months ago, and the reduction amount of this month is set to the reduction amount of one month ago. Then, the database processing unit 303 sets the reduction amount for this month to zero.

Returning to the description of step SE1, when the database processing unit 303 determines that the month has not changed (step SE1: NO), the calculation unit 302 determines whether or not the calculation timing for calculating the reduction amount has arrived. (Step SE3). For example, the calculation unit 302 determines that the calculation timing has arrived when the date of the current date and time kept by the current date/time unit 304 has changed.

When the calculation unit 302 determines that the calculation timing has not arrived (step SE3: NO), the server communication control unit 301 determines whether or not the shift operation mode information has been received from the refrigerator 1 (step SE4). .

When the server communication control unit 301 determines that the shift operation mode information has not been received from the refrigerator 1 (step SE4: NO), the database processing unit 303 performs the process of step SE1 again.

On the other hand, if the server communication control unit 301 determines that it has received the shift operation mode information from the refrigerator 1 (step SE4: YES), the database processing unit 303 determines whether the previous operation mode of the refrigerator 1 was the normal mode or the energy saving mode. (Step SE5). The database processing unit 303 makes a determination in step SE5 depending on whether the previously received shift operation mode information indicates the normal mode or the energy saving mode.

When the database processing unit 303 determines that the previous operation mode of the refrigerator 1 was the normal mode (step SE5: normal mode), the database processing unit 303 performs the process of step SE1 again.

On the other hand, when the database processing unit 303 determines that the previous operation mode of the refrigerator 1 was the energy saving mode (step SE5: energy saving mode), the database processing unit 303 updates the performance information 3125 (step SE6).

Step SE6 will be described in detail.
When the previous operation mode of the refrigerator 1 was the outing mode, the database processing unit 303 calculates the operation time during which the refrigerator 1 was operating in the previous outing mode. For example, the database processing unit 303 calculates the time from the reception date and time of the transition operation mode information received last time to the reception date and time of the transition operation mode information received this time as the operation time. Further, for example, if the transition operation mode information includes date and time information when the operation mode was shifted to, the database processing unit 303 changes the date and time indicated by the date and time information added to the transition operation mode information received last time to the current time. The time until the date and time indicated by the date and time information added to the received transition operation mode information is calculated as the operation time. Then, the database processing unit 303 updates the operation time indicated by the outing mode performance information 3126 to the operation time obtained by adding the calculated operation time to the operation time before the addition. The database processing unit 303 similarly updates both the winter mode and the automatic power saving mode.
If the previous operation mode of the refrigerator 1 was the shopping preparation mode, the database processing unit 303 increments the number of transitions indicated by the shopping preparation mode result information 3127 by one.

Returning to the description of step SE3, if the calculating unit 302 determines that the calculation timing has arrived (step SE3: YES), it calculates the amount of reduction achieved in the outing mode (step SE7).

In step SE7, the calculation unit 302 calculates the amount of money obtained by multiplying the operation time indicated by the outing mode performance information 3126 by α yen as the reduction amount that can be reduced in the outing mode. The amount of money multiplied by the operating time indicated by the outing mode performance information 3126 is the electricity cost that can be reduced in the outing mode per hour compared to the normal mode. This α circle is appropriately determined by preliminary tests and simulations. The α yen is, for example, 0.08 yen.

Next, the calculation unit 302 calculates the amount of money saved in the shopping preparation mode (step SE8).

In step SE8, the calculation unit 302 calculates the amount obtained by multiplying the number of transitions indicated by the shopping preparation mode result information 3127 by β yen as the reduction amount that can be reduced in the shopping preparation mode. The β yen multiplied by the number of transitions indicated by the shopping preparation mode performance information 3127 is the electricity cost that can be reduced in the shopping preparation mode per transition compared to the normal mode. This β circle is appropriately determined by preliminary tests and simulations. The β yen is, for example, 0.5 yen.

Next, the calculation unit 302 calculates the amount of reduction achieved in the winter mode (step SE9).

In step SE9, the calculation unit 302 calculates the amount of money obtained by multiplying the operating time indicated by the winter mode performance information 3128 by γ yen as the reduction amount that can be reduced in the winter mode. The γ circle multiplied by the operation time indicated by the winter mode performance information 3128 is the electricity cost that can be reduced per hour in the winter mode compared to the normal mode. This γ circle is appropriately defined by preliminary tests and simulations. The γ yen is, for example, 0.05 yen.

Next, the calculation unit 302 calculates the amount of money saved in the automatic power saving mode (step SE10).

In step SE10, the calculation unit 302 calculates the amount of money obtained by multiplying the operation time indicated by the automatic power saving mode result information 3129 by δ yen as the amount of money saved in the automatic power saving mode. The δ yen multiplied by the operating time indicated by the automatic power saving mode result information 3129 is the electricity cost that can be reduced in the automatic power saving mode per hour compared to the normal mode. This δ circle is appropriately determined by preliminary tests and simulations. δ yen is, for example, 0.05 yen.

Next, the calculation unit 302 calculates a reduction amount by summing the reduction amounts calculated in steps SE7, SE8, SE9, and SE10 (step SE11).

Next, the database processing unit 303 updates the current month's reduction amount indicated by the reduction amount information 3124 to the reduction amount by adding the reduction amount calculated in step SE11 (step SE12). That is, the database processing unit 303 sets the reduction amount for this month indicated by the reduction amount information 3124 to the reduction amount obtained by adding the reduction amount calculated in step SE11 to the reduction amount before the processing in step SE12.

Next, the database processing unit 303 sets the operation time and the number of transitions indicated by the performance information 3125 to zero (step SE13).

[1-2-3. Operations Related to Reduction Amount Screen]
Next, the operation of the refrigerator control system 1000 related to the reduction amount screen SG will be described.

FIG. 8 is a flow chart showing the operation of refrigerator control system 1000 . In FIG. 8, a flowchart FF shows the operation of the terminal device 2, and a flowchart FG shows the operation of the refrigerator control server 3. FIG.

It is assumed that the home screen HG is displayed on the application UI 2060 at the start of the flowchart FF of FIG.

As shown in a flowchart FF, the display control unit 206 of the terminal device 2 determines whether or not the reduction amount display button B1 has been touch-operated (step SF1).

When the display control unit 206 determines that the reduction amount display button B1 has been touch-operated (step SF1: YES), the first terminal communication control unit 201 adds the user ID 3121 stored in the terminal storage unit 210 to display the reduction amount. Information request information is sent to the refrigerator control server 3 (step SF2). The reduction amount information request information is information requesting the reduction amount information 3124 .

As shown in the flowchart FG, the server communication control section 301 of the refrigerator control server 3 receives the reduction amount information request information (step SG1).

Next, the database processing unit 303 acquires the reduction amount information 3124 of the record R having the user ID 3121 added to the reduction amount information request information received by the server communication control unit 301 from the user-related information management DB 312 (step SG2). .

Next, the server communication control section 301 transmits the reduction amount information 3124 acquired in step SG2 to the terminal device 2 as a response to the reduction amount information request information (step SG3).

As shown in flowchart FF, the first terminal communication control unit 201 receives the reduction amount information 3124 from the refrigerator control server 3 (step SF3).

Next, the display control unit 206 generates a reduction amount screen SG based on the reduction amount information 3124 received by the first terminal communication control unit 201 (step SF4).

Step SF4 will be described in detail.
The display control unit 206 generates display content to be displayed in the first reduction amount display area HA3. The display control unit 206 acquires the reduction amounts for the current month, 1 month ago, and 13 months ago from the reduction amounts indicated by the reduction amount information 3124 received by the first terminal communication control unit 201 . Then, the display control unit 206 generates display content in which the three acquired reduction amounts are arranged as shown in FIG.

Next, step SF4 will be described in detail.
The display control unit 206 generates a graph displayed in the second reduction amount display area HA4. The display control unit 206 determines the scale of the vertical axis of the graph based on the largest reduction amount among the reduction amounts indicated by the reduction amount information 3124 received by the first terminal communication control unit 201 . Next, the display control unit 206 generates a bar graph having a size defined by the determined scale and corresponding to the amount of reduction for each of the amounts of reduction for the most recent 12 months including the current month. Next, the display control unit 206 makes the color of the bar graph of the same year as this month different from the color of the bar graph of the previous year. Then, the display control unit 206 arranges the bar graph showing the reduction amount of the current month on the horizontal axis, and places the bar graph showing the reduction amount of the other months on the horizontal axis based on the bar graph of the current month. It is arranged appropriately so that it corresponds to the month indicated by .

Next, step SF4 will be described in detail.
The display control unit 206 generates a reduction amount screen SG in which the generated display content is displayed in the first reduction amount display area HA3 and the generated graph is displayed in the second reduction amount display area HA4.

Next, the display control unit 206 displays the generated reduction amount screen SG on the application UI 2060 (step SF5).

[1-3. Modification]
A plurality of modifications of the first embodiment described above will be described.
[1-3-1. Modification 1]
Modification 1 differs in the graph displayed in the second reduction amount display area HA4.

FIG. 9 is a diagram showing an example of the reduction amount screen SG of Modification 1. As shown in FIG.
As is clear from a comparison of FIGS. 5 and 9, the second reduction amount display area HA4 displays a bar graph showing this year's reduction amount and a bar graph showing last year's reduction amount side by side for each month. The second reduction amount display area HA4 shown in FIG. 9 displays a bar graph showing this year's reduction amount and a bar graph showing the previous year's reduction amount for six months from June to January of the same year, with June as the current month. is doing.

It should be noted that, in Modification 1, similar to the first embodiment described above, the amount of reduction for the same year as the current month and the amount of reduction for the previous year are displayed in bar graphs of different colors. Further, in the first modification, as in the first embodiment described above, the vertical axis of the bar graph displayed in the second reduction amount display area HA4 corresponds to the largest reduction amount among the displayed reduction amounts. set to scale.

According to Modification 1, user P can confirm the amount of reduction in the previous year and the amount of reduction in this year, and user P can easily compare the amount of reduction in the previous year and the amount of reduction in this year on a monthly basis. become.

In the case of Modification 1, the reduction amount information 3124 in the record R of the user-related information management DB 312 indicates the reduction amount for the past two years from this month to this month. Note that the reduction amount for the past 23 months other than this month indicated by the reduction amount information 3124 is the reduction amount for the most recent 23 months based on this month.

[1-3-2. Modification 2]
Modification 2 can switch the bar graph displayed in the second reduction amount display area HA4 between this year and the previous year.

FIG. 10 is a diagram showing an example of the reduction amount screen SG of Modification 2. As shown in FIG.
As is clear from a comparison of FIGS. 5, 9, and 10, switch buttons B3 and B4 that can be touch-operated are provided in the second reduction amount display area HA4 of the second modification.

The switch button B3 is a software button for switching the bar graph displayed in the second reduction amount display area HA4 to include the bar graph for this year. When the switch button B3 is touch-operated, the second reduction amount display area HA4 of Modification 2 displays a bar graph for each month, as in the first embodiment described above. FIG. 10 shows the reduction amount screen SG in Modification 2 when the switching button B3 is touch-operated. Note that FIG. 10 shows a bar graph of monthly reduction amounts for the past year including June to June, with June as the current month.

The switch button B4 is a software button for switching the bar graph displayed in the second reduction amount display area HA4 to only the bar graph of the previous year. When the switch button B4 is touch-operated, the second reduction amount display area HA4 of Modification 2 displays the reduction amount for the previous year for each month in a bar graph.

It should be noted that, in the modified example 2, similarly to the first embodiment described above, the amount of reduction for the same year as the current month and the amount of reduction for the previous year are displayed in bar graphs with different colors. Further, in the second modification, as in the first embodiment described above, the vertical axis of the bar graph displayed in the second reduction amount display area HA4 corresponds to the largest reduction amount among the displayed reduction amounts. set to scale.

According to Modification 2, in addition to the same effect as Modification 1, the number of bar graphs displayed in the second reduction amount display area HA4 is one year, and the amount of information in the second reduction amount display area HA4 increases. It is possible to prevent the user P from doing so, and it is possible to provide an easy-to-see graph for the user P.

In addition, in the case of modification 2, the reduction amount information 3124 in record R of the user-related information management DB 312 is the same as in modification 1. FIG.

[1-3-3. Modification 3]
In Embodiment 1 described above, the terminal device 2 is configured to provide the user P with a graph of the reduction amount by displaying the reduction amount screen SG. In Modification 3, the refrigerator 1 is also configured to be able to provide the user P with a graph of the reduction amount.

FIG. 11 is a diagram showing configurations of the refrigerator 1, the terminal device, and the refrigerator control server 3 in Modification 3. As shown in FIG. In the description of Modified Example 3, the same reference numerals are assigned to the same components as those of the refrigerator 1, the terminal device 2, and the refrigerator control server 3 of Embodiment 1, and detailed description thereof will be omitted as appropriate. .
In Modified Example 3, the refrigerator 1 also corresponds to an example of the information processing device of the present disclosure.

In Modified Example 3, the refrigerator 1 includes a display section 24 . The display unit 24 has a display panel provided at a predetermined position such as the front surface of the right door 11B, and displays information on the display panel under the control of the refrigerator control unit 16 . The display panel included in the display unit 24 may function as a display panel for the touch panel when the operating means included in the refrigerator 1 is a touch panel.

Further, in Modification 3, refrigerator processor 160 functions as reduction amount display control unit 1603 by reading and executing control program 1611 . The reduction amount display control unit 1603 causes the display unit 24 to display the reduction amount graph. The graph of the reduction amount displayed by the reduction amount display control unit 1603 may be the graph of the first embodiment, the graph of the first modification, or the graph of the second modification.
Note that, in Modification 3, the control program 1611 also corresponds to an example of the control program of the present disclosure. Also, in Modification 3, the refrigerator processor 160 also corresponds to an example of the computer of the present disclosure. Further, in Modified Example 3, the reduction amount display control unit 1603 also corresponds to an example of the providing unit of the present disclosure.

In a modified example, refrigerator communication control unit 1601 transmits reduction amount information request information to refrigerator control server 3 when operation means provided in refrigerator 1 receives an instruction to display a graph of the reduction amount. Upon receiving the reduction amount information request information, the refrigerator control server 3 acquires the reduction amount information 3124 from the user related information management DB 312 based on the refrigerator communication information 3122 of the destination refrigerator 1 and returns it to the refrigerator 1 . Other information such as the user ID 3121 may be used to acquire the reduction amount information 3124 . When the refrigerator communication control unit 1601 receives the reduction amount information 3124, the reduction amount display control unit 1603 generates a reduction amount graph and causes the display unit 24 to display the graph as in the first embodiment.

[1-4. effects, etc.]
The refrigerator control system 1000 is based on the operation time during which the refrigerator 1 operates in the energy-saving mode or the number of times the refrigerator 1 has switched to the energy-saving mode. A calculation unit 302 that calculates the amount of reduction, and a display control unit 206 that provides the user P of the refrigerator 1 with the amount of reduction calculated by the calculation unit 302 .

In addition, in the control method of the refrigerator control system 1000, based on the operation time during which the refrigerator 1 operates in the energy-saving mode or the number of times the refrigerator 1 has switched to the energy-saving mode, the refrigerator 1 operates in the energy-saving mode. A reduction amount, which is the electricity bill, is calculated, and the calculated reduction amount is provided to the user P of the refrigerator 1 .

According to the refrigerator control system 1000 and the control method of the refrigerator control system 1000, it is possible to provide the user P of the refrigerator 1 with the reduced electricity bill due to the operation of the refrigerator 1 in the energy saving mode. Therefore, the user P of the refrigerator 1 can confirm the electricity bill that can be reduced by operating the refrigerator 1 in the energy saving mode.

The energy saving mode includes going out mode. The go-out mode is an operation mode that can be shifted to when the user P leaves home H where the refrigerator 1 is installed, and is an operation mode in which the internal temperature of the refrigerator 1 is made higher than in the normal mode. Calculation unit 302 calculates the reduction amount for going out mode based on the operation time during which refrigerator 1 operates in going out mode.

According to this configuration, it is possible to calculate the electricity cost that can be reduced by operating the refrigerator 1 in the on-the-go mode. User P can confirm. In addition, if the user P recognizes that the user P has switched to the going out mode, the user P can recognize that the going out mode is effective in terms of power saving.

The energy-saving mode includes a shopping preparation mode. The shopping preparation mode is an operation mode that can be shifted when the user P is at a shopping destination, and is an operation mode in which the internal temperature of the refrigerator 1 is lower than in the normal mode. Calculation unit 302 calculates the reduction amount for shopping preparation mode based on the number of times refrigerator 1 has shifted to shopping preparation mode.

According to this configuration, it is possible to calculate the electricity cost reduced by operating the refrigerator 1 in the shopping preparation mode. 1 user P can be confirmed. Also, if the user P knows that the shopping preparation mode has been entered, the user P can know that the shopping preparation mode is effective for power saving.

Energy saving mode includes winter mode. The winter mode is an operation mode that can be shifted to when the current season is winter, and is an operation mode in which the internal temperature of the refrigerator 1 is higher than in the normal mode. Calculation unit 302 calculates the reduction amount for the winter mode based on the operation time during which refrigerator 1 operates in winter mode.

According to this configuration, it is possible to calculate the electricity cost that can be reduced by operating the refrigerator 1 in the winter mode. User P can confirm. Moreover, if the user P has grasped that the winter mode has been switched, the user P can grasp that the winter mode is effective in terms of power saving.

Energy saving modes include automatic power saving mode. The automatic power saving mode is an operation mode that shifts when the detection value of the illuminance sensor 191 provided in the refrigerator 1 is equal to or less than a predetermined value, and is an operation mode in which the internal temperature of the refrigerator 1 is higher than in the normal mode. The calculation unit 302 calculates the reduction amount for the automatic power saving mode based on the operation time during which the refrigerator 1 operates in the automatic power saving mode.

According to this configuration, it is possible to calculate the electricity cost reduced by operating the refrigerator 1 in the automatic power saving mode. 1 user P can be confirmed. Further, if the user P understands that the refrigerator 1 automatically shifts to the automatic power saving mode, the user P can understand that the automatic power saving mode is effective for power saving.

The calculation unit 302 calculates the monthly reduction amount.

According to this configuration, it is possible to provide the user P with the electricity bill that has been reduced by operating the refrigerator 1 in the energy-saving mode on a monthly basis. Therefore, the user P of the refrigerator 1 can check the electricity bill that can be reduced by operating the refrigerator 1 in the energy-saving mode on a monthly basis.

The display control unit 206 provides at least one year's savings.

According to this configuration, the user P can confirm which month had what amount of reduction in one year.

The display control unit 206 provides the reduction amount for at least one year as a graph.

According to this configuration, the user P can intuitively check which month has what amount of reduction in one year.

The savings graph is scaled according to the maximum savings.

According to this configuration, since it is possible to provide the user P with an easy-to-understand difference in the amount of reduction for each month, the user P can easily and intuitively confirm what amount of reduction was in which month.

In the terminal device 2, the reduction amount, which is the electricity cost that can be reduced by operating the refrigerator 1 in the energy saving mode, is the operation time during which the refrigerator 1 operates in the energy saving mode, or the shift when the refrigerator 1 shifts to the energy saving mode. A display control unit 206 is provided for providing the user P of the refrigerator 1 with the reduction amount calculated based on the number of times.

The refrigerator 1 is a reduction amount that is the electricity cost that can be reduced by operating the refrigerator 1 in the energy saving mode, and is the operation time that the refrigerator 1 operates in the energy saving mode or the number of times that the refrigerator 1 shifts to the energy saving mode. a reduction amount display control unit 1603 that provides the user P of the refrigerator 1 with the reduction amount calculated based on the above.

According to the terminal device 2 and the refrigerator 1, effects similar to those of the refrigerator control system 1000 and the control method of the refrigerator control system 1000 described above can be obtained.

The refrigerator control application 212 uses the terminal processor 200 to display the reduction amount, which is the electricity bill that can be reduced by operating the refrigerator 1 in the energy-saving mode, the operation time during which the refrigerator 1 operates in the energy-saving mode, or the It functions as the display control unit 206 that provides the user P of the refrigerator 1 with the amount of reduction calculated based on the number of times of shifting to the energy saving mode.

The control program 1611 uses the refrigerator processor 160 as a reduction amount, which is the electricity cost that can be reduced by operating the refrigerator 1 in the energy-saving mode, which is the operation time during which the refrigerator 1 operates in the energy-saving mode, or the energy-saving amount of the refrigerator 1. It functions as a reduction amount display control unit 1603 that provides the user P of the refrigerator 1 with the reduction amount calculated based on the number of transitions to the mode.

According to the refrigerator control application 212 and the control program 1611, effects similar to those of the refrigerator control system 1000 and the control method of the refrigerator control system 1000 described above are obtained.

The refrigerator control application 212 is an application program that can be installed on the terminal device 2 .

According to this configuration, the terminal device 2 that does not have the function of providing the reduced amount can be made into the terminal device 2 that can provide the reduced amount by installing the refrigerator control application 212 .

(Embodiment 2)
Next, Embodiment 2 will be described. In the description of the second embodiment, the same components as those of the refrigerator 1, the terminal device 2, and the refrigerator control server 3 of the first embodiment are denoted by the same reference numerals, and detailed descriptions thereof are appropriately omitted. do.

[2-1. Constitution]
FIG. 12 is a diagram showing configurations of the refrigerator 1, the terminal device 2, and the refrigerator control server 3 according to the second embodiment.
In this embodiment, the terminal device 2 corresponds to an example of the information processing device of the present disclosure. Also, in the present embodiment, the terminal processor 200 corresponds to an example of the computer of the present disclosure. Also, in the present embodiment, refrigerator control application 212 corresponds to an example of the program of the present disclosure. Also, in the present embodiment, the display control unit 206 corresponds to an example of the providing unit of the present disclosure.

2 and 12, the terminal processor 200 of Embodiment 2 functions as a calculation section 302, a current date/time section 304, and a reduction amount information update section 208. FIG. In addition, the terminal storage unit 210 of Embodiment 2 stores reduction amount information 3124 . On the other hand, the record R of the user-related information management DB 312 of Embodiment 2 does not have the reduction amount information 3124 .

The reduction amount information updating unit 208 updates the reduction amount indicated by the reduction amount information 3124 stored in the terminal storage unit 210 .

[2-2. motion]
Next, the operation of the second embodiment will be explained.
In the second embodiment, operations related to the transition of the operation mode are the same as those in the first embodiment.

[2-2-1. Operation related to reduction amount]
Next, the operation related to the reduction amount in the second embodiment will be described.
In Embodiment 2, the refrigerator 1 performs the operation of the flowchart FD in FIG.
In the second embodiment, the refrigerator control server 3 performs steps SE4, SE5 and SE6 other than steps SE1, SE2, SE3 and SE7-13 in the flowchart FE of FIG. After performing the process of step SE6, the refrigerator control server 3 repeats the process after step SE4.

The terminal device 2 performs steps SE1, SE2, SE3, and SE7-13 that the refrigerator control server 3 does not perform.
FIG. 13 is a flow chart showing the operation of refrigerator control system 1000 . In FIG. 13, a flow chart FH shows the operation of the refrigerator control server 3, and a flow chart FI shows the operation of the terminal device 2. As shown in FIG.

In FIG. 13, the same step numbers are assigned to the same steps as in the flowchart shown in FIG. 7, and detailed description thereof will be omitted. Note that the processing of steps SE1 and SE2 is performed mainly by the reduction amount information updating unit 208, targeting the reduction amount information 3124 stored in the terminal storage unit 210. FIG.

As shown in the flowchart FI, when the calculation unit 302 determines that the calculation timing has arrived (step SE1: YES), the first terminal communication control unit 201 adds the user ID 3121 stored in the terminal storage unit 210, Performance information request information is transmitted to the refrigerator control server 3 (step SI1). Performance information request information is information requesting performance information 3125 .

As shown in the flowchart FH, the server communication control unit 301 receives performance information request information (step SH1).

Next, the database processing unit 303 acquires the performance information 3125 of the record R having the user ID 3121 added to the performance information request information received by the server communication control unit 301 from the user-related information management DB 312 (step SH2).

Next, the server communication control unit 301 transmits the performance information 3125 acquired in step SH2 to the terminal device 2 as a response to the performance information request information (step SH3). Next, the database processing unit 303 performs the process of step SE13 on the performance information 3125 acquired in step SH2.

As shown in flowchart FI, first terminal communication control unit 201 receives performance information 3125 from refrigerator control server 3 (step SI2). Calculation unit 302 performs steps SE7 to SE11 based on received performance information 3125. FIG.

The reduction amount information updating unit 208 updates the current month's reduction amount indicated by the reduction amount information 3124 stored in the terminal storage unit 210 to the reduction amount by adding the reduction amount calculated in step SE12 (step SI3).

[2-2-2. Operations Related to Reduction Amount Screen]
Next, operations related to the reduction amount screen SG in the second embodiment will be described.
In Embodiment 2, the terminal device 2 does not perform processes other than steps SF2 and SF3 in the flowchart FF of FIG.

When the display control unit 206 makes an affirmative determination in step SE1, the display control unit 206 acquires the reduction amount information 3124 from the terminal storage unit 210, and performs the processing of steps SF4 and SF5 based on the acquired reduction amount information 3124. FIG. The reduction amount screen SG generated in the second embodiment may be the reduction amount screen SG of the first embodiment, the reduction amount screen SG of the first modification, or the reduction amount screen SG of the second modification.

[2-3. effects, etc.]
According to the second embodiment, the same effects as those of the first embodiment are obtained.

(Embodiment 3)
Next, Embodiment 3 will be described. In the description of the third embodiment, the same components as those of the refrigerator 1, the terminal device 2, and the refrigerator control server 3 of the first embodiment are denoted by the same reference numerals, and detailed descriptions thereof are appropriately omitted. do.

[3-1. Constitution]
FIG. 14 is a diagram showing configurations of the refrigerator 1, the terminal device 2, and the refrigerator control server 3 according to the second embodiment.
In this embodiment, the terminal device 2 corresponds to an example of the information processing device of the present disclosure. Also, in the present embodiment, the terminal processor 200 corresponds to an example of the computer of the present disclosure. Also, in the present embodiment, refrigerator control application 212 corresponds to an example of the program of the present disclosure. Also, in the present embodiment, the display control unit 206 corresponds to an example of the providing unit of the present disclosure.

2 and 14, the refrigerator processor 160 of Embodiment 3 further functions as a calculation unit 302, a current date/time unit 304, and an information update unit 1604. FIG. In addition, the terminal storage unit 210 of Embodiment 3 stores reduction amount information 3124 and performance information 3125 . On the other hand, the record R of the user related information management DB 312 of Embodiment 2 does not have the performance information 3125 .

The information updating unit 1604 updates the reduction amount indicated by the reduction amount information 3124 stored in the terminal storage unit 210 . Also, the information updating unit 1604 updates various operation results indicated by the result information 3125 stored in the terminal storage unit 210 .

[3-2. motion]
Next, the operation of Embodiment 3 will be described.
In the third embodiment, the operation related to the transition of the operation mode is the same as that of the first embodiment.

[3-2-1. Operation related to reduction amount]
Next, the operation related to the reduction amount in Embodiment 3 will be described.
FIG. 15 is a flow chart showing the operation of refrigerator control system 1000 . In FIG. 15, a flow chart FJ shows the operation of the refrigerator control server 3, and a flow chart FK shows the operation of the refrigerator 1. FIG. The operation of FIG. 15 is based on the premise that the refrigerator control server 3 can appropriately process the record R corresponding to the refrigerator 1 that is the communication partner.

In FIG. 15, the same step numbers are assigned to the same steps as those in the flowchart shown in FIG. 7, and detailed description thereof will be omitted.

Note that the processing of steps SE1 and SE2 is performed mainly by the information updating unit 1604 on the reduction amount information 3124 stored in the refrigerator storage unit 161. FIG. The processing of steps SE3, SE7 to SE11 is mainly performed by the calculation unit 302. FIG. Steps SD1 and SE5 are mainly performed by the operation mode execution unit 1602. FIG. The processing of steps SE6, SE12, and SE13 is performed mainly by the information update unit 1604, targeting the performance information 3125 and the reduction amount information 3124 stored in the refrigerator storage unit 161. FIG.

As shown in the flowchart FK, the first terminal communication control section 201 transmits update request information to the refrigerator control server 3 when the information updating section 1604 performs the process of step SE13 (step SK1). The update request information is information requesting an update of the reduction amount information 3124, and includes the reduction amount information 3124 stored in the refrigerator storage unit 161 updated in step SE12.

As shown in the flowchart FJ, when the server communication control unit 301 of the refrigerator control server 3 receives the update request information from the refrigerator 1 (step SJ1), it updates the reduction amount information 3124 to the reduction amount information 3124 indicated by the update request information. (Step SJ2).

[3-2-2. Operations Related to Reduction Amount Screen]
The operation related to mode transition related to the reduction amount screen SG is the same as in the first embodiment. The reduction amount screen SG generated in the third embodiment may be the reduction amount screen SG of the first embodiment, the reduction amount screen SG of the first modification, or the reduction amount screen SG of the second modification.

[3-3. Modification]
A modification of the third embodiment described above will be described. The modified example described here is referred to as modified example 4. FIG.
In Embodiment 3 described above, the terminal device 2 is configured to provide the user P with a graph of the reduction amount by displaying the reduction amount screen SG. In Modification 4, as in Modification 3, the refrigerator 1 is also configured to be able to provide the user P with a graph of the reduction amount.
Note that, in Modification 4, the refrigerator 1 also corresponds to an example of the information processing apparatus of the present disclosure.

Modification 4 has the same configuration as Modification 3. FIG. In modification 4, the control program 1611 also corresponds to an example of the control program of the present disclosure. Further, in Modification 4, the refrigerator processor 160 also corresponds to an example of the computer of the present disclosure. Further, in Modification 4, the reduction amount display control unit 1603 also corresponds to an example of the providing unit of the present disclosure.

In Modified Example 4, refrigerator communication control section 1601 transmits reduction amount information request information to refrigerator control server 3 when operation means provided in refrigerator 1 receives an instruction to display a graph of the reduction amount. Upon receiving the reduction amount information request information, the refrigerator control server 3 acquires the reduction amount information from the user related information management DB 312 based on the refrigerator communication information 3122 of the destination refrigerator 1 and returns it to the refrigerator 1 . Other information such as the user ID 3121 may be used to acquire the reduction amount information. When the refrigerator communication control unit 1601 receives the reduction amount information 3124, the reduction amount display control unit 1603 generates a reduction amount graph and causes the display unit 24 to display the graph as in the first embodiment.

[3-4. effects, etc.]
According to the third embodiment and the modification of the third embodiment, the same effects as those of the above-described embodiment and modification can be obtained.

(Other embodiments)
As described above, the embodiment and the modification have been described as examples disclosed in the present application. However, the technology in the present disclosure is not limited to this, and can also be applied to embodiments with modifications, replacements, additions, omissions, and the like. Further, it is also possible to combine the constituent elements described in the above-described embodiment and modification to form a new embodiment.
Therefore, other embodiments will be exemplified below.

In the above-described embodiment and modifications, the shopping destination was exemplified as the food acquisition destination of the present disclosure, but the "food acquisition destination" of the present invention is not limited to the shopping destination. Any place where food is available.

For example, instead of the average daily minimum temperature, the determination unit 205 determines whether the current season is winter based on the average daily maximum temperature, the average daily average temperature, the average temperature at a specific time, or the like. You can judge. In these configurations, the temperature data received from the weather server 5 indicates the temperature for which the average of the daily maximum temperature, daily average temperature, temperature at a specific time, etc. is to be calculated.

In the above-described embodiment and modification, the operation mode of the refrigerator 1 is exemplified as being able to shift to any of the normal mode, the outing mode, the shopping preparation mode, the winter mode, and the automatic power saving mode. There may be further different types of operating modes. Moreover, among the operation modes of the refrigerator 1, there may be a relationship in which transition is not possible between the operation modes.

In the embodiment and modification described above, a bar graph was used as an example of a graph showing the amount of reduction. However, the graph showing the amount of reduction is not limited to a bar graph, and other graphs such as a line graph may be used.

Further, for example, the types of chambers formed in the main casing 10 of the refrigerator 1 are not limited to the refrigerating chamber 11, the ice making chamber 12, the fresh freezing chamber 13, the freezing chamber 14, and the vegetable chamber 15. Alternatively, other types of rooms may be formed. Also, the number of doors provided at the front opening of the refrigerator compartment 11 may be one.

Also, the functions of the refrigerator control unit 16, the terminal control unit 20, and the server control unit 30 may be realized by a plurality of processors or semiconductor chips.

Also, each unit shown in FIGS. 2, 11, 12, and 14 is an example, and a specific implementation form is not particularly limited. That is, it is not always necessary to mount hardware corresponding to each part individually, and it is of course possible to adopt a configuration in which one processor executes a program to realize the function of each part. Also, part of the functions implemented by software in the above-described embodiments may be implemented by hardware, or part of the functions implemented by hardware may be implemented by software. In addition, the specific detailed configurations of other parts of the refrigerator 1, the terminal device 2, and the refrigerator control server 3 can be arbitrarily changed without departing from the gist of the present invention.

6 to 8, 13, 10, and 15, for example, the operation steps shown in FIGS. The operation is not limited by the division method or name of the processing unit. It may be divided into more steps depending on the processing contents. Also, one step unit may be divided to include more processes. Also, the order of the steps may be changed as appropriate within the scope of the present disclosure.

As described above, the information processing system, the control method of the information processing system, the information processing device, and the program according to the present invention allow the user of the refrigerator to check the electricity bill that can be reduced by operating the refrigerator in the energy saving mode. available for use.

1 Refrigerator (information processing device)
2 Terminal device (information processing device)
3 refrigerator control server 160 refrigerator processor (computer)
191 illumination sensor 200 terminal processor (computer)
206 Display control unit (providing unit)
212 refrigerator control application (program, application program)
302 calculator 1000 refrigerator control system (information processing system)
1603 Reduction amount display control unit (providing unit)
1611 control program (program)
H Home P User

Claims (13)

Calculation for calculating the reduction amount, which is the electricity cost that can be reduced by operating the refrigerator in the energy saving mode, based on the operating time of the refrigerator operating in the energy saving mode or the number of times the refrigerator has shifted to the energy saving mode. Department and
a provision unit that provides the user of the refrigerator with the reduction amount calculated by the calculation unit;
Information processing system. The energy saving mode includes a first mode,
The first mode is an operation mode that can be shifted when the user goes out of the home where the refrigerator is installed, and is an operation mode in which the internal temperature of the refrigerator is higher than in the normal mode,
The calculation unit calculates the reduction amount for the first mode based on an operation time during which the refrigerator operates in the first mode.
The information processing system according to claim 1. The energy saving mode includes a second mode,
The second mode is an operation mode that can be shifted when the user is positioned at a food obtainable destination from which food can be obtained, and is an operation mode in which the internal temperature of the refrigerator is lower than in the normal mode,
The calculation unit calculates the reduction amount for the second mode based on the number of transitions of the refrigerator to the second mode.
The information processing system according to claim 1 or 2. The energy saving mode includes a third mode,
The third mode is an operation mode that can be shifted when the current season is winter, and is an operation mode in which the internal temperature of the refrigerator is higher than in the normal mode,
The calculation unit calculates the reduction amount for the third mode based on the operation time during which the refrigerator operates in the third mode.
The information processing system according to any one of claims 1 to 3. The energy saving mode includes a fourth mode,
The fourth mode is an operation mode that shifts when a detection value of an illuminance sensor provided in the refrigerator is equal to or less than a predetermined value, and is an operation mode in which the internal temperature of the refrigerator is higher than in the normal mode,
The calculation unit calculates the reduction amount for the fourth mode based on an operation time during which the refrigerator operates in the fourth mode.
The information processing system according to any one of claims 1 to 4. The calculation unit calculates the reduction amount for each month,
The information processing system according to any one of claims 1 to 5. The providing unit provides the reduced amount for at least one year;
The information processing system according to claim 6. The providing unit provides the reduction amount for at least one year as a graph,
The information processing system according to claim 7. The vertical axis of the graph is a scale according to the maximum value of the reduction amount,
The information processing system according to claim 8. Calculating a reduction amount, which is the electricity bill that can be reduced by operating the refrigerator in the energy saving mode, based on the operation time during which the refrigerator operates in the energy saving mode or the number of times the refrigerator has shifted to the energy saving mode,
providing the calculated reduction amount to a user of the refrigerator;
Information processing system control method. A reduction amount that is the electricity cost that can be reduced by operating the refrigerator in the energy-saving mode, and is calculated based on the operation time that the refrigerator operates in the energy-saving mode or the number of times that the refrigerator shifts to the energy-saving mode. a providing unit that provides the reduced amount to the user of the refrigerator,
Information processing equipment. Information processing equipment computer,
A reduction in electricity costs that can be reduced by operating the refrigerator in the energy-saving mode, which is calculated based on the operating time of the refrigerator operating in the energy-saving mode or the number of times the refrigerator has switched to the energy-saving mode. Functioning as a provision unit that provides the reduced amount to the user of the refrigerator,
program. The information processing device is a terminal device used by the user,
The program is an application program that can be installed on the terminal device,
13. A program according to claim 12.

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