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WO2021106199A1 - Dispositif d'aspiration, dispositif terminal, procédé de traitement d'informations, et programme - Google Patents

Dispositif d'aspiration, dispositif terminal, procédé de traitement d'informations, et programme Download PDF

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Publication number
WO2021106199A1
WO2021106199A1 PCT/JP2019/046815 JP2019046815W WO2021106199A1 WO 2021106199 A1 WO2021106199 A1 WO 2021106199A1 JP 2019046815 W JP2019046815 W JP 2019046815W WO 2021106199 A1 WO2021106199 A1 WO 2021106199A1
Authority
WO
WIPO (PCT)
Prior art keywords
suction device
information
unit
cleaning
information indicating
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/JP2019/046815
Other languages
English (en)
Japanese (ja)
Inventor
和俊 芹田
有香 菅野
雅俊 千住
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Japan Tobacco Inc
Original Assignee
Japan Tobacco Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Japan Tobacco Inc filed Critical Japan Tobacco Inc
Priority to JP2021561111A priority Critical patent/JP7206016B2/ja
Priority to PCT/JP2019/046815 priority patent/WO2021106199A1/fr
Priority to EP19953966.9A priority patent/EP3987955A4/fr
Priority to TW109108971A priority patent/TW202119948A/zh
Publication of WO2021106199A1 publication Critical patent/WO2021106199A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/85Maintenance, e.g. cleaning
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/53Monitoring, e.g. fault detection
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/65Devices with integrated communication means, e.g. wireless communication means
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/30Devices using two or more structurally separated inhalable precursors, e.g. using two liquid precursors in two cartridges

Definitions

  • the present invention relates to a suction device, a terminal device, an information processing method, and a program.
  • the suction device uses a base material containing an aerosol source for producing an aerosol, a flavor source for imparting a flavor component to the produced aerosol, and the like to generate an aerosol to which the flavor component is added.
  • the user can taste the flavor by sucking the aerosol to which the flavor component is added (hereinafter, also referred to as puff) generated by the suction device.
  • Patent Document 1 displays information recommending that the suction device be cleaned according to the number of times the suction device is used, and if the suction device is not cleaned, the suction device cannot be used. The technology to make it is disclosed.
  • the suction device may be equipped with only a simple output device such as a light emitting device as a device for notifying the user of information. Even if the information about cleaning was notified with limited expressiveness, it was sometimes difficult for the user to understand.
  • an object of the present invention is to provide a mechanism capable of improving usability regarding cleaning of a suction device.
  • the suction device is a wireless communication unit that wirelessly transmits and receives information, and information about the suction device is acquired and the acquired information about the suction device is acquired.
  • a suction device including a control unit that controls a process of transmitting information indicating the necessity of cleaning the suction device by the wireless communication unit based on the above.
  • the information about the suction device includes the number of preheatings performed by the suction device to allow the user to perform suction using the suction device, and the control unit has a first number of preheatings.
  • the wireless communication unit may be controlled to transmit the first information as information indicating the necessity of cleaning the suction device.
  • the number of preheatings may be initialized when a predetermined user operation is performed.
  • the control unit may count the number of times of the preheating when it is determined that the preheating is performed on the base material that contributes to the generation of the substance sucked by the user when heated. ..
  • the suction device may further include a storage unit, and the storage unit may store the number of times of the preheating.
  • the control unit transmits the second information as information indicating the necessity of cleaning the suction device.
  • the wireless communication unit may be controlled.
  • the information about the suction device is that when the suction device performs preheating to enable suction performed by the user using the suction device, the temperature of the object to be heated or the temperature of the heating unit that performs the preheating is determined.
  • the control unit includes the time required to reach the predetermined temperature.
  • the wireless communication unit may be controlled to transmit the first information as information indicating the necessity of cleaning the suction device.
  • the control unit may set the third threshold value based on the environmental temperature which is the ambient temperature of the suction device.
  • the control unit sets the suction device.
  • the wireless communication unit may be controlled to transmit the second information as the information indicating the necessity of cleaning.
  • the information about the suction device is that when the suction device performs preheating to enable suction performed by the user using the suction device, the temperature of the object to be heated or the temperature of the heating unit that performs the preheating is determined.
  • the control unit includes the power required to reach a predetermined temperature, and the control unit receives the temperature of the heating target or the power required to reach the predetermined temperature when the temperature of the heating unit reaches the fifth threshold value.
  • the wireless communication unit may be controlled to transmit the first information as information indicating the necessity of cleaning the suction device.
  • the control unit may set the fifth threshold value based on the environmental temperature which is the ambient temperature of the suction device.
  • the control unit uses the suction device when the temperature of the heating target or the electric power required for the temperature of the heating unit to reach the predetermined temperature reaches a sixth threshold value lower than the fifth threshold value.
  • the wireless communication unit may be controlled to transmit a second piece of information as information indicating the need for cleaning.
  • the suction device includes a notification unit that notifies the user of information, and the control unit provides information indicating the necessity of cleaning the suction device when the suction device and another device are wirelessly connected.
  • the notification unit controls the wireless communication unit so as to transmit to another device, and notifies information indicating the necessity of cleaning the suction device when the suction device and the other device are not wirelessly connected. May be controlled.
  • the control unit does not have to notify the information indicating the necessity of cleaning the suction device by the notification unit when the suction device and the other device are wirelessly connected.
  • the notification unit may include at least one of a display device, a light emitting device, a vibration device, and a sound output device.
  • the control unit may control the wireless communication unit to transmit information indicating a method for cleaning the suction device.
  • the information indicating the necessity of cleaning the suction device may include information regarding the timing of cleaning the suction device.
  • another viewpoint of the present invention indicates the necessity of cleaning the wireless communication unit for transmitting and receiving information wirelessly, the notification unit for notifying the user of the information, and the suction device.
  • a terminal device including a control unit that controls the notification unit to notify information indicating the necessity of cleaning the suction device when information is received from the suction device by the wireless communication unit is provided.
  • the terminal device further includes an input unit that accepts input of information, and the control unit does not clean the suction device after the notification unit notifies the user of information indicating the need to clean the suction device.
  • the control unit does not clean the suction device after the notification unit notifies the user of information indicating the need to clean the suction device.
  • the setting may be made to notify the information indicating the necessity of cleaning the suction device again.
  • control unit may control the notification unit to notify information indicating a method for cleaning the suction device.
  • control unit When the control unit receives information indicating the necessity of cleaning the suction device, the control unit may control the wireless communication unit to transmit information requesting information indicating a method of cleaning the suction device.
  • control unit When the control unit receives information indicating the need to clean the suction device, the control unit wirelessly transmits information requesting information on a store that sells cleaning supplies used for cleaning the suction device.
  • the communication unit may be controlled.
  • control unit When the control unit receives information about the suction device from the suction device, the control unit may control a process of notifying the notification unit of information indicating the necessity of cleaning the suction device.
  • an information processing method executed by the suction device that is, acquisition of information about the suction device, and the acquired suction device.
  • Information processing methods are provided that include controlling a process of wirelessly transmitting information indicating the need to clean the suction device based on the information.
  • information indicating the necessity of cleaning the suction device which is a method executed by the terminal device, is wirelessly received from the suction device.
  • information processing methods are provided that include notifying information indicating the need to clean the suction device.
  • the computer that controls the suction device acquires and acquires information about the wireless communication unit that wirelessly transmits and receives information and the suction device.
  • a program for functioning as a control unit that controls a process of transmitting information indicating the necessity of cleaning the suction device based on the information about the suction device by the wireless communication unit is provided.
  • a wireless communication unit for transmitting and receiving information wirelessly, a notification unit for notifying the user of information, and a suction device.
  • a mechanism capable of improving usability regarding cleaning of the suction device is provided.
  • FIG. 1 It is a schematic diagram which shows typically the tenth structural example of a suction device. It is a block diagram which shows an example of the structure of the system which concerns on one Embodiment of this invention. It is a sequence diagram which shows an example of the flow of the notification processing of the cleaning necessity information executed by the system which concerns on this embodiment.
  • the suction device is a device that produces a substance that is sucked by the user.
  • the substance produced by the suction device will be described as being an aerosol.
  • the substance produced by the suction device may be a gas.
  • the user sucking the substance produced by the suction device is also simply referred to as "suction" or "puff".
  • a plurality of elements having a corresponding functional configuration are given a reference code including the same number to clearly indicate the correspondence, and the alphabet corresponding to the configuration example is added after the number. May be added to distinguish each element.
  • each of the suction devices according to the plurality of configuration examples is referred to as a suction device 100A according to the first configuration example, a suction device 100B according to the second configuration example, and a suction device 100D according to the third configuration example. Then, each is distinguished while clearly indicating the correspondence.
  • the reference code including the same number may be attached.
  • the suction device 100A according to the first configuration example when it is not necessary to distinguish the suction device 100A according to the first configuration example, the suction device 100B according to the second configuration example, and the suction device 100D according to the third configuration example, these are simply sucked. Also referred to as device 100.
  • the base material integrated suction device is a suction device in which a base material including an aerosol source is integrated with the suction device.
  • the first to third configuration examples described below are configuration examples of a base material-integrated suction device.
  • the suction device according to this configuration example produces an aerosol by heating an aerosol source as a liquid.
  • the suction device according to this configuration example consists of two parts, a power supply unit and a cartridge.
  • this configuration example will be described with reference to FIG.
  • FIG. 1 is a schematic view schematically showing a first configuration example of the suction device.
  • the suction device 100A according to this configuration example includes a power supply unit 110A and a cartridge 120A.
  • the power supply unit 110A and the cartridge 120A are configured to be detachable from each other. The suction by the user is performed with the cartridge 120A attached to the power supply unit 110A.
  • the power supply unit 110A includes a power supply unit 111A, a sensor unit 112A, a notification unit 113A, a storage unit 114A, a communication unit 115A, and a control unit 116A.
  • the cartridge 120A includes a heating unit 121A, a liquid induction unit 122A, a liquid storage unit 123A, and a mouthpiece 124A.
  • An air flow path 180A is formed in the cartridge 120A.
  • each component will be described in order.
  • the power supply unit 111A stores electric power. Then, the power supply unit 111A supplies electric power to each component of the suction device 100A.
  • the power supply unit 111A may be composed of, for example, a rechargeable battery such as a lithium ion secondary battery.
  • the power supply unit 111A may be charged by being connected to an external power supply by a USB (Universal Serial Bus) cable or the like. Further, the power supply unit 111A may be charged in a state of being disconnected from the device on the power transmission side by the wireless power transmission technology. Alternatively, only the power supply unit 111A may be removed from the suction device 100A, or may be replaced with a new power supply unit 111A.
  • the sensor unit 112A detects various information related to the suction device 100A. Then, the sensor unit 112A outputs the detected information to the control unit 116A.
  • the sensor unit 112A is composed of a pressure sensor such as a microphone capacitor. Then, when the sensor unit 112A detects the negative pressure accompanying the suction by the user, the sensor unit 112A outputs information indicating that the suction by the user has been performed to the control unit 116A.
  • the sensor unit 112A is composed of an input device such as a button or a switch that receives input of information from the user. In particular, the sensor unit 112A may include a button instructing the start / stop of aerosol production. Then, the sensor unit 112A outputs the information input by the user to the control unit 116A.
  • the notification unit 113A notifies the user of the information.
  • the notification unit 113A is composed of a light emitting device such as an LED (Light Emitting Diode). In that case, the notification unit 113A emits light in different light emission patterns when the state of the power supply unit 111A requires charging, when the power supply unit 111A is charging, or when an abnormality occurs in the suction device 100A. ..
  • the light emission pattern here is a concept including color, lighting / extinguishing timing, and the like.
  • the notification unit 113A may be composed of a display device for displaying an image, a sound output device for outputting sound, a vibrating vibration device, or the like, together with or in place of the light emitting device.
  • the storage unit 114A stores various information for the operation of the suction device 100A.
  • the storage unit 114A is composed of a non-volatile storage medium such as a flash memory.
  • An example of the information stored in the storage unit 114A is information related to the OS (Operating System) of the suction device 100A, such as the control contents of various components by the control unit 116A.
  • Another example of the information stored in the storage unit 114A is information related to suction by the user, such as the number of suctions, the suction time, and the cumulative suction time.
  • the communication unit 115A is a communication interface for transmitting and receiving information between the suction device 100A and another device.
  • the communication unit 115A performs communication conforming to any wired or wireless communication standard.
  • a communication standard for example, wireless LAN (Local Area Network), wired LAN, Wi-Fi (registered trademark), Bluetooth (registered trademark), or the like can be adopted.
  • the communication unit 115A transmits the information on the suction by the user to the smartphone in order to display the information on the suction by the user on the smartphone.
  • the communication unit 115A receives new OS information from the server in order to update the OS information stored in the storage unit 114A.
  • the control unit 116A functions as an arithmetic processing unit and a control device, and controls the overall operation in the suction device 100A according to various programs.
  • the control unit 116A is realized by, for example, an electronic circuit such as a CPU (Central Processing Unit) and a microprocessor.
  • the control unit 116A may include a ROM (Read Only Memory) that stores a program to be used, calculation parameters, and the like, and a RAM (Random Access Memory) that temporarily stores parameters and the like that change as appropriate.
  • the suction device 100A executes various processes based on the control by the control unit 116A.
  • Information transmission / reception is an example of processing controlled by the control unit 116A.
  • Other processes executed by the suction device 100A, such as input of information to each component and processing based on the information output from each component, are also controlled by the control unit 116A.
  • the liquid storage unit 123A stores the aerosol source.
  • the aerosol source is atomized by heating to produce an aerosol. Aerosol sources are, for example, polyhydric alcohols such as glycerin and propylene glycol, and liquids such as water.
  • the aerosol source may further comprise a tobacco ingredient or an extract derived from the tobacco ingredient that releases the flavor component upon heating. If the aspirator 100A is a medical inhaler such as a nebulizer, the aerosol source may include a drug for the patient to inhale.
  • the liquid induction unit 122A guides and holds the aerosol source, which is the liquid stored in the liquid storage unit 123A, from the liquid storage unit 123A.
  • the liquid induction portion 122A is a wick formed by twisting, for example, a fiber material such as glass fiber or a porous material such as a porous ceramic.
  • the liquid induction unit 122A communicates with the liquid storage unit 123A. Therefore, the aerosol source stored in the liquid storage unit 123A spreads throughout the liquid induction unit 122A due to the capillary effect of the wick.
  • the heating unit 121A heats the aerosol source to atomize the aerosol source and generate an aerosol.
  • the heating unit 121A is made of an arbitrary material such as metal or polyimide in an arbitrary shape such as a coil shape, a film shape or a blade shape.
  • the heating unit 121A is arranged close to the liquid induction unit 122A.
  • the heating unit 121A is composed of a metal coil and is wound around the liquid induction unit 122A. Therefore, when the heating unit 121A generates heat, the aerosol source held by the liquid induction unit 122A is heated and atomized to generate an aerosol.
  • the heating unit 121A generates heat when power is supplied from the power supply unit 111A.
  • a power may be supplied to generate an aerosol during a period in which the sensor unit 112A detects that suction has been performed by the user.
  • a predetermined user input for example, pressing a button instructing the start / stop of aerosol generation
  • power is supplied and the aerosol is generated. Good.
  • the power supply may be stopped.
  • the air flow path 180A is a flow path of air sucked by the user.
  • the air flow path 180A has a tubular structure having an air inflow hole 181A which is an inlet of air into the air flow path 180A and an air outflow hole 182A which is an outlet of air from the air flow path 180A at both ends. With suction by the user, air flows into the air flow path 180A from the air inflow hole 181A, and air flows out from the air outflow hole 182A to the outside of the air flow path 180A.
  • the air inflow hole 181A may be a gap formed between the power supply unit 110A and the cartridge 120A with the cartridge 120A attached to the power supply unit 110A.
  • the air outflow hole 182A is arranged in the mouthpiece 124A.
  • a liquid guiding unit 122A is arranged in the middle of the air flow path 180A.
  • the aerosol generated by the heating unit 121A is mixed with the air flowing in from the air inflow hole 181A. Then, along with the suction by the user, the mixed fluid of the aerosol and the air is transported to the air outflow hole 182A as shown by the arrow 190A.
  • the mouthpiece 124A is a member that can be held by the user during suction.
  • An air outflow hole 182A of the air flow path 180A is arranged in the mouthpiece 124A.
  • the suction device according to this configuration example produces an aerosol by heating an aerosol source as a liquid.
  • the suction device according to this configuration example includes three parts, a power supply unit, a cartridge, and a flavoring cartridge.
  • this configuration example will be described with reference to FIG.
  • FIG. 2 is a schematic view schematically showing a second configuration example of the suction device.
  • the suction device 100B according to this configuration example includes a power supply unit 110B, a cartridge 120B, and a flavoring cartridge 130.
  • the power supply unit 110B and the cartridge 120B are configured to be detachable from each other.
  • the cartridge 120B and the flavor-imparting cartridge 130 are configured to be detachable from each other.
  • the suction by the user is performed with the cartridge 120B, the flavoring cartridge 130, and the power supply unit 110B attached to each other.
  • the power supply unit 110B includes a power supply unit 111B, a sensor unit 112B, a notification unit 113B, a storage unit 114B, a communication unit 115B, and a control unit 116B.
  • the cartridge 120B includes a heating unit 121B, a liquid induction unit 122B, and a liquid storage unit 123B.
  • the flavoring cartridge 130 includes a flavor source 131 and a mouthpiece 124B.
  • An air flow path 180B is formed in the cartridge 120B and the flavoring cartridge 130.
  • Each component of the power supply unit 110B is substantially the same as the corresponding component included in the suction device 100A according to the first configuration example.
  • Each of the heating unit 121B, the liquid guiding unit 122B, the liquid storage unit 123B, and the mouthpiece 124B are substantially the same as the corresponding components included in the suction device 100A according to the first configuration example.
  • the flavor source 131 is a component for imparting a flavor component to the aerosol.
  • the flavor source 131 may be derived from tobacco, such as a processed product obtained by molding chopped tobacco or a tobacco raw material into granules, sheets, or powder.
  • the flavor source 131 may include those derived from non-tobacco, which are made from plants other than tobacco (for example, mint and herbs).
  • the flavor source 131 may contain a perfume component such as menthol.
  • the flavor source 131 may be arranged inside a container such as a capsule.
  • the air flow path 180B has the same configuration as the air flow path 180A according to the first configuration example. However, in the middle of the air flow path 180B, in addition to the liquid guiding portion 122B, the flavor source 131 is arranged on the downstream side (the side close to the air outflow hole 182B) of the liquid guiding portion 122B.
  • the aerosol generated by the heating unit 121B is mixed with the air flowing in from the air inflow hole 181B. Then, with suction by the user, the mixed fluid of the aerosol and the air is transported to the air outflow hole 182B through the flavor source 131 as shown by the arrow 190B. Then, when the mixed fluid of the aerosol and the air passes through the flavor source 131, the flavor component contained in the flavor source 131 is imparted to the aerosol.
  • FIG. 3 is a schematic view schematically showing a third configuration example of the suction device.
  • the suction device 100D according to this configuration example includes a power supply unit 110D and a cartridge 120D.
  • the power supply unit 110D and the cartridge 120D are configured to be detachable from each other. The suction by the user is performed with the cartridge 120D attached to the power supply unit 110D.
  • the power supply unit 110D includes a power supply unit 111D, a sensor unit 112D, a notification unit 113D, a storage unit 114D, a communication unit 115D, and a control unit 116D.
  • the cartridge 120D includes a heating unit 121D, a liquid induction unit 122D, a liquid storage unit 123D, a vibration unit 127, and a mouthpiece 124D. Further, an air flow path 180D is formed in the cartridge 120D.
  • each component will be described in order.
  • Each component of the power supply unit 110D is substantially the same as the corresponding component included in the suction device 100A according to the first configuration example.
  • the liquid storage unit 123D and the mouthpiece 124D are also substantially the same as the corresponding components included in the suction device 100A according to the first configuration example.
  • the liquid induction unit 122D guides the aerosol source, which is the liquid stored in the liquid storage unit 123D, from the liquid storage unit 123D to the vibration unit 127 and holds it.
  • An example of the liquid induction portion 122D is a wick formed by twisting a fiber material such as glass fiber or a porous material such as a porous ceramic.
  • Another example of the liquid guiding unit 122D is a plate capable of absorbing an aerosol source that is a liquid and guiding it to the vibrating unit 127.
  • the liquid induction unit 122D communicates with the liquid storage unit 123D. Therefore, the aerosol source stored in the liquid storage unit 123D is guided to the surface of the vibrating unit 127 by the liquid induction unit 122D as shown by the arrow 191.
  • the vibrating unit 127 atomizes the aerosol source to generate an aerosol by applying vibration to the aerosol source.
  • the vibrating unit 127 is composed of a plate-shaped member containing piezoelectric ceramics that functions as an ultrasonic vibrator. Then, when the vibrating unit 127 vibrates, the aerosol source guided to the surface of the vibrating unit 127 by the liquid guiding unit 122D is atomized by the ultrasonic waves generated by the vibration by the vibrating unit 127, and the aerosol is generated.
  • the vibrating unit 127 vibrates when power is supplied from the power supply unit 111D.
  • a power may be supplied to generate an aerosol during a period in which the sensor unit 112D detects that suction has been performed by the user.
  • the sensor unit 112D when the sensor unit 112D detects that a predetermined user input has been performed, power may be supplied to generate an aerosol. After that, when the sensor unit 112D detects that a predetermined user input has been performed, the power supply may be stopped.
  • the air flow path 180D has the same configuration as the air flow path 180A according to the first configuration example. However, the liquid guiding portion 122D is arranged in the middle of the air flow path 180D.
  • the aerosol generated by the vibrating unit 127 is mixed with the air flowing in from the air inflow hole 181D. Then, along with the suction by the user, the mixed fluid of the aerosol and the air is transported to the air outflow hole 182D as shown by the arrow 190D.
  • the flavoring cartridge 130 may be arranged on the downstream side of the cartridge 120D as in the suction device 100B according to the second configuration example.
  • the suction device 100D according to this configuration example may be composed of three parts, a power supply unit 110D, a cartridge 120D, and a flavoring cartridge 130.
  • the base material external suction device is a suction device to which a base material including an aerosol source is externally attached.
  • the fourth to seventh configuration examples described below are configuration examples of the base material external type suction device.
  • FIG. 4 is a schematic view schematically showing a fourth configuration example of the suction device.
  • the suction device 100E according to this configuration example includes a power supply unit 111E, a sensor unit 112E, a notification unit 113E, a storage unit 114E, a communication unit 115E, a control unit 116E, a heating unit 121E, and a holding unit 140E.
  • the user sucks the stick-type base material 150E while the stick-type base material 150E is held by the holding portion 140E.
  • each component will be described in order.
  • Each of the power supply unit 111E, the sensor unit 112E, the storage unit 114E, the communication unit 115E, and the control unit 116E is substantially the same as the corresponding components included in the suction device 100A according to the first configuration example.
  • the holding portion 140E has an internal space 141E, and holds the stick-type base material 150E while accommodating a part of the stick-type base material 150E in the internal space 141E.
  • the holding portion 140E has an opening 142E that communicates the internal space 141E to the outside, and holds the stick-type base material 150E inserted into the internal space 141E through the opening 142E.
  • the holding portion 140E is a tubular body having an opening 142E and a bottom portion 143E as a bottom surface, and defines a columnar internal space 141E.
  • the holding portion 140E is configured so that the inner diameter is smaller than the outer diameter of the stick-type base material 150E in at least a part of the tubular body in the height direction, and the stick-type base material 150E inserted into the internal space 141E is inserted.
  • the stick-type base material 150E can be held by pressing from the outer periphery.
  • the holding portion 140E also has a function of defining a flow path of air supplied to the stick-type base material 150E.
  • An air inflow hole which is an inlet for air into such a flow path, is arranged, for example, at the bottom 143E.
  • the air outflow hole which is an outlet for air from such a flow path, is an opening 142E.
  • the stick-type base material 150E is a stick-type member.
  • the stick-type base material 150E includes a base material portion 151E and a mouthpiece portion 152E.
  • the base material portion 151E contains an aerosol source.
  • the aerosol source is as described above in the first configuration example. In this configuration example, the aerosol source is not limited to a liquid, but may be a solid. At least a part of the base material portion 151E is housed in the internal space 141E of the holding portion 140E in a state where the stick-type base material 150E is held by the holding portion 140E.
  • the mouthpiece 152E is a member that can be held by the user during suction.
  • the heating unit 121E heats the aerosol source to atomize the aerosol source and generate an aerosol.
  • the heating unit 121E is made of any material such as metal or polyimide.
  • the heating portion 121E is configured in a blade shape and is arranged so as to project from the bottom portion 143E of the holding portion 140E to the internal space 141E of the holding portion 140E. Therefore, when the stick-type base material 150E is inserted into the holding portion 140E, the blade-shaped heating portion 121E is inserted into the stick-type base material 150E so as to pierce the base material portion 151E of the stick-type base material 150E. Will be done.
  • the heating unit 121E when the heating unit 121E generates heat, the aerosol source contained in the stick-type base material 150E is heated from the inside of the stick-type base material 150E and atomized to generate an aerosol.
  • the heating unit 121E generates heat when power is supplied from the power supply unit 111E.
  • the sensor unit 112E detects that a predetermined user input has been performed, power may be supplied to generate an aerosol.
  • the temperature of the stick-type base material 150E heated by the heating unit 121E reaches a predetermined temperature, suction by the user becomes possible.
  • the power supply may be stopped.
  • power may be supplied to generate an aerosol during a period in which the sensor unit 112E detects that suction has been performed by the user.
  • the notification unit 113E has the same function as the notification unit 113A according to the first configuration example. Further, the notification unit 113E notifies the information indicating that the suction by the user has become possible. Information indicating that suction by the user has become possible is notified when the temperature of the stick-type base material 150E heated by the heating unit 121E reaches a predetermined temperature.
  • FIG. 5 is a schematic view schematically showing a fifth configuration example of the suction device.
  • the suction device 100F according to this configuration example includes a power supply unit 111F, a sensor unit 112F, a notification unit 113F, a storage unit 114F, a communication unit 115F, a control unit 116F, a heating unit 121F, a holding unit 140F, and Includes heat insulating portion 144F.
  • the user sucks the stick-type base material 150F while the stick-type base material 150F is held by the holding portion 140F.
  • each component will be described in order.
  • Each of the power supply unit 111F, the sensor unit 112F, the notification unit 113F, the storage unit 114F, the communication unit 115F, the control unit 116F, and the holding unit 140F has a corresponding component included in the suction device 100E according to the fourth configuration example. It is substantially the same. Further, the stick-type base material 150F is substantially the same as the stick-type base material 150E according to the fourth configuration example.
  • the heating unit 121F heats the aerosol source to atomize the aerosol source and generate an aerosol.
  • the heating unit 121F is made of any material such as metal or polyimide.
  • the heating unit 121F is formed in a film shape and is arranged so as to cover the outer periphery of the holding unit 140F. Then, when the heating unit 121F generates heat, the aerosol source contained in the stick-type base material 150F is heated from the outer periphery of the stick-type base material 150F and atomized to generate an aerosol.
  • the heating unit 121F generates heat when power is supplied from the power supply unit 111F. As an example, power may be supplied when the sensor unit 112F detects that a predetermined user input has been performed.
  • the power supply may be stopped.
  • power may be supplied to generate an aerosol during a period in which the sensor unit 112F detects that suction has been performed by the user.
  • the heat insulating portion 144F prevents heat transfer from the heating portion 121F to other components of the suction device 100F.
  • the heat insulating portion 144F is arranged so as to abut on the heating portion 121F and at least cover the outer periphery of the heating portion 121F.
  • the heat insulating portion 144F is composed of a vacuum heat insulating material, an airgel heat insulating material, and the like.
  • the vacuum heat insulating material is a heat insulating material in which the heat conduction of gas is made as close to zero as possible by wrapping glass wool, silica (silicon powder) or the like in a resin film to create a high vacuum state.
  • FIG. 6 is a schematic view schematically showing a sixth configuration example of the suction device.
  • the suction device 100G includes a power supply unit 111G, a sensor unit 112G, a notification unit 113G, a storage unit 114G, a communication unit 115G, a control unit 116G, a heating unit 121G-1, and a heating unit 121G.
  • -2 includes a holding portion 140G, and a heat insulating portion 144G. The user sucks the stick-type base material 150G while the stick-type base material 150G is held by the holding portion 140G.
  • each component will be described in order.
  • Each of the power supply unit 111G, the sensor unit 112G, the notification unit 113G, the storage unit 114G, the communication unit 115G, the control unit 116G, the holding unit 140G, and the heat insulating unit 144G are included in the suction device 100F according to the fifth configuration example. It is substantially the same as the components to be used. Further, the stick-type base material 150G is substantially the same as the stick-type base material 150E according to the fourth configuration example.
  • the heating unit 121G-1 is substantially the same as the heating unit 121E according to the fourth configuration example.
  • the heating unit 121G-2 is substantially the same as the heating unit 121F according to the fifth configuration example.
  • the temperature of the heating unit 121G-2 is controlled to be lower than the temperature of the heating unit 121G-1. This is because the heat generated from the heating unit 121G-2 is more likely to be propagated to other components of the suction device 100G than the heat generated from the heating unit 121G-1.
  • FIG. 6 shows an example in which the heating unit 121G-2 is arranged on the outer periphery of the holding unit 140G, but this configuration example is not limited to such an example.
  • the heating portion 121G-2 may be arranged so as to cover the bottom portion 143G of the holding portion 140G.
  • the suction device according to this configuration example has a mechanism for sandwiching a base material containing an aerosol source.
  • this configuration example will be described with reference to FIG. 7.
  • FIG. 7 is a schematic view schematically showing a seventh configuration example of the suction device.
  • the suction device 100H according to this configuration example includes a power supply unit 111H, a sensor unit 112H, a notification unit 113H, a storage unit 114H, a communication unit 115H, a control unit 116H, a heating unit 121H-1, and a heating unit 121H.
  • the holding portion 140H, the heat insulating portion 144H-1, the heat insulating portion 144H-2, and the opening / closing mechanism 147 are included.
  • the user sucks the stick-type base material 150H while the stick-type base material 150H is held by the holding portion 140H.
  • each component will be described in order.
  • Each of the power supply unit 111H, the sensor unit 112H, the notification unit 113H, the storage unit 114H, the communication unit 115H, and the control unit 116H is substantially the same as the corresponding components included in the suction device 100E according to the fourth configuration example.
  • the stick-type base material 150H is substantially the same as the stick-type base material 150E according to the fourth configuration example.
  • the holding unit 140H has the same configuration as the holding unit 140E according to the fourth configuration example. However, the internal space 141H included in the holding portion 140H is realized as a space sandwiched between the first housing 145 and the second housing 146.
  • the holding portion 140H further includes an opening / closing mechanism 147 which is a mechanism for opening / closing the first housing 145 and the second housing 146 in the direction indicated by the arrow 193.
  • An example of the opening / closing mechanism 147 is a hinge, which rotates the first housing 145 in the direction indicated by arrow 193.
  • the holding portion 140H opens and closes the first housing 145 and the second housing 146 by the opening / closing mechanism 147, and sandwiches the stick-type base material 150H between the first housing 145 and the second housing 146. Holds the stick-type base material 150H.
  • the heating unit 121H-1 and the heating unit 121H-2 are substantially the same as the heating unit 121F according to the fifth configuration example. However, the heating unit 121H-1 is arranged in the first housing 145, and the heating unit 121H-2 is arranged in the second housing 146.
  • the heat insulating portion 144H-1 and the heat insulating portion 144H-2 are substantially the same as the heat insulating portion 144F according to the fifth configuration example. However, the heat insulating portion 144H-1 is arranged in the first housing 145, and the heat insulating portion 144H-2 is arranged in the second housing 146.
  • Induction heating type suction device An induction heating (IH) type suction device is a suction device that produces an aerosol by induction heating.
  • IH induction heating
  • the eighth to ninth configuration examples described below are configuration examples of an induction heating type suction device.
  • the suction device according to this configuration example is a base material-integrated suction device that generates an aerosol by induction heating.
  • this configuration example will be described with reference to FIG.
  • FIG. 8 is a schematic view schematically showing an eighth configuration example of the suction device.
  • the suction device 100I according to this configuration example includes a power supply unit 110I and a cartridge 120I.
  • the power supply unit 110I and the cartridge 120I are configured to be detachable from each other. The suction by the user is performed with the cartridge 120I attached to the power supply unit 110I.
  • the power supply unit 110I includes a power supply unit 111I, a sensor unit 112I, a notification unit 113I, a storage unit 114I, a communication unit 115I, and a control unit 116I.
  • the cartridge 120I also includes a susceptor 161I, an electromagnetic induction source 162I, a liquid induction unit 122I, a liquid storage unit 123I, and a mouthpiece 124I. Further, an air flow path 180I is formed in the cartridge 120I.
  • each component will be described in order.
  • Each component of the power supply unit 110I, the liquid induction unit 122I, the liquid storage unit 123I, the air flow path 180I, and the mouthpiece 124I each have a corresponding component and substance included in the suction device 100A according to the first configuration example. Is the same.
  • the susceptor 161I generates heat due to electromagnetic induction.
  • the susceptor 161I is made of a conductive material such as metal.
  • the susceptor 161I is located close to the liquid guide 122I.
  • the susceptor 161I is made of a metal conductor and is wound around the liquid guide 122I.
  • the electromagnetic induction source 162I generates heat of the susceptor 161I by electromagnetic induction.
  • the electromagnetic induction source 162I is composed of, for example, a coiled conducting wire.
  • the electromagnetic induction source 162I generates a magnetic field when an alternating current is supplied from the power supply unit 111I.
  • the electromagnetic induction source 162I is arranged at a position where the susceptor 161I is superposed on the generated magnetic field. Therefore, when a magnetic field is generated, an eddy current is generated in the susceptor 161I, and Joule heat is generated. Then, the aerosol source held in the liquid induction unit 122I is heated and atomized by the Joule heat to generate an aerosol.
  • power when the sensor unit 112I detects that suction has been performed by the user, power may be supplied to generate an aerosol.
  • power when the sensor unit 112I detects that a predetermined user input has been performed, power may be supplied to generate an aerosol. After that, when the sensor unit 112I detects that a predetermined user input has been performed, the power supply may be stopped. As another example, power may be supplied to generate an aerosol during a period in which the sensor unit 112I detects that suction has been performed by the user.
  • the flavoring cartridge 130 may be arranged on the downstream side of the cartridge 120I, similarly to the suction device 100B according to the second configuration example.
  • the suction device 100I according to this configuration example may be composed of three parts, a power supply unit 110I, a cartridge 120I, and a flavoring cartridge 130.
  • the suction device according to this configuration example is a base material external suction device that generates an aerosol by induction heating.
  • this configuration example will be described with reference to FIG.
  • FIG. 9 is a schematic view schematically showing a ninth configuration example of the suction device.
  • the suction device 100J includes a power supply unit 111J, a sensor unit 112J, a notification unit 113J, a storage unit 114J, a communication unit 115J, a control unit 116J, a susceptor 161J, an electromagnetic induction source 162J, and an electromagnetic induction source 162J.
  • the suction is performed by the user while the stick-type base material 150J is held by the holding portion 140J.
  • each component will be described in order.
  • Each of the power supply unit 111J, the sensor unit 112J, the notification unit 113J, the storage unit 114J, the communication unit 115J, the control unit 116J, and the holding unit 140J has the corresponding components included in the suction device 100E according to the fourth configuration example. It is substantially the same.
  • the stick-type base material 150J has the same configuration as the stick-type base material 150E according to the fourth configuration example. Further, the stick-type base material 150J includes a susceptor 161J.
  • the susceptor 161J generates heat due to electromagnetic induction.
  • the susceptor 161J is made of a conductive material such as metal.
  • the susceptor 161J is a piece of metal.
  • the susceptor 161J is located in close proximity to the aerosol source. In the example shown in FIG. 9, the susceptor 161J is included in the base material portion 151J of the stick-type base material 150J.
  • the electromagnetic induction source 162J generates heat of the susceptor 161J by electromagnetic induction.
  • the electromagnetic induction source 162J is composed of, for example, a coiled conducting wire, and is arranged so as to wrap around the outer periphery of the holding portion 140J.
  • the electromagnetic induction source 162J generates a magnetic field when an alternating current is supplied from the power supply unit 111J.
  • the electromagnetic induction source 162J is arranged at a position where the internal space 141J of the holding portion 140J is superimposed on the generated magnetic field. Therefore, when a magnetic field is generated while the stick-type base material 150J is held by the holding portion 140J, an eddy current is generated in the susceptor 161J and Joule heat is generated.
  • the aerosol source contained in the stick-type base material 150J is heated and atomized by the Joule heat to generate an aerosol.
  • the sensor unit 112J detects that a predetermined user input has been performed, power may be supplied to generate an aerosol.
  • the temperature of the stick-type base material 150J induced and heated by the susceptor 161J and the electromagnetic induction source 162J reaches a predetermined temperature, suction by the user becomes possible.
  • the power supply may be stopped.
  • power may be supplied to generate an aerosol during a period in which the sensor unit 112J detects that suction has been performed by the user.
  • the hybrid type suction device is a suction device having the characteristics of both a base material integrated suction device and a base material external suction device.
  • the tenth configuration example described below is a configuration example of a hybrid type suction device. Hereinafter, this configuration example will be described with reference to FIG.
  • FIG. 10 is a schematic view schematically showing a tenth configuration example of the suction device.
  • the suction device 100K according to this configuration example includes a power supply unit 111K, a sensor unit 112K, a notification unit 113K, a storage unit 114K, a communication unit 115K, a control unit 116K, a liquid induction unit 122K, and a liquid storage unit 123K.
  • an air flow path 180K is formed in the suction device 100K.
  • the suction is performed by the user while the stick-type base material 150K is held by the holding portion 140K.
  • each component will be described in order.
  • Each of the power supply unit 111K, the sensor unit 112K, the storage unit 114K, the communication unit 115K, the control unit 116K, the heating unit 121K-1, the liquid induction unit 122K, and the liquid storage unit 123K each has a suction device 100A according to the first configuration example. It is substantially identical to the corresponding component contained in.
  • the heating unit 121K-2 is substantially the same as the heating unit 121E according to the fourth configuration example.
  • the stick-type base material 150K is substantially the same as the stick-type base material 150E according to the fourth configuration example.
  • the holding unit 140K has the same configuration as the holding unit 140E according to the fourth configuration example. Further, an air outflow hole 182K of the air flow path 180 is arranged at the bottom 143K of the holding portion 140K. The internal space 141K of the holding portion 140K and the air flow path 180K are communicated with each other through the air discharge hole 182.
  • the air flow path 180K is a flow path of air sucked by the user.
  • the air flow path 180K has a tubular structure having an air inflow hole 181K which is an inlet of air into the air flow path 180K and an air outflow hole 182K which is an outlet of air from the air flow path 180K at both ends.
  • air inflow hole 181K is arranged at an arbitrary position of the suction device 100K.
  • the air outflow hole 182K is arranged at the bottom 143K of the holding portion 140K.
  • a liquid guiding portion 122K is arranged in the middle of the air flow path 180K.
  • the aerosol produced by the heating unit 121K-1 is mixed with the air flowing in from the air inflow hole 181K. Then, with suction by the user, the mixed fluid of the aerosol and the air is transported to the internal space 141K of the holding portion 140 via the air outflow hole 182K as shown by the arrow 190K. Then, the mixed fluid of the aerosol and the air transported to the internal space 141K of the holding unit 140 reaches the user's mouth together with the aerosol generated by the heating unit 121K-2.
  • Aerosols may be produced. Further, instead of heating by the heating unit 121K-2, the aerosol may be generated by induction heating by the susceptor 161J and the electromagnetic induction source 162K according to the ninth configuration example.
  • FIG. 11 is a block diagram showing an example of the configuration of the system 1 according to the embodiment of the present invention. As shown in FIG. 11, the system 1 includes a suction device 100, a terminal device 200, and a server 300.
  • the suction device 100 is a device that generates a substance to be sucked by a user.
  • the suction device 100 is configured as the suction device 100E according to the fourth configuration example. That is, the suction device 100 according to the present embodiment has the same configuration as the suction device 100E according to the fourth configuration example.
  • points to be supplemented or emphasized with respect to the configuration described above as the fourth configuration example will be mainly described.
  • the alphabet "E" corresponding to the fourth configuration example shall be omitted. To do.
  • the notification unit 113 notifies the user of the information.
  • the notification unit 113 includes at least one of a display device for displaying information, a light emitting device for emitting light, a vibrating device for vibrating, and a sound output device for outputting sound.
  • An example of a display device is a display.
  • An example of a light emitting device is an LED.
  • An example of a vibrating device is an eccentric motor.
  • An example of a sound output device is a speaker.
  • the notification unit 113 notifies the user of the information by outputting the information input from the control unit 116.
  • the notification unit 113 displays information to be notified to the user, emits light in a light emitting pattern according to the information to be notified to the user, vibrates in a vibration pattern according to the information to be notified to the user, or notifies the user.
  • the information to be output is output by voice.
  • the vibration pattern here is a concept including amplitude, frequency, vibration timing, and the like.
  • the communication unit 115 is an example of a wireless communication unit that wirelessly transmits and receives information.
  • the communication unit 115 wirelessly transmits and receives information to and from the terminal device 200.
  • the sensor unit 112 further includes a first temperature sensor, a second temperature sensor, a power measurement sensor, an image sensor, and an optical sensor.
  • the first temperature sensor detects the ambient temperature, which is the ambient temperature of the suction device 100.
  • the first temperature sensor may detect the ambient temperature based on the electrical resistance value of the conductor.
  • the second temperature sensor detects the temperature of the heating unit 121.
  • the second temperature sensor may detect the temperature of the heating unit 121 based on the electric resistance value of the conductive track of the heating unit 121.
  • the second temperature sensor may detect the temperature of the heating unit 121 as the temperature of the stick-type base material 150 held by the holding unit 140.
  • the temperature of the heating unit 121 can be detected based on the electric resistance value of the heating unit 121.
  • the power measurement sensor measures the power input from the power supply unit 111 to other components.
  • An image sensor is a sensor that captures an image. The image sensor captures, for example, an image of the internal space 141 of the holding unit 140.
  • An optical sensor is a sensor that detects light. The optical sensor detects, for example, the amount of light in the internal space 141 of the holding unit 140.
  • the control unit 116 controls a process of notifying the user of information regarding cleaning of the suction device 100. This point will be described in detail later.
  • the terminal device 200 is an information processing device operated by a user.
  • the terminal device 200 transmits and receives information between the suction device 100 and the server 300, and outputs information based on such communication to the user.
  • the terminal device 200 is composed of a smartphone, a tablet terminal, a wearable device, or the like.
  • the terminal device 200 includes a sensor unit 210, a notification unit 220, a communication unit 230, a storage unit 240, and a control unit 250.
  • the sensor unit 210 detects various information related to the terminal device 200. Then, the sensor unit 210 outputs the detected information to the control unit 250.
  • the sensor unit 210 includes an input unit that receives input of information from the user.
  • the input unit includes, for example, at least one of a button, a keyboard, a touch panel, or a microphone.
  • the sensor unit 210 includes a position information acquisition unit that acquires position information indicating the position of the terminal device 200.
  • the position information acquisition unit receives, for example, a GNSS signal from a GNSS (Global Navigation Satellite System) satellite (for example, a GPS signal from a GPS (Global Positioning System) satellite) and obtains position information consisting of the latitude and longitude of the device. To detect.
  • GNSS Global Navigation Satellite System
  • GPS Global Positioning System
  • the notification unit 220 notifies the user of the information.
  • the notification unit 220 includes at least one of a display device for displaying information, a light emitting device for emitting light, a vibrating device for vibrating, and a sound output device for outputting sound.
  • An example of a display device is a display.
  • An example of a light emitting device is an LED.
  • An example of a vibrating device is an eccentric motor.
  • An example of a sound output device is a speaker.
  • the notification unit 220 notifies the user of the information by outputting the information input from the control unit 250.
  • the notification unit 220 displays information to be notified to the user, emits light in a light emitting pattern according to the information to be notified to the user, vibrates in a vibration pattern according to the information to be notified to the user, or notifies the user.
  • the information to be output is output by voice.
  • the terminal device 200 such as a smartphone has been improved in performance, and is equipped with a large display or a surround speaker. That is, the notification unit 220 has a higher expressive power than the notification unit 113, such as not being in the notification unit 113 or including a display larger than the notification unit 113.
  • the communication unit 230 is a communication interface for transmitting and receiving information between the terminal device 200 and another device.
  • the communication unit 230 performs communication conforming to any wired or wireless communication standard.
  • a communication standard for example, wireless LAN (Local Area Network), wired LAN, Wi-Fi (registered trademark), Bluetooth (registered trademark), or the like can be adopted.
  • the communication unit 230 is an example of a wireless communication unit that wirelessly transmits and receives information.
  • the communication unit 230 wirelessly transmits and receives information to and from the suction device 100.
  • the communication unit 230 wirelessly transmits and receives information to and from the server 300.
  • the storage unit 240 stores various information for the operation of the terminal device 200.
  • the storage unit 240 is composed of a non-volatile storage medium such as a flash memory.
  • the control unit 250 functions as an arithmetic processing unit and a control device, and controls the overall operation in the terminal device 200 according to various programs.
  • the control unit 250 is realized by, for example, an electronic circuit such as a CPU (Central Processing Unit) and a microprocessor.
  • the control unit 250 may include a ROM (Read Only Memory) for storing programs to be used, calculation parameters, and the like, and a RAM (Random Access Memory) for temporarily storing parameters and the like that change as appropriate.
  • the terminal device 200 executes various processes based on the control by the control unit 250.
  • the processing of information detected by the sensor unit 210, the notification of information by the notification unit 220, the transmission and reception of information by the communication unit 230, and the storage and reading of information by the storage unit 240 are examples of the processing controlled by the control unit 250. ..
  • Other processes executed by the terminal device 200, such as input of information to each component and processing based on the information output from each component, are also controlled by the control unit 250.
  • the server 300 is a device that transmits the information requested from the terminal device 200 to the terminal device 200.
  • the server 300 is composed of, for example, a Web server.
  • the suction device 100 acquires the suction device information. Then, the suction device 100 controls the process of transmitting the cleaning necessity information by the communication unit 115 based on the suction device information. Specifically, the suction device 100 determines whether or not to notify the user of the cleaning necessity information based on the suction device information. Then, the suction device 100 wirelessly transmits the cleaning necessity information to the terminal device 200 at the timing when it is determined to notify.
  • the suction device information is information about the suction device 100.
  • the cleaning necessity information is information indicating the necessity of cleaning the suction device 100. This information will be described in detail later.
  • the terminal device 200 When the terminal device 200 receives the cleaning necessity information from the suction device 100, the terminal device 200 notifies the user of the received cleaning necessity information by the notification unit 220.
  • the notification unit 220 displays cleaning necessity information, outputs cleaning necessity information by voice, emits light in a light emitting pattern according to cleaning necessity information, or emits light in a vibration pattern according to cleaning necessity information. It vibrates.
  • the suction device 100 can notify the user of the cleaning necessity information via the terminal device 200.
  • the terminal device 200 has a higher expressive power than the suction device 100, such as a display that is not present in the suction device 100 or is larger than the suction device 100. Therefore, by notifying the user of the cleaning necessity information via the terminal device 200, it is possible to improve the usability related to cleaning.
  • the cleaning necessity information may be the first cleaning necessity information (corresponding to the first information).
  • the first cleaning necessity information is information indicating that the suction device 100 needs to be cleaned.
  • the first cleaning necessity information is information that recommends cleaning the suction device 100. By being notified of the first cleaning necessity information, the user can perform cleaning at an appropriate timing.
  • the cleaning necessity information may be the second cleaning necessity information (corresponding to the second information).
  • the second cleaning necessity information is information indicating that the necessity of cleaning the suction device 100 is increasing.
  • the second cleaning necessity information is information recommending that the suction device 100 be cleaned in the near future.
  • the second cleaning need information may be information that recommends preparing for cleaning.
  • the preparation for cleaning is, for example, the purchase or carrying of cleaning supplies used when cleaning the suction device 100. By being notified of the second cleaning necessity information, the user can prepare for cleaning in advance.
  • the cleaning necessity information may include information regarding the timing of cleaning the suction device 100.
  • the cleaning necessity information may include information indicating the date and time when the suction device 100 should be cleaned, information indicating how many more suctions are required to be cleaned, and the like.
  • the first cleaning necessity information may include, for example, information indicating that the timing for cleaning the suction device 100 has arrived.
  • the second cleaning necessity information may include, for example, information indicating that the timing for cleaning the suction device 100 will come in the near future. With such a configuration, the user can easily recognize the timing to be cleaned.
  • the suction device information may include the number of preheatings performed by the suction device 100 to allow the user to perform suction using the suction device 100.
  • the temperature of the stick-type base material 150 heated by the heating unit 121 (more accurately, the temperature of the base material portion 151 to be heated by the heating unit 121) or preheating.
  • a predetermined temperature hereinafter, also referred to as a suctionable temperature
  • suction by the user becomes possible.
  • Preheating is the heating performed until the temperature of the stick-type base material 150 or the temperature of the heating unit 121 reaches a predetermined temperature.
  • the suctionable temperature of the stick-type base material 150 and the suctionable temperature of the heating unit 121 may be the same or different.
  • the suction device 100 When the number of times of preheating reaches (for example, exceeds) the first threshold value, the suction device 100 transmits the first cleaning necessity information as the cleaning necessity information. With such a configuration, it is possible to notify the user of the first cleaning necessity information via the terminal device 200.
  • Preheating is performed each time the stick-type base material 150 is inserted into the holding portion 140, and then suction is performed by the user. After the preheating, the stick-type base material 150 is continuously heated while the suction is performed by the user.
  • the heating performed after the preheating is also referred to as the main heating.
  • the aerosol is generated from the stick-type base material 150 by the preheating and the main heating, the stick-type base material 150 becomes brittle. Therefore, when the stick-type base material 150 is pulled out from the holding portion 140 after the suction by the user is performed, the remaining contents of the stick-type base material 150 (hereinafter, also referred to as butts) spill out, and the holding portion 140 Accumulate in.
  • the portion of the stick-type base material 150 where the blade-shaped heating portion 121 pierces tends to become brittle, and the butts tend to spill. Since the number of preheatings can be regarded as the same as the number of times the user sucks and the number of times the stick-type base material 150 is inserted and removed from the holding portion 140, the larger the number of preheatings, the more the stick-type base material 150 accumulates on the holding portion 140. It can be said that the amount of butts is large.
  • the first threshold value the number of preheatings, which is estimated to have accumulated so many butts that need cleaning, is set. This makes it possible to notify the user of the first cleaning necessity information at an appropriate timing.
  • the first threshold value may be a fixed value, or may vary depending on the type of the suction device 100, the type of the preheated stick-type base material 150, and the like.
  • the suction device 100 transmits the second cleaning necessity information as the cleaning necessity information when the number of times of preheating reaches the second threshold value lower than the first threshold value (for example, exceeds the first threshold value). Good. With such a configuration, it is possible to notify the user of the second cleaning necessity information via the terminal device 200.
  • the number of preheatings which is estimated to accumulate so many butts that cleaning is required in the near future, is set. This makes it possible to notify the user of the second cleaning necessity information at an appropriate timing.
  • the second threshold value may be a fixed value, or may vary depending on the type of the suction device 100, the type of the preheated stick-type base material 150, and the like. Further, the second threshold value may be set based on the first threshold value such as 70% of the first threshold value.
  • the number of preheatings may be initialized when a predetermined user operation (hereinafter, also referred to as a reset operation) is performed.
  • the reset operation may be performed on the suction device 100 or the terminal device 200.
  • the reset operation is an operation of inputting predetermined information to the sensor unit 112 or the sensor unit 210, such as pressing and holding a button.
  • the initialization of the number of preheatings means that the number of preheatings being counted is set to zero.
  • the reset operation is performed, for example, when the suction device 100 is cleaned.
  • the suction device 100 may count the number of preheatings when it is determined that the preheating is performed on the base material that contributes to the generation of the substance sucked by the user when heated.
  • the base material is, for example, a member containing an aerosol source, and corresponds to a stick-type base material 150.
  • the suction device 100 counts the number of preheatings when the preheating is performed while the stick-type base material 150 is held by the holding portion 140. With such a configuration, for example, when the stick-type base material 150 is heated without being held by the holding portion 140, that is, when so-called dry heating is performed, it is assumed that the butts do not accumulate on the holding portion 140. Can be prevented from counting the number of preheatings.
  • Whether or not the preheating was performed while the stick-type base material 150 was held by the holding portion 140 is determined by the internal space of the holding portion 140 during the preheating, which was imaged by the image sensor included in the sensor unit 112. It can be determined based on the image recognition result for 141 images.
  • the optical sensor included in the sensor portion 112 of the holding portion 140 was detected by the optical sensor included in the sensor portion 112 of the holding portion 140 during the preheating. It can be determined by comparing the amount of light in the internal space 141 with the threshold value.
  • the optical sensor may detect the light emitted when the heating unit 121 generates heat.
  • a light emitting unit and an optical sensor are provided so as to face each other with the internal space 141 of the holding unit 140 interposed therebetween, and the optical sensor may detect the light emitted by the light emitting unit.
  • the light emitted by the heating unit 121 or the light emitting unit is blocked by the stick-type base material 150, and the amount of light detected by the optical sensor is lower than the threshold value.
  • the light emitted by the heating portion 121 or the light emitting portion directly reaches the optical sensor, so that the amount of light detected by the optical sensor is larger than the threshold value. It gets higher.
  • the suction device 100 (for example, the storage unit 114) stores the number of times of preheating. Then, the suction device 100 updates the memory by increasing the number of times of the stored preheating each time the preheating is performed. This makes it possible to continuously count the number of preheatings even if the power is turned on / off between the time when the preheating was performed last time and the time when the preheating is performed this time.
  • Suction device information indicates the temperature of the object to be heated or preheating when the suction device 100 performs preheating to enable suction performed by the user using the suction device 100. It may include the time required for the temperature of the heating unit 121 to reach a predetermined temperature.
  • the predetermined temperature is the above-mentioned suctionable temperature.
  • the time required to reach the suctionable temperature is also referred to as the time required for preheating.
  • the object to be heated is the stick-type base material 150 (more accurately, the base material portion 151 of the stick-type base material 150).
  • the time required for preheating is the time required from the start of preheating until the temperature of the stick-type base material 150 or the temperature of the heating unit 121 reaches the suctionable temperature.
  • the temperature of the heating unit 121 is detected by, for example, a second temperature sensor included in the sensor unit 112.
  • the temperature of the stick-type base material 150 is estimated based on, for example, the temperature of the heating unit 121 detected by the second temperature sensor included in the sensor unit 112.
  • the suction device 100 transmits the first cleaning necessity information as the cleaning necessity information. With such a configuration, it is possible to notify the user of the first cleaning necessity information via the terminal device 200.
  • the third threshold value the time required for preheating, which is estimated to have accumulated so many butts that need cleaning, is set. This makes it possible to notify the user of the first cleaning necessity information at an appropriate timing.
  • the third threshold value may be a fixed value, or may vary depending on the type of the suction device 100, the type of the preheated stick-type base material 150, and the like. Further, the suction device 100 may set a third threshold value based on the environmental temperature. As an example, the suction device 100 sets the third threshold value shorter as the environmental temperature is higher. This is because the higher the environmental temperature, the easier it is for the temperature of the stick-type base material 150 and the temperature of the heating unit 121 to rise, and the shorter the time required for preheating. As another example, the suction device 100 sets the third threshold value longer as the ambient temperature is lower.
  • the environmental temperature is detected by, for example, the first temperature sensor included in the sensor unit 112.
  • the suction device 100 transmits the second cleaning necessity information as the cleaning necessity information. May be good. With such a configuration, it is possible to notify the user of the second cleaning necessity information via the terminal device 200.
  • the time required for preheating which is assumed to have accumulated so many butts that cleaning will be required in the near future, is set. This makes it possible to notify the user of the second cleaning necessity information at an appropriate timing.
  • the fourth threshold value may be a fixed value, or may vary depending on the type of the suction device 100, the type of the preheated stick-type base material 150, and the like. Further, the fourth threshold value may be set with reference to a third threshold value such as 70% of the third threshold value. Further, for the same reason as described above with respect to the third threshold value, the suction device 100 may set the fourth threshold value based on the environmental temperature.
  • the suction device information indicates the temperature of the object to be heated or the preheating when the suction device 100 executes the preheating to enable the suction performed by the user using the suction device 100. It may include electric power required for the temperature of the heating unit 121 to be performed to reach a predetermined temperature.
  • the predetermined temperature is the above-mentioned suctionable temperature.
  • the electric power required to reach the suctionable temperature is also hereinafter referred to as the required electric power for preheating.
  • the object to be heated is the stick-type base material 150 (more accurately, the base material portion 151 of the stick-type base material 150).
  • the required power for preheating is the total amount of power input to the heating unit 121 from the start of preheating until the temperature of the stick-type base material 150 or the temperature of the heating unit 121 reaches the suctionable temperature. is there.
  • the electric power input to the heating unit 121 is measured by, for example, a power measurement sensor included in the sensor unit 112.
  • the suction device 100 transmits the first cleaning necessity information as the cleaning necessity information. With such a configuration, it is possible to notify the user of the first cleaning necessity information via the terminal device 200.
  • the required power for preheating which is estimated to have accumulated so many butts that need cleaning, is set. This makes it possible to notify the user of the first cleaning necessity information at an appropriate timing.
  • the fifth threshold value may be a fixed value, or may vary depending on the type of the suction device 100, the type of the preheated stick-type base material 150, and the like. Further, the suction device 100 may set a fifth threshold value based on the environmental temperature. As an example, the suction device 100 sets the fifth threshold value lower as the environmental temperature is higher. This is because the higher the environmental temperature, the easier it is for the temperature of the stick-type base material 150 and the temperature of the heating unit 121 to rise, and the lower the power required for preheating. As another example, the suction device 100 sets the fifth threshold value higher as the environmental temperature is lower.
  • the suction device 100 transmits the second cleaning necessity information as the cleaning necessity information. May be good. With such a configuration, it is possible to notify the user of the second cleaning necessity information via the terminal device 200.
  • the required power for preheating which is assumed to have accumulated so many butts that cleaning will be required in the near future, is set. This makes it possible to notify the user of the second cleaning necessity information at an appropriate timing.
  • the sixth threshold value may be a fixed value, or may vary depending on the type of the suction device 100, the type of the preheated stick-type base material 150, and the like. Further, the sixth threshold value may be set based on the fifth threshold value, such as 70% of the fifth threshold value. Further, for the same reason as described above with respect to the fifth threshold value, the suction device 100 may set the sixth threshold value based on the environmental temperature.
  • the suction device 100 may switch the notification means of cleaning necessity information depending on whether or not the suction device 100 and the terminal device 200 are wirelessly connected. Specifically, when the suction device 100 and the terminal device 200 are wirelessly connected, the suction device 100 transmits the cleaning necessity information to the terminal device 200 by the communication unit 115. On the other hand, when the suction device 100 and the terminal device 200 are not wirelessly connected, the suction device 100 notifies the cleaning necessity information by the notification unit 113. As a result, when wirelessly connected, the cleaning necessity information can be notified via the terminal device 200 having high expressive power. Further, when the wireless connection is not made, the cleaning necessity information can be notified at least without delay, although the expressive power is inferior to that when the terminal device 200 notifies the information.
  • the suction device 100 When the suction device 100 and the terminal device 200 are wirelessly connected, the suction device 100 does not have to notify the cleaning necessity information by the notification unit 113. That is, when the suction device 100 and the terminal device 200 are wirelessly connected, the suction device 100 only wirelessly transmits the cleaning necessity information by the communication unit 115 instead of the notification of the cleaning necessity information by the notification unit 113. You may go. This makes it possible to suppress the power consumption required for the notification by the suction device 100.
  • the suction device 100 may notify the cleaning necessity information by the notification unit 113 even when the suction device 100 and the terminal device 200 are wirelessly connected. That is, when the suction device 100 and the terminal device 200 are wirelessly connected, the suction device 100 wirelessly transmits the cleaning necessity information by the communication unit 115 together with the notification of the cleaning necessity information by the notification unit 113. May be good. As a result, it is possible to more reliably notify the user of the information as compared with the case where only one of the suction device 100 and the terminal device 200 notifies.
  • the reminder terminal device 200 notifies the user of the cleaning necessity information by the notification unit 220.
  • the terminal device 200 makes a setting for notifying the cleaning necessity information again by the notification unit 220.
  • the terminal device 200 may automatically set the timing for notifying the cleaning necessity information again after a predetermined time.
  • the terminal device 200 may accept user input of information indicating the timing of notifying the cleaning necessity information again, and may make settings based on the input information. In any case, it is possible to set a reminder in a situation where it is difficult to carry out cleaning at the timing when the cleaning necessity information is notified because the user does not carry the cleaning supplies.
  • the terminal device 200 may notify the information indicating the method of cleaning the suction device 100 by the notification unit 220. Such information will also be referred to as cleaning method information below.
  • the cleaning method information may include, for example, a method of using cleaning supplies used for cleaning the suction device 100, a method of disassembling the suction device 100, and the like.
  • the terminal device 200 notifies the cleaning method information together with the cleaning necessity information. With such a configuration, the user can easily know the cleaning method at the timing when the suction device 100 should be cleaned.
  • the terminal device 200 may transmit information requesting cleaning method information.
  • the terminal device 200 can acquire the cleaning method information and notify the user even when the cleaning method information is unknown, such as when the user replaces the new suction device 100 with a new one.
  • the destination of the information requesting the cleaning method information may be the server 300.
  • the information requesting the cleaning method information may include, for example, information indicating the type of the suction device 100.
  • the server 300 generates cleaning method information according to the type of the suction device 100 based on such information. Then, when the server 300 returns the cleaning method information, the terminal device 200 notifies the user of the cleaning necessity information received from the server 300.
  • the destination of the information requesting the cleaning method information may be the suction device 100.
  • the suction device 100 transmits the cleaning method information to the terminal device 200 in response to such a request.
  • the suction device 100 may voluntarily transmit the cleaning method information other than when the cleaning method information is requested.
  • the suction device 100 may transmit cleaning method information together with cleaning necessity information.
  • the terminal device 200 when the terminal device 200 receives the cleaning method information from the suction device 100, the terminal device 200 notifies the user of the received cleaning method information. With such a configuration, the terminal device 200 can notify the user of the cleaning method information even in a situation where it is difficult to communicate with the server 300.
  • the terminal device 200 may notify the information of the store selling the cleaning supplies used for cleaning the suction device 100 by the notification unit 220. Such information will also be referred to as store information below.
  • the sales store information may include, for example, information indicating the position of the store close to the position of the suction device 100, information indicating the selling price for each store, and the like. Further, the store here may be a virtual store such as an online shop. As a result, the user can easily obtain the cleaning supplies.
  • the terminal device 200 may transmit information requesting store information to the server 300.
  • the terminal device 200 may transmit the information requesting the store information to the server 300.
  • the information requesting the store information may include, for example, information indicating the type of the suction device 100, position information of the terminal device 200, and the like.
  • the server 300 searches for a store closest to the user who sells cleaning products according to the type of the suction device 100, and generates store information. Then, when the server 300 returns the sales store information, the terminal device 200 notifies the user of the sales store information received from the server 300. With such a configuration, the user can easily obtain the cleaning supplies at the timing when the suction device 100 should be cleaned.
  • FIG. 12 is a sequence diagram showing an example of a flow of notification processing of cleaning necessity information executed by the system 1 according to the present embodiment. As shown in FIG. 12, the suction device 100, the terminal device 200, and the server 300 are involved in this sequence.
  • the suction device 100 acquires the suction device information (step S102). For example, the suction device 100 acquires at least one of the number of preheatings, the required time for preheating, or the required power for preheating based on the detection result by the sensor unit 112.
  • the suction device 100 determines whether or not to notify the user of the cleaning necessity information based on the suction device information (step S104). For example, the suction device 100 compares the number of preheatings with the first threshold value or the second threshold value, compares the time required for preheating with the third threshold value or the fourth threshold value, and determines the required power for preheating. Compare with the 5th or 6th threshold. Then, when at least one of the number of preheatings, the required time for preheating, or the required power for preheating reaches (for example, exceeds) the threshold value to be compared, the suction device 100 provides cleaning necessity information. Is determined to be notified. On the other hand, the suction device 100 determines that the cleaning necessity information is not notified when all of the number of preheatings, the required time for preheating, and the required power for preheating do not reach the threshold value to be compared. ..
  • step S104 If it is determined not to notify the cleaning necessity information (step S104 / NO), the process returns to step S102 again. On the other hand, when it is determined that the cleaning necessity information is notified (step S104 / YES), the suction device 100 determines whether or not it is wirelessly connected to the terminal device 200 (step S106).
  • the suction device 100 transmits the cleaning necessity information to the terminal device 200 (step S108).
  • the terminal device 200 receives the cleaning necessity information, it transmits the information requesting the cleaning method information and the information requesting the store information of the cleaning supplies to the server 300 (step S110).
  • the server 300 returns the cleaning method information and the store information requested by the terminal device 200 to the terminal device 200 (step S112).
  • the terminal device 200 notifies the user of the received cleaning necessity information, cleaning method information, and store store information by the notification unit 220 (step S114).
  • the suction device 100 When it is determined that the suction device 100 and the terminal device 200 are not wirelessly connected (step S106 / NO), the suction device 100 notifies the user of the cleaning necessity information by the notification unit 113 (step S116).
  • the suction device 100 has been described as being configured as the suction device 100E according to the fourth configuration example, but the present invention is not limited to such an example.
  • the suction device 100 may be configured as another base material-integrated suction device according to the fifth to seventh configuration examples.
  • the suction device 100 may be configured as a suction device according to the first to third configuration examples or the eighth to tenth configuration examples.
  • the suction device 100 controls the process of notifying the cleaning necessity information based on the suction device information, but the present invention is not limited to such an example.
  • the suction device 100 may transmit the suction device information to the terminal device 200.
  • the terminal device 200 may control the process of notifying the cleaning necessity information based on the suction device information when the suction device information is received from the suction device 100.
  • the terminal device 200 determines whether or not to notify the user of the cleaning necessity information based on the suction device information.
  • the terminal device 200 notifies the user of the cleaning necessity information by the notification unit 220 at the timing when it is determined to notify.
  • the cleaning necessity information can be notified to the user via the terminal device 200, so that the usability regarding cleaning can be improved.
  • each device described in the present specification may be realized by using any of software, hardware, and a combination of software and hardware.
  • the programs constituting the software are stored in advance in, for example, a storage medium (non-transitory media) provided inside or outside each device. Then, each program is read into RAM at the time of execution by a computer and executed by a processor such as a CPU.
  • the storage medium is, for example, a magnetic disk, an optical disk, a magneto-optical disk, a flash memory, or the like.
  • the above computer program may be distributed via, for example, a network without using a storage medium.
  • System 100 Suction device 111: Power supply unit 112: Sensor unit 113: Notification unit 114: Storage unit 115: Communication unit 116: Control unit 121: Heating unit 140: Holding unit 141: Internal space 150: Stick type base material 151 : Base material unit 200: Terminal device 210: Sensor unit 220: Notification unit 230: Communication unit 240: Storage unit 250: Control unit 300: Server

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)

Abstract

Le problème décrit par la présente invention est de fournir un mécanisme grâce auquel il est possible d'améliorer la facilité d'utilisation vis-à-vis du nettoyage d'un dispositif d'aspiration. La solution selon l'invention porte sur un dispositif d'aspiration muni d'une unité de communication sans fil qui transmet/reçoit des informations d'une manière sans fil, et d'une unité de commande qui obtient les informations concernant le dispositif d'aspiration et les commandes, sur la base des informations concernant le dispositif d'aspiration ainsi obtenues, un procédé de transmission, à l'aide de l'unité de communication sans fil, d'informations indiquant la nécessité de nettoyer le dispositif d'aspiration.
PCT/JP2019/046815 2019-11-29 2019-11-29 Dispositif d'aspiration, dispositif terminal, procédé de traitement d'informations, et programme Ceased WO2021106199A1 (fr)

Priority Applications (4)

Application Number Priority Date Filing Date Title
JP2021561111A JP7206016B2 (ja) 2019-11-29 2019-11-29 吸引装置、端末装置、情報処理方法、及びプログラム
PCT/JP2019/046815 WO2021106199A1 (fr) 2019-11-29 2019-11-29 Dispositif d'aspiration, dispositif terminal, procédé de traitement d'informations, et programme
EP19953966.9A EP3987955A4 (fr) 2019-11-29 2019-11-29 Dispositif d'aspiration, dispositif terminal, procédé de traitement d'informations, et programme
TW109108971A TW202119948A (zh) 2019-11-29 2020-03-18 吸嚐裝置、端末裝置、資訊處理方法及程式

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PCT/JP2019/046815 WO2021106199A1 (fr) 2019-11-29 2019-11-29 Dispositif d'aspiration, dispositif terminal, procédé de traitement d'informations, et programme

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WO2025032771A1 (fr) * 2023-08-09 2025-02-13 日本たばこ産業株式会社 Dispositif de génération d'aérosol

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WO2025032771A1 (fr) * 2023-08-09 2025-02-13 日本たばこ産業株式会社 Dispositif de génération d'aérosol

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EP3987955A1 (fr) 2022-04-27
EP3987955A4 (fr) 2023-01-25
JPWO2021106199A1 (fr) 2021-06-03
TW202119948A (zh) 2021-06-01
JP7206016B2 (ja) 2023-01-17

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