JP7166019B2 - Air conditioner, program and method - Google Patents

Description

The present invention relates to an air conditioner, program and method for updating via a network.

BACKGROUND ART With the spread of the so-called IoT (Internet of Things), technology has been put into practical use to connect home appliances to a network and perform various controls on the home appliances from outside. For example, there is known a technology for connecting an air conditioner such as an air conditioner to a network and remotely controlling it from outside.

In the above-mentioned various home electric appliances, there are cases where built-in software is updated in order to improve or add functions, or to eliminate defects. For example, there is known an air conditioner that downloads an update program provided by a manufacturer or the like and performs an update based on the update program (Patent Document 1, etc.).

By the way, communication between the air conditioner and the network as described above is generally performed by wireless communication from the viewpoint of convenience. Further, among the air conditioners described above, there are models that allow the user to turn on/off the power of the wireless communication module from the viewpoint of an energy saving effect such as reduction of standby power. In such an air conditioner, an LED or the like provided in the main body of the air conditioner turns on/off in conjunction with the power state of the wireless communication module to display the power state of the wireless communication module. ing.

On the other hand, software updates are often performed in the background, and users can use the air conditioner without being aware that updates are being performed. Therefore, the user may turn off the power of the wireless communication module while the update is being executed.

In such cases, conventional air conditioners generally perform one of the following two types of control. That is, the first control example is to suspend the update. A second example of control is to turn off the power of the wireless communication module after the update is finished. However, in the case of the first control example, the update is not properly completed, which impairs the user's convenience. In addition, since the power supply of the wireless communication module and the LED are controlled in conjunction with each other, in the case of the second control example, the LED remains lit until the update is completed even after the power is turned off, and the update is completed. This gives a sense of incongruity to users who are not aware of what is being done.

Therefore, there has been a demand for a technique for further improving convenience for users in air conditioners in which software is updated.

Japanese Patent Application Laid-Open No. 2019-74230

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems in the prior art, and aims to provide an air conditioner, a program, and a method for displaying the power state of a communication module with improved convenience for the user. aim.

That is, according to the present invention,
An air conditioner comprising communication means for communicating with a network and capable of remote control via the network,
a control means for controlling power supply to the communication means;
display means for displaying whether the remote control is on or off;
When an operation to turn off the remote control is received while the communication means and the network are communicating usage status or logs ,
The control means maintains the supply of power to the communication means , causes the display means to display that the remote control is in an off state, and after the communication means finishes transmitting the usage status or log. , characterized by stopping the supply of power to the communication means,
An air conditioner is provided.

Advantageous Effects of Invention According to the present invention, it is possible to provide an air conditioner, a program, and a method for displaying the power supply state of a communication module with improved convenience for the user.

FIG. 2 is a diagram showing a schematic hardware configuration of the entire system according to the embodiment; The figure which shows the hardware constitutions contained in the air conditioning apparatus of this embodiment. FIG. 2 is a software block diagram included in the air conditioner of this embodiment. 4 is a flow chart showing processing for turning off the remote control mode of the air conditioner in the present embodiment. FIG. 4 is a diagram showing a display example of a remote controller for operating the air conditioner of the present embodiment and an indicator section of the air conditioner;

The present invention will be described below with reference to embodiments, but the present invention is not limited to the embodiments described later. In addition, in each figure referred to below, the same reference numerals are used for common elements, and description thereof will be omitted as appropriate.

FIG. 1 is a diagram showing a schematic hardware configuration of the entire system 100 in this embodiment. FIG. 1 illustrates, as an example, a system 100 in which an air conditioner 110, an information processing terminal 120, and a server device 130 are connected via a network 140 such as the Internet. Note that the numbers of the air conditioners 110 and the information processing terminals 120 are not limited to those shown in FIG. 1, and the number included in the system 100 is not limited.

The air conditioner 110 includes an indoor unit and an outdoor unit connected via refrigerant pipes, and can perform indoor air conditioning by circulating the indoor unit and the outdoor unit while exchanging heat with the refrigerant. Examples of air conditioning include cooling, heating, and dehumidification.

The air conditioner 110 is attached with a remote controller 111 for operating the air conditioner 110 by infrared communication. The remote control 111 can, for example, operate/stop the air conditioner 110, set the temperature, select an operation mode, and select various functions. In the embodiment to be described, an example in which the remote controller 111 performs infrared communication is given, but the embodiment is not particularly limited, and the operation of the air conditioner 110 performed from the remote controller 111 can be performed by a method other than infrared communication. may be done.

Further, as shown in FIG. 1 , the air conditioner 110 includes an indicator section 112 that displays the state of the air conditioner 110 . The indicator unit 112 is composed of, for example, a plurality of LEDs, and can indicate the state of the air conditioning apparatus 110 by lighting/extinguishing/blinking of each LED, emission color, or the like. For example, the indicator unit 112 shown in FIG. The LEDs for "remote" indicating that it is possible and "ECO" indicating that it is operating in the energy saving mode are lit, indicating that these states and functions are effective. In the embodiment described below, an example in which the indicator unit 112 is composed of an LED will be described. It may be displayed. Therefore, for example, the indicator section 112 may be configured by various display means such as a liquid crystal panel and an organic EL panel.

The information processing terminal 120 is, for example, a device such as a smartphone terminal, and can execute various installed applications. In this embodiment, the information processing terminal 120 can remotely control the operation of the air conditioner 110 via the network 140 when the air conditioner 110 is in the mode of accepting remote control via the network 140 . In FIG. 1, a smart phone terminal is given as an example of the information processing terminal 120, but the embodiment is not particularly limited, and a device other than a smart phone terminal may be used.

The server device 130 is an information processing device managed by the manufacturer of the air conditioner 110 or the like. The server device 130 can provide an update program for updating software built in the air conditioner 110, an application program to be installed in the information processing terminal 120, and the like.

Next, the hardware configuration of the air conditioner 110 will be described. FIG. 2 is a diagram showing the hardware configuration included in the air conditioner 110 of this embodiment. As shown in FIG. 2, the air conditioner 110 includes a CPU 210, a RAM 220, a ROM 230, a wireless communication module 240, an infrared light receiving device 250, a heat exchange unit 260, and an LED 270. are connected via a bus.

The CPU 210 is a device that executes a program that controls the operation of the air conditioner 110 and performs predetermined processing. The RAM 220 is a volatile storage device for providing an execution space for programs executed by the CPU 210, and is used for storing and developing programs and data. The ROM 230 is a non-volatile storage device for storing programs executed by the CPU 210, firmware, and the like.

Wireless communication module 240 is a device that connects air conditioner 110 and network 140 and enables communication with other devices. Examples of the wireless communication module 240 include a Wi-Fi (registered trademark) module.

Infrared light receiving device 250 is a device that receives a control signal for air conditioner 110 transmitted from remote controller 111 . The control signal received by the infrared light receiving device 250 is transmitted to the CPU 210 and the like, and the operation of the air conditioner 110 and the like are controlled based on the control signal.

The heat exchange unit 260 is composed of a heat transfer tube through which the refrigerant passes, fins, an air blower, and the like, and is a device that exchanges heat between the air and the refrigerant. The heat exchange unit 260 in the indoor unit exchanges heat between the refrigerant and the indoor air and discharges it as conditioned air.

LED 270 is a display device that constitutes indicator section 112 of air conditioner 110 . The LED 270 can display the state of the air conditioning apparatus 110 by a display state such as ON/OFF, a color of emitted light, or the like.

The hardware configuration of the air conditioner 110 of this embodiment has been described above. Next, functional means executed by each piece of hardware in this embodiment will be described with reference to FIG. FIG. 3 is a software block diagram included in the air conditioner 110 of this embodiment. The air conditioner 110 includes an operation control unit 310 , a network communication unit 320 , a remote control operation reception unit 330 , an indicator control unit 340 , an update processing unit 350 and a power supply control unit 360 .

The operation control unit 310 is means for controlling the operation of the air conditioner 110 . The operation control unit 310 can control the operation of the heat exchange unit 260 and the like based on control signal information related to operation received from the remote control 111 or the information processing terminal 120 . Examples of control of the operation of the air conditioner 110 include turning on/off the operation, switching between operation modes, temperature setting, timer setting, and the like.

The network communication unit 320 is means for controlling the wireless communication module 240 to connect to the network 140 and perform communication with the information processing terminal 120, the server device 130, and the like. The network communication unit 320 can, for example, receive remote control from the information processing terminal 120 and receive software update programs from the server device 130 .

The remote control operation receiving unit 330 is means for controlling the infrared light receiving device 250, receiving control signals transmitted by the remote control 111, and receiving operations. The air conditioner 110 can control operations of, for example, the operation control unit 310 and the network communication unit 320 based on the control signal received by the remote control operation reception unit 330 .

The indicator control section 340 is means for controlling lighting/extinguishing/blinking of each LED 270 that constitutes the indicator section 112, the color of light emitted, and the like. For example, the indicator unit control unit 340 lights the “remote” LED 270 to indicate that the remote control is on, and turns off the “remote” LED 270 to indicate that the remote control is off. can be displayed. In addition, when the power control unit 360 supplies power to the wireless communication module 240 and the wireless communication module 240 is in the ON state, but is unable to communicate with the network 140 for some reason (for example, when the air conditioner 110 is installed). When the wireless communication router in the home is not powered on, etc.), the indicator control unit 340 can indicate an error state by blinking the “remote” LED 270 . The user can know the state of the air conditioner 110 by looking at the light emission state of each LED 270 controlled by the indicator control unit 340 .

The update processing unit 350 is means for updating software built in the air conditioner 110 . For example, the update processing unit 350 downloads a software update program from the server device 130 via the network communication unit 320 and uploads the software.

The power control unit 360 is means for controlling the power supplied to each hardware component of the air conditioner 110 and for controlling the power supply. For example, the power control unit 360 can control power supply to the wireless communication module 240 according to the communication state of the wireless communication module 240. When the remote control mode is on, the wireless communication module 240 , and stops supplying power to the wireless communication module 240 when the remote control mode is off. In this manner, the power control unit 360 controls the power according to the state of the air conditioner 110 and each hardware, thereby saving power consumption.

Note that the above-described software blocks correspond to functional means realized by causing each piece of hardware to function as the CPU 210 executes the program of the present embodiment. Moreover, the functional means shown in each embodiment may be implemented entirely in software, or part or all of them may be implemented as hardware that provides equivalent functions.

So far, the functional means of the air conditioner 110 of the present embodiment have been described. Next, processing performed by each functional unit described above will be described with reference to FIG. FIG. 4 is a flowchart showing processing for turning off the remote control mode of the air conditioner 110 in this embodiment. In addition, FIG. 5 shall be referred to suitably in the case of description of FIG. FIG. 5 is a diagram showing a display example of the remote controller 111 that operates the air conditioner 110 of the present embodiment and the indicator section 112 of the air conditioner 110. As shown in FIG. FIG. 5(a) shows an example of the remote control 111, FIG. 5(b) shows an example of the indicator section 112 when the remote control mode is on, and FIG. It shows an example of the indicator section 112 when the control mode is off.

As shown in FIG. 4, the air conditioner 110 starts processing to turn off the remote control mode in this embodiment from step S1000. As a premise for starting the process from step S1000, the remote control mode of air conditioner 110 is assumed to be ON. Therefore, it is assumed that the power control unit 360 is supplying power to the wireless communication module 240, and that the “remote” LED 270 of the indicator unit 112 is lit as shown in FIG. 5(b). .

In step S1001, the process branches depending on whether or not remote control operation reception unit 330 has received an operation to turn off remote control. For example, the user can turn off the remote control by pressing the "remote ON/OFF" button of the remote controller 111 shown in FIG. 5A when the remote control mode is on. In step S1001, if an operation to turn off the remote control has not been received (NO), the process returns to step S1001 and the above processes are repeated. Thereby, the air conditioner 110 can wait for an operation to turn off the remote control. In step S1001, if an operation to turn off remote control has been received (YES), the process proceeds to step S1002.

In step S1002, indicator control unit 340 turns off LED 270 indicating the remote control mode. Since the process of step S1001 is the process of switching the remote control mode from on to off, the "remote" LED 270 is in a display state ( 5(c) indicating that the remote control mode is off (lights off). Thereby, the user can recognize that the remote control mode has been switched from ON to OFF, and can understand that the remote control operation performed in step S1001 has been properly executed.

Next, in step S1003, the process branches depending on whether or not software update is being executed. Note that the process of step S1003 may be performed in parallel with the process of step S1002. If the update processing unit 350 has not executed the update in step S1003 (NO), the process proceeds to step S1004. In step S<b>1004 , power control unit 360 stops power supply to wireless communication module 240 . This makes it possible to reduce the standby power consumption associated with remote control. After step S1004, the process proceeds to step S1006, and the air conditioner 110 terminates the process.

On the other hand, if the update processing unit 350 is executing update in step S1003 (YES), the process proceeds to step S1005. In step S<b>1005 , power control unit 360 maintains power supply to wireless communication module 240 . As a result, the wireless communication module 240 can continue communication for updating the software, and the update processing unit 350 can prevent the interruption of the program update process and the occurrence of problems due to interruption of communication.

After step S1005, the process returns to step S1003 to determine again whether update is being executed. That is, until the update is completed, the processing of steps S1003 and S1005 is repeated to maintain power supply to wireless communication module 240 . Therefore, it is possible to wait for the end of the update, and after the end of the update, the power control unit 360 can stop the power supply to the wireless communication module 240 (step S1004).

By performing the processing shown in FIG. 4, the air conditioner 110 can appropriately perform the update processing in the background while allowing the user to recognize that the operation has been appropriately accepted.

In addition, in the embodiment described above, an example was given in which power supply to the wireless communication module 240 is maintained while an update is being performed, but the embodiment is not particularly limited. Therefore, while wireless communication module 240 is communicating with network 140 , power control unit 310 may be configured to perform control to maintain power supply to wireless communication module 240 . For example, while the air conditioner 110 is transmitting usage status, logs, etc. to the information processing terminal 120 and the server device 130 on the network 140, the air conditioner 110 performs the processing shown in FIG. may be

According to the embodiments of the present invention described above, it is possible to provide an air conditioning apparatus, a program, and a method for displaying the power state of a communication module with improved convenience for the user.

Each function of the embodiment of the present invention described above can be realized by a device-executable program written in C, C++, C#, Java (registered trademark), etc. It can be stored and distributed in a device-readable recording medium such as ROM, MO, DVD, flexible disk, EEPROM (registered trademark), EPROM, etc., and can be transmitted via a network in a format compatible with other devices. .

As described above, the present invention has been described with embodiments, but the present invention is not limited to the above-described embodiments, and within the scope of embodiments that can be conceived by those skilled in the art, as long as the actions and effects of the present invention are exhibited. , are within the scope of the present invention.

100 system,
110... Air conditioner,
120... Information processing terminal,
130 ... server device,
140 network,
210 CPU,
220 RAM,
230 ROM,
240... wireless communication module,
250... Infrared light receiving device,
260 ... heat exchange unit,
270 LEDs,
310 ... Operation control unit,
320... network communication unit,
330 ... remote control operation reception unit,
340 ... indicator control unit,
350 ... update processing unit,
360 power control unit

Claims (6)

An air conditioner comprising communication means for communicating with a network and capable of remote control via the network,
a control means for controlling power supply to the communication means;
display means for displaying the status of said remote control;
When an operation to turn off the remote control is received while the communication means and the network are communicating usage status or logs,
The control means maintains power supply to the communication means, causes the display means to indicate that the remote control is considered to be in an off state, and the communication means terminates transmission of the usage status or log. After that, the power supply to the communication means is stopped,
Air conditioner. An air conditioner comprising communication means for communicating with a network and capable of remote control via the network,
a control means for controlling power supply to the communication means;
display means for displaying the status of the remote control;
updating means for downloading an update program from the network and updating the software;
including
When the updating means receives an operation to turn off the remote control during updating,
The control means maintains power supply to the communication means, causes the display means to display that the remote control is considered to be in an off state, and after the updating means finishes updating, the communication means characterized by stopping the supply of power to the means,
Air conditioner. A program executed by an air conditioner that has communication means for communicating with a network and is capable of being remotely controlled via the network, the program being: control means for controlling power supply to the communication means; ,
display means for displaying the status of the remote control;
function as
When an operation to turn off the remote control is received while the communication means and the network are communicating usage status or logs,
The control means maintains power supply to the communication means, causes the display means to indicate that the remote control is considered to be in an off state, and the communication means terminates transmission of usage status or logs. After that, the power supply to the communication means is stopped,
program. A program executed by an air conditioner that has communication means for communicating with a network and is capable of being remotely controlled via the network, the program being: control means for controlling power supply to the communication means; ,
display means for displaying the status of the remote control;
functioning as update means for updating software by downloading an update program from the network;
When the updating means receives an operation to turn off the remote control during updating,
The control means maintains power supply to the communication means, causes the display means to display that the remote control is considered to be in an off state, and after the updating means finishes updating, the communication means characterized by stopping the supply of power to the means,
program. A method executed by an air conditioner capable of remote control via the network, comprising communication means for communicating with a network and display means for displaying the status of remote control , wherein
accepting an operation to turn off the remote control;
displaying that the remote control is in an off state when an operation to turn off the remote control is received;
determining whether or not the communication means is in the process of transmitting usage status or logs when an operation to turn off the remote control is received;
When an operation to turn off the remote control is received while the communication means and the network are communicating the usage status or the log, power supply to the communication means is maintained and the display means displays the Displaying that the remote control is considered to be in an off state, and stopping the power supply to the communication means after the communication means finishes transmitting the usage status or log,
Method. communication means for communicating with a network ; display means for displaying the status of remote control; and updating means for downloading an update program from the network and updating software , wherein the remote control via the network is provided. A method performed by a possible air conditioner comprising:
updating the software by downloading updates from the network;
accepting an operation to turn off the remote control;
displaying that the remote control is in an off state when an operation to turn off the remote control is received;
determining whether the software is being updated when an operation to turn off the remote control is received;
When an operation to turn off the remote control is received during the update of the software, the power supply to the communication means is maintained and the remote control is regarded as being turned off on the display means. display , and after the updating means finishes updating, the power supply to the communication means is stopped,
Method.

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