WO2015165146A1 - Procédé de commande de cigarette électronique et cigarette électronique - Google Patents

Procédé de commande de cigarette électronique et cigarette électronique Download PDF

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Publication number
WO2015165146A1
WO2015165146A1 PCT/CN2014/080188 CN2014080188W WO2015165146A1 WO 2015165146 A1 WO2015165146 A1 WO 2015165146A1 CN 2014080188 W CN2014080188 W CN 2014080188W WO 2015165146 A1 WO2015165146 A1 WO 2015165146A1
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WO
WIPO (PCT)
Prior art keywords
atomizer
microcontroller
electronic cigarette
target
user
Prior art date
Application number
PCT/CN2014/080188
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English (en)
Chinese (zh)
Inventor
刘秋明
Original Assignee
吉瑞高新科技股份有限公司
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Publication of WO2015165146A1 publication Critical patent/WO2015165146A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/30Devices using two or more structurally separated inhalable precursors, e.g. using two liquid precursors in two cartridges
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/60Devices with integrated user interfaces
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts

Definitions

  • the invention relates to a method for controlling an electronic cigarette and an electronic cigarette.
  • the application for the invention is submitted to the Chinese Patent Office on April 29, 2014, the application number is 201410177930.4, and the invention is entitled "An Electronic Tobacco Control Method and Electronic Cigarette” Chinese Patent Application Priority is hereby incorporated by reference in its entirety.
  • the present invention relates to the field of electronic cigarette technology, and more particularly to a method for controlling an electronic cigarette that can freely select a smoke taste and an electronic cigarette. Background technique
  • the electronic cigarette in the prior art atomizes the smoke oil through the atomizer inside the electronic cigarette to form the smoke that can be sucked by the user, and the atomization of the atomizer is controlled by the user pressing the switch button or by sensing the user smoking. Motion airflow sensing switch.
  • the existing electronic cigarette usually includes one or more atomizers, each of which is filled with a certain kind of smoke oil, when the switch button senses a user pressing action or the air flow sensing switch senses the user's smoking action. The atomizer will only atomize the same flavor of smoke oil.
  • the electronic cigarette user in the prior art cannot freely select one or several atomizers to work according to their own needs, so that the user cannot freely adjust the taste of the smoke, or needs to set a complicated adjustment mechanism for taste selection. Therefore, it is troublesome and the user experience is poor.
  • the invention provides a control method of an electronic cigarette capable of freely selecting a smoke taste and an electronic cigarette.
  • a method for controlling an electronic cigarette comprising:
  • the operating module receives, by the input module, an operation instruction input by the user, where the operation instruction is used to select at least one of the plurality of atomizers as the target atomizer; wherein the input module is a touch module or a first button;
  • the microcontroller If the microcontroller receives the trigger signal sent by the sensing module, the microcontroller generates a first control signal according to the trigger signal; The microcontroller controls the target atomizer to atomize the smoke oil in the target atomizer according to the first control signal.
  • the method for controlling an electronic cigarette wherein the method further includes:
  • the microcontroller establishes a first correspondence relationship between each atomizer in the electronic cigarette and the taste of the smoke oil in each of the atomizers;
  • the method further includes: determining, by the microcontroller, a target smoke oil taste corresponding to the target atomizer according to the first correspondence relationship;
  • the method further includes:
  • the microcontroller generates a second control signal according to the trigger signal
  • the microcontroller control prompting module prompts the target smoke oil taste in the target atomizer according to the second control signal.
  • the method for controlling an electronic cigarette wherein the method further includes:
  • the microcontroller determines a remaining number of ports that the target atomizer can draw by a user
  • the method further includes: the microcontroller controlling the prompting module to prompt the remaining number of ports according to the second control signal.
  • the prompting module is a display screen that prompts the user of the target smoke oil taste and/or the remaining number of mouths by text;
  • the prompting module is a sounder that prompts the user of the target smoke oil taste and/or the remaining number of mouths by voice.
  • the control method of the electronic cigarette wherein the input module is one of the first buttons; the method further includes:
  • the microcontroller respectively establishes a second correspondence relationship between each of the atomizers and the number of times the first button is pressed, so that different atomizers correspond to different times of being pressed;
  • Determining, by the microcontroller, the target atomizer according to the operation instruction comprises:
  • the microcontroller determines, according to the second correspondence, that the atomizer corresponding to the target number of times is the target atomizer.
  • the control method of the electronic cigarette wherein the input module is a plurality of the first buttons; the method further includes:
  • the micro controller respectively establishes a third correspondence relationship between each of the atomizers and the plurality of first buttons, so that different atomizers correspond to different first buttons;
  • Determining, by the microcontroller, the target atomizer according to the operation instruction comprises:
  • the microcontroller determines, according to the third correspondence, a atomizer corresponding to the target first button as the target atomizer.
  • the method for controlling an electronic cigarette wherein the method further includes:
  • the micro controller respectively establishes a fourth corresponding relationship between each of the atomizer and the light emitting element; after the determining, by the microcontroller, the target atomizer according to the operation instruction, the method further comprises: a fourth correspondence relationship determines a target light emitting element corresponding to the target atomizer;
  • the method further includes: the microcontroller controlling the target light emitting element to emit light by using the second control signal.
  • the controlling the atomizer to atomize the smoke oil in the target atomizer according to the first control signal comprises:
  • the microcontroller controls a plurality of the target atomizers to simultaneously atomize the smoke oil in the target atomizer according to the first control signal.
  • An electronic cigarette body the electronic cigarette body being provided with a smoking end for smoking, a plurality of the atomizers for atomizing the smoke oil to form a smoke, the input module, the microcontroller, the a sensing module and a battery for powering the microcontroller;
  • a plurality of the atomizers are disposed inside the electronic cigarette body or disposed on the electronic cigarette body, and a plurality of the atomizers are respectively electrically connected to the smoking end;
  • the microcontroller and the sensing module are disposed inside the electronic cigarette body, and the micro control Electrically connected to the atomizer and the battery, respectively;
  • the input module is disposed on the electronic cigarette body, and the input module and the sensing module are respectively electrically connected to the microcontroller.
  • the electronic cigarette wherein the electronic cigarette further comprises: the prompting module and/or the light emitting element disposed on the electronic cigarette body;
  • the prompting module and/or the light emitting element are electrically connected to the microcontroller.
  • a plurality of the light emitting elements are disposed on the electronic cigarette body and respectively corresponding to the atomizers such that different light emitting elements correspond to different atomizers.
  • the sensing module is an airflow sensing switch, and the airflow sensing switch is disposed inside the electronic cigarette body.
  • the electronic cigarette wherein the electronic cigarette further comprises: an atomizer interface for detachably mounting the atomizer, so that the atomizer and the device mounted on the atomizer interface
  • the microcontroller is electrically connected;
  • the atomizer interface arrangement is inserted into the electronic cigarette body
  • the atomizer interface surrounds the electronic cigarette body and is disposed on the electronic cigarette body.
  • the electronic cigarette, wherein the atomizer comprises:
  • An oil storage bottle for storing smoke oil
  • FIG. 1 is a flow chart showing a preferred embodiment of an electronic cigarette control method according to an embodiment of the present invention
  • FIG. 2 is a flow chart showing steps of another preferred embodiment of an electronic cigarette control method according to an embodiment of the present invention
  • 3 is a flow chart showing steps of another preferred embodiment of an electronic cigarette control method according to an embodiment of the present invention
  • FIG. 4 is a flow chart showing steps of another preferred embodiment of an electronic cigarette control method according to an embodiment of the present invention.
  • FIG. 5 is a flow chart of another preferred embodiment of an electronic cigarette control method according to an embodiment of the present invention.
  • FIG. 6 is a flow chart showing steps of another preferred embodiment of an electronic cigarette control method according to an embodiment of the present invention.
  • FIG. 7 is a schematic view showing an overall structure of an electronic cigarette according to an embodiment of the present invention
  • FIG. 8 is a schematic structural view of another preferred embodiment of an electronic cigarette according to an embodiment of the present invention.
  • FIG. 9 is a schematic view showing an explosion connection structure of the electronic cigarette shown in FIG. 7;
  • Figure 10 is a schematic view showing the explosion connection structure of the electronic cigarette shown in Figure 8.
  • FIG. 11 is a schematic overall structural view of another preferred embodiment of an electronic cigarette according to an embodiment of the present invention.
  • Figure 12 is a cross-sectional view showing a preferred embodiment of an atomizer for an electronic cigarette according to an embodiment of the present invention.
  • Embodiment 1 This embodiment provides a method for controlling an electronic cigarette. The control method is described in detail below with reference to FIG. 1 :
  • the control method specifically includes:
  • the microcontroller receives an operation instruction input by the user through the input module.
  • the input module is configured to receive an operation instruction input by a user, and the operation instruction is used by the user to select at least one atomizer of the plurality of atomizers as the target atomizer.
  • the target atomizer is used to atomize the smoke oil to generate smoke that is available to the user for smoking.
  • the input module may be a touch module for receiving a touch operation instruction of the target atomizer by the user; that is, the user inputs the operation instruction by a touch operation on the touch module.
  • the input module may be further configured to receive a pressing operation for selecting the target atomizer
  • the first button that is, the user inputs the operation instruction in the form of a pressing operation by the first button.
  • the description of the input module in this embodiment is only a preferred example, and is not limited as long as the input module can receive an operation instruction of the target atomizer selected by the user.
  • the microcontroller determines the target atomizer according to the operation instruction.
  • the microcontroller is electrically coupled to the input module to cause the microcontroller to receive the operational command and to determine the target nebulizer based on the operational command.
  • the number of microcontrollers electrically connected to the microcontroller in this embodiment is not limited.
  • the microcontroller If the microcontroller receives a trigger signal sent by the sensing module, the microcontroller generates a first control signal according to the trigger signal.
  • the sensing module is electrically connected to the microcontroller.
  • the sensing module is configured to sense a user's operation to determine that the user currently needs to smoke smoke, and the sensing module generates the trigger signal according to a user's operation.
  • the sensing module sends the trigger signal generated by the sensing module to the microcontroller to cause the microcontroller to receive the trigger signal.
  • the microcontroller correspondingly generates a first control signal according to the trigger signal, and the first control signal is used to control the target atomizer to atomize its stored soot oil to generate smoke.
  • the microcontroller controls the target atomizer to atomize the smoke oil in the target atomizer according to the first control signal.
  • a battery is electrically connected to the microcontroller, and the battery is used to supply power to the micro controller and the atomizer.
  • the microcontroller controls the battery to power the target atomizer based on the first control signal to cause the target atomizer to atomize the smoke oil to generate smoke.
  • the microcontroller can select at least one atomizer as the target atomizer according to an operation instruction input by the user through the input module, so that the microcontroller can be correspondingly controlled according to the operation of the user.
  • the target atomizer works to realize that the user can freely select the target atomizer according to his own needs to freely adjust the taste of the smoke, and facilitate the user to smoke.
  • the present embodiment provides a detailed description of the method for controlling the taste of the currently atomized smoke of the user:
  • the microcontroller establishes each atomizer in the electronic cigarette and each of the atomizers The first correspondence of the taste of the smoky oil;
  • the microcontroller pre-acquires the flavor of the smoke stored in each atomizer, and establishes a first correspondence relationship between the respective atomizers and the taste of the smoke in each of the atomizers.
  • the specific manner in which the microcontroller pre-acquires the flavor of the smoke stored in each atomizer may be various, for example, the manufacturer sets it at the factory, because each atomizer can be fixedly installed through the atomization seat.
  • the manufacturer sets a specific atomizing seat at the factory to install an atomizer storing the specific flavor of the cigarette; or the user inputs the flavor of the atomizer when the atomizer is installed, so that the micro
  • the controller acquires the flavor of the soot stored in the atomizer according to the user's input.
  • the specific input method is not limited, for example, voice input, touch input or key input.
  • the microcontroller receives an operation instruction input by the user through the input module.
  • the microcontroller determines the target atomizer according to the operation instruction.
  • the steps 202 to 203 in the embodiment are the same as the steps 101 to 102 shown in the first embodiment, and details are not described herein again.
  • the microcontroller determines, according to the first correspondence, a target smoke oil taste corresponding to the target atomizer
  • the smoke flavor corresponding to the target atomizer is determined according to the established first correspondence.
  • the microcontroller If the microcontroller receives the trigger signal sent by the sensing module, the microcontroller generates a first control signal and a second control signal according to the trigger signal.
  • the microcontroller controls the target atomizer to atomize the smoke oil in the target atomizer according to the first control signal.
  • the microcontroller control prompting module prompts the target smoke oil taste in the target atomizer according to the second control signal.
  • the microcontroller generates a first control signal and a second control signal according to the trigger signal, where the first control signal is used to control the target atomizer selected by the user to atomize the smoke oil to generate smoke.
  • the second control signal is used to control the prompting module to prompt the target smoked material stored by the target atomizer.
  • the prompting module is electrically connected to the microcontroller.
  • the prompting module prompts the user to display the target smoke oil taste display screen by text and/or The voice prompts the user to speak the sounder of the target smoke oil taste.
  • the description of the prompting module in this embodiment is a preferred example, and is not limited, as long as the prompting module can prompt the user with the taste of the target cigarette oil stored in the target atomizer.
  • three atomizers are provided in the electronic cigarette as an example, wherein the first atomizer stores mint inside. Flavored smoke oil, the second atomizer stores coffee flavored smoke oil, and the third atomizer stores strawberry flavor smoke oil inside;
  • the microcontroller establishes a correspondence relationship between the first atomizer and the mint flavored tobacco oil, establishes a correspondence relationship between the second atomizer and the coffee flavored tobacco oil, and establishes a correspondence relationship between the third atomizer and the strawberry flavored tobacco oil.
  • the micro-control is specifically established by using the first atomizer as an example, and when the user installs the first atomizer storing the mint flavored tobacco oil, the mint flavored tobacco oil is input or selected through the touch screen to make the The microcontroller establishes a correspondence between the first atomizer and the mint flavored tobacco oil;
  • the input module receives an operation command input by the user to determine that the second atomizer is a target atomizer, that is, the user smokes the smoked tobacco oil, and the second atomizer is selected as the target atomizer.
  • the microcontroller determines that the second atomizer is a target atomizer according to the operation instruction; the microcontroller detects whether it receives a trigger signal sent by the sensing module, that is, if the user wishes to smoke the smoke And inputting a corresponding operation by using the sensing module;
  • the sensing module may be an airflow sensing switch, that is, the user draws the airflow sensing switch, and the airflow sensing switch generates a trigger signal according to a user's pumping operation;
  • the microcontroller generates a first control signal and a second control signal according to the trigger signal; the microcontroller controls the second atomizer to atomize the coffee flavor smoke stored therein according to the first control signal Oil to produce coffee-flavored smoke that can be ingested by the user;
  • the microcontroller control prompting module prompts the taste of the coffee flavored tobacco in the second atomizer according to the second control signal, so that the user determines, by the prompting module, that the current smoked smoke is coffee Taste, easy for users to smoke and easy for users to choose.
  • the microcontroller generates a first control signal and a second control signal according to the trigger signal, so that the target atomizer atomizes the target stored therein according to the first control signal.
  • Smoke oil to generate smoke, so that the prompting module prompts the user to taste the target smoke oil according to the second control signal, so that the user can grasp the taste of the smoke that is currently sucked, and is convenient to use
  • Household cigarettes are also convenient for users to choose their favorite flavor of smoky oil.
  • Embodiment 3 This embodiment describes in detail a method for controlling the amount of remaining smoke oil in the target atomizer of the user:
  • control method includes:
  • the microcontroller establishes a first correspondence relationship between each atomizer in the electronic cigarette and a taste of the smoke oil in each of the atomizers;
  • the microcontroller receives an operation instruction input by the user through the input module.
  • the microcontroller determines the target atomizer according to the operation instruction.
  • the microcontroller determines, according to the first correspondence, a target smoke oil taste corresponding to the target atomizer
  • the microcontroller If the microcontroller receives the trigger signal sent by the sensing module, the microcontroller generates a first control signal and a second control signal according to the trigger signal.
  • the microcontroller controls the target atomizer to atomize the smoke oil in the target atomizer according to the first control signal.
  • the microcontroller control prompting module prompts the target smoke oil taste in the target atomizer according to the second control signal
  • step 301 to step 307 in this embodiment is shown in step 201 to step 207 shown in FIG. 2, and is not described in this embodiment.
  • the microcontroller determines the number of remaining ports that the target atomizer can be sucked by the user.
  • the sensing module is used as an airflow sensing switch as an example, and it should be clear that the sensing
  • the specific structure of the module is not limited in this embodiment, as long as it can generate a trigger signal according to the operation of the user.
  • an inductive switch may be disposed on the electronic cigarette body, and the inductive switch receives power from the user to control the battery to the target atomizer after receiving the pressing operation of the user.
  • the specific manner in which the microcontroller determines the remaining number of ports that the target atomizer can draw by the user may be:
  • the microcontroller predetermines a single amount of smoke oil consumed by the user for each time the airflow sensing switch is pumped;
  • the amount of single cigarette oil can be entered or set by the manufacturer.
  • the microcontroller determines a total amount of smoke oil stored in each of the atomizers;
  • the specific determination process is not limited in this embodiment.
  • the amount of total smoke stored in the atomizer adapted to the electronic cigarette is constant, and the manufacturer can set it at the factory, or the user.
  • the controller determines a quotient of the total amount of smoke oil and the amount of single cigarette oil;
  • the quotient determined by the microcontroller to determine the total amount of smoke oil and the amount of single-shot smoke oil is the total number of ports that the atomizer can pump;
  • the microcontroller counts the number of ports that each of the atomizers have pumped, that is, records the number of atomized ports of each atomizer;
  • the microcontroller determines that the atomized port number of the target atomizer is "1", and the user suctions the air pump again.
  • the airflow sensing switch determines that the number of atomized ports of the target atomizer is "2", and so on, and will not be described again.
  • the microcontroller determines, respectively, that the difference between the total number of ports that can be pumped by each of the atomizers and the number of times of atomization is the number of remaining ports.
  • the microcontroller predetermines a single amount of smoke oil consumed by the user for each time the airflow sensing switch is pumped;
  • the microcontroller determines the amount of remaining smoke in the target atomizer
  • the manner in which the microcontroller determines the amount of remaining smoke in the target atomizer is not limited, as long as the microcontroller can determine the amount of remaining smoke in the target atomizer, for example, the fog.
  • the casing of the chemical device is arranged as a transparent casing, and a scale is arranged at a portion where the smoke oil is stored, and the user can determine the amount of the remaining smoke oil through the scale, and input the amount of the remaining smoke oil through the input module to make the
  • the microcontroller determines the amount of remaining smoke oil; for example, the atomizer is provided with a storage bottle for storing smoke oil by a user, the oil storage bottle is made of a light transmissive material, and the oil storage bottle is provided with a scale .
  • a pressure sensor is arranged at the position where the smoke oil is stored, and a correspondence relationship between the pressure level and the amount of smoke oil is established.
  • the microcontroller acquires the pressure sensor according to the target atomizer. The pressure reached and determines the amount of remaining soot inside the target atomizer based on the correspondence. The microcontroller determines that the quotient of the amount of remaining soot and the amount of the single amount of soot is the number of remaining ports available for the target atomizer to draw.
  • the microcontroller controls the prompting module to prompt the remaining number of ports according to the second control signal.
  • the prompting module is a display screen that prompts the user for the remaining number of ports by text, and/or the prompting module is a sounder that prompts the user for the remaining number of ports by voice.
  • the microcontroller controls the prompting module to display the remaining number of ports, so that the user determines the remaining number of mouths that the target atomizer can be used for, so that the user can add the smoke oil or replace the atomizer in time to avoid the user's suction. There are no safety hazards associated with nebulizers that have insufficient amounts of smoke oil or smoke.
  • three atomizers are provided in the electronic cigarette as an example, wherein the first atomizer stores mint inside. Flavored smoke oil, the second atomizer stores coffee flavored smoke oil, and the third atomizer stores strawberry flavor smoke oil inside;
  • the microcontroller establishes a correspondence relationship between the first atomizer and the mint flavored tobacco oil, establishes a correspondence relationship between the second atomizer and the coffee flavored tobacco oil, and establishes a correspondence relationship between the third atomizer and the strawberry flavored tobacco oil.
  • the micro-control is specifically established by using the first atomizer as an example, and when the user installs the first atomizer storing the mint flavored tobacco oil, the mint flavored tobacco oil is input or selected through the touch screen to make the The microcontroller establishes a correspondence between the first atomizer and the mint flavored tobacco oil;
  • the input module receives an operation instruction input by the user to determine that the second atomizer and the third atomizer are target atomizers, that is, the user smokes the smoked tobacco and the strawberry flavored tobacco oil, and then selects the first The second atomizer and the third atomizer are target atomizers;
  • the microcontroller detects whether it receives a trigger signal sent by the sensing module, that is, if the user wishes to smoke the smoke, the corresponding operation is input through the sensing module;
  • the sensing module may be an airflow sensing switch, that is, the user draws the airflow sensing switch, and the airflow sensing switch generates a trigger signal according to a user's pumping operation;
  • the microcontroller generates a first control signal and a second control signal according to the trigger signal; the microcontroller controls the second atomizer and the third atomizer according to the first control signal
  • the coffee-flavored smoke oil stored therein is atomized to generate coffee flavor and strawberry-flavored smoke which can be sucked by the user; that is, the purpose of mixing the coffee flavor and strawberry flavor smoke by the user is achieved;
  • the microcontroller control prompting module prompts the coffee flavor and the strawberry flavored smoke oil taste according to the second control signal, so that the user determines, through the prompting module, that the current smoked smoke is coffee flavor and raspberry flavor;
  • microcontroller predetermines that the amount of single cigarette oil consumed by the user for each airflow sensing switch is 0.02 ml;
  • the microcontroller may determine that the total amount of smoke oil stored in the first atomizer, the second atomizer, and the third atomizer is 30 ml;
  • the target atomizer selected by the user is the second atomizer and the third atomizer
  • the microcontroller determines that the second atomizer has been sucked and the second atomized The number of ports and the third atomizer have been sucked by the third atomized port number;
  • the microcontroller determines that the number of the second atomized ports is 500 times, that is, the user determines that the second atomizer is the target atomizer and the number of times the electronic cigarette is sucked is 500 times;
  • the number of the third atomized ports is 50 times; that is, the user determines that the third atomizer is the target atomizer and the number of times the electronic cigarette is sucked is 50 times;
  • the microcontroller determines that the remaining number of ports of the third atomizer that can be pumped by the user is
  • the microcontroller notifies the user of the number of remaining ports of the second atomizer 1000 times and the number of remaining ports of the third atomizer by the prompting module 1250 times.
  • Embodiment 4 This embodiment describes in detail how the microcontroller specifically controls the atomization of the atomizer to atomize the smoke:
  • the microcontroller controls three types of atomization methods of the atomizer
  • the first type is shown in FIG. 4: in this setting mode, the user inputs the operation instruction through the input module provided with one of the first buttons;
  • the microcontroller separately establishes, respectively, the number of times that each of the atomizer and the first button are pressed. Second correspondence
  • a first button is disposed on the electronic cigarette body, and the microcontroller pre-establishes a second correspondence relationship between the respective atomizers and the first button being pressed.
  • the second correspondence may be pre-customized by the manufacturer, that is, the manufacturer presets the first button press times and the second correspondence relationship of the respective atomizers, and the user selects the different times by pressing the first button switch.
  • Different atomizers that is, the manufacturer presets the first button press times and the second correspondence relationship of the respective atomizers, and the user selects the different times by pressing the first button switch.
  • the user can also establish the second correspondence by using the microcontroller and the first button.
  • the manner in which the second correspondence is established is not limited.
  • the microcontroller receives an operation instruction input by a user by using the first button.
  • a user inputs the operation instruction by a pressing operation, and the controller receives the operation instruction.
  • the microcontroller determines, according to the operation instruction, a target number of times that the first button is pressed; the microcontroller records a number of times the user presses the first button, and determines the number of times as a target number of times.
  • the microcontroller records the number of times the trigger signal is continuously received, and records the number of consecutively received trigger signals as the target number of times.
  • the microcontroller determines, according to the second correspondence, that the atomizer corresponding to the target number of times is the target atomizer;
  • the microcontroller determines whether the target atomizer is multiple, if not, proceed to step 406, and if so, proceed to step 407;
  • the microcontroller determines whether the target atomizer is multiple is: the microcontroller detects whether it continues to receive continuous input after a predetermined period of time after determining the target number of times Trigger signal
  • the microcontroller determines that the number of times the first button is pressed for a predetermined duration is the target number of times, and after the predetermined duration, the microcontroller detects that the first button is pressed again. Then re-determine the target number of times.
  • the microcontroller determines that the target atomizer is multiple, and records that it is connected within a predetermined time period. And continuously counting the number of times the trigger signal is received, and recording the number of consecutively received trigger signals within the predetermined duration as the target number of times, to continue determining the target atomizer according to the target number, until the microcontroller no longer receives the target The trigger signal.
  • the predetermined duration may be set by the manufacturer at the factory, or may be freely set by the user, and the specific duration is not limited.
  • the microcontroller determines that the target atomizer is one.
  • the microcontroller generates a first control signal according to the trigger signal, and controls the target atomizer to atomize the smoke oil in the target atomizer according to the first control signal.
  • the microcontroller can control the target atomizer to atomize the smoke oil according to the first control signal to form smoke.
  • the microcontroller generates a first control signal according to the trigger signal, and controls a plurality of the target atomizers to simultaneously atomize the smoke oil in the target atomizer according to the first control signal. .
  • the microcontroller controls a plurality of target atomizers to simultaneously atomize the smoke oil, which is only an example, which is not limited.
  • the microcontroller may also control a plurality of the first control signals according to the first control signal.
  • the target atomizer sequentially atomizes the smoke oil in the target atomizer or randomly atomizes the smoke oil in the target atomizer, and may atomize the target atomizer according to a sequence determined by the user.
  • the specific atomization sequence of the smoky oil is not limited in this embodiment.
  • the user can select one or more atomizers as the target atomizer, and the user selection method is simple, and the microcontroller can control a target atomizer to work, or simultaneously, without complicated operation of the user. Controlling a plurality of the target atomizers to work, so as to achieve the purpose of the user mixing the smoke.
  • three atomizers are disposed in the electronic cigarette as an example, wherein the first atomizer stores therein mint flavored tobacco oil, the second atomizer stores coffee flavored smoke oil, and the third atomization Strawberry flavored tobacco oil is stored inside the device;
  • a first button is disposed on the electronic cigarette body
  • the microcontroller determines a second correspondence, the second correspondence establishes that the first button is pressed once, and corresponds to the first atomizer; the first button is pressed twice, and the second atomizer Corresponding; the first button is pressed three times, corresponding to the third atomizer;
  • the second correspondence is preferably set by the user through the touch switch and informed to the microcontroller; if the user wishes to smoke the mint flavor, the user presses the first button once, then the microcontroller Determining that the first atomizer is a target atomizer;
  • the microcontroller detects whether it receives the trigger signal sent by the sensing module, that is, if the user wishes to smoke the smoke, the corresponding operation is input through the sensing module;
  • the sensing module may be an airflow sensing switch, that is, the user draws the airflow sensing switch, and the airflow sensing switch generates a trigger signal according to a user's pumping operation;
  • the microcontroller generates a first control signal according to the trigger signal
  • the microcontroller controls the first atomizer to atomize the mint flavored soot stored therein in accordance with the first control signal to generate mint flavored smoke that can be ingested by a user.
  • the microcontroller may further determine that the third atomizer is a target The atomizer; wherein the predetermined duration may be 3 seconds.
  • the microcontroller determines that the first button is pressed once, then determines that the first atomizer is a target atomizer, and after 3 seconds, the microcontroller determines that the first button is Pressing three times determines that the third atomizer is the target atomizer.
  • the second type is shown in FIG. 5: in this setting mode, the user inputs the operation instruction through the input module provided with a plurality of the first buttons;
  • the microcontroller respectively establish a third correspondence relationship between each of the atomizers and the plurality of first buttons.
  • a plurality of the first buttons are disposed on the electronic cigarette body such that different atomizers correspond to different first buttons.
  • the third correspondence may be pre-customized by the manufacturer, that is, a plurality of first buttons disposed on the electronic cigarette body, and each of the first buttons and an atomizer close to the first button establishes the third Correspondence relationship. In order for the user to wish to pump to a nebulizer, it is only necessary to press the first button near the nebulizer position.
  • a button area may be disposed on the electronic cigarette body, and the button area is provided with a plurality of The first button is provided with prompt text on each of the first buttons to prompt the atomizer corresponding to the first button and the aerosol flavor that can be atomized by each atomizer.
  • a plurality of atomizers set by the electronic cigarette are labeled, and the first button is labeled so that the first button No. 1 corresponds to the No. 1 atomizer, and the No. 2 button corresponds to the No. 2 atomizer, This type of push.
  • the specific setting positions of the respective first buttons are not limited, as long as the user can clearly grasp the atomizer corresponding to each of the first buttons.
  • the microcontroller receives an operation instruction input by a user by using the first button.
  • the microcontroller determines, according to the operation instruction, a pressed target first button
  • the microcontroller determines, according to the third correspondence, an atomizer corresponding to the target first button as the target atomizer.
  • the microcontroller determines whether the target atomizer is multiple, if not, proceed to step 506, and if so, proceed to step 507;
  • the microcontroller generates a first control signal according to the trigger signal, and controls the target atomizer to atomize the smoke oil in the target atomizer according to the first control signal.
  • the microcontroller generates a first control signal according to the trigger signal, and controls a plurality of the target atomizers to simultaneously atomize the smoke oil in the target atomizer according to the first control signal. .
  • the steps 505 to 507 shown in this embodiment are the same as the steps 405 to 407 shown in FIG. 4, and details are not described herein again.
  • three atomizers are disposed in the electronic cigarette as an example, wherein the first atomizer stores therein mint flavored tobacco oil, the second atomizer stores coffee flavored smoke oil, and the third atomization Strawberry flavored tobacco oil is stored inside the device;
  • a plurality of first buttons are disposed on the electronic cigarette body
  • the microcontroller determines a third correspondence, where the third correspondence establishes a correspondence between each of the first buttons and the atomizer;
  • the microcontroller determines that the first atomizer is the target atomization according to the third correspondence relationship.
  • the microcontroller detects whether it receives the trigger signal sent by the sensing module, that is, if the user wishes to smoke the smoke, the corresponding operation is input through the sensing module;
  • the sensing module may be an airflow sensing switch, that is, the user draws the airflow sensing switch, and the airflow sensing switch generates a trigger signal according to a user's pumping operation;
  • the microcontroller generates a first control signal according to the trigger signal
  • the microcontroller controls the first atomizer to atomize the mint flavored soot stored therein in accordance with the first control signal to generate mint flavored smoke that can be ingested by a user.
  • the user wishes to select a plurality of nebulizers as the target nebulizer, that is, if the user wishes to smoke the mint-flavored smoke and the strawberry-flavored smoke, the user presses the first button close to the first atomizer once, then Determining, by the microcontroller, the first atomizer as a target atomizer according to the second correspondence relationship; and pressing the first button adjacent to the third atomizer after being separated by the preset time length
  • the microcontroller can also determine that the third atomizer is a target atomizer.
  • Embodiment 5 a control method for controlling the illumination of the light-emitting element is described in detail: Referring to FIG. 6, the control method includes:
  • the microcontroller receives an operation instruction input by the user through the input module.
  • the microcontroller determines the target atomizer according to the operation instruction.
  • Steps 601 to 602 in this embodiment are the same as the steps from step 101 to step 102 shown in the first embodiment, and are not described in this embodiment.
  • the microcontroller separately establishes a fourth corresponding relationship between each of the atomizer and the light emitting component.
  • a light emitting component is disposed at a position corresponding to each atomizer, so that the microcontroller determines
  • Each of the atomizers establishes a fourth correspondence relationship with each of the light emitting elements.
  • the light emitting element may be a led light electrically connected to the microcontroller.
  • the microcontroller determines, according to the fourth correspondence, a target light emitting component corresponding to the target atomizer.
  • the microcontroller If the microcontroller receives the trigger signal sent by the sensing module, the microcontroller generates a first control signal and a second control signal according to the trigger signal.
  • the microcontroller controls the target atomizer to atomize the smoke oil in the target atomizer according to the first control signal. For details, refer to step 104 in the first embodiment, which is not described in this embodiment.
  • the microcontroller controls the target light emitting element to emit light by using the second control signal. That is, by the embodiment, the target atomizer is operated and the stored smoke oil is atomized, and the light-emitting element corresponding to the target atomizer position is illuminated, thereby enabling the user to determine which one is based on the specific position of the light-emitting element that is being illuminated. The nebulizer is working.
  • the target atomizer is multiple
  • the microcontroller may control a plurality of the light-emitting elements corresponding to the target atomizer to simultaneously emit light;
  • the microcontroller can control a plurality of the target atomizer cycles or random atomization, the microcontroller can control the light-emitting elements corresponding to the target atomizer currently being atomized to emit light, so that A plurality of the light-emitting elements circulate or randomly emit light.
  • the user can determine the atomization sequence of the target atomizer and the target atomizer currently being atomized by the illumination of the illumination element.
  • a light emitting area may be disposed on the electronic cigarette body, and a light emitting element having the fourth corresponding relationship with each atomizer is disposed on the light emitting area, and is disposed adjacent to each of the light emitting elements.
  • a prompt information the prompt information may prompt the taste of the smoke stored by the atomizer corresponding to the light-emitting element, such that when the light-emitting element emits light according to the second control signal, the user passes the prompt information corresponding to the light-emitting element that is illuminated
  • the taste of the smoked oil stored in the target atomizer can be determined to facilitate the user's cigarette.
  • Embodiment 6 provides an electronic cigarette for implementing the above control method.
  • the electronic cigarette shown in this embodiment includes a plurality of the atomizers, and the specific functions and functions of the atomizers are described in the implementation. Examples 1 to 5 are not described in this embodiment.
  • the atomizer shown in this embodiment has two arrangement modes: one is shown in FIG. 7, the atomizer is disposed inside the electronic cigarette body, and the other is as shown in FIG.
  • the atomizer 801 is disposed outside the body of the electronic cigarette.
  • the electronic cigarette includes: An electronic cigarette body, the electronic cigarette body is provided with a smoking end 701 for smoking;
  • the smoking end 701 shown in this embodiment is used to conduct airflow with the inside of the body of the electronic cigarette so that the internal airflow can carry the mist atomized by the atomizer to flow to the smoking end 701.
  • a suction pipe 702 is disposed in connection with the smoking end so that the user can suck the smoke through the suction pipe 702.
  • the smoking end 701 can also be detachably connected with a nozzle that matches the mouth shape of the user or the user directly sucks the smoke through the smoking end 701, that is, how the user specifically sucks the smoke in the embodiment.
  • This embodiment is not limited.
  • atomizers 801 for atomizing said smoke oil to form smoke
  • FIG. 9 is a schematic diagram of the explosive connection structure of the electronic cigarette shown in FIG.
  • a plurality of atomizers 801 may be arranged inside the electronic cigarette main body.
  • the specific number of the atomizer is not limited.
  • a plurality of atomizers 801 are inserted into the interior of the electronic cigarette body through an atomizer interface, so that the atomizer 801 mounted on the atomizer interface is electrically connected to the microcontroller So that a plurality of atomizers 801 are detachably disposed inside the electronic cigarette body.
  • the manner in which the atomizer 801 is disposed in the electronic cigarette body through the atomizer interface 802 is a preferred embodiment, which is not limited as long as the atomizer 801 is detachably disposed on the electron.
  • the body of the cigarette can be used.
  • an air inlet 703 is disposed on the electronic cigarette body to allow airflow to flow into the interior of the electronic cigarette body through the air inlet 703.
  • the atomizer 801 is disposed inside the electronic cigarette body, so that the electronic cigarette has an overall beautiful structure and is convenient to carry, and the electronic cigarette body can protect the atomizer 801 from accidental damage. It is suitable to extend the service life of the atomizer.
  • FIG. 10 is a schematic diagram of the explosion connection structure of the electronic cigarette shown in FIG.
  • a plurality of the atomizers 801 located outside the body of the electronic cigarette are fixedly mounted outside the body of the electronic cigarette through the atomizer interface 802. That is, the atomizer interface 802 surrounds the electronic cigarette body and is disposed on the electronic cigarette body. So that the atomizer 801 and the The nebulizer interface 802 is detachably coupled such that the nebulizer 801 mounted on the nebulizer interface 802 is electrically coupled to the microcontroller.
  • the manner in which the atomizer 801 is disposed on the electronic cigarette body through the atomizer interface 802 is a preferred embodiment, which is not limited as long as the atomizer 801 is detachably disposed on the electron.
  • the smoke can be on the body.
  • a manner of a threaded segment or a snap structure for mating with the atomizer 801 may be provided on the body of the electronic cigarette.
  • disposing the atomizer 801 outside the electronic cigarette body can facilitate the user to replace the atomizer 801, and facilitate the user to add the smoke oil to the inside of the atomizer 801. Moreover, since the atomizer 801 is disposed outside the body of the electronic cigarette, sufficient airflow flows into the interior of the atomizer 801 so that the mist of the atomizer of the atomizer can flow into the smoking end 701 with sufficient airflow.
  • a plurality of the atomizers 801 are respectively electrically connected to the smoking end 701.
  • the electronic cigarette further includes:
  • the input module 803 disposed on the electronic body
  • the input module 803 can be a button or a touch switch.
  • the input module 803 can be a button or a touch switch.
  • the electronic cigarette body is internally provided with the microcontroller, the sensing module and a battery for supplying power to the microcontroller;
  • microcontroller is electrically connected to the atomizer 801 and the battery, respectively;
  • the input module 803 and the sensing module are respectively electrically connected to the microcontroller.
  • FIG. 11 is an example in which the atomizer 801 is disposed on the electronic cigarette body.
  • the electronic cigarette further includes a prompting module 804 disposed on the electronic cigarette body.
  • the prompting module 804 is a display screen that prompts the user of the target smoke oil taste and/or the remaining number of mouths by text; and/or, the prompting module 804 prompts the user to the target smoke oil taste and/or by voice. The sounder of the remaining number of mouths.
  • the electronic cigarette further includes a light emitting element 805 disposed on the body of the electronic cigarette.
  • the light-emitting elements 805 may be specifically disposed at positions corresponding to the respective atomizers 803. For example, as shown in FIG. 11, the light-emitting elements 805 are disposed under the respective atomizers 803. To make a difference The light-emitting elements 805 correspond to different atomizers. In turn, different illumination elements 805 can be illuminated to indicate different nebulizers 801.
  • the specific positions of the prompting module 804 and the light-emitting element 805 shown in FIG. 11 are an example, which is not limited, as long as the prompting module 804 and the light-emitting element 805 are disposed on the electronic cigarette body. Just fine. And the prompting module 804 and the light emitting component 805 are electrically connected to the microcontroller.
  • the sensing module located inside the electronic cigarette body is an airflow sensing switch, and when the user sucks through the suction pipe 702 shown in FIG. 11, the internal pressure of the electronic cigarette body is reduced, and the airflow sensing is performed.
  • the trigger signal is generated correspondingly after the switch senses the state of the pressure reduction.
  • Embodiment 7 In this embodiment, the specific structure of each atomizer is described in detail. Since the structure of each atomizer is the same, this embodiment is described by taking the atomizer shown in FIG. 12 as an example:
  • the atomizer includes:
  • the electric heating wire assembly 1202 in this embodiment may specifically include an oil guiding rope and an electric heating wire wound around the oil guiding rope.
  • heating wire assembly 1202 shown in FIG. 12 is only an example and is not limited.
  • the heating wire assembly 1202 can also be used in other manners, as long as the heating wire assembly 1202 can atomize the smoke oil. .
  • the heating wire assembly 1202 may be: a heating wire that is pressed into a sheet shape is spirally wound around a cylindrical shape or a heating wire that is pressed into a sheet shape is spirally or serpentinely shaped so that the plane of the heating wire is located
  • the axial direction of the atomizer 801 is perpendicular or at an angle.
  • the specific structure of the oil guiding mechanism 1203 in this embodiment is not limited as long as the oil guiding mechanism 1203 can supply the oil to the heating wire assembly 1202.
  • the oil guiding mechanism 1203 may be an oil delivery pipe with a through hole, the oil storage pipe is internally provided with oil storage cotton, or the oil guiding mechanism 1203 is an oil guiding pipe made of glass fiber material.

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  • Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Electrically Operated Instructional Devices (AREA)
  • Spray Control Apparatus (AREA)

Abstract

La présente invention concerne un procédé de commande de cigarette électronique et une cigarette électronique. Le procédé de commande de cigarette électronique comprend spécifiquement les étapes suivantes : un microcontrôleur reçoit, par l'intermédiaire d'un module d'entrée, une instruction de fonctionnement entrée par un utilisateur (101) ; le microcontrôleur détermine un atomiseur cible sur la base de l'instruction de fonctionnement (102) ; si le microcontrôleur reçoit un signal de déclenchement transmis par un module de détection, le microcontrôleur produit un premier signal de commande sur la base du signal de déclenchement (103) ; et le microcontrôleur commande l'atomiseur cible afin d'atomiser un liquide à vapoter dans l'atomiseur cible sur la base du premier signal de commande (104). Le microcontrôleur est susceptible de commander au moins un atomiseur cible afin d'atomiser la fumée, de façon à permettre à l'utilisateur soit d'inhaler les fumées de différents arômes, soit d'inhaler simultanément des fumées de différents arômes sur la base de ses propres besoins, ce qui permet de mettre en œuvre une façon de fumer mixte et facilite l'action de goûter la cigarette pour l'utilisateur. Le processus de commande de multiples atomiseurs par l'intermédiaire du microcontrôleur est simple, il élimine le besoin de disposer d''un mécanisme de régulation complexe et augmente le degré de plaisir lorsqu'un utilisateur fume une cigarette, ce qui améliore son expérience.
PCT/CN2014/080188 2014-04-29 2014-06-18 Procédé de commande de cigarette électronique et cigarette électronique WO2015165146A1 (fr)

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