CN113439886B - 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. A pressure sensor integrated on a housing of the electronic cigarette, the method comprising: acquiring pressure data detected by the pressure sensor; when the pressure data exceeds a preset threshold value, determining working parameters of the atomizer according to the pressure data, and controlling the atomizer to carry out atomization work according to the working parameters, wherein the working parameters comprise at least one of working voltage, working current, output power and temperature in an atomization cavity; the problems of playability and withering in use of the electronic cigarette in the related technology are solved; the effect of improving the playability of the electronic cigarette 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 device of an electronic cigarette.

Background

The electronic cigarette is used as a substitute of a cigarette, and is more and more popular in the market due to the characteristics of safety, convenience, environmental protection and the like in use to a certain extent.

However, the electronic cigarettes on the market only have the function of generating the smoke by atomizing the aerosol-forming substrate for the users, and are lack of playability and interest, and the users are boring and smelling when using the electronic cigarettes.

Disclosure of Invention

In order to solve the problem that the electronic cigarette in the prior art lacks interest, the embodiment of the invention provides a control method and a control device of the electronic cigarette. The technical scheme is as follows:

in a first aspect, a method for controlling an electronic cigarette having a pressure sensor integrated on a housing of the electronic cigarette is provided, the method comprising:

acquiring pressure data detected by the pressure sensor;

and when the pressure data exceeds a preset threshold value, determining working parameters of the atomizer according to the pressure data, and controlling the atomizer to carry out atomization according to the working parameters, wherein the working parameters comprise at least one of working voltage, working current, output power and temperature in an atomization cavity.

Optionally, a holding cigarette enabling switch is disposed on the housing, and before the pressure data detected by the pressure sensor is acquired, the method further includes:

acquiring an operation signal generated when the holding cigarette lighting enabling switch is operated;

if the operation signal is a holding lighting function starting signal, starting a holding lighting function of the electronic cigarette;

and the electronic cigarette with the starting holding cigarette lighting function executes the step of acquiring the pressure data detected by the pressure sensor.

Optionally, after acquiring the operation signal generated when the holding ignition enabling switch is operated, the method further includes:

if the operation signal is a holding lighting function closing signal, closing the holding lighting function of the electronic cigarette;

and if the electronic cigarette with the holding and lighting function closed detects a lighting signal, the atomizer is controlled to atomize according to the set working parameters.

Optionally, the determining the operating parameter of the nebulizer according to the pressure data includes:

if the pressure data is lower than a preset upper limit value, determining the working parameters of the atomizer according to a preset formula, wherein the preset formula is as follows:

wherein, W is the working parameter of the atomizer, F is the pressure data, fmin is the predetermined threshold, fmax is the preset upper limit, ws is the working parameter upper limit or the set working parameter, and the preset upper limit is greater than the predetermined threshold;

and if the pressure data reaches a preset upper limit value, controlling the atomizer to atomize according to set working parameters or the preset upper limit value.

Optionally, the electronic cigarette is provided with an increase key and a decrease key, and the method further includes:

when an increase signal generated when the increase key is operated is detected, the set working parameter is increased;

and when a reduction signal generated when the reduction key is operated is detected, the set working parameter is reduced.

Optionally, after acquiring the pressure data detected by the pressure sensor, the method further includes:

and if the duration that the pressure data detected by the pressure sensor is continuously lower than the preset threshold reaches the preset duration, displaying first prompt information or first prompt animation for prompting that the user holds the cigar lighter forcibly.

Optionally, after acquiring the pressure data detected by the pressure sensor, the method further includes:

determining a hand fatigue index according to pressure data detected by the pressure sensor;

and when the hand fatigue index reaches a limit threshold value, displaying second prompt information or second prompt animation for prompting to stop sucking and relax the hand.

Optionally, a switch is disposed on the housing, wherein:

when the change-over switch is turned on, the working parameters of the atomizer are positively correlated with the pressure data detected by the pressure sensor, and when the change-over switch is turned off, the working parameters of the atomizer are negatively correlated with the pressure data detected by the pressure sensor; or,

when change over switch closes the working parameter of atomizer with the pressure data that pressure sensor detected are positive correlation, when change over switch opens the working parameter of atomizer with the pressure data that pressure sensor detected are negative correlation.

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

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

acquiring pressure data detected by a pressure sensor; when the pressure data exceeds a preset threshold value, determining working parameters of the atomizer according to the pressure data, and controlling the atomizer to carry out atomization work according to the working parameters, wherein the working parameters comprise at least one of working voltage, working current, output power and temperature in an atomization cavity; the electronic cigarette user can control the electronic cigarette to light the cigarette by changing the pressure of the pressing pressure sensor, and can adjust the working parameters of the atomizer by changing the force so as to adjust the amount of the cigarette smoke and increase the playability of the electronic cigarette; the problems of playability and dull use of the electronic cigarette in the related technology are solved; the effect of improving the playability 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.

Figure 1 is a method flow diagram of a method of controlling an electronic cigarette according to one embodiment of the present invention;

figure 2 is a schematic diagram of the electrical connections within the electronic cigarette provided by one embodiment of the present invention;

figure 3 is a schematic flow chart of 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 to fig. 3, a method flowchart of a control method of 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, pressure data detected by the pressure sensor is acquired.

The pressure sensor is integrated on the shell of the electronic cigarette, the shape and the size of the pressure sensor are not particularly limited, for example, the pressure sensitive element of the pressure sensor can be in the size of a nail cover, and is arranged on the shell of the electronic cigarette to light the part which is often held when the cigarette is lighted; for another example, the pressure-sensitive element of the pressure sensor may be similar to or the same as the housing of the electronic cigarette in shape and size, and the pressure-sensitive element of the pressure sensor covers the housing of the electronic cigarette.

And 120, when the pressure data exceeds a preset threshold value, determining working parameters of the atomizer according to the pressure data, and controlling the atomizer to perform atomization according to the working parameters, wherein the working parameters comprise at least one of working voltage, working current, output power and temperature in an atomization cavity.

The predetermined threshold may be set by a developer or may be customized by a user, for example, the developer may test pressure data detected by the pressure sensor when the electronic cigarette is held but not exerting force through multiple tests, determine the predetermined threshold according to the tested pressure data, for example, calculate an average value of the tested pressure data as the predetermined threshold.

Optionally, determining the operating parameter of the nebulizer according to the pressure data may be performed in the following ways:

first, if the pressure data is lower than the preset upper limit value, the operating parameters of the atomizer are determined according to a predetermined formula, wherein the predetermined formula is as follows:

wherein W is the working parameter of the atomizer, F is the pressure data, fmin is a preset threshold value, fmax is a preset upper limit value, wsThe working parameter is the upper limit value; and if the pressure data detected by the pressure sensor reaches the preset upper limit value, controlling the atomizer to atomize according to the preset upper limit value. The preset upper limit value may be set by a developer, or may be customized by a user, for example, the developer may set the preset upper limit value according to the upper limit value of the pressure data detection range of the pressure sensor, for example, the upper limit value of the pressure data detection range of the pressure sensor is set as the preset upper limit value, for example, the preset upper limit value is set to be slightly smaller than the upper limit value of the pressure data detection range of the pressure sensor, or the preset upper limit value may be determined according to the average value of the holding power of an adult, for example, the average value of the holding power of the adult is set as the preset upper limit value; the upper limit value of the working parameter related to the application can be the upper limit value of the working parameter supported by the atomizer, for example, the upper limit value can be the maximum output power of the electronic cigarette, the highest temperature which can be reached in an atomizing cavity when the atomizer works can also be the maximum output power of the electronic cigarette, and the upper limit value of the working parameter related to the application can also be a user-defined value.

Secondly, if the pressure data is lower than the preset upper limit value, determining the working parameters of the atomizer according to a preset formula, wherein the preset formula is as follows:

wherein, W is a working parameter of the atomizer, F is the pressure data, fmin is a preset threshold value, fmax is a preset upper limit value, and Ws is a working parameter upper limit value; and if the pressure data detected by the pressure sensor reaches a preset upper limit value, controlling the atomizer to atomize according to the upper limit value of the working parameter.

Optionally, an increase key and a decrease key are arranged on the electronic cigarette, and when an increase signal generated when the increase key is operated is detected, the set working parameter is increased; when a decrease signal generated when the decrease key is operated is detected, the setting operation parameter is adjusted to be low. In actual implementation, when a new increasing signal is detected, the set working parameter is increased by a preset step length; the set operating parameter is reduced by a predetermined step length each time a new decrease signal is detected. The predetermined step size may be set by a developer or may be customized by a user, for example, when the operating parameter is output power, the predetermined step size may be set to 2W.

Optionally, when the pressure data detected by the pressure sensor is lower than a predetermined threshold, or when the duration of the pressure data detected by the pressure sensor continuously lower than the predetermined threshold reaches a preset duration, displaying first prompt information or a first prompt animation for prompting to grip the snuggers with force. The first prompt message can be prompted in a text prompt mode, a voice prompt mode, a vibration prompt mode, a buzzer prompt mode and the like; the preset time period is usually set by a developer, and for example, the preset time period may be 5 seconds.

Thirdly, a plurality of holding force ranges are stored in the electronic cigarette, each holding force range corresponds to one reference coefficient, and the holding force ranges are not overlapped; the electronic cigarette can obtain the holding force range where the pressure data is located, obtain the reference coefficient corresponding to the holding force range, and calculate the product of the reference coefficient and the pressure data as the working parameter of the atomizer. Wherein, the upper limit values of the different holding force ranges are positively or negatively correlated with the reference coefficient.

For example, the predetermined threshold value is 1 newton, the range of the holding forces stored in the electronic cigarette includes (1 newton, 3 newton), (3 newton, 5 newton), (1 newton, 3 newton) corresponds to a coefficient of 5W/N, (3 newton, 5 newton) corresponds to a coefficient of 10W/N, and when the pressure data detected by the pressure sensor is 3 newtons, the electronic cigarette can determine that the working parameter of the atomizer is 15W, and control the atomizer in the electronic cigarette to output according to 15W.

The implementation of determining the working parameters of the atomizer according to the pressure data is only schematically illustrated in the three ways, and the implementation can be realized in other ways in actual implementation, which is not described in detail herein.

In summary, in the method provided in the embodiment of the present invention, the pressure data detected by the pressure sensor is obtained; when the pressure data exceeds a preset threshold value, determining working parameters of the atomizer according to the pressure data, and controlling the atomizer to carry out atomization work according to the working parameters, wherein the working parameters comprise at least one of working voltage, working current, output power and temperature in an atomization cavity; the electronic cigarette user can control the electronic cigarette to light the cigarette by changing the pressure of the pressing pressure sensor, and can adjust the working parameters of the atomizer by changing the force so as to adjust the amount of the cigarette smoke and increase the playability of the electronic cigarette; the problems of playability and dull use of the electronic cigarette in the related technology are solved; the effect of improving the playability of the electronic cigarette is achieved.

Optionally, a holding cigarette enabling switch is arranged on the shell, the holding cigarette enabling switch can be a mechanical key, a toggle switch, a touch pad and the like, and a user can start or close a holding cigarette enabling function by operating the holding cigarette enabling switch. The electronic cigarette with the holding and lighting function started can execute the steps shown in fig. 1, and atomization work of the electronic cigarette is controlled according to the detected holding force (namely, pressure data detected by the pressure sensor), so that a user of the electronic cigarette can operate the electronic cigarette to perform atomization work by changing the holding force; close the electron cigarette of holding some cigarette functions, unable through changing holding power operation electron cigarette atomizing work.

Specifically, an operation signal generated when the holding cigarette enable switch is operated is obtained; if the operation signal is a holding and lighting function starting signal, starting a holding and lighting function of the electronic cigarette; the electronic cigarette with the lighter function activated is held to execute step 110.

Taking the holding and lighting enabling switch as a toggle switch for illustration, when detecting that the toggle switch is turned off, starting the holding and lighting function of the electronic cigarette, and executing step 110; and when the toggle switch is detected to be turned on, the holding and lighting functions of the electronic cigarette are turned off. Optionally, the toggle direction for starting the holding and lighting function of the electronic cigarette is marked at the toggle switch.

Optionally, if the operation signal is a holding and lighting function closing signal, closing the holding and lighting function of the electronic cigarette; if the electronic cigarette with the holding and lighting function closed detects a lighting signal, the atomizer is controlled to atomize according to set working parameters. For example, close the electron cigarette of holding some cigarette functions, electron cigarette user accessible operation point cigarette key or draw hard and trigger the atomizer in the electron cigarette and carry out atomization work and realize some cigarettes, and atomize work according to setting for working parameter in the atomizer working process. The set working parameters can be customized and adjusted by a user, for example, the user of the electronic cigarette can adjust the set working parameters by operating an increase key and a decrease key on the electronic cigarette.

In the present application, the specific implementation of determining the operating parameter of the atomizer according to the pressure data is illustrated by using the fact that the operating parameter of the atomizer is positively correlated with the pressure data. In practical implementation, the electronic cigarette can be operated by the user of the electronic cigarette to select whether the working parameter of the atomizer is positively or negatively correlated with the pressure data. Specifically, be provided with change over switch on the shell, wherein: when the change-over switch is turned on, the working parameters of the atomizer are positively correlated with the pressure data detected by the pressure sensor, and when the change-over switch is turned off, the working parameters of the atomizer are negatively correlated with the pressure data detected by the pressure sensor; or when the change-over switch is turned off, the working parameters of the atomizer are positively correlated with the pressure data detected by the pressure sensor, and when the change-over switch is turned on, the working parameters of the atomizer are negatively correlated with the pressure data detected by the pressure sensor.

In the case that the working parameter of the atomizer is positively correlated with the pressure data detected by the pressure sensor, the operation can be implemented by referring to any one of the manners in step 120, which is not described in detail herein; in the case where the operating parameter of the nebulizer is inversely related to the pressure data detected by the pressure sensor, the relationship between the operating parameter of the nebulizer and the pressure data detected by the pressure sensor may be:

wherein, W is a working parameter of the atomizer, F is the pressure data, fmin is a preset threshold value, fmax is a preset upper limit value, and Ws is a working parameter upper limit value; if the pressure data detected by the pressure sensor reaches a preset upper limit value, controlling the atomizer to atomize according to the upper limit value of the working parameter; of course, in the case of an operating parameter of the atomizer which is inversely related to the pressure data detected by the pressure sensor, this can also be done by other meansThe working parameters of the atomizer are determined according to the pressure data detected by the pressure sensor, and the details are not repeated here.

Optionally, long-time or high-frequency forced holding may cause hand fatigue and damage; in order to avoid causing hand fatigue, the electronic cigarette also determines a hand fatigue index according to pressure data detected by the pressure sensor; and when the hand fatigue index reaches a limit threshold value, displaying second prompt information or second prompt animation for prompting to stop sucking and relax the hand, and/or closing the holding and lighting function of the electronic cigarette. The second prompt information may be prompted by any one of a text prompt, a voice prompt, a vibration prompt, a buzzer prompt, and the like, which is not specifically limited in this embodiment.

The hand fatigue index can be determined according to the pressure data detected by the pressure sensor in the following ways:

first, the duration of the pressure data detected by the pressure sensor reaching a preset upper limit value is counted as a hand fatigue index. For example, the limit threshold is 5 seconds, and when the duration of the pressure data detected by the pressure sensor reaching the preset upper limit value reaches 5 seconds, prompt information for prompting a relaxing animation starts to be displayed, or the electronic cigarette is controlled to vibrate.

Secondly, the number of times of cigarette lighting by using the pressure sensor in the current statistical period is obtained as the hand fatigue index, namely, the number of times of starting atomization work of the atomizer is triggered when pressure data detected by the pressure sensor reaches a preset threshold value. For example, the limit threshold is 50 times, the statistical period is 1 day, and when it is detected that the number of times of lighting by using the pressure sensor in one day reaches 50 times, the holding and lighting function of the electronic cigarette is turned off, and second prompt information for prompting stopping smoking and relaxing the hand is displayed.

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

An embodiment of the present invention further provides a computer program product, which, when running on an electronic cigarette, causes the electronic cigarette to execute the relevant steps involved in any of the above embodiments, so as to implement the control method of the 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 may be a chip, an assembly, or a module, and the control device includes a memory and a processor connected to each other; wherein the memory is used for storing at least one instruction, and when the control device is operated, the processor can load and execute the at least one instruction to realize the control method of the electronic cigarette in any embodiment.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of indicated technical features. Thus, a defined "first" or "second" feature 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 (6)

1. A method of controlling an electronic cigarette, wherein a pressure sensor is integrated on a housing of the electronic cigarette, the method comprising:

acquiring pressure data detected by the pressure sensor;

when the pressure data exceed a preset threshold value, determining working parameters of the atomizer according to the pressure data, and controlling the atomizer to carry out atomization work according to the working parameters; the working parameters comprise at least one of working voltage, working current, output power and temperature in the atomizing cavity; the setting of the predetermined threshold value comprises testing pressure data detected by the pressure sensor when the electronic cigarette is held but does not exert force, and calculating the average value of the tested pressure data to be used as the predetermined threshold value;

a holding cigarette enabling switch is arranged on the shell, and before the pressure data detected by the pressure sensor is acquired, the method further comprises the following steps:

acquiring an operation signal generated when the holding cigarette ignition enabling switch is operated;

if the operation signal is a holding lighting function starting signal, starting a holding lighting function of the electronic cigarette;

the step of acquiring the pressure data detected by the pressure sensor is executed by holding the electronic cigarette with the cigarette lighting function started;

after the obtaining of the operation signal generated when the holding ignition enabling switch is operated, the method further includes:

if the operation signal is a holding lighting function closing signal, closing the holding lighting function of the electronic cigarette;

if the electronic cigarette with the holding and lighting function closed detects a lighting signal, controlling the atomizer to atomize according to set working parameters; the set working parameters are preset adjustment values by a user;

the determining an operating parameter of the nebulizer from the pressure data comprises:

if the pressure data is lower than a preset upper limit value, determining the working parameters of the atomizer according to a preset formula, wherein the preset formula is as follows:

wherein, W is the working parameter of the atomizer, F is the pressure data, fmin is the predetermined threshold, fmax is the preset upper limit, ws is the working parameter upper limit or the set working parameter, and the preset upper limit is greater than the predetermined threshold;

if the pressure data reaches a preset upper limit value, controlling the atomizer to atomize according to set working parameters or the preset upper limit value; the upper limit value of the pressure data detection range of the pressure sensor is set as a preset upper limit value, or the average value of the holding force of an adult is set as a preset upper limit value;

after acquiring the pressure data detected by the pressure sensor, the method further comprises:

determining a hand fatigue index according to pressure data detected by the pressure sensor;

when the hand fatigue index reaches a limit threshold value, displaying second prompt information or a second prompt animation for prompting to stop sucking and relax the hand; the hand fatigue index is the duration of the pressure data detected by the pressure sensor continuously reaching a preset upper limit value, or the number of times of cigarette lighting by the pressure sensor in the current statistical period.

2. The method of claim 1, wherein an increase key and a decrease key are provided on the electronic cigarette, the method further comprising:

when an increase signal generated when the increase key is operated is detected, the set working parameter is increased;

and when a reduction signal generated when the reduction key is operated is detected, the set working parameter is reduced.

3. The method of claim 1, wherein after the acquiring pressure data detected by the pressure sensor, the method further comprises:

and if the duration of the pressure data detected by the pressure sensor which is continuously lower than the preset threshold reaches the preset duration, displaying first prompt information or first prompt animation for prompting that the user can light the cigarette by holding the cigarette with force.

4. The method of claim 1, wherein a diverter switch is provided on the housing, wherein:

when the change-over switch is turned on, the working parameters of the atomizer are positively correlated with the pressure data detected by the pressure sensor, and when the change-over switch is turned off, the working parameters of the atomizer are negatively correlated with the pressure data detected by the pressure sensor; or,

when the change-over switch is closed, the working parameters of the atomizer are in positive correlation with the pressure data detected by the pressure sensor, and when the change-over switch is opened, the working parameters of the atomizer are in negative correlation with the pressure data detected by the pressure sensor.

5. 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 1-4.

6. 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 4.

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