JP2022138616A - Air conditioner and air conditioning system - Google Patents

Abstract

To provide an air conditioner capable of reducing an installation cost of a dedicated communication cable upon centrally managing air conditioners, and capable of reducing a communication load required for data communication related to air conditioners in an existing communication network.SOLUTION: A communication adapter connected to an indoor unit in an air conditioner has a communication unit, a determination unit, and a communication control unit. The communication unit communicates data with an air conditioning control device that centrally controls a plurality of air conditioners. The determination unit determines whether or not to encrypt and communicate data to be transmitted. The communication control unit controls the communication unit so that the data to be transmitted is encrypted and communicated when it is determined that the data to be transmitted is encrypted and communicated.SELECTED DRAWING: Figure 3

Description

The present invention relates to air conditioners and air conditioning systems.

In recent years, Internet connection services using wired LANs and wireless LANs (Local Area Networks) have become widespread. A communication network for providing Internet connection services (for example, free Wi-Fi (registered trademark)) may be developed and laid. A dedicated communication cable is generally laid in the

Japanese Patent Application Laid-Open No. 2020-68469 JP 2015-017768 A

Therefore, for example, it is possible to reduce the wiring cost by diverting such an existing communication network for centralized control of many air conditioners installed in such a building and eliminating the laying of dedicated communication cables. Conceivable. However, since the communication network in the building is a communication network to which an unspecified number of users in the building are connected, the content of communication data related to air conditioning may be kept confidential. However, if communication data is encrypted to ensure confidentiality, the communication procedure for encryption, such as handshake and key exchange, becomes complicated. Therefore, in the air conditioner, the load of encryption/decryption processing on the communication unit may increase. In addition, since the communication network in the building is used when using the Internet, if the communication network in the building is used for data communication related to the air conditioner, the data communication related to the air conditioner will be transferred to the Internet connection service side. It is required not to affect communication.

In view of such problems, the present invention can reduce the cost of laying dedicated communication cables when centrally managing air conditioners, and can reduce the communication load required for data communication related to air conditioners in the existing communication network. An object of the present invention is to provide an air conditioner and an air conditioning system.

An air conditioner of one aspect includes a communication unit that communicates data with an air conditioning control device that centrally controls a plurality of air conditioners, and a determination unit that determines whether or not to encrypt data to be transmitted. and a communication control unit that controls the communication unit so as to encrypt and communicate the data to be transmitted when the data to be transmitted is encrypted.

As one aspect, it is possible to reduce the cost of an air conditioning system consisting of an air conditioning control device and an air conditioner and the communication load required for data communication between constituent devices.

FIG. 1 is an explanatory diagram showing an example of the air conditioning system of this embodiment. FIG. 2 is a block diagram showing an example of the configuration of an air conditioner. FIG. 3 is a block diagram illustrating an example of the configuration of a communication adapter according to the first embodiment; FIG. 4 is an explanatory diagram showing an example of a data type table. FIG. 5 is a block diagram showing an example of the configuration of the air conditioning control device according to the first embodiment; FIG. 6 is a flow chart showing an example of the processing operation of the communication adapter or air conditioning control device involved in the first data transmission process. FIG. 7 is a block diagram illustrating an example of the configuration of a communication adapter according to the second embodiment; FIG. 8 is an explanatory diagram of a data string showing an example of data stored in the device type table. FIG. 9 is a block diagram illustrating an example of the configuration of an air conditioning control device according to the second embodiment; FIG. 10 is a flow chart showing an example of the processing operation of the communication adapter involved in the device type setting process. FIG. 11 is a flow chart showing an example of the processing operation of the communication adapter or air conditioning control device involved in the second data transmission process.

Hereinafter, embodiments of an air conditioner and an air conditioning system disclosed in the present application will be described in detail based on the drawings. Note that the disclosed technology is not limited by the present embodiment. Further, each embodiment shown below may be modified as appropriate within a range that does not cause contradiction.

<Configuration of air conditioning system>
FIG. 1 is an explanatory diagram showing an example of an air conditioning system 1 according to the first embodiment. An air conditioning system 1 shown in FIG. 1 is a system including, for example, an air conditioner 2 in a building such as an accommodation facility or a public facility, an air conditioning controller 6 that manages the air conditioner 2, and the like. The air conditioning system 1 has an air conditioner 2 , a communication adapter 3 , an access point 4 , a hub 5 and an air conditioning control device 6 . The air conditioner 2 includes several different types of indoor units 21, such as a wall-mounted air conditioner 2A, a duct-type air conditioner 2B, and a ceiling-type air conditioner 2C. The wall-mounted air conditioner 2A is an air conditioner in which the indoor unit 21 is hung on the wall of the room. The duct-type air conditioner 2B is an air conditioner that supplies air from the indoor unit 21 to each room through a duct. The ceiling type air conditioner 2C is, for example, an air conditioner in which the indoor unit 21 is installed on the ceiling of a large room. The number of air conditioners 2 in the air conditioning system 1 is arbitrary, and for example, the number of wall-mounted air conditioners 2A, duct-type air conditioners 2B, and ceiling-type air conditioners 2C can be changed as appropriate.

<Configuration of air conditioner>
FIG. 2 is a block diagram showing an example of the configuration of the air conditioner 2. As shown in FIG. The air conditioner 2 shown in FIG. 2 has an indoor unit 21 and an outdoor unit 22 . The indoor unit 21 is, for example, a part of the air conditioner 2 that is placed indoors and heats or cools the indoor air that is the air-conditioned space. It is assumed that the indoor unit 21 is provided in an air-conditioned space such as a room, for example. The indoor unit 21 has a main body 21A, an indoor unit side communication section 21B, an operation section 21C, a CPU 21D, and a memory 21E. The main body 21A is provided with an indoor fan and an indoor heat exchanger (not shown), and the indoor air that has exchanged heat with the refrigerant supplied from the outdoor unit 22 in the indoor heat exchanger is blown out by the indoor fan. The room is heated, cooled, dehumidified, etc. The indoor unit side communication unit 21B is an interface that communicates with the communication adapter 3 by, for example, a UART (Universal Asynchronous Receiver Transmitter) method. 21 C of operation parts are interfaces which input various commands with respect to the indoor unit 21. FIG. The CPU 21D controls the indoor unit 21 as a whole. The memory 21E stores various information. The CPU 21D executes various commands based on the command signal. The outdoor unit 22 includes, for example, an outdoor fan, a compressor, and the like.

The communication adapter 3 has a communication function of communicating with the indoor unit 21 in the air conditioner 2 using the URAT method, and a communication function of communicating with the hub 5 via a wireless LAN (Local Area Network). The wireless LAN is, for example, a communication network such as free Wi-Fi that can be connected by an unspecified number of users in the building. The communication adapter 3 is arranged for each indoor unit 21 . The communication adapter 3 is part of the air conditioner 2 in order to relay communication between the indoor unit 21 and the wireless LAN. The access point 4 has, for example, a communication function of connecting with the communication adapter 3 by wireless communication using a wireless LAN or the like, and a communication function of connecting with the hub 5 by wired communication. The hub 5 has a communication function that connects the plurality of access points 4 and the air conditioning control device 6 by wire communication. The air conditioning control device 6 is a controller that monitors and controls each air conditioner 2 in the air conditioning system 1 .

<Communication adapter configuration>
FIG. 3 is a block diagram showing an example configuration of the communication adapter 3 of the first embodiment. The communication adapter 3 shown in FIG. 3 has a first communication section 31, a second communication section 32, a storage section 33, and a CPU (Central Processing Unit) . The first communication unit 31 is a communication unit such as a communication IF such as WLAN that connects the access point 4 and the CPU 34 for communication. The second communication unit 32 is, for example, a communication IF (Interface) such as UART that connects the CPU 21D and the CPU 34 in the indoor unit 21 for communication. The storage unit 33 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 34 controls the communication adapter 3 as a whole.

The first communication unit 31 has a function of performing data communication with the air conditioning control device 6 via the hub 5 using encrypted communication or non-encrypted communication. The first communication section 31 has an encrypted communication section 31A that performs the function of encrypted communication. As encrypted communication, for example, a function to encrypt data using TLS (Transport Layer Security) of HTTPS (Hyper Text Transfer Protocol Secure) and send the encrypted data, and a function to send the encrypted data using HTTPS and a function to decrypt and receive using TLS. Note that TLS of HTTPS executes a plurality of handshakes between devices using a public key, a common key, and the like. Non-encrypted communication includes, for example, a function of transmitting data using UDP (User Data Protocol) and a function of receiving data using UDP without performing encrypted communication. Note that UDP is communication that does not require handshake between devices. The second communication unit 32 has a function of performing data communication with the indoor unit side communication unit 21B of the indoor unit 21 using UART communication.

The storage unit 33 has a data type table 35 and a model memory 36 . The data type table 35 is a table for determining whether or not to encrypt data when communicating various data. FIG. 4 is an explanatory diagram showing an example of the data type table 35. As shown in FIG. The data type table 35 shown in FIG. 4 is a table for managing data contents for each data type. The data type table 35 manages data related to the user who uses the air conditioner 2 as a data type to be encrypted, and data different from the data type to be encrypted as a data type to be non-encrypted. to manage. The data types are encryption target and non-encryption target. An encryption target is data for executing encrypted communication. A non-encrypted object is data for which non-encrypted communication is performed without encrypting the data. Data contents include air conditioner ON/OFF, operation mode, set temperature, wind direction/air volume, model name of air conditioner 2, IP address of air conditioner 2, failure detection information, control information from air conditioner control device 6, and the like. . In addition, among these data contents, there is the contents of communication data related to air conditioning, which requires confidentiality.

Next, the contents of each data will be explained. Air conditioner ON/OFF is data indicating the operating or stopped state of the air conditioner 2 . The operation mode is data indicating the operation mode of the air conditioner 2, such as heating operation or cooling operation. The set temperature is data of the set temperature of the air conditioner 2 . The wind direction/air volume is setting data for the air volume and wind direction of the air conditioner 2 . The model name of the air conditioner 2 is data for identifying the model of the air conditioner 2 . The IP address of the air conditioner 2 is data for setting the communication adapter 3 IP address from the air conditioning control device 6 . The failure detection information is data for notifying the details of the failure of the air conditioner 2 . The control information from the air conditioning control device 6 is command data for controlling and setting each air conditioner 2 from the air conditioning control device 6 .

Air conditioner ON/OFF, operation mode, set temperature, wind direction/air volume shall be able to identify the user's presence in the room where the indoor unit 21 is installed, and information related to the individual user such as the user's preferences regarding the indoor environment. is treated as highly confidential data. On the other hand, the model name of the air conditioner 2, the IP address of the air conditioner 2, the failure detection information, and the control information from the air conditioner control device 6 are information unrelated to the individual user of the air conditioner 2. , is treated as data with low confidentiality.

In the data type table 35, data with high confidentiality is stored as a target of encryption, and data with low confidentiality is stored as a target of non-encryption.

The model memory 36 stores the IP address of the communication adapter 3 and the device name of the air conditioner 2 to which the communication adapter 3 is connected. The device name is, for example, the wall-mounted air conditioner 2A, the duct-type air conditioner 2B, the ceiling-type air conditioner 2C, or the like. The IP address is an IP address assigned to the communication adapter 3. FIG. The IP address is an IP address assigned by a later-described DHCP (Dynamic Host Configuration Protocol) control unit 65D in the air conditioning control device 6. FIG.

The CPU 34 has a detection section 34A, a determination section 34B, a communication control section 34C, and a control section 34D. The detection unit 34A detects data to be transmitted that the communication adapter 3 attempts to transmit. The transmission target data is data that the communication adapter 3 transmits. Based on the data type of the transmission target data, the determination unit 34B refers to the data type table 35 and determines whether encrypted communication is used for the transmission target data. The determination unit 34B determines that the data to be transmitted is to be encrypted and communicated when the data type of the data to be transmitted is the data to be encrypted. The determination unit 34B determines that the data to be transmitted is not to be encrypted and communicated when the data type of the data to be transmitted is non-encrypted, which is different from the data type to be encrypted.

34 C of communication control parts are the 1st control parts which control the 1st communication part 31. FIG. When the transmission target data is to be encrypted, the communication control unit 34C controls the first communication unit 31 to transmit the transmission target data using encrypted communication. Further, when the transmission target data is unencrypted, the communication control unit 34C controls the first communication unit 31 to transmit the transmission target data using unencrypted communication. The control unit 34D controls the communication adapter 3 as a whole.

<Configuration of Air Conditioning Control Device>
FIG. 5 is a block diagram showing an example of the configuration of the air conditioning control device 6 according to the first embodiment. The air conditioning control device 6 shown in FIG. 5 includes a communication section 61, a display section 62, an operation section 63, a storage section 64, and a CPU 65. The communication unit 61 performs data communication with the communication adapter 3 using encrypted communication or non-encrypted communication. The communication unit 61 has an encrypted communication unit 61A that performs the function of encrypted communication. The display unit 62 displays various types of information such as the operation and setting status of a plurality of air conditioners, for example. The operation unit 63 receives an operation input to the air conditioning control device 6 from the operator. The storage unit 64 stores various information. The CPU 65 controls the entire air conditioning control device 6 .

The storage unit 64 has a data type table 66 and a device management table 67 . The data type table 66 is a table for managing data contents for each data type. The data type table 66 has the same contents as the data type table 35 in the communication adapter 3 . The data type table 66 manages the data related to the individual user who uses the air conditioner 2 as the data type to be encrypted, and the data different from the data type to be encrypted is the data type to be non-encrypted. manage as The device management table 67 is a table for managing the device type and IP address of the air conditioner 2 connected to each communication adapter 3 . The device type of the air conditioner 2 is, for example, a wall-mounted air conditioner 2A, a duct-type air conditioner 2B, a ceiling-type air conditioner 2C, or the like. The IP address is an IP address given to the communication adapter 3 that connects with the air conditioner 2 .

The CPU 65 has a detection section 65A, a determination section 65B, a communication control section 65C, a DHCP control section 65D, and a control section 65E. The detection unit 65A detects transmission target data that the air conditioning control device 6 attempts to transmit. The transmission target data is data transmitted by the air conditioning control device 6 . Based on the data type of the transmission target data, the determination unit 65B refers to the data type table 66 and determines whether encrypted communication is used for the transmission target data. The determining unit 65B determines that the data to be transmitted is to be encrypted and communicated when the data type of the data to be transmitted is the data to be encrypted. The determining unit 65B determines that the data to be transmitted is not to be encrypted and communicated when the data type of the data to be transmitted is non-encrypted, which is different from the data to be encrypted.

65 C of communication control parts are the 2nd control parts which control the communication part 61. FIG. The DHCP control unit 65D has, for example, a DHCP function of assigning an IP address used for communication to each communication adapter 3 within the wireless LAN. The DHCP function can be switched ON/OFF. The control unit 66E controls the air conditioning control device 6 as a whole. Since the communication control unit 65C includes the DHCP control unit 65D, the communication control unit 65C is connected to the air conditioner 2 (wall-mounted air conditioner 2A, duct-type air conditioner 2B, ceiling-type air conditioner 2C, etc.). An IP address is given to the communication adapter 3. Therefore, the communication control unit 65C forms a subnetwork with the communication adapter 3 (air conditioner 2) using the IP address assigned to the communication adapter 3 as a host address.

<Operation of air conditioning system>
Next, operation of the air conditioning system 1 of Embodiment 1 will be described. FIG. 6 is a flowchart showing an example of the processing operation of the communication adapter 3 or the air conditioning control device 6 involved in the first data transmission process. For convenience of explanation, the first data transmission process is executed by the communication adapter 3 as an example.

The detection unit 34A of the CPU 34 in the communication adapter 3 shown in FIG. 6 determines whether data to be transmitted has been detected (step S11). The detection unit 34A detects generation of data to be transmitted. When the data to be transmitted is detected (step S11: Yes), the determination unit 34B in the CPU 34 refers to the data type table 35 to identify the data type of the data to be transmitted (step S12). The data type is, for example, encryption target or non-encryption target.

The determination unit 34B determines whether or not the data type of the transmission target data is the encryption target (step S13). If the data type of the data to be transmitted is to be encrypted (step S13: Yes), the communication control unit 34C controls the first communication unit 31 to transmit the data to be transmitted using encrypted communication ( Step S14), the processing operation shown in FIG. 6 is terminated. The encrypted communication uses the TLS method of HTTP to execute data communication. When the air conditioning control device 6 receives data through encrypted communication from the communication adapter 3, the air conditioning control device 6 decrypts the encrypted data. As a result, the communication adapter 3 communicates with the air conditioning control device 6 by encrypting the data to be transmitted. , it can ensure the protection of the user's privacy.

If the data type of the data to be transmitted is not to be encrypted (step S13: No), the communication control unit 34C transmits the data to be transmitted using non-encrypted communication (step S15), and performs the processing operation shown in FIG. finish. In addition, unencrypted communication executes data communication using the UDP method. Then, when the air conditioning control device 6 receives data through non-encrypted communication from the communication adapter 3, it receives the non-encrypted data. As a result, the communication adapter 3 does not encrypt the data to be transmitted with the air conditioning control device 6, so that the communication load required for transmitting the data to be transmitted can be reduced.

Further, the detection unit 65A of the CPU 65 in the air conditioning control device 6 determines whether data to be transmitted has been detected (step S11). When the data to be transmitted is detected (step S11: Yes), the determination unit 65B in the CPU 65 refers to the data type table 66 to identify the data type of the data to be transmitted (step S12). The data type is, for example, encryption target or non-encryption target.

The determination unit 65B determines whether or not the data type of the transmission target data is the encryption target (step S13). If the data type of the transmission target data is to be encrypted (step S13: Yes), the communication control unit 65C controls the communication unit 61 to transmit the transmission target data using encrypted communication (step S14). , terminates the processing operation shown in FIG. In encrypted communication, data communication is executed using the TLS method of HTTP. Then, when the communication adapter 3 receives data through encrypted communication from the air conditioning control device 6, it decrypts the encrypted data. As a result, the air conditioning control device 6 encrypts the data to be transmitted and communicates with the communication adapter 3, so that information related to the individual user of the air conditioner 2 connected to the communication adapter 3 is protected. , it can ensure the protection of the user's privacy.

If the data type of the data to be transmitted is not to be encrypted (step S13: No), the communication control unit 65C transmits the data to be transmitted using non-encrypted communication (step S15), and performs the processing operation shown in FIG. finish. In the unencrypted communication, data communication is performed using the UDP method. Then, when the communication adapter 3 receives data by non-encrypted communication from the air conditioning control device 6, it receives the non-encrypted data. As a result, the air conditioning control device 6 does not encrypt the data to be transmitted with the communication adapter 3, so that the communication load required for transmitting the data to be transmitted can be reduced.

<Effect of Example 1>
Since non-encrypted communication is used for information unrelated to the individual user of the air conditioner 2, the communication load on the communication adapter 3 side required for data communication of the air conditioner 2 and the communication traffic in the wireless LAN can be reduced. That is, when encrypted communication is used, for example, the amount of data in encrypted communication such as handshake and key exchange is increased, and the number of times of communication such as key exchange is increased. On the other hand, when non-encrypted communication is used, for example, the amount of data and the number of times of communication for encrypted communication such as handshake and key exchange are lost. Communication traffic can be reduced.

In addition, among the data related to the operation of the air conditioner 2, information related to individual users such as the presence of users and the user's preferences regarding the indoor environment are communicated using encrypted communication. can be protected.

According to the data content of the data to be transmitted, the data to be encrypted and the data not to be encrypted are separated, and the amount of data to be encrypted and the number of handshakes involved in encrypted communication are reduced. 31 (communication unit 61) can be reduced. Furthermore, by reducing the amount of data to be encrypted and the number of handshakes executed during encrypted communication, the communication load on the wireless LAN can be suppressed. Furthermore, by reducing the amount of encrypted communication data that imposes a load on the first communication unit 31 (communication unit 61), hardware such as the first communication unit 31 (communication unit 61) can be configured at low cost. . Moreover, even when an open network such as a wireless LAN is used, the privacy of the user using the air conditioner 2 is maintained.

In the air-conditioning system 1 of Embodiment 1, the data to be transmitted is transmitted using encrypted communication when the data type of the data to be transmitted is to be encrypted, and the data type of the data to be transmitted is to be non-encrypted. , the data to be transmitted is transmitted using non-encrypted communication. However, it may be determined whether or not to encrypt the data to be transmitted based on the indoor model of the air conditioner 2 instead of the data type of the data to be transmitted. 2 will be described below. In addition, by attaching the same reference numerals to the same configurations as those of the air conditioning system 1 of the first embodiment, the redundant description of the configurations and operations will be omitted.

FIG. 7 is a block diagram showing an example of the configuration of the communication adapter 3A of the second embodiment. The communication adapter 3A shown in FIG. 7 has a first communication section 31, a second communication section 32, a storage section 33 and a CPU . The storage unit 33 has a device type table 35A instead of the data type table 35 and a model memory 36A instead of the model memory 36 . Further, the CPU 34 has a determination section 341B instead of the determination section 34B.

The device type table 35A is a table for determining whether or not to encrypt data when communicating various data. FIG. 8 is an explanatory diagram of a data column 37 showing an example of data stored in the device type table 35A. A data string 37 shown in FIG. 8 is a set of data for managing the indoor model type of the air conditioner 2 for each device type. The device type is information for identifying a device to be encrypted or a device to be non-encrypted. An encryption target device is a device that transmits transmission target data using encrypted communication. A non-encryption target device is a device that transmits transmission target data using non-encryption communication. By indoor model, for example, the indoor unit type such as the wall-mounted indoor unit of the wall-mounted air conditioner 2A, the duct-type indoor unit of the duct-type air conditioner 2B, or the ceiling-type indoor unit of the ceiling-type air conditioner 2C is identified. It is information to do.

In the wall-mounted air conditioner 2A, since the wall-mounted indoor unit is installed in each room, the operation of the wall-mounted indoor unit can identify information related to individual users such as the presence and preferences of users in the room. Therefore, the data to be transmitted must be treated as highly confidential data. Therefore, the wall-mounted air conditioner 2A is assumed to be an encryption target device that transmits transmission target data using encrypted communication.

The duct-type air conditioner 2B is an air conditioner 2 that adjusts the air in a plurality of rooms through ducts, and since information related to an individual user cannot be specified from the operation information of the duct-type air conditioner 2B, the transmission target data is treated as data with low confidentiality. Therefore, the duct-type air conditioner 2B is a non-encryption target device that transmits transmission target data using non-encryption communication. In addition, since the ceiling type air conditioner 2C is also an air conditioner that is often installed in a large room used by an unspecified number of users, information related to individual users is obtained from the operation information of the ceiling type air conditioner 2C. cannot be specified, the transmission target data is treated as data with low confidentiality, and the ceiling air conditioner 2C is also treated as a non-encryption target device that transmits the transmission target data using non-encryption. However, this is only an example, and for example, if the ceiling air conditioner 2C is installed in a private room where the user stays, the ceiling air conditioner 2C may be the encryption target device.

Based on the above concept, the device type table 35A stores the wall-mounted air conditioner 2A as a device to be encrypted as a data string 37, and stores the ceiling-type air conditioner 2C and the duct-type air conditioner 2B as non-encrypted devices. stored as the target device.

The model memory 36A stores the IP address of the communication adapter 3A, the device name of the air conditioner 2 to which the communication adapter 3A is connected, and the device type of the air conditioner 2 to which the communication adapter 3A is connected. The device name is, for example, the wall-mounted air conditioner 2A, the duct-type air conditioner 2B, the ceiling-type air conditioner 2C, or the like. The IP address is an IP address assigned to the communication adapter 3. FIG. The device type is, for example, encryption target device or non-encryption target device.

The determination unit 341B refers to the device type table 35A based on the indoor model of the air conditioner 2 to which the communication adapter 3A is connected, and determines whether encrypted communication is used for data to be transmitted. The determination unit 341B determines that encrypted communication is used for the data to be transmitted when the indoor model type of the air conditioner 2 of the data to be transmitted is the equipment to be encrypted. The determination unit 341B determines that encrypted communication is not used for the transmission target data when the indoor model type of the air conditioner 2 of the transmission target data is non-encryption target device.

The determination unit 341B determines that encrypted communication is used for data to be transmitted when the indoor model type of the air conditioner 2 is the wall-mounted type. Furthermore, when the indoor model of the air conditioner 2 is the ceiling type or the duct type, the determination unit 341B determines not to use encrypted communication for data to be transmitted, that is, to use non-encrypted communication.

<Configuration of Air Conditioning Control Device>
FIG. 9 is a block diagram showing an example of the configuration of an air conditioning control device 6A according to the second embodiment. An air conditioning control device 6A shown in FIG. The storage unit 64 has a device type table 66A and a device management table 66B. The device type table 66A is a table for managing indoor model types for each device type. The device type table 66A has the same contents as the device type table 35A in the communication adapter 3A. The device type table 66A manages encryption target devices and non-encryption target devices for each indoor model of the air conditioner 2 . The device management table 67A is a table for managing the device name, IP address, and device type of the air conditioner 2 connected to each communication adapter 3A. The indoor model of the air conditioner 2 includes, for example, a wall-mounted air conditioner 2A, a duct-type air conditioner 2B, and a ceiling-type air conditioner 2C. The IP address is an IP address given to the communication adapter 3 that connects with the air conditioner 2 . The device type is encryption target device or non-encryption target device.

The determination unit 651B refers to the device type table 66A based on the indoor model of the air conditioner 2 to which the communication adapter 3A to be transmitted is connected, and determines whether encrypted communication is to be used for the data to be transmitted. judge. When the indoor model of the air conditioner 2 to which the communication adapter 3A to be transmitted is connected is an encryption target device, the determination unit 651B determines to use encrypted communication for the data to be transmitted. When the indoor model type of the air conditioner 2 to which the communication adapter 3A to be transmitted is connected is a non-encryption target device, the determination unit 651B does not use encrypted communication for the data to be transmitted, that is, the non-encryption target device. Determine to use encrypted communication.

When the indoor model of the air conditioner 2 to which the communication adapter 3A to be transmitted is connected is the wall-mounted air conditioner 2A, the determination unit 651B determines to use encrypted communication for the data to be transmitted. Further, when the air conditioner 2 to which the communication adapter 3A to be transmitted is connected is the ceiling-type air conditioner 2C or the duct-type air conditioner 2B, the determination unit 651B does not use encrypted communication for the data to be transmitted. , that is, it is determined to use non-encrypted communication.

<Operation of air conditioning system>
Next, operation of the air conditioning system 1 of Embodiment 2 will be described. FIG. 10 is a flow chart showing an example of the processing operation of the communication adapter 3A involved in the device type setting process. The communication adapter 3A determines whether or not the power activation of the connected air conditioner 2 is detected (step S21). When the communication adapter 3A detects that the connected air conditioner 2 has been activated (step S21: Yes), it refers to the device type table 35A and selects the device type according to the indoor model of the connected air conditioner 2. Identify (step S22). Furthermore, the communication adapter 3A stores the identified device type in the model memory 36A (step S23). For example, if the air conditioner 2 connected to the communication adapter 3A is the ceiling-type air conditioner 2C, the model memory 36A stores the ceiling-type air conditioner 2C as the device name, the IP address of the air conditioner 2 as the IP address, the device The non-encryption target device is stored as the type.

After storing the device type in the model memory 36A, the communication adapter 3A transmits the device type to the air conditioning control device 6A (step S24), and terminates the processing operation shown in FIG. Then, the air conditioning control device 6A stores the device type of the air conditioner 2 from the communication adapter 3A in the device management table 67A. As a result, the air conditioning control device 6</b>A can grasp the device type of each air conditioner 2 in the air conditioning system 1 .

When the communication adapter 3A does not detect that the air conditioner 2 is powered on (step S21: No), the processing operation shown in FIG. 10 is terminated.

FIG. 11 is a flow chart showing an example of the processing operation of the communication adapter 3A or the air conditioning control device 6A involved in the second data transmission process. For convenience of explanation, the second data transmission process is executed by the communication adapter 3A as an example, but it may be executed by the air conditioning control device 6A instead of the communication adapter 3A, and can be changed as appropriate.

The detection unit 34A of the CPU 34 in the communication adapter 3A shown in FIG. 11 determines whether data to be transmitted has been detected (step S31). The detection unit 34A detects generation of data to be transmitted. If data to be transmitted is detected (step S31: Yes), the determination unit 341B in the CPU 34 refers to the device type table 35A to determine the device type corresponding to the indoor model of the air conditioner 2 that transmits the data to be transmitted. is specified (step S32). The device type is, for example, encryption target device or non-encryption target device.

The determination unit 341B determines whether or not the device type of the air conditioner 2 of the transmission target data is the encryption target device (step S33). When the device type of the air conditioner 2 is an encryption target device (step S33: Yes), the communication control unit 34C controls the first communication unit 31 to transmit the transmission target data using encrypted communication. (step S34), and the processing operation shown in FIG. 11 ends. For data communication, an encryption protocol such as TLS of HTTP is used. When the air conditioning control device 6A receives data through encrypted communication from the communication adapter 3A, the air conditioning control device 6A decrypts the encrypted data. As a result, the communication adapter 3A encrypts the data to be transmitted and communicates with the air conditioning control device 6A, so that information related to the individual user of the air conditioner 2 connected to the communication adapter 3A is protected. , it can ensure the protection of the user's privacy.

When the device type of the air conditioner 2 of the transmission target data is not the encryption target device (step S33: No), the communication control unit 34C determines that the device type of the air conditioner 2 is the non-encryption target device, The data to be transmitted is transmitted using standardized communication (step S35). Then, the processing operation shown in FIG. 11 ends. For data communication, a non-encrypted protocol such as UDP is used. Then, when the air conditioning control device 6 receives data by non-encrypted communication from the communication adapter 3A, it receives non-encrypted data. As a result, the communication adapter 3A does not encrypt the transmission target data with the air conditioning control device 6A, so that the communication load required for transmission of the transmission target data can be reduced.

Further, the detection unit 65A of the CPU 65 in the air conditioning control device 6A determines whether or not data to be transmitted has been detected (step S31). When the data to be transmitted is detected (step S31: Yes), the determination unit 651B in the CPU 65 refers to the device type table 66A to determine the device type for the indoor model of the air conditioner 2 that is the destination of the data to be transmitted. Identify (step S32). The device type is, for example, encryption target device or non-encryption target device.

The determination unit 651B determines whether or not the device type of the air conditioner 2, which is the destination of the transmission target data, is an encryption target device (step S33). When the device type of the air conditioner 2, which is the destination of the transmission target data, is an encryption target device (step S33: Yes), the communication control unit 65C performs communication to transmit the transmission target data using encrypted communication. The unit 61 is controlled (step S34), and the processing operation shown in FIG. 11 is terminated. Data communication is performed using TLS of HTTP, which is encrypted communication. Then, when the communication adapter 3A receives data through encrypted communication from the air conditioning control device 6A, it decrypts the encrypted data. As a result, the air conditioning control device 6A communicates with the communication adapter 3A by encrypting the data to be transmitted. Therefore, the information related to the individual user of the air conditioner 2 connected to the communication adapter 3A is protected. , it can ensure the protection of the user's privacy.

When the device type of the air conditioner 2, which is the destination of the transmission target data, is not an encryption target device (step S33: No), the communication control unit 65C determines that it is a non-encryption target device, and uses non-encryption communication. The data to be transmitted is transmitted (step S35), and the processing operation shown in FIG. 11 ends. Data communication is performed using UDP, which is non-encrypted communication. Then, when the communication adapter 3A receives data by non-encrypted communication from the air conditioning control device 6A, it receives the non-encrypted data. As a result, the air conditioning control device 6A does not encrypt the data to be transmitted with the communication adapter 3A, so that the communication load required for transmitting the data to be transmitted can be reduced.

<Effect of Example 2>
Since the data communication of the ceiling type air conditioner 2C and the duct type air conditioner 2B is information unrelated to the individual user, unencrypted communication is used. Therefore, it is possible to reduce the communication load on the communication adapter 3A side and the communication traffic in the wireless LAN required for the data communication of the ceiling type air conditioner 2C and the duct type air conditioner 2B. That is, when encrypted communication is used, for example, it is necessary to go through a communication procedure for encrypted communication such as handshake and key exchange, so communication traffic increases. On the other hand, when non-encrypted communication is used, there is no need to go through communication procedures for encrypted communication such as handshakes and key exchanges, reducing communication traffic in wired LANs and wireless LANs. can do. Furthermore, the ability to reduce communication traffic also reduces the load on the communication processing of the communication adapter 3A.

The data communication of the wall-mounted air conditioner 2A uses encrypted communication because it is information related to individual users such as the presence of the user in the room in which it is installed and the user's preferences regarding the indoor environment. As a result, the user's privacy can be protected.

By dividing into encryption target devices and non-encryption target devices according to the indoor model of the air conditioner 2, and reducing the amount of data to be encrypted and the number of handshakes performed each time encrypted communication is started. The load on the first communication unit 31 (communication unit 61) can be reduced. Furthermore, by reducing the amount of data to be encrypted and the number of handshakes executed during encrypted communication, the communication load on the wired LAN or wireless LAN can be suppressed. Furthermore, by reducing the amount of encrypted communication data that imposes a load on the first communication unit 31 (communication unit 61), hardware such as the first communication unit 31 (communication unit 61) can be configured at low cost. . Moreover, even when a wired LAN or wireless LAN, which is used as an open network, is used for communication, the privacy of the user using the air conditioner 2 can be maintained.

For convenience of explanation, the ceiling air conditioner 2C is exemplified as a non-encrypted device, but as described above, if the ceiling air conditioner 2C is installed in a private room, The ceiling air conditioner 2C may be a device to be encrypted because it is information related to the existence and preferences of the individual user. As for the types of the air conditioner 2, the wall-mounted type, the ceiling type, and the duct type have been exemplified. Therefore, since the confidentiality of the communication data is low, the ceiling-suspended air conditioner may be a non-encryption target device, and can be changed as appropriate.

Also, for convenience of explanation, the case where the hub 5 is arranged between the air conditioning control device 6 (6A) and the access point 4 is illustrated, but the air conditioning control device 6 (6A) and the access point 4 are directly connected. can be Moreover, although the case where the air-conditioning control device 6 (6A) and the access point 4 are connected by wire is exemplified, they may be connected by radio. Moreover, although the case where the wireless LAN is used to connect the communication adapter 3 (3A) and the access point 4 has been exemplified, the connection may be made by a wired communication network such as a wired LAN, for example, and can be changed as appropriate.

1 air conditioning system 2 air conditioner 2A wall-mounted air conditioner 2B duct type air conditioner 2C ceiling type air conditioner 3, 3A communication adapter 6, 6A air conditioning control device 21 indoor unit 31 first communication unit 34B determination unit 34C Communication control unit 61 Communication unit 65B Determination unit 65C Communication control unit 341B Determination unit 651B Determination unit

Claims (5)

a communication unit that communicates data with an air conditioning control device that centrally controls a plurality of air conditioners;
a determination unit that determines whether or not to encrypt data to be transmitted;
and a communication control unit that controls the communication unit to encrypt and communicate the data to be transmitted when the data to be transmitted is encrypted. The determination unit is
2. The air conditioner according to claim 1, wherein a determination is made as to whether or not the data to be transmitted is to be encrypted and communicated based on the indoor model of the air conditioner. The determination unit is
determining that the data to be transmitted is to be encrypted and communicated when the indoor model type of the air conditioner is a wall-mounted indoor unit;
3. The air conditioner according to claim 2, wherein when the indoor model of the air conditioner is a ceiling type indoor unit or a duct type indoor unit, it is determined that the data to be transmitted is not encrypted. . An air conditioning system having an air conditioner and an air conditioning control device that monitors the air conditioner,
The air conditioner is
a first communication unit that communicates data with the air conditioning control device;
a first determination unit that determines whether or not data to be transmitted is to be encrypted and communicated by the first communication unit;
a first control unit that controls the first communication unit so as to encrypt and communicate the data to be transmitted when the data to be transmitted is encrypted and communicated;
The air conditioning control device
a second communication unit that communicates data with the air conditioner;
a second determination unit that determines whether or not data to be transmitted is to be encrypted and communicated by the second communication unit;
and a second control unit that controls the second communication unit to encrypt and communicate the data to be transmitted when the data to be transmitted is encrypted. . The first determination unit is
5. The air conditioning system according to claim 4, wherein it is determined whether or not the data to be transmitted is to be encrypted and communicated based on the indoor model of the air conditioner.

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