CN113100501A - Electronic cigarette control method and control system - Google Patents

Abstract

The invention relates to an electronic cigarette control method and system. The heater atomization is started through continuous suction action, and the output voltage of atomization is controlled according to the single average suction time or the suction amount during continuous suction, or the output voltage is controlled according to the parameters or the use parameters of the electronic cigarette. And finally, automatically controlling the closing of the heater, mainly comparing the accumulated heating time with a set value. In special cases, monitoring is performed according to the interval time between suctions, and the heater is turned off when the interval time reaches a certain value.

Description

Electronic cigarette control method and control system

Technical Field

The invention relates to the technical field of electronic cigarettes, in particular to a method and a system for controlling opening, heating and closing of an electronic cigarette.

Background

The electronic cigarette is used as a substitute of a cigarette ignited by open fire, and has the advantages of safety, environmental protection, adjustable mouthfeel and the like. In the electronic cigarette in the prior art, the electronic cigarette can be ignited by a manual switch, or the electronic cigarette can be ignited by a very simple triggering mode, so that children are particularly easy to inhale by mistake or secretly inhale. In addition, in the prior art, no matter who uses the same output power to heat, different smoke amounts are not output for different users, and the smoke amount requirements of different people cannot be met. Moreover, although the electronic cigarette is safer and more environmentally friendly, it still has certain influence on human health like ordinary cigarettes, so that how to control smoking time of users and help quit smoking is also a problem to be faced in the field.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a method and a system which can avoid misoperation or children opening the electronic cigarette, can determine the heating output voltage according to different conditions, and can realize the closing atomization of the electronic cigarette under specific conditions, thereby ensuring the safety of smoking.

An electronic cigarette control method comprises the following steps:

s1, sucking the electronic cigarette;

s2, when the continuous pumping action exceeds the set times, controlling a heater to start atomization operation;

s3, detecting the single average suction time and/or the single average inspiration capacity of the continuous suction action of starting the atomization operation;

s4, when the single average suction time reaches a first time threshold and/or the single average suction volume reaches a first suction volume threshold, controlling a power supply to heat a heater at a first output voltage; when the single average suction time reaches a second time threshold value and does not reach the first time threshold value and/or the single average inspiration amount reaches a second inspiration amount threshold value and does not reach the first inspiration amount threshold value, controlling the power supply to heat the heater at a second output voltage;

s5, when the heater is heated by the first output voltage and the accumulated heating time reaches a first accumulated time threshold value, controlling the heater to close atomization operation; when the heater is heated by the second output voltage and the accumulated heating time reaches a second accumulated time threshold value, controlling the heater to close the atomization operation;

and S6, when the accumulated heating time is less than the first accumulated time threshold and the second accumulated time threshold, controlling the heater to close the atomization operation if the time interval between two continuous times of suction is greater than the first time interval threshold.

In the electronic cigarette control method according to the present invention, in step S2, the continuous smoking action refers to a time interval between two consecutive smoking actions being smaller than a second time interval threshold value, and the second time interval threshold value is smaller than the first time interval threshold value.

According to a preferred embodiment of the electronic cigarette control method, the number of continuous pumping actions is adjustable, and the number of continuous pumping actions is greater than 2.

According to another embodiment of the electronic cigarette control method, in step S4, usage parameters of the electronic cigarette are detected, where the usage parameters include a total battery usage duration, a battery remaining capacity, a heater usage duration, and a heater model, and a third output voltage is determined according to the total battery usage duration or the battery remaining capacity, the heater usage duration or the heater model, and the first output voltage or the second output voltage to heat the heater.

According to another embodiment of the electronic cigarette control method, the fourth output voltage is obtained according to the usage parameters of the electronic cigarette.

According to still another embodiment of the electronic cigarette control method of the present invention, if the first output voltage or the second output voltage is less than the fourth output voltage, the first output voltage or the second output voltage is used as the third output voltage; and if the first output voltage or the second output voltage is greater than the fourth output voltage, taking the fourth output voltage as a third output voltage.

According to another embodiment of the electronic cigarette control method, in step S5, the total number of smoking openings is used as a basis for controlling the heater to be turned off; recording the pressure generated in each suction process, recording the duration of each suction process, obtaining the ratio of the duration of each suction process to the pressure generated in each suction process, and increasing the number of suction ports by a first weight if the ratio is less than a first ratio threshold; if the ratio is between the first ratio threshold and the second ratio threshold, increasing the number of pumping ports by a second weight; if the ratio is greater than the second ratio threshold, the number of pumping ports is increased by a third weight.

According to another embodiment of the electronic cigarette control method, the total smoking opening is accumulated, and when the total smoking opening reaches a certain opening, the heater is controlled to close the atomization operation.

In step S5, the e-cigarette heater is locked after the heater is controlled to turn off the atomizing operation.

An electronic cigarette control system comprising:

the heater is used for heating and atomizing the tobacco tar;

the controller is used for turning on or off the heater to heat and atomize the tobacco tar;

the timer is used for recording the single suction time and accumulating the total heating time;

the time counter is used for recording the pumping times and accumulating the pumping times;

a gas flow meter for recording the gas flow;

a memory storing at least one program instruction to implement the electronic cigarette control method according to any one of the embodiments of the present invention;

and the processor is used for loading and executing the program instructions stored in the memory for realizing the electronic cigarette control method.

And the communication module is in communication connection with the client and is used for a user to perform interface operation and adjust parameters for realizing various embodiments of the invention.

The communication mode comprises WiFi or Bluetooth, and the client comprises a personal PC or a mobile phone and the like.

The invention has the advantages of

The electronic cigarette control method can play the roles of preventing mistaken smoking, assisting smoking cessation, balancing the amount of smoke, improving experience and the like. Specifically, for anti-aspiration, the continuous pumping action may prevent the child from pumping and igniting the electronic cigarette to the maximum extent. For assisting smoking cessation, the smoking difficulty degree can be manually set, so that the user can be informed to a certain degree; secondly, the smoking time and the smoking times can be limited. For the balanced smoke improvement experience, the smoke volume is matched with the air suction volume mainly through the control of the output voltage.

Drawings

Figure 1 shows a flow chart of one of the embodiments of the electronic cigarette control method of the present invention;

figure 2 shows a flow chart of another embodiment of the electronic cigarette control method of the present invention.

Detailed Description

A detailed description of embodiments of the present invention will now be given with reference to fig. 1-2.

Example 1

An electronic cigarette control method comprises the following steps:

s1, sucking the electronic cigarette;

and S2, when the continuous pumping action exceeds the set times, controlling a heater to start the atomization operation.

In the using process of the electronic cigarette, the situation that the electronic cigarette is mistakenly inhaled by a child due to curiosity or the electronic cigarette is stolen due to bad habits is usually encountered, and the physical and psychological health of the child is affected. Meanwhile, there are cases where the adult user may have his breath taken up at a moment and then give up the breath after lighting the electronic cigarette due to lack of time or arousal. Therefore, the continuous suction action is set to exceed the limit of the set times, so that the electronic cigarette can be prevented from being ignited by the suction of children to the maximum extent, the electronic cigarette can be abandoned without being ignited when a user sucks a few mouths, and the waste of electric quantity and the waste of tobacco tar caused by the electronic cigarette can be avoided. The continuous pumping operation is performed by normal suction and discharge.

In addition, the number of the continuous pumping actions is adjustable, and the number of the continuous pumping actions is more than 2. The user can artificially enlarge the continuous suction action, the difficulty of igniting the electronic cigarette is increased, and the user can be helped to quit smoking.

S3, detecting the single average suction time and/or the single average inspiration capacity of the continuous suction action of starting the atomization operation;

s4, when the single average suction time reaches a first time threshold and/or the single average suction volume reaches a first suction volume threshold, controlling a power supply to heat a heater at a first output voltage; and when the single average suction time reaches the second time threshold and does not reach the first time threshold and/or the single average inspiration reaches the second inspiration threshold and does not reach the first inspiration threshold, controlling the power supply to heat the heater at a second output voltage.

During the continuous suction action, the single average suction time and the single average inspiration reflect the inspiration capacity of the user to a certain extent, and the single average suction time and the single average inspiration capacity of the whole process are detected and then used as the basis for controlling the output voltage. When the average puff time per time or average inspiratory volume per time is small, the user inhales less gas and the smoke carried accordingly should be less; when the average suction time per time or the average suction amount per time is larger, the amount of air sucked by a user is larger, and correspondingly, the amount of carried smoke is larger; therefore, the concentration of the smoke inhaled by different people can be balanced to a certain degree, and the smoking experience is improved.

S5, when the heater is heated by the first output voltage and the accumulated heating time reaches a first accumulated time threshold value, controlling the heater to close atomization operation; when the heater is heated by the second output voltage and the accumulated heating time reaches a second accumulated time threshold value, controlling the heater to close the atomization operation;

the user can greatly harm the health if the single suction time is too long, so that the atomizer can be automatically closed when the accumulated suction time reaches a certain time. The health of the user is ensured, and the lock is locked in a short time and can not be restarted. In this way, the craving of the user can be controlled. Particularly, the accumulated time threshold value can be manually adjusted at the terminal, so that the user is assisted to quit smoking. Since the amount of smoke inhaled is different for different output voltages, different accumulated heating times should be controlled for different output lighting. In this case, the heater is controlled to be locked for a certain time after the heater is turned off the atomizing operation, and the electronic cigarette cannot be re-ignited during the locking. The locking time can be controlled by the user, and is a means for controlling the smoking time of the user.

And S6, when the accumulated heating time is less than the first accumulated time threshold and the second accumulated time threshold, controlling the heater to close the atomization operation if the time interval between two continuous times of suction is greater than the first time interval threshold.

When the time interval of two continuous times of smoking is too large, the user does not perform smoking for a long time, unnecessary electric quantity waste and tobacco tar waste are not avoided, and meanwhile, in order to protect the normal work of the electronic cigarette, the system automatically closes the atomizer.

In the electronic cigarette control method according to the present invention, in step S2, the continuous smoking action refers to a time interval between two consecutive smoking actions being smaller than a second time interval threshold value, and the second time interval threshold value is smaller than the first time interval threshold value.

Example 2

According to another embodiment of the electronic cigarette control method, in step S4, usage parameters of the electronic cigarette are detected, the usage parameters include a total battery usage time, a remaining battery power, a heater usage time, a heater model, and the like, and a third output voltage is determined according to the total battery usage time, the remaining battery power, the heater usage time or a heater signal, and the first output voltage or the second output voltage to heat the heater.

According to another embodiment of the electronic cigarette control method, the fourth output voltage is obtained according to the usage parameters of the electronic cigarette.

According to still another embodiment of the electronic cigarette control method of the present invention, if the first output voltage or the second output voltage is less than the fourth output voltage, the first output voltage or the second output voltage is used as the third output voltage; and if the first output voltage or the second output voltage is greater than the fourth output voltage, taking the fourth output voltage as a third output voltage.

Heating atomization by using the first output voltage or the second output voltage is the most ideal atomization mode, but sometimes affected by factors such as the battery power, the using time of the heater and the like, for example, the battery power is small, the first output voltage or the second output voltage cannot be reached, and atomization can be performed by using a small fourth voltage. When the heater is used for a long time, the resistance value of the heater is changed too much, so that the power obtained by the same output voltage is changed, and the smoke quantity of the heater is also changed greatly, so that the ideal first output voltage or second output voltage is corrected to obtain the output voltage suitable for the corresponding air inflow. Or the heat resistance of the heater is reduced due to the overuse of the heater, or the voltage which can be borne by the heater is low due to different signals of the heater, at the moment, the heater is burnt out by using the first output voltage or the second output voltage, so that the use is influenced, or the safety of a user is influenced. Therefore, in the control method of the electronic cigarette, the relationship between the service life of the heater and the voltage and corresponding heating power which can be borne by the heater, and the relationship between the heaters of different models and the borne voltage and corresponding power need to be stored in the database in advance for being called in time.

Example 3

According to another embodiment of the electronic cigarette control method, in step S5, the total number of smoking openings is used as a basis for controlling the heater to be turned off; recording the pressure generated in each suction process, recording the duration of each suction process, obtaining the ratio of the duration of each suction process to the pressure of the airflow generated in each suction process, and increasing the number of suction ports by a first weight if the ratio is less than a first ratio threshold; if the ratio is between the first ratio threshold and the second ratio threshold, increasing the number of pumping ports by a second weight; if the ratio is greater than the second ratio threshold, the number of pumping ports is increased by a third weight.

According to another embodiment of the electronic cigarette control method, the total smoking opening is accumulated, and when the total smoking opening reaches a certain opening, the heater is controlled to close the atomization operation.

In addition, it can also be specified that when the ratio of the single suction time to the pressure is a, such as the ratio is A, the number of the ports is defined as 1. Therefore, the ratio of the time to the pressure of any single suction to A can be obtained, and is defined as the corresponding number of suction openings. Thereby obtaining a more accurate mouth counting mode.

Example 4

An electronic cigarette control system according to the present invention includes:

the heater is used for heating and atomizing the tobacco tar;

the controller is used for turning on or off the heater to heat and atomize the tobacco tar;

the timer is used for recording the single suction time and accumulating the total heating time;

the time counter is used for recording the pumping times and accumulating the pumping times;

a gas flow meter for recording gas flow and/or gas pressure;

a memory storing at least one program instruction to implement the electronic cigarette control method according to any one of the embodiments of the present invention;

and the processor is used for loading and executing the program instructions stored in the memory for realizing the electronic cigarette control method.

And the communication module is in communication connection with the client and is used for a user to perform interface operation and adjust parameters for realizing various embodiments of the invention.

The communication mode comprises WiFi or Bluetooth, and the client comprises a personal PC or a mobile phone and the like.

The communication module is arranged to participate in the setting of the control parameters of the electronic cigarette through the terminal, so that the electronic cigarette is more convenient, quicker, more visual and simpler to control and set.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention, and any modifications, substitutions, combinations, and the like without departing from the spirit of the present invention should be included in the scope of the present invention.

Claims (10)

1. An electronic cigarette control method comprises the following steps:

s1, sucking the electronic cigarette;

s2, when the continuous pumping action exceeds the set times, controlling a heater to start atomization operation;

s3, detecting the single average suction time and/or the single average inspiration capacity of the continuous suction action of starting the atomization operation;

s4, when the single average suction time reaches a first time threshold and/or the single average suction volume reaches a first suction volume threshold, controlling a power supply to heat a heater at a first output voltage; when the single average suction time reaches a second time threshold value and does not reach the first time threshold value and/or the single average inspiration amount reaches a second inspiration amount threshold value and does not reach the first inspiration amount threshold value, controlling the power supply to heat the heater at a second output voltage;

s5, when the heater is heated by the first output voltage and the accumulated heating time reaches a first accumulated time threshold value, controlling the heater to close atomization operation; when the heater is heated by the second output voltage and the accumulated heating time reaches a second accumulated time threshold value, controlling the heater to close the atomization operation;

and S6, when the accumulated heating time is less than the first accumulated time threshold and the second accumulated time threshold, controlling the heater to close the atomization operation if the time interval between two continuous times of suction is greater than the first time interval threshold.

2. The electronic cigarette control method according to claim 1, wherein in step S2, the continuous smoking action is that the time interval between two consecutive smoking actions is smaller than a second time interval threshold value, and the second time interval threshold value is smaller than the first time interval threshold value.

3. The electronic cigarette control method of claim 2, wherein the number of consecutive puffs is adjustable and greater than 2.

4. The electronic cigarette control method according to claim 1, in step S4, the usage parameters of the electronic cigarette are detected, the usage parameters include total battery usage duration, remaining battery power, heater usage duration, and heater model, and the heater is heated by determining the third output voltage according to the total battery usage duration, remaining battery power, heater usage duration, or heater model, and the first output voltage or the second output voltage.

5. The electronic cigarette control method according to claim 4, wherein the fourth output voltage is obtained according to the usage parameters of the electronic cigarette.

6. The electronic cigarette control method of claim 5, wherein if the first output voltage or the second output voltage is less than the fourth output voltage, the first output voltage or the second output voltage is taken as the third output voltage; and if the first output voltage or the second output voltage is greater than the fourth output voltage, taking the fourth output voltage as a third output voltage.

7. The electronic cigarette control method according to claim 1, wherein in step S5, the total number of puffs is used as a basis for controlling the heater to be turned off; recording the pressure generated in each suction process, recording the duration of each suction process, obtaining the ratio of the duration of each suction process to the pressure generated in each suction process, and increasing the number of suction ports by a first weight if the ratio is less than a first ratio threshold; if the ratio is between the first ratio threshold and the second ratio threshold, increasing the number of pumping ports by a second weight; if the ratio is greater than the second ratio threshold, the number of pumping ports is increased by a third weight.

8. The electronic cigarette control method of claim 7, wherein the total number of puffs is accumulated, and the heater is controlled to turn off the atomizing operation when the total number of puffs reaches a certain number.

9. The electronic cigarette control method of claim 1 or 8, in step S5, after controlling the heater to turn off the atomizing operation, locking the electronic cigarette heater.

10. An electronic cigarette control system comprising:

the heater is used for heating and atomizing the tobacco tar;

the controller is used for turning on or off the heater to heat and atomize the tobacco tar;

the timer is used for recording the single suction time and accumulating the total heating time;

the time counter is used for recording the pumping times and accumulating the pumping times;

a gas flow meter for recording gas flow and/or gas pressure;

a memory storing at least one program instruction to implement the electronic cigarette control method of any one of claims 1-9;

the processor is used for loading and executing the program instructions stored in the memory for realizing the electronic cigarette control method;

and the communication module is in communication connection with the client and is used for a user to perform interface operation.

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