CN109717518A - The control method and device of electronic cigarette - Google Patents

Abstract

The invention discloses a kind of control method of electronic cigarette and devices, belong to field of computer technology.The described method includes: detecting whether the waiting condition for meeting electronic cigarette；If meeting the waiting condition of the electronic cigarette, controls the electronic cigarette and enter standby mode；If the electronic cigarette detects a smoke signal when being in standby, stop carrying out atomization work according to a smoke signal control atomizing component；It solves children in the related technology and grabs electronic cigarette mistake contact cigarette key, electronic cigarette atomizing goes out the problem that smog is sucked damage children's physical and mental health by children；The child-resistant for increasing electronic cigarette is achieved the effect that.

Description

Control method and device of electronic cigarette

Technical Field

The invention relates to the technical field of simulated smoking, in particular to a control method and a control device of an electronic cigarette.

Background

At present, electronic cigarettes are increasingly popular in the market as substitutes of tobacco products due to the characteristics of portability, large smoke amount and the like in certain degree.

However, electronic cigarettes in the market have no child protection function, and if a child grabs the electronic cigarette and mistakenly touches a cigarette key, the electronic cigarette is atomized to generate smoke, and the smoke is inhaled by the child to damage the physical and mental health of the child.

Disclosure of Invention

In order to solve the problem that in the related art, when a child grabs an electronic cigarette and touches a cigarette key mistakenly, smoke generated by electronic smoke is inhaled by the child and damages physical and psychological health of the child, the embodiment of the invention provides a control method and a device of the electronic cigarette. The technical scheme is as follows:

in a first aspect, a method for controlling an electronic cigarette is provided, the method including:

detecting whether a standby condition of the electronic cigarette is met;

if the standby condition of the electronic cigarette is met, controlling the electronic cigarette to enter a standby state;

if the electronic cigarette detects a cigarette lighting signal when the electronic cigarette is in a standby state, the atomization component is stopped to atomize according to the cigarette lighting signal.

Optionally, the detecting whether the standby condition of the electronic cigarette is satisfied includes:

determining whether the electronic cigarette is operated;

determining that a standby condition of the electronic cigarette is satisfied if the electronic cigarette is not operated for a predetermined length of time.

Optionally, the determining whether the electronic cigarette is operated comprises:

acquiring operated information of the electronic cigarette, wherein the operated information comprises cigarette lighting information and movement indication information, and the movement indication information comprises at least one of acceleration information of the electronic cigarette, liquid level height information in a liquid storage cavity of the electronic cigarette and flow information of cigarette liquid in the liquid storage cavity of the electronic cigarette;

determining whether the electronic cigarette is operated according to the operated information.

Optionally, the detecting whether the standby condition of the electronic cigarette is satisfied includes:

detecting whether a standby instruction is received;

and if a standby instruction is received, determining that the standby condition of the electronic cigarette is met.

Optionally, the detecting whether the standby instruction is received includes:

acquiring knocking information of the electronic cigarette;

and determining whether a standby instruction is received according to the tapping information.

Optionally, the method further includes:

when the electronic cigarette is in a standby state, if an atomization wake-up signal is detected, controlling the electronic cigarette to enter a working state;

if the electronic cigarette is in a working state and a cigarette lighting signal is detected, the atomization assembly is controlled to atomize according to the cigarette lighting signal.

Optionally, before the atomization assembly is controlled to perform atomization according to the cigarette lighting signal, the method further includes:

when the electronic cigarette is in a standby state, acquiring movement indication information of the electronic cigarette, wherein the movement indication information comprises at least one of acceleration information of the electronic cigarette, height information of a liquid level in a liquid storage cavity of the electronic cigarette and flowing information of cigarette liquid in the liquid storage cavity of the electronic cigarette;

determining knocking information of the electronic cigarette according to the movement indication information; and if the tapping information reaches a first awakening condition, determining that the atomization awakening signal is detected.

Optionally, before the atomization assembly is controlled to perform atomization according to the cigarette lighting signal, the method further includes:

when the electronic cigarette is in a standby state, acquiring operation information generated by operating an activation key;

and when the operation information reaches a second awakening condition, determining that the atomization awakening signal is detected.

Optionally, after controlling the electronic cigarette to enter the standby state, the method further includes:

determining that the vaping wake-up signal is detected upon detecting that any predetermined component is mounted to the body of the electronic cigarette; or,

determining that a nebulizing wake-up signal is detected if it is detected that any predetermined component is mounted to the body of the electronic cigarette after it is detected that the predetermined component is detached within the electronic cigarette;

wherein the predetermined component is an atomizer or a cartridge.

Optionally, before the atomization assembly is controlled to perform atomization according to the cigarette lighting signal, the method further includes:

when the electronic cigarette is in a standby state, detecting whether a preset part in the electronic cigarette is rotated, wherein the preset part is an atomizer or a cigarette cartridge;

determining that the fogging wake-up signal is detected if it is detected that the predetermined part is rotated to a predetermined position.

In a second aspect, there is provided a computer-readable storage medium having one or more instructions stored therein, which when executed by a processor in an electronic cigarette, implement the method of controlling an electronic cigarette according to the first aspect and any one of the optional embodiments of the first aspect.

In a third aspect, there is provided a control device for an electronic cigarette, the control device comprising:

a memory and a processor;

at least one program instruction is stored in the memory;

the processor is configured to load and execute the at least one program instruction to implement the method for controlling an electronic cigarette according to the first aspect and any optional implementation manner of the first aspect.

The technical scheme provided by the embodiment of the invention has the following beneficial effects:

detecting whether the standby condition of the electronic cigarette is met; if the standby condition of the electronic cigarette is met, controlling the electronic cigarette to enter a standby state; when the electronic cigarette is in a standby state, if a cigarette lighting signal is detected, the atomization component is stopped to be controlled to atomize according to the cigarette lighting signal; the problem that in the related technology, when a child grabs an electronic cigarette and touches a cigarette key mistakenly, smoke generated by the electronic cigarette is dissolved and inhaled by the child to damage the physical and mental health of the child is solved; the effect of increasing the child protection function of the electronic cigarette is achieved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart of a method of controlling an electronic cigarette according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1, a method flowchart of a method for controlling an electronic cigarette according to an embodiment of the present invention is shown. As shown in fig. 1, the control method of the electronic cigarette may include:

step 110, detecting whether the standby condition of the electronic cigarette is met.

This step can be achieved in two ways:

first, determining whether the electronic cigarette is operated; and if the electronic cigarette is not operated for a preset time, determining that the standby condition of the electronic cigarette is met. The preset time length can be set by a developer or can be customized by a user.

The specific implementation of determining whether the electronic cigarette is operated may be: acquiring operated information of the electronic cigarette, wherein the operated information comprises cigarette lighting information and movement indication information; and determining whether the electronic cigarette is operated according to the operated information.

The electronic cigarette is characterized in that the cigarette lighting information is whether the electronic cigarette is lighted or not, namely whether an atomization component in the electronic cigarette conducts atomization or not; the mobile indication information comprises at least one of acceleration information of the electronic cigarette, height information of liquid level in a liquid storage cavity of the electronic cigarette and flowing information of tobacco juice in the liquid storage cavity of the electronic cigarette;

optionally, the specific implementation of determining whether the electronic cigarette is operated according to the cigarette lighting information may be: when the cigarette lighting signal is not detected, determining that the electronic cigarette is not operated to be smoked; or when the atomization work is not carried out according to the cigarette lighting signal, the electronic cigarette is determined not to be operated for smoking; alternatively, if the light signal and the puff signal are detected, it is determined that the electronic cigarette is operated to puff, otherwise it is determined that the electronic cigarette is not operated to puff.

The cigarette lighting signal may be a signal generated when a cigarette lighting key on the electronic cigarette is operated, and the cigarette lighting signal may also be an airflow signal detected by a sensor component in the electronic cigarette, where an air passage where the sensor component is located is connected with a mouthpiece of the electronic cigarette, and when a user sucks through the mouthpiece of the electronic cigarette, since the sensor component is disposed in the air passage connected with the mouthpiece, the sensor component may detect airflow changes in the air passage, such as air pressure changes, airflow velocity changes, and the like, and the sensor component may be a sensor for detecting airflow, such as an air pressure sensor, an airflow sensor, a pressure sensor, and the like.

Alternatively, the puff signal may be the airflow signal detected by the sensor assembly in the e-cigarette when the puff signal is not the airflow signal detected by the sensor assembly in the e-cigarette.

Optionally, the specific implementation of determining whether the electronic cigarette is operated according to the movement indication information may be: if the electronic cigarette is determined to be stationary according to the movement indication information, it is determined that the electronic cigarette is not operated.

When the user holds the electronic cigarette to rotate or move the electronic cigarette, the electronic cigarette generates acceleration, the liquid level in the liquid storage cavity shakes, and the tobacco juice in the liquid storage cavity flows. In the application, the electronic cigarette can acquire the movement indication information of the electronic cigarette; and determining whether the electronic cigarette is static or not and shaking according to the movement indication information.

Wherein, according to the movement indication information, determining whether the electronic cigarette is static can be realized by any one of the following modes: 1. determining that the electronic cigarette is not operated if the acceleration of the electronic cigarette is below or equal to a predetermined threshold; 2. if the liquid level height change value in the liquid storage cavity is lower than or equal to a preset threshold value, determining that the electronic cigarette is not operated; 3. if the tobacco smoke flow rate in the liquid storage cavity is lower than or equal to a preset threshold value, the electronic cigarette is determined not to be operated. Wherein, the predetermined threshold is typically set by a developer,

liquid level's detection accessible sets up liquid level detector in the stock solution intracavity in this application detects, and gyroscope or other acceleration detection spare detect in the acceleration detection accessible electron cigarette of electron cigarette, and stock solution intracavity tobacco juice flow rate can detect through stock solution intracavity velocity of flow detection device, and this application does not do specifically to injecing the detection mode of height detection mode, acceleration detection mode, tobacco juice flow information.

Secondly, detecting whether a standby instruction is received or not; and if the standby instruction is received, determining that the standby condition of the electronic cigarette is met. The standby instruction can be generated when a child lock key on the electronic cigarette is operated, the standby instruction can also be generated when the electronic cigarette is knocked, the standby instruction can also be other standby instructions, and the implementation is not repeated.

Optionally, the specific implementation of detecting whether the standby instruction is received may be: acquiring knocking information of the electronic cigarette; and determining whether a standby instruction is received according to the tapping information. Optionally, a 3D sensor may be disposed in the electronic cigarette, and data detected by the 3D sensor may be used to determine whether the electronic cigarette is knocked to obtain knocking information; and when the tapping information of the electronic cigarette indicates that the electronic cigarette is tapped continuously for a second preset number of times, determining that a tapping instruction is received, wherein the second preset number of times can be set by a developer or can be customized by a user.

And step 120, if the standby condition of the electronic cigarette is met, controlling the electronic cigarette to enter a standby state.

And step 130, if the electronic cigarette is in a standby state and a cigarette lighting signal is detected, the electronic cigarette stops controlling the atomization assembly to atomize according to the cigarette lighting signal.

The electronic cigarette is controlled to enter the standby state, and the electronic cigarette in the standby state stops controlling the atomization assembly to atomize according to the cigarette lighting signal so as to temporarily close the cigarette lighting function of the electronic cigarette.

For example, after an electronic cigarette is smoked by an electronic cigarette user, when the electronic cigarette is kept standing for 1 minute and reaches a preset time, the electronic cigarette is controlled to enter a standby state, and the electronic cigarette stops atomizing according to a cigarette lighting signal; at this moment, if children snatch the electron cigarette mistake and touch some cigarette keys, because the electron cigarette no longer carries out atomizing work according to some cigarette signals, avoid the smog of atomizing out to be inhaled by children's mistake.

In summary, the method provided in the embodiment of the present invention detects whether the standby condition of the electronic cigarette is satisfied; if the standby condition of the electronic cigarette is met, controlling the electronic cigarette to enter a standby state; when the electronic cigarette is in a standby state, if a cigarette lighting signal is detected, the electronic cigarette stops controlling the atomization assembly to atomize according to the cigarette lighting signal; the problem that in the related technology, when a child grabs an electronic cigarette and touches a cigarette key mistakenly, smoke generated by the electronic cigarette is dissolved and inhaled by the child to damage the physical and mental health of the child is solved; the effect of increasing the child protection function of the electronic cigarette is achieved.

After the electron cigarette got into standby state, electron cigarette user accessible operation electron cigarette produced the atomizing wake-up signal in order to start the atomizing function of electron cigarette, and concrete realization can be: when the electronic cigarette is in a standby state, if an atomization wake-up signal is detected, controlling the electronic cigarette to enter a working state; if the electronic cigarette is in a working state and a cigarette lighting signal is detected, the atomization assembly is controlled to atomize according to the cigarette lighting signal.

In one example, the e-cigarette user may reinstall the e-cigarette by removing predetermined components from the e-cigarette to trigger the e-cigarette to enter an operational state. The specific implementation can be as follows: and determining that the atomization wake-up signal is detected if any one of the predetermined components is detected to be mounted to the body of the electronic cigarette after the predetermined component in the electronic cigarette is detected to be detached, wherein the predetermined component is an atomizer or a cartridge.

In one example, a probe or a button switch is provided on the mounting base, and the predetermined component abuts against the probe or presses the button switch when the predetermined component is mounted to the mounting base; the electronic cigarette determines that the predetermined component is mounted to the body of the electronic cigarette when detecting an operation signal generated by the probe being held or the push switch being pressed.

In another example, a heating element is arranged in the predetermined component, and the heating element is connected to a load connecting circuit in the electronic cigarette body when the predetermined component is installed on the installation base; the electronic cigarette determines that the predetermined component is mounted to the body of the electronic cigarette upon detecting that the load access circuit has a load access.

In another example, a magnetic member is provided in the predetermined component, a hall switch is provided on the mounting base, and the hall switch detects the magnetic member when the predetermined component is mounted on the mounting base; the electronic cigarette detects whether a predetermined component is mounted to the mounting base through the hall switch. In practical implementation, the magnetic member may be a magnetic ring or a circular magnetic sheet disposed at the bottom or bottom of the cartridge.

Optionally, the electronic cigarette body is provided with an accommodating cavity for the predetermined component, and the accommodating cavity is internally provided with an installation base for the predetermined component; the user of the electronic cigarette can install the predetermined component on the electronic cigarette body by inserting the predetermined component into the accommodating cavity; the electronic cigarette can also be separated from the electronic cigarette body by pulling the predetermined component out of the accommodating cavity. In this embodiment, the user of the electronic cigarette can pull out the predetermined component from the accommodating cavity and then insert the predetermined component into the accommodating cavity, so as to trigger the electronic cigarette to enter the working state.

In another embodiment, a user of the electronic cigarette may trigger the electronic cigarette to enter a standby state by pulling the predetermined component out of the receiving cavity; and then the preset component is inserted into the accommodating cavity to trigger the electronic cigarette to enter a working state. The specific implementation can be as follows: when the separation of the preset component and the body of the electronic cigarette is detected, determining that a standby instruction is received, and controlling the electronic cigarette to enter a standby state according to the standby instruction; when the fact that the preset part is installed on the body of the electronic cigarette is detected, the fact that the atomization awakening signal is detected is determined, and the electronic cigarette is controlled to enter the working state according to the atomization awakening signal.

In another example, the electronic cigarette is controlled to enter a standby state when a standby condition is met, and a predetermined component in the electronic cigarette is controlled to be separated from a body of the electronic cigarette, wherein the predetermined component is an atomizer or a cartridge. In this way, the user of the electronic cigarette can mount the predetermined component to the body of the electronic cigarette again, for example, insert the predetermined component into the mounting base of the corresponding accommodating cavity; when the electronic cigarette detects that the predetermined component is mounted to the body of the electronic cigarette, controlling the electronic cigarette to enter a working state; and if the cigarette lighting signal is detected, controlling the atomization assembly to carry out atomization.

Taking the cigarette cartridge as an example, an accommodating cavity for the cigarette cartridge is formed in the electronic cigarette body, and an installation base for the cigarette cartridge is arranged in the accommodating cavity; the mounting base can be provided with a pushing piece, and when the electronic cigarette meets the standby condition, the pushing piece is driven to push the cigarette cartridge, so that the cigarette cartridge is separated from the mounting base.

In another example, when the electronic cigarette meets a standby condition, the electronic cigarette is controlled to enter a standby state, and a predetermined component in the electronic cigarette is controlled to rotate around a central axis of the predetermined component, so that a first component in the predetermined component is separated or away from a second component on the electronic cigarette body; the electronic cigarette comprises a first component, a second component and a preset component, wherein the preset component is an atomizer or a cartridge, and the electronic cigarette does not have atomization capability when the first component is separated from or far away from the second component. In this mode, the user of the electronic cigarette can operate the preset component to rotate around the central axis of the preset component to reset, and when the electronic cigarette detects that the preset component is reset, the electronic cigarette determines that the atomization wake-up signal is detected.

In yet another example, the user of the e-cigarette may reset the predetermined component by turning to trigger the e-cigarette to enter the operational state. The specific implementation can be as follows: after the electronic cigarette detects that the first component is separated from or away from the second component on the electronic cigarette body, if the predetermined component is detected to rotate to a predetermined position (namely, reset), the electronic cigarette determines that the atomization wake-up signal is detected, and the electronic cigarette has atomization capability when the predetermined component rotates to the predetermined position.

Optionally, the user of the electronic cigarette may trigger the electronic cigarette to enter the operating state by rotating the predetermined component. The specific implementation can be as follows: when the electronic cigarette is in a standby state, detecting whether a preset component in the electronic cigarette is rotated, wherein the preset component is an atomizer or a cartridge; and if the preset component is detected to be rotated to the preset position, determining that the atomization wake-up signal is detected. Optionally, the electronic cigarette determines that a standby instruction is received when the electronic cigarette detects that the first component is separated from or away from the second component on the electronic cigarette body, and enters a standby state, so that a user can trigger the electronic cigarette to enter the standby state by rotating the predetermined component.

Optionally, the first component and the second component in the electronic cigarette may be arranged in the following ways:

the first component is an electrode on the cigarette cartridge, and the second component is an electrode on the electronic cigarette body; when the first component is connected with the second component, the battery component in the electronic cigarette body can supply power to the atomization component (for example, the heating component) in the predetermined component through the first component and the second component so as to carry out atomization. When the electronic cigarette meets the standby condition, the preset component can be controlled to rotate around the central axis of the preset component, so that the electrode on the preset component is separated from the electrode on the electronic cigarette body, and the electronic cigarette stops atomizing according to the cigarette lighting signal when detecting the cigarette lighting signal.

Secondly, the first component is a liquid storage cavity in the preset part, a heating element and a liquid guiding element are arranged on the electronic cigarette body, and the liquid guiding element is a second component; the two ends of the liquid guiding piece can extend into the liquid storage cavity, when the two ends of the liquid guiding piece extend into the liquid storage cavity, the liquid guiding piece can absorb smoke liquid in the liquid storage cavity, and the electronic cigarette can atomize the smoke liquid on the liquid guiding piece when the heating piece is controlled to generate heat according to the cigarette lighting signal; when the electronic cigarette meets the standby condition, the electronic cigarette can control the preset component to rotate around the central axis of the preset component, so that the liquid guide piece is separated from the liquid storage cavity, and the liquid guide piece stops continuously absorbing the cigarette liquid, so that the electronic cigarette stops atomizing according to the cigarette lighting signal when detecting the cigarette lighting signal.

Thirdly, the first component is a liquid absorbing component in the preset component, the liquid absorbing component is used for absorbing smoke liquid in the liquid storage cavity of the preset component, and the second component is a heating component; when the liquid suction piece and the heating piece are close to each other, the liquid suction piece sucks the smoke liquid in the liquid storage cavity, and the heating piece generates heat to atomize the smoke liquid on the liquid suction piece; when satisfying standby condition, the steerable reservation part rotates around the axis of reservation part, makes imbibition piece keep away from the heating member to smoke liquid on the atomization imbibition piece when avoiding the heating member to generate heat realizes that the electron cigarette stops carrying out atomizing work according to some cigarette signals when detecting some cigarette signals.

Optionally, the predetermined component may be provided with a magnetic member, and the mounting base may be provided with a hall switch; the user of the electronic cigarette can enable the magnetic piece to be close to or far away from the Hall switch by rotating the preset component, the Hall switch can detect the magnetic piece when the preset component is rotated to be reset, and the Hall switch cannot detect the magnetic piece when the preset component is separated from the reset position; the electronic cigarette detects whether the preset component is rotated to reset or not through the Hall switch; in practical implementation, it may also be determined whether the predetermined component is rotated to the reset state in other manners, which is not described in detail in this embodiment.

It should be noted that: in the application, a preset component in the electronic cigarette is controlled to rotate around a central axis of the preset component, so that a first component in the preset component is separated or far away from a second component on the electronic cigarette body; in practical implementation, the first component and the second component may be separated or separated by other methods, for example, the first component is driven to move to change the position, and then the second component is driven to move to change the position.

When the electronic cigarette is in a standby state, a user of the electronic cigarette can start the atomization function of the electronic cigarette in any one of the following awakening modes:

the first kind, the electron cigarette user strikes the atomizing function that the electron cigarette started the electron cigarette, specifically realizes can be: the method comprises the steps that when the electronic cigarette is in a standby state, movement indication information of the electronic cigarette is obtained, wherein the movement indication information comprises at least one of acceleration information of the electronic cigarette, height information of liquid level in a liquid storage cavity of the electronic cigarette and flowing information of cigarette liquid in the liquid storage cavity of the electronic cigarette; determining the knocking information of the electronic cigarette according to the movement indication information; and if the tapping information reaches the first wake-up condition, determining that the atomization wake-up signal is detected.

The first awakening condition can be set by a developer and can also be customized by a user; for example, the first wake-up condition may be that the number of times the electronic cigarette is knocked reaches a first predetermined number of times, and the first predetermined number of times may be set by a developer or may be customized by a user.

In practical implementation, a 3D sensor may be disposed in the electronic cigarette, and data detected by the 3D sensor can be used to determine whether the electronic cigarette is in a static state or is knocked. For example, when the electronic cigarette is knocked, the electronic cigarette shakes, whether the electronic cigarette shakes can be determined according to the information detected by the 3D sensor, and if the shaking happens, the electronic cigarette is determined to be knocked.

The second kind, the atomizing function that the activation button starts the electron cigarette on the electron cigarette user operation electron cigarette specifically realizes can be: the method comprises the steps that when the electronic cigarette is in a standby state, operation information generated by operating an activation key is obtained; and when the operation information reaches a second awakening condition, determining that the atomization awakening signal is detected.

The second wake-up condition may be set by a system developer or may be customized by a user, for example, the second wake-up condition may be that the wake-up button is continuously pressed for multiple times, the second wake-up condition may be that the wake-up button is pressed for a long time to reach a preset first duration, and the second wake-up condition is not specifically limited in this embodiment.

The third kind, the fingerprint is input at the fingerprint input device department of electron cigarette to the electron cigarette user to start the atomizing function of electron cigarette, specifically realize can be: acquiring a fingerprint acquired by a fingerprint input device when the electronic cigarette is in a standby state; compare the fingerprint of gathering with predetermineeing the fingerprint, when the fingerprint of gathering matches with predetermineeing the fingerprint, confirm to receive the atomizing wake-up signal, carry out atomizing work according to some cigarette signal control atomization component.

And fourthly, a face recognition device is arranged on the electronic cigarette, and a user of the electronic cigarette performs face recognition on the electronic cigarette so as to start the atomization function of the electronic cigarette.

In one example, the specific implementation may be: when the electronic cigarette is in a standby state, a face image is collected by using a face recognition device; when the face image is matched with the preset face image, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to atomize according to the cigarette lighting signal.

In another example, a face image is collected by a face recognition device when the electronic cigarette is in a standby state; determining whether the face image is a child user or not according to the facial features in the face image; if the child user is determined not to be the child user, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal.

In yet another example, a face image is collected by a face recognition device while the electronic cigarette is in a standby state; identifying facial features in the face image to determine the age of the user; if the age of the user is higher than or equal to the preset age, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal. The preset age can be set by a developer or can be customized by a user, for example, the preset age can be 18 years old.

Fifth, the user of electron cigarette presses pressure button or pressure sensor to start the atomizing function of electron cigarette, specifically realize can be: the method comprises the steps that when the electronic cigarette is in a standby state, a pressure value detected by a pressure key or a pressure sensor is obtained; when the detected pressure value reaches the preset pressure value, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal. The preset pressure value can be set by a developer and can also be customized by a user, for example, the developer can set the preset pressure value to be a value higher than the maximum output force of the child.

Sixth kind, the electron cigarette user says to the electron cigarette and is used for instructing the preset voice command of awakening the electron cigarette to start the atomizing function of electron cigarette, specifically realize can be for: starting a voice collecting device when the electronic cigarette is in a standby state; acquiring voice information acquired by a voice acquisition device; if the voice information contains a preset voice instruction, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to atomize according to the cigarette lighting signal. The preset voice instruction may be set by a developer, or may be customized by a user, for example, the developer may set the voice instruction to be any one of power on, atomization, and startup, which is not specifically limited in this embodiment.

Seventh kind, when the user of electron cigarette carried the terminal equipment who binds with the electron cigarette and is close the electron cigarette, start the atomizing function of electron cigarette, specifically realize can be: when the electronic cigarette is in a standby state, the electronic cigarette searches for terminal equipment in a preset range (a communication range supported by the wireless communication technology) by utilizing the wireless communication technology; if the terminal device bound with the electronic cigarette or the terminal device bound with the electronic cigarette is detected to establish wireless connection, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to atomize according to the cigarette lighting signal. Or the terminal equipment bound with the electronic cigarette sends an atomization awakening signal to the electronic cigarette through a wireless communication technology or a wired communication technology, and when the electronic cigarette receives the atomization awakening signal, the atomization assembly is controlled to atomize according to the cigarette lighting signal.

The wireless Communication technology may include any one of bluetooth, NFC (Near Field Communication), infrared, and other wireless technologies. The wired communication can be realized after the USB data line connection.

And eighth, an iris recognition device is arranged on the electronic cigarette, and the electronic cigarette user performs iris recognition on the electronic cigarette to start the atomization function of the electronic cigarette. The specific implementation can be as follows: when the electronic cigarette is in a standby state, acquiring an iris image by using an iris recognition device; when the iris image is matched with the preset iris image, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal.

Ninth, the atomizing function that electron cigarette user accessible input start password starts the electron cigarette specifically realizes can be: acquiring a password input by a user; if the password input by the user is consistent with the preset starting password, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to atomize according to the cigarette lighting signal.

Tenth kind, the atomizing function of electron cigarette user accessible input unblock gesture start-up electron cigarette specifically realizes can be: acquiring an unlocking gesture input by a user; and if the unlocking gesture input by the user is consistent with the preset unlocking gesture, determining that the atomization awakening signal is received, and controlling the atomization assembly to atomize according to the cigarette lighting signal.

Eleventh, the user of the electronic cigarette can start the atomization function of the electronic cigarette by shaking, and the specific implementation may be: acquiring shaking indication information of the electronic cigarette, wherein the shaking indication information comprises at least one of acceleration information of the electronic cigarette, height information of liquid level in a liquid storage cavity of the electronic cigarette and flowing information of tobacco juice in the liquid storage cavity of the electronic cigarette; determining the shaking frequency of the electronic cigarette according to the shaking indication information; if the dithering frequency of the electronic cigarette reaches the preset frequency threshold, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal.

Twelfth, the electronic cigarette user can use an external device (e.g., USB) to start the atomization function of the electronic cigarette, and the specific implementation may be: if the electronic cigarette is not operated for a preset time, the electronic cigarette is detected to be connected with external equipment, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal.

The thirteenth type, the user of the electronic cigarette can smoke with strength to start the atomization function of the electronic cigarette, and the specific implementation can be as follows: an independent air passage is arranged in the electronic cigarette, and the independent air passage is communicated with a cigarette holder of the electronic cigarette but is isolated from an atomization cavity in the electronic cigarette; be provided with air pressure detection device in this independent air flue, when the atmospheric pressure value that this air pressure detection device detected reached to predetermine the atmospheric pressure threshold value, then confirm to receive the atomizing awakening signal, carry out atomizing work according to some cigarette signal control atomizing subassembly.

Wherein, the preset air pressure threshold value can be set by developers and can also be self-defined by users, and the preset air pressure threshold value can be an air pressure value which is difficult to reach in the independent air passage when the children suck.

Fourteenth, the electron cigarette can regularly restart the atomizing function of electron cigarette after closing the atomizing function of electron cigarette, and concrete realization can be: the electronic cigarette is not operated to reach the preset time length and starts timing, when the timing time length reaches the preset restart time length, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal.

Optionally, if the electronic cigarette is not detected to be operated within the preset second time period when the electronic cigarette starts the atomization function, the electronic cigarette is controlled to stop controlling the atomization assembly to perform atomization according to the cigarette lighting signal, and when the atomization function is closed and the preset restart time period is reached, the atomization wake-up signal is determined to be received, and the atomization assembly is controlled to perform atomization according to the cigarette lighting signal.

Fifteenth, the electronic cigarette identifies user body type information, the body type information includes at least one of height, weight, and the like; determining whether the user is a child user according to the body type information; if the user is not a child user, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal.

Sixthly, the electronic cigarette user detaches the preset component from the electronic cigarette and reinstalls the preset component so as to start the atomization function of the electronic cigarette; the specific implementation can be as follows: when the electronic cigarette is detected to be switched from the state without the preset component to the state with the preset component, the atomization awakening signal is determined to be received, and the atomization assembly is controlled to conduct atomization according to the cigarette lighting signal.

The detection of the electronic cigarette is realized by switching from a state where the predetermined component is not installed to a state where the predetermined component is installed, and reference may be made to the realization that the predetermined component is installed to the electronic cigarette body in the above description, which is not described in detail herein.

Optionally, when the atomization wake-up signal is detected, the atomization wake-up prompt message is displayed, and the prompt message can be prompted in any one of a text prompt mode, a voice prompt mode, a prompt tone prompt mode, an indicator light prompt mode and the like.

Optionally, if the electronic cigarette meets the standby condition, controlling the electronic cigarette to enter a standby state, and controlling a lock installed on the electronic cigarette to lock; afterwards, the user's accessible key is unblanked and is started the atomizing function of electron cigarette, and is corresponding, if detect some cigarette signal when the electron cigarette detects this lock and is opened, then control atomizing subassembly and carry out atomizing work.

During actual implementation, electron cigarette user's accessible key locking electron cigarette is last to trigger the electron cigarette and get into standby state, specifically realize can be for: the electronic cigarette determines to receive a standby instruction when detecting that the lock is closed, and enters a standby state according to the standby instruction.

Optionally, if the electronic cigarette meets the standby condition, controlling the electronic cigarette to enter a standby state, and controlling the knob to rotate from the initial position by a predetermined angle in the first direction; the user can rotate the preset angle according to the second direction by operating the knob so as to start the atomization function of the electronic cigarette; correspondingly, when the electronic cigarette detects that the knob is rotated to the initial position, the electronic cigarette determines that the atomization wake-up signal is detected.

When the first direction is clockwise, the second direction is anticlockwise; when the first direction is anticlockwise, the second direction is clockwise; the predetermined angle is usually set by a developer, and indication information, such as an arrow or the like, for indicating that the operation knob is rotated in the second direction is displayed on the electronic cigarette at the knob.

During actual implementation, electron cigarette user's accessible operation knob rotates predetermined angle to presetting the position according to the first direction from initial position to trigger the electron cigarette and get into standby state, specifically realize can be for: the electronic cigarette determines to receive a standby instruction when detecting that the knob is rotated to the preset position, and enters a standby state according to the standby instruction.

Optionally, when the electronic cigarette is in the working state, the user of the electronic cigarette may further trigger the electronic cigarette to enter the standby state through any one of the following standby operation modes:

the first kind, the electron cigarette user operation electron cigarette goes up the child lock button and triggers the electron cigarette and get into standby state, and the concrete realization can be: when the electronic cigarette is in a working state, if operation information generated by the operation of the child lock key is detected; and when the operation information reaches a standby condition, determining that the atomization wake-up signal is detected.

The standby condition may be set by a system developer or may be customized by a user, for example, the standby condition may be that the child lock button is continuously pressed for multiple times, the standby condition may be that the child lock button is pressed for a long time to reach a preset third duration, and the standby condition is not specifically limited in this embodiment.

The second kind, the electron cigarette user inputs the fingerprint in the fingerprint input device department of electron cigarette, triggers the electron cigarette and gets into operating condition, specifically realizes can for: acquiring a fingerprint acquired by a fingerprint input device when the electronic cigarette is in a standby state; and comparing the acquired fingerprint with a preset fingerprint, and determining that a standby instruction is received when the acquired fingerprint is matched with the preset fingerprint.

Thirdly, a face recognition device is arranged on the electronic cigarette and is used for collecting a face image; determining whether the face image is a child user or not according to the facial features in the face image; and if the user is determined to be a child user, determining that a standby instruction is received.

Fourthly, when the electronic cigarette is in a standby state, a face image is collected by using a face recognition device; identifying facial features in the face image to determine the age of the user; and if the user age is lower than the preset age, determining that the standby instruction is received. The preset age can be set by a developer or can be customized by a user, for example, the preset age can be 18 years old.

Fifthly, the user of the electronic cigarette presses a pressure key or a pressure sensor to trigger the electronic cigarette to enter a standby state, and the specific implementation can be as follows: the method comprises the steps that when the electronic cigarette is in a standby state, a pressure value detected by a pressure key or a pressure sensor is obtained; and when the detected pressure value reaches a preset pressure value, determining that a standby instruction is received. The preset pressure value can be set by a developer or can be customized by a user.

Sixth kind, the electron cigarette user says the preset voice command who is used for instructing the electron cigarette standby to the electron cigarette to trigger the electron cigarette and get into standby state, specifically realize can be: starting a voice collecting device when the electronic cigarette is in a standby state; acquiring voice information acquired by a voice acquisition device; and if the voice information contains a preset voice instruction, determining that a standby instruction is received. The preset voice command may be set by a developer, or may be customized by a user, for example, the developer may set the voice command as any one of standby, sleep, and off, which is not specifically limited in this embodiment.

And seventhly, when the electronic cigarette and the bound terminal equipment exceed the preset distance, the electronic cigarette determines to receive the standby instruction. The preset distance may be set by a system developer or may be customized by a user, which is not specifically limited in this embodiment.

And eighthly, an iris recognition device is arranged on the electronic cigarette, and the electronic cigarette user performs iris recognition on the electronic cigarette to trigger the electronic cigarette to enter a standby state. The specific implementation can be as follows: when the electronic cigarette is in a standby state, acquiring an iris image by using an iris recognition device; and when the iris image is matched with the preset iris image, determining that a standby instruction is received.

Ninth, the electron cigarette user accessible input closes the password and triggers the electron cigarette and get into standby state, and the concrete realization can be: acquiring a password input by a user; and if the password input by the user is consistent with the preset closed password, determining that the standby instruction is received.

Tenth kind, the electron cigarette user accessible input standby gesture triggers the electron cigarette and gets into standby state, and concrete realization can be: acquiring a standby gesture input by a user; and if the standby gesture input by the user is consistent with the preset standby gesture, determining that a standby instruction is received.

Eleventh, the electronic cigarette user may shake to trigger the electronic cigarette to enter a standby state, and the specific implementation may be: acquiring shaking indication information of the electronic cigarette, wherein the shaking indication information comprises at least one of acceleration information of the electronic cigarette, height information of liquid level in a liquid storage cavity of the electronic cigarette and flowing information of tobacco juice in the liquid storage cavity of the electronic cigarette; determining the shaking frequency of the electronic cigarette according to the shaking indication information; and if the dithering frequency of the electronic cigarette reaches a preset frequency threshold value, determining that a standby instruction is received.

Twelfth, the electronic cigarette user can trigger the electronic cigarette to enter a standby state by using an external device, and the specific implementation can be as follows: and if the electronic cigarette is detected to be connected with the external equipment, determining that a standby instruction is received. Or when the electronic cigarette is connected with the external device in a wired or wireless manner, the user sends a standby instruction for entering a standby state to the electronic cigarette through the external device, and the electronic cigarette enters the standby state after receiving the standby instruction.

The thirteenth way, the user of the electronic cigarette can use the force to smoke to trigger the electronic cigarette to enter the standby state, and the specific implementation can be as follows: an independent air passage is arranged in the electronic cigarette, and the independent air passage is communicated with a cigarette holder of the electronic cigarette but is isolated from an atomization cavity in the electronic cigarette; an air pressure detection device is arranged in the independent air passage, and when the air pressure value detected by the air pressure detection device reaches a preset air pressure threshold value, a standby instruction is determined to be received.

The preset air pressure threshold value can be set by a developer or can be customized by a user.

Sixthly, the electronic cigarette identifies the body type information of the user, wherein the body type information comprises at least one of height, weight and the like; determining whether the user is a child user according to the body type information; and if the user is a child user, determining that the standby instruction is received.

Fifteenth, the electronic cigarette user detaches the predetermined component from the electronic cigarette to trigger the electronic cigarette to enter a standby state; the specific implementation can be as follows: when the electronic cigarette is detected to be switched from a state of installing the predetermined component to a state of not installing the predetermined component, the standby instruction is determined to be received.

It should be noted that: in practical implementation, the electronic cigarette can support at least one awakening mode related to the application and also can support at least one standby operation mode related to the application, and the awakening mode and the standby operation mode of the same electronic cigarette can be the same or different.

An embodiment of the present invention further provides a computer-readable storage medium, in which one or more instructions are stored, and when executed by a processor in an electronic cigarette, the one or more instructions implement the method for controlling an electronic cigarette in any of the above embodiments.

An embodiment of the present invention further provides a control device for an electronic cigarette, where the control device includes: a memory and a processor; at least one program instruction is stored in the memory; the processor is configured to load and execute the at least one program instruction to implement the control method of the electronic cigarette according to any one of the embodiments.

The terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying a number of the indicated technical features. Thus, a defined feature of "first", "second", may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (12)

1. A method of controlling an electronic cigarette, the method comprising:

detecting whether a standby condition of the electronic cigarette is met;

if the standby condition of the electronic cigarette is met, controlling the electronic cigarette to enter a standby state;

if the electronic cigarette detects a cigarette lighting signal when the electronic cigarette is in a standby state, the atomization component is stopped to atomize according to the cigarette lighting signal.

2. The method of claim 1, wherein the detecting whether a standby condition of the electronic cigarette is satisfied comprises:

determining whether the electronic cigarette is operated;

determining that a standby condition of the electronic cigarette is satisfied if the electronic cigarette is not operated for a predetermined length of time.

3. The method of claim 2, wherein the determining whether the electronic cigarette is operated comprises:

acquiring operated information of the electronic cigarette, wherein the operated information comprises cigarette lighting information and movement indication information, and the movement indication information comprises at least one of acceleration information of the electronic cigarette, liquid level height information in a liquid storage cavity of the electronic cigarette and flow information of cigarette liquid in the liquid storage cavity of the electronic cigarette;

determining whether the electronic cigarette is operated according to the operated information.

4. The method of claim 1, wherein the detecting whether a standby condition of the electronic cigarette is satisfied comprises:

detecting whether a standby instruction is received;

and if a standby instruction is received, determining that the standby condition of the electronic cigarette is met.

5. The method of claim 4, wherein the detecting whether the standby instruction is received comprises:

acquiring knocking information of the electronic cigarette;

and determining whether a standby instruction is received according to the tapping information.

6. The method of claim 1, further comprising:

when the electronic cigarette is in a standby state, if an atomization wake-up signal is detected, controlling the electronic cigarette to enter a working state;

if the electronic cigarette is in a working state and a cigarette lighting signal is detected, the atomization assembly is controlled to atomize according to the cigarette lighting signal.

7. The method of claim 6, wherein prior to controlling the atomizing assembly to operate in atomization based on the smoke ignition signal, the method further comprises:

when the electronic cigarette is in a standby state, acquiring movement indication information of the electronic cigarette, wherein the movement indication information comprises at least one of acceleration information of the electronic cigarette, height information of a liquid level in a liquid storage cavity of the electronic cigarette and flowing information of cigarette liquid in the liquid storage cavity of the electronic cigarette;

determining knocking information of the electronic cigarette according to the movement indication information; and if the tapping information reaches a first awakening condition, determining that the atomization awakening signal is detected.

8. The method of claim 6, wherein prior to controlling the atomizing assembly to operate in atomization based on the smoke ignition signal, the method further comprises:

when the electronic cigarette is in a standby state, acquiring operation information generated by operating an activation key;

and when the operation information reaches a second awakening condition, determining that the atomization awakening signal is detected.

9. The method of claim 6, wherein after controlling the electronic cigarette to enter a standby state, the method further comprises:

determining that the vaping wake-up signal is detected upon detecting that any predetermined component is mounted to the body of the electronic cigarette; or,

determining that the atomization wake-up signal is detected if it is detected that any predetermined component is mounted to the body of the electronic cigarette after it is detected that the predetermined component is detached within the electronic cigarette;

wherein the predetermined component is an atomizer or a cartridge.

10. The method of claim 6, wherein prior to controlling the atomizing assembly to operate in atomization based on the smoke ignition signal, the method further comprises:

when the electronic cigarette is in a standby state, detecting whether a preset part in the electronic cigarette is rotated, wherein the preset part is an atomizer or a cigarette cartridge;

determining that the fogging wake-up signal is detected if it is detected that the predetermined part is rotated to a predetermined position.

11. A computer readable storage medium having one or more instructions stored therein, wherein the one or more instructions, when executed by a processor within an electronic cigarette, implement the method of controlling an electronic cigarette of any of claims 1-10.

12. A control device of an electronic cigarette, the control device comprising:

a memory and a processor;

at least one program instruction is stored in the memory;

the processor, by loading and executing the at least one program instruction, implements the control method of the electronic cigarette of any one of claims 1 to 10.