CN110506999B - Electronic cigarette control method and electronic cigarette - Google Patents

Abstract

The invention discloses an electronic cigarette control method and an electronic cigarette, wherein the method comprises the following steps: acquiring a work starting signal of the electronic cigarette; acquiring a time interval between the work starting and the last work stopping; when the time interval is greater than a first preset time interval, controlling the electronic cigarette to work at a first power, and if the duration of the first power is greater than a first preset duration, closing the electronic cigarette; when the time interval is greater than a second preset time interval and less than or equal to the first preset time interval, controlling the electronic cigarette to work at a second power, and if the duration of the second power is greater than the second preset duration, closing the electronic cigarette; wherein the first power is greater than the second power. The invention can realize stable smoke amount when the electronic cigarette works and avoid mouth burning of a user when smoking.

Description

Electronic cigarette control method and electronic cigarette

Technical Field

The invention relates to the field of electronic smoking sets, in particular to an electronic cigarette control method and an electronic cigarette.

Background

At present, the electronic cigarette has two working modes, one is full power output heating, and the other is constant power output heating. To full power output heating methods, the operating power of electron cigarette heating module can receive the influence of power module power, causes the aerial fog volume of device atomizing when power module electric quantity is sufficient and the electric quantity is not enough different, and the smog volume is unstable, and electron cigarette calorific capacity is great when inhaling a few mouthfuls of cigarettes in front moreover, scalds the mouth easily, and user experience feels poor. For a heating mode with constant power output, under the condition of cold start (the heating mode is started after long standing time), the amount of the aerosol is very small when the device is started, and therefore the amount of the aerosol is unstable.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an electronic cigarette control method and an electronic cigarette, wherein the electronic cigarette control method has relatively stable smoke amount and can avoid burning the mouth.

In a first aspect, to solve the above technical problem, the present invention provides an electronic cigarette control method, including:

acquiring a work starting signal of the electronic cigarette;

acquiring a time interval between the work starting and the last work stopping;

comparing the time interval with a preset time interval, controlling the electronic cigarette to work at a first power when the time interval is greater than a first preset time interval, and closing the electronic cigarette if the duration of the first power is greater than a first preset duration; when the time interval is greater than a second preset time interval and less than or equal to the first preset time interval, controlling the electronic cigarette to work at a second power, and if the duration of the second power is greater than the second preset duration, closing the electronic cigarette; wherein the first power is greater than the second power.

Further, the first preset duration is less than the second preset duration.

Further, the second preset time interval is 0 second.

Further, the electronic cigarette control method further comprises: when the time interval is smaller than or equal to a second preset time interval, controlling the electronic cigarette to work at a third power, and if the duration of the third power is longer than a third preset duration, closing the electronic cigarette; wherein the second power is greater than the third power.

Further, the second preset duration is less than the third preset duration.

Further, before the obtaining of the time interval between the work starting and the work stopping last time, the method further includes:

acquiring residual tobacco tar information;

comparing the residual amount of the tobacco tar with a preset residual amount of the tobacco tar to judge whether the residual amount of the tobacco tar is smaller than a first preset residual amount;

and when the residual amount of the tobacco tar is smaller than the first preset residual amount, controlling the electronic cigarette to keep a closing state.

Further, when the residual amount of the tobacco tar is larger than or equal to the first preset residual amount and smaller than a second preset residual amount, the electronic cigarette is controlled to work at a fourth power, wherein the fourth power is smaller than the first power.

Further, the fourth power is less than the second power.

Further, before the obtaining of the time interval between the current start of operation and the last stop of operation, the method further includes:

acquiring environmental temperature information;

and adjusting the first preset time interval and the second preset time interval according to the ambient temperature.

Further, the first preset time interval and the second preset time interval are proportional to the ambient temperature.

Further, the first power and the second power are inversely proportional to the ambient temperature.

Further, the first power or/and the second power is a constant power.

Further, the first preset time interval is not less than 60 seconds, or/and the second preset time interval is not less than 15 seconds.

Further, the method for acquiring the time interval between the current work start and the last work stop comprises the following steps: the method comprises the steps of obtaining the time interval between the start of sending the induction signal and the last stop of sending the induction signal by the airflow inductor of the electronic cigarette, or obtaining the time interval between the start of working and the last stop of working of the electric heating element of the electronic cigarette.

In a second aspect, the present invention also discloses an electronic cigarette, comprising:

at least one processor; and (c) a second step of,

a memory communicatively coupled to the at least one processor;

wherein the memory is configured to store instructions executable by the at least one processor, and the instructions are executed by the at least one processor to enable the at least one processor to execute the control method according to any one of the first aspect.

The invention has the beneficial effects that: in the electronic cigarette control method, when the time interval is greater than a first preset time interval, the electronic cigarette is controlled to work at a first power, when the time interval is greater than a second preset time interval and is less than or equal to the first preset time interval, the electronic cigarette is controlled to work at a second power, so that under the condition of cold start, a larger smoke amount can be generated, the smoke amount of each cigarette can be relatively stable, and if the duration of the first power is greater than the first preset duration, the electronic cigarette is closed, so that the mouth burning caused by overlong working time is better avoided.

Drawings

Figure 1 is a flow chart of an electronic cigarette control method according to a first embodiment of the invention.

Figure 2 is a flow chart of an electronic cigarette control method according to a second embodiment of the invention.

Figure 3 is a flow chart of an electronic cigarette control method according to a third embodiment of the invention.

Figure 4 is a flow chart of an electronic cigarette control method according to a fourth embodiment of the invention.

Figure 5 is a schematic diagram of an electronic cigarette according to a fifth embodiment of the invention.

Detailed Description

In order to make the purpose of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

As shown in fig. 1, the present invention provides an electronic cigarette control method, including the steps of:

s1, acquiring a work starting signal of the electronic cigarette;

whether the work starting signal of the electronic cigarette exists or not can be detected through the sensor or the button switch, and if the sensor detects or the button switch is triggered, the work starting signal exists. That is, the operation starting signal can be generated by a sensor or a manual control button; such as manually generated: the key is arranged on the surface of the electronic cigarette, and when the key is pressed down, a signal for starting smoking is sent out, namely the work starting signal is generated; if automatically generating: the user inhales the suction nozzle on the electronic cigarette, so that the air pressure of the air flow in the electronic cigarette changes, and a work starting signal is generated. A controller connected to the sensor or push button switch obtains the operation start signal. Wherein, the controller can be a singlechip or the like. It is to be understood that the method of acquiring the operation start signal of the electronic cigarette may also be acquired by an acousto-optic element, and the like, and therefore, the method is not particularly limited herein. In this embodiment, the controller of the electronic cigarette cyclically scans the airflow sensor of the electronic cigarette to obtain the operation start signal of the electronic cigarette.

S2, acquiring a time interval between the work starting and the work stopping at the last time;

the time interval between the current work and the last work stop is the time interval between the current cigarette and the previous cigarette, namely the time difference between the two cigarettes, and the time record of each smoking can be recorded locally or in the cloud. The method for acquiring the time interval between the current work start and the last work stop may be: the method comprises the steps of obtaining the time interval between the start of sending the induction signal and the stop of sending the induction signal at the last time by the airflow inductor of the electronic cigarette at this time, or obtaining the time interval between the start of working and the stop of working of the electric heating element of the electronic cigarette at this time. For example, when a user sucks the electronic cigarette, the air flow sensor of the electronic cigarette detects a work starting signal generated by the user due to the suction, the controller of the electronic cigarette obtains the work starting signal through the air flow sensor, so that the electric heating element of the electronic cigarette is controlled to work to atomize tobacco tar to form aerosol, and when each cigarette is sucked, the electric heating element stops working, and the controller records the time for the electric heating element to stop working. When the user smokes again, the controller controls the electric heating element of the electronic cigarette to work again and records the time when the electric heating element starts to work.

That is to say, in two adjacent cigarettes, the time for stopping the electric heating element and the time for starting the electric heating element are the time interval. It can be understood that, in an embodiment, when the operation start signal of the electronic cigarette is obtained by triggering the button switch, in two adjacent cigarettes, the time difference between the stop time of the operation start signal and the on time of the operation start signal is the time interval. Therefore, the method for obtaining the time interval between the current start operation and the last stop operation is not particularly limited herein.

S3, comparing the time interval with a preset time interval, controlling the electronic cigarette to work at a first power when the time interval is greater than a first preset time interval, and closing the electronic cigarette if the duration of the first power is greater than a first preset duration; when the time interval is greater than a second preset time interval and less than or equal to the first preset time interval, controlling the electronic cigarette to work at a second power, and if the duration of the second power is greater than a second preset duration, closing the electronic cigarette; wherein the first power is greater than the second power.

The first preset time interval is greater than the second preset time interval, and the first preset time interval and the second preset time interval may be set as needed, for example, the first preset time interval may be 40 seconds, 50 seconds, or 60 seconds, the second preset time interval may be 10 seconds, 15 seconds, or 20 seconds, or the like, and certainly, the second preset time interval may also be 0 second, which is not specifically limited herein. In a preferred embodiment of the present invention, the first preset time interval is not less than 60 seconds, or/and the second preset time interval is not less than 15 seconds, so as to better conform to the usage habit of the user, thereby providing a smoke amount suitable for the user to inhale, and providing a good experience.

The first power and the second power may be set according to the type of the electronic cigarette and the type of the tobacco tar, and are not particularly limited herein. When the electronic cigarette heating device starts to work, the duty ratio of a pulse width modulation signal is calculated by collecting the voltage of a power supply battery of the electronic cigarette, according to the voltage of the power supply battery and the preset first power or second power, and then the conduction of a semiconductor switch for controlling the electric heating element to work is controlled according to the calculated pulse width modulation signal, so that the electric heating element is heated and controlled. It is understood that the first power and the second power may be variable power or constant power. In a preferred embodiment of the present invention, the first power and the second power are constant power, thereby facilitating control.

Preferably, the first preset duration is less than the second preset duration, and the first preset duration and the second preset duration can be set as required, for example, can be 6 seconds, 7 seconds, 8 seconds, 9 seconds, or 10 seconds, in this embodiment, the first preset duration is 6 seconds, and the second preset duration is 9 seconds. And if the duration time of the first power is longer than a first preset duration time, closing the electronic cigarette, namely controlling the semiconductor switch for controlling the electric heating element to work to be not conducted. Similarly, if the duration of the second power is greater than a second preset duration, the electronic cigarette is turned off. Namely, the duration of the electronic cigarette in high-power work is controlled to be shorter than the duration of the electronic cigarette in low-power work, so that the smoke quantity can be better ensured, and the phenomenon that the mouth is scalded due to overlong work time can be avoided.

Example 2

Referring to fig. 2, the present embodiment has the same steps as those of embodiment 1, except that: step S3 of the electronic cigarette control method of this embodiment further includes: when the time interval is smaller than or equal to a second preset time interval, controlling the electronic cigarette to work at a third power, and if the duration of the third power is longer than a third preset duration, closing the electronic cigarette; wherein the second power is greater than the third power.

The third power and the third preset duration may be set as needed as long as the second power is greater than the third power. Preferably, the second preset duration is less than a third preset duration. This embodiment carries out the atomizing tobacco tar through corresponding a plurality of different powers that set up a plurality of different time intervals with smoking in-process, and power is big more, and duration is short more, and power is little less, and duration is long more, therefore has improved the stability of cigarette volume better and has avoided the too high and problem of scalding the mouth of temperature.

Example 3

Referring to fig. 3, the present embodiment is similar to the step of embodiment 1, and the difference is that: before the obtaining of the time interval between the current start of work and the last stop of work, this embodiment further includes the steps of:

s11, acquiring residual tobacco tar information;

before the user uses the electron cigarette, the tobacco tar has been annotated in the electron cigarette and has been written the tobacco tar total amount in the memory of electron cigarette, and the electron cigarette is at the course of the work, and the consumption and the power of tobacco tar become positive correlation, and when every mouth cigarette of inhaling of user, the controller of electron cigarette basis according the tobacco tar consumption of every mouthful cigarette of inhaling is calculated to power and the time of inhaling every mouthful cigarette, subtracts the tobacco tar total amount before smoking behind every mouthful cigarette the tobacco tar consumption of every mouthful cigarette of inhaling, just calculates the current tobacco tar surplus of electron cigarette to write in the current tobacco tar surplus in the memory of electron cigarette. Therefore, after the operation start signal is acquired and before the time interval between the acquisition of the current operation start and the last operation stop, the current remaining amount of the tobacco tar is acquired by reading the remaining amount of the tobacco tar in the memory. It will be appreciated that the amount of smoke remaining may be varied in different ways depending on the type of smoke and electronic cigarette. Therefore, the method of obtaining the smoke residual is not particularly limited herein.

S12, comparing the residual amount of the tobacco tar with a preset residual amount of the tobacco tar to judge whether the residual amount of the tobacco tar is smaller than a first preset residual amount;

and calculating the difference between the residual amount of the tobacco tar read from the memory and the residual amount of the tobacco tar preset in the memory to obtain the residual amount of the tobacco tar.

And S13, when the residual amount of the tobacco tar is smaller than the first preset residual amount, controlling the electronic cigarette to keep a closed state.

That is, when the remaining amount of the tobacco tar is very small and dry burning is likely to be caused immediately after smoking, the electronic cigarette is controlled to be kept in a closed state even if the operation starting signal is acquired, so that dry burning is avoided, and the health of a user is protected.

In a preferred embodiment of the present invention, when the remaining amount of the tobacco tar is greater than or equal to a first preset remaining amount and less than a second preset remaining amount, the electronic cigarette is controlled to operate at a fourth power, wherein the fourth power is less than the first power. That is to say, when the residual amount of the tobacco tar is larger than or equal to the first preset residual amount and smaller than the second preset residual amount, so that the cigarette cannot be drawn randomly, the electric heating element of the electronic cigarette is prevented from being burnt dry by working at low power, and the residual tobacco tar can be fully utilized to avoid waste. In a preferred embodiment of the present invention, the fourth power is smaller than the second power, so as to avoid dry burning better.

Example 4

Referring to fig. 4, the present embodiment has the same steps as those of embodiment 1, except that: before the obtaining of the time interval between the current start of work and the last stop of work, this embodiment further includes:

s14, obtaining environmental temperature information;

due to different environmental temperatures, the surface temperature of the electronic cigarette is different, and thus the heat transferred to the mouth of the user is different when smoking. The temperature sensor connected with the controller can be arranged on the electronic cigarette, and when the work starting signal is acquired, the temperature signal on the temperature sensor is read by the controller, so that the temperature of the environment around the electronic cigarette, namely the temperature of the environment used by a user can be acquired.

S15, adjusting the first preset time interval and the second preset time interval according to the ambient temperature.

The controller adjusts the first preset time interval and the second preset time interval according to the environment temperature, so that better user experience can be obtained in regions with different temperatures. Preferably, the first predetermined time interval and the second predetermined time interval are proportional to the ambient temperature, and the first power and the second power are inversely proportional to the ambient temperature. That is, when the ambient temperature is higher, the first preset time interval and the second preset time interval are longer, and the first power and the second power are smaller, so that mouth burning can be better avoided. When the ambient temperature is lower, the first preset time interval and the second preset time interval are shorter, and the first power and the second power are higher, so that the smoke amount can be better ensured, and enough heat can be provided for a user in a cold environment.

Example 5

Referring to fig. 5, an embodiment of the present invention further provides an electronic cigarette, including:

one or more processors 1 and memory 2;

the electronic cigarette further comprises an airflow sensor 3 and an electric heating element 4 which are electrically connected with the processor 1, and the processor 1 controls the electric heating element 4 to atomize the tobacco tar to form smoke according to a trigger signal sent by the airflow sensor 3. The electric heating element 4 may be a heating wire or a heating plate.

The processor 1 and the memory 2 may be connected by a bus or in other manners, the processor 1 may also be referred to as a controller, and the processor 1 may be a single chip, and the like, which is not limited herein.

The memory 2 is used as a non-volatile computer-readable storage medium, and can be used to store non-volatile software programs, non-volatile computer-executable programs, and modules, such as program instructions/modules/units corresponding to the electronic cigarette control method in the embodiment of the present application. The processor 1 executes various functional applications and data processing by running the non-volatile software programs, instructions and modules/units stored in the memory 2, i.e. implements the electronic cigarette control method of the above-described method embodiment.

The memory 2 may include a program storage area and a data storage area, wherein the program storage area may store an operating system, an application program required for at least one function; the data storage area may store data created from use of the generation apparatus of the instruction set, and the like. Further, the memory 2 may include a high speed random access memory 2, and may also include a non-volatile memory 2, such as at least one 2-piece of disk memory, flash memory device, or other non-volatile solid state memory 2. In some embodiments, the memory 2 optionally comprises a memory 2 remotely located with respect to the processor 1, these remote memories 2 being connectable via a network to the means for generating the instruction set. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The one or more modules are stored in the memory 2 and, when executed by the one or more processors 1, perform the electronic cigarette control method of any of the method embodiments described above.

In summary, in the electronic cigarette control method according to the present invention, when the time interval is greater than the first preset time interval, the electronic cigarette is controlled to operate at the first power, and when the time interval is greater than the second preset time interval and is less than or equal to the first preset time interval, the electronic cigarette is controlled to operate at the second power, so that a larger amount of smoke can be generated even in a cold start, and thus the amount of smoke in each cigarette can be relatively stable. In addition, if the duration of the second power is longer than a second preset duration, the electronic cigarette is closed, and the first preset duration is shorter than the second preset duration. That is, when the power is adjusted to be small, by increasing the length of time that each cigarette can be smoked, a constant amount of smoke and heat generation amount are obtained to achieve the stabilization of the amount of smoke and avoid burning the mouth.

The above examples are only some embodiments listed in the present specification for facilitating understanding of the disclosure, and are not intended to limit the technical solutions of the present invention, and not to be exhaustive of all the possible embodiments, so that any minor modifications or equivalent substitutions made to the structures, processes or steps of the present invention should be included in the scope of protection.

Claims (12)

1. An electronic cigarette control method, characterized by comprising:

acquiring a work starting signal of the electronic cigarette;

acquiring a time interval between the work starting and the last work stopping;

comparing the time interval with a preset time interval, controlling the electronic cigarette to work at a first power when the time interval is greater than a first preset time interval, and closing the electronic cigarette if the duration of the first power is greater than a first preset duration; when the time interval is greater than a second preset time interval and less than or equal to the first preset time interval, controlling the electronic cigarette to work at a second power, and if the duration of the second power is greater than the second preset duration, closing the electronic cigarette; the first power is greater than the second power, the first preset duration is less than the second preset duration, and the first power and the second power are constant power;

the method for acquiring the time interval between the work starting and the work stopping last time comprises the following steps: obtaining the time interval between the start of sending the induction signal and the last stop of sending the induction signal by the airflow inductor of the electronic cigarette;

the time interval between the current work and the last work stop refers to the time interval between the current cigarette and the previous cigarette.

2. The electronic cigarette control method of claim 1, wherein: the second preset time interval is 0 seconds.

3. The electronic cigarette control method of claim 1, wherein: the electronic cigarette control method further comprises: when the time interval is smaller than or equal to a second preset time interval, controlling the electronic cigarette to work at a third power, and if the duration of the third power is longer than a third preset duration, closing the electronic cigarette; wherein the second power is greater than the third power.

4. The electronic cigarette control method of claim 3, wherein: the second preset duration is less than the third preset duration.

5. The electronic cigarette control method of claim 1, wherein: before the obtaining of the time interval between the current work starting and the last work stopping, the method further includes:

acquiring residual tobacco tar information;

comparing the residual amount of the tobacco tar with a preset residual amount of the tobacco tar to judge whether the residual amount of the tobacco tar is smaller than a first preset residual amount;

and when the residual amount of the tobacco tar is smaller than the first preset residual amount, controlling the electronic cigarette to keep a closing state.

6. The electronic cigarette control method of claim 5, wherein: and when the residual amount of the tobacco tar is greater than or equal to the first preset residual amount and less than a second preset residual amount, controlling the electronic cigarette to work at a fourth power, wherein the fourth power is less than the first power.

7. The electronic cigarette control method of claim 6, wherein: the fourth power is less than the second power.

8. The electronic cigarette control method of claim 1, wherein: before the obtaining of the time interval between the current work starting and the last work stopping, the method further includes:

acquiring environmental temperature information;

and adjusting the first preset time interval and the second preset time interval according to the ambient temperature.

9. The electronic cigarette control method of claim 8, wherein: the first and second predetermined time intervals are proportional to the ambient temperature.

10. The electronic cigarette control method of claim 8, wherein: the first and second powers are inversely proportional to the ambient temperature.

11. The electronic cigarette control method of claim 1, wherein: the first preset time interval is not less than 60 seconds, or/and the second preset time interval is not less than 15 seconds.

12. An electronic cigarette, comprising:

at least one processor; and (c) a second step of,

a memory communicatively coupled to the at least one processor;

wherein the memory is configured to store instructions executable by the at least one processor to enable the at least one processor to perform the control method of any one of claims 1-11.

Images