WO2023175864A1 - Aerosol generation system - Google Patents
Aerosol generation system Download PDFInfo
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- WO2023175864A1 WO2023175864A1 PCT/JP2022/012431 JP2022012431W WO2023175864A1 WO 2023175864 A1 WO2023175864 A1 WO 2023175864A1 JP 2022012431 W JP2022012431 W JP 2022012431W WO 2023175864 A1 WO2023175864 A1 WO 2023175864A1
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- WIPO (PCT)
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- unit
- susceptor
- generation system
- aerosol generation
- aerosol
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- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
- A24F40/46—Shape or structure of electric heating means
- A24F40/465—Shape or structure of electric heating means specially adapted for induction heating
Definitions
- the present invention relates to an aerosol generation system.
- a suction device generates an aerosol to which a flavor component has been added using a base material that includes an aerosol source for generating an aerosol, a flavor source for imparting a flavor component to the generated aerosol, and the like.
- the user can taste the flavor by inhaling the aerosol to which the flavor component is added, which is generated by the suction device.
- the action of the user inhaling an aerosol will also be referred to below as a puff or a puff action.
- Patent Document 1 listed below discloses an induction heating type suction device that induction heats a susceptor contained in a base material.
- the susceptor is discarded every time the base material is consumed, resulting in an excessive burden on the environment.
- the present invention has been made in view of the above problems, and an object of the present invention is to provide a mechanism that can reduce the environmental load.
- an aerosol generation system that generates aerosol by heating an aerosol source, the system comprising: a power supply section; and an electric power supplied from the power supply section.
- An aerosol generation system is provided that includes an electromagnetic induction source that generates a fluctuating magnetic field, and a support that removably supports a susceptor that generates heat and heats the aerosol source when the fluctuating magnetic field enters.
- the aerosol generation system has an internal space and a first opening that opens the internal space to the outside, and includes a housing section that accommodates a base material containing the aerosol source inserted from the first opening, and the electromagnetic
- the induction source may be placed at a position where the generated fluctuating magnetic field is superimposed on the internal space, and the support section may support the susceptor while the susceptor is located in the internal space of the housing section.
- the support portion may be disposed at a bottom portion of the accommodating portion facing the first opening, and may support an end portion of the susceptor in a state where the susceptor protrudes from the bottom portion of the accommodating portion into the internal space. good.
- the support portion may support the susceptor by holding the susceptor at a plurality of spaced apart positions.
- An end of the electromagnetic induction source in a direction closer to the bottom of the accommodating part may be separated from the bottom of the accommodating part.
- the aerosol generation system includes a first unit having the electromagnetic induction source, and a second unit having the power supply section and the support section, and the first unit and the second unit are configured to be detachable. It's okay.
- the first unit is a cylindrical body having both ends at the first opening and a second opening opposite to the first opening, and the first unit and the second unit are arranged so that the second unit
- the accommodating portion is configured to be connected to the first unit so as to close the second opening of the unit, and the support portion is disposed in a portion of the second unit that constitutes the bottom of the accommodating portion. may be done.
- One of the first unit or the second unit has an electrode electrically connected to the electromagnetic induction source or the power source, and the other of the first unit or the second unit is capable of inserting the electrode.
- the first unit and the second unit are connected to each other, the first unit and the second unit having a hole exposing a contact to the power source or the electromagnetic induction source, and with the electrode inserted into the hole and in contact with the contact. may be done.
- the first unit is electrically conductive and has a first threaded portion that is electrically connected to the electromagnetic induction source
- the second unit is electrically conductive and electrically connected to the power source.
- the first unit and the second unit are connected by the first screw part and the second screw part being screwed together, and the first unit
- the electromagnetic induction source and the power supply section may be electrically connected via the first threaded part and the second threaded part in a state where the electromagnetic induction source and the second unit are connected.
- the aerosol generation system includes a locking mechanism that switches whether or not the first unit and the second unit can be separated, and a control section that controls the operation of the locking mechanism according to the temperature of the susceptor, and the control section
- the locking mechanism may be controlled so that the susceptor can be separated when the temperature of the susceptor is below a predetermined threshold, and the locking mechanism cannot be separated when the susceptor temperature is equal to or higher than the predetermined threshold.
- the support portion may be made of a material whose conductivity is lower than a predetermined threshold.
- a supported part made of a material whose conductivity is lower than a predetermined threshold may be provided at an end of the susceptor that is supported by the support part.
- the susceptor may be configured in a plate shape or a rod shape.
- the susceptor may be configured as a cylindrical body.
- the aerosol generation system may further include the base material.
- FIG. 1 is a diagram schematically showing an example of the basic configuration of a suction device according to the present embodiment.
- FIG. 3 is a diagram schematically showing a state in which a susceptor is removed from a suction device in a separated state.
- FIG. 3 is a diagram schematically showing a state in which a susceptor is connected to a suction device in a separated state.
- FIG. 3 is a diagram schematically showing a suction device in a completed state.
- FIG. 3 is a diagram schematically showing a stick-type base material inserted into a completed suction device. It is a flow chart which shows an example of the flow of processing performed by the suction device concerning the 1st modification. It is a figure for explaining the suction device concerning the 2nd modification.
- FIG. 1 is a diagram schematically showing an example of the basic configuration of a suction device 100 according to the present embodiment.
- the suction device 100 includes a power supply section 111, a sensor section 112, a notification section 113, a storage section 114, a communication section 115, a control section 116, a housing section 140, an electromagnetic induction source 11, and a susceptor 30.
- the stick-type base material 150 housed in the housing section 140, suction is performed by the user.
- suction is performed by the user.
- the power supply unit 111 stores power.
- the power supply unit 111 supplies power to each component of the suction device 100.
- the power supply unit 111 may be configured with a rechargeable battery such as a lithium ion secondary battery, for example.
- the power supply unit 111 may be charged by being connected to an external power supply via a USB (Universal Serial Bus) cable or the like. Further, the power supply unit 111 may be charged using wireless power transmission technology without being connected to a power transmitting device. Alternatively, only the power supply section 111 may be able to be removed from the suction device 100, or may be replaced with a new power supply section 111.
- the sensor unit 112 detects various information regarding the suction device 100. The sensor unit 112 then outputs the detected information to the control unit 116.
- the sensor unit 112 is configured by a pressure sensor such as a condenser microphone, a flow rate sensor, or a temperature sensor. When the sensor unit 112 detects a numerical value associated with suction by the user, it outputs information indicating that suction has been performed by the user to the control unit 116.
- the sensor unit 112 is configured with an input device such as a button or a switch that receives information input from the user. In particular, the sensor unit 112 may include a button for instructing start/stop of aerosol generation. The sensor unit 112 then outputs the information input by the user to the control unit 116.
- the sensor unit 112 is configured with a temperature sensor that detects the temperature of the susceptor 30. Such a temperature sensor may detect the temperature of the susceptor 30 based on the electrical resistance value of the electromagnetic induction source 11, for example.
- the notification unit 113 notifies the user of information.
- the notification unit 113 is configured with a light emitting device such as an LED (Light Emitting Diode). In that case, the notification unit 113 emits light in different light emission patterns when the power supply unit 111 requires charging, when the power supply unit 111 is charging, when an abnormality occurs in the suction device 100, etc. .
- the light emission pattern here is a concept that includes color, timing of turning on/off, and the like.
- the notification unit 113 may be configured with a display device that displays an image, a sound output device that outputs sound, a vibration device that vibrates, etc. together with or in place of the light emitting device.
- the notification unit 113 may notify information indicating that suction by the user is now possible. Information indicating that suction by the user is now possible can be notified when the temperature of the stick-shaped base material 150 that generates heat due to electromagnetic induction reaches a predetermined temperature.
- the storage unit 114 stores various information for the operation of the suction device 100.
- the storage unit 114 is configured by, for example, a nonvolatile storage medium such as a flash memory.
- An example of the information stored in the storage unit 114 is information regarding the OS (Operating System) of the suction device 100, such as control details of various components by the control unit 116.
- Another example of information stored in the storage unit 114 is information related to suction by the user, such as the number of suctions, the time of suction, and the cumulative suction time.
- the communication unit 115 is a communication interface for transmitting and receiving information between the suction device 100 and other devices.
- the communication unit 115 performs communication based on any wired or wireless communication standard.
- Such communication standards include, for example, wireless LAN (Local Area Network), wired LAN, Wi-Fi (registered trademark), Bluetooth (registered trademark), NFC (Near Field Communication), or LPWA (Low Power Wide Area). Standards etc. may be adopted.
- the control unit 116 functions as an arithmetic processing device and a control device, and controls overall operations within the suction device 100 according to various programs.
- the control unit 116 is realized by, for example, an electronic circuit such as a CPU (Central Processing Unit) and a microprocessor.
- the control unit 116 may include a ROM (Read Only Memory) that stores programs to be used, calculation parameters, etc., and a RAM (Random Access Memory) that temporarily stores parameters that change as appropriate.
- the suction device 100 executes various processes based on control by the control unit 116.
- the accommodating part 140 has an internal space 141, and holds the stick-type base material 150 while accommodating a part of the stick-type base material 150 in the internal space 141.
- the accommodating part 140 has an opening 142 that communicates the internal space 141 with the outside, and accommodates the stick-shaped base material 150 inserted into the internal space 141 from the opening 142.
- the accommodating portion 140 is a bottomed cylindrical body having an opening 142 and a bottom portion 143 at both ends, and defines a columnar internal space 141 .
- the accommodating part 140 is configured such that its inner diameter is smaller than the outer diameter of the stick-shaped base material 150 in at least a portion of the height direction of the cylindrical body, and the accommodating part 140 is configured to have an inner diameter smaller than the outer diameter of the stick-shaped base material 150 inserted into the internal space 141.
- the stick-type base material 150 can be held by pressing from the outer periphery.
- the accommodating portion 140 also has the function of defining an air flow path through the stick-shaped substrate 150.
- An air inlet hole which is an entrance of air into the flow path, is arranged, for example, at the bottom portion 143.
- the air outlet hole which is the outlet of the air from the flow path, is the opening 142.
- the stick-shaped base material 150 is a stick-shaped member.
- Stick type base material 150 includes a base material part 151 and a mouthpiece part 152.
- the base member 151 includes an aerosol source.
- the aerosol source is heated and atomized to produce an aerosol.
- the aerosol source may further include a flavor source that imparts a flavor component to the aerosol.
- the aerosol source may be derived from tobacco, such as a processed product formed from shredded tobacco or tobacco raw material into granules, sheets, or powder. Aerosol sources may also include non-tobacco sources made from plants other than tobacco, such as mint and herbs. As an example, the aerosol source may include a flavoring ingredient such as menthol. If the suction device 100 is a medical inhaler, the aerosol source may include a medicament for inhalation by the patient.
- the aerosol source is not limited to solids, and may be, for example, polyhydric alcohols such as glycerin and propylene glycol, and liquids such as water. At least a portion of the base material part 151 is accommodated in the internal space 141 of the accommodating part 140 while the stick-shaped base material 150 is held in the accommodating part 140.
- the suction part 152 is a member that is held in the user's mouth during suction. At least a portion of the mouthpiece 152 protrudes from the opening 142 when the stick-shaped base material 150 is held in the accommodating part 140. Then, when the user holds the suction port 152 protruding from the opening 142 and sucks it, air flows into the housing section 140 from an air inflow hole (not shown). The inflowing air passes through the internal space 141 of the housing part 140, that is, passes through the base material part 151, and reaches the user's mouth together with the aerosol generated from the base material part 151.
- the susceptor 30 is a member that generates heat by electromagnetic induction. That is, the susceptor 30 is a member that generates heat when a fluctuating magnetic field enters.
- the susceptor 30 is made of a conductive material such as metal. Furthermore, it is desirable that the susceptor 30 has magnetism. As an example, susceptor 30 is a piece of metal.
- the susceptor 30 is arranged so as to protrude from the bottom 143 of the housing section 140 into the internal space 141 of the housing section 140 .
- the tip of the susceptor 30 may have a sharp shape.
- the susceptor 30 is inserted into the stick-type base material 150 so as to pierce the base material part 151 of the stick-type base material 150. Then, when the susceptor 30 is heated by induction and generates heat, the aerosol source included in the stick-type base material 150 is heated and atomized to generate an aerosol.
- the electromagnetic induction source 11 heats the susceptor 30 by induction.
- the electromagnetic induction source 11 generates a fluctuating magnetic field using the power supplied from the power supply unit 111. Specifically, the electromagnetic induction source 11 generates a fluctuating magnetic field (more specifically, an alternating magnetic field) when supplied with an alternating current.
- the electromagnetic induction source 11 is arranged at a position where the internal space 141 of the housing section 140 overlaps with the generated fluctuating magnetic field.
- the electromagnetic induction source 11 is composed of, for example, a coiled conducting wire, and is arranged so as to be wound around the outer periphery of the housing section 140 . Therefore, the fluctuating magnetic field generated from the electromagnetic induction source 11 enters the susceptor 30 arranged in the internal space 141.
- the susceptor 30 As a result, eddy currents are generated in the susceptor 30 and Joule heat is generated.
- the susceptor 30 is further heated by magnetic hysteresis heating. Then, the heat generated in the susceptor 30 heats the aerosol source included in the stick-type base material 150 and atomizes it, producing an aerosol.
- the sensor unit 112 detects that a predetermined user input has been performed
- power may be supplied and an aerosol may be generated. Thereafter, when the sensor unit 112 detects that a predetermined user input has been performed, the power supply may be stopped.
- power may be supplied and aerosol may be generated during a period in which the sensor unit 112 detects that the user has performed suction.
- the combination of the suction device 100 and the stick-type base material 150 may be regarded as an aerosol generation system. This is because their cooperation makes it possible to generate an aerosol.
- Induction heating type suction devices have attracted particular attention in recent years because they have higher heating efficiency than resistance heating type suction devices.
- the susceptor In the method in which the susceptor is built into the base material, the susceptor is discarded every time the base material is consumed, resulting in an excessive burden on the environment.
- the susceptor is provided in a suction device, it takes time and effort to clean the susceptor, such as removing the contents of the stick-type base material adhering to the susceptor. Therefore, in this embodiment, a mechanism is provided in which the susceptor is removably installed in the suction device. According to this configuration, it is possible to reduce the burden on the environment and reduce the effort required to clean the susceptor.
- FIG. 2 is a diagram schematically showing a state in which the susceptor 30 is removed from the suction device 100 in a separated state.
- FIG. 3 is a diagram schematically showing how the susceptor 30 is connected to the suction device 100 in a separated state.
- FIG. 4 is a diagram schematically showing the suction device 100 in a completed state.
- FIG. 5 is a diagram schematically showing the stick-type base material 150 inserted into the completed suction device 100.
- the direction from the bottom 143 to the opening 142 is defined as an upward direction
- the direction from the opening 142 to the bottom 143 is defined as a downward direction.
- the up-down direction corresponds to the insertion/extraction direction of the stick-type base material 150.
- the vertical direction may coincide with the longitudinal direction of the suction device 100.
- the suction device 100 includes a first unit 10, a second unit 20, and a susceptor 30.
- the first unit 10 and the second unit 20 are configured to be detachable.
- the second unit 20 and the susceptor 30 are configured to be detachable. Attachment and detachment between the first unit 10 and the second unit 20 is realized by an arbitrary mechanism such as insertion and removal using unevenness or attachment and detachment using magnetic force. The same applies to the attachment and detachment of the second unit 20 and the susceptor 30.
- the state in which the first unit 10 and the second unit 20 are connected and the second unit 20 and the susceptor 30 are connected is also referred to as a completed state.
- the state in which the first unit 10 and the second unit 20 are separated is also referred to as a separated state.
- the suction device 100 heats the stick-shaped base material 150 using a button press or the like as a trigger.
- the susceptor 30 is attached and detached or the susceptor 30 is cleaned.
- the susceptor 30 can be exposed. This allows the susceptor 30 to be easily attached/detached or cleaned.
- the suction device 100 can be easily completed.
- a combination of a plurality of stick-type base materials 150 and susceptors 30 may be sold as one package.
- the user may replace the susceptor 30 each time a new package is opened, ie, each time a plurality of stick substrates 150 are consumed.
- the susceptor 30 does not need to be disposed of every time one stick-type base material 150 is consumed, so it is possible to reduce the load on the environment.
- the susceptor 30 deteriorates after being heated a plurality of times, it is possible to easily replace it with a new susceptor 30.
- the susceptor 30 may be configured in a plate shape.
- the susceptor 30 may have a plate shape with a right-angled trapezoid shape.
- the susceptor 30 may be supported by the supporting portion 21, which will be described later, with the side sandwiched between the obtuse angle and the acute angle facing upward, and the side sandwiched between the two right angles facing downward.
- the susceptor 30 may be configured such that the plate thickness becomes thinner toward the upper side.
- the upper end of the susceptor 30 can be made sharp, thereby reducing resistance when the susceptor 30 is inserted into the stick-type base material 150, and making it possible to prevent the susceptor 30 from breaking.
- the susceptor 30 may be configured in any longitudinal shape, such as a rod shape. Even in that case, it is desirable that the upper end of the susceptor 30 be configured to have a sharp shape.
- the second unit 20 has a support portion 21, two electrode receiving holes 22 (22-1 and 22-2), and a circuit board 23.
- the circuit board 23 is an example of the control section 116.
- the second unit 20 includes at least a power supply section 111 in addition to the control section 116 .
- the sensor section 112, the notification section 113, the storage section 114, and the communication section 115 are also included in the second unit 20.
- the support portion 21 supports the susceptor 30.
- the support portion 21 removably supports the susceptor 30.
- the support portion 21 may be configured as a groove to support the inserted susceptor 30. According to this configuration, the susceptor 30 can be easily replaced.
- the support section 21 supports the susceptor 30 with the susceptor 30 positioned in the internal space 141 of the housing section 140.
- the fluctuating magnetic field generated from the electromagnetic induction source 11 can enter the susceptor 30, and the susceptor 30 can be heated by induction.
- the support part 21 is arranged at the bottom part 143 of the accommodating part 140 facing the opening 142.
- the support portion 21 may be configured as a linear groove cut out of the top surface 20a of the second unit 20, which constitutes the bottom portion 143 of the storage portion 140 in the completed state.
- the support portion 21 supports the end portion of the susceptor 30 in a state where the susceptor 30 protrudes from the bottom portion 143 of the housing portion 140 into the internal space 141.
- the support part 21 is disposed on the top surface 20a of the second unit 20 at a position corresponding to the center of the bottom part 143 in the completed state, and supports the susceptor 30 so that the susceptor 30 stands upright from the bottom part 143. According to this configuration, when the stick-type base material 150 is inserted into the accommodating portion 140, the susceptor 30 can be inserted into the stick-type base material 150 so that the susceptor 30 sticks inside the stick-type base material 150. becomes possible.
- the support portion 21 is desirably made of a material whose conductivity is lower than a predetermined threshold. According to this configuration, since the support portion 21 is not heated by induction, it is possible to prevent heat transfer to other components such as the circuit board 23 and prevent failures due to heat. Furthermore, it is desirable that the support portion 21 be made of a material whose thermal conductivity is lower than a predetermined threshold. According to this configuration, it is possible to reduce heat transfer from the susceptor 30 to other components such as the circuit board 23, and to prevent failures due to heat. Examples of materials that can constitute the support portion 21 include resin materials such as PI (polyimide) or PEEK (poly ether ketone), glass materials, and the like.
- PI polyimide
- PEEK poly ether ketone
- the first unit 10 has an electromagnetic induction source 11 and two electrodes 12 (12-1 and 12-2).
- the first unit 10 is a cylindrical body having a first opening 13 and a second opening 14 opposite to the first opening 13 at both ends.
- the first unit 10 may be configured as a cylinder with openings at both ends and having a cylindrical through hole surrounded by an inner wall 15.
- the first unit 10 and the second unit 20 are connected to the first unit 10 so that the second unit 20 closes the second opening 14 of the first unit 10, and 140. More specifically, the end of the first unit 10 on the second opening 14 side and the top surface 20a of the second unit 20 are joined, and the first unit 10 and the second unit 20 are connected.
- the first opening 13 constitutes the opening 142 of the accommodating portion 140
- the portion of the top surface 20a of the second unit 20 that closes the second opening 14 constitutes the bottom portion 143 of the accommodating portion 140.
- the housing section 140 is configured by the inner wall 15 of the first unit 10 and the portion of the top surface 20a of the second unit 20 that closes the second opening 14.
- the internal space 141 is a space surrounded by the inner wall 15 of the first unit 10 and a portion of the top surface 20a of the second unit 20 that closes the second opening 14.
- the support portion 21 is disposed in a portion of the second unit 20 that constitutes the bottom portion 143 of the accommodating portion 140, that is, a portion of the top surface 20a of the second unit 20 that closes the second opening 14. According to this configuration, it is possible to attach and detach the first unit 10 and the second unit 20 while the susceptor 30 is connected to the second unit 20.
- the electromagnetic induction source 11 is a solenoid-type coil, and is arranged so as to wrap around the outside of the inner wall 15 of the first unit 10. Thereby, it is possible to generate a fluctuating magnetic field in the space inside the solenoid-type coil, that is, the internal space 141, and to heat the susceptor 30 located in the internal space 141 by induction.
- the electrode 12 is a member that electrically connects the electromagnetic induction source 11 and the power supply section 111 in the completed state. As shown in FIG. 2, electrode 12 is electrically connected to electromagnetic induction source 11. As shown in FIG. Specifically, the upper end of the electrode 12 is connected to the electromagnetic induction source 11. On the other hand, the lower end of the electrode 12 protrudes downward from the first unit 10.
- the electrode 12 is made of, for example, a material whose conductivity is higher than a predetermined threshold. An example of a material constituting the electrode 12 is a metal material such as copper or aluminum. As an example, electrode 12 may be configured as a metal rod.
- the outer periphery of the electrode 12, except for the upper and lower ends of the electrode 12, may be covered with an insulating coating 12a (12a-1 or 12a-2).
- the insulating coating 12a is made of an insulator such as polyethylene or silicone resin.
- the electrode receiving hole 22 is a hole into which the electrode 12 can be inserted. As shown in FIG. 2, the electrode receiving hole 22 has an opening in the top surface 20a of the second unit 20, and the circuit board 23 is exposed at the innermost part of the electrode receiving hole 22. In particular, the electrode receiving hole 22 exposes a contact point of the circuit board 23 to the power supply section 111.
- the electrode 12-1 is inserted into the electrode receiving hole 22-1
- the electrode 12-2 is inserted into the electrode receiving hole 22-2
- the electrode 12 is inserted into the power supply section 111 of the circuit board 23.
- the first unit 10 and the second unit 20 are connected in a state where they are in contact with the contact point.
- the electromagnetic induction source 11 and the power supply section 111 are electrically connected via the electrode 12.
- the electrical connection between the electromagnetic induction source 11 and the power supply unit 111 can be released.
- the susceptor 30 since the susceptor 30 is provided in the suction device 100, the susceptor 30 does not need to be disposed of every time the stick-shaped base material 150 is consumed, making it possible to reduce the environmental load. Furthermore, since the susceptor 30 and the stick-type base material 150 are separate bodies, it becomes possible to separate and dispose of the susceptor 30 and the stick-type base material 150. When the susceptor 30 is built into the stick-type base material 150, the susceptor 30 and the stick-type base material 150 are disposed of together without being separated. In this regard, according to this embodiment, it is possible to further reduce the environmental load.
- the susceptor 30 is exposed and can be easily cleaned. Moreover, when the susceptor 30 deteriorates, it becomes possible to easily replace the susceptor 30.
- the suction device 100 may have a lock mechanism that switches whether or not the first unit 10 and the second unit 20 can be separated. Making the connected first unit 10 and second unit 20 impossible to separate is also called locking. On the other hand, enabling the connected first unit 10 and second unit 20 to be separated is also referred to as unlocking.
- the control unit 116 may control the operation of the locking mechanism. Specifically, the control unit 116 may lock or release the lock. As an example, the locking mechanism may be realized by a groove and a claw that can be inserted into and removed from the groove.
- the suction device 100 may further include an actuator for inserting and extracting the claw into the groove, and the control unit 116 may control the operation of the locking mechanism by operating the actuator.
- FIG. 6 is a flowchart illustrating an example of the flow of processing executed by the suction device 100 according to the first modification.
- the control unit 116 determines whether the temperature of the susceptor 30 is less than a predetermined threshold (step S102). If it is determined that the temperature of the susceptor 30 is less than the predetermined threshold (step S102: YES), the control unit 116 controls the locking mechanism to release the lock (step S104).
- the control unit 116 controls the locking mechanism to lock (step S106).
- the predetermined threshold value is set to a temperature at which a user will not get burned even if he or she touches the susceptor 30 with a finger. According to this configuration, the first unit 10 and the second unit 20 are separated when the susceptor 30 is at a high temperature, and it is possible to prevent a situation where the user touches the susceptor 30 and suffers a burn.
- the temperature sensor may be configured as a thermistor, for example, and may be provided in the second unit 20.
- the temperature detected by the temperature sensor may be used to control the temperature of the susceptor 30 in addition to controlling the operation of the lock mechanism.
- the control unit 116 may control the power supply from the power supply unit 111 to the electromagnetic induction source 11 so that the temperature of the susceptor 30 detected by the temperature sensor changes at a desired temperature.
- FIG. 7 is a diagram for explaining a suction device 100 according to a second modified example.
- FIG. 7 schematically shows an example of a cross section of the suction device 100 in a completed state, which is perpendicular to the thickness direction of the susceptor 30.
- the support portion 21 supports the susceptor 30 in a state where at least a portion of the susceptor 30 is surrounded by the electromagnetic induction source 11.
- the end of the coil of the electromagnetic induction source 11 in the direction closer to the bottom 143 ie, downward
- the part at a distance L from the bottom part 143 is not surrounded by the electromagnetic induction source 11. You can do it like this. As a result, it is possible to reduce the amount of intrusion of the fluctuating magnetic field into the part, and reduce the amount of heat generated in the part. Therefore, it is possible to reduce heat transfer from the susceptor 30 to the second unit 20 and prevent failures caused by heat. Furthermore, when the stick-type base material 150 is heated, the tip of the stick-type base material 150 is less likely to be heated, so it is possible to reduce the risk of the contents spilling out from the tip of the stick-type base material 150 after heating. becomes.
- FIG. 8 is a diagram for explaining a suction device 100 according to a third modified example.
- a supported portion 30a may be provided at the end of the susceptor 30 that is supported by the support portion 21.
- the supported part 30a is a member supported by the support part 21.
- the supported portion 30a is made of a material whose conductivity is lower than a predetermined threshold. According to this configuration, the supported portion 30a is not heated by induction, so that it is possible to prevent heat transfer to the second unit 20 and prevent failures due to heat. Furthermore, it is desirable that the supported part 30a be made of a material whose thermal conductivity is lower than a predetermined threshold value.
- the supported portion 30a examples include resin materials such as PI (polyimide) or PEEK (poly ether ketone), or glass materials.
- the supported portion 30a may be configured by coating the end portion of the susceptor 30 with a resin material.
- FIG. 9 is a diagram for explaining a suction device 100 according to a fourth modification.
- FIG. 9 schematically shows an example of a cross section of the completed suction device 100 perpendicular to the width direction of the susceptor 30.
- the support portion 21 may be configured as a groove that is embedded in the top surface 20a of the second unit 20 and has an inner wall that is uneven in a bellows shape.
- protrusions 21a-1 and 21a-2 facing each other and protrusions 21b-1 and 21b-2 facing each other are provided spaced apart.
- the support part 21 supports the lower end of the susceptor 30 with the bottom part 21c, and supports two separated points of the susceptor 30 with the opposing protrusions 21a-1 and 21a-2 and the opposing protrusions 21b-1 and 21b. -2.
- the support section 21 may support the susceptor 30 by holding the susceptor 30 at a plurality of spaced apart positions. According to this configuration, it is possible to reduce the contact area between the susceptor 30 and the support portion 21. As a result, it is possible to reduce heat transfer from the susceptor 30 to the second unit 20 and prevent failures due to heat.
- FIG. 10 is a diagram for explaining a suction device 100 according to a fourth modification.
- FIG. 10 schematically shows an example of a cross section of the completed suction device 100 perpendicular to the width direction of the susceptor 30.
- the support portion 21 may be constituted by two plate-like members 21d-1 and 21d-2 bent so as to warp with each other.
- the plate-like members 21d-1 and 21d-2 are arranged on the top surface 20a of the second unit 20 so that the distance between the opposing plane portions 21e-1 and 21e-2 is shorter than the thickness of the susceptor 30. spaced apart from each other.
- the support section 21 may be configured in a clip shape and support the susceptor 30 on the top surface 20a.
- FIG. 11 is a diagram for explaining a suction device 100 according to a fifth modification.
- the suction device 100 does not need to have the electrode 12 and the electrode receiving hole 22.
- the first unit 10 may have the first threaded portion 16 and the second unit 20 may have the second threaded portion 24.
- the first screw portion 16 and the second screw portion 24 are configured to be screwable with each other.
- the second threaded portion 24 may be configured as a screw with a thread provided on the outer periphery, and may be provided at the upper end of the second unit 20.
- the first threaded part 16 is configured as a screw receiver capable of receiving a screw as the second threaded part 24, and may be provided at the lower end of the inner wall 15.
- the first unit 10 and the second unit 20 constitute a housing section 140 in a connected state. More specifically, the first opening 13 constitutes an opening 142 of the accommodating portion 140, and the top surface 20a of the screw tip portion of the second unit 20 closes the second opening 14 and constitutes the bottom portion 143. Then, the inner wall 15 of the first unit 10 and the top surface 20a of the screw tip portion of the second unit 20 constitute a housing portion 140.
- the support portion 21 is arranged on the top surface 20a of the screw tip portion of the second unit 20. According to this configuration, while the susceptor 30 is connected to the second unit 20, the first screw portion 16 and the second screw portion 24 are screwed together or unscrewed, and the first unit 10 and the second screw portion 24 are screwed together. It becomes possible to attach and detach the two units 20.
- the first threaded portion 16 may have conductivity and be electrically connected to the electromagnetic induction source 11.
- the second threaded part 24 may have conductivity and be electrically connected to the power supply part 111. Then, in a state where the first unit 10 and the second unit 20 are connected, the electromagnetic induction source 11 and the power supply part 111 are electrically connected via the first threaded part 16 and the second threaded part 24. It's okay.
- the upper half and the lower half of the first threaded portion 16 and the second threaded portion 24 may be insulated, and one may function as the electrode 12-1 and the other may function as the electrode 12-2.
- FIGS. 12 and 13 are diagrams for explaining a suction device 100 according to a sixth modification example.
- FIG. 12 schematically shows the suction device 100 in a separated state.
- FIG. 13 schematically shows how the stick-shaped base material 150 is inserted into the completed suction device 100.
- the susceptor 30 may be configured as a cylindrical body.
- the susceptor 30 may have a cylindrical shape.
- the support portion 21 may be configured as a groove formed by hollowing out the top surface 20a of the second unit 20 in an annular shape, and the susceptor 30 may be inserted into the groove.
- the outer diameter of the cylindrical susceptor 30 may be the same as the inner diameter of the cylindrical first unit 10. In that case, as shown in FIG. 13, in the completed state, the susceptor 30 is supported by the support portion 21 with the outer wall 31 of the susceptor 30 in contact with the inner wall 15 of the first unit 10.
- the inner diameter of the cylindrical susceptor 30 may be the same as the outer diameter of the stick-shaped base material 150. In that case, when the stick-type base material 150 is housed in the housing section 140 in the completed state, the inner wall 32 of the susceptor 30 will come into contact with the outer periphery of the stick-type base material 150. Therefore, when the susceptor 30 is heated by induction, it becomes possible to heat the stick-shaped base material 150 from the outer periphery.
- FIG. 14 is a diagram for explaining a suction device 100 according to a seventh modification.
- FIG. 14 schematically shows an example of a cross section of the suction device 100 in a separated state perpendicular to the width direction of the susceptor 30.
- the electromagnetic induction source 11 may be provided in the second unit 20 instead of the first unit 10. That is, the second unit 20 may include the electromagnetic induction source 11, the support section 21, and the circuit board 23 (and the power supply section 111).
- the electromagnetic induction source 11 and the circuit board 23 (more specifically, the power supply section 111) may be electrically connected by a conductive wire instead of the electrode 12.
- the first unit 10 and the second unit 20 are connected by a hinge 40 so that they can be opened and closed.
- the first unit 10 and the second unit 20 can be separated by opening the hinge 40, and the first unit 10 and the second unit 20 can be connected by closing the hinge 40.
- the internal space 141 of the housing section 140 is realized as a space sandwiched between the first unit 10 and the second unit 20 that are connected.
- the electromagnetic induction source 11 is configured as a transverse coil.
- a transverse coil inductively heats an object to be heated by passing an alternating magnetic flux formed along the axial direction of the coil through the object to be heated, which is spaced apart in the axial direction of the coil.
- the electromagnetic induction source 11 configured as a transverse coil is arranged with its axial direction facing the internal space 141. Therefore, the stick-shaped base material 150 housed in the housing section 140 can be heated by induction.
- the susceptor 30 is attached to and detached from the second unit 20 in a state where the first unit 10 and the second unit 20 are separated, but the present invention is limited to such an example. Not done.
- the susceptor 30 may be attached to and detached from the second unit 20 while the first unit 10 and the second unit 20 are connected.
- the first unit 10 and the second unit 20 may be configured to be non-removable.
- the susceptor 30 may be attached to and detached from the first unit 10 and the second unit 20, which are configured as one unit. For example, by inserting tweezers or the like into the internal space 141 through the opening 142, it is possible to attach and detach the susceptor 30 while keeping the first unit 10 and the second unit 20 connected.
- the second unit 20 may have an electrode electrically connected to the power supply section 111.
- the first unit 10 may have an electrode receiving hole into which an electrode can be inserted and which exposes the contact to the electromagnetic induction source 11. Then, the first unit 10 and the second unit 20 may be connected with the electrode inserted into the electrode receiving hole and in contact with the contact point to the electromagnetic induction source 11. According to this configuration, similarly to the above embodiment, the electromagnetic induction source 11 and the power supply section 111 are electrically connected in the completed state, and the electromagnetic induction source 11 and the power supply section 111 are electrically connected in the separated state. It becomes possible to cancel the release.
- each device described in this specification may be realized using software, hardware, or a combination of software and hardware.
- a program constituting the software is stored in advance, for example, in a recording medium (specifically, a computer-readable non-temporary storage medium) provided inside or outside each device.
- each program is read into the RAM when executed by a computer that controls each device described in this specification, and is executed by a processing circuit such as a CPU.
- the recording 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, for example, via a network, without using a recording medium.
- the above-mentioned computer may be an application-specific integrated circuit such as an ASIC, a general-purpose processor that executes functions by loading a software program, or a computer on a server used for cloud computing. Furthermore, a series of processes performed by each device described in this specification may be distributed and processed by multiple computers.
- An aerosol generation system that generates aerosol by heating an aerosol source, the system comprising: power supply section, an electromagnetic induction source that generates a fluctuating magnetic field using electric power supplied from the power supply unit; a support portion that removably supports a susceptor that generates heat and heats the aerosol source when the fluctuating magnetic field enters;
- An aerosol generation system comprising: (2) The aerosol generation system has an internal space and a first opening that opens the internal space to the outside, and includes a housing section that accommodates a base material containing the aerosol source inserted through the first opening, The electromagnetic induction source is arranged at a position where the generated fluctuating magnetic field is superimposed on the internal space, The support part supports the susceptor in a state where the susceptor is located in the internal space of the accommodating part.
- the aerosol generation system according to (1) above (3)
- the support portion is disposed at a bottom portion of the accommodating portion facing the first opening, and supports an end portion of the susceptor in a state where the susceptor protrudes from the bottom portion of the accommodating portion into the internal space.
- the support part supports the susceptor by holding the susceptor at a plurality of spaced apart positions.
- An end of the electromagnetic induction source in a direction closer to the bottom of the housing is spaced apart from the bottom of the housing.
- the aerosol generation system includes: a first unit having the electromagnetic induction source; a second unit having the power supply section and the support section; Equipped with The first unit and the second unit are configured to be detachable.
- the aerosol generation system according to any one of (2) to (5) above.
- the first unit is a cylindrical body having both ends at the first opening and a second opening opposite to the first opening, The first unit and the second unit constitute the accommodating part in a state where the second unit is connected to the first unit so as to close the second opening of the first unit,
- the support part is arranged in a part of the second unit that constitutes a bottom part of the storage part,
- the aerosol generation system according to (6) above.
- One of the first unit or the second unit has an electrode electrically connected to the electromagnetic induction source or the power source,
- the other of the first unit or the second unit has a hole into which the electrode can be inserted and exposes a contact to the power supply unit or the electromagnetic induction source,
- the first unit and the second unit are connected with the electrode inserted into the hole and in contact with the contact.
- the first unit has a first threaded portion that is electrically conductive and electrically connected to the electromagnetic induction source
- the second unit has conductivity and has a second screw portion electrically connected to the power source
- the first unit and the second unit are connected by the first screwing part and the second screwing part being screwed together, In a state where the first unit and the second unit are connected, the electromagnetic induction source and the power supply section are electrically connected via the first threaded part and the second threaded part,
- the aerosol generation system according to (7) above.
- the aerosol generation system includes: a locking mechanism that switches whether or not the first unit and the second unit can be separated; a control unit that controls the operation of the locking mechanism according to the temperature of the susceptor; Equipped with The control unit controls the locking mechanism so that the susceptor can be separated when the temperature of the susceptor is less than a predetermined threshold, and the locking mechanism is not separable when the susceptor temperature is equal to or higher than the predetermined threshold.
- the aerosol generation system according to any one of (6) to (9) above.
- the support portion is made of a material whose conductivity is lower than a predetermined threshold.
- the aerosol generation system according to any one of (1) to (10) above.
- a supported part made of a material whose conductivity is lower than a predetermined threshold is provided at an end of the susceptor supported by the support part.
- the aerosol generation system according to any one of (1) to (11) above.
- the susceptor is configured in a plate shape or a rod shape, The aerosol generation system according to any one of (1) to (12) above.
- the susceptor is configured as a cylindrical body, The aerosol generation system according to any one of (1) to (12) above.
- the aerosol generation system further includes the base material, The aerosol generation system according to any one of (2) to (10) above.
- Suction device 111 Power supply section 112 Sensor section 113 Notification section 114 Storage section 115 Communication section 116 Control section 121 Heating section 140 Storage section 141 Internal space 142 Opening 143 Bottom section 150 Stick type base material 151 Base section 152 Mouthpiece section 10 First unit 11 Electromagnetic induction source 12 Electrode 13 First opening 14 Second opening 15 Inner wall 16 First threaded part 20 Second unit 20a Top surface 21 Support part 22 Electrode receiving hole 23 Circuit board 24 Second threaded part 30 Susceptor (30a: supported part, 31: outer wall, 32: inner wall) 40 Hinge
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Abstract
[Problem] To provide a system which can lessen environmental burdens. [Solution] An aerosol generation system in which an aerosol source is heated to generate an aerosol and which comprises: an electric power part; an electromagnetic induction source which generates an alternating magnetic field using electric power supplied from the electric power part; and a support part whereby a susceptor is detachably supported, the susceptor, upon penetration of the alternating magnetic field, generating heat to thereby heat the aerosol source.
Description
本発明は、エアロゾル生成システムに関する。
The present invention relates to an aerosol generation system.
電子タバコ及びネブライザ等の、ユーザに吸引される物質を生成する吸引装置が広く普及している。例えば、吸引装置は、エアロゾルを生成するためのエアロゾル源、及び生成されたエアロゾルに香味成分を付与するための香味源等を含む基材を用いて、香味成分が付与されたエアロゾルを生成する。ユーザは、吸引装置により生成された、香味成分が付与されたエアロゾルを吸引することで、香味を味わうことができる。ユーザがエアロゾルを吸引する動作を、以下ではパフ又はパフ動作とも称する。
Inhalation devices, such as electronic cigarettes and nebulizers, that produce substances that are inhaled by a user are widespread. For example, a suction device generates an aerosol to which a flavor component has been added using a base material that includes an aerosol source for generating an aerosol, a flavor source for imparting a flavor component to the generated aerosol, and the like. The user can taste the flavor by inhaling the aerosol to which the flavor component is added, which is generated by the suction device. The action of the user inhaling an aerosol will also be referred to below as a puff or a puff action.
これまでは、抵抗発熱体を用いる抵抗加熱式の吸引装置が主流であった。しかし近年では、電磁誘導源を用いてサセプタを誘導加熱することでエアロゾルを生成する、誘導加熱式の吸引装置が注目を集めている。例えば、下記特許文献1には、基材に含有されたサセプタを誘導加熱する、誘導加熱式の吸引装置が開示されている。
Until now, resistance heating type suction devices using resistance heating elements have been the mainstream. However, in recent years, induction-heating suction devices that generate aerosol by induction-heating a susceptor using an electromagnetic induction source have attracted attention. For example, Patent Document 1 listed below discloses an induction heating type suction device that induction heats a susceptor contained in a base material.
上記特許文献1に開示された技術によれば、基材が消費される度にサセプタが使い捨てされるので、環境に対する負荷が過大であった。
According to the technology disclosed in Patent Document 1, the susceptor is discarded every time the base material is consumed, resulting in an excessive burden on the environment.
そこで、本発明は、上記問題に鑑みてなされたものであり、本発明の目的とするところは、環境負荷を軽減することが可能な仕組みを提供することにある。
Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide a mechanism that can reduce the environmental load.
上記課題を解決するために、本発明のある観点によれば、エアロゾル源を加熱してエアロゾルを生成するエアロゾル生成システムであって、電源部と、前記電源部から供給された電力を使用して変動磁場を発生させる電磁誘導源と、前記変動磁場が侵入した場合に発熱し前記エアロゾル源を加熱するサセプタを着脱可能に支持する支持部と、を備えるエアロゾル生成システムが提供される。
In order to solve the above problems, according to one aspect of the present invention, there is provided an aerosol generation system that generates aerosol by heating an aerosol source, the system comprising: a power supply section; and an electric power supplied from the power supply section. An aerosol generation system is provided that includes an electromagnetic induction source that generates a fluctuating magnetic field, and a support that removably supports a susceptor that generates heat and heats the aerosol source when the fluctuating magnetic field enters.
前記エアロゾル生成システムは、内部空間及び前記内部空間を外部に開放する第1開口を有し、前記第1開口から挿入された前記エアロゾル源を含有する基材を収容する収容部を備え、前記電磁誘導源は、発生させた前記変動磁場が前記内部空間に重畳する位置に配置され、前記支持部は、前記サセプタが前記収容部の前記内部空間に位置した状態で前記サセプタを支持してもよい。
The aerosol generation system has an internal space and a first opening that opens the internal space to the outside, and includes a housing section that accommodates a base material containing the aerosol source inserted from the first opening, and the electromagnetic The induction source may be placed at a position where the generated fluctuating magnetic field is superimposed on the internal space, and the support section may support the susceptor while the susceptor is located in the internal space of the housing section. .
前記支持部は、前記第1開口に対向する前記収容部の底部に配置され、前記サセプタが前記収容部の前記底部から前記内部空間に突出した状態で、前記サセプタの端部を支持してもよい。
The support portion may be disposed at a bottom portion of the accommodating portion facing the first opening, and may support an end portion of the susceptor in a state where the susceptor protrudes from the bottom portion of the accommodating portion into the internal space. good.
前記支持部は、前記サセプタを複数の離隔した位置で挟持することで、前記サセプタを支持してもよい。
The support portion may support the susceptor by holding the susceptor at a plurality of spaced apart positions.
前記電磁誘導源のうち前記収容部の前記底部に近い方向の端部は、前記収容部の前記底部から離隔してもよい。
An end of the electromagnetic induction source in a direction closer to the bottom of the accommodating part may be separated from the bottom of the accommodating part.
前記エアロゾル生成システムは、前記電磁誘導源を有する第1ユニットと、前記電源部及び前記支持部を有する第2ユニットと、を備え、前記第1ユニットと前記第2ユニットとは着脱可能に構成されてもよい。
The aerosol generation system includes a first unit having the electromagnetic induction source, and a second unit having the power supply section and the support section, and the first unit and the second unit are configured to be detachable. It's okay.
前記第1ユニットは、前記第1開口及び前記第1開口に対向する第2開口を両端とする筒状体であり、前記第1ユニット及び前記第2ユニットは、前記第2ユニットが前記第1ユニットの前記第2開口を塞ぐようにして前記第1ユニットに接続された状態で前記収容部を構成し、前記支持部は、前記第2ユニットのうち前記収容部の底部を構成する部分に配置されてもよい。
The first unit is a cylindrical body having both ends at the first opening and a second opening opposite to the first opening, and the first unit and the second unit are arranged so that the second unit The accommodating portion is configured to be connected to the first unit so as to close the second opening of the unit, and the support portion is disposed in a portion of the second unit that constitutes the bottom of the accommodating portion. may be done.
前記第1ユニット又は前記第2ユニットの一方は、前記電磁誘導源又は前記電源に電気的に接続された電極を有し、前記第1ユニット又は前記第2ユニットの他方は、前記電極を挿入可能であって前記電源部又は前記電磁誘導源への接点を露出する孔を有し、前記電極が前記孔に挿入され前記接点に接触した状態で、前記第1ユニットと前記第2ユニットとは接続されてもよい。
One of the first unit or the second unit has an electrode electrically connected to the electromagnetic induction source or the power source, and the other of the first unit or the second unit is capable of inserting the electrode. The first unit and the second unit are connected to each other, the first unit and the second unit having a hole exposing a contact to the power source or the electromagnetic induction source, and with the electrode inserted into the hole and in contact with the contact. may be done.
前記第1ユニットは、導電性を有し、前記電磁誘導源に電気的に接続された第1螺合部を有し、前記第2ユニットは、導電性を有し、前記電源に電気的に接続された第2螺合部を有し、前記第1ユニットと前記第2ユニットとは、前記第1螺合部及び前記第2螺合部が螺合することで接続され、前記第1ユニットと前記第2ユニットとが接続された状態で、前記電磁誘導源と前記電源部とは前記第1螺合部及び前記第2螺合部を介して電気的に接続されてもよい。
The first unit is electrically conductive and has a first threaded portion that is electrically connected to the electromagnetic induction source, and the second unit is electrically conductive and electrically connected to the power source. The first unit and the second unit are connected by the first screw part and the second screw part being screwed together, and the first unit The electromagnetic induction source and the power supply section may be electrically connected via the first threaded part and the second threaded part in a state where the electromagnetic induction source and the second unit are connected.
前記エアロゾル生成システムは、前記第1ユニットと前記第2ユニットとの分離可否を切り替えるロック機構と、前記サセプタの温度に応じて前記ロック機構の動作を制御する制御部と、を備え、前記制御部は、前記サセプタの温度が所定の閾値未満である場合に分離可能となり、前記サセプタの温度が前記所定の閾値以上である場合に分離不可能となるよう、前記ロック機構を制御してもよい。
The aerosol generation system includes a locking mechanism that switches whether or not the first unit and the second unit can be separated, and a control section that controls the operation of the locking mechanism according to the temperature of the susceptor, and the control section The locking mechanism may be controlled so that the susceptor can be separated when the temperature of the susceptor is below a predetermined threshold, and the locking mechanism cannot be separated when the susceptor temperature is equal to or higher than the predetermined threshold.
前記支持部は、導電性が所定の閾値よりも低い材料により構成されてもよい。
The support portion may be made of a material whose conductivity is lower than a predetermined threshold.
前記サセプタのうち、前記支持部により支持される端部に、導電性が所定の閾値よりも低い材料により構成された被支持部が設けられてもよい。
A supported part made of a material whose conductivity is lower than a predetermined threshold may be provided at an end of the susceptor that is supported by the support part.
前記サセプタは、板状又は棒状に構成されてもよい。
The susceptor may be configured in a plate shape or a rod shape.
前記サセプタは、筒状体として構成されてもよい。
The susceptor may be configured as a cylindrical body.
前記エアロゾル生成システムは、前記基材をさらに備えてもよい。
The aerosol generation system may further include the base material.
以上説明したように本発明によれば、環境負荷を軽減することが可能な仕組みが提供される。
As explained above, according to the present invention, a mechanism that can reduce environmental load is provided.
以下に添付図面を参照しながら、本発明の好適な実施の形態について詳細に説明する。なお、本明細書及び図面において、実質的に同一の機能構成を有する構成要素については、同一の符号を付することにより重複説明を省略する。
Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. Note that, in this specification and the drawings, components having substantially the same functional configurations are designated by the same reference numerals and redundant explanation will be omitted.
<1.基本的な構成例>
以下、図1を参照しながら、本実施形態に係る吸引装置100の基本的な構成について説明する。 <1. Basic configuration example>
Hereinafter, the basic configuration of thesuction device 100 according to this embodiment will be described with reference to FIG. 1.
以下、図1を参照しながら、本実施形態に係る吸引装置100の基本的な構成について説明する。 <1. Basic configuration example>
Hereinafter, the basic configuration of the
図1は、本実施形態に係る吸引装置100の基本的な構成の一例を模式的に示す図である。図1に示すように、本実施形態に係る吸引装置100は、電源部111、センサ部112、通知部113、記憶部114、通信部115、制御部116、収容部140、電磁誘導源11、及びサセプタ30を含む。収容部140にスティック型基材150が収容された状態で、ユーザによる吸引が行われる。以下、各構成要素について順に説明する。
FIG. 1 is a diagram schematically showing an example of the basic configuration of a suction device 100 according to the present embodiment. As shown in FIG. 1, the suction device 100 according to the present embodiment includes a power supply section 111, a sensor section 112, a notification section 113, a storage section 114, a communication section 115, a control section 116, a housing section 140, an electromagnetic induction source 11, and a susceptor 30. With the stick-type base material 150 housed in the housing section 140, suction is performed by the user. Each component will be explained in order below.
電源部111は、電力を蓄積する。そして、電源部111は、吸引装置100の各構成要素に、電力を供給する。電源部111は、例えば、リチウムイオン二次電池等の充電式バッテリにより構成され得る。電源部111は、USB(Universal Serial Bus)ケーブル等により外部電源に接続されることで、充電されてもよい。また、電源部111は、ワイヤレス電力伝送技術により送電側のデバイスに非接続な状態で充電されてもよい。他にも、電源部111のみを吸引装置100から取り外すことができてもよく、新しい電源部111と交換することができてもよい。
The power supply unit 111 stores power. The power supply unit 111 supplies power to each component of the suction device 100. The power supply unit 111 may be configured with a rechargeable battery such as a lithium ion secondary battery, for example. The power supply unit 111 may be charged by being connected to an external power supply via a USB (Universal Serial Bus) cable or the like. Further, the power supply unit 111 may be charged using wireless power transmission technology without being connected to a power transmitting device. Alternatively, only the power supply section 111 may be able to be removed from the suction device 100, or may be replaced with a new power supply section 111.
センサ部112は、吸引装置100に関する各種情報を検出する。そして、センサ部112は、検出した情報を制御部116に出力する。一例として、センサ部112は、コンデンサマイクロホン等の圧力センサ、流量センサ又は温度センサにより構成される。そして、センサ部112は、ユーザによる吸引に伴う数値を検出した場合に、ユーザによる吸引が行われたことを示す情報を制御部116に出力する。他の一例として、センサ部112は、ボタン又はスイッチ等の、ユーザからの情報の入力を受け付ける入力装置により構成される。とりわけ、センサ部112は、エアロゾルの生成開始/停止を指示するボタンを含み得る。そして、センサ部112は、ユーザにより入力された情報を制御部116に出力する。他の一例として、センサ部112は、サセプタ30の温度を検出する温度センサにより構成される。かかる温度センサは、例えば、電磁誘導源11の電気抵抗値に基づいてサセプタ30の温度を検出してもよい。
The sensor unit 112 detects various information regarding the suction device 100. The sensor unit 112 then outputs the detected information to the control unit 116. As an example, the sensor unit 112 is configured by a pressure sensor such as a condenser microphone, a flow rate sensor, or a temperature sensor. When the sensor unit 112 detects a numerical value associated with suction by the user, it outputs information indicating that suction has been performed by the user to the control unit 116. As another example, the sensor unit 112 is configured with an input device such as a button or a switch that receives information input from the user. In particular, the sensor unit 112 may include a button for instructing start/stop of aerosol generation. The sensor unit 112 then outputs the information input by the user to the control unit 116. As another example, the sensor unit 112 is configured with a temperature sensor that detects the temperature of the susceptor 30. Such a temperature sensor may detect the temperature of the susceptor 30 based on the electrical resistance value of the electromagnetic induction source 11, for example.
通知部113は、情報をユーザに通知する。一例として、通知部113は、LED(Light Emitting Diode)などの発光装置により構成される。その場合、通知部113は、電源部111の状態が要充電である場合、電源部111が充電中である場合、及び吸引装置100に異常が発生した場合等に、それぞれ異なる発光パターンで発光する。ここでの発光パターンとは、色、及び点灯/消灯のタイミング等を含む概念である。通知部113は、発光装置と共に、又は代えて、画像を表示する表示装置、音を出力する音出力装置、及び振動する振動装置等により構成されてもよい。他にも、通知部113は、ユーザによる吸引が可能になったことを示す情報を通知してもよい。ユーザによる吸引が可能になったことを示す情報は、電磁誘導により発熱したスティック型基材150の温度が所定の温度に達した場合に、通知され得る。
The notification unit 113 notifies the user of information. As an example, the notification unit 113 is configured with a light emitting device such as an LED (Light Emitting Diode). In that case, the notification unit 113 emits light in different light emission patterns when the power supply unit 111 requires charging, when the power supply unit 111 is charging, when an abnormality occurs in the suction device 100, etc. . The light emission pattern here is a concept that includes color, timing of turning on/off, and the like. The notification unit 113 may be configured with a display device that displays an image, a sound output device that outputs sound, a vibration device that vibrates, etc. together with or in place of the light emitting device. In addition, the notification unit 113 may notify information indicating that suction by the user is now possible. Information indicating that suction by the user is now possible can be notified when the temperature of the stick-shaped base material 150 that generates heat due to electromagnetic induction reaches a predetermined temperature.
記憶部114は、吸引装置100の動作のための各種情報を記憶する。記憶部114は、例えば、フラッシュメモリ等の不揮発性の記憶媒体により構成される。記憶部114に記憶される情報の一例は、制御部116による各種構成要素の制御内容等の、吸引装置100のOS(Operating System)に関する情報である。記憶部114に記憶される情報の他の一例は、吸引回数、吸引時刻、吸引時間累計等の、ユーザによる吸引に関する情報である。
The storage unit 114 stores various information for the operation of the suction device 100. The storage unit 114 is configured by, for example, a nonvolatile storage medium such as a flash memory. An example of the information stored in the storage unit 114 is information regarding the OS (Operating System) of the suction device 100, such as control details of various components by the control unit 116. Another example of information stored in the storage unit 114 is information related to suction by the user, such as the number of suctions, the time of suction, and the cumulative suction time.
通信部115は、吸引装置100と他の装置との間で情報を送受信するための、通信インタフェースである。通信部115は、有線又は無線の任意の通信規格に準拠した通信を行う。かかる通信規格としては、例えば、無線LAN(Local Area Network)、有線LAN、Wi-Fi(登録商標)、Bluetooth(登録商標)、NFC(Near Field Communication)、又はLPWA(Low Power Wide Area)を用いる規格等が採用され得る。
The communication unit 115 is a communication interface for transmitting and receiving information between the suction device 100 and other devices. The communication unit 115 performs communication based on any wired or wireless communication standard. Such communication standards include, for example, wireless LAN (Local Area Network), wired LAN, Wi-Fi (registered trademark), Bluetooth (registered trademark), NFC (Near Field Communication), or LPWA (Low Power Wide Area). Standards etc. may be adopted.
制御部116は、演算処理装置及び制御装置として機能し、各種プログラムに従って吸引装置100内の動作全般を制御する。制御部116は、例えばCPU(Central Processing Unit)、及びマイクロプロセッサ等の電子回路によって実現される。他に、制御部116は、使用するプログラム及び演算パラメータ等を記憶するROM(Read Only Memory)、並びに適宜変化するパラメータ等を一時記憶するRAM(Random Access Memory)を含んでいてもよい。吸引装置100は、制御部116による制御に基づいて、各種処理を実行する。電源部111から他の各構成要素への給電、電源部111の充電、センサ部112による情報の検出、通知部113による情報の通知、記憶部114による情報の記憶及び読み出し、並びに通信部115による情報の送受信は、制御部116により制御される処理の一例である。各構成要素への情報の入力、及び各構成要素から出力された情報に基づく処理等、吸引装置100により実行されるその他の処理も、制御部116により制御される。
The control unit 116 functions as an arithmetic processing device and a control device, and controls overall operations within the suction device 100 according to various programs. The control unit 116 is realized by, for example, an electronic circuit such as a CPU (Central Processing Unit) and a microprocessor. In addition, the control unit 116 may include a ROM (Read Only Memory) that stores programs to be used, calculation parameters, etc., and a RAM (Random Access Memory) that temporarily stores parameters that change as appropriate. The suction device 100 executes various processes based on control by the control unit 116. Power supply from the power supply unit 111 to each other component, charging of the power supply unit 111, detection of information by the sensor unit 112, notification of information by the notification unit 113, storage and reading of information by the storage unit 114, and communication unit 115 Transmission and reception of information is an example of processing controlled by the control unit 116. Other processes performed by the suction device 100, such as inputting information to each component and processing based on information output from each component, are also controlled by the control unit 116.
収容部140は、内部空間141を有し、内部空間141にスティック型基材150の一部を収容しながらスティック型基材150を保持する。収容部140は、内部空間141を外部に連通する開口142を有し、開口142から内部空間141に挿入されたスティック型基材150を収容する。例えば、収容部140は、開口142及び底部143を両端とする有底の筒状体であり、柱状の内部空間141を画定する。収容部140は、筒状体の高さ方向の少なくとも一部において、内径がスティック型基材150の外径よりも小さくなるように構成され、内部空間141に挿入されたスティック型基材150を外周から圧迫するようにしてスティック型基材150を保持し得る。収容部140は、スティック型基材150を通る空気の流路を画定する機能も有する。かかる流路内への空気の入り口である空気流入孔は、例えば底部143に配置される。他方、かかる流路からの空気の出口である空気流出孔は、開口142である。
The accommodating part 140 has an internal space 141, and holds the stick-type base material 150 while accommodating a part of the stick-type base material 150 in the internal space 141. The accommodating part 140 has an opening 142 that communicates the internal space 141 with the outside, and accommodates the stick-shaped base material 150 inserted into the internal space 141 from the opening 142. For example, the accommodating portion 140 is a bottomed cylindrical body having an opening 142 and a bottom portion 143 at both ends, and defines a columnar internal space 141 . The accommodating part 140 is configured such that its inner diameter is smaller than the outer diameter of the stick-shaped base material 150 in at least a portion of the height direction of the cylindrical body, and the accommodating part 140 is configured to have an inner diameter smaller than the outer diameter of the stick-shaped base material 150 inserted into the internal space 141. The stick-type base material 150 can be held by pressing from the outer periphery. The accommodating portion 140 also has the function of defining an air flow path through the stick-shaped substrate 150. An air inlet hole, which is an entrance of air into the flow path, is arranged, for example, at the bottom portion 143. On the other hand, the air outlet hole, which is the outlet of the air from the flow path, is the opening 142.
スティック型基材150は、スティック型の部材である。スティック型基材150は、基材部151、及び吸口部152を含む。
The stick-shaped base material 150 is a stick-shaped member. Stick type base material 150 includes a base material part 151 and a mouthpiece part 152.
基材部151は、エアロゾル源を含む。エアロゾル源は、加熱されることで霧化され、エアロゾルが生成される。エアロゾル源は、エアロゾルに香味成分を付与する香味源をさらに含んでいてもよい。エアロゾル源は、例えば、刻みたばこ又はたばこ原料を、粒状、シート状、又は粉末状に成形した加工物などの、たばこ由来のものであってもよい。また、エアロゾル源は、たばこ以外の植物(例えばミント及びハーブ等)から作られた、非たばこ由来のものを含んでいてもよい。一例として、エアロゾル源は、メントール等の香味成分を含んでいてもよい。吸引装置100が医療用吸入器である場合、エアロゾル源は、患者が吸入するための薬剤を含んでもよい。なお、エアロゾル源は固体に限られるものではなく、例えば、グリセリン及びプロピレングリコール等の多価アルコール、並びに水等の液体であってもよい。基材部151の少なくとも一部は、スティック型基材150が収容部140に保持された状態において、収容部140の内部空間141に収容される
The base member 151 includes an aerosol source. The aerosol source is heated and atomized to produce an aerosol. The aerosol source may further include a flavor source that imparts a flavor component to the aerosol. The aerosol source may be derived from tobacco, such as a processed product formed from shredded tobacco or tobacco raw material into granules, sheets, or powder. Aerosol sources may also include non-tobacco sources made from plants other than tobacco, such as mint and herbs. As an example, the aerosol source may include a flavoring ingredient such as menthol. If the suction device 100 is a medical inhaler, the aerosol source may include a medicament for inhalation by the patient. Note that the aerosol source is not limited to solids, and may be, for example, polyhydric alcohols such as glycerin and propylene glycol, and liquids such as water. At least a portion of the base material part 151 is accommodated in the internal space 141 of the accommodating part 140 while the stick-shaped base material 150 is held in the accommodating part 140.
吸口部152は、吸引の際にユーザに咥えられる部材である。吸口部152の少なくとも一部は、スティック型基材150が収容部140に保持された状態において、開口142から突出する。そして、開口142から突出した吸口部152をユーザが咥えて吸引すると、図示しない空気流入孔から収容部140の内部に空気が流入する。流入した空気は、収容部140の内部空間141を通過して、すなわち、基材部151を通過して、基材部151から発生するエアロゾルと共に、ユーザの口内に到達する。
The suction part 152 is a member that is held in the user's mouth during suction. At least a portion of the mouthpiece 152 protrudes from the opening 142 when the stick-shaped base material 150 is held in the accommodating part 140. Then, when the user holds the suction port 152 protruding from the opening 142 and sucks it, air flows into the housing section 140 from an air inflow hole (not shown). The inflowing air passes through the internal space 141 of the housing part 140, that is, passes through the base material part 151, and reaches the user's mouth together with the aerosol generated from the base material part 151.
サセプタ30は、電磁誘導により発熱する部材である。即ち、サセプタ30は、変動磁場が侵入した場合に発熱する部材である。サセプタ30は、金属等の導電性の素材により構成される。さらに、サセプタ30は、磁性を有することが望ましい。一例として、サセプタ30は、金属片である。サセプタ30は、収容部140の底部143から収容部140の内部空間141に突出するようにして配置される。サセプタ30の先端は、鋭利な形状に構成されてよい。そのため、収容部140にスティック型基材150が挿入されると、サセプタ30はスティック型基材150の基材部151に突き刺さるようにして、スティック型基材150の内部に挿入される。そして、サセプタ30が誘導加熱されて発熱すると、スティック型基材150に含まれるエアロゾル源が加熱されて霧化され、エアロゾルが生成される。
The susceptor 30 is a member that generates heat by electromagnetic induction. That is, the susceptor 30 is a member that generates heat when a fluctuating magnetic field enters. The susceptor 30 is made of a conductive material such as metal. Furthermore, it is desirable that the susceptor 30 has magnetism. As an example, susceptor 30 is a piece of metal. The susceptor 30 is arranged so as to protrude from the bottom 143 of the housing section 140 into the internal space 141 of the housing section 140 . The tip of the susceptor 30 may have a sharp shape. Therefore, when the stick-type base material 150 is inserted into the accommodating part 140, the susceptor 30 is inserted into the stick-type base material 150 so as to pierce the base material part 151 of the stick-type base material 150. Then, when the susceptor 30 is heated by induction and generates heat, the aerosol source included in the stick-type base material 150 is heated and atomized to generate an aerosol.
電磁誘導源11は、サセプタ30を誘導加熱する。電磁誘導源11は、電源部111から供給された電力を使用して変動磁場を発生させる。詳しくは、電磁誘導源11は、交流電流が供給されると、変動磁場(より詳しくは、交番磁場)を発生させる。電磁誘導源11は、発生させた変動磁場に収容部140の内部空間141が重畳する位置に配置される。電磁誘導源11は、例えば、コイル状の導線により構成され、収容部140の外周に巻き付くように配置される。よって、電磁誘導源11から発生した変動磁場は、内部空間141に配置されたサセプタ30に侵入する。その結果、サセプタ30において渦電流が発生して、ジュール熱が発生する。サセプタ30が磁性を有する場合、サセプタ30は、磁気ヒステリシス加熱によりさらに加熱される。そして、サセプタ30において発生した熱によりスティック型基材150に含まれるエアロゾル源が加熱されて霧化され、エアロゾルが生成される。一例として、所定のユーザ入力が行われたことがセンサ部112により検出された場合に、給電され、エアロゾルが生成されてもよい。その後、所定のユーザ入力が行われたことがセンサ部112により検出された場合に、給電が停止されてもよい。他の一例として、ユーザによる吸引が行われたことがセンサ部112により検出されている期間において、給電され、エアロゾルが生成されてもよい。
The electromagnetic induction source 11 heats the susceptor 30 by induction. The electromagnetic induction source 11 generates a fluctuating magnetic field using the power supplied from the power supply unit 111. Specifically, the electromagnetic induction source 11 generates a fluctuating magnetic field (more specifically, an alternating magnetic field) when supplied with an alternating current. The electromagnetic induction source 11 is arranged at a position where the internal space 141 of the housing section 140 overlaps with the generated fluctuating magnetic field. The electromagnetic induction source 11 is composed of, for example, a coiled conducting wire, and is arranged so as to be wound around the outer periphery of the housing section 140 . Therefore, the fluctuating magnetic field generated from the electromagnetic induction source 11 enters the susceptor 30 arranged in the internal space 141. As a result, eddy currents are generated in the susceptor 30 and Joule heat is generated. When the susceptor 30 has magnetism, the susceptor 30 is further heated by magnetic hysteresis heating. Then, the heat generated in the susceptor 30 heats the aerosol source included in the stick-type base material 150 and atomizes it, producing an aerosol. As an example, when the sensor unit 112 detects that a predetermined user input has been performed, power may be supplied and an aerosol may be generated. Thereafter, when the sensor unit 112 detects that a predetermined user input has been performed, the power supply may be stopped. As another example, power may be supplied and aerosol may be generated during a period in which the sensor unit 112 detects that the user has performed suction.
なお、吸引装置100とスティック型基材150との組み合わせは、エアロゾル生成システムとして捉えられてもよい。これらの協働により、エアロゾルの生成が可能となるためである。
Note that the combination of the suction device 100 and the stick-type base material 150 may be regarded as an aerosol generation system. This is because their cooperation makes it possible to generate an aerosol.
<2.技術的課題>
誘導加熱式の吸引装置は、抵抗加熱式の吸引装置よりも加熱効率が高いことから、近年特に注目されている。誘導加熱式の吸引装置には、サセプタが基材に内蔵される方式と、サセプタが吸引装置に設けられる方式と、の2種類がある。サセプタが基材に内蔵される方式では、基材が消費される度にサセプタが使い捨てされるので、環境に対する負荷が過大であった。他方、サセプタが吸引装置に設けられる方式では、サセプタに付着したスティック型基材の内容物を除去する等、サセプタを掃除する手間がかかる。そこで、本実施形態では、サセプタが着脱可能に吸引装置に設けられる仕組みを提供する。かかる構成によれば、環境に対する負荷を軽減しつつ、サセプタを掃除する手間を軽減することが可能となる。 <2. Technical issues>
Induction heating type suction devices have attracted particular attention in recent years because they have higher heating efficiency than resistance heating type suction devices. There are two types of induction heating type suction devices: one in which the susceptor is built into the base material, and one in which the susceptor is provided in the suction device. In the method in which the susceptor is built into the base material, the susceptor is discarded every time the base material is consumed, resulting in an excessive burden on the environment. On the other hand, in a method in which the susceptor is provided in a suction device, it takes time and effort to clean the susceptor, such as removing the contents of the stick-type base material adhering to the susceptor. Therefore, in this embodiment, a mechanism is provided in which the susceptor is removably installed in the suction device. According to this configuration, it is possible to reduce the burden on the environment and reduce the effort required to clean the susceptor.
誘導加熱式の吸引装置は、抵抗加熱式の吸引装置よりも加熱効率が高いことから、近年特に注目されている。誘導加熱式の吸引装置には、サセプタが基材に内蔵される方式と、サセプタが吸引装置に設けられる方式と、の2種類がある。サセプタが基材に内蔵される方式では、基材が消費される度にサセプタが使い捨てされるので、環境に対する負荷が過大であった。他方、サセプタが吸引装置に設けられる方式では、サセプタに付着したスティック型基材の内容物を除去する等、サセプタを掃除する手間がかかる。そこで、本実施形態では、サセプタが着脱可能に吸引装置に設けられる仕組みを提供する。かかる構成によれば、環境に対する負荷を軽減しつつ、サセプタを掃除する手間を軽減することが可能となる。 <2. Technical issues>
Induction heating type suction devices have attracted particular attention in recent years because they have higher heating efficiency than resistance heating type suction devices. There are two types of induction heating type suction devices: one in which the susceptor is built into the base material, and one in which the susceptor is provided in the suction device. In the method in which the susceptor is built into the base material, the susceptor is discarded every time the base material is consumed, resulting in an excessive burden on the environment. On the other hand, in a method in which the susceptor is provided in a suction device, it takes time and effort to clean the susceptor, such as removing the contents of the stick-type base material adhering to the susceptor. Therefore, in this embodiment, a mechanism is provided in which the susceptor is removably installed in the suction device. According to this configuration, it is possible to reduce the burden on the environment and reduce the effort required to clean the susceptor.
<3.技術的特徴>
以下、図2~図5を参照しながら、吸引装置100の詳細な構成について説明する。図2は、分離状態の吸引装置100からサセプタ30を取り外した様子を模式的に示す図である。図3は、分離状態の吸引装置100にサセプタ30を接続した様子を模式的に示す図である。図4は、完成状態の吸引装置100を模式的に示す図である。図5は、完成状態の吸引装置100にスティック型基材150を挿入した様子を模式的に示す図である。これらの図において、底部143から開口142への方向を上方向とし、開口142から底部143への方向を下方向とする。上下方向は、スティック型基材150の挿抜方向に対応する。上下方向は、吸引装置100の長手方向と一致していてもよい。 <3. Technical features>
The detailed configuration of thesuction device 100 will be described below with reference to FIGS. 2 to 5. FIG. 2 is a diagram schematically showing a state in which the susceptor 30 is removed from the suction device 100 in a separated state. FIG. 3 is a diagram schematically showing how the susceptor 30 is connected to the suction device 100 in a separated state. FIG. 4 is a diagram schematically showing the suction device 100 in a completed state. FIG. 5 is a diagram schematically showing the stick-type base material 150 inserted into the completed suction device 100. In these figures, the direction from the bottom 143 to the opening 142 is defined as an upward direction, and the direction from the opening 142 to the bottom 143 is defined as a downward direction. The up-down direction corresponds to the insertion/extraction direction of the stick-type base material 150. The vertical direction may coincide with the longitudinal direction of the suction device 100.
以下、図2~図5を参照しながら、吸引装置100の詳細な構成について説明する。図2は、分離状態の吸引装置100からサセプタ30を取り外した様子を模式的に示す図である。図3は、分離状態の吸引装置100にサセプタ30を接続した様子を模式的に示す図である。図4は、完成状態の吸引装置100を模式的に示す図である。図5は、完成状態の吸引装置100にスティック型基材150を挿入した様子を模式的に示す図である。これらの図において、底部143から開口142への方向を上方向とし、開口142から底部143への方向を下方向とする。上下方向は、スティック型基材150の挿抜方向に対応する。上下方向は、吸引装置100の長手方向と一致していてもよい。 <3. Technical features>
The detailed configuration of the
図2に示すように、吸引装置100は、第1ユニット10、第2ユニット20、及びサセプタ30を有する。そして、図3及び図4に示すように、第1ユニット10と第2ユニット20とは、着脱可能に構成される。また、図2及び図3に示すように、第2ユニット20とサセプタ30とは着脱可能に構成される。第1ユニット10と第2ユニット20との着脱は、凹凸を利用した挿抜、又は磁力を利用した着脱等、任意の機構により実現される。第2ユニット20とサセプタ30との着脱に関しても同様である。第1ユニット10と第2ユニット20とが接続され、第2ユニット20とサセプタ30とが接続された状態を、完成状態とも称する。他方、第1ユニット10と第2ユニット20とが分離された状態を、分離状態とも称する。
As shown in FIG. 2, the suction device 100 includes a first unit 10, a second unit 20, and a susceptor 30. As shown in FIGS. 3 and 4, the first unit 10 and the second unit 20 are configured to be detachable. Further, as shown in FIGS. 2 and 3, the second unit 20 and the susceptor 30 are configured to be detachable. Attachment and detachment between the first unit 10 and the second unit 20 is realized by an arbitrary mechanism such as insertion and removal using unevenness or attachment and detachment using magnetic force. The same applies to the attachment and detachment of the second unit 20 and the susceptor 30. The state in which the first unit 10 and the second unit 20 are connected and the second unit 20 and the susceptor 30 are connected is also referred to as a completed state. On the other hand, the state in which the first unit 10 and the second unit 20 are separated is also referred to as a separated state.
吸引装置100は、完成状態において、ボタン押下等をトリガとしてスティック型基材150を加熱する。他方、分離状態において、サセプタ30の着脱又はサセプタ30の掃除が行われる。とりわけ、図3に示すように、第1ユニット10と第2ユニット20とを分離させることで、サセプタ30を露出させることができる。これにより、サセプタ30を容易に着脱又は掃除することが可能となる。他方、第2ユニット20にサセプタ30を接続し、さらに第1ユニット10を接続することで、吸引装置100を容易に完成状態にすることができる。
In the completed state, the suction device 100 heats the stick-shaped base material 150 using a button press or the like as a trigger. On the other hand, in the separated state, the susceptor 30 is attached and detached or the susceptor 30 is cleaned. In particular, as shown in FIG. 3, by separating the first unit 10 and the second unit 20, the susceptor 30 can be exposed. This allows the susceptor 30 to be easily attached/detached or cleaned. On the other hand, by connecting the susceptor 30 to the second unit 20 and further connecting the first unit 10, the suction device 100 can be easily completed.
なお、複数のスティック型基材150とサセプタ30との組み合わせが、1つのパッケージとして販売され得る。その場合、ユーザは、新しいパッケージを開封する度に、即ち、複数のスティック型基材150を消費する度に、サセプタ30を交換し得る。かかる構成によれば、1つのスティック型基材150を消費する度にサセプタ30を使い捨てにせずに済むので、環境に対する負荷を軽減することが可能となる。また、複数回の加熱を経てサセプタ30が劣化した場合であっても、新たなサセプタ30に容易に交換することが可能となる。
Note that a combination of a plurality of stick-type base materials 150 and susceptors 30 may be sold as one package. In that case, the user may replace the susceptor 30 each time a new package is opened, ie, each time a plurality of stick substrates 150 are consumed. According to this configuration, the susceptor 30 does not need to be disposed of every time one stick-type base material 150 is consumed, so it is possible to reduce the load on the environment. Moreover, even if the susceptor 30 deteriorates after being heated a plurality of times, it is possible to easily replace it with a new susceptor 30.
図2に示すように、サセプタ30は、板状に構成されてよい。一例として、サセプタ30は、直角台形状の板状に構成されてよい。そして、図3に示すように、サセプタ30は、鈍角及び鋭角により挟まれる辺を上として、2つの直角により挟まれる辺を下として、後述する支持部21により支持されてもよい。さらに、サセプタ30は、上側ほど板厚が薄くなるよう構成されてよい。かかる構成により、サセプタ30のうち上側端部を鋭利にすることができるので、スティック型基材150にサセプタ30が挿入される際の抵抗を軽減し、サセプタ30の折れを防止することが可能となる。他に、サセプタ30は棒状等の任意の長手形状に構成されてよい。その場合であっても、サセプタ30の上端は鋭利な形状に構成されることが望ましい。
As shown in FIG. 2, the susceptor 30 may be configured in a plate shape. As an example, the susceptor 30 may have a plate shape with a right-angled trapezoid shape. As shown in FIG. 3, the susceptor 30 may be supported by the supporting portion 21, which will be described later, with the side sandwiched between the obtuse angle and the acute angle facing upward, and the side sandwiched between the two right angles facing downward. Furthermore, the susceptor 30 may be configured such that the plate thickness becomes thinner toward the upper side. With this configuration, the upper end of the susceptor 30 can be made sharp, thereby reducing resistance when the susceptor 30 is inserted into the stick-type base material 150, and making it possible to prevent the susceptor 30 from breaking. Become. Alternatively, the susceptor 30 may be configured in any longitudinal shape, such as a rod shape. Even in that case, it is desirable that the upper end of the susceptor 30 be configured to have a sharp shape.
図2に示すように、第2ユニット20は、支持部21、2つの電極受け入れ孔22(22-1及び22-2)、及び回路基板23を有する。回路基板23は、制御部116の一例である。第2ユニット20は、制御部116の他に、少なくとも電源部111を含む。センサ部112、通知部113、記憶部114、及び通信部115もまた、第2ユニット20に含まれる。
As shown in FIG. 2, the second unit 20 has a support portion 21, two electrode receiving holes 22 (22-1 and 22-2), and a circuit board 23. The circuit board 23 is an example of the control section 116. The second unit 20 includes at least a power supply section 111 in addition to the control section 116 . The sensor section 112, the notification section 113, the storage section 114, and the communication section 115 are also included in the second unit 20.
図3に示すように、支持部21は、サセプタ30を支持する。とりわけ、支持部21は、サセプタ30を着脱可能に支持する。例えば、支持部21は、溝として構成され、挿入されたサセプタ30を支持してもよい。かかる構成によれば、サセプタ30を容易に交換することが可能となる。
As shown in FIG. 3, the support portion 21 supports the susceptor 30. In particular, the support portion 21 removably supports the susceptor 30. For example, the support portion 21 may be configured as a groove to support the inserted susceptor 30. According to this configuration, the susceptor 30 can be easily replaced.
図4に示すように、完成状態において、支持部21は、サセプタ30が収容部140の内部空間141に位置した状態で、サセプタ30を支持する。これにより、電磁誘導源11から発生した変動磁場をサセプタ30に侵入させ、サセプタ30を誘導加熱することが可能となる。
As shown in FIG. 4, in the completed state, the support section 21 supports the susceptor 30 with the susceptor 30 positioned in the internal space 141 of the housing section 140. Thereby, the fluctuating magnetic field generated from the electromagnetic induction source 11 can enter the susceptor 30, and the susceptor 30 can be heated by induction.
図4に示すように、完成状態において、支持部21は、開口142に対向する収容部140の底部143に配置される。例えば、支持部21は、完成状態において収容部140の底部143を構成する、第2ユニット20の天面20aを直線状にくり抜いた溝として構成されてもよい。そして、支持部21は、サセプタ30が収容部140の底部143から内部空間141に突出した状態で、サセプタ30の端部を支持する。例えば、支持部21は、第2ユニット20の天面20aのうち、完成状態において底部143の中央に対応する位置に配置され、底部143からサセプタ30が直立するようにサセプタ30を支持する。かかる構成によれば、スティック型基材150が収容部140に挿入された際に、スティック型基材150の内部にサセプタ30が突き刺さる様にして、スティック型基材150にサセプタ30を挿入することが可能となる。
As shown in FIG. 4, in the completed state, the support part 21 is arranged at the bottom part 143 of the accommodating part 140 facing the opening 142. For example, the support portion 21 may be configured as a linear groove cut out of the top surface 20a of the second unit 20, which constitutes the bottom portion 143 of the storage portion 140 in the completed state. The support portion 21 supports the end portion of the susceptor 30 in a state where the susceptor 30 protrudes from the bottom portion 143 of the housing portion 140 into the internal space 141. For example, the support part 21 is disposed on the top surface 20a of the second unit 20 at a position corresponding to the center of the bottom part 143 in the completed state, and supports the susceptor 30 so that the susceptor 30 stands upright from the bottom part 143. According to this configuration, when the stick-type base material 150 is inserted into the accommodating portion 140, the susceptor 30 can be inserted into the stick-type base material 150 so that the susceptor 30 sticks inside the stick-type base material 150. becomes possible.
支持部21は、導電性が所定の閾値よりも低い材料により構成されることが望ましい。かかる構成によれば、支持部21は誘導加熱されないので、回路基板23等の他の構成要素への伝熱を防止し、熱に起因する故障を防止することが可能となる。さらに、支持部21は、熱伝導性が所定の閾値よりも低い材料により構成されることが望ましい。かかる構成によれば、サセプタ30から回路基板23等の他の構成要素への伝熱を軽減し、熱に起因する故障を防止することが可能となる。支持部21を構成し得る材料の一例として、PI(Polyimide)若しくはPEEK(poly ether ketone)等の樹脂材料又はガラス材料等が挙げられる。
The support portion 21 is desirably made of a material whose conductivity is lower than a predetermined threshold. According to this configuration, since the support portion 21 is not heated by induction, it is possible to prevent heat transfer to other components such as the circuit board 23 and prevent failures due to heat. Furthermore, it is desirable that the support portion 21 be made of a material whose thermal conductivity is lower than a predetermined threshold. According to this configuration, it is possible to reduce heat transfer from the susceptor 30 to other components such as the circuit board 23, and to prevent failures due to heat. Examples of materials that can constitute the support portion 21 include resin materials such as PI (polyimide) or PEEK (poly ether ketone), glass materials, and the like.
図2に示すように、第1ユニット10は、電磁誘導源11、及び2つの電極12(12-1及び12-2)を有する。
As shown in FIG. 2, the first unit 10 has an electromagnetic induction source 11 and two electrodes 12 (12-1 and 12-2).
図2に示すように、第1ユニット10は、第1開口13及び第1開口13に対向する第2開口14を両端とする筒状体である。一例として、第1ユニット10は、内壁15により囲まれた円柱状の貫通孔を有する、両端開口の円筒として構成されてよい。図4に示すように、第1ユニット10及び第2ユニット20は、第2ユニット20が第1ユニット10の第2開口14を塞ぐようにして第1ユニット10に接続された状態で、収容部140を構成する。より詳しくは、第1ユニット10の第2開口14側の端部と第2ユニット20の天面20aとが接合されて、第1ユニット10と第2ユニット20とが接続される。その結果、第1開口13が収容部140の開口142を構成し、第2ユニット20の天面20aのうち第2開口14を塞ぐ部分が、収容部140の底部143を構成する。そして、第1ユニット10の内壁15と、第2ユニット20の天面20aのうち第2開口14を塞ぐ部分と、により、収容部140が構成される。内部空間141は、第1ユニット10の内壁15と、第2ユニット20の天面20aのうち第2開口14を塞ぐ部分と、により囲まれる空間である。支持部21は、第2ユニット20のうち収容部140の底部143を構成する部分、即ち第2ユニット20の天面20aのうち第2開口14を塞ぐ部分に配置される。かかる構成によれば、第2ユニット20にサセプタ30を接続したまま、第1ユニット10と第2ユニット20とを着脱することが可能となる。
As shown in FIG. 2, the first unit 10 is a cylindrical body having a first opening 13 and a second opening 14 opposite to the first opening 13 at both ends. As an example, the first unit 10 may be configured as a cylinder with openings at both ends and having a cylindrical through hole surrounded by an inner wall 15. As shown in FIG. 4, the first unit 10 and the second unit 20 are connected to the first unit 10 so that the second unit 20 closes the second opening 14 of the first unit 10, and 140. More specifically, the end of the first unit 10 on the second opening 14 side and the top surface 20a of the second unit 20 are joined, and the first unit 10 and the second unit 20 are connected. As a result, the first opening 13 constitutes the opening 142 of the accommodating portion 140, and the portion of the top surface 20a of the second unit 20 that closes the second opening 14 constitutes the bottom portion 143 of the accommodating portion 140. The housing section 140 is configured by the inner wall 15 of the first unit 10 and the portion of the top surface 20a of the second unit 20 that closes the second opening 14. The internal space 141 is a space surrounded by the inner wall 15 of the first unit 10 and a portion of the top surface 20a of the second unit 20 that closes the second opening 14. The support portion 21 is disposed in a portion of the second unit 20 that constitutes the bottom portion 143 of the accommodating portion 140, that is, a portion of the top surface 20a of the second unit 20 that closes the second opening 14. According to this configuration, it is possible to attach and detach the first unit 10 and the second unit 20 while the susceptor 30 is connected to the second unit 20.
図2~図4に示すように、電磁誘導源11は、ソレノイド型のコイルであり、第1ユニット10の内壁15の外側に巻き付くように配置される。これにより、ソレノイド型のコイルの内側の空間、即ち内部空間141に変動磁場を発生させ、内部空間141に位置するサセプタ30を誘導加熱することが可能となる。
As shown in FIGS. 2 to 4, the electromagnetic induction source 11 is a solenoid-type coil, and is arranged so as to wrap around the outside of the inner wall 15 of the first unit 10. Thereby, it is possible to generate a fluctuating magnetic field in the space inside the solenoid-type coil, that is, the internal space 141, and to heat the susceptor 30 located in the internal space 141 by induction.
電極12は、完成状態において、電磁誘導源11と電源部111とを電気的に接続する部材である。図2に示すように、電極12は、電磁誘導源11に電気的に接続される。詳しくは、電極12の上端が電磁誘導源11に接続される。他方、電極12の下端は、第1ユニット10から下方向に突出する。電極12は、例えば、導電性が所定の閾値よりも高い材料により構成される。電極12を構成する材料の一例といて、銅又はアルミニウム等の金属材料が挙げられる。一例として、電極12は、金属棒として構成されてもよい。電極12の上端及び下端を除き、電極12の外周は、絶縁被膜12a(12a-1又は12a-2)により被覆されてもよい。絶縁被膜12aは、ポリエチレン又はシリコン樹脂等の絶縁体により構成される。
The electrode 12 is a member that electrically connects the electromagnetic induction source 11 and the power supply section 111 in the completed state. As shown in FIG. 2, electrode 12 is electrically connected to electromagnetic induction source 11. As shown in FIG. Specifically, the upper end of the electrode 12 is connected to the electromagnetic induction source 11. On the other hand, the lower end of the electrode 12 protrudes downward from the first unit 10. The electrode 12 is made of, for example, a material whose conductivity is higher than a predetermined threshold. An example of a material constituting the electrode 12 is a metal material such as copper or aluminum. As an example, electrode 12 may be configured as a metal rod. The outer periphery of the electrode 12, except for the upper and lower ends of the electrode 12, may be covered with an insulating coating 12a (12a-1 or 12a-2). The insulating coating 12a is made of an insulator such as polyethylene or silicone resin.
電極受け入れ孔22は、電極12を挿入可能な孔である。図2に示すように、電極受け入れ孔22は、第2ユニット20の天面20aに開口を有し、電極受け入れ孔22の最奥において回路基板23を露出する。とりわけ、電極受け入れ孔22は、回路基板23のうち電源部111への接点を露出する。
The electrode receiving hole 22 is a hole into which the electrode 12 can be inserted. As shown in FIG. 2, the electrode receiving hole 22 has an opening in the top surface 20a of the second unit 20, and the circuit board 23 is exposed at the innermost part of the electrode receiving hole 22. In particular, the electrode receiving hole 22 exposes a contact point of the circuit board 23 to the power supply section 111.
図2~図4に示すように、電極12―1が電極受け入れ孔22-1に、電極12―2が電極受け入れ孔22-2にそれぞれ挿入され、電極12が回路基板23のうち電源部111への接点に接触した状態で、第1ユニット10と第2ユニット20とは接続される。その結果、電磁誘導源11と電源部111とが、電極12を介して電気的に接続される。かかる構成により、完成状態において、電源部111から電磁誘導源11への給電、即ち誘導加熱が可能となる。他方、分離状態において、電磁誘導源11と電源部111との電気的な接続を解除することが可能となる。その結果、電源部111から電磁誘導源11への給電が不可能となるので、サセプタ30が露出した状態でサセプタ30が誘導加熱されるような事態を防止し、ユーザの安全性を担保することが可能となる。
As shown in FIGS. 2 to 4, the electrode 12-1 is inserted into the electrode receiving hole 22-1, the electrode 12-2 is inserted into the electrode receiving hole 22-2, and the electrode 12 is inserted into the power supply section 111 of the circuit board 23. The first unit 10 and the second unit 20 are connected in a state where they are in contact with the contact point. As a result, the electromagnetic induction source 11 and the power supply section 111 are electrically connected via the electrode 12. With this configuration, in the completed state, power can be supplied from the power supply section 111 to the electromagnetic induction source 11, that is, induction heating can be performed. On the other hand, in the separated state, the electrical connection between the electromagnetic induction source 11 and the power supply unit 111 can be released. As a result, it becomes impossible to supply power from the power supply unit 111 to the electromagnetic induction source 11, so that a situation where the susceptor 30 is heated by induction in an exposed state is prevented, and the safety of the user is ensured. becomes possible.
以上、本実施形態に係る吸引装置100の構成について詳しく説明した。
The configuration of the suction device 100 according to the present embodiment has been described above in detail.
上記説明したように、サセプタ30が吸引装置100に設けられるので、スティック型基材150を消費する度にサセプタ30を使い捨てにせずに済み、環境負荷を軽減することが可能となる。さらに、サセプタ30とスティック型基材150とが別体であるので、サセプタ30とスティック型基材150とを分別して処分することが可能となる。サセプタ30がスティック型基材150に内蔵される場合、サセプタ30とスティック型基材150とが分別されずにまとめて処分される。この点、本実施形態によれば、環境負荷をさらに軽減することが可能となる。
As explained above, since the susceptor 30 is provided in the suction device 100, the susceptor 30 does not need to be disposed of every time the stick-shaped base material 150 is consumed, making it possible to reduce the environmental load. Furthermore, since the susceptor 30 and the stick-type base material 150 are separate bodies, it becomes possible to separate and dispose of the susceptor 30 and the stick-type base material 150. When the susceptor 30 is built into the stick-type base material 150, the susceptor 30 and the stick-type base material 150 are disposed of together without being separated. In this regard, according to this embodiment, it is possible to further reduce the environmental load.
また、第1ユニット10と第2ユニット20とを分離することで、サセプタ30を露出させ、簡単に掃除することが可能となる。また、サセプタ30が劣化した場合には、簡単にサセプタ30を交換することが可能となる。
Furthermore, by separating the first unit 10 and the second unit 20, the susceptor 30 is exposed and can be easily cleaned. Moreover, when the susceptor 30 deteriorates, it becomes possible to easily replace the susceptor 30.
<4.補足>
以上、添付図面を参照しながら本発明の好適な実施形態について詳細に説明したが、本発明はかかる例に限定されない。本発明の属する技術の分野における通常の知識を有する者であれば、請求の範囲に記載された技術的思想の範疇内において、各種の変更例または修正例に想到し得ることは明らかであり、これらについても、当然に本発明の技術的範囲に属するものと了解される。 <4. Supplement>
Although preferred embodiments of the present invention have been described above in detail with reference to the accompanying drawings, the present invention is not limited to such examples. It is clear that a person with ordinary knowledge in the technical field to which the present invention pertains can come up with various changes or modifications within the scope of the technical idea described in the claims. It is understood that these also fall within the technical scope of the present invention.
以上、添付図面を参照しながら本発明の好適な実施形態について詳細に説明したが、本発明はかかる例に限定されない。本発明の属する技術の分野における通常の知識を有する者であれば、請求の範囲に記載された技術的思想の範疇内において、各種の変更例または修正例に想到し得ることは明らかであり、これらについても、当然に本発明の技術的範囲に属するものと了解される。 <4. Supplement>
Although preferred embodiments of the present invention have been described above in detail with reference to the accompanying drawings, the present invention is not limited to such examples. It is clear that a person with ordinary knowledge in the technical field to which the present invention pertains can come up with various changes or modifications within the scope of the technical idea described in the claims. It is understood that these also fall within the technical scope of the present invention.
(1)第1の変形例
吸引装置100は、第1ユニット10と第2ユニット20との分離可否を切り替えるロック機構を有していてもよい。接続された第1ユニット10と第2ユニット20とを分離不可能にすることを、ロックを掛けるとも称する。他方、接続された第1ユニット10と第2ユニット20とを分離可能にすることを、ロックを解除するとも称する。制御部116は、ロック機構の動作を制御してもよい。具体的には、制御部116は、ロックを掛けたりロックを解除したりしてもよい。一例として、ロック機構は、溝と当該溝に挿抜可能な爪と、により実現され得る。吸引装置100は、溝に爪を挿抜するためのアクチュエータをさらに有していてもよく、制御部116は、当該アクチュエータを動作させることで、ロック機構の動作を制御してもよい。 (1) First Modification Thesuction device 100 may have a lock mechanism that switches whether or not the first unit 10 and the second unit 20 can be separated. Making the connected first unit 10 and second unit 20 impossible to separate is also called locking. On the other hand, enabling the connected first unit 10 and second unit 20 to be separated is also referred to as unlocking. The control unit 116 may control the operation of the locking mechanism. Specifically, the control unit 116 may lock or release the lock. As an example, the locking mechanism may be realized by a groove and a claw that can be inserted into and removed from the groove. The suction device 100 may further include an actuator for inserting and extracting the claw into the groove, and the control unit 116 may control the operation of the locking mechanism by operating the actuator.
吸引装置100は、第1ユニット10と第2ユニット20との分離可否を切り替えるロック機構を有していてもよい。接続された第1ユニット10と第2ユニット20とを分離不可能にすることを、ロックを掛けるとも称する。他方、接続された第1ユニット10と第2ユニット20とを分離可能にすることを、ロックを解除するとも称する。制御部116は、ロック機構の動作を制御してもよい。具体的には、制御部116は、ロックを掛けたりロックを解除したりしてもよい。一例として、ロック機構は、溝と当該溝に挿抜可能な爪と、により実現され得る。吸引装置100は、溝に爪を挿抜するためのアクチュエータをさらに有していてもよく、制御部116は、当該アクチュエータを動作させることで、ロック機構の動作を制御してもよい。 (1) First Modification The
とりわけ、制御部116は、サセプタ30の温度に応じてロック機構の動作を制御してもよい。制御の一例について、図6を参照しながら説明する。図6は、第1の変形例に係る吸引装置100により実行される処理の流れの一例を示すフローチャートである。図6に示すように、制御部116は、サセプタ30の温度が所定の閾値未満であるか否かを判定する(ステップS102)。サセプタ30の温度が所定の閾値未満であると判定された場合(ステップS102:YES)、制御部116は、ロックを解除するようロック機構を制御する(ステップS104)。他方、サセプタ30の温度が所定の閾値以上であると判定された場合(ステップS102:NO)、制御部116は、ロックを掛けるようロック機構を制御する(ステップS106)。所定の閾値は、ユーザが指でサセプタ30を触っても火傷を負わない程度の温度に設定される。かかる構成によれば、サセプタ30が高温な状態で第1ユニット10と第2ユニット20とが分離され、ユーザがサセプタ30に触れて火傷を負うような事態を防止することが可能となる。
In particular, the control unit 116 may control the operation of the locking mechanism according to the temperature of the susceptor 30. An example of control will be described with reference to FIG. 6. FIG. 6 is a flowchart illustrating an example of the flow of processing executed by the suction device 100 according to the first modification. As shown in FIG. 6, the control unit 116 determines whether the temperature of the susceptor 30 is less than a predetermined threshold (step S102). If it is determined that the temperature of the susceptor 30 is less than the predetermined threshold (step S102: YES), the control unit 116 controls the locking mechanism to release the lock (step S104). On the other hand, if it is determined that the temperature of the susceptor 30 is equal to or higher than the predetermined threshold (step S102: NO), the control unit 116 controls the locking mechanism to lock (step S106). The predetermined threshold value is set to a temperature at which a user will not get burned even if he or she touches the susceptor 30 with a finger. According to this configuration, the first unit 10 and the second unit 20 are separated when the susceptor 30 is at a high temperature, and it is possible to prevent a situation where the user touches the susceptor 30 and suffers a burn.
温度センサは、例えばサーミスタとして構成され、第2ユニット20に設けられてもよい。温度センサにより検出された温度は、ロック機構の動作の制御の他に、サセプタ30の温度制御のために用いられてもよい。例えば、制御部116は、温度センサにより検出されたサセプタ30の温度が所望の温度で推移するよう、電源部111から電磁誘導源11への給電を制御してもよい。
The temperature sensor may be configured as a thermistor, for example, and may be provided in the second unit 20. The temperature detected by the temperature sensor may be used to control the temperature of the susceptor 30 in addition to controlling the operation of the lock mechanism. For example, the control unit 116 may control the power supply from the power supply unit 111 to the electromagnetic induction source 11 so that the temperature of the susceptor 30 detected by the temperature sensor changes at a desired temperature.
(2)第2の変形例
図7は、第2の変形例に係る吸引装置100について説明するための図である。図7では、完成状態の吸引装置100の、サセプタ30の板厚方向に直交する断面の一例が模式的に示されている。図7に示すように、支持部21は、サセプタ30の少なくとも一部が電磁誘導源11により囲まれた状態で、サセプタ30を支持する。ただし、電磁誘導源11のコイルのうち底部143に近い方向(即ち、下方向)の端部は、底部143から距離Lだけ離隔していてもよい。その結果、底部143に設けられた支持部21により支持されたサセプタ30の、底部143から内部空間141に突出する部分のうち、底部143から距離Lの部分を、電磁誘導源11に囲まれないようにすることができる。その結果、当該部分への変動磁場の侵入量を減らし、当該部分における発熱量を減らすことが可能となる。従って、サセプタ30から第2ユニット20への伝熱を軽減し、熱に起因する故障を防止することが可能となる。また、スティック型基材150を加熱した際に、スティック型基材150の先端が加熱されにくくなるので、加熱後のスティック型基材150の先端から内容物が零れ落ちるおそれを軽減することが可能となる。 (2) Second Modified Example FIG. 7 is a diagram for explaining asuction device 100 according to a second modified example. FIG. 7 schematically shows an example of a cross section of the suction device 100 in a completed state, which is perpendicular to the thickness direction of the susceptor 30. As shown in FIG. 7, the support portion 21 supports the susceptor 30 in a state where at least a portion of the susceptor 30 is surrounded by the electromagnetic induction source 11. However, the end of the coil of the electromagnetic induction source 11 in the direction closer to the bottom 143 (ie, downward) may be separated from the bottom 143 by a distance L. As a result, among the parts of the susceptor 30 supported by the support part 21 provided on the bottom part 143 that protrude from the bottom part 143 into the internal space 141, the part at a distance L from the bottom part 143 is not surrounded by the electromagnetic induction source 11. You can do it like this. As a result, it is possible to reduce the amount of intrusion of the fluctuating magnetic field into the part, and reduce the amount of heat generated in the part. Therefore, it is possible to reduce heat transfer from the susceptor 30 to the second unit 20 and prevent failures caused by heat. Furthermore, when the stick-type base material 150 is heated, the tip of the stick-type base material 150 is less likely to be heated, so it is possible to reduce the risk of the contents spilling out from the tip of the stick-type base material 150 after heating. becomes.
図7は、第2の変形例に係る吸引装置100について説明するための図である。図7では、完成状態の吸引装置100の、サセプタ30の板厚方向に直交する断面の一例が模式的に示されている。図7に示すように、支持部21は、サセプタ30の少なくとも一部が電磁誘導源11により囲まれた状態で、サセプタ30を支持する。ただし、電磁誘導源11のコイルのうち底部143に近い方向(即ち、下方向)の端部は、底部143から距離Lだけ離隔していてもよい。その結果、底部143に設けられた支持部21により支持されたサセプタ30の、底部143から内部空間141に突出する部分のうち、底部143から距離Lの部分を、電磁誘導源11に囲まれないようにすることができる。その結果、当該部分への変動磁場の侵入量を減らし、当該部分における発熱量を減らすことが可能となる。従って、サセプタ30から第2ユニット20への伝熱を軽減し、熱に起因する故障を防止することが可能となる。また、スティック型基材150を加熱した際に、スティック型基材150の先端が加熱されにくくなるので、加熱後のスティック型基材150の先端から内容物が零れ落ちるおそれを軽減することが可能となる。 (2) Second Modified Example FIG. 7 is a diagram for explaining a
(3)第3の変形例
図8は、第3の変形例に係る吸引装置100について説明するための図である。図8に示すように、サセプタ30のうち支持部21により支持される端部に、被支持部30aが設けられてよい。被支持部30aは、支持部21により支持される部材である。被支持部30aは、導電性が所定の閾値よりも低い材料により構成される。かかる構成によれば、被支持部30aは誘導加熱されないので、第2ユニット20への伝熱を防止し、熱に起因する故障を防止することが可能となる。さらに、被支持部30aは、熱伝導性が所定の閾値よりも低い材料により構成されることが望ましい。かかる構成によれば、サセプタ30から第2ユニット20への伝熱を軽減し、熱に起因する故障を防止することが可能となる。被支持部30aを構成し得る材料の一例として、PI(Polyimide)若しくはPEEK(poly ether ketone)等の樹脂材料又はガラス材料等が挙げられる。例えば、被支持部30aは、サセプタ30の端部を樹脂材料によりコーティングすることで構成されてよい。 (3) Third Modified Example FIG. 8 is a diagram for explaining asuction device 100 according to a third modified example. As shown in FIG. 8, a supported portion 30a may be provided at the end of the susceptor 30 that is supported by the support portion 21. The supported part 30a is a member supported by the support part 21. The supported portion 30a is made of a material whose conductivity is lower than a predetermined threshold. According to this configuration, the supported portion 30a is not heated by induction, so that it is possible to prevent heat transfer to the second unit 20 and prevent failures due to heat. Furthermore, it is desirable that the supported part 30a be made of a material whose thermal conductivity is lower than a predetermined threshold value. According to this configuration, it is possible to reduce heat transfer from the susceptor 30 to the second unit 20 and prevent failures due to heat. Examples of materials that can constitute the supported portion 30a include resin materials such as PI (polyimide) or PEEK (poly ether ketone), or glass materials. For example, the supported portion 30a may be configured by coating the end portion of the susceptor 30 with a resin material.
図8は、第3の変形例に係る吸引装置100について説明するための図である。図8に示すように、サセプタ30のうち支持部21により支持される端部に、被支持部30aが設けられてよい。被支持部30aは、支持部21により支持される部材である。被支持部30aは、導電性が所定の閾値よりも低い材料により構成される。かかる構成によれば、被支持部30aは誘導加熱されないので、第2ユニット20への伝熱を防止し、熱に起因する故障を防止することが可能となる。さらに、被支持部30aは、熱伝導性が所定の閾値よりも低い材料により構成されることが望ましい。かかる構成によれば、サセプタ30から第2ユニット20への伝熱を軽減し、熱に起因する故障を防止することが可能となる。被支持部30aを構成し得る材料の一例として、PI(Polyimide)若しくはPEEK(poly ether ketone)等の樹脂材料又はガラス材料等が挙げられる。例えば、被支持部30aは、サセプタ30の端部を樹脂材料によりコーティングすることで構成されてよい。 (3) Third Modified Example FIG. 8 is a diagram for explaining a
(4)第4の変形例
支持部21がサセプタ30を支持する構成は多様に考えられる。以下では、その一例を図9及び図10を参照しながら説明する。 (4) Fourth Modification There are various possible configurations in which thesupport portion 21 supports the susceptor 30. An example will be described below with reference to FIGS. 9 and 10.
支持部21がサセプタ30を支持する構成は多様に考えられる。以下では、その一例を図9及び図10を参照しながら説明する。 (4) Fourth Modification There are various possible configurations in which the
図9は、第4の変形例に係る吸引装置100について説明するための図である。図9では、完成状態の吸引装置100の、サセプタ30の幅方向に直交する断面の一例が模式的に示されている。図9に示すように、支持部21は、第2ユニット20の天面20aに埋没するように設けられた、蛇腹状に凹凸する内壁を有する溝として構成されてもよい。支持部21の内壁には、互いに対向する凸部21a-1及び21a-2と、互いに対向する凸部21b-1及び21b-2とが、離隔して設けられる。そのため、支持部21は、サセプタ30の下端を底部21cで支持しつつ、サセプタ30の離隔した2点を、対向する凸部21a-1及び21a-2、並びに対向する凸部21b-1及び21b-2の各々により挟持する。このように、支持部21は、サセプタ30を複数の離隔した位置で挟持することで、サセプタ30を支持してもよい。かかる構成によれば、サセプタ30と支持部21との接触面積を削減することが可能となる。その結果、サセプタ30から第2ユニット20への伝熱を軽減し、熱に起因する故障を防止することが可能となる。
FIG. 9 is a diagram for explaining a suction device 100 according to a fourth modification. FIG. 9 schematically shows an example of a cross section of the completed suction device 100 perpendicular to the width direction of the susceptor 30. As shown in FIG. 9, the support portion 21 may be configured as a groove that is embedded in the top surface 20a of the second unit 20 and has an inner wall that is uneven in a bellows shape. On the inner wall of the support portion 21, protrusions 21a-1 and 21a-2 facing each other and protrusions 21b-1 and 21b-2 facing each other are provided spaced apart. Therefore, the support part 21 supports the lower end of the susceptor 30 with the bottom part 21c, and supports two separated points of the susceptor 30 with the opposing protrusions 21a-1 and 21a-2 and the opposing protrusions 21b-1 and 21b. -2. In this way, the support section 21 may support the susceptor 30 by holding the susceptor 30 at a plurality of spaced apart positions. According to this configuration, it is possible to reduce the contact area between the susceptor 30 and the support portion 21. As a result, it is possible to reduce heat transfer from the susceptor 30 to the second unit 20 and prevent failures due to heat.
図10は、第4の変形例に係る吸引装置100について説明するための図である。図10では、完成状態の吸引装置100の、サセプタ30の幅方向に直交する断面の一例が模式的に示されている。支持部21は、互いに反る様に屈曲した2枚の板状部材21d-1及び21d-2により構成されてもよい。板状部材21d-1及び21d-2は、対向する平面部21e-1と平面部21e-2との間の距離がサセプタ30の板厚より短くなるよう、第2ユニット20の天面20a上に離隔して配置される。そして、板状部材21d-1と21d-2との隙間にサセプタ30が挿入されると、対向する平面部21e-1と平面部21e-2とが押し広げられ、その反力によりサセプタ30が挟持される。このように、支持部21は、クリップ状に構成され、天面20a上でサセプタ30を支持してもよい。
FIG. 10 is a diagram for explaining a suction device 100 according to a fourth modification. FIG. 10 schematically shows an example of a cross section of the completed suction device 100 perpendicular to the width direction of the susceptor 30. The support portion 21 may be constituted by two plate-like members 21d-1 and 21d-2 bent so as to warp with each other. The plate-like members 21d-1 and 21d-2 are arranged on the top surface 20a of the second unit 20 so that the distance between the opposing plane portions 21e-1 and 21e-2 is shorter than the thickness of the susceptor 30. spaced apart from each other. Then, when the susceptor 30 is inserted into the gap between the plate members 21d-1 and 21d-2, the opposing plane parts 21e-1 and 21e-2 are pushed apart, and the reaction force causes the susceptor 30 to Being pinched. In this way, the support section 21 may be configured in a clip shape and support the susceptor 30 on the top surface 20a.
(5)第5の変形例
図11は、第5の変形例に係る吸引装置100について説明するための図である。図11に示すように、吸引装置100は、電極12及び電極受け入れ孔22を有さなくてもよい。その代わりに、図11に示すように、第1ユニット10は第1螺合部16を有し、第2ユニット20は第2螺合部24を有していてもよい。第1螺合部16と第2螺合部24とは、互いに螺合可能に構成される。例えば、第2螺合部24は、外周にネジ山が設けられたネジとして構成され、第2ユニット20の上端に設けられてもよい。第1螺合部16は、第2螺合部24としてのネジを受け入れ可能なネジ受けとして構成され、内壁15のうち下端に設けられてもよい。第2螺合部24を第1螺合部16に挿入して回転させることで、第1螺合部16と第2螺合部24とが螺合され、第1ユニット10と第2ユニット20とが接続される。他方、第2螺合部24を螺合時の反対方向に回転させることで、第1ユニット10と第2ユニット20とが分離される。 (5) Fifth Modification FIG. 11 is a diagram for explaining asuction device 100 according to a fifth modification. As shown in FIG. 11, the suction device 100 does not need to have the electrode 12 and the electrode receiving hole 22. Alternatively, as shown in FIG. 11, the first unit 10 may have the first threaded portion 16 and the second unit 20 may have the second threaded portion 24. The first screw portion 16 and the second screw portion 24 are configured to be screwable with each other. For example, the second threaded portion 24 may be configured as a screw with a thread provided on the outer periphery, and may be provided at the upper end of the second unit 20. The first threaded part 16 is configured as a screw receiver capable of receiving a screw as the second threaded part 24, and may be provided at the lower end of the inner wall 15. By inserting the second screwing part 24 into the first screwing part 16 and rotating it, the first screwing part 16 and the second screwing part 24 are screwed together, and the first unit 10 and the second unit 20 are screwed together. are connected. On the other hand, the first unit 10 and the second unit 20 are separated by rotating the second screwing portion 24 in the opposite direction to the screwing direction.
図11は、第5の変形例に係る吸引装置100について説明するための図である。図11に示すように、吸引装置100は、電極12及び電極受け入れ孔22を有さなくてもよい。その代わりに、図11に示すように、第1ユニット10は第1螺合部16を有し、第2ユニット20は第2螺合部24を有していてもよい。第1螺合部16と第2螺合部24とは、互いに螺合可能に構成される。例えば、第2螺合部24は、外周にネジ山が設けられたネジとして構成され、第2ユニット20の上端に設けられてもよい。第1螺合部16は、第2螺合部24としてのネジを受け入れ可能なネジ受けとして構成され、内壁15のうち下端に設けられてもよい。第2螺合部24を第1螺合部16に挿入して回転させることで、第1螺合部16と第2螺合部24とが螺合され、第1ユニット10と第2ユニット20とが接続される。他方、第2螺合部24を螺合時の反対方向に回転させることで、第1ユニット10と第2ユニット20とが分離される。 (5) Fifth Modification FIG. 11 is a diagram for explaining a
第1ユニット10及び第2ユニット20は、接続された状態で、収容部140を構成する。より詳しくは、第1開口13が収容部140の開口142を構成し、第2ユニット20のうちネジの先端部分の天面20aが第2開口14を塞いで底部143を構成する。そして、第1ユニット10の内壁15と、第2ユニット20のうちネジの先端部分の天面20aと、により、収容部140が構成される。支持部21は、第2ユニット20のうちネジの先端部分の天面20aに配置される。かかる構成によれば、第2ユニット20にサセプタ30を接続したまま、第1螺合部16と第2螺合部24とを螺合し又は螺合を解除して、第1ユニット10と第2ユニット20とを着脱することが可能となる。
The first unit 10 and the second unit 20 constitute a housing section 140 in a connected state. More specifically, the first opening 13 constitutes an opening 142 of the accommodating portion 140, and the top surface 20a of the screw tip portion of the second unit 20 closes the second opening 14 and constitutes the bottom portion 143. Then, the inner wall 15 of the first unit 10 and the top surface 20a of the screw tip portion of the second unit 20 constitute a housing portion 140. The support portion 21 is arranged on the top surface 20a of the screw tip portion of the second unit 20. According to this configuration, while the susceptor 30 is connected to the second unit 20, the first screw portion 16 and the second screw portion 24 are screwed together or unscrewed, and the first unit 10 and the second screw portion 24 are screwed together. It becomes possible to attach and detach the two units 20.
ここで、第1螺合部16は、導電性を有し、電磁誘導源11に電気的に接続されていてもよい。他方、第2螺合部24は、導電性を有し、電源部111に電気的に接続されていてもよい。そして、第1ユニット10と第2ユニット20とが接続された状態で、電磁誘導源11と電源部111とは第1螺合部16及び第2螺合部24を介して電気的に接続されてもよい。例えば、第1螺合部16及び第2螺合部24の上側半分と下側半分は絶縁され、一方が電極12-1として機能し、他方が電極12-2として機能してもよい。かかる構成によれば、第1螺合部16と第2螺合部24とを螺合することで、第1ユニット10と第2ユニット20とを接続すると共に、電磁誘導源11と電源部111とを電気的に接続することができる。他方、第1螺合部16と第2螺合部24との螺合を解除することで、第1ユニット10と第2ユニット20とを分離すると共に、電磁誘導源11と電源部111との電気的な接続を解除することができる。
Here, the first threaded portion 16 may have conductivity and be electrically connected to the electromagnetic induction source 11. On the other hand, the second threaded part 24 may have conductivity and be electrically connected to the power supply part 111. Then, in a state where the first unit 10 and the second unit 20 are connected, the electromagnetic induction source 11 and the power supply part 111 are electrically connected via the first threaded part 16 and the second threaded part 24. It's okay. For example, the upper half and the lower half of the first threaded portion 16 and the second threaded portion 24 may be insulated, and one may function as the electrode 12-1 and the other may function as the electrode 12-2. According to this configuration, by screwing the first screwing part 16 and the second screwing part 24 together, the first unit 10 and the second unit 20 are connected, and the electromagnetic induction source 11 and the power supply part 111 are connected. and can be electrically connected. On the other hand, by releasing the screwing between the first screwing part 16 and the second screwing part 24, the first unit 10 and the second unit 20 are separated, and the electromagnetic induction source 11 and the power supply part 111 are separated. Electrical connections can be removed.
(6)第6の変形例
図12及び図13は、第6の変形例に係る吸引装置100について説明するための図である。図12では、分離状態の吸引装置100が模式的に示されている。図13では、完成状態の吸引装置100にスティック型基材150を挿入した様子が模式的に示されている。 (6) Sixth Modification Example FIGS. 12 and 13 are diagrams for explaining asuction device 100 according to a sixth modification example. FIG. 12 schematically shows the suction device 100 in a separated state. FIG. 13 schematically shows how the stick-shaped base material 150 is inserted into the completed suction device 100.
図12及び図13は、第6の変形例に係る吸引装置100について説明するための図である。図12では、分離状態の吸引装置100が模式的に示されている。図13では、完成状態の吸引装置100にスティック型基材150を挿入した様子が模式的に示されている。 (6) Sixth Modification Example FIGS. 12 and 13 are diagrams for explaining a
図12に示すように、本変形例に係るサセプタ30は、筒状体として構成されてもよい。一例として、サセプタ30は、円筒状に構成されてよい。支持部21は、第2ユニット20の天面20aを環状にくり抜いた溝として構成されてもよく、かかる溝にサセプタ30が挿入可能であってもよい。
As shown in FIG. 12, the susceptor 30 according to this modification may be configured as a cylindrical body. As an example, the susceptor 30 may have a cylindrical shape. The support portion 21 may be configured as a groove formed by hollowing out the top surface 20a of the second unit 20 in an annular shape, and the susceptor 30 may be inserted into the groove.
円筒状に構成されたサセプタ30の外径は、円筒状に構成された第1ユニット10の内径と同一であってもよい。その場合、図13に示すように、完成状態において、サセプタ30は、サセプタ30の外壁31が第1ユニット10の内壁15に接触した状態で、支持部21により支持される。円筒状に構成されたサセプタ30の内径は、スティック型基材150の外径と同一であってもよい。その場合、完成状態において、スティック型基材150が収容部140に収容されると、スティック型基材150の外周にサセプタ30の内壁32が接触することとなる。そのため、サセプタ30が誘導加熱されると、スティック型基材150を外周から加熱することが可能となる。
The outer diameter of the cylindrical susceptor 30 may be the same as the inner diameter of the cylindrical first unit 10. In that case, as shown in FIG. 13, in the completed state, the susceptor 30 is supported by the support portion 21 with the outer wall 31 of the susceptor 30 in contact with the inner wall 15 of the first unit 10. The inner diameter of the cylindrical susceptor 30 may be the same as the outer diameter of the stick-shaped base material 150. In that case, when the stick-type base material 150 is housed in the housing section 140 in the completed state, the inner wall 32 of the susceptor 30 will come into contact with the outer periphery of the stick-type base material 150. Therefore, when the susceptor 30 is heated by induction, it becomes possible to heat the stick-shaped base material 150 from the outer periphery.
(7)第7の変形例
図14は、第7の変形例に係る吸引装置100について説明するための図である。図14では、分離状態の吸引装置100の、サセプタ30の幅方向に直交する断面の一例が模式的に示されている。図14に示すように、電磁誘導源11は、第1ユニット10の代わりに第2ユニット20に設けられてもよい。即ち、第2ユニット20は、電磁誘導源11、支持部21及び回路基板23(及び電源部111)を有していてもよい。電磁誘導源11と回路基板23(より詳しくは、電源部111)とは、電極12の代わりに導線により電気的に接続されてもよい。 (7) Seventh Modification FIG. 14 is a diagram for explaining asuction device 100 according to a seventh modification. FIG. 14 schematically shows an example of a cross section of the suction device 100 in a separated state perpendicular to the width direction of the susceptor 30. As shown in FIG. 14, the electromagnetic induction source 11 may be provided in the second unit 20 instead of the first unit 10. That is, the second unit 20 may include the electromagnetic induction source 11, the support section 21, and the circuit board 23 (and the power supply section 111). The electromagnetic induction source 11 and the circuit board 23 (more specifically, the power supply section 111) may be electrically connected by a conductive wire instead of the electrode 12.
図14は、第7の変形例に係る吸引装置100について説明するための図である。図14では、分離状態の吸引装置100の、サセプタ30の幅方向に直交する断面の一例が模式的に示されている。図14に示すように、電磁誘導源11は、第1ユニット10の代わりに第2ユニット20に設けられてもよい。即ち、第2ユニット20は、電磁誘導源11、支持部21及び回路基板23(及び電源部111)を有していてもよい。電磁誘導源11と回路基板23(より詳しくは、電源部111)とは、電極12の代わりに導線により電気的に接続されてもよい。 (7) Seventh Modification FIG. 14 is a diagram for explaining a
図14に示すように、第1ユニット10と第2ユニット20とは、ヒンジ40により開閉可能に接続される。ヒンジ40を開くことで第1ユニット10と第2ユニット20とを分離させ、ヒンジ40を閉じることで第1ユニット10と第2ユニット20とを接続することができる。本変形例において、収容部140の内部空間141は、接続された第1ユニット10と第2ユニット20とにより挟まれる空間として、実現される。
As shown in FIG. 14, the first unit 10 and the second unit 20 are connected by a hinge 40 so that they can be opened and closed. The first unit 10 and the second unit 20 can be separated by opening the hinge 40, and the first unit 10 and the second unit 20 can be connected by closing the hinge 40. In this modification, the internal space 141 of the housing section 140 is realized as a space sandwiched between the first unit 10 and the second unit 20 that are connected.
本変形例において、電磁誘導源11は、トランスバース型のコイルとして構成される。トランスバース型のコイルは、コイルの軸方向に離隔して配置された被加熱物に、コイルの軸方向に沿って形成させる交番磁束を貫通させることで、被加熱物を誘導加熱する。図14に示すように、トランスバース型のコイルとして構成された電磁誘導源11は、軸方向を内部空間141に向けて配置される。そのため、収容部140に収容されたスティック型基材150を誘導加熱することができる。
In this modification, the electromagnetic induction source 11 is configured as a transverse coil. A transverse coil inductively heats an object to be heated by passing an alternating magnetic flux formed along the axial direction of the coil through the object to be heated, which is spaced apart in the axial direction of the coil. As shown in FIG. 14, the electromagnetic induction source 11 configured as a transverse coil is arranged with its axial direction facing the internal space 141. Therefore, the stick-shaped base material 150 housed in the housing section 140 can be heated by induction.
(8)その他
上記実施形態では、第1ユニット10と第2ユニット20とが分離された状態において、第2ユニット20にサセプタ30が着脱される例を説明したが、本発明はかかる例に限定されない。第1ユニット10と第2ユニット20とが接続された状態で、第2ユニット20にサセプタ30が着脱されてもよい。若しくは、第1ユニット10と第2ユニット20とは着脱不可能に構成されてよい。そして、一体として構成された第1ユニット10と第2ユニット20とに、サセプタ30が着脱されてもよい。例えば、開口142から内部空間141にピンセット等を挿入することで、第1ユニット10と第2ユニット20とを接続したままサセプタ30を着脱することが可能である。 (8) Others In the above embodiment, an example has been described in which thesusceptor 30 is attached to and detached from the second unit 20 in a state where the first unit 10 and the second unit 20 are separated, but the present invention is limited to such an example. Not done. The susceptor 30 may be attached to and detached from the second unit 20 while the first unit 10 and the second unit 20 are connected. Alternatively, the first unit 10 and the second unit 20 may be configured to be non-removable. The susceptor 30 may be attached to and detached from the first unit 10 and the second unit 20, which are configured as one unit. For example, by inserting tweezers or the like into the internal space 141 through the opening 142, it is possible to attach and detach the susceptor 30 while keeping the first unit 10 and the second unit 20 connected.
上記実施形態では、第1ユニット10と第2ユニット20とが分離された状態において、第2ユニット20にサセプタ30が着脱される例を説明したが、本発明はかかる例に限定されない。第1ユニット10と第2ユニット20とが接続された状態で、第2ユニット20にサセプタ30が着脱されてもよい。若しくは、第1ユニット10と第2ユニット20とは着脱不可能に構成されてよい。そして、一体として構成された第1ユニット10と第2ユニット20とに、サセプタ30が着脱されてもよい。例えば、開口142から内部空間141にピンセット等を挿入することで、第1ユニット10と第2ユニット20とを接続したままサセプタ30を着脱することが可能である。 (8) Others In the above embodiment, an example has been described in which the
上記実施形態では、第1ユニット10が電極12を有し第2ユニット20が電極受け入れ孔22を有する例を説明したが、本発明はかかる例に限定されない。第2ユニット20が、電源部111に電気的に接続された電極を有していてもよい。他方、第1ユニット10が、電極を挿入可能であって電磁誘導源11への接点を露出する電極受け入れ孔を有していてもよい。そして、電極が電極受け入れ孔に挿入され、電極が電磁誘導源11への接点に接触した状態で、第1ユニット10と第2ユニット20とが接続されてもよい。かかる構成によれば、上記実施形態と同様に、完成状態において電磁誘導源11と電源部111とを電気的に接続し、分離状態において電磁誘導源11と電源部111との電気的な接続を解除することが可能となる。
Although the above embodiment describes an example in which the first unit 10 has the electrode 12 and the second unit 20 has the electrode receiving hole 22, the present invention is not limited to such an example. The second unit 20 may have an electrode electrically connected to the power supply section 111. On the other hand, the first unit 10 may have an electrode receiving hole into which an electrode can be inserted and which exposes the contact to the electromagnetic induction source 11. Then, the first unit 10 and the second unit 20 may be connected with the electrode inserted into the electrode receiving hole and in contact with the contact point to the electromagnetic induction source 11. According to this configuration, similarly to the above embodiment, the electromagnetic induction source 11 and the power supply section 111 are electrically connected in the completed state, and the electromagnetic induction source 11 and the power supply section 111 are electrically connected in the separated state. It becomes possible to cancel the release.
なお、本明細書において説明した各装置による一連の処理は、ソフトウェア、ハードウェア、及びソフトウェアとハードウェアとの組合せのいずれを用いて実現されてもよい。ソフトウェアを構成するプログラムは、例えば、各装置の内部又は外部に設けられる記録媒体(詳しくは、コンピュータにより読み取り可能な非一時的な記憶媒体)に予め格納される。そして、各プログラムは、例えば、本明細書において説明した各装置を制御するコンピュータによる実行時にRAMに読み込まれ、CPUなどの処理回路により実行される。上記記録媒体は、例えば、磁気ディスク、光ディスク、光磁気ディスク、フラッシュメモリ等である。また、上記のコンピュータプログラムは、記録媒体を用いずに、例えばネットワークを介して配信されてもよい。また、上記のコンピュータは、ASICのような特定用途向け集積回路、ソフトウエアプログラムを読み込むことで機能を実行する汎用プロセッサ、又はクラウドコンピューティングに使用されるサーバ上のコンピュータ等であってよい。また、本明細書において説明した各装置による一連の処理は、複数のコンピュータにより分散して処理されてもよい。
Note that the series of processes performed by each device described in this specification may be realized using software, hardware, or a combination of software and hardware. A program constituting the software is stored in advance, for example, in a recording medium (specifically, a computer-readable non-temporary storage medium) provided inside or outside each device. For example, each program is read into the RAM when executed by a computer that controls each device described in this specification, and is executed by a processing circuit such as a CPU. The recording medium is, for example, a magnetic disk, an optical disk, a magneto-optical disk, a flash memory, or the like. Furthermore, the above computer program may be distributed, for example, via a network, without using a recording medium. Further, the above-mentioned computer may be an application-specific integrated circuit such as an ASIC, a general-purpose processor that executes functions by loading a software program, or a computer on a server used for cloud computing. Furthermore, a series of processes performed by each device described in this specification may be distributed and processed by multiple computers.
また、本明細書においてフローチャート及びシーケンス図を用いて説明した処理は、必ずしも図示された順序で実行されなくてもよい。いくつかの処理ステップは、並列的に実行されてもよい。また、追加的な処理ステップが採用されてもよく、一部の処理ステップが省略されてもよい。
Furthermore, the processes described using flowcharts and sequence diagrams in this specification do not necessarily have to be executed in the order shown. Some processing steps may be performed in parallel. Also, additional processing steps may be employed or some processing steps may be omitted.
なお、以下のような構成も本発明の技術的範囲に属する。
(1)
エアロゾル源を加熱してエアロゾルを生成するエアロゾル生成システムであって、
電源部と、
前記電源部から供給された電力を使用して変動磁場を発生させる電磁誘導源と、
前記変動磁場が侵入した場合に発熱し前記エアロゾル源を加熱するサセプタを着脱可能に支持する支持部と、
を備えるエアロゾル生成システム。
(2)
前記エアロゾル生成システムは、内部空間及び前記内部空間を外部に開放する第1開口を有し、前記第1開口から挿入された前記エアロゾル源を含有する基材を収容する収容部を備え、
前記電磁誘導源は、発生させた前記変動磁場が前記内部空間に重畳する位置に配置され、
前記支持部は、前記サセプタが前記収容部の前記内部空間に位置した状態で前記サセプタを支持する、
前記(1)に記載のエアロゾル生成システム。
(3)
前記支持部は、前記第1開口に対向する前記収容部の底部に配置され、前記サセプタが前記収容部の前記底部から前記内部空間に突出した状態で、前記サセプタの端部を支持する、
前記(2)に記載のエアロゾル生成システム。
(4)
前記支持部は、前記サセプタを複数の離隔した位置で挟持することで、前記サセプタを支持する、
前記(3)に記載のエアロゾル生成システム。
(5)
前記電磁誘導源のうち前記収容部の前記底部に近い方向の端部は、前記収容部の前記底部から離隔する、
前記(3)又は(4)に記載のエアロゾル生成システム。
(6)
前記エアロゾル生成システムは、
前記電磁誘導源を有する第1ユニットと、
前記電源部及び前記支持部を有する第2ユニットと、
を備え、
前記第1ユニットと前記第2ユニットとは着脱可能に構成される、
前記(2)~(5)のいずれか一項に記載のエアロゾル生成システム。
(7)
前記第1ユニットは、前記第1開口及び前記第1開口に対向する第2開口を両端とする筒状体であり、
前記第1ユニット及び前記第2ユニットは、前記第2ユニットが前記第1ユニットの前記第2開口を塞ぐようにして前記第1ユニットに接続された状態で前記収容部を構成し、
前記支持部は、前記第2ユニットのうち前記収容部の底部を構成する部分に配置される、
前記(6)に記載のエアロゾル生成システム。
(8)
前記第1ユニット又は前記第2ユニットの一方は、前記電磁誘導源又は前記電源に電気的に接続された電極を有し、
前記第1ユニット又は前記第2ユニットの他方は、前記電極を挿入可能であって前記電源部又は前記電磁誘導源への接点を露出する孔を有し、
前記電極が前記孔に挿入され前記接点に接触した状態で、前記第1ユニットと前記第2ユニットとは接続される、
前記(7)に記載のエアロゾル生成システム。
(9)
前記第1ユニットは、導電性を有し、前記電磁誘導源に電気的に接続された第1螺合部を有し、
前記第2ユニットは、導電性を有し、前記電源に電気的に接続された第2螺合部を有し、
前記第1ユニットと前記第2ユニットとは、前記第1螺合部及び前記第2螺合部が螺合することで接続され、
前記第1ユニットと前記第2ユニットとが接続された状態で、前記電磁誘導源と前記電源部とは前記第1螺合部及び前記第2螺合部を介して電気的に接続される、
前記(7)に記載のエアロゾル生成システム。
(10)
前記エアロゾル生成システムは、
前記第1ユニットと前記第2ユニットとの分離可否を切り替えるロック機構と、
前記サセプタの温度に応じて前記ロック機構の動作を制御する制御部と、
を備え、
前記制御部は、前記サセプタの温度が所定の閾値未満である場合に分離可能となり、前記サセプタの温度が前記所定の閾値以上である場合に分離不可能となるよう、前記ロック機構を制御する、
前記(6)~(9)のいずれか一項に記載のエアロゾル生成システム。
(11)
前記支持部は、導電性が所定の閾値よりも低い材料により構成される、
前記(1)~(10)のいずれか一項に記載のエアロゾル生成システム。
(12)
前記サセプタのうち、前記支持部により支持される端部に、導電性が所定の閾値よりも低い材料により構成された被支持部が設けられる、
前記(1)~(11)のいずれか一項に記載のエアロゾル生成システム。
(13)
前記サセプタは、板状又は棒状に構成される、
前記(1)~(12)のいずれか一項に記載のエアロゾル生成システム。
(14)
前記サセプタは、筒状体として構成される、
前記(1)~(12)のいずれか一項に記載のエアロゾル生成システム。
(15)
前記エアロゾル生成システムは、前記基材をさらに備える、
前記(2)~(10)のいずれか一項に記載のエアロゾル生成システム。 Note that the following configurations also belong to the technical scope of the present invention.
(1)
An aerosol generation system that generates aerosol by heating an aerosol source, the system comprising:
power supply section,
an electromagnetic induction source that generates a fluctuating magnetic field using electric power supplied from the power supply unit;
a support portion that removably supports a susceptor that generates heat and heats the aerosol source when the fluctuating magnetic field enters;
An aerosol generation system comprising:
(2)
The aerosol generation system has an internal space and a first opening that opens the internal space to the outside, and includes a housing section that accommodates a base material containing the aerosol source inserted through the first opening,
The electromagnetic induction source is arranged at a position where the generated fluctuating magnetic field is superimposed on the internal space,
The support part supports the susceptor in a state where the susceptor is located in the internal space of the accommodating part.
The aerosol generation system according to (1) above.
(3)
The support portion is disposed at a bottom portion of the accommodating portion facing the first opening, and supports an end portion of the susceptor in a state where the susceptor protrudes from the bottom portion of the accommodating portion into the internal space.
The aerosol generation system according to (2) above.
(4)
The support part supports the susceptor by holding the susceptor at a plurality of spaced apart positions.
The aerosol generation system according to (3) above.
(5)
An end of the electromagnetic induction source in a direction closer to the bottom of the housing is spaced apart from the bottom of the housing.
The aerosol generation system according to (3) or (4) above.
(6)
The aerosol generation system includes:
a first unit having the electromagnetic induction source;
a second unit having the power supply section and the support section;
Equipped with
The first unit and the second unit are configured to be detachable.
The aerosol generation system according to any one of (2) to (5) above.
(7)
The first unit is a cylindrical body having both ends at the first opening and a second opening opposite to the first opening,
The first unit and the second unit constitute the accommodating part in a state where the second unit is connected to the first unit so as to close the second opening of the first unit,
The support part is arranged in a part of the second unit that constitutes a bottom part of the storage part,
The aerosol generation system according to (6) above.
(8)
One of the first unit or the second unit has an electrode electrically connected to the electromagnetic induction source or the power source,
The other of the first unit or the second unit has a hole into which the electrode can be inserted and exposes a contact to the power supply unit or the electromagnetic induction source,
The first unit and the second unit are connected with the electrode inserted into the hole and in contact with the contact.
The aerosol generation system according to (7) above.
(9)
The first unit has a first threaded portion that is electrically conductive and electrically connected to the electromagnetic induction source,
The second unit has conductivity and has a second screw portion electrically connected to the power source,
The first unit and the second unit are connected by the first screwing part and the second screwing part being screwed together,
In a state where the first unit and the second unit are connected, the electromagnetic induction source and the power supply section are electrically connected via the first threaded part and the second threaded part,
The aerosol generation system according to (7) above.
(10)
The aerosol generation system includes:
a locking mechanism that switches whether or not the first unit and the second unit can be separated;
a control unit that controls the operation of the locking mechanism according to the temperature of the susceptor;
Equipped with
The control unit controls the locking mechanism so that the susceptor can be separated when the temperature of the susceptor is less than a predetermined threshold, and the locking mechanism is not separable when the susceptor temperature is equal to or higher than the predetermined threshold.
The aerosol generation system according to any one of (6) to (9) above.
(11)
The support portion is made of a material whose conductivity is lower than a predetermined threshold.
The aerosol generation system according to any one of (1) to (10) above.
(12)
A supported part made of a material whose conductivity is lower than a predetermined threshold is provided at an end of the susceptor supported by the support part.
The aerosol generation system according to any one of (1) to (11) above.
(13)
The susceptor is configured in a plate shape or a rod shape,
The aerosol generation system according to any one of (1) to (12) above.
(14)
The susceptor is configured as a cylindrical body,
The aerosol generation system according to any one of (1) to (12) above.
(15)
The aerosol generation system further includes the base material,
The aerosol generation system according to any one of (2) to (10) above.
(1)
エアロゾル源を加熱してエアロゾルを生成するエアロゾル生成システムであって、
電源部と、
前記電源部から供給された電力を使用して変動磁場を発生させる電磁誘導源と、
前記変動磁場が侵入した場合に発熱し前記エアロゾル源を加熱するサセプタを着脱可能に支持する支持部と、
を備えるエアロゾル生成システム。
(2)
前記エアロゾル生成システムは、内部空間及び前記内部空間を外部に開放する第1開口を有し、前記第1開口から挿入された前記エアロゾル源を含有する基材を収容する収容部を備え、
前記電磁誘導源は、発生させた前記変動磁場が前記内部空間に重畳する位置に配置され、
前記支持部は、前記サセプタが前記収容部の前記内部空間に位置した状態で前記サセプタを支持する、
前記(1)に記載のエアロゾル生成システム。
(3)
前記支持部は、前記第1開口に対向する前記収容部の底部に配置され、前記サセプタが前記収容部の前記底部から前記内部空間に突出した状態で、前記サセプタの端部を支持する、
前記(2)に記載のエアロゾル生成システム。
(4)
前記支持部は、前記サセプタを複数の離隔した位置で挟持することで、前記サセプタを支持する、
前記(3)に記載のエアロゾル生成システム。
(5)
前記電磁誘導源のうち前記収容部の前記底部に近い方向の端部は、前記収容部の前記底部から離隔する、
前記(3)又は(4)に記載のエアロゾル生成システム。
(6)
前記エアロゾル生成システムは、
前記電磁誘導源を有する第1ユニットと、
前記電源部及び前記支持部を有する第2ユニットと、
を備え、
前記第1ユニットと前記第2ユニットとは着脱可能に構成される、
前記(2)~(5)のいずれか一項に記載のエアロゾル生成システム。
(7)
前記第1ユニットは、前記第1開口及び前記第1開口に対向する第2開口を両端とする筒状体であり、
前記第1ユニット及び前記第2ユニットは、前記第2ユニットが前記第1ユニットの前記第2開口を塞ぐようにして前記第1ユニットに接続された状態で前記収容部を構成し、
前記支持部は、前記第2ユニットのうち前記収容部の底部を構成する部分に配置される、
前記(6)に記載のエアロゾル生成システム。
(8)
前記第1ユニット又は前記第2ユニットの一方は、前記電磁誘導源又は前記電源に電気的に接続された電極を有し、
前記第1ユニット又は前記第2ユニットの他方は、前記電極を挿入可能であって前記電源部又は前記電磁誘導源への接点を露出する孔を有し、
前記電極が前記孔に挿入され前記接点に接触した状態で、前記第1ユニットと前記第2ユニットとは接続される、
前記(7)に記載のエアロゾル生成システム。
(9)
前記第1ユニットは、導電性を有し、前記電磁誘導源に電気的に接続された第1螺合部を有し、
前記第2ユニットは、導電性を有し、前記電源に電気的に接続された第2螺合部を有し、
前記第1ユニットと前記第2ユニットとは、前記第1螺合部及び前記第2螺合部が螺合することで接続され、
前記第1ユニットと前記第2ユニットとが接続された状態で、前記電磁誘導源と前記電源部とは前記第1螺合部及び前記第2螺合部を介して電気的に接続される、
前記(7)に記載のエアロゾル生成システム。
(10)
前記エアロゾル生成システムは、
前記第1ユニットと前記第2ユニットとの分離可否を切り替えるロック機構と、
前記サセプタの温度に応じて前記ロック機構の動作を制御する制御部と、
を備え、
前記制御部は、前記サセプタの温度が所定の閾値未満である場合に分離可能となり、前記サセプタの温度が前記所定の閾値以上である場合に分離不可能となるよう、前記ロック機構を制御する、
前記(6)~(9)のいずれか一項に記載のエアロゾル生成システム。
(11)
前記支持部は、導電性が所定の閾値よりも低い材料により構成される、
前記(1)~(10)のいずれか一項に記載のエアロゾル生成システム。
(12)
前記サセプタのうち、前記支持部により支持される端部に、導電性が所定の閾値よりも低い材料により構成された被支持部が設けられる、
前記(1)~(11)のいずれか一項に記載のエアロゾル生成システム。
(13)
前記サセプタは、板状又は棒状に構成される、
前記(1)~(12)のいずれか一項に記載のエアロゾル生成システム。
(14)
前記サセプタは、筒状体として構成される、
前記(1)~(12)のいずれか一項に記載のエアロゾル生成システム。
(15)
前記エアロゾル生成システムは、前記基材をさらに備える、
前記(2)~(10)のいずれか一項に記載のエアロゾル生成システム。 Note that the following configurations also belong to the technical scope of the present invention.
(1)
An aerosol generation system that generates aerosol by heating an aerosol source, the system comprising:
power supply section,
an electromagnetic induction source that generates a fluctuating magnetic field using electric power supplied from the power supply unit;
a support portion that removably supports a susceptor that generates heat and heats the aerosol source when the fluctuating magnetic field enters;
An aerosol generation system comprising:
(2)
The aerosol generation system has an internal space and a first opening that opens the internal space to the outside, and includes a housing section that accommodates a base material containing the aerosol source inserted through the first opening,
The electromagnetic induction source is arranged at a position where the generated fluctuating magnetic field is superimposed on the internal space,
The support part supports the susceptor in a state where the susceptor is located in the internal space of the accommodating part.
The aerosol generation system according to (1) above.
(3)
The support portion is disposed at a bottom portion of the accommodating portion facing the first opening, and supports an end portion of the susceptor in a state where the susceptor protrudes from the bottom portion of the accommodating portion into the internal space.
The aerosol generation system according to (2) above.
(4)
The support part supports the susceptor by holding the susceptor at a plurality of spaced apart positions.
The aerosol generation system according to (3) above.
(5)
An end of the electromagnetic induction source in a direction closer to the bottom of the housing is spaced apart from the bottom of the housing.
The aerosol generation system according to (3) or (4) above.
(6)
The aerosol generation system includes:
a first unit having the electromagnetic induction source;
a second unit having the power supply section and the support section;
Equipped with
The first unit and the second unit are configured to be detachable.
The aerosol generation system according to any one of (2) to (5) above.
(7)
The first unit is a cylindrical body having both ends at the first opening and a second opening opposite to the first opening,
The first unit and the second unit constitute the accommodating part in a state where the second unit is connected to the first unit so as to close the second opening of the first unit,
The support part is arranged in a part of the second unit that constitutes a bottom part of the storage part,
The aerosol generation system according to (6) above.
(8)
One of the first unit or the second unit has an electrode electrically connected to the electromagnetic induction source or the power source,
The other of the first unit or the second unit has a hole into which the electrode can be inserted and exposes a contact to the power supply unit or the electromagnetic induction source,
The first unit and the second unit are connected with the electrode inserted into the hole and in contact with the contact.
The aerosol generation system according to (7) above.
(9)
The first unit has a first threaded portion that is electrically conductive and electrically connected to the electromagnetic induction source,
The second unit has conductivity and has a second screw portion electrically connected to the power source,
The first unit and the second unit are connected by the first screwing part and the second screwing part being screwed together,
In a state where the first unit and the second unit are connected, the electromagnetic induction source and the power supply section are electrically connected via the first threaded part and the second threaded part,
The aerosol generation system according to (7) above.
(10)
The aerosol generation system includes:
a locking mechanism that switches whether or not the first unit and the second unit can be separated;
a control unit that controls the operation of the locking mechanism according to the temperature of the susceptor;
Equipped with
The control unit controls the locking mechanism so that the susceptor can be separated when the temperature of the susceptor is less than a predetermined threshold, and the locking mechanism is not separable when the susceptor temperature is equal to or higher than the predetermined threshold.
The aerosol generation system according to any one of (6) to (9) above.
(11)
The support portion is made of a material whose conductivity is lower than a predetermined threshold.
The aerosol generation system according to any one of (1) to (10) above.
(12)
A supported part made of a material whose conductivity is lower than a predetermined threshold is provided at an end of the susceptor supported by the support part.
The aerosol generation system according to any one of (1) to (11) above.
(13)
The susceptor is configured in a plate shape or a rod shape,
The aerosol generation system according to any one of (1) to (12) above.
(14)
The susceptor is configured as a cylindrical body,
The aerosol generation system according to any one of (1) to (12) above.
(15)
The aerosol generation system further includes the base material,
The aerosol generation system according to any one of (2) to (10) above.
100 吸引装置
111 電源部
112 センサ部
113 通知部
114 記憶部
115 通信部
116 制御部
121 加熱部
140 収容部
141 内部空間
142 開口
143 底部
150 スティック型基材
151 基材部
152 吸口部
10 第1ユニット
11 電磁誘導源
12 電極
13 第1開口
14 第2開口
15 内壁
16 第1螺合部
20 第2ユニット
20a 天面
21 支持部
22 電極受け入れ孔
23 回路基板
24 第2螺合部
30 サセプタ(30a:被支持部、31:外壁、32:内壁)
40 ヒンジ 100Suction device 111 Power supply section 112 Sensor section 113 Notification section 114 Storage section 115 Communication section 116 Control section 121 Heating section 140 Storage section 141 Internal space 142 Opening 143 Bottom section 150 Stick type base material 151 Base section 152 Mouthpiece section 10 First unit 11 Electromagnetic induction source 12 Electrode 13 First opening 14 Second opening 15 Inner wall 16 First threaded part 20 Second unit 20a Top surface 21 Support part 22 Electrode receiving hole 23 Circuit board 24 Second threaded part 30 Susceptor (30a: supported part, 31: outer wall, 32: inner wall)
40 Hinge
111 電源部
112 センサ部
113 通知部
114 記憶部
115 通信部
116 制御部
121 加熱部
140 収容部
141 内部空間
142 開口
143 底部
150 スティック型基材
151 基材部
152 吸口部
10 第1ユニット
11 電磁誘導源
12 電極
13 第1開口
14 第2開口
15 内壁
16 第1螺合部
20 第2ユニット
20a 天面
21 支持部
22 電極受け入れ孔
23 回路基板
24 第2螺合部
30 サセプタ(30a:被支持部、31:外壁、32:内壁)
40 ヒンジ 100
40 Hinge
Claims (15)
- エアロゾル源を加熱してエアロゾルを生成するエアロゾル生成システムであって、
電源部と、
前記電源部から供給された電力を使用して変動磁場を発生させる電磁誘導源と、
前記変動磁場が侵入した場合に発熱し前記エアロゾル源を加熱するサセプタを着脱可能に支持する支持部と、
を備えるエアロゾル生成システム。 An aerosol generation system that generates aerosol by heating an aerosol source, the system comprising:
power supply section,
an electromagnetic induction source that generates a fluctuating magnetic field using electric power supplied from the power supply unit;
a support portion that removably supports a susceptor that generates heat and heats the aerosol source when the fluctuating magnetic field enters;
An aerosol generation system comprising: - 前記エアロゾル生成システムは、内部空間及び前記内部空間を外部に開放する第1開口を有し、前記第1開口から挿入された前記エアロゾル源を含有する基材を収容する収容部を備え、
前記電磁誘導源は、発生させた前記変動磁場が前記内部空間に重畳する位置に配置され、
前記支持部は、前記サセプタが前記収容部の前記内部空間に位置した状態で前記サセプタを支持する、
請求項1に記載のエアロゾル生成システム。 The aerosol generation system has an internal space and a first opening that opens the internal space to the outside, and includes a housing section that accommodates a base material containing the aerosol source inserted through the first opening,
The electromagnetic induction source is arranged at a position where the generated fluctuating magnetic field is superimposed on the internal space,
The support part supports the susceptor in a state where the susceptor is located in the internal space of the accommodating part.
The aerosol generation system according to claim 1. - 前記支持部は、前記第1開口に対向する前記収容部の底部に配置され、前記サセプタが前記収容部の前記底部から前記内部空間に突出した状態で、前記サセプタの端部を支持する、
請求項2に記載のエアロゾル生成システム。 The support portion is disposed at a bottom portion of the accommodating portion facing the first opening, and supports an end portion of the susceptor in a state where the susceptor protrudes from the bottom portion of the accommodating portion into the internal space.
The aerosol generation system according to claim 2. - 前記支持部は、前記サセプタを複数の離隔した位置で挟持することで、前記サセプタを支持する、
請求項3に記載のエアロゾル生成システム。 The support part supports the susceptor by holding the susceptor at a plurality of spaced apart positions.
The aerosol generation system according to claim 3. - 前記電磁誘導源のうち前記収容部の前記底部に近い方向の端部は、前記収容部の前記底部から離隔する、
請求項3に記載のエアロゾル生成システム。 An end of the electromagnetic induction source in a direction closer to the bottom of the housing is spaced apart from the bottom of the housing.
The aerosol generation system according to claim 3. - 前記エアロゾル生成システムは、
前記電磁誘導源を有する第1ユニットと、
前記電源部及び前記支持部を有する第2ユニットと、
を備え、
前記第1ユニットと前記第2ユニットとは着脱可能に構成される、
請求項2~5のいずれか一項に記載のエアロゾル生成システム。 The aerosol generation system includes:
a first unit having the electromagnetic induction source;
a second unit having the power supply section and the support section;
Equipped with
The first unit and the second unit are configured to be detachable.
The aerosol generation system according to any one of claims 2 to 5. - 前記第1ユニットは、前記第1開口及び前記第1開口に対向する第2開口を両端とする筒状体であり、
前記第1ユニット及び前記第2ユニットは、前記第2ユニットが前記第1ユニットの前記第2開口を塞ぐようにして前記第1ユニットに接続された状態で前記収容部を構成し、
前記支持部は、前記第2ユニットのうち前記収容部の底部を構成する部分に配置される、
請求項6に記載のエアロゾル生成システム。 The first unit is a cylindrical body having both ends at the first opening and a second opening opposite to the first opening,
The first unit and the second unit constitute the accommodating part in a state where the second unit is connected to the first unit so as to close the second opening of the first unit,
The support part is arranged in a part of the second unit that constitutes a bottom part of the storage part,
The aerosol generation system according to claim 6. - 前記第1ユニット又は前記第2ユニットの一方は、前記電磁誘導源又は前記電源に電気的に接続された電極を有し、
前記第1ユニット又は前記第2ユニットの他方は、前記電極を挿入可能であって前記電源部又は前記電磁誘導源への接点を露出する孔を有し、
前記電極が前記孔に挿入され前記接点に接触した状態で、前記第1ユニットと前記第2ユニットとは接続される、
請求項7に記載のエアロゾル生成システム。 One of the first unit or the second unit has an electrode electrically connected to the electromagnetic induction source or the power source,
The other of the first unit or the second unit has a hole into which the electrode can be inserted and exposes a contact to the power supply unit or the electromagnetic induction source,
The first unit and the second unit are connected with the electrode inserted into the hole and in contact with the contact.
The aerosol generation system according to claim 7. - 前記第1ユニットは、導電性を有し、前記電磁誘導源に電気的に接続された第1螺合部を有し、
前記第2ユニットは、導電性を有し、前記電源に電気的に接続された第2螺合部を有し、
前記第1ユニットと前記第2ユニットとは、前記第1螺合部及び前記第2螺合部が螺合することで接続され、
前記第1ユニットと前記第2ユニットとが接続された状態で、前記電磁誘導源と前記電源部とは前記第1螺合部及び前記第2螺合部を介して電気的に接続される、
請求項7に記載のエアロゾル生成システム。 The first unit has a first threaded portion that is electrically conductive and electrically connected to the electromagnetic induction source,
The second unit has conductivity and has a second screw portion electrically connected to the power source,
The first unit and the second unit are connected by the first screwing part and the second screwing part being screwed together,
In a state where the first unit and the second unit are connected, the electromagnetic induction source and the power supply section are electrically connected via the first threaded part and the second threaded part,
The aerosol generation system according to claim 7. - 前記エアロゾル生成システムは、
前記第1ユニットと前記第2ユニットとの分離可否を切り替えるロック機構と、
前記サセプタの温度に応じて前記ロック機構の動作を制御する制御部と、
を備え、
前記制御部は、前記サセプタの温度が所定の閾値未満である場合に分離可能となり、前記サセプタの温度が前記所定の閾値以上である場合に分離不可能となるよう、前記ロック機構を制御する、
請求項6に記載のエアロゾル生成システム。 The aerosol generation system includes:
a locking mechanism that switches whether or not the first unit and the second unit can be separated;
a control unit that controls the operation of the locking mechanism according to the temperature of the susceptor;
Equipped with
The control unit controls the locking mechanism so that the susceptor can be separated when the temperature of the susceptor is less than a predetermined threshold, and the locking mechanism is not separable when the susceptor temperature is equal to or higher than the predetermined threshold.
The aerosol generation system according to claim 6. - 前記支持部は、導電性が所定の閾値よりも低い材料により構成される、
請求項1に記載のエアロゾル生成システム。 The support portion is made of a material whose conductivity is lower than a predetermined threshold.
The aerosol generation system according to claim 1. - 前記サセプタのうち、前記支持部により支持される端部に、導電性が所定の閾値よりも低い材料により構成された被支持部が設けられる、
請求項1に記載のエアロゾル生成システム。 A supported part made of a material whose conductivity is lower than a predetermined threshold is provided at an end of the susceptor supported by the support part.
The aerosol generation system according to claim 1. - 前記サセプタは、板状又は棒状に構成される、
請求項1に記載のエアロゾル生成システム。 The susceptor is configured in a plate shape or a rod shape,
The aerosol generation system according to claim 1. - 前記サセプタは、筒状体として構成される、
請求項1に記載のエアロゾル生成システム。 The susceptor is configured as a cylindrical body,
The aerosol generation system according to claim 1. - 前記エアロゾル生成システムは、前記基材をさらに備える、
請求項2に記載のエアロゾル生成システム。 The aerosol generation system further includes the base material,
The aerosol generation system according to claim 2.
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