WO2019058570A1 - Serveur, procédé de traitement d'informations, système réseau, et épurateur d'air - Google Patents

Serveur, procédé de traitement d'informations, système réseau, et épurateur d'air Download PDF

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Publication number
WO2019058570A1
WO2019058570A1 PCT/JP2017/047329 JP2017047329W WO2019058570A1 WO 2019058570 A1 WO2019058570 A1 WO 2019058570A1 JP 2017047329 W JP2017047329 W JP 2017047329W WO 2019058570 A1 WO2019058570 A1 WO 2019058570A1
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WIPO (PCT)
Prior art keywords
server
air purifier
cpu
data
communication interface
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PCT/JP2017/047329
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English (en)
Japanese (ja)
Inventor
浩平 森田
達也 西尾
大輔 森内
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シャープ株式会社
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Priority to JP2019542964A priority Critical patent/JP6975795B2/ja
Priority to CN201780093445.0A priority patent/CN111108489A/zh
Publication of WO2019058570A1 publication Critical patent/WO2019058570A1/fr

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/50Control or safety arrangements characterised by user interfaces or communication
    • F24F11/54Control or safety arrangements characterised by user interfaces or communication using one central controller connected to several sub-controllers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F13/00Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units

Definitions

  • the present invention relates to the art of air purifiers, and more particularly to the art of air purifiers connected to a network.
  • Patent Document 1 Japanese Unexamined Patent Publication No. 2017-67427
  • the cloud server stores the room temperature history information indicating the history of room temperature change in the room where the air conditioner adjusts the temperature, in association with the operation history information indicating the operation history of the air conditioner, and the environment history DB
  • the room environment prediction unit predicts the future room temperature of the room when the air conditioner does not adjust the temperature based on the room temperature history information and the operation history information, and the room temperature prediction unit according to the room temperature prediction room temperature.
  • An air conditioning setting unit that determines control parameters of an air conditioner, which is used to cause the room temperature of the living room to reach a predetermined target temperature at a predetermined target time.
  • An object of the present invention is to provide a technique for more efficiently controlling an air purifier using a network.
  • the operation content of the air purifier is determined based on a communication interface for acquiring environmental data and receiving sensor detection results from the air purifier, and based on the environmental data and the detection results.
  • a server comprising: a processor for transmitting operating content to an air purifier via a communication interface.
  • FIG. 1 is an image diagram showing an entire configuration and an operation outline of a network system 1 according to a first embodiment. It is a block diagram showing composition of server 100 concerning a 1st embodiment. It is an image figure which shows the apparatus management data 121 concerning 1st Embodiment. It is an image figure showing operation pattern data 122 concerning a 1st embodiment. It is an image figure showing combination data 123 concerning a 1st embodiment. It is an image figure showing the specification method of the 1st driving pattern concerning a 1st embodiment. It is an image figure showing the specification method of the 2nd driving pattern concerning a 1st embodiment. It is an image figure showing processing when two or more driving patterns concerning a 1st embodiment correspond.
  • the network system 1 mainly includes a server 100 for home appliance management, an information server 100B handling various information, and an air purifier 200 connectable to the server 100 via the Internet, a router, and the like. It includes communication terminals such as a smartphone 300 that can be connected to the server 100 via the Internet, a router, and the like.
  • the air cleaner 200 can adjust the sensitivity of a sensor for detecting dust and odor.
  • communication terminals such as the smart phone 300 acquire the application program for controlling household appliances, such as the air cleaner 200.
  • the smartphone 300 acquires the application program for controlling household appliances, such as the air cleaner 200.
  • description will be made using the smartphone 300 as an example of a communication terminal, but the communication terminal is not limited to the smartphone 300, and may be another type of device such as a tablet, a game machine, a personal computer, etc. May be
  • the air purifier 200 measures the amount of dust sucked into the air purifier 200 and the amount of a predetermined gas using a dust sensor or an odor sensor.
  • the air cleaner 200 transmits the measurement result to the home appliance management server 100 (step S102).
  • the information server 100B acquires the weather, the temperature, the humidity, the amount of pollen, the amount of PM 2.5, and the like, and provides the information to the home appliance management server 100 (step S104).
  • the home appliance management server 100 performs optimum operation and optimum for each air cleaner 200 according to the indoor history as a measurement result of dust and odor from the air cleaner 200 and the outdoor information on the environmental status from the information server 100B. Sensitivity and the like are determined, and the information thereof is transmitted to the air cleaner 200 (step S106).
  • the air cleaner 200 changes the operation mode based on the information given from the home appliance management server 100, and sets the sensitivity of various sensors (step S108).
  • the server 100 transmits information suitable for the air purifier 200 to the air purifier 200 based on the data measured by the air purifier 200 and the data from the information server 100B. Can be provided.
  • the specific configuration of the network system 1 for realizing such a function will be described in detail.
  • the server 100 includes a central processing unit (CPU) 110, a memory 120, a display 130, an operation unit 140, a clock 150, and a communication interface 160 as main components.
  • CPU central processing unit
  • the CPU 110 controls each part of the server 100 by executing a program stored in the memory 120.
  • the CPU 110 executes a program stored in the memory 120, and executes various processes to be described later by referring to various data.
  • the memory 120 may be realized by various types of RAM (Random Access Memory), various types of ROM (Read-Only Memory), or the like, and may be included in the server 100 or removable from various interfaces of the server 100 Or a recording medium of another device accessible from the server 100.
  • the memory 120 is a program executed by the CPU 110, data generated by execution of the program by the CPU 110, input data, device management data 121, operation pattern data 122, combination data 123, and the like according to the present embodiment. It stores databases used for home appliance management services.
  • FIG. 3 is an image diagram showing the device management data 121 according to the present embodiment.
  • the device management data 121 is for remotely controlling the identification information of the air purifier 200, the user name of the air purifier 200, and the air purifier 200 for each of the registered air purifiers 200.
  • the identification information of the communication terminal such as the smart phone 300, the zip code of the user, the address of the user, and information such as whether or not to perform automatic driving by the server 100, and the like are included.
  • the device management data 121 may include the type and model number of the air purifier 200, the instruction being executed, the time until filter replacement, and other information.
  • FIG. 4 is an image diagram showing the driving pattern data 122.
  • the driving pattern data 122 includes, for each driving pattern, the correspondence between the type of driving mode suitable and the sensitivity of various sensors.
  • FIG. 5 is an image diagram showing the combination data 123.
  • the combination data 123 includes, for each combination of operation patterns, the correspondence between the type of operation mode suitable and the setting sensitivities of various sensors. Note that a combination of three or more driving patterns may be set.
  • CPU 110 determines a first driving pattern based on data from information server 100B. For example, based on the data from the information server 100B, the CPU 110 operates for "many pollen (yellow sand)" when there are “many” and “very many” pollen based on the information on the pollen of the tomorrow's weather forecast. Choose The CPU 110 selects the operation for “many pollen (yellow sand)” when yellow sand is “large” based on the information from the information server 100B based on the information on yellow sand of the tomorrow's weather forecast.
  • the CPU 110 selects the operation for "more PM2.5” in the case of "attention” or “alarm” based on the information about PM2.5 of the weather forecast for tomorrow based on the data from the information server 100B. .
  • the CPU 110 is based on data from the information server 100B from May to September, based on the information on the humidity and re-temperature of the weather forecast for tomorrow, with an average humidity of 80% or more and a maximum temperature of 15 degrees or more.
  • the operation for "high temperature and humidity (seasonal rain)” is selected.
  • the CPU 110 "Drying" is selected.
  • the CPU 110 determines a second operation pattern suitable for the air purifier 200 according to the number of times the dust sensor of the air purifier 200 has reacted within one week. For example, with respect to the air cleaner 200 in the "normal (dust history)" operation, the dust sensor has reacted only 14 times or less (preferably 10 times or less, more preferably 7 times or less) within one week. The CPU 110 determines the “low dust (previous)” operation with respect to the air cleaner 200.
  • the CPU 110 determines whether the dust sensor responds 35 times or more (preferably 50 times or more, more preferably 70 times or more) within one week with respect to the air cleaner 200 during the "low dust contamination (history)" operation.
  • the CPU 110 determines a third operation pattern suitable for the air purifier 200 according to the number of times the odor sensor of the air purifier 200 has reacted within one week. For example, with respect to the air cleaner 200 in the “normal odor” (historical) operation, the odor sensor only responds 14 times or less (preferably 10 times or less, more preferably 7 times or less) within one week. The CPU 110 determines that the air purifier 200 is in a “low odor stain (history)” operation.
  • the CPU 110 determines whether the odor sensor responds 35 times or more (preferably 50 times or more, more preferably 70 times or more) within one week with respect to the air cleaner 200 in the “low odor stain (history)” operation.
  • a user may set these settings with respect to air cleaner 200 itself.
  • the number of times of the threshold may be changed to a preferable value according to the season or the weather by the server 100, or the user may be able to set the air purifier 200 itself.
  • the operation mode and the sensitivity are determined based on the combination data shown in FIG.
  • the driving pattern is selected according to the priority set by environment, weather, etc., or the priority set by the user.
  • combination data of the first driving patterns may be prepared.
  • the display 130 displays text or an image based on a signal from the CPU 110.
  • the operation unit 140 receives an instruction from a service administrator or the like, and inputs the instruction to the CPU 110.
  • the clock 150 inputs the current time to the CPU 110, and measures an elapsed time from a designated timing.
  • the communication interface 160 transmits data from the CPU 110 to other devices such as the air purifier 200 and the smartphone 300 via the Internet, a carrier network, a router, and the like. Conversely, the communication interface 160 receives data from other devices such as the air purifier 200 and the smartphone 300 via the Internet, a carrier network, a router, etc., and passes it to the CPU 110. In the present embodiment, CPU 110 acquires data on the operation history from air purifier 200 via communication interface 160, and transmits data on the designation of the operation mode and the specification of the sensitivity of the sensor to air purifier 200. .
  • the CPU 110 extracts the ID of the air purifier 200 from the received data (step S102).
  • the CPU 110 acquires information on detection of dust and odor by the air cleaner 200 from the received data, for example, information indicating detection and the number of times of detection, amount and degree of the detected dust and odor, etc.
  • the information is stored in the memory 120 in association with the identification information of the purifier 200 (step S104).
  • the server 100 may accumulate the type, strength, time, and the like of driving as a history.
  • the CPU 110 extracts the ID of the air purifier 200 from the received data (step S152).
  • the CPU 110 refers to the device management data 121 to identify the area where the air purifier 200 is disposed (step S154).
  • the CPU 110 acquires environmental data of the area of the air purifier 200 from the information server 100B via the communication interface 160 (step S156).
  • the CPU 110 refers to the memory 120 to read out history data on dust and odor related data on the air purifier 200 (step S158).
  • the CPU 110 specifies an operation pattern suitable for the target air purifier 200 based on the history data and the data of the regional environment (step S160).
  • the CPU 110 transmits the operation mode and the sensitivity of various sensors corresponding to the specified operation pattern to the air purifier 200 via the communication interface 160 (step S162).
  • the air cleaner 200 includes, as main components, a CPU 210, a memory 220, a display 230, an operation unit 240, a clock (timer) 250, a communication interface 260, a dust detection sensor 271, and an odor. It includes various sensors such as a detection sensor 272, an infrared light receiving unit 280, and a device driving unit 290.
  • the CPU 210 controls each part of the air purifier 200 by executing a program stored in the memory 220 or an external storage medium.
  • the memory 220 may be realized by various types of RAM, various types of ROM, etc., and may be included in the air purifier 200 or may be removable from various interfaces of the air purifier 200. Or the recording medium of another device accessible from the air purifier 200.
  • the memory 220 receives a program executed by the CPU 210, data generated by execution of the program by the CPU 210, data input through the operation unit 240, data received from a remote control, and data received from the server 100 through a router or the Internet.
  • the stored data, setting data 221 related to the operation content, and the like are stored.
  • the setting data 221 includes, as shown in FIG. 12, an operation mode according to the operation pattern, the sensitivity of the dust detection sensor 271, the setting of the sensitivity of the odor detection sensor 272, and the like.
  • the memory 220 stores, as setting data 221, setting data as initial data included in the firmware in advance and setting data suitable for the operation mode from the server 100. More specifically, although the setting data as initial data and the setting data 221 suitable for the operation mode acquired from the server 100 remain stored even after the power is turned off, the setting data 221 acquired from the server 100 does not require power. If you turn it off, it may disappear.
  • the display 230 outputs characters, images, and the like based on the signal from the CPU 210.
  • the display 230 may simply be an LED light or the like.
  • the operation unit 240 is realized by a button, a touch panel, or the like, receives an instruction from the user, and inputs the instruction to the CPU 210.
  • the operation unit 240 includes a button 241 for starting automatic automatic operation by the server 100 or ending automatic automatic operation by the server 100, and the server 100. And a button 242 for setting whether or not to communicate with each other.
  • the display 230 and the operation unit 240 may constitute a touch panel.
  • the clock 250 inputs the current time to the CPU 210, and measures an elapsed time from a designated timing.
  • the communication interface 260 is realized by a communication module such as a wireless LAN or a wired LAN.
  • the communication interface 260 exchanges data with other devices by wired communication or wireless communication. That is, the CPU 210 receives various information from another device such as the server 100 or transmits various information to the other device via the communication interface 260. In the present embodiment, the CPU 210 transmits data relating to dust and odor to the server 100 via the communication interface 260, and receives from the server 100 the operation mode and the sensitivity of various sensors.
  • the dust detection sensor 271 detects dust contained in the sucked air and inputs a detection result to the CPU 210.
  • the odor detection sensor 272 detects a predetermined gas contained in the sucked air and inputs the detection result to the CPU 210.
  • the infrared light receiving unit 280 detects an infrared signal from a remote control or the like, and inputs a reception signal to the CPU 210.
  • the CPU 210 receives a power on / off command, other control commands, various data, and the like from the remote controller via the infrared light receiving unit 280.
  • the device drive unit 290 controls each part (a motor, a heater, and the like) of the air purifier 200 based on a signal from the CPU 210.
  • CPU 210 receives commands relating to various modes, air volume, wind direction, ion generation, and the like from server 100 via operation unit 240 or via communication interface 260, based on the commands. Control the device drive unit 290.
  • the CPU 210 changes the threshold value for determining that there is dust or odor based on the setting data 221 or the initial data. That is, the CPU 210 changes the threshold value for determining that dust or odor is present in the signals input from the dust detection sensor 271 or the odor detection sensor 272. For example, in the case of a setting with high sensitivity, the CPU 110 determines that there is dust and odor even with a small output value. Conversely, if the sensitivity is set to be low, the CPU 110 does not judge that dust or odor is present unless the output value is large to a certain extent.
  • step S202 the CPU 210 of the air cleaner 200 determines whether communication with the server 100 is enabled.
  • step S202 communication with server 100 is in a valid state (YES in step S 202)
  • CPU 210 determines whether automatic operation is automatically permitted to the user by server 100 via communication interface 260. In other words, it is inquired whether the user has input a permission command of automatic driving by the server to the application of the smartphone 300 (step S204).
  • the CPU 110 of the server 100 refers to the device management data 121 based on an inquiry from the air purifier 200, and determines whether or not automatic operation is permitted for the air purifier 200. , Send the result to the air purifier 200.
  • step S204 the server 100 stores information on whether or not automatic automatic driving using the setting data 221 from the server based on the setting from the smartphone 300 is permitted.
  • the information is written to the air conditioner 200 through the server 100, and the air purifier 200 is concerned for the determination of step S204. Information may be held.
  • the CPU 210 of the air cleaner 200 initializes the information together with the setting data 221 related to the operation content of FIG. 12 at “when an event for initializing the operation content occurs” such as step S 264 described later. It may be changed to a setting in which the information indicating whether or not to permit automatic driving is not permitted.
  • the CPU 210 of the air cleaner 200 starts the automatic driving using the server 100 when the automatic driving is permitted by the application of the smartphone 300 based on the response from the server 100 (in the case of YES in step S204). (Step S206).
  • step S208 if communication with server 100 has not been enabled (NO in step S202), or if the user has not input permission for automatic driving to the application of smartphone 300 (in step S204) In the case of NO), the CPU 210 starts the local automatic operation of the air purifier 200 (step S208).
  • step S252 the CPU 210 of the air purifier 200 periodically determines whether communication with the server 100 has been interrupted via the communication interface 260 (step S252).
  • CPU 210 determines whether or not the user has input a command for disabling communication with server 100 from operation unit 240. It judges (step S254).
  • CPU 210 determines whether the user has input an application for releasing the permission for automatic operation of the application of smartphone 300 or not. Is determined (step S256). If the application cancels the permission for automatic operation to the application has not been input (NO in step S256), the CPU 210 determines whether the end instruction for automatic automatic operation has been input via the operation unit 240 (Ste S258) When the end instruction of the automatic automatic driving is not input (NO in step S258), CPU 210 refers to clock 250 and determines whether or not a predetermined time has been reached (step S260). If the predetermined time has not been reached (NO in step S260), the CPU 210 stands by until the next timing. When the predetermined time is reached, the CPU 210 executes the processing from step S264 described later.
  • step S252 if communication with server 100 is interrupted (if YES at step S252), or if an instruction to invalidate communication with server 100 is input (if YES at step S254), Alternatively, when the user inputs an application for releasing permission for automatic driving to the application of smartphone 300 (YES in step S256), or when receiving an instruction for ending automatic driving via operation unit 240 (step S258) (If YES), the CPU 210 ends communication with the server 100 (step S262), and returns the operation mode and the sensitivities of various sensors to initial values (step 264). The CPU 210 stands by until the next timing.
  • the CPU 210 may invalidate communication with the server 100. That is, the CPU 110 may shift to a state where an instruction for disabling communication with the server 100 is input from the user via the button 242 of the operation unit 240.
  • the timing to initialize the setting data 221 related to the operation content in FIG. 12 is “when the automatic operation is released”, “when the automatic operation is started”, “(not by user operation) communication cut off "When a communication invalid command (by user operation) is input”, “When a permission release command is input”, “When a specific time is reached”, “Other specific command When the event for initializing the operation content occurs, such as when it is input, or when a predetermined error occurs, or when it corresponds to multiple conditions among them "” Is sufficient.
  • the air cleaner 200 or the server 100 satisfies any of these conditions, the setting data 221 related to the operation content, the data as to whether or not to allow the automatic operation, and the data with the server 100 It is preferable to restore data as to whether or not to exchange data, and other various data using the network to their initial values. This can reduce the possibility of continuing the operation which is not suitable for the current situation.
  • the smartphone 300 includes a CPU 310, a memory 320, a display 330, an operation unit 340, a clock 350, and a communication interface 360 as main components.
  • the CPU 310 controls each part of the smartphone 300 by executing a program stored in the memory 320.
  • the CPU 310 executes a program stored in the memory 320 and executes various processes described later by referring to various data.
  • the memory 320 may be realized by various types of RAM, various types of ROM, etc., and may be included in the smartphone 300, or may be removable from various interfaces of the smartphone 300. It may be a recording medium of another device accessible from The memory 320 may be various programs executed by the CPU 310, for example, a home appliance control application program, data generated by execution of the program by the CPU 310, data input from the operation unit 340, and other home appliance management services according to the present embodiment. Store data used for
  • the display 330 displays text or an image based on a signal from the CPU 310.
  • Operation unit 340 receives an instruction from a user or the like, and inputs the instruction to CPU 310.
  • the display 330 and the operation unit 340 may constitute a touch panel.
  • CPU 310 receives, via the touch panel, an instruction as to whether or not to allow the automatic operation using server 100 with respect to air purifier 200, through communication interface 260.
  • the command is transmitted to the server 100 via
  • the clock 350 inputs the current time to the CPU 310, and measures an elapsed time from a designated timing.
  • the communication interface 360 transmits data from the CPU 310 to other devices such as the server 100 and the air purifier 200 via the Internet, a carrier network, a router, and the like. Conversely, the communication interface 360 receives data from the other device via the Internet, a carrier network, a router, etc., and passes it to the CPU 310. For example, CPU 310 specifies, based on the data received from server 100 via communication interface 360, whether to accept the remote control instruction on display 330 based on the application program for remote control of the air purifier. A screen is displayed, and an instruction received from the user via the operation unit 340 is transmitted to the server 100 via the communication interface 360.
  • a network system capable of selecting a driving pattern, a driving mode, sensor sensitivity, etc. desired by the user is provided. This can reduce the possibility of driving that the user does not want.
  • the CPU 310 of the smartphone 300 selectively displays a plurality of operation patterns on the display 330 based on the downloaded home appliance management application, and the user via the operation unit 340 Accepts the specification of the desired driving pattern. Then, the smartphone 300 transmits the designation to the server 100.
  • the memory 120 of the server 100 stores the device management data 121B as shown in FIG.
  • the device management data 121B remotely controls the identification information of the air purifier 200, the user name of the air purifier 200, and the air purifier 200 for each air purifier 200 registered in the service.
  • the identification information of the communication terminal such as the smart phone 300, the user's postal code, the user's address, the specification of the operation pattern selectable at the time of automatic operation by the server 100, and whether or not the automatic operation by the server 100 is performed It includes correspondences such as information indicating some information.
  • the CPU 110 of the server 100 applies to the air cleaner 200 with reference to the device management data 121B when specifying the operation pattern.
  • the operation pattern suitable for the target air cleaner 200 is specified based on the past history data about dust and odor and the data of the local environment (step S160) ).
  • the CPU 210 executes various processes based on the firmware stored in advance in the memory 220.
  • the air cleaner 200 according to the present embodiment downloads and installs new firmware in response to an update request from the server 100 or the like.
  • the network system 1 also includes a server 100C for providing firmware. Since the configuration of server 100C is the same as that of server 100 shown in FIG. 2 of the first embodiment, the description thereof will not be repeated here. As a result, whenever a new function or process for the air purifier 200 is developed, the air purifier 200 acquires and updates new firmware from the server 100C, or the smartphone 300 acquires and updates a new application program. Will be able to
  • the server 100C transmits a firmware update request to the plurality of registered air purifiers 200 via the communication interface 160. Then, for example, when a new firmware is requested from the air purifier 200, the CPU 110 of the server 100C executes the process shown in FIG.
  • the CPU 110 reads the device ID of the air purifier 200 from the data from the air purifier 200 (step S172).
  • the CPU 110 reads firmware suitable for the type and model number of the air purifier 200 (step S178), and provides the firmware to the air purifier 200 via the communication interface 160 (step S180).
  • the CPU 210 of the air purifier 200 rewrites the memory 220, that is, updates the firmware, with the downloaded new firmware.
  • the user may be able to select the type of operation pattern or operation mode included in the firmware provided to the air purifier 200.
  • the CPU 110 reads out the device ID of the air purifier 200 from the data from the air purifier 200 (step S172)
  • the device management data 121B of the server 100 or other database is stored.
  • the operation pattern required for the air purifier 200 is specified with reference (step S176).
  • the CPU 110 assembles the firmware including the operation pattern (step S178B), and provides the firmware to the air purifier 200 via the communication interface 160 (step S180).
  • the operation pattern and the type of operation mode included in the firmware may be different according to the area or season in which the air cleaner 200 is disposed.
  • the server 100C stores regional driving pattern data 124 as shown in FIG. 24, or the server 100C is configured to be able to refer to the regional driving pattern data 124.
  • the regional driving pattern data 124 includes the corresponding relationship between the driving pattern ID, the content of the driving pattern, and information for specifying a region or time suitable for the driving pattern, for each driving pattern. Including.
  • the CPU 110 reads out the device ID of the air purifier 200 from the data from the air purifier 200 (step S172), the device management data 121 of the server 100 or other database is stored.
  • the area of the air cleaner 200 is specified with reference (step S174).
  • CPU110 specifies the driving
  • the CPU 110 assembles the firmware including the operation pattern corresponding to the area of the air purifier 200 and the preference of the user (step S 178 C), and provides the firmware to the air purifier 200 via the communication interface 160 (step S 180). .
  • Fourth Embodiment Other devices may execute some or all of the roles of the devices of the network system 1 according to the first to third embodiments. Specifically, another device plays a part or all of the roles of each of the server 100, the air cleaner 200, and the smartphone 300, or a part of each of the roles of the server 100, the air cleaner 200, and the smartphone 300 A plurality of devices may play the entire role, or any of the server 100, the air purifier 200, and the smart phone 300 may play some or all of the roles of any of the server 100, the air purifier 200, and the smart phone 300. .
  • the air purifier 200 acquires, from the server 100, information indicating whether or not the user has permitted automatic automatic operation using the server 100. Then (step S204), it is determined whether or not the automatic operation using the server 100 is to be started.
  • the CPU 110 of the server 100 refers to the device management data 121 after step S152, and with respect to the target air cleaner 200, the server receives the request via the corresponding communication terminal application. It may be determined whether automatic automatic driving is permitted (step S153).
  • step S153 if automatic automatic operation is permitted (in the case of YES in step S153), the CPU 110 executes the processing of S154 and subsequent steps, and if it is not permitted (in the case of NO in step S153)
  • the air cleaner 200 may not be provided with sensitivity.
  • the air purifier 200 may acquire information such as a weather forecast from the information server 100B via the Internet. Then, the air cleaner 200 executes the process as shown in FIG. That is, the CPU 210 of the air purifier 200 specifies the area where the air purifier 200 is disposed (step S254). The CPU 210 acquires environmental data of the area of the air purifier 200 from the information server 100B via the communication interface 260 (step S256).
  • the CPU 210 reads the history of dust and the history of odor regarding the air purifier 200 with reference to the memory 220 (step S258).
  • the CPU 210 specifies an operation pattern suitable for the air purifier 200 based on the past dust data and the data of the regional environment (step S260).
  • the CPU 110 resets the driving mode and the sensitivity of various sensors corresponding to the specified driving pattern (step S262).
  • the latest program for executing these processes is also preferably downloaded from the server 100C to the air purifier 200 as firmware.
  • the CPU 210 of the air purifier 200 may execute a process as shown in FIG. That is, the CPU 210 of the air purifier 200 reads the history of dust and the history of odor concerning the air purifier 200 with reference to the memory 220 (step S258). The CPU 210 specifies a second or third operation pattern suitable for the air purifier 200 based on the past dust and odor data (step S260). The CPU 110 resets the operation mode and the sensitivity of various sensors corresponding to the specified second or third operation pattern (step S262).
  • the CPU 110 of the server 100 may execute a process as shown in FIG. That is, the CPU 110 takes out the ID of the air purifier 200 from the received data (step S152). The CPU 110 reads the history of dust and the history of odor regarding the air purifier 200 with reference to the memory 120 (step S158). The CPU 110 specifies a second or third operation pattern suitable for the target air purifier 200 based on the data of the past dust (step S160). The CPU 110 transmits the operation mode and the sensitivity of various sensors corresponding to the specified second or third operation pattern to the air purifier 200 via the communication interface 160 (step S162).
  • the air cleaner 200 has been described as an example, the invention is not limited to the air cleaner 200, but an apparatus having an air conditioning function, an apparatus having a humidifying function, an apparatus having a dehumidifying function.
  • the above-described techniques such as an apparatus having an ion generation function, can be applied to air cleaners in a broad sense in general.
  • the operation content of the air purifier 200 based on the communication data 160 for acquiring environmental data and receiving the detection result of the sensor from the air purifier 200 and the environmental data and the detection result
  • a processor 110 for transmitting the operation content to the air purifier 200 via the communication interface 160.
  • the operating content includes sensitivity to dust and / or gas.
  • the processor 110 determines the operation content based on the history of detection results regarding dust and / or gas in a predetermined period.
  • the operation content of the air purifier 200 is determined based on the steps of acquiring environmental data, receiving the detection result of the sensor from the air purifier 200, and the environmental data and the detection result.
  • An information processing method is provided, comprising the steps of: transmitting the operation content to the air purifier 200.
  • the operation content of the air purifier 200 is determined based on the air purifier 200 that transmits the detection results of the sensors 251 and 252, the detection result from the air purifier 200, and the acquired environmental data. And a server 100 for determining and providing an operation content to the air purifier 200.
  • the network system 1 is provided.
  • the operation content is determined based on the communication interface 260 for acquiring environmental data, the sensors 251 and 252 for detecting dust and / or gas, and environmental data and detection results. And a processor 210 for providing an air purifier.
  • Network system 100 Home appliance management server 100B: Information server 100C: Firmware providing server 110: CPU 120: memory 121: device management data 121B: device management data 122: operation pattern data 123: combination data 124: regional operation pattern data 130: display 140: operation unit 150: clock 160: communication interface 200: air cleaner 210: CPU 220: memory 221: setting data 230: display 240: operation unit 241: button 242: button 250: clock 260: communication interface 264: step 271: dust detection sensor 272: odor detection sensor 280: infrared light receiver 290: device driver 300: Smartphone 310: CPU 320: Memory 330: Display 340: Operation unit 350: Clock 360: Communication interface

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Combustion & Propulsion (AREA)
  • General Physics & Mathematics (AREA)
  • Signal Processing (AREA)
  • Mathematical Physics (AREA)
  • Fuzzy Systems (AREA)
  • Human Computer Interaction (AREA)
  • Air Conditioning Control Device (AREA)
  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
  • Ventilation (AREA)

Abstract

La présente invention concerne un serveur (100) qui est équipé : d'une interface de communication (160) servant à acquérir des données environnementales, et à recevoir des résultats de détection d'un capteur en provenance d'un épurateur d'air (200) ; et d'un processeur servant à déterminer les contenus de fonctionnement de l'épurateur d'air (200) sur la base des données environnementales et des résultats de détection, et à transmettre les contenus de fonctionnement à l'épurateur d'air (200) par l'intermédiaire de l'interface de communication.
PCT/JP2017/047329 2017-09-20 2017-12-28 Serveur, procédé de traitement d'informations, système réseau, et épurateur d'air WO2019058570A1 (fr)

Priority Applications (2)

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JP2019542964A JP6975795B2 (ja) 2017-09-20 2017-12-28 サーバ、情報処理方法、ネットワークシステム、および空気清浄機
CN201780093445.0A CN111108489A (zh) 2017-09-20 2017-12-28 服务器、信息处理方法、网络系统以及空气净化器

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JP2017180203 2017-09-20
JP2017-180203 2017-09-20

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JP2021110470A (ja) * 2020-01-07 2021-08-02 三菱電機株式会社 空気清浄機及び空気清浄機制御システム
JPWO2020202295A1 (ja) * 2019-03-29 2021-10-21 三菱電機株式会社 遠隔監視装置および空気調和システム

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JP2002273089A (ja) * 2001-03-16 2002-09-24 Hitachi Ltd 電気洗濯機システム
JP2003065940A (ja) * 2001-06-12 2003-03-05 Matsushita Electric Works Ltd ダストセンサー及び空気清浄機
JP2004325040A (ja) * 2003-04-28 2004-11-18 Toshiba Corp サーバ装置および電子機器の運転制御方法
JP2013175882A (ja) * 2012-02-24 2013-09-05 Sharp Corp 携帯端末、その制御用プログラム、制御用装置、その制御用プログラム、および、制御システム
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JP2021110470A (ja) * 2020-01-07 2021-08-02 三菱電機株式会社 空気清浄機及び空気清浄機制御システム

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