CN111743209A - Control method and device of electronic cigarette - Google Patents

Abstract

The invention discloses a control method and device of an electronic cigarette, and belongs to the technical field of simulated smoking. This internal detection piece that is provided with of electron cigarette, electron cigarette body and atomizer detachable connection, the method includes: acquiring a detection result of the detection piece for detecting whether the detected piece is arranged in the atomizer or not; if the detection result is a first result, controlling a battery assembly to provide battery voltage for the atomizer when a cigarette ignition signal is detected; if the detection result is a second result, controlling the atomizer to atomize according to target working parameters when the cigarette lighting signal is detected, wherein the target working parameters comprise any one of target voltage, target power and target temperature; the problem that in the related art, a user of the electronic cigarette is difficult to know the current output mode of the electronic cigarette, and the output mode is not matched with an atomizer easily is solved; the effect that the output mode of the electronic cigarette is automatically adjusted to be matched with the atomizer is achieved.

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.

The electronic cigarette can provide a plurality of output modes, which can comprise that the battery voltage is directly output to the atomizer, the constant voltage is output to the atomizer, the constant power is output to the atomizer and the like; different types of atomizers are suitable for different output modes to ensure smoking mouthfeel, so that an electronic cigarette user needs to adjust the output mode of the electronic cigarette to a mode matched with the atomizers in the electronic cigarette.

For some electronic cigarettes without a display screen, the current output mode of the electronic cigarette is not prompted, and the output mode of the electronic cigarette can be switched by a user of the electronic cigarette through a press switch; however, since it is difficult for the user of the electronic cigarette to know the current output mode of the electronic cigarette, an error in adjusting the output mode is very likely to occur.

Disclosure of Invention

In order to solve at least one technical problem in the prior art, embodiments of the present invention provide a method and an apparatus for controlling an electronic cigarette. The technical scheme of the invention is as follows:

in a first aspect, a control method of an electronic cigarette is provided, in which a detection part is disposed in an electronic cigarette body, and the electronic cigarette body is detachably connected to an atomizer, and the method includes:

acquiring a detection result of the detection piece for detecting whether the detected piece is arranged in the atomizer or not;

if the detection result is a first result, controlling a battery assembly to provide battery voltage for the atomizer when a cigarette ignition signal is detected;

if the detection result is a second result, controlling the atomizer to atomize according to target working parameters when the cigarette lighting signal is detected, wherein the target working parameters comprise any one of target voltage, target power and target temperature;

the first result is that a detected piece is arranged in the atomizer, and the second result is that the detected piece is not arranged in the atomizer; or the first result is that the detected piece is not arranged in the atomizer, and the second result is that the detected piece is arranged in the atomizer.

Optionally, the detected piece is a magnetic ring sleeved at the bottom end of the atomizer, and the bottom of the atomizer is detachably connected with the electronic cigarette body; the detection piece is a magnetic detection piece, and the detection piece is arranged at the installation position of the atomizer on the electronic cigarette body.

Optionally, before controlling the atomizer to perform the atomization according to the target operating parameter, the method further includes:

if the detection result is a second result, acquiring the resistance value of the atomizer;

and acquiring a recommended parameter value stored corresponding to the resistance value of the atomizer as a target working parameter of the atomizer.

Optionally, before controlling the atomizer to perform the atomization according to the target operating parameter, the method further includes:

if the detection result is a second result, acquiring the resistance value of the atomizer;

determining the adjustable range of the output gear of the atomizer according to the resistance value of the atomizer;

and acquiring a recommended parameter value stored corresponding to the current output gear as the target working parameter.

Optionally, an indicator light assembly is disposed on the electronic cigarette, and after the adjustable range of the output gear of the atomizer is determined according to the resistance value of the atomizer, the method further includes:

acquiring the current output gear of the atomizer;

and illuminating the indicator lamps in the indicator lamp assembly according to an illumination rule corresponding to the current output gear, wherein the illumination rule is used for indicating the illumination number of the indicator lamps in the indicator lamp assembly and/or the colors of the illuminated indicator lamps in the indicator lamp assembly.

Optionally, before controlling the atomizer to perform the atomization according to the target operating parameter, the method further includes:

if the detection result is a second result, acquiring the resistance value of the atomizer;

determining the adjustable range of the working parameters of the atomizer according to the resistance value of the atomizer;

and determining the target working parameter according to the adjustable range of the working parameter.

Optionally, an indicator light assembly is disposed on the electronic cigarette, and the method further includes:

acquiring the residual electric quantity of a battery pack in the electronic cigarette;

acquiring a lighting rule corresponding to the residual electric quantity, wherein the lighting rule is used for indicating the lighting quantity of indicator lamps in the indicator lamp assembly and/or the colors of the lighted indicator lamps in the indicator lamp assembly;

and illuminating an indicator lamp in the indicator lamp assembly according to the illumination rule.

Optionally, before the obtaining of the detection result that the detecting member detects whether the detected member is arranged in the atomizer, the method further includes:

when the atomizer in the electronic cigarette is detected to be replaced, starting the detection piece; or starting the detection piece after the electronic cigarette is started;

utilizing the detection piece to detect whether a detected piece is arranged in the atomizer or not, and executing the step of acquiring the detection result whether the detection piece detects the detected piece is arranged in the atomizer or not.

Optionally, the target operating parameter further includes at least one of a single cigarette lighting time upper limit, an accumulated smoking time upper limit, and an accumulated smoking number upper limit, and the controlling the atomizer to perform atomization according to the target operating parameter when the cigarette lighting signal is detected includes:

when the atomization work according to the single cigarette lighting signal reaches the upper limit of the single cigarette lighting time, the atomization work according to the cigarette lighting signal is stopped; and/or the presence of a gas in the gas,

acquiring the accumulated pumping time length in the current statistical period; if the accumulated smoking time in the current statistical period reaches the upper limit of the accumulated smoking time, the atomization work is stopped according to the cigarette lighting signal; and/or the presence of a gas in the gas,

acquiring the accumulated number of suction ports in the current statistical period; and if the accumulated suction port number in the current statistical period reaches the upper limit of the accumulated suction port number, stopping atomizing according to the cigarette lighting signal.

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 a detection result of a detected piece is arranged in the atomizer or not by obtaining the detection piece; if the detection result is the first result, controlling the battery assembly to provide battery voltage for the atomizer when the cigarette lighting signal is detected; if the detection result is a second result, controlling the atomizer to atomize according to target working parameters when the cigarette lighting signal is detected, wherein the target working parameters comprise any one of target voltage, target power and target temperature; the problem that in the related art, a user of the electronic cigarette is difficult to know the current output mode of the electronic cigarette, and the output mode is not matched with an atomizer easily is solved; the effect that the output mode of the electronic cigarette is automatically adjusted to be matched with the atomizer 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.

Figure 1 is a schematic diagram illustrating the connection of an e-cigarette body to a nebulizer according to an exemplary embodiment of the invention;

figure 2 is a method flow diagram of a method of controlling an electronic cigarette provided in one embodiment of the 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.

Before describing the method for controlling an electronic cigarette according to the present invention in detail, the electronic cigarette according to the embodiment of the present invention will be described as follows: the electron cigarette body can be dismantled with the atomizer and be connected, this internal detection piece that is provided with of electron cigarette, and this detection piece is used for detecting whether be provided with in the atomizer that is connected with the electron cigarette body and is detected the piece, and detection piece is connected with this internal treater electricity of electron cigarette.

Optionally, referring to fig. 1, a connection base 21 is disposed on the electronic cigarette body 20, and the atomizer 10 is detachably connected to the electronic cigarette body 20 through the connection base 21 at the bottom thereof; the detection piece 22 is arranged at the installation position of the electronic cigarette body connected with the base 21.

Optionally, the detecting member related to the present application is a magnetic detecting member, and the detected member is a magnetic member.

Optionally, the detecting element is a magnetic detecting element, and the detected element 11 is a magnetic ring sleeved at the bottom end of the atomizer 10, so that when the atomizer 10 is installed to the electronic cigarette body 20 in any posture, the detecting element 22 in the electronic cigarette body 20 can detect that the detected element 11 is arranged in the atomizer 10. For example, the detecting member 22 is disposed on one side of the connecting base 21, and when the bottom of the atomizer 10 passes through the connecting base 21 on the electronic cigarette body 20, the detected members are all located above the detecting member 22, so that the detecting member 22 can detect that the detected members are disposed in the atomizer 10.

In one example, the detection member 22 is disposed on a main board 23 within the electronic cigarette, and the main board 23 is disposed at an upper portion (e.g., a top end) of the interior of the electronic cigarette body. Optionally, the detecting member 22 is a hall switch, which is closed when the detected member is detected around the detecting member, and is opened when the detected member is not detected around the detecting member.

The points to be explained are: the atomizer that can dismantle with electron cigarette body 20 and be connected includes two kinds, and one of them is that inside is provided with the atomizer that is detected the piece, and the other kind is that inside is not provided with the atomizer that is detected the piece.

In addition, the atomizers can be divided into two types in the production process of the atomizers, wherein the first type of atomizers are suitable for being directly powered by battery voltage to atomize, and the second type of atomizers are suitable for atomizing according to target working parameters; it should be noted that this generally depends on the material of the heat generating element in the atomizer. In the actual production process, the detected piece can be arranged in the first type of atomizer, but not in the second type of atomizer; alternatively, the detected member is provided in the second type of atomizer, but the detected member is not provided in the first type of atomizer, and the two types of atomizers can be distinguished.

Referring to fig. 2, a flowchart of a method for controlling an electronic cigarette according to an embodiment of the present invention is shown. As shown in fig. 2, the control method of the electronic cigarette may include:

and step 210, acquiring a detection result of whether the detection piece is arranged in the atomizer or not.

And step 220, if the detection result is the first result, controlling the battery assembly to provide battery voltage for the atomizer when the cigarette lighting signal is detected.

The first result is that the detected piece is arranged in the atomizer, and the second result is that the detected piece is not arranged in the atomizer; or the first result is that the detected piece is not arranged in the atomizer, and the second result is that the detected piece is arranged in the atomizer.

Specifically, in the actual production process, a detected piece is arranged in a first type atomizer, but the detected piece is not arranged in a second type atomizer, so that the first result is that the detected piece is arranged in the atomizer, and the second result is that the detected piece is not arranged in the atomizer; in the actual production process, the detected piece is arranged in the second type of atomizer, but the detected piece is not arranged in the first type of atomizer, the first result is that the detected piece is not arranged in the atomizer, and the second result is that the detected piece is arranged in the atomizer.

And step 230, if the detection result is the second result, controlling the atomizer to perform atomization work according to target working parameters when the cigarette ignition signal is detected, wherein the target working parameters comprise any one of target voltage, target power and target temperature.

It should be noted that: the target operating parameter referred to in the present application may be any one of a target voltage, a target power, and a target temperature, and the present application exemplifies that the target operating parameter includes the target power.

The first type of atomizer is suitable for being directly powered by battery voltage to atomize, a detected piece is not arranged in the first type of atomizer, the second type of atomizer is suitable for being atomized according to target working parameters, and the detected piece is arranged in the second type of atomizer. After the first-type atomizer is installed on the electronic cigarette body by an electronic cigarette user, when the electronic cigarette detects a cigarette lighting signal generated by pressing an on-off key, the battery assembly is controlled to provide battery voltage for the atomizer to enable the atomizer to conduct atomization work; the electron cigarette user is after installing second type atomizer to electron cigarette body, and the electron cigarette is when detecting the produced some cigarette signals of on & off switch pressed, and the work of atomizing is carried out according to target power 60 watts to the control atomizer.

Optionally, before controlling the atomizer to atomize with the target working parameter, the electronic cigarette further obtains the target working parameter, wherein the target working parameter can be obtained through several methods:

firstly, if the obtained detection result is a second result, obtaining the resistance value of the atomizer; and acquiring a recommended parameter value which is uniquely corresponding to the resistance value of the atomizer and is stored as a target working parameter of the atomizer.

In one example, a correspondence between the resistance value of the nebulizer and the recommended parameter value may be stored in the electronic cigarette, and the correspondence may be stored in the electronic cigarette in the form of a table, a curve, or the like; after the resistance value of the atomizer is obtained, the recommended parameter value which is uniquely corresponding to and stored in the resistance value of the atomizer is obtained from the corresponding relation and serves as the target working parameter of the atomizer.

For example, the electronic cigarette may store a resistance value of 0.2 ohms corresponding to a target power of 60 watts, and a resistance value of 1.2 ohms corresponding to a target power of 15 watts; after the electronic cigarette detects that the resistance value of an atomizer connected with the electronic cigarette is 0.2 ohm, the atomizer is controlled to atomize at 60 watts of target power when a cigarette lighting signal is detected; after the electronic cigarette detects that the resistance value of an atomizer connected with the electronic cigarette is 1.2 ohms, the atomizer is controlled to atomize at 15 watts of target power when a cigarette lighting signal is detected.

In another example, a correspondence between the resistance value interval and the recommended parameter value may be stored in the electronic cigarette; after the resistance value of the atomizer is obtained, determining a resistance value interval where the resistance value of the atomizer is located; and acquiring a recommended parameter value which is uniquely corresponding to the resistance value interval and stored as a target working parameter of the atomizer.

Secondly, if the obtained detection result is a second result, obtaining the resistance value of the atomizer; determining the adjustable range of the output gear of the atomizer according to the resistance value of the atomizer; and acquiring a recommended parameter value stored corresponding to the current output gear as a target working parameter.

And the electronic cigarette correspondingly stores a recommended parameter value for each output gear of the atomizer.

In one example, a correspondence between the resistance value of the atomizer and the adjustable range of the output gear is stored in the electronic cigarette; after the resistance value of the atomizer is obtained, the adjustable range of the output gear corresponding to the resistance value of the atomizer is obtained from the corresponding relation; acquiring an initial value of an output gear according to the adjustable range of the output gear; and when the gear adjusting signal is detected, adjusting the output gear according to the gear adjusting signal.

In another example, the electronic cigarette stores a correspondence between a resistance value interval and an adjustable range of an output gear; after the resistance value of the atomizer is obtained, determining a resistance value interval where the resistance value of the atomizer is located; acquiring an adjustable range of an output gear which is stored correspondingly to the resistance value interval; acquiring an initial value of an output gear according to the adjustable range of the output gear; when the gear adjusting signal is detected, the output gear of the atomizer is adjusted within the adjustable range of the output gear according to the gear adjusting signal.

Wherein, the gear adjustment signal can be the operating signal that produces when the gear adjusting part is operated on the electron cigarette, and the realization that obtains the initial value of output gear according to the adjustable range of output gear can be: and acquiring the minimum value or the maximum value from the adjustable range as the initial value of the output gear.

Thirdly, if the obtained detection result is the second result, obtaining the resistance value of the atomizer; acquiring an output gear which is only corresponding to the resistance value of the atomizer; and acquiring a recommended parameter value which is uniquely corresponding to the output gear and stored as a target working parameter.

In one example, the electronic cigarette stores a one-to-one correspondence relationship between the resistance value of the atomizer and the output gear; after the resistance value of the atomizer is obtained, the electronic cigarette obtains an output gear corresponding to the resistance value of the atomizer from the corresponding relation; and acquiring a recommended parameter value stored corresponding to the output gear as a target working parameter.

In another example, the electronic cigarette stores a correspondence between a resistance value interval and an output gear; after the resistance value of the atomizer is obtained, determining a resistance value interval where the resistance value of the atomizer is located; acquiring an output gear which is uniquely and correspondingly stored with the resistance value interval; and acquiring a recommended parameter value which is uniquely corresponding to the output gear and stored as a target working parameter.

Fourthly, if the obtained detection result is the second result, the resistance value of the atomizer is obtained; determining the adjustable range of the working parameters of the atomizer according to the resistance value of the atomizer; and determining a target working parameter according to the adjustable range of the working parameter, wherein the working parameter related by the application can be any one of a target voltage, a target power and a target temperature.

Optionally, storing a corresponding relationship between the resistance value of the atomizer and the adjustable range of the working parameter in the electronic cigarette, and acquiring the adjustable range of the working parameter corresponding to the resistance value of the atomizer; or, storing a corresponding relation between the resistance value interval of the atomizer and the adjustable range of the working parameters in the electronic cigarette, and determining the resistance value interval in which the resistance value of the atomizer is located; and acquiring the adjustable range of the working parameters correspondingly stored in the resistance value interval.

Optionally, the determining the target operating parameter according to the adjustable range of the operating parameter may be implemented by: determining an initial value of the working parameter as a target working parameter according to the adjustable range of the working parameter; and when the parameter adjusting signal is received, adjusting the target working parameter within the adjustable range of the working parameter according to the parameter adjusting signal.

Wherein, the minimum value or the maximum value in the adjustable range of the working parameter can be obtained as the initial value of the working parameter; the parameter adjusting signal may be an operation signal generated when a parameter adjusting key provided on the electronic cigarette is operated.

In summary, in the method provided by the embodiment of the present invention, the detection result of whether the detected member is disposed in the atomizer is detected by the detection member; if the detection result is the first result, controlling the battery assembly to provide battery voltage for the atomizer when the cigarette lighting signal is detected; if the detection result is a second result, controlling the atomizer to atomize according to target working parameters when the cigarette lighting signal is detected, wherein the target working parameters comprise any one of target voltage, target power and target temperature; the problem that in the related art, a user of the electronic cigarette is difficult to know the current output mode of the electronic cigarette, and the output mode is not matched with an atomizer easily is solved; the effect that the output mode of the electronic cigarette is automatically adjusted to be matched with the atomizer is achieved.

Optionally, the resistance of the atomizer can be obtained by the electronic cigarette in the following ways in the present application:

first, a detection voltage is provided to the atomizer; acquiring the current value of the atomizer under the detection voltage; and determining the resistance value of the quantizer according to the current value and the detection voltage.

Secondly, a communication electrode is arranged on the atomizer, and when the atomizer is connected with the electronic cigarette body, the communication electrode on the atomizer is connected with the processor in the electronic cigarette body; the atomizer sends the resistance value of the atomizer recorded in the atomizer to the processor.

Optionally, the electronic cigarette may control the output gear to cyclically switch in the adjustable range according to a predetermined cyclic sequence according to the gear adjustment signal.

For example, the adjustable range of the resistance value of the atomizer corresponding to the output gear is 1 gear to 5 gears, and the predetermined cycle sequence may be 1-2-3-4-5-1, or 1-2-3-4-5-4-3-2-1-2.

Alternatively, the output gear and the recommended parameter value may be positively or negatively correlated,

in one example, the e-cigarette switches output gear upon detecting a gear adjustment signal.

In another example, the e-cigarette starts timing when it detects that the gear adjustment signal is off; and if the timing duration reaches the preset duration, switching the output gear. The preset time length can be set by a system developer or can be customized by a user. The preset time is 1 second for example, the user of the electronic cigarette presses the gear adjusting key, and after 1 second, the electronic cigarette performs atomization according to the target working parameters when the cigarette lighting signal is detected.

Optionally, when the atomizer in the electronic cigarette is detected to be replaced, the detection piece is started; the detecting member is used to detect whether the detected member is disposed in the atomizer, and step 210 is executed.

Optionally, the detection part is started after the electronic cigarette is started; the detecting member is used to detect whether the detected member is disposed in the atomizer, and step 210 is executed.

In practical implementation, an electronic switch can be arranged between the detection piece and a power supply source of the detection piece, and a control end of the electronic switch is connected with the electronic cigarette inner processor; the electronic cigarette can control the power supply to stop supplying power to the detection piece or control the power supply to supply power to the detection piece by controlling the opening and closing of the electronic switch.

Optionally, after the detecting member is used to detect whether the detected member is arranged in the atomizer, the detecting member is closed.

Optionally, an indicator lamp assembly is arranged on the electronic cigarette, and the indicator lamp assembly comprises at least one indicator lamp, and the indicator lamp assembly can be used for indicating the output gear of the atomizer and/or the residual capacity of a battery assembly in the electronic cigarette.

Optionally, the electronic cigarette further obtains a current output gear of the atomizer; and the indicator lamps in the indicator lamp assembly are lightened according to the lightening rule corresponding to the current output gear, and the lightening rule is used for determining the lightening number of the indicator lamps in the indicator lamp assembly and/or the colors of the lightened indicator lamps in the indicator lamp assembly according to the current output gear of the atomizer.

Optionally, the electronic cigarette obtains the remaining power of a battery pack in the electronic cigarette; acquiring a lighting rule corresponding to the residual electric quantity, wherein the lighting rule is used for indicating the lighting quantity of indicator lamps in the indicator lamp assembly and/or the colors of the lighted indicator lamps in the indicator lamp assembly; and illuminating an indicator lamp in the indicator lamp assembly according to the illumination rule.

In actual implementation, the residual electric quantity can be indicated by the number of the turned-on indicator lamps in the indicator lamp assembly, and the output gear is indicated by the color of the turned-on indicator lamps in the indicator lamp assembly; alternatively, the output gear may be indicated by the number of indicator lights lit in the indicator light assembly, and the remaining capacity may be indicated by the color of the indicator lights lit in the indicator light assembly.

Optionally, the target operating parameter related to the present application further includes at least one of an upper limit of a single ignition duration, an upper limit of a cumulative pumping duration, and an upper limit of a cumulative pumping number.

Optionally, when the atomization work according to a single cigarette lighting signal reaches the upper limit of the single cigarette lighting time, the electronic cigarette stops atomizing according to the cigarette lighting signal to assist the electronic cigarette user to quit smoking. The upper limit of the single-time cigarette lighting time length can be set by developers and can also be customized by users.

Optionally, the electronic cigarette obtains the accumulated smoking duration in the current statistical period; and if the accumulated smoking time in the current statistical period reaches the upper limit of the accumulated smoking time, stopping atomizing according to the cigarette lighting signal to assist the electronic cigarette user to quit smoking. The statistical period and the upper limit of the accumulated pumping time can be set by a developer or can be customized by a user, for example, the statistical period can be a week or a day.

Optionally, the electronic cigarette obtains the accumulated number of suction ports in the current statistical period; and if the accumulated suction port number in the current counting period reaches the upper limit of the accumulated suction port number, stopping atomizing according to the cigarette lighting signal to assist the electronic cigarette user to stop smoking. The statistical period and the upper limit of the accumulated pumping port number can be set by developers or can be customized by users.

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 (11)

1. The control method of the electronic cigarette is characterized in that a detection piece is arranged in the electronic cigarette body, the electronic cigarette body is detachably connected with an atomizer, and the method comprises the following steps:

acquiring a detection result of the detection piece for detecting whether the detected piece is arranged in the atomizer or not;

if the detection result is a first result, controlling a battery assembly to provide battery voltage for the atomizer when a cigarette ignition signal is detected;

if the detection result is a second result, controlling the atomizer to atomize according to target working parameters when the cigarette lighting signal is detected, wherein the target working parameters comprise any one of target voltage, target power and target temperature;

the first result is that a detected piece is arranged in the atomizer, and the second result is that the detected piece is not arranged in the atomizer; or the first result is that the detected piece is not arranged in the atomizer, and the second result is that the detected piece is arranged in the atomizer.

2. The method as claimed in claim 1, wherein the detected member is a magnetic ring sleeved at the bottom end of the atomizer, and the bottom of the atomizer is detachably connected with the electronic cigarette body; the detection piece is a magnetic detection piece, and the detection piece is arranged at the installation position of the atomizer on the electronic cigarette body.

3. The method of claim 1, wherein prior to controlling the nebulizer for nebulization based on the target operating parameter, the method further comprises:

if the detection result is a second result, acquiring the resistance value of the atomizer;

and acquiring a recommended parameter value stored corresponding to the resistance value of the atomizer as a target working parameter of the atomizer.

4. The method of claim 1, wherein prior to controlling the nebulizer for nebulization based on the target operating parameter, the method further comprises:

if the detection result is a second result, acquiring the resistance value of the atomizer;

determining the adjustable range of the output gear of the atomizer according to the resistance value of the atomizer;

and acquiring a recommended parameter value stored corresponding to the current output gear as the target working parameter.

5. The method of claim 4, wherein an indicator light assembly is provided on the electronic cigarette, and after determining the adjustable range of the output gear of the atomizer according to the resistance value of the atomizer, the method further comprises:

acquiring the current output gear of the atomizer;

and illuminating the indicator lamps in the indicator lamp assembly according to an illumination rule corresponding to the current output gear, wherein the illumination rule is used for indicating the illumination number of the indicator lamps in the indicator lamp assembly and/or the colors of the illuminated indicator lamps in the indicator lamp assembly.

6. The method of claim 1, wherein prior to controlling the nebulizer for nebulization based on the target operating parameter, the method further comprises:

if the detection result is a second result, acquiring the resistance value of the atomizer;

determining the adjustable range of the working parameters of the atomizer according to the resistance value of the atomizer;

and determining the target working parameter according to the adjustable range of the working parameter.

7. The method of claim 1, wherein an indicator light assembly is disposed on the electronic cigarette, the method further comprising:

acquiring the residual electric quantity of a battery pack in the electronic cigarette;

acquiring a lighting rule corresponding to the residual electric quantity, wherein the lighting rule is used for indicating the lighting quantity of indicator lamps in the indicator lamp assembly and/or the colors of the lighted indicator lamps in the indicator lamp assembly;

and illuminating an indicator lamp in the indicator lamp assembly according to the illumination rule.

8. The method of claim 1, wherein before obtaining the detection result of the detection member detecting whether the detection member is disposed in the nebulizer, the method further comprises:

when the atomizer of the electronic cigarette is detected to be replaced, starting the detection piece; or starting the detection piece after the electronic cigarette is started;

utilizing the detection piece to detect whether a detected piece is arranged in the atomizer or not, and executing the step of acquiring the detection result whether the detection piece detects the detected piece is arranged in the atomizer or not.

9. The method of claim 1, wherein the target operating parameters further comprise at least one of a single-ignition-time upper limit, a cumulative-suction-time upper limit, and a cumulative-suction-port-number upper limit, and wherein the controlling the atomizer to perform the atomizing operation according to the target operating parameters when the ignition signal is detected comprises:

when the atomization work according to the single cigarette lighting signal reaches the upper limit of the single cigarette lighting time, the atomization work according to the cigarette lighting signal is stopped; and/or the presence of a gas in the gas,

acquiring the accumulated pumping time length in the current statistical period; if the accumulated smoking time in the current statistical period reaches the upper limit of the accumulated smoking time, the atomization work is stopped according to the cigarette lighting signal; and/or the presence of a gas in the gas,

acquiring the accumulated number of suction ports in the current statistical period; and if the accumulated suction port number in the current statistical period reaches the upper limit of the accumulated suction port number, stopping atomizing according to the cigarette lighting signal.

10. 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 1-9.

11. 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 9.

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