EP4316290A1 - Inhalation device, control method, and program - Google Patents
Inhalation device, control method, and program Download PDFInfo
- Publication number
- EP4316290A1 EP4316290A1 EP21932914.1A EP21932914A EP4316290A1 EP 4316290 A1 EP4316290 A1 EP 4316290A1 EP 21932914 A EP21932914 A EP 21932914A EP 4316290 A1 EP4316290 A1 EP 4316290A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- temperature
- heating
- heater
- period
- heating period
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- 238000000034 method Methods 0.000 title claims description 23
- 238000010438 heat treatment Methods 0.000 claims abstract description 538
- 239000000443 aerosol Substances 0.000 claims abstract description 75
- 239000000758 substrate Substances 0.000 claims description 81
- 230000007704 transition Effects 0.000 claims description 36
- 230000004044 response Effects 0.000 claims description 12
- 230000003247 decreasing effect Effects 0.000 claims description 11
- 230000000630 rising effect Effects 0.000 claims description 7
- 230000009471 action Effects 0.000 claims description 6
- 239000000463 material Substances 0.000 abstract description 7
- 230000007246 mechanism Effects 0.000 abstract description 5
- 239000000796 flavoring agent Substances 0.000 description 38
- 235000019634 flavors Nutrition 0.000 description 38
- 235000019640 taste Nutrition 0.000 description 18
- 230000007423 decrease Effects 0.000 description 16
- 230000008569 process Effects 0.000 description 13
- 238000010586 diagram Methods 0.000 description 12
- 230000006866 deterioration Effects 0.000 description 9
- 238000012545 processing Methods 0.000 description 7
- 239000012212 insulator Substances 0.000 description 6
- 230000008859 change Effects 0.000 description 5
- 238000004891 communication Methods 0.000 description 4
- 239000013589 supplement Substances 0.000 description 3
- 235000019504 cigarettes Nutrition 0.000 description 2
- 230000006870 function Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000003825 pressing Methods 0.000 description 2
- 230000000391 smoking effect Effects 0.000 description 2
- HBBGRARXTFLTSG-UHFFFAOYSA-N Lithium ion Chemical compound [Li+] HBBGRARXTFLTSG-UHFFFAOYSA-N 0.000 description 1
- 239000004964 aerogel Substances 0.000 description 1
- 230000006399 behavior Effects 0.000 description 1
- 238000004590 computer program Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000006698 induction Effects 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 229910001416 lithium ion Inorganic materials 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 238000012552 review Methods 0.000 description 1
- 238000004904 shortening Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Images
Classifications
-
- 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
- A24F40/50—Control or monitoring
- A24F40/57—Temperature control
-
- 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
- A24F40/20—Devices using solid inhalable precursors
Definitions
- the present invention relates to an inhaler device, a control method, and a program.
- Inhaler devices such as e-cigarettes and nebulizers, that generate material to be inhaled by a user are widespread.
- an inhaler device generates an aerosol having a flavor component imparted thereto, by using a substrate including an aerosol source for generating the aerosol, a flavor source for imparting the flavor component to the generated aerosol, and the like.
- the user is able to enjoy the flavor by inhaling the aerosol having the flavor component imparted thereto, which is generated by the inhaler device.
- Patent Literature 1 discloses a technique of performing temperature control in three stages in which the temperature of a heater is increased, then decreased, and then increased again.
- Patent Literature 1 Japanese Patent No. 6125008
- the present invention has been made in view of the above problem, and an object of the present invention is to provide a mechanism capable of further improving the quality of user experience.
- an inhaler device including a power supply configured to store and supply electric power, a heater configured to heat a substrate including an aerosol source to generate an aerosol, and a controller configured to control, based on a heating condition, supply of electric power to the heater from the power supply.
- the heating condition includes a heating profile and information defining a heating period and a non-heating period, the heating profile being information defining transition of a target temperature which is a target value of a temperature of the heater, the heating period being a period during which the substrate is heated, the non-heating period being a period during which the substrate is not heated.
- the controller is configured to control the supply of electric power to the heater so that the temperature of the heater rises to the target temperature, while alternately switching between the heating period and the non-heating period.
- the controller may be configured to execute the supply of electric power to the heater in the heating period.
- the controller may be configured to perform, in the heating period, execution of the supply of electric power to the heater and stop of the supply of electric power to the heater while alternately switching between the execution and the stop.
- the controller may be configured to keep the supply of electric power to the heater stopped over an entirety of the non-heating period.
- the heating period and the non-heating period may each have a length that is equal to or longer than a time taken for a user to perform an action of inhaling the generated aerosol at least once.
- the heating period and the non-heating period may each have a length of two seconds or more.
- the heating period and the non-heating period may be set in a period during which the temperature of the heater rises in the heating profile.
- the heating profile may include an initial temperature rise period during which the temperature of the heater rises from an initial temperature, an intermediate temperature drop period during which the temperature of the heater drops after the initial temperature rise period, and a temperature re-rise period during which the temperature of the heater rises after the intermediate temperature drop period.
- the heating period and the non-heating period may be set in the temperature re-rise period.
- the controller may be configured to switch between the heating period and the non-heating period in accordance with elapse of time.
- the controller may be configured to, in a case where the temperature of the heater rises to the target temperature in the heating period, perform control so that the temperature of the heater is maintained at the target temperature until switching to the non-heating period.
- the controller may be configured to, even in a case where the temperature of the heater does not rise to the target temperature in the heating period, stop the supply of electric power to the heater in the non-heating period subsequent to the heating period.
- the controller may be configured to, in a case where the temperature of the heater does not rise to the target temperature in the heating period, perform control so that an amount of electric power supplied in a next heating period is larger than in a case where the temperature of the heater rises to the target temperature in the heating period.
- the controller may be configured to perform switching from the heating period to the non-heating period in response to the temperature of the heater rising to the target temperature.
- the controller may be configured to perform switching from the non-heating period to the heating period in response to the temperature of the heater decreasing to a lower limit temperature which is a lower limit value of the temperature of the heater.
- the heating condition may further include transition of the lower limit temperature.
- the controller may be configured to switch the target temperature in accordance with elapse of time.
- the controller may be configured to switch the target temperature in accordance with the number of times the temperature of the heater has risen to the target temperature or the number of times switching between the heating period and the non-heating period has been performed.
- the controller may be configured to control the number of times the temperature of the heater has risen to the target temperature or the number of times switching between the heating period and the non-heating period has been performed, each of the numbers being a criterion for switching the target temperature.
- a control method for controlling an inhaler device including a power supply configured to store and supply electric power, and a heater configured to heat a substrate including an aerosol source to generate an aerosol.
- the control method includes controlling, based on a heating condition, supply of electric power to the heater from the power supply so that a temperature of the heater rises to a target temperature which is a target value of the temperature of the heater, while alternately switching between a heating period and a non-heating period, the heating condition including a heating profile and information defining the heating period and the non-heating period, the heating profile being information defining transition of the target temperature, the heating period being a period during which the substrate is heated, the non-heating period being a period during which the substrate is not heated.
- a program for causing a computer that controls an inhaler device including a power supply configured to store and supply electric power, and a heater configured to heat a substrate including an aerosol source to generate an aerosol to execute controlling, based on a heating condition, supply of electric power to the heater from the power supply so that a temperature of the heater rises to a target temperature which is a target value of the temperature of the heater, while alternately switching between a heating period and a non-heating period, the heating condition including a heating profile and information defining the heating period and the non-heating period, the heating profile being information defining transition of the target temperature, the heating period being a period during which the substrate is heated, the non-heating period being a period during which the substrate is not heated.
- An inhaler device generates material to be inhaled by a user.
- the material generated by the inhaler device is an aerosol.
- the material generated by the inhaler device may be gas.
- Fig. 1 is a schematic diagram of the inhaler device according to a configuration example.
- an inhaler device 100 according to the present configuration example includes a power supply 111, a sensor 112, a notifier 113, a memory 114, a communicator 115, a controller 116, a heater 121, a holder 140, and a heat insulator 144.
- the power supply 111 stores electric power.
- the power supply 111 supplies electric power to the structural elements of the inhaler device 100 under the control of the controller 116.
- the power supply 111 may be a rechargeable battery such as a lithium ion secondary battery.
- the sensor 112 acquires various items of information regarding the inhaler device 100.
- the sensor 112 may be a pressure sensor such as a condenser microphone, a flow sensor, or a temperature sensor, and acquire a value generated in accordance with the user's inhalation.
- the sensor 112 may be an input device that receives information input by the user, such as a button or a switch.
- the notifier 113 provides information to the user.
- the notifier 113 may be a light-emitting device that emits light, a display device that displays an image, a sound output device that outputs sound, or a vibration device that vibrates.
- the memory 114 stores various items of information for operation of the inhaler device 100.
- the memory 114 may be a non-volatile storage medium such as flash memory.
- the communicator 115 is a communication interface capable of communication in conformity with any wired or wireless communication standard.
- a communication standard may be, for example, Wi-Fi (registered trademark) or Bluetooth (registered trademark).
- the controller 116 functions as an arithmetic processing unit and a control circuit, and controls the overall operations of the inhaler device 100 in accordance with various programs.
- the controller 116 includes an electronic circuit such as a central processing unit (CPU) or a microprocessor, for example.
- the holder 140 has an internal space 141, and holds a stick substrate 150 in a manner partially accommodated in the internal space 141.
- the holder 140 has an opening 142 that allows the internal space 141 to communicate with outside.
- the holder 140 accommodates the stick substrate 150 that is inserted into the internal space 141 through the opening 142.
- the holder 140 may be a tubular body having the opening 142 and a bottom 143 on its ends, and may define the pillar-shaped internal space 141.
- the holder 140 also has a function of defining a flow path of air supplied to the stick substrate 150.
- An air inlet hole which is an inlet of air to the flow path, is disposed in the bottom 143, for example.
- an air outlet hole which is an outlet of air from the flow path, is the opening 142.
- the stick substrate 150 includes a substrate 151 and an inhalation port 152.
- the substrate 151 includes an aerosol source.
- the aerosol source is not limited to a liquid, and may be a solid.
- the stick substrate 150 held by the holder 140 includes the substrate 151 at least partially accommodated in the internal space 141 and the inhalation port 152 at least partially protruding from the opening 142.
- the heater 121 heats the aerosol source to atomize the aerosol source and generate the aerosol.
- the heater 121 has a film-like shape and surrounds the outer circumference of the holder 140. Subsequently, heat produced from the heater 121 heats the substrate 151 of the stick substrate 150 from the outer circumference, generating the aerosol.
- the heater 121 produces heat when receiving electric power from the power supply 111.
- the electric power may be supplied in response to the sensor 112 detecting a start of the user's inhalation and/or an input of predetermined information. Subsequently, the supply of the electric power may be stopped in response to the sensor 112 detecting an end of the user's inhalation and/or an input of predetermined information.
- the heat insulator 144 prevents heat from transferring from the heater 121 to the other structural elements.
- the heat insulator 144 may be a vacuum heat insulator or an aerogel heat insulator.
- the configuration example of the inhaler device 100 has been described above.
- the inhaler device 100 is not limited to the above configuration, and may be configured in various ways as exemplified below.
- the heater 121 may have a blade-like shape, and may be disposed so that the heater 121 protrudes from the bottom 143 of the holder 140 toward the internal space 141. In this case, the heater 121 having the blade-like shape is inserted into the substrate 151 of the stick substrate 150 and heats the substrate 151 of the stick substrate 150 from its inside. In another example, the heater 121 may be disposed so that the heater 121 covers the bottom 143 of the holder 140. In still another example, the heater 121 may be implemented as a combination of two or more selected from a first heater that covers the outer circumference of the holder 140, a second heater having the blade-like shape, and a third heater that covers the bottom 143 of the holder 140.
- the holder 140 may include an opening/closing mechanism that at least partially opens and closes an outer shell defining the internal space 141.
- the opening/closing mechanism include a hinge.
- the holder 140 may accommodate the stick substrate 150 while sandwiching the stick substrate 150 inserted into the internal space 141 by opening and closing the outer shell.
- the heater 121 may be at the sandwiching position of the holder 140 and may produce heat while pressing the stick substrate 150.
- means for atomizing the aerosol source is not limited to heating by the heater 121.
- the means for atomizing the aerosol source may be induction heating.
- Inhalation of an aerosol generated by the inhaler device 100 by the user will be hereinafter also referred to as a puff or a puff action.
- the controller 116 controls the operation of the heater 121 on the basis of a heating condition.
- the control of the operation of the heater 121 is implemented by controlling supply of electric power to the heater 121 from the power supply 111.
- the heating condition is information defining an operation of heating the stick substrate 150 by the heater 121.
- the heating condition includes at least a heating profile.
- the heating profile will be described in detail.
- the heating profile is information defining the transition of a target temperature.
- the target temperature is a target value of the temperature of the heater 121.
- the controller 116 controls the temperature of the heater 121 so that the transition of the temperature (hereinafter also referred to as an actual temperature) of the heater 121 becomes similar to the transition of the target temperature defined in the heating profile.
- the heating profile is typically designed to optimize the flavor that a user tastes when the user inhales an aerosol generated from the stick substrate 150. Thus, controlling of supply of electric power to the heater 121 based on the heating profile makes it possible to optimize the flavor that the user tastes.
- the heating profile includes one or more combinations of a target temperature and information indicating a timing at which temperature control is to be performed on the basis of the target temperature.
- the controller 116 controls the temperature of the heater 121 on the basis of the difference between the target temperature corresponding to the present and a current actual temperature.
- the temperature control of the heater 121 can be implemented by, for example, known feedback control.
- the feedback control may be, for example, proportional-integral-differential controller (PID control).
- PID control proportional-integral-differential controller
- the controller 116 may cause electric power from the power supply 111 to be supplied to the heater 121 in the form of pulses generated by pulse width modulation (PWM) or pulse frequency modulation (PFM).
- PWM pulse width modulation
- PFM pulse frequency modulation
- the controller 116 is capable of controlling the temperature of the heater 121 by adjusting the duty ratio or frequency of electric power pulses in the feedback control.
- the controller 116 may perform simple ON/OFF control in the feedback control. For example, the controller 116 may execute heating by the heater 121 until the actual temperature reaches the target temperature, stop heating by the heater 121 in response to the actual temperature reaching the target temperature, and execute heating by the heater 121 again in response to the actual temperature becoming lower than the target temperature.
- the controller 116 may adjust a voltage in the feedback control. Such temperature control will be hereinafter also referred to as normal temperature control.
- the temperature of the heater 121 can be quantified by, for example, measuring or estimating the electric resistance value of the heater 121 (more accurately, a heating resistor constituting the heater 121). This is because the electric resistance value of the heating resistor changes according to the temperature.
- the electric resistance value of the heating resistor can be estimated by, for example, measuring the amount of voltage drop in the heating resistor.
- the amount of voltage drop in the heating resistor can be measured by a voltage sensor that measures the potential difference applied to the heating resistor.
- the temperature of the heater 121 can be measured by a temperature sensor, such as a thermistor, installed near the heater 121.
- a period from the start to the end of the process of generating an aerosol using the stick substrate 150 will be hereinafter also referred to as a heating session.
- the heating session is a period during which supply of electric power to the heater 121 is controlled on the basis of the heating condition (i.e., the heating profile).
- the start of the heating session is a timing at which heating based on the heating profile is started.
- the end of the heating session is a timing at which a sufficient amount of aerosol is no longer generated.
- the heating session consists of a first preheating period and a latter puffable period.
- the puffable period is a period during which a sufficient amount of aerosol is assumed to be generated.
- the preheating period is a period from the start of heating to the start of the puffable period.
- the heating performed in the preheating period is also referred to as preheating.
- the information indicating the timing at which temperature control is to be performed on the basis of the target temperature may be information indicating a time section whose start and end are defined by a time elapsed from the start of heating based on the heating profile. That is, in the heating profile, a target temperature to be reached may be set for each of one or more time sections.
- the controller 116 switches the target temperature in accordance with the elapse of time. That is, the controller 116 performs the temperature control of the heater 121 on the basis of the target temperature corresponding to the elapsed time from the start of heating based on the heating profile. This makes it possible to change the temperature of the heater 121 in a manner similar to the transition of the target temperature defined in the heating profile.
- Table 1 An example of the heating profile is shown in Table 1 below. [Table 1] Table 1.
- Example of heating profile Period Elapsed time from start of heating Target temperature Initial temperature rise period 0 sec. to 35 sec. 295°C Intermediate temperature drop period 35 sec. to 45 sec. 230°C Temperature re-rise period 45 sec. to 110 sec. 230°C 110 sec. to 180 sec. 240°C 180 sec. to 260 sec. 250°C 260 sec. to 355 sec. 260°C Heating termination period Thereafter -
- Fig. 2 is a graph illustrating an example of the transition of the temperature of the heater 121 in a case where normal temperature control is performed on the basis of the heating profile shown in Table 1.
- the horizontal axis of this graph represents time (seconds).
- the vertical axis of this graph represents the temperature of the heater 121.
- the line 21 in this graph indicates the transition of the temperature of the heater 121.
- the temperature of the heater 121 changes in a manner similar to the transition of the target temperature defined in the heating profile.
- the heating profile includes an initial temperature rise period at the beginning.
- the initial temperature rise period is a period during which the temperature of the heater 121 rises from an initial temperature.
- the initial temperature is the temperature of the heater 121 before the start of heating.
- the temperature of the heater 121 reaches 295°C after 25 seconds from the start of heating, and is maintained at 295°C until after 35 seconds from the start of heating. Accordingly, it is assumed that the temperature of the stick substrate 150 reaches a temperature at which a sufficient amount of aerosol is generated. Because the temperature rapidly rises to 295°C immediately after the start of heating, preheating can be finished early, and the puffable period can be started early.
- Fig. 2 illustrates an example in which the initial temperature rise period coincides with the preheating period, these periods may be different from each other.
- the heating profile includes an intermediate temperature drop period that comes next.
- the intermediate temperature drop period is a period during which the temperature of the heater 121 drops.
- the temperature of the heater 121 drops from 295°C to 230°C from 35 seconds after the start of heating to 45 seconds after the start of heating. In this period, supply of electric power to the heater 121 may be stopped. Even in this case, a sufficient amount of aerosol is generated by the remaining heat of the heater 121 and the stick substrate 150.
- the heater 121 is maintained at a high temperature, the aerosol source included in the stick substrate 150 is rapidly consumed, which may cause deterioration of flavor, such as excessively strong flavor tasted by the user.
- the intermediate temperature drop period provided in the middle makes it possible to avoid such deterioration of flavor and improve the quality of puff experience of the user.
- the heating profile includes a temperature re-rise period that comes next.
- the temperature re-rise period is a period during which the temperature of the heater 121 rises.
- the temperature of the heater 121 rises stepwise from 230°C to 240°C, from 240°C to 250°C, and from 250°C to 260°C, from 45 seconds after the start of heating to 355 seconds after the start of heating. If the temperature of the heater 121 is continuously decreased, the temperature of the stick substrate 150 is also decreased. Thus, the amount of aerosol generated reduces, and the flavor tasted by the user may be deteriorated.
- the remaining amount of the aerosol source included in the stick substrate 150 decreases, and thus the amount of aerosol generated tends to reduce even if heating is continued at the same temperature.
- re-rise of the temperature and an increase in the amount of aerosol generated makes it possible to compensate for a decrease in the amount of aerosol generated caused by a decrease in the remaining amount of the aerosol source. Accordingly, even in the latter half of the heating session, it is possible to prevent deterioration of the flavor that the user tastes.
- the target temperature may rise stepwise in the temperature re-rise period.
- the stepwise rise in the target temperature makes it possible to appropriately compensate for a decrease in the remaining amount of the aerosol source, which progresses as the heating profile progresses toward the end.
- the heating profile includes a heating termination period at the last.
- the heating termination period is a period after the temperature re-rise period, and is a period during which heating is not performed.
- the target temperature need not necessarily be set.
- the temperature of the heater 121 decreases from 355 seconds after the start of heating.
- the supply of electric power to the heater 121 may be finished after 355 seconds from the start of heating. Even in this case, a sufficient amount of aerosol is generated for a while by the remaining heat of the heater 121 and the stick substrate 150.
- the puffable period that is, the heating session, ends after 365 seconds from the start of heating.
- the user may be notified of the timing at which the puffable period starts and the timing at which the puffable period ends. Furthermore, the user may be notified of a timing that is a predetermined time before the end of the puffable period (for example, the timing at which supply of electric power to the heater 121 ends). In this case, the user is able to take a puff in the puffable period with reference to the notification.
- the heating condition may include, in addition to the above-described heating profile, information defining a heating period and a non-heating period.
- the information defines a heating period and a non-heating period in the period during which the temperature control based on the heating profile is performed.
- the heating period is a period during which the stick substrate 150 isheated.
- the non-heating period is a period during which the stick substrate 150 is not heated.
- the controller 116 controls supply of electric power to the heater 121 so that the temperature of the heater 121 rises to the target temperature, while alternately switching between the heating period and the non-heating period. With this configuration, it is possible to change the temperature of the heater 121 in a manner similar to the transition of the target temperature defined in the heating profile while alternately repeating a temperature rise in the heating period and a temperature drop in the non-heating period.
- the stick substrate 150 can be heated with repetition of a short-term temperature rise and temperature drop, a rapid change in the temperature of the stick substrate 150 can be prevented. Thus, it is possible to prevent the deterioration of flavor caused by a rapid rise or drop of the temperature of the stick substrate 150.
- the non-heating period is provided, the time during which the stick substrate 150 is at a high temperature can be shortened, compared to normal temperature control in which a non-heating period is not provided. Accordingly, the aerosol source is moderately consumed, and thus the life of the stick substrate 150 can be extended.
- the life of the stick substrate 150 refers to a period until the aerosol source included in the stick substrate 150 is exhausted, in other words, a period during which the user is able to taste a sufficient flavor.
- the information defining the heating period and the non-heating period includes information indicating a criterion for switching between the heating period and the non-heating period.
- the information defining the heating period and the non-heating period may include information indicating the length of each of the heating period and the non-heating period.
- the information defining the heating period and the non-heating period may include information indicating the temperature of the heater 121 serving as a criterion for switching.
- the controller 116 executes supply of electric power to the heater 121 in the heating period. With this configuration, it is possible to increase the temperature of the heater 121 in the heating period.
- the controller 116 may perform execution of supply of electric power to the heater 121 and stop of supply of electric power to the heater 121 while alternately switching between the execution and the stop.
- the controller 116 may execute supply of electric power while more frequently switching ON/OFF of supply of electric power by PWM control, PFM control, or the like. With this configuration, it is possible to prevent an excessively rapid temperature rise in the heating period.
- the controller 116 keeps supply of electric power to the heater 121 stopped over the entire non-heating period. With this configuration, supply of electric power is stopped in the non-heating period, and thus electric power consumption can be reduced compared to normal temperature control in which a non-heating period is not provided.
- the length of each of the heating period and the non-heating period is equal to or longer than a time taken for the user to perform an operation of inhaling a generated aerosol at least once.
- ISO/TR 17219: 2013 (en) [retrieved on March 17, 2021]
- the time taken for one puff action is about 2 seconds.
- the length of each of the heating period and the non-heating period may be 2 seconds or more.
- An upper limit may be set for the length of each of the heating period and the non-heating period.
- the upper limit of the length of each of the heating period and the non-heating period may be 30 seconds.
- the heating period and the non-heating period are set in a period in which the temperature of the heater 121 rises in the heating profile.
- the heating period and the non-heating period are set in the temperature re-rise period.
- the temperature re-rise period is set to compensate for a decrease in the remaining amount of the aerosol source in the latter half of the heating profile.
- Fig. 3 is a graph illustrating an example of the transition of the temperature of the heater 121 in a case where normal temperature control is performed in the periods other than the temperature re-rise period and temperature control including switching between the heating period and the non-heating period is performed in the temperature re-rise period on the basis of the heating profile shown in Table 1.
- the horizontal axis of this graph represents time (seconds).
- the vertical axis of this graph represents the temperature of the heater 121.
- the line 21 in this graph indicates the transition of the temperature of the heater 121.
- the heating period and the non-heating period are repeated in the temperature re-rise period.
- the temperature of the heater 121 rises to the target temperature at the peak, and falls below the target temperature before and after the peak.
- the temperature of the heater 121 is maintained at the target temperature, particularly in the period of 25 seconds to 35 seconds in the initial temperature rise period.
- Fig. 4 to Fig. 8 are diagrams for describing switching between the heating period and the non-heating period according to the present embodiment. These figures each have a graph illustrating the transition of the temperature of the heater 121 in the temperature re-rise period.
- the horizontal axis of the graph represents the time (seconds) elapsed from the start of the heating session.
- the vertical axis of the graph represents the temperature of the heater 121.
- the line 21A indicates the transition of the temperature of the heater 121 in the heating period.
- the line 21B indicates the transition of the temperature of the heater 121 in the non-heating period.
- the controller 116 switches between the heating period and the non-heating period every 10 seconds. That is, the controller 116 switches between the heating period and the non-heating period in accordance with the elapse of time.
- the length of each of the heating period and the non-heating period is not limited to 10 seconds.
- the length of the heating period and the length of the non-heating period may be the same or different. With this configuration, the heating period and the non-heating period can be switched therebetween at a predetermined cycle, and thus the processing load of the controller 116 can be reduced.
- the temperature of the heater 121 rises to the target temperature at the end of the heating period.
- the heating period is 15 seconds
- the non-heating period is 10 seconds.
- the temperature of the heater 121 rises to the target temperature in the middle of the heating period, and thereafter the temperature of the heater 121 is maintained at the target temperature.
- the controller 116 may perform control so that the temperature of the heater 121 is maintained at the target temperature until switching to the non-heating period.
- the controller 116 switches between the heating period and the non-heating period every 10 seconds, and the temperature of the heater 121 does not rise to the target temperature at the end of the first heating period. Even in such a case where the temperature of the heater 121 does not rise to the target temperature in the heating period, the controller 116 stops supply of electric power to the heater 121 in the subsequent non-heating period. With this configuration, the heating period and the non-heating period can be switched therebetween at a predetermined cycle, and thus the processing load of the controller 116 can be reduced.
- the controller 116 may perform control so that the amount of electric power supplied in the next heating period is larger than in a case where the temperature of the heater 121 rises to the target temperature in the heating period.
- the temperature of the heater 121 does not rise to the target temperature at the end of the first heating period, and thus the controller 116 supplies a larger amount of electric power in the latter heating period than in the first heating period.
- the slope of the line 21A in the latter heating period is steep, and the temperature of the heater 121 rises to the target temperature at the end of the latter heating period.
- the controller 116 may control the temperature of the heater 121 on the basis of a lower limit temperature.
- the lower limit temperature is included in the heating condition, for example.
- the lower limit temperature is a lower limit value of the temperature of the heater 121. For example, if the temperature of the heater 121 falls below the lower limit temperature, a sufficient aerosol is not generated, or it is difficult to deliver a sufficient flavor to the user.
- the controller 116 performs switching from the non-heating period to the heating period.
- the controller 116 switches between the heating period and the non-heating period every 20 seconds. At any timing, the temperature of the heater 121 is not below the lower limit temperature.
- the heating period is 20 seconds and the non-heating period is 20 seconds, but the temperature of the heater 121 decreases to the lower limit temperature in the middle of the non-heating period.
- the controller 116 stops the non-heating period at the elapse of 10 seconds and switches the period to the heating period.
- the controller 116 performs control so that the temperature of the heater 121 is maintained at the lower limit temperature. With this control, it is possible to prevent the temperature of the heater 121 from excessively rising in the heating period that is extended relative to the original heating period.
- the heating condition may include the transition of the lower limit temperature.
- the lower limit temperature may be a temperature lower than the target temperature by a predetermined temperature, and may change in accordance with the transition of the target temperature.
- the remaining amount of the aerosol source included in the stick substrate 150 reduces.
- a rise in the lower limit temperature along with a rise in the target temperature in the temperature re-rise period makes it possible to suppress the occurrence of such an inconvenience.
- Fig. 9 is a flowchart for describing an example of a flow of a temperature control process executed by the inhaler device 100 according to the present embodiment. In this flow, it is assumed that the operation of the heater 121 is controlled on the basis of the heating profile shown in Table 1.
- the inhaler device 100 first receives a user operation of providing an instruction to start heating (step S102).
- An example of the user operation of providing an instruction to start heating is an operation of pressing a button provided on the inhaler device 100.
- the inhaler device 100 executes supply of electric power in the initial temperature rise period (step S104).
- the controller 116 executes supply of electric power to the heater 121 on the basis of PWM control or PFM control in which the target temperature is 295°C.
- the inhaler device 100 stops supply of electric power in the intermediate temperature drop period (step S106).
- the controller 116 stops supply of electric power to the heater 121 from a timing at which 35 seconds have elapsed from the start of heating to a timing at which 45 seconds have elapsed from the start of heating.
- the inhaler device 100 executes supply of electric power while switching between the heating period and the non-heating period (step S108).
- the controller 116 executes supply of electric power in the heating period while switching between the heating period and the non-heating period on the basis of various criteria, such as the elapse of time, whether the temperature of the heater 121 has risen to the target temperature, or whether the temperature of the heater 121 has decreased to the lower limit temperature.
- the inhaler device 100 then stops supply of electric power (step S110).
- the controller 116 stops supply of electric power to the heater 121 at a timing at which 355 seconds have elapsed from the start of heating.
- the notifier 113 provides information prompting the user to inhale an aerosol, that is, information prompting a puff.
- the notifier 113 provides information prompting a puff by light emission, image display, vibration, and/or audio output. The user takes a puff with reference to the information and is thus able to taste a good flavor.
- the notifier 113 provides information prompting a puff a plurality of times in the heating session.
- the user takes puffs with reference to the information and is thus able to taste a good flavor a plurality of times.
- a timing to provide information prompting a puff corresponds to a timing suitable for inhaling an aerosol (hereinafter also referred to as a puff timing suitable for a puff).
- the heating session has a plurality of timings suitable for a puff.
- the notifier 113 provides information prompting a puff at each of a plurality of notification timings corresponding to a corresponding one of a plurality of timings suitable for a puff. The user takes puffs with reference to the information and is thus able to taste a good flavor a plurality of times.
- the notification timing may be a timing before a timing suitable for a puff.
- the notification timing may be a timing several seconds before a timing suitable for a puff.
- a time lag may exist between when information prompting a puff is provided and when the user takes a puff with reference to the information.
- the user takes a puff in response to receipt of the information prompting a puff, and is thus able to naturally take a puff at a timing suitable for a puff. Accordingly, the user is able to taste a good flavor.
- the notifier 113 may provide information indicating that a timing suitable for a puff will come, during a period from before the timing suitable for a puff to the timing suitable for a puff.
- the notifier 113 may display the time until the timing suitable for a puff comes in a countdown manner.
- the notifier 113 may provide information that is different between a timing suitable for a puff and before and after the timing.
- the notifier 113 may output red light before and after the timing suitable for a puff, and may output green light at the timing suitable for a puff. With this configuration, the user is able to grasp a timing suitable for a puff and a timing unsuitable for a puff.
- the timing suitable for a puff is at least included in the puffable period.
- an aerosol can be inhaled, but both a timing suitable for a puff and a timing unsuitable for a puff may exist.
- providing of information prompting a puff at a notification timing corresponding to a timing suitable for a puff is different from notification of the timing at which the puffable period starts and the timing at which the puffable period ends described above.
- As a result of providing information prompting a puff at a notification timing corresponding to a timing suitable for a puff it is possible to prompt the user to take a puff particularly at the timing suitable for a puff in the puffable period.
- the notifier 113 may provide information prompting a puff at a timing included in a period in which the heating period and the non-heating period are set.
- the notifier 113 may provide information prompting a puff at a timing included in the temperature re-rise period. That is, the notification timing may be a timing included in the period in which the heating period and the non-heating period are set, and particularly may be a timing included in the temperature re-rise period.
- the temperature of the heater 121 increases, and in the non-heating period, the temperature of the heater 121 decreases.
- the period in which the heating period and the non-heating period are set may include both a timing suitable for a puff and a timing unsuitable for a puff.
- the user is able to taste a good flavor.
- Timing suitable for a puff is a timing at which switching from the heating period to the non-heating period occurs.
- the timing at which switching from the heating period to the non-heating period occurs is typically a timing at which the temperature of the heater 121 is at the peak. It is considered that, at the timing at which the temperature of the heater 121 is at the peak, the amount of aerosol generated is also at the peak. Thus, the user takes a puff with reference to the information and is thus able to fully taste a flavor.
- Timing suitable for a puff is a timing at which the temperature of the heater 121 has reached the target temperature.
- the user takes a puff with reference to the information and is thus able to taste an optimum flavor as designed by the heating profile.
- Fig. 10 and Fig. 11 are diagrams for describing providing of information prompting a puff in the present embodiment. These figures each have a graph illustrating the transition of the temperature of the heater 121 in the temperature re-rise period.
- the horizontal axis of the graph the horizontal axis of the graph represents the time (seconds) elapsed from the start of the heating session.
- the vertical axis of the graph represents the temperature of the heater 121.
- the line 21A indicates the transition of the temperature of the heater 121 in the heating period.
- the line 21B indicates the transition of the temperature of the heater 121 in the non-heating period.
- the point 22 indicates a notification timing.
- the notifier 113 may provide information prompting a puff at a timing included in the heating period. That is, the notification timing may be a timing included in the heating period. As illustrated in Fig. 10 and Fig. 11 , the point 22 indicating a notification timing is included in the heating period. On the other hand, a timing suitable for a puff is a timing of switching from the heating period (a period during which the temperature of the heater 121 is increased or maintained) to the non-heating period (a period during which the temperature of the heater 121 is decreased). As illustrated in Fig. 10 and Fig. 11 , the point 22 indicating a notification timing is a timing earlier than the timing suitable for a puff by the above-described time lag.
- the user is able to take a puff at the timing suitable for a puff with reference to the information prompting a puff at the point 22.
- the puff is taken at least during the heating period, and thus a decrease in the temperature of the heater 121 caused by the puff can be reduced, and deterioration of flavor can be prevented.
- the notifier 113 may provide information prompting a puff at a timing after a predetermined time from the timing of switching from the non-heating period to the heating period. That is, the notification timing may be a timing after a predetermined time from the timing of switching from the non-heating period to the heating period. As illustrated in Fig. 10 , in a case where the heating period is 10 seconds, the notifier 113 may provide information prompting a puff at a timing after 8 seconds from the timing of switching from the non-heating period to the heating period. With this configuration, the notification timing can be made earlier than the timing suitable for a puff by the above-described time lag, and thus the user is able to taste a good flavor with reference to the information prompting a puff.
- the predetermined time is set on the basis of the length of the heating period. It is desired that the length of the predetermined time be set as a length equal to or more than half the length of the heating period, for example, 2/3 of the length of the heating period. This is because it is considered that the temperature of the heater 121 has sufficiently risen in the latter half of the heating period. With this configuration, even if a puff is taken during a period from the notification timing to the timing suitable for a puff, the puff is taken at a timing at which the temperature of the heater 121 is relatively high in the heating period. Thus, the user is able to taste a good flavor.
- the notifier 113 may provide information prompting a puff at a timing at which a predetermined time has elapsed from the start of the heating session. That is, the notification timing may be a timing at which a predetermined time has elapsed from the start of the heating session.
- the predetermined time is set as a time that is assumed to be a timing included in the heating period. Furthermore, it is desired that the predetermined time be set as a time that is assumed to be a timing after a predetermined time from the timing of switching from the non-heating period to the heating period. As illustrated in Fig.
- the notifier 113 may provide, as information prompting a puff, information indicating each of a timing at which 120 seconds have elapsed from the start of the heating session and a timing at which 140 seconds have elapsed from the start of the heating session. These timings are included in the heating period and are timings after 8 seconds from the timing of switching from the non-heating period to the heating period.
- the notifier 113 may provide information prompting a puff at a timing at which the temperature of the heater 121 has risen to a predetermined temperature. That is, the notification timing may be a timing at which the temperature of the heater 121 has risen to a predetermined temperature.
- the predetermined temperature is a temperature at which a sufficient amount of aerosol is assumed to be generated.
- the predetermined temperature may be set on the basis of the target temperature.
- the predetermined temperature may be set as a temperature lower than the target temperature by 5°C.
- the notifier 113 may provide information prompting a puff at a timing at which the temperature of the heater 121 has risen to 245°C in the heating period.
- the predetermined temperature related to the notification timing can be changed in accordance with the transition of the target temperature. As described above, in the temperature re-rise period, the target temperature rises stepwise to compensate for a decrease in the remaining amount of the aerosol source included in the stick substrate 150.
- the notifier 113 may provide information prompting a puff at a timing at which the temperature of the heater 121 has stopped rising. That is, the notification timing may be a timing at which the temperature of the heater 121 has stopped rising. As illustrated in Fig. 11 , in a case where the temperature of the heater 121 rises to the target temperature in the middle of the heating period, the temperature control may be performed so that the temperature of the heater 121 is maintained at the target temperature until the heating period ends. In this case, the notifier 113 may provide information prompting a puff at a timing at which the temperature of the heater 121 has risen to the target temperature. With this configuration, a timing suitable for a puff continues after the notification timing, and thus the user is able to taste a good flavor by taking a puff with reference to the information.
- the controller 116 may be capable of switching the heating profile to be used among a plurality of available heating profiles.
- the memory 114 stores a plurality of available heating profiles.
- the controller 116 selects a heating profile to be used from among the plurality of available heating profiles stored in the memory 114.
- which heating profile is to used may be set by the user.
- the notifier 113 may provide information prompting a puff at a timing that varies according to the heating profile to be used.
- the timing suitable for a puff may also vary.
- Fig. 12 is a flowchart illustrating an example of a flow of a process of providing information prompting a puff executed by the inhaler device 100 according to the present embodiment. The process according to this flow is executed, for example, while the process according to step S108 illustrated in Fig. 9 is being executed.
- the controller 116 first determines whether a notification timing has come (step S202).
- An example of the notification timing is a timing included in the heating period.
- Another example of the notification timing is a timing after a predetermined time from a timing of switching from the non-heating period to the heating period.
- Another example of the notification timing is a timing at which a predetermined time has elapsed from the start of the heating session.
- Another example of the notification timing is a timing at which the temperature of the heater 121 has risen to a predetermined temperature set on the basis of the target temperature.
- Another example of the notification timing is a timing at which the temperature of the heater 121 has stopped rising.
- step S202 If it is determined that the notification timing has not come (NO in step S202), the controller 116 waits until the notification timing comes.
- step S202 If it is determined that the notification timing has come (YES in step S202), the controller 116 controls the notifier 113 to provide information prompting a puff (step S204).
- the controller 116 determines whether to end the heating session (step S206). For example, the controller 116 determines to end the heating session when a predetermined time has elapsed from the start of the heating session.
- step S206 If it is determined not to end the heating session (NO in step S206), the process returns to step S202.
- step S206 if it is determined to end the heating session (YES in step S206), the process ends.
- the controller 116 may perform switching from a heating period to a non-heating period when the temperature of the heater 121 has risen to a target temperature. With this configuration, it is possible to reliably increase the temperature of the heater 121 to the target temperature in the heating period. Thereafter, the controller 116 may perform switching from the non-heating period to the heating period in accordance with the elapse of time.
- the lengths of the heating period and the non-heating period are not limited to the examples described above.
- the lengths of the heating period and the non-heating period may be the same or different from each other.
- the heating period may be longer than the non-heating period, for example, the heating period may be 10 seconds and the non-heating period may be 5 seconds.
- the lengths of the heating period and the non-heating period may be increased or decreased.
- the heating period may be 10 + ⁇ seconds
- the non-heating period may be 10 seconds
- ⁇ may increase as the heating profile progresses toward the end.
- the controller 116 may switch the target temperature on the basis of the number of times the temperature of the heater 121 has reached the target temperature. For example, the controller 116 switches the target temperature every time the temperature of the heater 121 reaches the target temperature three times in the temperature re-rise period. The number of times may vary according to the target temperature or may be the same. In this case, information indicating the timing at which the temperature control is to be performed on the basis of the target temperature in the heating profile is defined by the number of times the temperature of the heater 121 has reached the target temperature after the start of heating.
- the target temperature can be switched after the number of times the temperature of the heater 121 has risen to the target temperature reaches a specified number of times.
- the controller 116 may switch the target temperature on the basis of the number of times switching between a heating period and a non-heating period has been performed. For example, the controller 116 switches the target temperature every time a set of a heating period and a non-heating period is repeated three times in the temperature re-rise period. The number of times may vary according to the target temperature or may be the same. In this case, information indicating the timing at which the temperature control is to be performed on the basis of the target temperature in the heating profile is defined by the number of times switching between a heating period and a non-heating period has been performed.
- the timing to switch the target temperature can be made coincident with the timing of switching between a heating period and a non-heating period, and thus the temperature control can be simplified.
- the controller 116 may control the number of times the temperature of the heater 121 has risen to the target temperature or the number of times switching between a heating period and a non-heating period has been performed, which is used as a criterion for switching the target temperature.
- the number of times the temperature of the heater 121 has risen to the target temperature and the number of times switching between a heating period and a non-heating period has been performed will be hereinafter collectively referred to as the number of peaks. This is because a peak appears in the temperature change of the heater 121 at a timing at which the temperature of the heater 121 has risen to the target temperature and at a timing at which switching from a heating period to a non-heating period has been performed.
- the controller 116 may decrease the number of peaks serving as a criterion for switching the target temperature in a stepwise manner. For example, regarding the heating profile shown in Table 1, the controller 116 may switch the target temperature to 240°C when a peak has appeared four times in the target temperature of 230°C. Subsequently, the controller 116 may switch the target temperature to 250°C when a peak has appeared three times in the target temperature of 240°C. Subsequently, the controller 116 may switch the target temperature to 260°C when a peak has appeared twice in the target temperature of 250°C.
- the controller 116 may increase the number of peaks serving as a criterion for switching the target temperature in a stepwise manner. For example, regarding the heating profile shown in Table 1, the controller 116 may switch the target temperature to 240°C when a peak has appeared twice in the target temperature of 230°C. Subsequently, the controller 116 may switch the target temperature to 250°C when a peak has appeared three times in the target temperature of 240°C. Subsequently, the controller 116 may switch the target temperature to 260°C when a peak has appeared four times in the target temperature of 250°C.
- the controller 116 may set the numbers of peaks serving as a criterion for switching the target temperature to be the same. For example, regarding the heating profile shown in Table 1, the controller 116 may switch the target temperature to 240°C when a peak has appeared three times in the target temperature of 230°C. Subsequently, the controller 116 may switch the target temperature to 250°C when a peak has appeared three times in the target temperature of 240°C. Subsequently, the controller 116 may switch the target temperature to 260°C when a peak has appeared three times in the target temperature of 250°C. With this configuration, it is possible to both extend the life of the stick substrate 150 and increase the satisfaction per puff.
- the controller 116 may randomly set the numbers of peaks serving as a criterion for switching the target temperature. For example, regarding the heating profile shown in Table 1, the controller 116 may switch the target temperature to 240°C when a peak has appeared three times in the target temperature of 230°C. Subsequently, the controller 116 may switch the target temperature to 250°C when a peak has appeared four times in the target temperature of 240°C. Subsequently, the controller 116 may switch the target temperature to 260°C when a peak has appeared twice in the target temperature of 250°C. With this configuration, the user is able to taste a random flavor.
- the number of peaks serving as a criterion for switching the target temperature may be set by the user.
- the user is able to taste a flavor he or she likes.
- the width of rise in the target temperature in the temperature re-rise period may be set in any manner.
- the width of rise in the target temperature in the temperature re-rise period may be constant.
- the target temperature in the temperature re-rise period may be initially set to 230°C, then to 240°C, then to 250°C, and finally to 260°C.
- the width of rise is constantly 10°C.
- the width of rise in the target temperature in the temperature re-rise period may be increased stepwise.
- the target temperature in the temperature re-rise period may be initially set to 230°C, then to 240°C, then to 255°C, and finally to 275°C.
- the width of rise in temperature increases stepwise from 10°C to 15°C, and from 15°C to 20°C.
- the notifier 113 may provide information prompting a puff in the initial temperature rise period or the intermediate temperature drop period.
- a series of processes performed by the individual devices described in this specification may be implemented by using any of software, hardware, and a combination of software and hardware.
- Programs constituting the software are stored in advance in, for example, a recording medium (non-transitory medium) provided inside or outside each device.
- a recording medium non-transitory medium
- Each program is read into a RAM and is executed by a processor such as a CPU when being executed by a computer that controls each device described in this specification, for example.
- the recording medium is, for example, a magnetic disk, an optical disc, a magneto-optical disc, a flash memory, or the like.
- the foregoing computer program may be distributed via a network, for example, without using a recording medium.
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- Control Of Resistance Heating (AREA)
- Medicinal Preparation (AREA)
- Thermotherapy And Cooling Therapy Devices (AREA)
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PCT/JP2021/011978 WO2022201304A1 (ja) | 2021-03-23 | 2021-03-23 | 吸引装置、制御方法、及びプログラム |
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EP21932914.1A Pending EP4316290A1 (en) | 2021-03-23 | 2021-03-23 | Inhalation device, control method, and program |
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EP (1) | EP4316290A1 (zh) |
JP (1) | JPWO2022201304A1 (zh) |
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US11789476B2 (en) | 2021-01-18 | 2023-10-17 | Altria Client Services Llc | Heat-not-burn (HNB) aerosol-generating devices including intra-draw heater control, and methods of controlling a heater |
CN118680337A (zh) * | 2023-03-23 | 2024-09-24 | 深圳市合元科技有限公司 | 气溶胶生成装置的控制方法及气溶胶生成装置 |
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TWI608805B (zh) | 2012-12-28 | 2017-12-21 | 菲利浦莫里斯製品股份有限公司 | 加熱型氣溶膠產生裝置及用於產生具有一致性質的氣溶膠之方法 |
EP3569081A1 (en) * | 2015-05-29 | 2019-11-20 | Japan Tobacco Inc. | Non-combustion type flavor inhaler and aerosol delivery method |
US11547151B2 (en) * | 2017-10-05 | 2023-01-10 | Philip Morris Products S.A. | Electrically operated aerosol-generating device with continuous power regulation |
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2021
- 2021-03-23 JP JP2022564793A patent/JPWO2022201304A1/ja active Pending
- 2021-03-23 WO PCT/JP2021/011978 patent/WO2022201304A1/ja active Application Filing
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