JP6544959B2 - Remote controller and air conditioning management device - Google Patents

Description

The present invention relates to a remote controller and the air conditioning management equipment.

  The air conditioners are not limited to those for home use and business use, and there is a possibility that a plurality of users can use them with their preferred settings. If the air conditioning setting of the user who used the air conditioner last time is different from the air conditioning setting desired by the user to be used next, to change the setting, switch the operation mode or wind direction on the remote control, set temperature or air volume You may have to press the change button a number of times.

  In order to save the trouble of such setting change, the air conditioner which improves operativity is proposed by equipping a remote control with the shortening key which set the driving condition in advance like patent document 1, and is proposed.

JP 2014-020660 A

  Since the technology described in Patent Document 1 calls the operating conditions using the short key of the remote control, it is not possible to easily apply the set operating conditions to an air conditioner that is not the operation target of the remote control. In addition, when a large number of users attempt to set individual operating conditions, the number of short keys may be insufficient, and it may not be possible to set desired operating conditions. Further, the technology described in Patent Document 1 does not specify the user who operates it.

  The present invention has been made in view of the above-described circumstances, and in an environment where there are one or more air conditioners and there are a plurality of users, the user is not concerned with the setting when the air conditioner was used last time. An object of the present invention is to make it possible to easily operate the air conditioner with the preference setting without the need to change the setting.

In order to achieve the above object, the remote controller according to the present invention is
A remote controller individually installed corresponding to an air conditioning indoor unit,
An identification information acquisition unit that acquires identification information to be disclosed when a user activates the air conditioning indoor unit, and identifies the user who activates the air conditioning indoor unit;
An identification information transmission unit that transmits the identification information acquired by the identification information acquisition unit to an air conditioning management device;
And the identification information control information for instructing the operation of the air conditioning indoor unit that is generated on the basis the user of the air conditioning setting identifies the control information receiving unit that receives from the air conditioning management apparatus in the air conditioning management apparatus,
An air conditioner control unit configured to control the air conditioning indoor unit according to the control information received by the control information receiving unit.

According to the present invention, when the control information receiving unit receives, from the air conditioning management device, the control information instructing the operation of the air conditioning indoor unit generated based on the air conditioning setting of the user identified by the identification information, the air conditioner control unit Controls the indoor unit according to the control information received by the control information receiving unit. As a result, the user can easily operate the air conditioner with his / her favorite setting without the need to change the setting.

It is a figure showing an example of composition of an air-conditioning management system concerning an embodiment of the invention. It is a figure showing an example of composition of a remote controller concerning an embodiment. It is a figure which shows an example of the external appearance of the remote controller which concerns on embodiment. It is a figure showing an example of composition of an air-conditioning setting controller concerning an embodiment. It is a figure showing an example of composition of a server concerning an embodiment. It is a figure showing an example of functional composition of a remote controller concerning an embodiment. It is a figure showing an example of functional composition of an air-conditioning setting controller concerning an embodiment. It is a figure showing an example of functional composition of a server concerning an embodiment. It is a figure which shows an example of the setting information which concerns on embodiment. It is a flowchart which shows an example of operation | movement of the air-conditioning management process which concerns on embodiment. It is a figure which shows the other example of the setting information which concerns on embodiment. It is a figure which shows the other example of the external appearance of the remote controller which concerns on embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same or corresponding parts are denoted by the same reference numerals. In the present embodiment, the indoor unit and the outdoor unit are collectively referred to as an air conditioner.

  FIG. 1 is a diagram showing an example of the configuration of an air conditioning management system according to an embodiment of the present invention. The air conditioning management system 100 includes an air conditioner remote controller (hereinafter abbreviated as remote control) 10 a and a remote control 10 b, an air conditioning setting controller 20, an indoor unit 30 a and an indoor unit 30 b, an outdoor unit 40, a server 50, and a hub 60. And the user terminal 70. The remote control 10a and the remote control 10b, the air conditioning setting controller 20, the indoor unit 30a and the indoor unit 30b, and the outdoor unit 40 are bus-connected by dedicated lines. The indoor unit 30a and the indoor unit 30b have the same configuration, and the remote control 10a and the remote control 10b have the same configuration.

  The air conditioning setting controller 20, the server 50, and the user terminal 70 are connected via a hub 60 via a LAN (Local Area Network). The outdoor unit 40 is a common outdoor unit of the indoor unit 30a and the indoor unit 30b. The remote control 10a and the remote control 10b correspond to the indoor unit 30a and the indoor unit 30b, respectively, and control the indoor unit 30a and the indoor unit 30b.

  FIG. 2 is a diagram showing a configuration example of the remote controller according to the embodiment. The remote controller 10 a (remote controller 10 b) includes a display unit 11, a microcomputer 12, an input unit 13, a communication unit 14, a reading unit 15, and an antenna 16. The display unit 11 is a liquid crystal display.

  The microcomputer 12 includes an interface (hereinafter, abbreviated as I / F) 121, a storage unit 122, and a control unit 123. The I / F 121 connects the display unit 11, the input unit 13, the communication unit 14 and the reading unit 15, and the microcomputer 12. The storage unit 122 includes a ROM and a RAM for storing firmware (hereinafter abbreviated as FW) of the remote controller, and a flash memory and the like for storing information indicating the air conditioning setting at the previous activation time. The control unit 123 is configured by a CPU (Central Processing Unit) or the like, and controls the remote control 10 a (the remote control 10 b) by the FW stored in the storage unit 122.

  The input unit 13 is a push switch. The push switch of the input unit 13 includes a power button that switches on / off the power of the air conditioner. The communication unit 14 is an I / F for connection with a dedicated line. The reading unit 15 is an electronic circuit including an NFC (Near Field Communication) communication IC. The antenna 16 is a pattern antenna for NFC communication. The antenna 16 and the reading unit 15 are RFID tag readers.

  The user possesses an ID card, and an RFID tag is embedded in the ID card. The RFID tag stores ID information indicating an ID for identifying the user. When the user brings the ID card close to the antenna 16, the antenna 16 and the reading unit 15 read the ID information of the RFID tag and start the process of activating the air conditioner. That is, the activation operation of the air conditioner includes the pressing of the power button and the operation of bringing the ID card closer.

  FIG. 3 is a view showing an example of the appearance of the remote controller according to the embodiment. The display unit 11 and the input unit 13 are exposed outside the housing of the remote control 10a (remote control 10b). Also, the antenna 16 may be in a portion displayed by a broken line, and a display may be performed to clarify that a reader for performing NFC communication such as an N mark (registered trademark) is present in this portion.

  The air conditioning setting controller 20 of FIG. 1 transmits control information for instructing settings of the temperature, the wind direction, and the like of the air conditioner to the remote control 10a (remote control 10b). The remote controller 10a (remote controller 10b) controls the indoor unit 30a (indoor unit 30b) in accordance with an instruction from the air conditioning setting controller 20. The operation of the outdoor unit 40 is interlocked with the operation of the indoor unit 30a and the indoor unit 30b.

  FIG. 4 is a diagram showing a configuration example of the air conditioning setting controller according to the embodiment. The air conditioning setting controller 20 includes a display unit 21, a microcomputer 22, an input unit 23, a first communication unit 24, a second communication unit 25, a second storage unit 26, and an external I / O 27. The display unit 21 is a touch panel liquid crystal display.

  The microcomputer 22 includes an I / F 221, a first storage unit 222, and a control unit 223. The I / F 221 connects the display unit 21, the input unit 23, the first communication unit 24, the second communication unit 25, the external storage unit 26 and the external I / O 27, and the microcomputer 22. The first storage unit 222 is configured by a ROM, a RAM, a flash memory, or the like that stores the FW of the air conditioning setting controller 20. The control unit 223 is configured by a CPU or the like, and controls the air conditioning setting controller 20 by the FW stored in the first storage unit 222.

  The input unit 23 is a touch panel of the display unit 21. The first communication unit 24 is an I / F for connection with a dedicated line. The second communication unit 25 is an I / F for connection to the LAN. The second storage unit 26 is configured of an SDRAM for driving a display device and a non-volatile memory for storing list information of air conditioners to be managed. The external I / O 27 is an I / F for performing maintenance of the air conditioning setting controller 20 such as writing and updating of the FW.

  FIG. 5 is a diagram showing an exemplary configuration of a server according to the embodiment. The server 50 includes a processing device 51, a communication unit 52, a second storage unit 53, and an external I / O 54.

  The processing device 51 includes an I / F 511, a first storage unit 512, and a control unit 513. The I / F 511 connects the communication unit 52, the second storage unit 53, the external I / O 54, and the processing device 51. The first storage unit 512 is configured by a ROM, a RAM, a flash memory, or the like that stores the FW of the server 50. The control unit 513 is configured by a CPU or the like, and controls the server 50 by the FW stored in the first storage unit 512.

  The communication unit 52 is an I / F for connection to the LAN. The second storage unit 53 is configured of a volatile memory, and a non-volatile memory that stores a server program, user information, and the like. The external I / O 54 is an input / output I / F such as USB or D-Sub.

  Subsequently, functional configurations of the remote control 10a (remote control 10b), the air conditioning setting controller 20, and the server 50 will be described.

  FIG. 6 is a diagram showing an example of a functional configuration of the remote controller according to the embodiment. The remote controller 10a (remote controller 10b) includes an ID reading unit 101, an ID information transmission unit 102, an operation information transmission unit 103, a control information reception unit 104, a previous information storage unit 105, and an air conditioner control unit 106. . When the user activates the air conditioner by the operation of bringing the ID card closer, the ID reading unit 101 acquires the ID information of the user, and identifies the user who performed the activation operation of the air conditioner. The ID reading unit 101 sends the acquired ID information to the ID information transmitting unit 102. The ID information transmission unit 102 transmits the ID information received from the ID reading unit 101 to the air conditioning setting controller 20.

  On the other hand, when the user activates the air conditioner by pressing the power button, the operation information transmission unit 103 transmits, to the air conditioning setting controller 20, operation information indicating that the air conditioner has been activated. The operation information does not include ID information. In the case where the activation operation of the air conditioner is only the operation of bringing the ID card closer to the remote control 10a (the remote control 10b), the operation information transmission unit 103 may be omitted.

  FIG. 7 is a diagram showing an example of a functional configuration of the air conditioning setting controller according to the embodiment. The air conditioning setting controller 20 includes an ID information receiving unit 201, an ID information transmitting unit 202, a setting information receiving unit 203, a control information transmitting unit 204, and an operation information receiving unit 205. The ID information receiving unit 201 receives ID information from the remote control 10a (remote control 10b). The ID information receiving unit 201 sends the received ID information to the ID information transmitting unit 202. The ID information transmission unit 202 transmits the ID information received from the ID information reception unit 201 to the server 50.

  FIG. 8 is a diagram showing an example of a functional configuration of the server according to the embodiment. The server 50 includes an ID information receiving unit 501, a setting information storage unit 502, and a setting information transmission unit 503. The ID information receiving unit 501 receives the ID information from the air conditioning setting controller 20. The ID information receiving unit 501 sends the received ID information to the setting information transmitting unit 503. The setting information storage unit 502 stores setting information indicating settings of the temperature, the wind direction, and the like of the air conditioner. The setting information includes personal setting information associated with the user ID and standard setting information indicating a default air conditioning setting.

  When the setting information storage unit 502 includes personal setting information corresponding to the ID indicated by the ID information received from the ID information receiving unit 501, the setting information transmission unit 503 reads the personal setting information. When there is no personal setting information corresponding to the ID indicated by the ID information received from the ID information receiving unit 501, the setting information transmitting unit 503 reads standard setting information. The setting information transmission unit 503 transmits the read setting information to the air conditioning setting controller 20.

  FIG. 9 is a diagram showing an example of setting information according to the embodiment. The setting information stored in the setting information storage unit 502 includes “ID” for identifying the user, “user name” indicating the user's name, “operation mode” indicating the setting of the operation mode of the air conditioner, and setting of the temperature. It consists of items of “temperature” indicating “dehumidifying” indicating setting of the dehumidifying function, “wind speed” indicating setting of wind speed, and “wind direction” indicating setting of wind direction. The setting information having an “ID” of 01 is not individual setting information but standard setting information. As long as it is information for identifying a user, only one item of “ID” and “user name” may be used.

  As for such setting information, the user accesses the server 50 using the user terminal 70 of FIG. 1, inputs the ID of the user, and logs in. The user displays the air conditioning setting screen and inputs a desired air conditioning setting. The server 50 stores the input air conditioning setting in the setting information storage unit 502 in association with the user's ID.

  Here, it is assumed that an HTTP server is operating on the server 50, and the user connects to the HTTP server using a Web browser installed in the user terminal 70 to register and update the air conditioning setting. For example, a dedicated application may be prepared, and the setting may be performed from the application, or the user may directly input the user ID and the air conditioning setting to the server 50. In the case of direct input, the user terminal 70 may be omitted in the air conditioning management system 100 of FIG. 1.

  The setting information receiving unit 203 of the air conditioning setting controller 20 illustrated in FIG. 7 receives the setting information from the server 50. The setting information receiving unit 203 sends the received setting information to the control information transmitting unit 204. When the setting information received from the setting information receiving unit 203 is personal setting information, the control information transmitting unit 204 generates control information indicating a user's air conditioning setting operation indicated by the individual setting information. If the setting information received from the setting information receiving unit 203 is standard setting information, the control information transmitting unit 204 generates control information indicating a default air conditioning setting indicated by the standard setting information.

  On the other hand, when the operation information reception unit 205 receives operation information from the remote control 10 a (remote control 10 b), the received operation information is sent to the control information transmission unit 204. When the control information transmission unit 204 receives the operation information from the operation information reception unit 205, the control information transmission unit 204 generates control information for instructing the operation at the previous air conditioning setting. The control information transmission unit 204 transmits the generated control information to the remote control 10a (remote control 10b). The operation information receiving unit 205 may be omitted if the operation for starting the air conditioner is only the operation for bringing the ID card closer to the remote control 10a (the remote control 10b).

  The control information receiving unit 104 of the remote controller 10 a (remote controller 10 b) shown in FIG. 6 receives control information from the air conditioning setting controller 20. The control information receiving unit 104 sends the received control information to the air conditioner control unit 106. The previous information storage unit 105 stores the previous information indicating the air conditioning setting at the time of the previous activation. The air conditioner control unit 106 controls the indoor unit 30 a (the indoor unit 30 b) in accordance with the instruction of the control information received from the setting information receiving unit 203.

  If the control information received from the setting information receiving unit 203 is control information instructing an operation at the previous air conditioning setting, the air conditioner control unit 106 reads the previous information from the previous information storage unit 105, and The indoor unit 30a (the indoor unit 30b) is controlled to achieve the air conditioning setting. If the control information received from the setting information receiving unit 203 is control information instructing operation with the user's air conditioning setting, the air conditioner control unit 106 controls the indoor unit 30a (indoor to have the user's air conditioning setting). Control the machine 30b). When the control information received from the setting information receiving unit 203 is control information instructing an operation with default air conditioning setting, the air conditioner control unit 106 sets the indoor unit 30a (indoor to set the default air conditioning setting). Control the machine 30b).

  If the control information received from the setting information receiving unit 203 is control information for instructing operation with the user's air conditioning setting or default air conditioning setting, the air conditioner control unit 106 receives the received control information as the previous control information. And overwrite and save the information storage unit 105 last time.

  For the processing of the ID reading unit 101, ID information transmission unit 102, operation information transmission unit 103, control information reception unit 104, previous information storage unit 105 and air conditioner control unit 106 of the remote controller 10a (remote control 10b), the firmware is a display unit 11. The processing is executed by processing using the microcomputer 12, the input unit 13, the communication unit 14, the reading unit 15, the antenna 16 and the like as resources. As for the processing of the ID information receiving unit 201, the ID information transmitting unit 202, the setting information receiving unit 203, the control information transmitting unit 204 and the operation information receiving unit 205 of the air conditioning setting controller 20, the firmware is a display unit 21, a microcomputer 22, and an input unit 23, the first communication unit 24, the second communication unit 25, the second storage unit 26, the external I / O 27 and the like are used as resources for processing. The firmware uses the processing device 51, the communication unit 52, the second storage unit 53, the external I / O 54, etc. as resources in the processing of the ID information receiving unit 501, the setting information storage unit 502, and the setting information transmission unit 503 of the server 50. Run by processing.

FIG. 10 is a flowchart showing an example of the operation of the air conditioning management process according to the embodiment . Air conditioning management processing, a remote controller 10a (10b), and the air conditioning setting controller 20, server 50 and initiates the start.

  When the activation process of the air conditioner is started, the ID information transmission unit 102 or the operation information transmission unit 103 transmits the ID information or the operation information to the air conditioning setting controller 20 (step S11).

  The ID information receiving unit 201 or the operation information receiving unit 205 of the air conditioning setting controller 20 receives the ID information or the operation information from the remote controller 10a (the remote controller 10b), respectively (step S21). When the ID information receiving unit 201 receives the ID information (step S22; YES), the ID information is sent to the ID information transmitting unit 202. The ID information transmission unit 202 transmits the ID information received from the ID information reception unit 201 to the server 50 (step S23).

  The ID information receiving unit 501 of the server 50 receives the ID information from the air conditioning setting controller 20 (step S31). The ID information receiving unit 501 sends the received ID information to the setting information transmitting unit 503. If there is personal setting information corresponding to the ID indicated by the ID information received from the ID information receiving unit 501 in the setting information storage unit 502 (step S 32; YES), the setting information transmission unit 503 sets personal setting information. Read out (step S33). When there is no personal setting information corresponding to the ID indicated by the ID information received from the ID information receiving unit 501 in the setting information storage unit 502 (step S 32; NO), the setting information transmission unit 503 sets the standard setting information. Read out (step S34). The setting information transmission unit 503 transmits the read setting information to the air conditioning setting controller 20 (step S35), and ends the process.

  The setting information receiving unit 203 of the air conditioning setting controller 20 receives the setting information from the server 50 (step S24). The setting information receiving unit 203 sends the received setting information to the control information transmitting unit 204. If the setting information received from the setting information receiving unit 203 is personal setting information (step S25; YES), the control information transmitting unit 204 controls the operation indicated by the individual setting information to instruct the user to operate in the air conditioning setting Information is generated (step S26). If the setting information received from the setting information receiving unit 203 is not personal setting information (if it is standard setting information) (step S25; NO), the control information transmitting unit 204 controls the default air conditioning indicated by the standard setting information. Control information for instructing operation in setting is generated (step S27).

  On the other hand, when the ID information receiving unit 201 does not receive the ID information (when the operation information receiving unit 205 receives the operation information) (step S22; NO), the operation information receiving unit 205 transmits the received operation information to the control information. Send to section 204. When the control information transmission unit 204 receives the operation information from the operation information reception unit 205, the control information transmission unit 204 generates control information for instructing operation at the previous air conditioning setting (step S28). The control information transmission unit 204 transmits the generated control information to the remote control 10a (remote control 10b) (step S29), and ends the process.

  The control information receiver 104 of the remote controller 10a (remote controller 10b) receives the control information from the air conditioning setting controller 20 (step S12). The control information receiving unit 104 sends the received control information to the air conditioner control unit 106. The air conditioner control unit 106 controls the indoor unit 30a (the indoor unit 30b) according to the instruction of the control information received from the setting information receiving unit 203 (step S13), and ends the process.

  When only the operation of bringing the ID card closer to the remote control 10a (the remote control 10b) is started, the ID information transmission unit 102 of the remote control 10a (the remote control 10b) controls the ID information in the air conditioning setting controller 20 in step S11. Send to In step S21, the ID information receiving unit 201 of the air conditioning setting controller 20 receives the ID information from the remote control 10a (remote control 10b) (step S21). In this case, steps S22 and S28 may be omitted.

  As described above, according to the air conditioning management system 100 of the embodiment, in an environment where there are one or more air conditioners and multiple users exist, the air conditioning setting for each user is registered and the user who operated is specified. By doing this, regardless of the setting when the air conditioner was used last time, the user can easily operate the air conditioner with the setting of preference without the trouble of changing the setting.

  In the above-mentioned embodiment, although a user performs starting operation to the air conditioner under stop via remote control 10a (remote control 10b), it does not restrict to this. Even for an air conditioner in operation, the user may change the air conditioning setting by performing an operation to bring the ID card closer to the antenna 16 of the remote control 10a (remote control 10b). The operation of the process in this case will be described with reference to the flowchart of FIG. The ID information transmission unit 102 of the remote controller 10a (remote controller 10b) transmits the ID information to the air conditioning setting controller 20 when the operation to bring the ID card closer is performed during operation of the air conditioner (step S11). When the ID information reception unit 201 of the air conditioning setting controller 20 receives the operation information including the ID information from the remote control 10a (the remote control 10b) (step S21, step S22; YES), the ID information transmission unit 202 transmits the ID information to the server 50. (Step S23). The server 50 executes the processes of steps S31 to S35.

  When the setting information receiving unit 203 of the air conditioning setting controller 20 receives the setting information of the user from the server 50 (step S24, step S25; YES), the control information transmitting unit 204 performs control to instruct the operation in the air conditioning setting of the user. Information is generated (step S26) and transmitted to the remote control 10a (remote control 10b) (step S29). When the control information receiver 104 of the remote controller 10a (remote controller 10b) receives the control information from the air conditioning setting controller 20 (step S12), the air conditioner controller 106 follows the instruction of the control information received by the setting information receiver 203. The air conditioning setting of the machine 30a (the indoor unit 30b) is changed to the air conditioning setting of the user (step S13).

  In the above-mentioned embodiment, although the air-conditioning setting for every user registered into setting information is one, it does not restrict to this. For example, the air conditioning setting may be changed for each season. Further, whether to change the air conditioning setting may be set.

  FIG. 11 is a diagram showing another example of setting information according to the embodiment. The setting information stored in the setting information storage unit 502 is added to the items of “ID”, “user name”, “operation mode”, “temperature”, “dehumidification”, “wind speed” and “wind direction” shown in FIG. The “season” indicating the classification of the season and the “change” indicating the possibility of changing the air conditioning setting are included. Here, the setting information having an “ID” of 01 is not individual setting information but standard setting information. As long as it is information for identifying a user, only one item of “ID” and “user name” may be used.

  In the setting information in the example of FIG. 11, the air conditioning setting of each of spring, summer, autumn, and winter is registered for each user. For example, in the standard setting information of “ID” 01, the summer and winter air conditioning settings can be changed by the user, but the spring and autumn air conditioning settings can not be changed by the user. Further, in the setting information of the individual (ID Taro Yamada) whose "ID" is 02, the "operation mode" in spring and autumn can not be set. As described above, whether to set or not may be determined in advance for each item.

  Thus, by enabling the user to set the air conditioning for each season by the user, it is not necessary to log in to the server one by one at the turn of the season when the operation mode to be used changes and to change one's air conditioning setting. improves. Moreover, management is facilitated by restricting the change of the air conditioning setting by the user every season. The dividing period is not limited to every season, and may be every month, for example. When adding an item of a dividing period such as "season" to the setting information, the air conditioning setting controller 20 or the remote control 10a (remote control 10b) includes a timer and a calendar, and determines the current season or month.

  Also, the function restriction method that can be used by the user is not limited to this. For example, the user is classified into ranks such as a management user, a general user, a guest user, etc., and restriction is given to items whose settings can be changed according to the rank. May be Alternatively, restrictions may be provided depending on the place. The range of management can be expanded by finely adjusting how to limit the function.

  In the above embodiment, the remote control 10a (remote control 10b) includes the reading unit 15 and the antenna 16, and the antenna 16 and the reading unit 15 read the ID information of the ID card possessed by the user, but the invention is not limited thereto. For example, the reading unit 15 may be a magnetic card reader. In this case, the user holds a magnetic card in which ID information indicating an ID for identifying the user is stored. When the user passes the magnetic card through the reading unit 15 (magnetic card reader), the reading unit 15 reads the ID information and activates the air conditioner. In this configuration, the remote control 10 a (remote control 10 b) does not include the antenna 16.

  FIG. 12 is a view showing another example of the appearance of the remote controller according to the embodiment. The display unit 11, the input unit 13, and the reading unit 15 (magnetic card reader) are exposed outside the housing of the remote control 10a (remote control 10b). As shown in FIG. 12, the sliding direction of the magnetic card may be displayed adjacent to the portion of the reading unit 15 (magnetic card reader) of the housing of the remote control 10a (remote control 10b).

  Thus, the present invention can be applied even in an environment where management of users is performed by a magnetic card. The reading unit 15 is not limited to this. For example, in an environment where biometric authentication is introduced as a user management method, the reading unit 15 is changed to a biometric authentication device, and a user is used instead of ID information for identifying the user. Specific biometric information may be used. Whether the identification information for identifying the user is ID information or biometric information unique to the user, the ID reading unit 101 can acquire identification information for identifying the user.

  In the above-mentioned embodiment, although remote control 10a (remote control 10b) memorizes information last time, air conditioning setting controller 20 may memorize not only this but last time information. In this case, when the control information transmission unit 204 receives the operation information from the operation information reception unit 205, the control information transmission unit 204 reads the previous information and generates control information for instructing the operation at the previous air conditioning setting. Further, the previous information is not limited to the information indicating the air conditioning setting at the time of the previous activation, and may be information indicating the air conditioning setting at the end of the previous operation. In addition, the control information transmission unit 204 of the air conditioning setting controller 20 may transmit the control signal directly to the air conditioner without using the remote control 10a (remote control 10b).

  In the above-mentioned embodiment, although the air-conditioning setting controller 20 and the server 50 were each demonstrated as another hardware, you may be the structure which implement | achieves both functions on one hardware. Further, the functions of the remote controller 10a (remote controller 10b), the air conditioning setting controller 20 and the server 50 may be realized on one hardware.

  In addition, when the above-mentioned function is realized by sharing the OS (Operating System) and the application, or by cooperation between the OS and the application, only the part other than the OS may be stored in the medium.

  Furthermore, it is also possible to superimpose each program on a carrier wave and distribute it via a communication network. For example, the program may be posted on a bulletin board (BBS, Bulletin Board System) on a communication network, and the program may be distributed via the network. Then, these programs may be activated, and may be configured to be able to execute the above-described processing by executing them as other application programs under control of the OS.

  10a, 10b remote controller (remote control), 11 display units, 12 microcomputers, 13 input units, 14 communication units, 15 reading units, 16 antennas, 20 air conditioning setting controllers, 21 display units, 22 microcomputers, 23 input units, 24 first Communication unit, 25 second communication unit, 26 second storage unit, 27 external I / O, 30a, 30b indoor unit, 40 outdoor unit, 50 server, 51 processing unit, 52 communication unit, 53 second storage unit, 54 external I / O, 60 hub, 70 user terminal, 100 air conditioning management system, 101 ID reading unit, 102 ID information transmitting unit, 103 operation information transmitting unit, 104 control information receiving unit, 105 previous information storage unit, 106 air conditioner control unit , 201 ID information receiving unit, 202 ID information transmitting unit, 203 setting information receiving unit, 204 control information transmitting unit, 205 operation information reception unit, 501 ID information reception unit, 502 setting information storage unit, 503 setting information transmission unit.

Claims (9)

A remote controller individually installed corresponding to an air conditioning indoor unit,
An identification information acquisition unit that acquires identification information to be disclosed when a user activates the air conditioning indoor unit, and identifies the user who activates the air conditioning indoor unit;
An identification information transmission unit that transmits the identification information acquired by the identification information acquisition unit to an air conditioning management device;
And the identification information control information for instructing the operation of the air conditioning indoor unit that is generated on the basis the user of the air conditioning setting identifies the control information receiving unit that receives from the air conditioning management apparatus in the air conditioning management apparatus,
An air conditioner control unit configured to control the air conditioning indoor unit according to the control information received by the control information receiving unit;
Remote controller. The identification information acquisition unit is an RFID tag reader, and
The identification information is ID information identifying the user stored in an RFID tag embedded in an ID card possessed by the user.
The remote controller according to claim 1 . The identification information acquisition unit is a magnetic card reader, and
The identification information is ID information identifying the user stored in a magnetic card possessed by the user.
The remote controller according to claim 1 . The identification information acquisition unit is a biometric authentication device, and
The identification information is biometric information unique to the user.
The remote controller according to claim 1 . Identification that receives user information specified by identification information disclosed when a user starts the air conditioning indoor unit , generated from the remote controller separately installed corresponding to the air conditioning indoor unit, from the remote controller An information receiver,
A setting information storage unit that stores setting information indicating an air conditioning setting of an individual associated with the user, identified by the identification information;
A control information transmission unit that generates control information for instructing the operation of the air conditioning indoor unit based on the setting information and transmits the control information to the remote controller;
Air conditioning management device. An operation information receiving unit for receiving operation information for starting the activation of the air conditioning indoor unit transmitted instead of the user information from the remote controller.
When the operation information reception unit receives the operation information, the control information transmission unit generates control information that instructs operation with either the air conditioning setting at the time of previous activation or the air conditioning setting at the end of the previous operation. And send to the remote controller,
The air conditioning management device according to claim 5 . Identification that receives user information specified by identification information disclosed when a user starts the air conditioning indoor unit, generated from the remote controller separately installed corresponding to the air conditioning indoor unit, from the remote controller An information receiver,
A setting information storage unit that stores individual setting information indicating the individual air conditioning setting associated with the user identified by the identification information, and standard setting information indicating the default air conditioning setting ;
When the setting information storage unit stores setting information of an individual associated with the user, which is identified by the identification information, operation of the air conditioning indoor unit is performed using the setting information of the individual. The control information to be instructed is generated and transmitted to the remote controller, and the setting information storage unit does not store the setting information of the individual associated with the user, which is identified by the identification information. A control information transmission unit that generates the control information using standard setting information and transmits the control information to the remote controller;
Air conditioning management device. The setting information storage unit stores an air conditioning setting corresponding to each season for each user.
The air conditioning management device according to any one of claims 5 to 7 . The setting information storage unit stores whether or not the air conditioning setting for each user can be changed.
The air conditioning management device according to any one of claims 5 to 8 .

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