CN105077590A - Electronic cigarette control method and electronic cigarette - Google Patents

Abstract

The present invention discloses an electronic cigarette control method and an electronic cigarette. The electronic cigarette control method concretely comprises that a microcontroller receives an operation command input by a user through an input module, the microcontroller determines a target atomizer according to the operation command, and if receiving a trigger signal sent by a sensing module, the microcontroller controls the target atomizer to atomize tobacco tar in the target atomizer according to a first control signal. With adoption of the method, the microcontroller can be used for controlling at least one target atomizer to atomize smoke, such that a user can smoke smokes of different flavors according to needs of himself/herself or smoke the smokes of different flavors at the same time so as to realize mixed smoking of the smokes, thereby bringing convenience for the user to taste smokes. A process of controlling a plurality of atomizers by the microcontroller is simple, and no complicated adjusting mechanism is required. Interestingness in the smoking process of the user is raised, and user experience is promoted.

Description

A kind of control method of electronic cigarette and electronic cigarette

Technical field

The present invention relates to electronic cigarette technical field, particularly relate to a kind of control method and the electronic cigarette that freely can select the electronic cigarette of smog taste.

Background technology

The smog that electronic cigarette of the prior art can be sucked by user with formation by the atomizer atomization tobacco tar of electronic cigarette inside, and the mode controlling atomizer atomization presses switch key or the airflow sensor switch by sensing user's smoking action by user.And existing electronic cigarette generally includes one or more atomizer, each described atomizer is built with the tobacco tar of certain taste, when switch key senses user's push action or airflow sensor inductive switching to user's smoking action, described atomizer only can be atomized the tobacco tar of same taste.

But electronic cigarette user of the prior art cannot according to oneself need select certain or certain several atomizer freely and carry out work, thus make user cannot regulate smog taste freely, or needing, complicated governor motion is set and carries out taste selection, thus cumbersome, poor user experience.

Summary of the invention

The invention provides a kind of control method and the electronic cigarette that freely can select the electronic cigarette of smog taste.

A control method for electronic cigarette, wherein, comprising:

Microcontroller receives the operational order of user's input by input module, and described operational order is used at least one in several atomizers selected as target atomizer; Wherein, described input module is touch modules or the first button;

Described microcontroller determines described target atomizer according to described operational order;

If described microcontroller receives the triggering signal that induction module sends, then described microcontroller generates the first control signal according to described triggering signal;

Target atomizer described in described microprocessor control is atomized the tobacco tar in described target atomizer according to described first control signal.

The control method of described electronic cigarette, wherein, described method also comprises:

The first corresponding relation of tobacco tar taste in each atomizer in described electronic cigarette and atomizer described in each set up by described microcontroller;

Described microcontroller also comprises after determining described target atomizer according to described operational order:

Described microcontroller determines the target tobacco tar taste corresponding with described target atomizer according to described first corresponding relation;

Described method also comprises:

Described microcontroller generates the second control signal according to described triggering signal;

Described microprocessor control reminding module points out the described target tobacco tar taste in described target atomizer according to described second control signal.

The control method of described electronic cigarette, wherein, described method also comprises:

Described microcontroller determines that described target atomizer can for the residue mouth number of user's suction;

Described microcontroller also comprises after generating the second control signal according to described triggering signal:

Reminding module described in described microprocessor control points out described residue mouth number according to described second control signal.

The control method of described electronic cigarette, wherein,

Described reminding module is the display screen by target tobacco tar taste described in text prompt user and/or described residue mouth number;

And/or,

Described reminding module is the acoustical generator by target tobacco tar taste described in voice message user and/or described residue mouth number.

The control method of described electronic cigarette, wherein, described input module is described first button;

Described method also comprises:

Described microcontroller sets up atomizer described in each and described first button respectively by the second corresponding relation by number of times, with make different described atomizers corresponding different by by number of times;

According to described operational order, described microcontroller determines that described target atomizer comprises:

Described microcontroller according to described operational order determine described first button by by targeted number;

According to described second corresponding relation, described microcontroller determines that the atomizer corresponding with described targeted number is described target atomizer.

The control method of described electronic cigarette, wherein, described input module is multiple described first buttons;

Described method also comprises:

The 3rd corresponding relation of atomizer described in each and multiple described first button set up respectively by described microcontroller, with described first button making different described atomizers corresponding different;

According to described operational order, described microcontroller determines that described target atomizer comprises:

Described microcontroller according to described operational order determine by by target first button;

According to described 3rd corresponding relation, described microcontroller determines that the atomizer corresponding with described target first button is described target atomizer.

The control method of described electronic cigarette, wherein, described method also comprises:

Described microcontroller sets up atomizer described in each and light-emitting component the 4th corresponding relation respectively;

Described microcontroller also comprises after determining described target atomizer according to described operational order:

Described microcontroller determines the target light-emitting component corresponding with described target atomizer according to described 4th corresponding relation;

Described microcontroller also comprises after generating the second control signal according to described triggering signal:

It is luminous that described microcontroller controls described target light-emitting component by described second control signal.

The control method of described electronic cigarette, wherein, described target atomizer is multiple;

The tobacco tar that target atomizer described in described microprocessor control is atomized in described target atomizer according to described first control signal comprises:

The multiple described target atomizer of described microprocessor control is atomized the tobacco tar in described target atomizer simultaneously according to described first control signal.

An electronic cigarette for the control method of electronic cigarette, wherein, comprising:

Electronic cigarette body, described electronic cigarette body is provided with for the smoke absorbing end of smoking, for being atomized described tobacco tar to form the multiple described atomizer of smog, described input module, described microcontroller, described induction module and the battery for powering to described microcontroller;

Multiple described atomizer is arranged on described electronic cigarette body interior or is arranged on described electronic cigarette body, and multiple described atomizer respectively with described smoke absorbing end conducting;

Described microcontroller and described induction module are arranged on described electronic cigarette body interior, and described microcontroller is electrically connected with described atomizer and described battery respectively;

Described input module is arranged on described electronic cigarette body, and described input module and described induction module are electrically connected with described microcontroller respectively.

Described electronic cigarette, wherein, described electronic cigarette also comprises: be arranged on the described reminding module on described electronic cigarette body and/or described light-emitting component;

And described reminding module and/or described light-emitting component are electrically connected with described microcontroller.

Described electronic cigarette, wherein,

Multiple described light-emitting component is arranged on position on described electronic cigarette body and corresponding with described atomizer respectively, with the described atomizer making different described light-emitting components corresponding different.

Described electronic cigarette, wherein,

Described induction module is airflow sensor switch, and described airflow sensor switch-linear hybrid is in described electronic cigarette body interior.

Described electronic cigarette, wherein, described electronic cigarette also comprises: for detachably installing the atomizer interface of described atomizer, is electrically connected with described microcontroller to make the described atomizer be arranged on described atomizer interface;

Described atomizer interface arrangement is inserted in described electronic cigarette body interior;

Or,

Described atomizer interface around described electronic cigarette body, and is arranged on described electronic cigarette body.

Described electronic cigarette, wherein, described atomizer comprises:

For storing the oil storage bottle of tobacco tar;

For being atomized the heating wire assembly of described tobacco tar;

Be inserted in described oil storage bottle inner, for the tobacco tar in described oil storage bottle being conducted to the Oil Guide mechanism of described heating wire assembly.

Described electronic cigarette, wherein, described electronic cigarette body is provided be provided for the atomization of described heating wire assembly described smog conducting to the air inlet of described smoke absorbing end.The invention provides a kind of control method and electronic cigarette of electronic cigarette, the control method of this electronic cigarette specifically comprises: microcontroller receives the operational order of user's input by input module, described microcontroller is according to described operational order determination target atomizer, if described microcontroller receives the triggering signal that induction module sends, then target atomizer described in described microprocessor control is atomized the tobacco tar in described target atomizer according to the first control signal.Realize microcontroller by the present invention and can control at least one target atomizer atomization smog, to make user can by the smog needing to be drawn into different taste of oneself or the smog being drawn into different taste simultaneously to realize the mixed of smog

Take out, so that user's product cigarette.By the process of the multiple atomizer of microprocessor control simply without the need to the governor motion of complexity.And the interest added in user's smoking process, promote Consumer's Experience.

Accompanying drawing explanation

A kind of preferred embodiment flow chart of steps of the electronic cigarette control method that Fig. 1 provides for the embodiment of the present invention;

The another kind of preferred embodiment flow chart of steps of the electronic cigarette control method that Fig. 2 provides for the embodiment of the present invention;

The another kind of preferred embodiment flow chart of steps of the electronic cigarette control method that Fig. 3 provides for the embodiment of the present invention;

The another kind of preferred embodiment flow chart of steps of the electronic cigarette control method that Fig. 4 provides for the embodiment of the present invention;

The another kind of preferred embodiment flow chart of steps of the electronic cigarette control method that Fig. 5 provides for the embodiment of the present invention;

The another kind of preferred embodiment flow chart of steps of the electronic cigarette control method that Fig. 6 provides for the embodiment of the present invention;

A kind of preferred embodiment overall structure schematic diagram of the electronic cigarette that Fig. 7 provides for the embodiment of the present invention;

The another kind of preferred embodiment overall structure schematic diagram of the electronic cigarette that Fig. 8 provides for the embodiment of the present invention;

The blast syndeton schematic diagram that Fig. 9 is the electronic cigarette shown in Fig. 7;

The blast syndeton schematic diagram that Figure 10 is the electronic cigarette shown in Fig. 8;

The another kind of preferred embodiment overall structure schematic diagram of the electronic cigarette that Figure 11 provides for the embodiment of the present invention;

A kind of preferred embodiment cross-sectional view of the atomizer of the electronic cigarette that Figure 12 provides for the embodiment of the present invention.

Detailed description of the invention

Embodiment one, present embodiments provides a kind of control method of electronic cigarette, is shown in Figure 1ly below described in detail to described control method:

Described control method specifically comprises:

101, microcontroller receives the operational order of user's input by input module;

Wherein, described input module is for receiving the operational order of user's input, and described operational order is used for user and selectes at least one atomizer in several atomizers as described target atomizer.

Described target atomizer is for being atomized tobacco tar to generate the smog can sucked for user.

Namely the tobacco tar stored in described target atomizer is the tobacco tar taste that the current hope of user is drawn into.

Wherein, described input module can be the touch modules selecting the touch operation instruction of described target atomizer for receiving user; Namely user inputs described operational order by touch operation in described touch modules.

Or described input module also can be the first button for receiving the pressing operation for selected described target atomizer; Namely user inputs described operational order by described first button with the form of pressing operation.

The explanation of the present embodiment to input module is one preferably example, is not construed as limiting, as long as this input module can receive the operational order that user selectes described target atomizer.

102, described microcontroller determines described target atomizer according to described operational order;

Described microcontroller is electrically connected with described input module, to make described microcontroller receive described operational order, and determines described target atomizer according to described operational order.

The quantity of the microcontroller be electrically connected with described microcontroller in the present embodiment is not construed as limiting.

If 103 described microcontrollers receive the triggering signal that induction module sends, then described microcontroller generates the first control signal according to described triggering signal;

Wherein, described induction module is electrically connected with described microcontroller.

Described induction module is for responding to the operation of user to determine that user aspirates smog current needs, and described induction module generates described triggering signal according to the operation of user.

The described triggering signal that described induction module is generated sends to described microcontroller, receives this triggering signal to make described microcontroller.

Described microcontroller generates the first control signal according to described triggering signal correspondence, and described first control signal is atomized its tobacco tar stored to generate smog for controlling described target atomizer.

104, target atomizer described in described microprocessor control is atomized the tobacco tar in described target atomizer according to described first control signal.

Concrete, be electrically connected with described microcontroller and be provided with battery, described battery is used for powering for described microcontroller and described atomizer.

More specifically, it is that described target atomizer is powered that described microcontroller controls described battery according to described first control signal, is atomized tobacco tar to generate smog to make described target atomizer.

In the present embodiment, because described microcontroller can select at least one atomizer as target atomizer according to user by the operational order that described input module inputs, the work of described target atomizer can be controlled according to the operation correspondence of user to make described microcontroller, with realize user can according to the needs of self freely selected target atomizer with free adjustment smog taste, be convenient to user's product cigarette.

The present embodiment two, the control method of the present embodiment to the taste can pointing out current the be atomized smog of user is described in detail:

201, the first corresponding relation of tobacco tar taste in each atomizer in described electronic cigarette and atomizer described in each set up by described microcontroller;

Namely described microcontroller obtains the tobacco tar taste stored in each atomizer in advance, and sets up the first corresponding relation of tobacco tar taste in each atomizer and atomizer described in each.

Wherein, the concrete mode that described microcontroller obtains the tobacco tar taste stored in each atomizer in advance can be multiple, such as manufacturer sets when dispatching from the factory, because atomizer described in each is by the fixed installation of atomization seat, manufacturer sets specific atomization seat when dispatching from the factory need install the atomizer storing this specific tobacco tar taste; Or the tobacco tar taste of user's corresponding this atomizer of input when installing atomizer, obtain to make described microcontroller the tobacco tar taste stored in this atomizer according to the input of user.Its concrete input mode is not construed as limiting, such as can phonetic entry, touches input or key-press input etc.

202, microcontroller receives the operational order of user's input by input module;

203, described microcontroller determines described target atomizer according to described operational order;

In the present embodiment, the step 101 shown in step 202 to 203 with embodiment one is identical to 102 processes, does not repeat them here.

204, described microcontroller determines the target tobacco tar taste corresponding with described target atomizer according to described first corresponding relation;

Namely, after described microcontroller determination target atomizer, described first corresponding relation according to having set up determines the tobacco tar taste corresponding with described target atomizer.

If 205 described microcontrollers receive the triggering signal that induction module sends, then described microcontroller generates the first control signal and the second control signal according to described triggering signal;

206, target atomizer described in described microprocessor control is atomized the tobacco tar in described target atomizer according to described first control signal;

207, described microprocessor control reminding module points out the described target tobacco tar taste in described target atomizer according to described second control signal.

Namely described microcontroller generates the first control signal and the second control signal according to described triggering signal correspondence, described first control signal is for controlling described target atomizer atomization tobacco tar that user selectes to generate smog, the target tobacco tar taste that described second control signal points out described target atomizer to store for controlling reminding module.

Wherein, described reminding module is electrically connected with described microcontroller.

Described reminding module is for by target tobacco tar taste display screen described in text prompt user and/or be the acoustical generator by target tobacco tar taste described in voice message user.

Need it is clear that, the present embodiment is illustrated as preferable examples to described reminding module, is not construed as limiting, as long as the target tobacco tar taste stored in described target atomizer can be prompted to user by this reminding module.

For better understanding the present embodiment, below lifting embody rule scene and the present embodiment be described in detail:

In the present embodiment electronic cigarette is provided with three atomizers to be described, wherein the first atomizer storage inside has mint flavored tobacco tar, and the second atomizer storage inside has caf tobacco tar, and the 3rd atomizer storage inside has strawberry flavor tobacco tar;

Described microcontroller set up the first atomizer and mint flavored tobacco tar corresponding relation, set up the second atomizer with have the corresponding relation of caf tobacco tar and set up the corresponding relation of the 3rd atomizer and strawberry flavor tobacco tar;

Described microcontroller specifically sets up mode for the first atomizer, can be user installation when storing the first atomizer of mint flavored tobacco tar, inputted by touch-screen or select mint flavored tobacco tar, with the corresponding relation making described microcontroller set up the first atomizer and mint flavored tobacco tar;

Input module receives the operational order that user leads to input, and to determine that described second atomizer is for target atomizer, namely user's smoking is drawn into the tobacco tar of caf, then selected second atomizer is target atomizer;

According to described operational order, described microcontroller determines that described second atomizer is target atomizer;

Described microcontroller detects the triggering signal whether it receives induction module transmission, and even user wishes to be drawn into smog, then by the operation of described induction module input correspondence;

Concrete, described induction module can be airflow sensor switch, and namely user aspirates described airflow sensor switch, then described airflow sensor switch generates triggering signal according to the suction operation correspondence of user;

Described microcontroller generates the first control signal and the second control signal according to described triggering signal;

Second atomizer described in described microprocessor control is atomized the caf tobacco tar that stores in it to generate the caf smog can sucked by user according to described first control signal;

Described microprocessor control reminding module is according to the described caf tobacco tar taste in described second atomizer of described second control signal prompting, to make user determine what its current smog sucked was caf by described reminding module, be convenient to user's product cigarette and be convenient to the follow-up selection of user.

In the present embodiment, described microcontroller generates the first control signal and the second control signal according to described triggering signal correspondence, target tobacco tar that its inside stores is atomized to generate smog according to described first control signal to make described target atomizer, according to described second control signal, described target tobacco tar taste is prompted to user to make described reminding module, with the taste enabling user grasp its current be drawn into smog, be convenient to user's product cigarette, be also convenient to user and select the tobacco tar taste oneself liked.

Embodiment three, the present embodiment is described in detail to pointing out the control method remaining tobacco tar amount in ownership goal atomizer:

Shown in composition graphs 3, described control method comprises:

301, the first corresponding relation of tobacco tar taste in each atomizer in described electronic cigarette and atomizer described in each set up by described microcontroller;

302, microcontroller receives the operational order of user's input by input module;

303, described microcontroller determines described target atomizer according to described operational order;

304, described microcontroller determines the target tobacco tar taste corresponding with described target atomizer according to described first corresponding relation;

If 305 described microcontrollers receive the triggering signal that induction module sends, then described microcontroller generates the first control signal and the second control signal according to described triggering signal;

306, target atomizer described in described microprocessor control is atomized the tobacco tar in described target atomizer according to described first control signal;

307, described microprocessor control reminding module points out the described target tobacco tar taste in described target atomizer according to described second control signal;

Step 301 in the present embodiment to step 307 detailed process please step 201 as shown in Figure 2 to shown in step 207, do not repeat in the present embodiment.

308, described microcontroller determines that described target atomizer can for the residue mouth number of user's suction;

In the present embodiment, for described induction module for airflow sensor switch is described, need it is clear that, the concrete structure of described induction module is not construed as limiting in the present embodiment, as long as it can generate triggering signal according to the operation of user correspondence.Such as also can arrange inductive switch on electronic cigarette body, after described inductive switch receives the pressing operation of user, corresponding control battery is that described target atomizer is powered.

In the present embodiment, described microcontroller determines that described target atomizer can be for the concrete mode of the residue mouth number of user's suction:

Described microcontroller pre-determines user and often aspirates once the single tobacco tar amount that described airflow sensor switch consumes;

This single tobacco tar amount can be inputted by manufacturer or set.

Described microcontroller determine atomizer described in each store total tobacco tar amount of tobacco tar;

Its concrete deterministic process is not construed as limiting in the present embodiment, it is constant for such as can be the total tobacco tar amount stored in the adaptive atomizer of described electronic cigarette, manufacturer sets when dispatching from the factory, or user is when installing described atomizer, input storable total tobacco tar amount in its atomizer installed by input module;

The business of described total tobacco tar amount and single tobacco tar amount determined by described microcontroller;

Described microcontroller determines that the business of described total tobacco tar amount and single tobacco tar amount is the total mouthful of number that described atomizer can aspirate;

Described microcontroller counts the mouth number that each described atomizer has aspirated, namely records the mouth of the atomization number of each atomizer;

Such as, after user's first time selected target atomizer, user aspirates described airflow sensor switch, then described microcontroller determines that the mouth of the atomization number of this target atomizer is for " 1 ", user aspirates described airflow sensor switch again, then described microcontroller determines that the mouth of the atomization number of this target atomizer is for " 2 ", by that analogy, repeat no more.

Described microcontroller determines that the total mouthful of number that atomizer described in each can aspirate and the described difference being atomized number of times are described residue mouth number respectively.

Need it is clear that, above-mentioned how described residue mouth number to be determined to the present embodiment be only a kind of example, be not construed as limiting, such as, also can adopt following manner:

Described microcontroller pre-determines user and often aspirates once the single tobacco tar amount that described airflow sensor switch consumes;

After user's selected target atomizer, the residue tobacco tar amount in this target atomizer determined by described microcontroller;

Wherein, the mode of the residue tobacco tar amount that described microcontroller is determined in this target atomizer is not construed as limiting, as long as make the residue tobacco tar amount that this microcontroller can be determined in target atomizer, such as the housing of described atomizer is set to transparent shell, the position storing tobacco tar is provided with scale, user can determine described residue tobacco tar amount by this scale, and this residue tobacco tar amount is inputted by input module, determines this residue tobacco tar amount to make described microcontroller; Such as described atomizer is provided with the oil storage bottle that user stores tobacco tar, and described oil storage bottle is made up of light-transmitting materials, and described oil storage bottle is provided with scale.

Or be provided with pressure sensor storing tobacco tar position, and set up the corresponding relation of pressure size and tobacco tar amount, when after user's selected target atomizer, the pressure of microcontroller accessed by the pressure sensor in target atomizer also determines the residue tobacco tar amount of described target atomizer inside according to described corresponding relation.

Described microcontroller determines that the business of described residue tobacco tar amount and described single tobacco tar amount is that this target atomizer can for the described residue mouth number aspirated.

309, reminding module described in microprocessor control points out described residue mouth number according to described second control signal.

Wherein, described reminding module is the display screen by remaining mouth number described in text prompt user, and/or described reminding module is the acoustical generator by remaining mouth number described in voice message user.

Reminding module described in described microprocessor control shows described residue mouth number, the residue mouth number that this target atomizer can for be sucked is determined to make user, so that user adds tobacco tar timely or changes atomizer, the potential safety hazard avoiding user to aspirate not having the atomizer of tobacco tar or tobacco tar quantity not sufficient to bring.

For better understanding the present embodiment, below lifting embody rule scene and the present embodiment be described in detail:

In the present embodiment electronic cigarette is provided with three atomizers to be described, wherein the first atomizer storage inside has mint flavored tobacco tar, and the second atomizer storage inside has caf tobacco tar, and the 3rd atomizer storage inside has strawberry flavor tobacco tar;

Described microcontroller set up the first atomizer and mint flavored tobacco tar corresponding relation, set up the second atomizer with have the corresponding relation of caf tobacco tar and set up the corresponding relation of the 3rd atomizer and strawberry flavor tobacco tar;

Described microcontroller specifically sets up mode for the first atomizer, can be user installation when storing the first atomizer of mint flavored tobacco tar, inputted by touch-screen or select mint flavored tobacco tar, with the corresponding relation making described microcontroller set up the first atomizer and mint flavored tobacco tar;

Input module receives the operational order that user leads to input, and to determine that described second atomizer and the 3rd atomizer are for target atomizer, namely user's smoking is drawn into the tobacco tar of caf and strawberry flavor, then selected second atomizer and the 3rd atomizer are target atomizer;

According to described operational order, described microcontroller determines that described second atomizer and the 3rd atomizer are target atomizer;

Described microcontroller detects the triggering signal whether it receives induction module transmission, and even user wishes to be drawn into smog, then by the operation of described induction module input correspondence;

Concrete, described induction module can be airflow sensor switch, and namely user aspirates described airflow sensor switch, then described airflow sensor switch generates triggering signal according to the suction operation correspondence of user;

Described microcontroller generates the first control signal and the second control signal according to described triggering signal;

Second atomizer described in described microprocessor control and the 3rd atomizer are atomized the caf tobacco tar that stores in it to generate the caf and strawberry flavor smog that can be sucked by user simultaneously according to described first control signal; Namely achieve user to polyblend the object of described caf and strawberry flavor smog;

Described microprocessor control reminding module, according to described second control signal prompting caf and strawberry flavor tobacco tar taste, determines what its current smog sucked was caf and strawberry flavor to make user by described reminding module;

And described microcontroller pre-determines user, and often to aspirate once the single tobacco tar amount that described airflow sensor switch consumes be 0.02ml;

Described microcontroller can determine the first atomizer, the second atomizer and the 3rd atomizer store tobacco tar total tobacco tar amount be 30ml;

The total mouthful of number that then each atomizer described can aspirate is 30/0.02=1500 time;

Because of in this application scene, the target atomizer that user selectes is the second atomizer and the 3rd atomizer, then described microcontroller determines that described second atomizer has been sucked second and has been atomized mouthful number and described 3rd atomizer and has been sucked the 3rd and has been atomized a mouthful number;

Namely described microcontroller is determined described second to be atomized mouthful number is 500 times, and namely user determines that this second atomizer is target atomizer and the number of times aspirating this electronic cigarette is 500 times;

Described 3rd to be atomized mouthful number be 50 times; Namely user determines that the 3rd atomizer is target atomizer and the number of times aspirating this electronic cigarette is 50 times;

Then described microcontroller determines that the residue mouth number of Gong the user suction of described second atomizer is 1500-500=1000 time;

Described microcontroller determines that the residue mouth number of Gong the user suction of described 3rd atomizer is 1500-50=1250 time.

Described microcontroller by described reminding module by several for the residue mouth of described second atomizer 1000 times and the 3rd atomizer residue mouth inform to user several 1250 times.

Embodiment four, the present embodiment is described in detail to the process how described microcontroller specifically controls described atomizer atomization smog:

In the present embodiment, described in described microprocessor control, atomizer atomizing type has three kinds;

The first is please as shown in Figure 4: in this kind of set-up mode, user inputs described operational order by the described input module being provided with described first button;

401, described microcontroller sets up atomizer described in each and described first button respectively by the second corresponding relation by number of times;

Namely on electronic cigarette body, be provided with described first button, described microcontroller sets up each atomizer and described first button in advance by the second corresponding relation by number of times;

This second corresponding relation can be that manufacturer customizes in advance, and namely manufacturer has preset the first button by the second corresponding relation by number of times and each atomizer, user by the different number of times of pressing first key switch with selected different atomizer;

Certainly, user also sets up described second corresponding relation voluntarily by microcontroller and the first button, and namely in the present embodiment, the mode of setting up of this second corresponding relation is not construed as limiting.

402, described microcontroller receives the operational order of user's input by described first button;

In the present embodiment, user inputs described operational order by pressing operation, and described controller receives described operational order.

403, described microcontroller according to described operational order determine described first button by by targeted number;

The number of times of described first button of described microcontroller recording user pressing, and this number of times is defined as targeted number.

Namely described first button is pressed once, then generate a triggering signal, the number of times of its described triggering signal received continuously of described microcontroller record, and the number of times of the triggering signal this received continuously is recorded as targeted number.

404, according to described second corresponding relation, described microcontroller determines that the atomizer corresponding with described targeted number is described target atomizer;

If 405 described microcontrollers receive the triggering signal that induction module sends, then described microcontroller determines whether described target atomizer is multiple, if not, then carry out step 406, if so, then carry out step 407;

Wherein, described microcontroller determines whether described target atomizer is multiple concrete modes and is:

Described microcontroller detects after it has determined a described targeted number, whether is continuing the triggering signal receiving input continuously after scheduled duration;

Namely described microcontroller determine in scheduled duration described first button by by number of times be described targeted number, if after described scheduled duration, described microcontroller detects that described first button is pressed again, then redefine this targeted number.

If, then microcontroller determines that described target atomizer is multiple, and record the number of times of the described triggering signal that it receives continuously in scheduled duration, and the number of times of the triggering signal received continuously in scheduled duration is recorded as targeted number, to continue to determine target atomizer according to described targeted number, until microcontroller no longer receives described triggering signal.

Wherein, set when this scheduled duration can be dispatched from the factory by manufacturer, also can be user's free setting, concrete duration is not construed as limiting.

If not, then microcontroller determines that described target atomizer is one.

406, described microcontroller generates the first control signal according to described triggering signal, and controls described target atomizer and be atomized tobacco tar in described target atomizer according to described first control signal.

The target atomizer that even user selectes is one, then microcontroller can control this target atomizer atomization tobacco tar to form smog according to the first control signal.

407, described microcontroller generates the first control signal according to described triggering signal, and controls multiple described target atomizer and be atomized tobacco tar in described target atomizer according to described first control signal simultaneously.

Need it is clear that, the multiple target atomizer of described microprocessor control is atomized tobacco tar just a kind of citing simultaneously, be not construed as limiting, such as described microcontroller also can control multiple described target atomizer according to described first control signal and be atomized the tobacco tar in described target atomizer or the tobacco tar in the described target atomizer of random atomization according to the order of sequence, also the order can determined according to user is atomized the tobacco tar in described target atomizer, and concrete atomization order is not construed as limiting in the present embodiment.

Make user can select one or more atomizer as target atomizer by this kind of mode, and user to select mode simple, operation without the need to user's complexity can make the work of a microprocessor control target atomizer, or control the work of multiple described target atomizer, to realize the object that user mixes smoking mist simultaneously.

For better understanding the first kind of way shown in the present embodiment, below lifting embody rule scene and the present embodiment be described in detail:

In the present embodiment electronic cigarette is provided with three atomizers to be described, wherein the first atomizer storage inside has mint flavored tobacco tar, and the second atomizer storage inside has caf tobacco tar, and the 3rd atomizer storage inside has strawberry flavor tobacco tar;

Electronic cigarette body is provided with the first button;

The second corresponding relation determined by described microcontroller, and this second corresponding relation establishes the first button by by once, then corresponding with the first atomizer; This first button is pressed secondary, then corresponding with the second atomizer; First button is pressed three times, then corresponding with the 3rd atomizer;

This second corresponding relation is preferably that user is set by soft-touch control and informs described microcontroller;

If user wishes the smog aspirating mint flavored, then user presses described first button once, then according to described second corresponding relation, microcontroller determines that described first atomizer is target atomizer;

Described microcontroller detects the triggering signal whether it receives induction module transmission, and even user wishes to be drawn into smog, then by the operation of described induction module input correspondence;

Concrete, described induction module can be airflow sensor switch, and namely user aspirates described airflow sensor switch, then described airflow sensor switch generates triggering signal according to the suction operation correspondence of user;

Described microcontroller generates the first control signal according to described triggering signal;

First atomizer described in described microprocessor control is atomized the mint flavored tobacco tar that stores in it to generate the mint flavored smog can sucked by user according to described first control signal.

If user wishes that selected multiple atomizer is as target atomizer, even user wishes the suction smog of mint flavored and the smog of strawberry flavor, then user presses described first button once, then according to described second corresponding relation, microcontroller determines that described first atomizer is target atomizer; And pressing described first button three times continuously after the scheduled duration of interval, then described microcontroller also can determine that described 3rd atomizer is target atomizer;

Wherein, described scheduled duration can be for 3 seconds.

Namely described microcontroller determines that described first button is by by once, then determine that described first atomizer is target atomizer, and after 3 seconds, and described microcontroller determines that described first button is by by three times, then determine that described 3rd atomizer is target atomizer.

The second is please as shown in Figure 5: in this kind of set-up mode, user inputs described operational order by the described input module being provided with multiple described first button;

501, the 3rd corresponding relation of atomizer described in each and multiple described first button set up respectively by described microcontroller;

Namely on electronic cigarette body, multiple described first button is provided with, with described first button making different described atomizers corresponding different.

3rd corresponding relation can be that manufacturer customizes in advance, and multiple first buttons namely arranged on electronic cigarette body, described 3rd corresponding relation set up by each described first button and the atomizer near this first button.When wishing to make user to be drawn into certain atomizer, only need pressing near the first button of this atomizer position.

Certainly, also can be provided with key area on described electronic cigarette body, this key area is provided with multiple described first button, and is provided with prompt text on each first button, to point out the atomizer corresponding with this first button and the aerosolizable smog taste of each atomizer.

Such as by the multiple atomizer labels set by electronic cigarette, and by described first button label, to make No. 1 first button corresponding with No. 1 atomizer, No. 2 buttons are corresponding with No. 2 atomizers, by that analogy.

The concrete setting position of this each the first button is not construed as limiting, as long as make user can grasp the atomizer corresponding with each the first button clearly in the present embodiment.

502, described microcontroller receives the operational order of user's input by described first button;

503, described microcontroller according to described operational order determine by by target first button;

504, according to described 3rd corresponding relation, described microcontroller determines that the atomizer corresponding with described target first button is described target atomizer;

If 505 described microcontrollers receive the triggering signal that induction module sends, then described microcontroller determines whether described target atomizer is multiple, if not, then carry out step 506, if so, then carry out step 507;

506, described microcontroller generates the first control signal according to described triggering signal, and controls described target atomizer and be atomized tobacco tar in described target atomizer according to described first control signal.

507, described microcontroller generates the first control signal according to described triggering signal, and controls multiple described target atomizer and be atomized tobacco tar in described target atomizer according to described first control signal simultaneously.

Wherein, the step 405 shown in the step 505 shown in the present embodiment to step 507 with Fig. 4 is identical to step 407 process, does not repeat them here.

For better understanding the second way shown in the present embodiment, below lifting embody rule scene and the present embodiment be described in detail:

In the present embodiment electronic cigarette is provided with three atomizers to be described, wherein the first atomizer storage inside has mint flavored tobacco tar, and the second atomizer storage inside has caf tobacco tar, and the 3rd atomizer storage inside has strawberry flavor tobacco tar;

Electronic cigarette body is provided with multiple first button;

The 3rd corresponding relation determined by described microcontroller, and the 3rd corresponding relation establishes each first button by the corresponding relation with atomizer;

If user wishes the smog aspirating mint flavored, then user presses the first button near described first atomizer position, then according to described 3rd corresponding relation, microcontroller determines that described first atomizer is target atomizer;

Described microcontroller detects the triggering signal whether it receives induction module transmission, and even user wishes to be drawn into smog, then by the operation of described induction module input correspondence;

Concrete, described induction module can be airflow sensor switch, and namely user aspirates described airflow sensor switch, then described airflow sensor switch generates triggering signal according to the suction operation correspondence of user;

Described microcontroller generates the first control signal according to described triggering signal;

First atomizer described in described microprocessor control is atomized the mint flavored tobacco tar that stores in it to generate the mint flavored smog can sucked by user according to described first control signal.

If user wishes that selected multiple atomizer is as target atomizer, even user wishes the suction smog of mint flavored and the smog of strawberry flavor, then user presses the first button of close described first atomizer once, then according to described second corresponding relation, microcontroller determines that described first atomizer is target atomizer; And after there is described preset duration at interval, pressing is near described first button of described 3rd atomizer, then described microcontroller also can determine that described 3rd atomizer is target atomizer.

Embodiment five, the present embodiment is described in detail to the control method that can control light-emitting component luminescence:

Shown in Fig. 6, described control method comprises:

601, microcontroller receives the operational order of user's input by input module;

602, described microcontroller determines described target atomizer according to described operational order;

Step 101 shown in step 601 in the present embodiment to step 602 with embodiment one is identical to step 102 process, does not repeat in the present embodiment.

603, described microcontroller sets up atomizer described in each and light-emitting component the 4th corresponding relation respectively;

On electronic cigarette body, each atomizer correspondence position is provided with light-emitting component, determines atomizer described in each to make described microcontroller and light-emitting component described in each sets up the 4th corresponding relation.

Concrete, this light-emitting component can be the LED lamp be electrically connected with described microcontroller.

604, described microcontroller determines the target light-emitting component corresponding with described target atomizer according to described 4th corresponding relation;

If 605 described microcontrollers receive the triggering signal that induction module sends, then described microcontroller generates the first control signal and the second control signal according to described triggering signal;

606, target atomizer described in described microprocessor control is atomized the tobacco tar in described target atomizer according to described first control signal;

Specifically ask for an interview the step 104 in embodiment one, do not repeat in the present embodiment.

607, described microcontroller controls the luminescence of described target light-emitting component by described second control signal.

Namely make the work of target atomizer by the present embodiment and be atomized its store tobacco tar while, the light-emitting component corresponding with target atomizer position is luminous, and then makes user can determine which atomizer carries out work according to the particular location of luminous light-emitting component.

Be preferably, if described target atomizer is multiple,

And if when the multiple described target atomizer of described microprocessor control is atomized, then described microcontroller can control the multiple described light-emitting component corresponding with described target atomizer luminescence simultaneously simultaneously;

If when then described microcontroller can control multiple described target atomizer circulation or be atomized at random, then described microcontroller can control the light-emitting component luminescence corresponding with the current target atomizer be atomized, to make multiple described light-emitting component circulation luminescence or random light emission.

User determines the atomization order of this target atomizer and the current target atomizer be atomized by the luminous situation of light-emitting component.

The concrete effect of certain above-mentioned light-emitting component is a kind of preferable examples, is not the restriction to the present embodiment.

Such as on described electronic cigarette body, also light-emitting zone can be provided with, this light-emitting zone is provided with the element of giving out light setting up described 4th corresponding relation with each atomizer, and light-emitting component side described in each is provided with information, the tobacco tar taste that this information can point out the atomizer corresponding with light-emitting component to store, like this when light-emitting component is luminous according to described second control signal, user can determine by the information corresponding with the light-emitting component of this luminescence the tobacco tar taste that target atomizer stores, so that user's product cigarette.

Embodiment six, present embodiments provides a kind of electronic cigarette in order to realize above-mentioned control method;

Electronic cigarette shown in the present embodiment comprises multiple described atomizer, and the concrete function of its atomizer and effect are asked for an interview shown in embodiment one to five, do not repeat in the present embodiment.

Atomizer shown in the present embodiment has two kinds of set-up modes: a kind of for shown in Fig. 7, described atomizer is arranged on described electronic cigarette body interior, and described atomizer 801 as shown in Figure 8, is arranged on described electronic cigarette body exterior by another kind.

Below in conjunction with shown in Fig. 7 and Fig. 8, the concrete structure of electronic cigarette is described in detail:

Described electronic cigarette comprises:

Electronic cigarette body, described electronic cigarette body is provided with the smoke absorbing end 701 for smoking;

Smoke absorbing end 701 shown in the present embodiment, for the air-flow conducting with electronic cigarette body interior, is circulated to this smoke absorbing end 701 to make inner air-flow carry to be atomized device atomization with the smog formed.

In the present embodiment, be connected with suction pipe 702 with described smoke absorbing end, can smog be drawn into make user by this suction pipe 702.

Certainly also directly can aspirate the modes such as smog by smoke absorbing end 701 with the removably connect suction nozzle that is provided with and matches with user's nozzle type or user of described smoke absorbing end 701, namely how user is specifically drawn into being not construed as limiting in the present embodiment of smog in the present embodiment.

For being atomized described tobacco tar to form the multiple described atomizer 801 of smog;

Wherein, the concrete set-up mode of the atomizer of the electronic cigarette shown in Fig. 7 please as shown in Figure 9, the blast syndeton schematic diagram that Fig. 9 is the electronic cigarette shown in Fig. 7.

Known as shown in Figure 9, multiple atomizer 801 can be disposed with in electronic cigarette body interior.The concrete number of this atomizer is not construed as limiting.

Wherein, multiple atomizer 801 is inserted in described electronic cigarette body interior by atomizer interface arrangement, to make the described atomizer 801 be arranged on described atomizer interface be electrically connected with described microcontroller, so that multiple atomizer 801 is dismountable be arranged on described electronic cigarette body interior.

Need it is clear that, it is a kind of preferred embodiment that described atomizer 801 is arranged on the intrinsic mode of electronic cigarette by atomizer interface 802, is not construed as limiting, as long as described atomizer 801 is detachably arranged in described electronic cigarette body.

Preferably, air inlet 703 can be provided with on described electronic cigarette body, flow into this electronic cigarette body interior to enable air-flow by this air inlet 703.

Shown in Fig. 7 and Fig. 9; atomizer 801 is arranged on electronic cigarette body interior, makes this electronic cigarette overall structure attractive in appearance, be easy to carry; and electronic cigarette body can protect atomizer 801 not to be subject to the infringement of fortuitous event, there is the service life of being suitable for and extending atomizer.

Wherein, the concrete set-up mode of the electronic smoke atomizer shown in Fig. 8 please as shown in Figure 10, the blast syndeton schematic diagram that Figure 10 is the electronic cigarette shown in Fig. 8.

Shown in Fig. 8 and Figure 10, multiple described atomizer 801 being positioned at described electronic cigarette body exterior is fixedly mounted on described electronic cigarette body exterior by atomizer interface 802.Namely described atomizer interface 802 is around described electronic cigarette body, and is arranged on described electronic cigarette body.To make described atomizer 801 removably connect with described atomizer interface 802, and then the described atomizer 801 be arranged on described atomizer interface 802 is electrically connected with described microcontroller.

Need it is clear that, the mode that described atomizer 801 is arranged on electronic cigarette body by atomizer interface 802 is a kind of preferred embodiment, is not construed as limiting, as long as described atomizer 801 is detachably arranged on described electronic cigarette body.The mode such as thread segment or buckle structure for mating with described atomizer 801 such as also can be provided with on described electronic cigarette body.

And atomizer 801 is arranged on described electronic cigarette body exterior and can be convenient to user and changes atomizer 801, and be convenient to user and add tobacco tar toward atomizer 801 inside.And be arranged on electronic cigarette body exterior because of atomizer 801, make enough air-flows flow into atomizer 801 inner, under enough air-flows drive, flow into described smoke absorbing end 701 to enable the smog of atomizer institute atomizer.

And no matter described atomizer 801 is arranged on described electronic cigarette body or is arranged on electronic cigarette body interior, multiple described atomizer 801 respectively with the conducting of described smoke absorbing end 701.

Continue see shown in Fig. 7 to Figure 10, described electronic cigarette also comprises:

The described input module 803 that electronic body is arranged;

Wherein, described input module 803 can be button or soft-touch control, specifically asks for an interview above-described embodiment, does not repeat in the present embodiment.

Described electronic cigarette body interior is provided with described microcontroller, described induction module and the battery for powering to described microcontroller;

And described microcontroller is electrically connected with described atomizer 801 and described battery respectively;

And described input module 803 and described induction module are electrically connected with described microcontroller respectively.

Implement seven, the structure of the present embodiment to this electronic cigarette is described in further detail:

Please as shown in Figure 11, Figure 11 is arranged on electronic cigarette body for atomizer 801 and is described;

Described electronic cigarette also comprises the reminding module 804 be arranged on described electronic cigarette body.Described reminding module 804 is the display screen by target tobacco tar taste described in text prompt user and/or described residue mouth number; And/or described reminding module 804 is the acoustical generator by target tobacco tar taste described in voice message user and/or described residue mouth number.

Described electronic cigarette also comprises the light-emitting component 805 be arranged on described electronic cigarette body.

Described light-emitting component 805 specifically can be arranged on the position corresponding with each atomizer 803, such as shown in figure 11, described light-emitting component 805 is arranged on the below of each atomizer 803.With the described atomizer making different described light-emitting components 805 corresponding different.And then make different light-emitting component 805 luminescences can in order to indicate different atomizers 801.

Need it is clear that, the described reminding module 804 shown in Figure 11 and described light-emitting component 805 particular location are a kind of example, are not construed as limiting, as long as described reminding module 804 and described light-emitting component 805 are arranged on electronic cigarette body.And described reminding module 804 and described light-emitting component 805 are electrically connected with described microcontroller.

In the present embodiment, the described induction module being positioned at described electronic cigarette body interior is airflow sensor switch, because of user aspirated by the suction pipe 702 shown in Figure 11 time, electronic cigarette body interior pressure can be made to reduce, namely may correspond to after the state that described airflow sensor inductive switching reduces to pressure and generate described triggering signal.

Implement seven, the concrete structure of the present embodiment to each atomizer is described in detail, and because the structure of each atomizer is identical, the present embodiment is described for the atomizer shown in Figure 12:

Known as shown in Figure 12, described atomizer comprises:

For storing the oil storage bottle 1201 of tobacco tar;

For being atomized the heating wire assembly 1202 of described tobacco tar;

The assembly of heating wire described in the present embodiment 1202 specifically can comprise Oil Guide rope and be wound around the heating wire be arranged on described Oil Guide rope.

Need it is clear that, heating wire assembly 1202 is as shown in figure 12 only a kind of citing, and be not construed as limiting, described heating wire assembly 1202 also can adopt other modes, as long as this heating wire assembly 1202 can be atomized tobacco tar.

Such as described heating wire assembly 1202 can be: being spiraled by the heating wire being pressed into sheet surrounds into cylindricality and maybe spiraled by the heating wire being pressed into sheet and surround into spirality or snakelike, to make the plane at heating wire place vertical or angled with the axis of described atomizer 801.

Be inserted in described oil storage bottle inner, for the tobacco tar in described oil storage bottle 1201 being conducted to the Oil Guide mechanism 1203 of described heating wire assembly 1202.

In the present embodiment, the concrete structure of this Oil Guide mechanism 1203 is not construed as limiting, as long as tobacco tar can be flowed to described heating wire assembly 1202 by this Oil Guide mechanism 1203.

Such as described Oil Guide mechanism 1203 can be the petroleum pipeline with through hole, and this petroleum pipeline inside is provided with oil storage cotton, or described Oil Guide mechanism 1203 is the oil guide pipe be made up of glass material.

Those skilled in the art can be well understood to, and for convenience and simplicity of description, the system of foregoing description, the specific works process of device and unit, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

The above, above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (10)

1. a control method for electronic cigarette, is characterized in that, comprising:

Microcontroller receives the operational order of user's input by input module, and described operational order is used at least one in several atomizers selected as target atomizer; Wherein, described input module is touch modules or the first button;

Described microcontroller determines described target atomizer according to described operational order;

If described microcontroller receives the triggering signal that induction module sends, then described microcontroller generates the first control signal according to described triggering signal;

Target atomizer described in described microprocessor control is atomized the tobacco tar in described target atomizer according to described first control signal.

2. the control method of electronic cigarette according to claim 1, is characterized in that, described method also comprises:

The first corresponding relation of tobacco tar taste in each atomizer in described electronic cigarette and atomizer described in each set up by described microcontroller;

Described microcontroller also comprises after determining described target atomizer according to described operational order:

Described microcontroller determines the target tobacco tar taste corresponding with described target atomizer according to described first corresponding relation;

Described method also comprises:

Described microcontroller generates the second control signal according to described triggering signal;

Described microprocessor control reminding module points out the described target tobacco tar taste in described target atomizer according to described second control signal.

3. the control method of electronic cigarette according to claim 2, is characterized in that, described method also comprises:

Described microcontroller determines that described target atomizer can for the residue mouth number of user's suction;

Described microcontroller also comprises after generating the second control signal according to described triggering signal:

Reminding module described in described microprocessor control points out described residue mouth number according to described second control signal.

4. the control method of the electronic cigarette according to Claims 2 or 3, is characterized in that,

Described reminding module is the display screen by target tobacco tar taste described in text prompt user and/or described residue mouth number;

And/or,

Described reminding module is the acoustical generator by target tobacco tar taste described in voice message user and/or described residue mouth number.

5. the control method of electronic cigarette according to claim 1, is characterized in that, described input module is described first button;

Described method also comprises:

Described microcontroller sets up atomizer described in each and described first button respectively by the second corresponding relation by number of times, with make different described atomizers corresponding different by by number of times;

According to described operational order, described microcontroller determines that described target atomizer comprises:

Described microcontroller according to described operational order determine described first button by by targeted number;

According to described second corresponding relation, described microcontroller determines that the atomizer corresponding with described targeted number is described target atomizer.

6. the control method of electronic cigarette according to claim 1, is characterized in that, described input module is multiple described first buttons;

Described method also comprises:

The 3rd corresponding relation of atomizer described in each and multiple described first button set up respectively by described microcontroller, with described first button making different described atomizers corresponding different;

According to described operational order, described microcontroller determines that described target atomizer comprises:

Described microcontroller according to described operational order determine by by target first button;

According to described 3rd corresponding relation, described microcontroller determines that the atomizer corresponding with described target first button is described target atomizer.

7. the control method of electronic cigarette according to claim 2, is characterized in that, described method also comprises:

Described microcontroller sets up atomizer described in each and light-emitting component the 4th corresponding relation respectively;

Described microcontroller also comprises after determining described target atomizer according to described operational order:

Described microcontroller determines the target light-emitting component corresponding with described target atomizer according to described 4th corresponding relation;

Described microcontroller also comprises after generating the second control signal according to described triggering signal:

It is luminous that described microcontroller controls described target light-emitting component by described second control signal.

8. the control method of electronic cigarette according to claim 1, is characterized in that, described target atomizer is multiple;

The tobacco tar that target atomizer described in described microprocessor control is atomized in described target atomizer according to described first control signal comprises:

The multiple described target atomizer of described microprocessor control is atomized the tobacco tar in described target atomizer simultaneously according to described first control signal.

9. for realizing an electronic cigarette for the control method of the electronic cigarette described in claim 1 to 8 any one, it is characterized in that, comprising:

Electronic cigarette body, described electronic cigarette body is provided with for the smoke absorbing end of smoking, for being atomized described tobacco tar to form the multiple described atomizer of smog, described input module, described microcontroller, described induction module and the battery for powering to described microcontroller;

Multiple described atomizer is arranged on described electronic cigarette body interior or is arranged on described electronic cigarette body, and multiple described atomizer respectively with described smoke absorbing end conducting;

Described microcontroller and described induction module are arranged on described electronic cigarette body interior, and described microcontroller is electrically connected with described atomizer and described battery respectively;

Described input module is arranged on described electronic cigarette body, and described input module and described induction module are electrically connected with described microcontroller respectively.

10. electronic cigarette according to claim 9, is characterized in that, described electronic cigarette also comprises: be arranged on the described reminding module on described electronic cigarette body and/or described light-emitting component;

And described reminding module and/or described light-emitting component are electrically connected with described microcontroller.