JP2020112333A - Adapter, update notification method, and air conditioning system - Google Patents

Abstract

To provide an adapter which allows a user to update a control program at favorite time so that the user does not feel uncomfortable.SOLUTION: An adapter receives a control program of an air conditioning system from a server device, and controls the air conditioning system. The adapter includes a determination section and a notification section. The determination section determines whether or not stopping of the air conditioning system is required following the update of the control program when the notification of the update of the control program is received from the server device. The notification section notifies a terminal device of a user using the air conditioning system of the notification of the update of the control program when stopping of the air conditioning system is required.SELECTED DRAWING: Figure 2

Description

The present invention relates to an adapter, an update notification method, and an air conditioning system.

For example, there is known a system in which an air conditioning system receives a control program from the server device and automatically updates the control program when the server device receives a notification of updating the control program in the air conditioning system (for example, Patent Document 1). ).

Further, there is known a system capable of controlling the inside of an air conditioner from a mobile terminal at a destination (for example, Patent Document 2).

JP, 2008-190853, A JP, 2018-25377, A

Here, in a system including an adapter that receives a control program from the server device and controls the air conditioning system, when the server device receives a notification of updating the control program of the air conditioning system, the control program of the air conditioning system. To automatically update. In this case, it is general to stop the air conditioning system during the updating of the control program because the control program cannot be normally accessed. Therefore, the user may be uncomfortable during the updating of the control program.

In view of such problems, it is an object of the present invention to provide an adapter, an update notification method, and an air conditioning system that reduce user discomfort associated with updating a control program that involves stopping the air conditioning conditioning system.

The adapter of one aspect receives the control program of the air conditioning system from the server device and controls the air conditioning system. The adapter has a determination unit and a notification unit. The determination unit determines, when receiving the notification of the update of the control program from the server device, whether or not the air conditioning system needs to be stopped in accordance with the update of the control program. The notification unit notifies the terminal device of the update of the control program when it is necessary to stop the air conditioning system.

As one aspect, the user does not feel uncomfortable because there is no stop of the air conditioning system undesired by the user due to the update of the air conditioning system.

FIG. 1 is an explanatory diagram showing an example of the air conditioning system of the present embodiment. FIG. 2 is a block diagram showing an example of the configuration of the adapter. FIG. 3 is a block diagram showing an example of the configuration of the server device. FIG. 4 is a block diagram showing an example of the configuration of the terminal device. FIG. 5 is an explanatory diagram illustrating an example of a notification screen related to program update on the display unit of the terminal device. FIG. 6 is a flowchart showing an example of the processing operation of the CPU in the adapter relating to the update notification processing. FIG. 7 is a flowchart showing an example of the processing operation of the CPU in the adapter relating to the update download processing. FIG. 8 is a flowchart showing an example of the processing operation of the CPU in the adapter relating to the update time setting processing. FIG. 9 is a flowchart showing an example of the processing operation of the CPU in the adapter relating to the update processing.

Hereinafter, embodiments of an adapter, an update notification method, and an air conditioning system disclosed in the present application will be described in detail with reference to the drawings. The disclosed technology is not limited to the embodiments. In addition, each of the embodiments described below may be appropriately modified within a range that does not cause a contradiction.

FIG. 1 is an explanatory diagram showing an example of the air conditioning system 1 of the present embodiment. The air conditioning system 1 illustrated in FIG. 1 includes an indoor unit 2, an adapter 3, a router 4, a server device 5, a relay device 6, a terminal device 7, and a communication network 8.

The indoor unit 2 is, for example, a part of an air conditioner that is placed indoors and that heats or cools the air in the room. The user of the indoor unit 2 can remotely operate the indoor unit 2 by operating the remote controller 9. The indoor unit 2 has a main body 2A and a control unit 2B that controls the main body 2A. The main body 2A is provided with an indoor fan and an indoor heat exchanger, and the indoor air that has exchanged heat with the refrigerant in the indoor heat exchanger is blown out from the main body 2A to perform room heating, cooling, dehumidification, and the like. Be seen. The outdoor unit (not shown) is equipped with an outdoor fan and a compressor. The terminal device 7 is a communication terminal such as a smartphone of the user.

The adapter 3 has a communication function of connecting the indoor unit 2 and the router 4 by wireless communication, and a control function of controlling the indoor unit 2 by AI (Artificial Intelligence). The adapter 3 is arranged for each indoor unit 2. The router 4 is an access point device that connects the adapter 3 and the communication network 8 by wireless communication using, for example, a WLAN (Wireless Local Area Network). The communication network 8 is, for example, a communication network such as the Internet. The server device 5 has a function of generating an AI learning model for controlling the indoor unit 2, a database for storing operation history data, and the like. The server device 5 is arranged in, for example, a data center. The relay device 6 has a function of connecting to the communication network 8 by communication and also connecting to the server device 5 by communication. The relay device 6 transmits from the adapter 3 to the server device 5 the operation history data and the like used for generating or updating the learning model applied to the indoor unit 2 via the communication network 8. The relay device 6 also transmits the learning model generated or updated by the server device 5 to the adapter 3 via the communication network 8. The relay device 6 is arranged, for example, in a data center or the like.

The relay device 6 has a first relay section 6A, a second relay section 6B, and a third relay section 6C. The first relay unit 6A transmits various data related to AI control between the adapter 3 and the server device 5. The first relay unit 6A transmits the operation history data and the like used for generating or updating the learning model received from the adapter 3 to the server device 5 via the communication network 8, and at the same time, the learning model generated or updated by the server device 5 is transmitted. Is transmitted to the adapter 3 via the communication network 8. The second relay unit 6B acquires the operating conditions of the indoor unit 2 (the operating mode such as cooling/heating and the set temperature) set by the user using the terminal device 7 from the place where the user is out, and uses this to acquire the operating conditions. Send to. The third relay unit 6C acquires external data such as a weather forecast from the communication network 8 such as the Internet, and transmits the acquired external data to the server device 5, for example. The third relay unit 6C also transmits external data to the adapter 3 via the communication network 8.

FIG. 2 is a block diagram showing an example of the configuration of the adapter 3. The adapter 3 illustrated in FIG. 2 includes a first communication unit 11, a second communication unit 12, a storage unit 13, and a CPU (Central Processing Unit) 14. The first communication unit 11 is, for example, a communication IF (Interface) such as a UART (Universal Asynchronous Receiver Transmitter) that is communicatively connected to the control unit 2B in the indoor unit 2. The second communication unit 12 is a communication unit such as a communication interface such as a WLAN, which is communicatively connected to the router 4. The storage unit 13 has, for example, a ROM (Read Only Memory) and a RAM (Random Access Memory), and stores various information such as data and programs. The CPU 14 controls the entire adapter 3.

The storage unit 13 in the adapter 3 illustrated in FIG. 2 includes a driving history memory 13A that temporarily stores the driving history data acquired from the indoor unit 2, a model memory 13B that stores the learning model acquired from the server device 5, and It has an external memory 13C for storing external data and a program memory 13D for storing an update program (firmware or the like). The update program is a control program of the air conditioning system 1 from the server device 5, for example, firmware that controls the indoor unit 2.

The CPU 14 includes a first acquisition unit 21, a transmission unit 22, a reception unit 23, a setting unit 24, a prediction control unit 25, a second acquisition unit 26, a determination unit 27, and a notification unit 28. And an updating unit 29.

The first acquisition unit 21 acquires the operation history data from the indoor unit 2 at a predetermined cycle, for example, at an acquisition timing of every 5 minutes. The first acquisition unit 21 stores the operation history data acquired in the 5-minute cycle in the operation history memory 13A.

The transmission unit 22 transmits the driving history data stored in the driving history memory 13A to the server device 5 via the communication network 8. The receiving unit 23 receives the learning model from the server device 5 via the communication network 8 and stores the received learning model in the model memory 13B. The setting unit 24 applies the stored learning model to the prediction control unit 25. The prediction control unit 25 controls the control unit 2B in the indoor unit 2 based on the learning model applied by the setting unit 24. For convenience of explanation, the prediction control unit 25 has exemplified the case where the prediction unit 25 controls the control unit 2B in the indoor unit 2 based on the learning model. However, the prediction control unit 25 does not include the main body of the indoor unit 2 based on the learning model. 2A may be controlled directly. In addition, the prediction control unit 25 transmits the control mode based on the learning model to the control unit 2B. That is, the prediction control unit 25 may indirectly control the main body 2A via the control unit 2B, and can be appropriately changed.

The receiving unit 23 receives the update program from the server device 5 via the communication network 8 and stores the received update program in the program memory 13D. The second acquisition unit 26 acquires the version information of the current program from the indoor unit 2 and the version information of the update program from the server device 5 as a numerical value. The second acquisition unit 26 compares the version information of the current program with the version information of the update program, and determines that one with a larger numerical value of the version information number has a new version information program, that is, an update program. When the determination unit 27 receives the program update notification from the server device 5, the determination unit 27 determines whether or not the indoor unit 2 needs to be stopped in accordance with the program update. When it is necessary to stop the indoor unit 2, the notification unit 28 notifies the terminal device 7 of the user of the program update notification via the communication network 8. The terminal device 7 of the user is, for example, the terminal device 7 of the user who is the administrator among the plurality of users who use the air conditioning system 1. The administrator is a user who has the authority to confirm the update and execute the update and has been registered in the air conditioning system 1.

The second acquisition unit 26 acquires a program update instruction from the terminal device 7 together with a program update start time described later. The update unit 29 stops the indoor unit 2 at the update time according to an instruction from the terminal device 7 and causes the indoor unit 2 to update the program.

FIG. 3 is a block diagram showing an example of the configuration of the server device 5. The server device 5 illustrated in FIG. 3 includes a communication unit 31, a storage unit 32, and a CPU 33. The communication unit 31 is a communication IF that is communicatively connected to the relay device 6. The storage unit 32 has, for example, an HDD (Hard Disk Drive), a ROM, a RAM, and the like, and stores various information such as data and programs. The CPU 33 controls the server device 5 as a whole.

The storage unit 32 in the server device 5 illustrated in FIG. 3 includes a data memory 32A, a model storage unit 32B, and a program storage unit 32C. The data memory 32A stores the operation history data and the like received from each adapter 3. The model memory 32B stores the learning model generated or updated by the server device 5. The program storage unit 32C stores the control program of the air conditioning system 1, for example, the program of the indoor unit 2.

The CPU 33 in the server device 5 has a model learning unit 33A, a receiving unit 33B, and a transmitting unit 33C.

The model learning unit 33A is connected to each adapter 3 of the plurality of indoor units 2 and receives the operation history data for 48 hours from each adapter 3 via the router 4, the communication network 8 and the relay device 6. Then, the model learning unit 33A learns by using the driving history data for 48 hours stored in the data memory 32A from each adapter 3, and generates or updates the learning model of each indoor unit 2 based on the learning result. To do. In the learning model, for example, the sensible temperature after 5 minutes for the user in the room is predicted according to the operating condition of the air conditioner in each home, and the sensible temperature setting for controlling the air conditioner according to the predicted sensible temperature is set. There is a predictive model.

The model learning unit 33A generates or updates the learning model corresponding to the adapter 3 based on the operation history data for 48 hours for each adapter 3 stored in the data memory 32A, and the generated or updated learning model is used as the model storage unit. Store in 32B. The transmission unit 33C transmits the learning model generated or updated by the model learning unit 33A to the adapter 3 via the relay device 6, the communication network 8 and the router 4.

For example, in the sensible temperature setting prediction model or the like, the acquisition unit 14A in the adapter 3 acquires operation history data such as the set temperature, the indoor temperature, the indoor humidity, and the outdoor temperature from the indoor unit 2 in a 5-minute cycle, and acquires the acquired operation. The history data is stored in the operation history memory 13A.

The model learning unit 33A in the server device 5 generates or updates a learning model such as a sensible temperature setting prediction model based on the driving history data stored in the data memory 32A. Then, the transmission unit 33C in the server device 5 transmits the learning model such as the sensible temperature setting prediction model generated or updated by the model learning unit 33A to the adapter 3 via the relay device 6, the communication network 8 and the router 4.

FIG. 4 is a block diagram showing an example of the configuration of the terminal device 7. The terminal device 7 illustrated in FIG. 4 includes a communication unit 41, an operation unit 42, a display unit 43, a storage unit 44, and a CPU 45. The communication unit 41 communicates with the adapter 3 via the communication network 8 and the router 4. The operation unit 42 is an input interface for inputting various commands. The display unit 43 is an output interface that displays various information. The storage unit 44 stores various information. The CPU 45 controls the entire terminal device 7.

FIG. 5 is an explanatory diagram showing an example of a notification screen related to the program update on the display unit 43 of the terminal device 7. The display unit 43 of the terminal device 7 shown in FIG. 5 switches from the program update confirmation screen 43A to the update time OFF screen 43B when it is determined by the adapter 3 that there is an update program accompanied by the stop of the air conditioning system 1. The display unit 43 switches from the update time OFF screen 43B to the update time ON screen 43C when detecting the ON operation for designating the update time. The program update confirmation screen 43A is a screen for notifying the user of the terminal device 7 that the update of the program of the new version is being confirmed. The update time OFF screen 43B is a screen for notifying the user of the terminal device 7 of the program update guide information 431 when the automatic update is OFF. The guide information 431 includes "The air conditioner cannot be used during updating. Please specify the time when the air conditioner is not used for the start time." The update time OFF screen 43B includes an update time switching button 432 for switching the update time ON screen 43C or the update time OFF screen 43B for designating the update time, and an update button 433 for instructing the program update. The user of the terminal device 7 can instruct the adapter 3 to update the program via the communication network 8 by operating the update button 433.

The update time ON screen 43C is a screen for notifying the user of the terminal device 7 of the automatic update time and the guide information of the program update when the automatic update is ON. The update time ON screen 43C includes an update time switch button 432, an update button 433, and a designation button 434 for designating the update time. The user of the terminal device 7 can freely set the program update start time by operating the designation button 434. This makes it possible to prevent the user from becoming uncomfortable by starting the stop of the air conditioning system 1 accompanying the update of the program, for example, while the user is absent. The update start time of the set program is transmitted to the adapter 3 by touching the update button 434.

Next, the operation of the air conditioning system 1 of this embodiment will be described. FIG. 6 is a flowchart showing an example of the processing operation of the CPU 14 in the adapter 3 relating to the update notification processing. In FIG. 6, the second acquisition unit 26 in the CPU 14 in the adapter 3 executes the update download process shown in FIG. 7 described later (step S11). After executing the update download process, the determination unit 27 in the CPU 14 determines whether or not the program update needs to stop the air conditioning system 1 among the plurality of types of program updates (step S12). The program update includes a program that needs to stop the air conditioning system 1 and a program that does not need to stop the air conditioning system 1. The program that does not need to stop the air conditioning system 1 is, for example, an update program such as a learning model, the firmware of the adapter 3, the firmware of the edge, or the like. For a program that does not need to stop the air conditioning system 1, for example, it is necessary to stop the movement of the fan and the wind direction plate that the user can feel. However, the program does not stop the air conditioning system 1 itself because it can be continued as it is before the air conditioning is updated.

When the program update needs to stop the air conditioning system 1 (Yes in step S12), the notification unit 28 in the CPU 14 notifies the terminal device 7 of the user that the program can be updated with the update time specified (step S13). ), the processing operation shown in FIG. 6 ends. As a result, the terminal device 7 displays the update time ON screen 43C or the update time OFF screen 43B shown in FIG. 5 based on the notification that the update time can be specified to update the program. Then, the user recognizes the presence or absence of the program update by looking at the display screen, and can specify the desired update time by operating the specification button 434.

When the program update does not need to stop the air conditioning system 1 (No in step S12), the determination unit 27 ends the processing operation illustrated in FIG. 6 without notifying the user. As a result, the user can automatically update the program without performing the program update operation.

As described above, the adapter 3 determines whether or not the program update needs to stop the air conditioning system 1. When the program update needs to stop the air conditioning system 1, the adapter 3 notifies the user's terminal device 7 that the program update with the update time designation is possible. The terminal device 7 displays the update time ON screen 43C or the update time OFF screen 43B on the basis of the notification that the update time can be specified to update the program. As a result, the user can recognize the presence/absence of the program update for designating the update time by looking at the display screen, and can freely specify the update time by operating the designation button 434. For example, when the user designates an absence time zone as the update time, it is possible to avoid a situation in which the user feels uncomfortable due to the update of the control program accompanied by the stop of the air conditioning harmony system 1.

FIG. 7 is a flowchart showing an example of the processing operation of the CPU 14 in the adapter 3 relating to the update download processing. In FIG. 7, the second acquisition unit 26 in the CPU 14 in the adapter 3 determines whether or not the version information of the current program is acquired from the indoor unit 2 (step S21).

When acquiring the version information of the current program from the indoor unit 2 (Yes in step S21), the second acquisition unit 26 determines whether the version information of the update program is acquired from the server device 5 (step S22). .. When acquiring the version information of the update program from the server device 5 (step S22, Yes), the second acquisition unit 26 determines whether the version information of the update program is newer (step S23).

When the version information of the update program is newer (Yes in step S23), the receiving unit 23 determines that the update program is present, starts downloading the update program from the server device 5 (step S24), and the process illustrated in FIG. The operation ends.

The second acquisition unit 26 does not acquire the version information of the current program from the indoor unit 2 (step S21, No), and does not acquire the version information of the update program from the server device 5 (step S22, No). ), the processing operation shown in FIG. 7 ends.

When the version information of the update program is not newer (step S23, No), the second acquisition unit 26 determines that the version information of the current program is newer or the same version information, and ends the processing operation shown in FIG. ..

As described above, the adapter 3 compares the version information of the current program from the indoor unit 2 with the version information of the update program from the server device 5, and if the version information of the update program is newer, updates the update program. To start downloading. As a result, the adapter 3 can recognize whether there is a downloadable update program.

FIG. 8 is a flowchart showing an example of the processing operation of the CPU 14 in the adapter 3 relating to the update time setting processing. In FIG. 8, the second acquisition unit 26 in the CPU 14 in the adapter 3 determines whether the program update time is detected from the user's terminal device 7 (step S31). The terminal device 7 notifies the adapter 3 of the update time designated by the button operation of the designation button 434 on the update time ON screen 43C or the update time OFF screen 43B shown in FIG. When the update time of the program is detected from the user's terminal device 7 (step S31, Yes), the second acquisition unit 26 sets the update time of the program (step S32), and ends the processing operation shown in FIG. To do. As a result, the update unit 29 in the CPU 14 determines whether the current time is the set program update time, and if the current time is the set program update time, starts the program update operation. Become. If the update time of the program is not detected from the user's terminal device 7 (step S31, No), the update unit 29 sets the current time to the update time (step S33), and ends the processing operation shown in FIG. To do. As a result, the updating unit 29 immediately starts the program updating operation without confirming the user.

As described above, when the adapter 3 detects the program update time from the terminal device 7, the adapter 3 sets the program update time. When the current time is the program update time, the adapter 3 starts the program update operation. As a result, the user of the terminal device 7 can freely set the update time of the program. For example, when the user designates an absence time zone as the update time, it is possible to avoid a situation in which the user feels uncomfortable due to the update of the control program accompanied by the stop of the air conditioning harmony system 1.

FIG. 9 is a flowchart showing an example of the processing operation of the CPU 14 in the adapter 3 relating to the update processing. The update unit 29 in the CPU 14 determines whether the program update time is set in the second acquisition unit 26 in the CPU 14 in the adapter 3 (step S41). When the program update time is set (Yes at step S41), the update unit 29 determines whether the current time is the program update time (step S42).

When the current time is the program update time (step S42, Yes), the update unit 29 stops the air conditioning system 1 (step S43) and updates the control program of the air conditioning system 1 (step S44). The processing operation shown is ended.

If the program update time has not been set (No in step S41), the update unit 29 ends the processing operation illustrated in FIG. If the current time is not the program update time (No in step S42), the updating unit 29 returns to the process of step S42 to determine whether the current time is the program update time.

As described above, when the current time is the program update time, the adapter 3 can stop the air conditioning system 1 and update the control program of the air conditioning system 1. As a result, for example, when the user specifies an absent time zone as the update time, it is possible to avoid a situation in which the user is uncomfortable due to the update of the control program accompanied by the stop of the air conditioning harmony system 1.

When receiving the notification of the program update from the server device 5, the adapter 3 of the present embodiment determines whether the indoor unit 2 needs to be stopped due to the update of the program. When it is necessary to stop the indoor unit 2, the adapter 3 notifies the user's terminal device 7 of a program update notification. As a result, the user of the terminal device 7 can recognize the update of the program that needs to stop the indoor unit 2.

The adapter 3 acquires a program update instruction from the terminal device 7 together with the program update time, stops the indoor unit 2 at the update time according to the instruction from the terminal device 7, and causes the indoor unit 2 to execute the program update. As a result, the user of the terminal device 7 causes the program to be updated at the desired update time, so that it is possible to prevent discomfort caused by the unintentional stop of the indoor unit 2 associated with the program update. In other words, the user can update the program (stop the air conditioning system 1) at his/her favorite time, for example, at the time when he/she is absent, so that there is no discomfort. Further, when the update can be performed without stopping the air conditioning system, the user can perform the update without asking, and the user can always obtain comfort through optimal control.

In this embodiment, as the control program of the air conditioning system 1, for example, the program of the indoor unit 2 is illustrated, but the program of the adapter 3, the program of the control unit 2B that controls the indoor unit 2, and the indoor unit 2 are controlled. It may be a learning model or the like, and can be appropriately changed.

For example, when updating the program of the control unit 2B of the indoor unit 2, the content to be learned may be changed. In this case, only the learning that the indoor unit 2 can handle can be performed to suppress the capacity of the learning model.

Further, the case where the user of the terminal device 7 specifies the update time with the specification button 434 on the update time ON screen or the update time OFF screen and sets the specified update time in the adapter 3 is illustrated. However, when the update time is designated by the previous designation operation of the designation button 434, the update time designated by the previous designation operation may be set in the adapter 3 even if the designation button 434 is not designated, It can be changed as appropriate.

In the present embodiment, the indoor unit 2 itself must be stopped while the program of the indoor unit 2 is being updated, and conditioned air cannot be delivered to the user. Therefore, an example is given in which the user specifies the update time. did. However, the program is not limited to the program of the indoor unit 2. For example, when the indoor unit 2 has to be stopped by another program, the user is inquired. For example, even when there is only one memory area for storing the learning model and the learning model cannot be referred to during updating, the user may be allowed to specify the update time, which can be appropriately changed.

In addition, each component of each unit illustrated does not necessarily have to be physically configured as illustrated. That is, the specific form of distribution/integration of each part is not limited to that shown in the figure, and all or part of the part may be functionally or physically distributed/integrated in arbitrary units according to various loads and usage conditions. Can be configured.

Further, various processing functions performed in each device are entirely or arbitrarily partly performed on a CPU (Central Processing Unit) (or a microcomputer such as an MPU (Micro Processing Unit) or an MCU (Micro Controller Unit)). It may be executed. Further, various processing functions may be executed in whole or in part on a program analyzed by a CPU (or a microcomputer such as MPU or MCU) or on hardware by a wired logic. Needless to say.

1 Air Conditioning System 2 Indoor Unit 2A Main Body 2B Controller 3 Adapter 14 CPU
26 2nd acquisition part 27 Judgment part 28 Notification part 29 Update part

Claims (5)

An adapter for receiving the control program of the air conditioning system from the server device and controlling the air conditioning system,
When receiving a notification of the update of the control program from the server device, a determination unit that determines whether to stop the air conditioning system along with the update of the control program,
A notification unit for notifying the terminal device of the notification of the update of the control program when it is necessary to stop the air conditioning system. The adapter is
An acquisition unit that acquires an instruction to update the control program together with the update time of the control program from the terminal device,
The updating unit that stops the air conditioning system at the update time according to the instruction from the terminal device and causes the air conditioning system to update the control program. .. The control program is
At least one of the firmware of the indoor unit of the air conditioner in the air conditioning system, the firmware of the adapter, the firmware of the control unit that controls the indoor unit, or the learning model that controls the indoor unit. The adapter according to claim 1, wherein: A method for notifying an update executed by an adapter controlling the air conditioning system while receiving a control program for the air conditioning system from a server device,
The adapter is
When receiving a notification of the update of the control program from the server device, a step of determining whether the air conditioning system needs to be stopped along with the update of the control program,
And a step of notifying a terminal device of a user of the air conditioning system of a notification of the update of the control program when it is necessary to stop the air conditioning system. An air conditioning system comprising: an air conditioner; and an adapter for receiving the control program for the air conditioning system from a server device and controlling the air conditioning system,
The adapter is
When receiving a notification of the update of the control program from the server device, a determination unit that determines whether to stop the air conditioning system along with the update of the control program,
An air conditioning system comprising: a notification unit that notifies the terminal device of the notification of the update of the control program when it is necessary to stop the air conditioning system.