JP7124149B2 - home appliance control system, home appliance, information processing equipment - Google Patents

Description

The embodiments of the present invention relate to a home appliance control system constructed by including a home appliance and an information processing device, and to the home appliance and the information processing device that constitute the home appliance control system.

For example, Patent Literature 1 discloses that a refrigerator has a communication function and is configured to be connectable to a network. Then, it is disclosed that setting information relating to the automatic ice maker and cooling control is communicated from a personal computer or the like connected to the network in the same manner as the remote control. Thus, according to the network system in which the refrigerator and the information processing device are communicably connected, the operation of the refrigerator can be remotely controlled from the external information processing device.

Japanese Patent Application Laid-Open No. 2004-61021

By the way, in recent years, refrigerators have become multi-functional, and refrigerators are provided with, for example, a quick freezing mode for rapidly cooling a freezer compartment, a quick ice making mode for rapidly cooling an ice making compartment, and a refrigerator. A model with multiple operating modes, such as a power-saving mode that operates with lower power consumption than usual, is being considered. However, as the number of operating modes provided in advance increases, the structure and control program of the refrigerator become more complicated, and the manufacturing cost increases. In addition, depending on the user, there are operation modes that are rarely used or not used at all, so even if many operation modes are provided in advance, there are cases where the user's needs cannot be met. Moreover, since the needs of users change from moment to moment, there is also the problem that refrigerators that are provided with many operation modes in advance cannot follow the changes in needs. Therefore, a system configuration has been considered in which the operation of the refrigerator can be controlled also from the information processing device by connecting the refrigerator and the information processing device in a communicable manner.

Therefore, in the present embodiment, an operation mode is appropriately added to the home appliance in a system configuration in which the home appliance and the information processing device are communicably connected so that the operation of the home appliance can also be controlled from the information processing device. The present invention provides a home appliance control system capable of controlling a home appliance, and a home appliance and an information processing device that construct the home appliance control system.

A home appliance control system according to the present embodiment includes a home appliance having a communication function and an information processing device to which the home appliance is communicatively connected. The home appliance is a refrigerator, and the information processing device is the It is provided separately from the electric home appliance, and has device-side operation means for setting a predetermined operation mode to the electric home appliance, and the predetermined operation mode includes at least a mode for adjusting brightness in the refrigerator. Multiple types of operation modes can be added.

A block diagram schematically showing a configuration example of a refrigerator control system according to the present embodiment. A diagram schematically showing a configuration example of an operation panel A diagram showing an example of the operation end mail of the additional operation mode A diagram showing an example of the additional operation mode setting screen A diagram showing an example of the customization screen Flowchart showing an example of main control by a refrigerator control system Flowchart showing an example of connection confirmation control by a refrigerator control system Flowchart showing an example of operation mode switching control by a refrigerator

An embodiment of a refrigerator control system will be described below with reference to the drawings. A refrigerator control system 10 illustrated in FIG. 1 includes a refrigerator 11 and a server 12 . The server 12 is an example of an information processing device. In this case, the server 12 is connected so that the mobile terminal device 13 of the user can communicate with it. That is, the server 12 is configured to use the external portable terminal device 13 as its operation input unit and display output unit.

The refrigerator 11 includes a control unit 14, a communication adapter 15, an operation panel 16, an interior light 17, and the like. The control unit 14 is mainly composed of a microcomputer and controls the overall operation of the refrigerator 11 . The communication adapter 15 has a communication function for communicably connecting the refrigerator 11 to the external server 12 . Note that the refrigerator 11 can also be communicably connected to the mobile terminal device 13 via the communication adapter 15 .

The operation panel 16 is an example of a refrigerator-side operation unit, and functions as an operation unit for setting an operation mode provided in advance in the refrigerator 11 . Note that the operation modes that are provided in the refrigerator 11 in advance are operation modes that the refrigerator 11 has as a default function at the time of shipment from the factory or installation at the user's home, for example.

The operation panel 16 includes illumination means such as LEDs for illuminating the operation panel 16 from the back side, and the brightness of the operation panel 16 viewed from the front side can be adjusted. The refrigerator interior light 17 is an example of an interior illumination unit, and has a lighting function of illuminating the interior of the refrigerator 11 . The refrigerator 11 can adjust the brightness inside the refrigerator by adjusting the output of the interior light 17 .

As illustrated in FIG. 2, in this case, the operation panel 16 has a button Ba for selecting the "quick freezing" mode, a button Bb for selecting the "dry" mode, and a "quick ice making" mode. A button Bc for selecting the "power saving" mode, a button Bd for selecting the "outing" mode, a button Be for selecting the "outing" mode, and a button Bf for selecting the "peak shift" mode are provided. These "quick freezing" mode, "dry" mode, "quick ice making" mode, "energy saving" mode, "going out" mode, and "peak shift" mode are all examples of operation modes that are provided in advance in the refrigerator 11. is.

The "blow freezing" mode is an example of a rapid freezing mode in which a freezer compartment (not shown) of the refrigerator 11 is rapidly cooled. The "dry" mode is an operation mode in which the vegetables in the vegetable compartment (not shown) provided in the refrigerator 11 are cooled while blowing air, thereby freezing the vegetables in the vegetable compartment while removing moisture. The air blowing in this "dry" mode is performed by driving a blower fan (not shown). The “all-in-one ice making” mode is an example of a rapid ice making mode for rapidly cooling an ice making chamber (not shown) provided in the refrigerator 11 . The "power saving" mode is an operation mode in which the refrigerator 11 is operated with lower power consumption than usual. The "going out" mode is an operation mode in which the refrigerator 11 is operated with lower power consumption than usual when opening and closing of the door of the refrigerator 11 is not detected for a predetermined time or longer. "Peak shift" mode is a function that prevents operation that consumes high power, such as defrosting operation that drives a heater to remove frost adhering to a cooler (not shown) during peak power demand. .

In addition, the refrigerator 11 executes the control program by the control unit 14 so that the operation end processing unit 21, the operation execution notification processing unit 22, the operation end notification processing unit 23, and the operation mode switching processing unit 24 are virtualized by software. come true. Note that these processing units 21 to 24 may be configured by hardware.

The operation termination processing unit 21 is a processing unit for forcibly terminating the operation in the "additional operation mode", which will be described later in detail, when the communication between the refrigerator 11 and the server 12 is interrupted. Refrigerator 11 also ends the operation in the "additional operation mode" when it receives an instruction to end the additional operation mode, which is given as described later in detail. When the refrigerator 11 is operating in the additional operation mode, the operation execution notification processing unit 22 notifies that fact, that is, the refrigerator 11 is operating in the additional operation mode. As illustrated in FIG. 2, the operation panel 16 is provided with a communication mark M. As shown in FIG. The operation execution notification processing unit 22 lights or blinks the communication mark M to visually notify that the refrigerator 11 is operating in the additional operation mode.

When refrigerator 11 ends the operation in the additional operation mode, operation end notification processing unit 23 notifies that fact, that is, the end of operation in the additional operation mode. In this case, the operation end notification processing unit 23 notifies the mobile terminal device 13 via the server 12 of the operation end mail shown in FIG. 3, for example. Thereby, the operation end notification processing unit 23 visually notifies the user carrying the mobile terminal device 13 that the operation in the additional operation mode has ended. The operation mode switching processing unit 24 switches the operation mode of the refrigerator 11 to the operation mode of the refrigerator 11 when the operation mode of the refrigerator 11 is set by the operation panel 16 while the refrigerator 11 is operating in the additional operation mode. switch to the operating mode set by

The server 12 includes a control unit 31, a communication unit 32, and the like. The control unit 31 is mainly composed of a microcomputer and controls the overall operation of the server 12 . The communication unit 32 is composed of a well-known communication module or the like, and has a communication function for communicably connecting the server 12 to the refrigerator 11 . Also, the communication unit 32 has a communication function for connecting the server 12 to the mobile terminal device 13 so as to be able to communicate with each other.

In addition, the server 12 executes the control program by the control unit 31 so that the device side operation processing unit 41, the refrigerator control processing unit 42, the customization processing unit 43, the operation start processing unit 44, and the start time setting processing unit 45 are implemented by software. It is realized virtually by Note that these processing units 41 to 45 may be configured by hardware.

The device-side operation processing unit 41 is a processing unit for additionally setting an operation mode that cannot be set on the operation panel 16 of the refrigerator 11 as an additional operation mode in the refrigerator 11 . That is, when the device-side operation processing unit 41 receives the setting request signal for the additional operation mode from the mobile terminal device 13, the display unit (not shown) of the mobile terminal device 13 displays the additional operation mode setting screen G1 shown in FIG. indicate. The portable terminal device 13 outputs an additional operation mode setting request signal when the user inputs a predetermined operation for requesting setting of the additional operation mode.

In this case, the additional operation mode setting screen G1 includes a "rapid refrigeration" mode, a "power saving plus" mode, a "summer/shopping" mode, a "petit frozen" mode, a "soft defrost" mode, a "quick defrost" mode, The "vegetable freezing" mode and the "customize" mode are displayed so as to be selectable. These "rapid refrigeration" mode, "energy saving plus" mode, "summer/shopping" mode, "petit frozen" mode, "soft thawing" mode, "quick thawing" mode, "vegetable freezing" mode, and "customize" mode , are examples of additional operation modes that cannot be set on the operation panel 16 on the refrigerator 11 side. In this case, these additional operation modes can be alternatively selected using radio buttons RBa to RBh.

In the "rapid refrigeration" mode, the set temperature of the refrigerating compartment is set to a "strong" level, such as 2 to 4°C, and the blower fan for the refrigerating compartment is set to a "high" level, such as 2000 rpm. There is an additional operation mode in which the operation is automatically terminated after, for example, three hours. In the "power saving plus" mode, the refrigerator 11 is operated with lower power consumption than in the above-described "power saving" mode. This is an additional operation mode in which the set temperature is set to a "low" level, such as -14 to -16° C., the heater drive duty ratio is set to 10%, and the operation is terminated when the user gives an end instruction.

In the "summer/shopping" mode, the set temperature of the refrigerator compartment is set to the "strong" level, the set temperature of the freezer compartment is set to the high level, for example -20 to -22°C, the blower fan for the refrigerator compartment is set to the "high speed" level, This is an additional operation mode in which the blower fan for the freezer compartment is operated at a "high speed" level, for example, 2300 rpm, and the drive duty ratio of the heater is 10%, and the operation is terminated by the user's termination instruction. In the "Petit Frozen" mode, the set temperature of the refrigerator compartment is set to "strong +" level, such as -1 to 1 ° C, and the ventilation fan for the refrigerator compartment is set to "high speed" level. It is an additional operation mode that automatically terminates the operation. The "soft thawing" mode is an additional operation mode in which the set temperature of the freezer compartment is set to the "weak" level and the blower fan for the freezer compartment is set to the "low" level, e.g. be.

In the "quick thawing" mode, the set temperature of the refrigerator compartment is set to "strong" level, and the blower fan for the refrigerator compartment is set to "high" level. mode. In the "vegetable freezing" mode, the set temperature of the freezer compartment is set to the "weak" level, and the blower fan for the freezer compartment is set to the "low speed" level, such as 1200 rpm. is an additional mode of operation that terminates the The "customize" mode is an additional operation mode that operates with settings customized by the user.

The refrigerator control processing unit 42 is a processing unit for remotely controlling the entire operation of the refrigerator 11 in which the additional operation mode is set. That is, the refrigerator control processing unit 42 remotely controls the operation of the refrigerator 11 in the additional operation mode, for example, by issuing an instruction to start or end the additional operation mode to the refrigerator 11 .

The customization processing unit 43 is a processing unit for customizing the operation contents of the refrigerator 11 . That is, when the customization processing unit 43 receives the customization request signal from the mobile terminal device 13, the customization screen G2 shown in FIG. 5 is displayed on the display unit (not shown) of the mobile terminal device 13, for example. In this case, the mobile terminal device 13 outputs a customization request signal when the "customize" mode is selected via the additional operation mode setting screen G1.

In this case, the customization screen G2 includes an adjustment unit Ca for adjusting the set temperature of the refrigerating compartment of the refrigerator 11, an adjustment unit Cb for adjusting the set temperature of the freezer compartment of the refrigerator 11, and an adjustment unit for preventing condensation in the refrigerator 11. Adjustment unit Cc for adjusting the output of the heater, adjustment unit Cd for adjusting the brightness inside the refrigerator 11, adjustment unit Ce for adjusting the brightness of the operation panel 16, ventilation fan for the refrigerator compartment adjustment unit Cf for adjusting the output of the freezer compartment, adjustment unit Cg for adjusting the output of the blower fan for the freezer compartment, adjustment unit Ch for adjusting the operation time in the additional operation mode, supplying mist to the inside of the refrigerator An adjuster Cj for controlling ON/OFF of a mist generator (not shown) and an adjuster Ck for adjusting the drive of a damper (not shown) for changing the opening degree of an air passage leading air into the refrigerator are provided.

According to the “customize” mode, it is possible to adjust the lighting operation of the interior of the refrigerator by the interior light 17 by the adjusting section Cd. That is, this "customize" mode is an additional operating mode that includes a lighting adjustment mode.

Operation start processing unit 44 starts the operation of refrigerator 11 in the additional operation mode on condition that a predetermined start instruction is input. That is, when the additional operation mode start request signal is input from the portable terminal device 13, the operation start processing unit 44 requests the refrigerator control processing unit 42 to start the additional operation mode. In response to this request, the refrigerator control processing unit 42 instructs the refrigerator 11 to start the additional operation mode. In this case, the operation start processing unit 44 outputs a start request signal when the start button Bp is operated on the additional operation mode setting screen G1 or when the start button Bp is operated on the customization screen G2. It's becoming

The start time setting processing unit 45 is a processing unit for setting a start time for starting the operation of the refrigerator 11 in the additional operation mode, and implements a so-called reservation function. That is, when the start time is input from the mobile terminal device 13, the start time setting processor 45 notifies the refrigerator control processor 42 of the start time. The refrigerator control processing unit 42 monitors the current time using a timer (not shown), and instructs the refrigerator 11 to start the additional operation mode when the current time reaches the notified start time. A reservation setting screen (not shown) is displayed on the mobile terminal device 13, and the server 12 is notified of the start time input through this reservation setting screen.

When the user selects one of the additional operation modes on the additional operation mode setting screen G1 described above, the mobile terminal device 13 notifies the server 12 of the selected additional operation mode. Then, the server 12 instructs the refrigerator 11 to set the notified additional operation mode. Refrigerator 11 then sets the additional operation mode specified by the received setting instruction. As a result, refrigerator 11 enters a standby state for operation in the additional operation mode selected by the user. Refrigerator 11 in the standby state receives a start instruction from server 12 to start operation in the additional operation mode.

Information necessary for operation in the additional operation mode, such as various information such as a control program and parameter information, may be provided in refrigerator 11 in advance, or may be provided to refrigerator 11 together with a setting instruction. However, the additional operation mode cannot be set from the operation panel 16 even if the refrigerator 11 is provided in advance with information necessary for operation in the additional operation mode.

Then, when the start button Bp is operated by the user on the additional operation mode setting screen G1, the mobile terminal device 13 notifies the server 12 to that effect. Then, the server 12 instructs the refrigerator 11 to start the additional operation mode. In response, refrigerator 11 starts operating in the set additional operation mode.

Further, when the user operates the stop button Bq on the additional operation mode setting screen G1, the mobile terminal device 13 notifies the server 12 of that effect. Then, the server 12 instructs the refrigerator 11 to end the additional operation mode. In response, refrigerator 11 terminates the operation in the additional operation mode that is being executed.

Further, when the user adjusts each item using the adjustment units Ca to Ck on the customization screen G2 described above and operates the start button Bp, the portable terminal device 13 notifies the server 12 of the content after adjustment. Then, the server 12 issues an adjustment instruction to the refrigerator 11 according to the notified adjustment content. Refrigerator 11 operates based on the content of adjustment specified by the received adjustment instruction. As a result, the refrigerator 11 operates according to the contents adjusted by the user. Further, when the stop button Bq is operated by the user on the customization screen G2, the mobile terminal device 13 notifies the server 12 to that effect. Then, the server 12 instructs the refrigerator 11 to end operation in the customization mode. In response to this, refrigerator 11 terminates the operation in the customization mode that is being executed.

Next, an example of the contents of control by the refrigerator control system 10 will be described. As illustrated in FIG. 6, when the additional operation mode is selected via the mobile terminal device 13, the server 12 instructs the refrigerator 11 to set the additional operation mode (A1). Upon receiving the setting instruction from server 12, refrigerator 11 sets the additional operation mode specified by the setting instruction (A2). That is, the refrigerator 11 enters a standby state for operation in the designated additional operation mode.

When the server 12 receives the start request signal from the mobile terminal device 13 or when the current time reaches the set reserved time, it instructs the refrigerator 11 to start the set additional operation mode (A3). When refrigerator 11 receives the instruction to start the additional operation mode from server 12 (A4: YES), refrigerator 11 transmits a normal response signal to server 12 (A5), and starts operation in the set additional operation mode (A6). .

When the server 12 does not receive a normal response signal from the refrigerator 11 (A7: NO), the server 12 instructs the refrigerator 11 to start the additional operation mode again. Then, when the normal response signal is obtained from the refrigerator 11 (A7: YES), the server 12 monitors whether or not a predetermined operating time has elapsed (A8). If the operation time is determined in advance for the operation mode being executed, the operation time is set. 12 can be set as appropriate. When the predetermined operating time has elapsed (A7: YES), the server 12 instructs the refrigerator 11 to end the additional operating mode (A9).

When the refrigerator 11 receives the additional operation mode end instruction from the server 12 (A10: YES), it transmits a normal response signal to the server 12 (A11), and ends the operation in the set additional operation mode (A12). When the normal response signal is not obtained from the refrigerator 11 (A13: NO), the server 12 instructs the refrigerator 11 to end the additional operation mode again. Then, when a normal response signal is obtained from refrigerator 11 (A13: YES), server 12 ends this control.

In the series of control illustrated in FIG. 6, refrigerator 11 monitors the connection state with server 12 in parallel when starting the additional operation mode. That is, as illustrated in FIG. 7, when starting the additional operation mode, the refrigerator 11 transmits a connection confirmation signal to the server 12 (B1). Upon receiving the connection confirmation signal from refrigerator 11, server 12 transmits a normal response signal to refrigerator 11 (B2). When a normal response signal is obtained from server 12 (B3: YES), refrigerator 11 transmits a connection confirmation signal to server 12 again (B1).

On the other hand, if a normal response signal is not obtained from server 12 (B3: NO), refrigerator 11 checks whether a predetermined time-out period has elapsed after transmitting the connection confirmation signal (B4). Note that this timeout period can be changed and set as appropriate. If the predetermined time-out period has not passed (B4: NO), the refrigerator 11 again confirms whether or not the normal response signal has been received (B3). On the other hand, if the predetermined timeout period has passed (B4: YES), the refrigerator 11 forcibly terminates the additional operation mode being executed (B5).

Further, in the series of control illustrated in FIG. 6 , when the additional operation mode is started, the refrigerator 11 parallelly monitors whether or not the operation panel 16 has been operated to set the operation mode. That is, as illustrated in FIG. 8, when the additional operation mode is started, the refrigerator 11 monitors through the operation panel 16 whether or not the operation mode provided in advance for the refrigerator 11 has been set (C1). When the operation mode is set via the operation panel 16, the refrigerator 11 terminates the additional operation mode being executed and switches to the operation mode set via the operation panel 16 (C2). That is, when the refrigerator 11 selects an operation mode provided in advance during the execution of the additional operation mode, the refrigerator 11 gives priority to the selected operation mode.

According to this embodiment, the server 12 communicatively connected to the refrigerator 11 includes the device-side operation processing unit 41 that sets an operation mode that cannot be set on the operation panel 16 of the refrigerator 11 as an additional operation mode in the refrigerator 11 . According to this configuration, even if the refrigerator 11 does not have many operation modes in advance, operation modes can be appropriately added as necessary.

Further, according to this embodiment, the server 12 includes the refrigerator control processing unit 42 that controls the operation of the refrigerator 11 for which the additional operation mode is set. That is, the operation of the refrigerator 11 in the additional operation mode is performed by an external control unit instead of the control unit of the refrigerator 11 . According to this configuration, it is not necessary to update the configuration or program of the refrigerator 11 even when the additional operation mode is additionally set.

Further, according to the present embodiment, the server 12 includes a customization processing section 43 that customizes the contents of operation of the refrigerator 11 . According to this configuration, the refrigerator 11 can be operated with the settings that meet the needs of the user.

Further, according to the present embodiment, the lighting adjustment mode for adjusting the lighting operation of the interior light 17 is realized by the adjustment section Cd in the "customize" mode. An ordinary refrigerator is generally configured such that the output of an interior light that illuminates the interior of the refrigerator cannot be adjusted or finely adjusted. According to this embodiment, it is possible to adjust the output of the interior light, which cannot be adjusted on the refrigerator side, from the control section outside the refrigerator 11 . Therefore, it is possible to adjust the output of the interior light according to the user's request.

Further, according to this embodiment, the server 12 includes the operation start processing unit 44 that starts the operation of the refrigerator 11 in the additional operation mode on condition that a predetermined start instruction is input. According to this configuration, the operation start timing of the refrigerator 11 in the additional operation mode can be instructed with high accuracy from the external control unit.

Further, according to this embodiment, the server 12 includes the start time setting processing unit 45 that sets the start time for starting the operation of the refrigerator 11 in the additional operation mode. That is, according to this embodiment, the refrigerator control system 10 has a reservation function for reserving the operation start time in the additional operation mode. Therefore, by using this reservation function in the "rapid decompression" mode, decompression can be completed at the user's desired time.

Further, according to this embodiment, the refrigerator 11 includes the operation termination processing unit 21 that forcibly terminates the operation in the additional operation mode when communication with the server 12 is interrupted. In a system configuration in which the operation of the refrigerator 11 in the additional operation mode is performed by an external server 12, once the communication between the refrigerator 11 and the server 12 is interrupted during the operation in the additional operation mode, the server 12 can no longer operate the refrigerator 11. control becomes impossible. According to the present embodiment, when communication is interrupted, the refrigerator 11 terminates the additional operation mode and returns to the normal operation mode. Therefore, it is possible to prevent the refrigerator 11 from becoming uncontrollable while executing the additional operation mode after the communication is interrupted.

Further, according to this embodiment, the refrigerator 11 includes the operation execution notification processing unit 22 that notifies that the operation in the additional operation mode is being performed. According to this configuration, the user can confirm whether or not the refrigerator 11 is operating in the additional operation mode based on the content of the notification by the operation execution notification processing unit 22 .

Further, according to this embodiment, the refrigerator 11 includes the operation end notification processing unit 23 that notifies that the operation in the additional operation mode has ended. According to this configuration, the user can confirm whether or not the refrigerator 11 has finished the operation in the additional operation mode based on the content of the notification by the operation end notification processing unit 23 .

Further, according to the present embodiment, when the refrigerator 11 is operating in the additional operation mode and an operation mode that the refrigerator 11 has in advance is set via the operation panel 16, the operation mode switching processing unit 24, the operation mode set by the operation panel 16 is switched instead of the additional operation mode being executed. That is, it is presumed that the operation mode set via the operation panel 16 is the operation mode set by the user near the refrigerator 11 after actually checking the storage condition of the refrigerator 11 and the surrounding conditions. be. Therefore, by preferentially validating the operation mode set via the operation panel 16 , the refrigerator 11 can be operated in an operation mode according to the actual situation of the refrigerator 11 .

Note that this embodiment is not limited to the one embodiment described above, and can be modified or expanded as follows, for example.
For example, the refrigerator 11 may be provided with a speaker (not shown), and the sound from the speaker may notify that the refrigerator 11 is operating in the additional operation mode. Further, for example, a voice from a speaker (not shown) included in the mobile terminal device 13 may notify that the refrigerator 11 has completed the operation in the additional operation mode. Also, the connection between the refrigerator 11 and the server 12 may be a wireless connection or a wired connection. Refrigerator 11 may be configured to incorporate an information processing device having functions corresponding to server 12 . That is, the refrigerator control system may be built inside the main body of the refrigerator.

The server 12 can be composed of various devices such as a server, a mobile communication terminal, a personal computer, a tablet, etc., as long as they can control the refrigerator 11 . Also, a complex composed of the server 12 and the mobile terminal device 13 may be defined as the information processing device in this embodiment.

Although embodiments of the present invention have been described above, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.

In the drawing, 10 is a refrigerator control system, 11 is a refrigerator, 12 is a server (information processing device), 16 is an operation panel (refrigerator side operation unit), 17 is an interior light (interior illumination unit), and 21 is operation end processing. 22 is an operation execution notification processing unit (operation execution notification unit); 23 is an operation end notification processing unit (operation end notification unit); 24 is an operation mode switching processing unit (operation mode switching unit); 42 is a refrigerator control processor (refrigerator control means); 43 is a customization processor (customization means); 44 is an operation start processor (operation start means); A time setting processing unit (start time setting means) is shown.

Claims (3)

a home appliance having a communication function;
an information processing device to which the home appliance is communicably connected;
with
the home appliance is a refrigerator;
The information processing device is provided separately from the home appliance and has device-side operation means for setting a predetermined operation mode to the home appliance,
The home appliance control system is capable of adding a plurality of types of operation modes including at least a mode for adjusting the brightness in the refrigerator as the predetermined operation mode. A home appliance having a communication function,
The home appliance is a refrigerator,
Building a home appliance control system together with an information processing device to which the home appliance is communicatively connected,
A predetermined operation mode can be set by an apparatus-side operation means provided in the information processing apparatus provided separately from the home appliance, and the predetermined operation mode is set to at least brightness in the refrigerator. A home appliance that can add multiple types of operation modes, including a mode that adjusts the intensity. An information processing device to which a home appliance having a communication function is communicably connected,
the home appliance is a refrigerator;
A device-side operation means provided separately from the home appliance and for setting a predetermined operation mode to the home appliance,
An information processing apparatus for constructing a home appliance control system together with the home appliance, wherein as the predetermined operation mode, a plurality of types of operation modes including at least a mode for adjusting the brightness in the refrigerator can be added.

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