WO2022110032A1

WO2022110032A1 - Target temperature setting method and apparatus for electronic cigarette

Info

Publication number: WO2022110032A1
Application number: PCT/CN2020/132308
Authority: WO
Inventors: 陈梓杰; 郭美玲; 周波
Original assignee: 昂纳自动化技术（深圳）有限公司
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2022-06-02

Abstract

A target temperature setting method and apparatus for an electronic cigarette, the method comprising: monitoring vaping actions of an electronic cigarette, so as to acquire effective vaping, wherein when a first interval time between the vaping actions is less than a first preset value, it is determined that the vaping actions are effective vaping (S1); counting the instances of effective vaping in sequence, and also starting time counting upon the end of each instance of effective vaping, so as to acquire a second interval time between the effective vaping and the next effective vaping, and stopping counting when the second interval time is greater than a second preset value, so as to acquire the current count as the number of consecutive instances of effective vaping (S2); when the number of consecutive instances of effective vaping is a preset number, acquiring the current target temperature in order to adjust the temperature once according to a preset step on the basis of the current target temperature, so as to acquire an adjusted temperature (S3); and performing temperature control with the adjusted temperature as a final target temperature (S4). Therefore, the product volume is reduced while the setting of a target temperature is achieved.

Description

Method and device for setting target temperature of electronic cigarette

technical field

The present invention relates to the technical field of electronic cigarettes, and more particularly, to a method and device for setting a target temperature of electronic cigarettes.

Background technique

As a substitute for cigarettes, electronic cigarettes are mainly used to simulate the feeling of smoking without affecting health. The existing electronic cigarettes are divided into two parts: atomization device and power supply device. Power it and atomize the liquid for consumers to smoke.

The atomizing device can play the best effect at a certain temperature or a certain temperature, which makes the smoking of the electronic cigarette have a good experience. Therefore, the temperature-controlled version of the electronic cigarette came into being. , There are differences in the demand of smoke impact, which needs to be changed by adjusting the temperature. The existing electronic cigarette adjusts the temperature by adding a touch screen, knob or button to the structure, which leads to complicated structural design, increased structural parts, high cost and volume. large, affecting the appearance.

technical problem

The technical problem to be solved by the present invention is to provide a method and device for setting the target temperature of an electronic cigarette, aiming at the above-mentioned part of the technical defects of the prior art.

technical solutions

The technical solution adopted by the present invention to solve the technical problem is to construct a method for setting the target temperature of an electronic cigarette, including:

S1. Monitor the smoking action of the electronic cigarette to obtain effective smoking, wherein, when the first interval time of the smoking action is less than a first preset value, it is determined that the smoking action is effective smoking;

S2. Count the effective puffs in turn, and start timing at the end of each effective puff to obtain the second interval time between the effective puff and the next effective puff, and the second interval time is greater than the first effective puff. When the preset value is 2, stop counting, and obtain the current count as the number of continuous effective puffs;

S3. When the number of continuous effective suctions is a preset number of times, obtain the current target temperature to adjust the temperature once in a preset step on the basis of the current target temperature to obtain the adjusted temperature;

S4, performing temperature control with the adjusted temperature as the final target temperature.

Preferably, in the step S3, when the number of consecutive effective puffs is a preset number of times, the current target temperature is obtained to adjust the temperature according to a preset step on the basis of the current target temperature to obtain the adjusted temperature ;include:

When the number of continuous effective suctions is the first preset number of times, on the basis of the current target temperature, adjust upwards once according to the first step to obtain the adjusted temperature;

When the number of consecutive effective suctions is the second preset number of times, the adjusted temperature is obtained by adjusting downwards once in a second step on the basis of the current target temperature.

Preferably, the method for setting the target temperature of an electronic cigarette of the present invention further includes: performing the following steps while performing the step S4:

S41. Acquire a first difference between the adjusted temperature and a preset temperature, and generate a corresponding prompt signal according to the first difference.

Preferably, in the step S41, the generating a corresponding prompt signal according to the first difference value includes:

A first prompt signal is generated when the first difference is a positive value, and a second prompt signal is generated when the first difference is a negative value.

Preferably,

The first prompt signal is an LED flashing signal, and in the step S41, the generating a first prompt signal when the first difference value is a positive value includes:

Obtain a first ratio between the absolute value of the first difference and a third preset value, and generate an LED flickering signal of a first flickering speed and a first flickering number, wherein the first flickering number and the first ratio are correspond; and/or

The second prompt signal is an LED flashing signal. In the step S41, the generating a second prompt signal when the first difference value is a negative value includes:

Obtain a second ratio between the absolute value of the first difference and a fourth preset value, and generate an LED flashing signal of a second flashing speed and a second flashing count, wherein the first flashing count and the second ratio are correspond.

Preferably, the third preset value is the same as the first step value, and the fourth preset value is the same as the second step value.

Preferably, the electronic cigarette target temperature setting method of the present invention further includes:

When the number of consecutive effective puffs is the first preset number of times, determine whether the current target temperature is less than the first temperature limit value, and if so, adjust the current target temperature upwards once according to the first step to obtain the adjusted temperature, otherwise the current target temperature is used as the final target temperature for temperature control;

When the number of consecutive effective puffs is the second preset number of times, determine whether the current target temperature is greater than the second temperature limit value, and if so, adjust the current target temperature downward according to the second step once to obtain the adjusted temperature, otherwise, the current target temperature is used as the final target temperature for temperature control.

S31. Confirm the number of consecutive effective puffs to obtain a second difference between the current target temperature and the preset temperature when the number of consecutive effective puffs is a third preset number, and obtain a second difference between the current target temperature and the preset temperature according to the second The difference value generates a corresponding third prompt signal.

Preferably, the third prompt signal is an LED flashing signal, and in step S31, the second difference between the current target temperature and the preset temperature is obtained, and a corresponding value is generated according to the second difference. The third prompt signal; including:

Obtain the absolute value of the second difference and the second ratio ratio of the third step, and when the second difference is a positive value, generate an LED flashing signal with a third flashing speed and a third flashing number, and in When the second difference is a negative value, an LED blinking signal of a fourth blinking speed and the third blinking number is generated, wherein the third blinking number corresponds to the second ratio.

The present invention also constructs an electronic cigarette target temperature setting device, comprising:

The first execution unit is used to monitor the smoking action of the electronic cigarette to obtain effective smoking, wherein when the first interval time of the smoking action is less than a first preset value, it is determined that the smoking action is effective smoking Suck;

The second execution unit is used to count the effective suction in sequence, and start timing at the end of each effective suction, so as to obtain the second interval time between the effective suction and the next effective suction, and at the first effective suction When the second interval time is greater than the second preset value, stop counting, and obtain the current count as the number of continuous effective puffs;

a third execution unit, configured to obtain a current target temperature when the number of continuous effective suctions is a preset number of times to adjust the temperature once in a preset step on the basis of the current target temperature to obtain the adjusted temperature;

The fourth execution unit is configured to perform temperature control with the adjusted temperature as the final target temperature.

beneficial effect

Implementing the method and device for setting the target temperature of an electronic cigarette of the present invention has the following beneficial effects: while achieving the setting of the target temperature, the volume of the product is saved.

Description of drawings

The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

Fig. 1 is a program flow chart of an embodiment of a method for setting a target temperature of an electronic cigarette according to the present invention;

Fig. 2 is a program flow chart of another embodiment of a method for setting a target temperature of an electronic cigarette of the present invention;

3 is a schematic structural diagram of a first embodiment of an electronic cigarette target temperature setting device according to the present invention.

Embodiments of the present invention

In order to have a clearer understanding of the technical features, objects and effects of the present invention, the specific embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in FIG. 1 , in the first embodiment of a method for setting a target temperature of an electronic cigarette of the present invention, S1, monitoring the smoking action of the electronic cigarette to obtain effective smoking, wherein, in the first interval time of the smoking action When it is less than the first preset value, it is determined that the suction action is effective suction; specifically, in the process of setting the target temperature, whether it is an effective suction is judged according to the suction frequency of the suction action, which is determined by the suction of the suction action. The determination of the suction frequency can also be understood as the determination based on the interval time of the suction action, that is, the first interval time. Effective suction is monitored throughout the target temperature setting process. In one embodiment, the first preset value is less than or equal to 0.5s; that is, the suction action with the suction frequency greater than the activity equal to 2 Hz can be used as the effective suction.

S2. Count the effective puffs in sequence, and start timing at the end of each effective puff to obtain the second interval time between the effective puff and the next effective puff, and when the second interval time is greater than the second preset time When the value is set, the count is stopped, and the current count is obtained as the number of consecutive effective puffs; specifically, the effective puffs are counted, that is, an effective puff is determined, a count is performed, and each effective puff and the next effective puff are obtained at the same time. The interval time is the second interval time. According to the interval time, it is judged whether the effective suction is the last count, that is, whether the count needs to be ended. The judging criterion for the end of counting is that when the interval between the effective suction and the effective suction after it is long to a certain extent, that is, when the second interval is greater than a second preset value, the effective suction is used as the last count to end. Count to get the number of consecutive effective puffs. In one embodiment, the second preset value is greater than or equal to 1 s; that is, if there is no next effective puff within 1 s after the end of the effective puff, the current effective puff is the last count to obtain continuous effective puffs count. And when there is a next effective puff within 1 s after the effective puff ends, further counting is performed to obtain a new continuous effective puff count.

S3. When the number of consecutive effective puffs is a preset number of times, obtain the current target temperature to adjust the temperature once in a preset step on the basis of the current target temperature to obtain the adjusted temperature; specifically, according to the obtained effective puff times, When the effective suction times meet the preset times, it adjusts the temperature once on the basis of the current target temperature according to the preset times, and the adjustment process is adjusted according to the preset steps to obtain the adjusted adjusted temperature.

S4, take the adjusted temperature as the final target temperature for temperature control. That is, after the adjusted temperature is obtained, the adjusted temperature is used as the final target temperature for temperature control, and the setting or update of the final target temperature is realized. With the detected effective suction, corresponding temperature adjustment is made according to the effective suction to obtain the final target temperature.

Optionally, in a method for setting a target temperature of an electronic cigarette of the present invention, in step S3, when the number of consecutive effective puffs is a preset number of times, the current target temperature is obtained to follow the preset value on the basis of the current target temperature. Step by step to adjust the temperature once to obtain the adjusted temperature; including: when the number of continuous effective suctions is the first preset number of times, on the basis of the current target temperature, adjust upwards once according to the first step to obtain the adjusted temperature; when the continuous effective suction is performed When the number of suctions is the second preset number of times, on the basis of the current target temperature, adjust down once in a second step to obtain the adjusted temperature. That is, the setting of the final target temperature can be adjusted upward based on the current target temperature, that is, the temperature is increased on the basis of the current target temperature to obtain the adjusted temperature, and the setting of the final target temperature can also be adjusted downward based on the current target temperature, That is, the temperature is reduced on the basis of the current target temperature to obtain the adjusted temperature. Whether it is adjusted upward or downward can be determined according to the number of continuous effective puffs. When the number of continuous effective puffs is the first preset number, it can be understood that the adjustment of the target temperature is upward adjustment. When the number of consecutive effective suctions is the second preset number of times, it can be understood that the adjustment of the target temperature is downward adjustment. After the adjustment, the temperature can be controlled with the final adjustment temperature obtained as the target temperature. In one embodiment, the first preset number of times and the second preset number of times are set in advance, for example, the first preset number of times is set to two times, and the second preset number of times is set to three times. According to whether the obtained continuous effective suction times are two or three, it can be specifically adjusted upward or downward.

As shown in FIG. 2 , in one embodiment, in a method for setting a target temperature of an electronic cigarette of the present invention, the method further includes: performing the following steps while performing step S4: S41 , obtaining the difference between the adjusted temperature and a preset temperature. The first difference value, and a corresponding prompt signal is generated according to the first difference value. Specifically, in the temperature adjustment process, after each time the adjusted temperature is obtained, the adjusted temperature is compared with the preset temperature to obtain the difference between the two, that is, the first difference, and a prompt signal is correspondingly generated according to the difference. Since the preset temperature is known, when the preset temperature is known, the prompt signal corresponds to the first difference, that is, it can be obtained that the prompt signal corresponds to the adjusted temperature, and the adjusted temperature is the set target temperature. The set target temperature can be obtained through the prompt signal. The preset temperature can be set when the electronic cigarette leaves the factory, that is, it can be understood as the factory target temperature or the default target temperature of the electronic cigarette.

Optionally, in step S41, generating the corresponding prompt signal according to the first difference value includes: generating a first prompt signal when the first difference value is a positive value, and generating a second prompt signal when the first difference value is a negative value. Specifically, it generates a prompt signal according to the first difference between the adjusted temperature and the preset temperature, and it can generate different types of prompt signals according to whether the adjusted temperature is higher than the preset temperature or lower than the preset temperature, so as to obtain the current Adjust the temperature to distinguish the prompt.

Optionally, the first prompt signal is an LED flashing signal. In step S41, generating a first prompt signal when the first difference value is a positive value includes: acquiring the absolute value of the first difference value and a third preset value The first ratio of , generates an LED flashing signal of the first flashing speed and the first flashing times, wherein the first flashing times corresponds to the first ratio; specifically, the LED flashing signal can be used for prompting, which can be confirmed according to the LED flashing speed. Whether the difference between the currently obtained adjustment temperature and the preset temperature is a positive value or a negative value, when the first difference value is a positive value, the flashing speed of the LED flashing signal can be set as the first flashing speed, that is, when the first flashing signal is obtained. When the flashing speed is one, it can be obtained that the currently obtained adjusted temperature is greater than the preset temperature. The continuous flickering times of the LED flickering signal, that is, the first flickering times, can also be determined by the ratio of the absolute value of the first difference to the third preset value. less often. It can also reasonably set the third preset value so that the corresponding ratio is an integer. At this time, the number of flashes is directly equal to the ratio. When the ratio is 1, it flashes once, and when the ratio is 2, it flashes twice. ,And so on. When the difference is zero, it will not flash directly. Since the third preset value is set and known in advance, it is possible to obtain the difference between the current adjusted temperature and the preset temperature according to the number of consecutive flashes of the LED flashing signal, and finally obtain the adjusted temperature obtained after the adjustment.

Optionally, the second prompt signal is an LED flashing signal. In step S41, generating a second prompt signal when the first difference value is a negative value includes: acquiring the absolute value of the first difference value and a fourth preset value The second ratio of , generates an LED flickering signal with a second flickering speed and a second flickering number, wherein the first flickering number corresponds to the second ratio. Specifically, the LED flashing signal can be used for prompting, and it can confirm whether the difference between the currently obtained adjusted temperature and the preset temperature is positive or negative according to the LED flashing speed. When the first difference is negative, The blinking speed of the LED blinking signal can be set as the second blinking speed, that is, when the second blinking speed is obtained, it can be obtained that the currently obtained adjusted temperature is less than the preset temperature. The continuous flickering times of the LED flickering signal, that is, the second flickering times can also be determined by the ratio of the absolute value of the first difference to the fourth preset value. The larger the ratio, the more flickering coefficients, and the smaller the ratio, the flicker less often. It can also reasonably set the fourth preset value so that the corresponding ratio is an integer. At this time, the number of flashes is directly equal to the ratio. When the ratio is 1, it flashes once, and when the ratio is 2, it flashes twice. ,And so on. When the difference is zero, it will not flash directly. Since the fourth preset value is set and known in advance, it is possible to obtain the difference between the current adjusted temperature and the preset temperature according to the number of consecutive flashes of the LED flashing signal, and finally obtain the adjusted temperature obtained after the adjustment.

Optionally, the values of the third preset value, the fourth preset value, the first step and the second step are all the same. Specifically, in order to quickly and conveniently obtain the currently obtained adjusted temperature through the number of flashes of the LED flashing signal, in the process of setting the temperature adjustment, the adjustment steps of the upward adjustment and the downward adjustment are the same. When the first difference value of the temperature is the same as the third preset value or the fourth preset value, when the third preset value and the fourth preset value are the same as the adjustment step, the obtained first ratio is an integer, The integer can be used as the first flickering number or the second flickering number, and the whole process is simpler.

Optionally, in a method for setting a target temperature of an electronic cigarette of the present invention, the method further includes: when the number of consecutive effective puffs is the first preset number of times, judging whether the current target temperature is less than the first temperature limit value, and if so, then On the basis of the current target temperature, adjust upward according to the first step to obtain the adjusted temperature, otherwise the current target temperature is used as the final target temperature for temperature control; when the number of consecutive effective puffs is the second preset number, the current target temperature is determined. Whether the temperature is greater than the second temperature limit value, if so, adjust the current target temperature downward according to the second step to obtain the adjusted temperature, otherwise, use the current target temperature as the final target temperature for temperature control. Specifically, after the adjustment process, it needs to confirm whether it can adjust the target temperature. That is, whether the current target temperature is at the limit value. For example, when it is determined that an upward adjustment is required based on the number of consecutive effective puffs, before adjustment, first determine whether the current target temperature has reached the upper limit of temperature adjustment, that is, determine whether the current target temperature is less than the first temperature limit value, if it is less than the first temperature limit A temperature limit value can be adjusted upwards, that is, based on the current target temperature, adjust upwards according to the first step to obtain the adjusted temperature, otherwise the current target temperature is used as the final target temperature for temperature control. For another example, when it is determined that downward adjustment is required according to the number of consecutive effective puffs, before adjustment, first determine whether the current target temperature has reached the lower limit of temperature adjustment, that is, determine whether the current target temperature is greater than the second temperature limit value, if If it is greater than the first temperature limit value, downward adjustment can be performed, that is, on the basis of the current target temperature, downward adjustment is performed according to the second step to obtain the adjusted temperature; otherwise, the current target temperature is used as the final target temperature for temperature control.

Further, the first temperature limit value is 1.3 times the preset temperature, and the second temperature limit value is 0.7 times the preset temperature. The upper limit of the temperature can be set based on the preset temperature. For example, the upper temperature limit, that is, the first temperature limit, can be 1.3 times the preset temperature, and the lower temperature limit is the second temperature limit. Can be 0.7 times the preset temperature.

Optionally, in a method for setting a target temperature of an electronic cigarette of the present invention, the method further includes: S31. Confirm the number of consecutive effective puffs to obtain the current target temperature and the preset number when the number of consecutive effective puffs is the third preset number of times. A second difference value of the temperature is set, and a corresponding third prompt signal is generated according to the second difference value. Specifically, during the working process of the electronic cigarette, it can also trigger the acquisition of the current target temperature according to the number of consecutive effective puffs. Specifically, the second difference between the current target temperature and the preset temperature is obtained when the number of consecutive effective suctions is the third preset number, and a corresponding third prompt signal is generated according to the difference. That is, the third prompt signal corresponds to the second difference value, so the second difference value can be obtained corresponding to the third prompt signal. Since the preset temperature is known, the obtained second difference value according to the preset temperature and the The final current target temperature can be derived. In one embodiment, the third preset number of times is set in advance, for example, the third preset number of times is set to four times, and when the acquired number of consecutive effective suctions is four times, the third prompt signal and The preset temperature obtains the corresponding current target temperature.

Optionally, the third prompt signal is an LED flashing signal. In step S31, a second difference between the current target temperature and the preset temperature is obtained, and a corresponding third prompt signal is generated according to the second difference; including: obtaining the second difference The absolute value of the value is the ratio of the second ratio of the third step, and when the second difference is a positive value, the LED flashing signal of the third flashing speed and the third flashing times is generated, and when the second difference is a negative value , generating an LED blinking signal with a fourth blinking speed and a third blinking number, wherein the third blinking number corresponds to the second ratio. Specifically, the third prompt signal may be an LED flashing signal, and the process of generating the corresponding third prompt signal according to the second difference value may be, when the second difference value is a positive value, the third prompt signal is based on the third The LED flashing signal flashing at the flashing speed, when the second difference is negative, the third prompt signal is the LED flashing signal flashing at the fourth flashing speed. The number of consecutive blinks of the LED blinking signal can also be determined by the ratio of the absolute value of the difference to the third step. It can also reasonably set the third step so that the corresponding ratio is an integer. At this time, the number of flashes is directly equal to the ratio. When the ratio is 1, it flashes once, and when the ratio is 2, it flashes twice. And so on. When the difference is zero, it will not flash directly. Through this step, the currently set target temperature can be queried, and the difference between the current target temperature and the preset temperature can be obtained according to the flashing speed and the number of flashes of the LED flashing signal. The preset temperature is usually a known temperature, and finally according to this The difference gets the current target temperature.

Optionally, the first step and the second step are the same as the third step; in order to perform upward adjustment, the processing process of downward adjustment and query of target temperature is simpler, and it sets the first step of upward adjustment. The same value is taken for the second step of forward and downward adjustment and the third step of the ratio corresponding to the difference.

In addition, as shown in FIG. 3, an electronic cigarette target temperature setting device of the present invention includes:

The first execution unit 110 is configured to monitor the puffing action of the electronic cigarette to obtain effective puffing, wherein when the first interval time of the puffing action is less than the first preset value, it is determined that the puffing action is effective puffing;

The second execution unit 120 is configured to count the effective puffs in sequence, and start timing at the end of each effective puff, so as to obtain the second interval time between the effective puff and the next effective puff, and at the second Stop counting when the interval time is greater than the second preset value, and obtain the current count as the number of continuous effective puffs;

The third execution unit 130 is configured to acquire the current target temperature when the number of consecutive effective puffs is a preset number of times, so as to adjust the temperature once in a preset step on the basis of the current target temperature to acquire the adjusted temperature;

The fourth execution unit 140 is configured to perform temperature control with the adjusted temperature as the final target temperature.

Specifically, the specific cooperation operation process between the units of the electronic cigarette target temperature setting device here can refer to the above-mentioned electronic cigarette target temperature setting method, which will not be repeated here.

It can be understood that the above examples only represent the preferred embodiments of the present invention, and the descriptions thereof are more specific and detailed, but should not be construed as a limitation on the scope of the patent of the present invention; it should be noted that for those of ordinary skill in the art In other words, without departing from the concept of the present invention, the above-mentioned technical features can be freely combined, and some deformations and improvements can also be made, and these all belong to the protection scope of the present invention; All equivalent transformations and modifications made shall fall within the scope of the claims of the present invention.

Claims

A method for setting a target temperature of an electronic cigarette, comprising:

S1. Monitor the smoking action of the electronic cigarette to obtain effective smoking, wherein, when the first interval time of the smoking action is less than a first preset value, it is determined that the smoking action is effective smoking;

S2. Count the effective puffs in turn, and start timing at the end of each effective puff to obtain the second interval time between the effective puff and the next effective puff, and the second interval time is greater than the first effective puff. When the preset value is 2, stop counting, and obtain the current count as the number of continuous effective puffs;

S3. When the number of continuous effective suctions is a preset number of times, obtain the current target temperature to adjust the temperature once in a preset step on the basis of the current target temperature to obtain the adjusted temperature;

S4, performing temperature control with the adjusted temperature as the final target temperature.
The method for setting a target temperature of an electronic cigarette according to claim 1, wherein in the step S3, when the number of consecutive effective puffs is a preset number of times, the current target temperature is obtained to On the basis of the preset step, adjust the temperature once to obtain the adjusted temperature; including:

When the number of continuous effective suctions is the first preset number of times, on the basis of the current target temperature, adjust upwards once according to the first step to obtain the adjusted temperature;

When the number of consecutive effective suctions is the second preset number of times, the adjusted temperature is obtained by adjusting downwards once in a second step on the basis of the current target temperature.
The method for setting the target temperature of an electronic cigarette according to claim 2, wherein the method further comprises: performing the following steps while performing the step S4:

S41. Acquire a first difference between the adjusted temperature and a preset temperature, and generate a corresponding prompt signal according to the first difference.
The method for setting the target temperature of an electronic cigarette according to claim 3, wherein in the step S41, the generating a corresponding prompt signal according to the first difference value comprises:

A first prompt signal is generated when the first difference is a positive value, and a second prompt signal is generated when the first difference is a negative value.
The electronic cigarette target temperature setting method according to claim 4, wherein,

The first prompt signal is an LED flashing signal, and in the step S41, the generating a first prompt signal when the first difference value is a positive value includes:

Obtain a first ratio between the absolute value of the first difference and a third preset value, and generate an LED flickering signal of a first flickering speed and a first flickering number, wherein the first flickering number and the first ratio are correspond; and/or

The second prompt signal is an LED flashing signal. In the step S41, the generating a second prompt signal when the first difference value is a negative value includes:

Obtain a second ratio between the absolute value of the first difference and a fourth preset value, and generate an LED flashing signal of a second flashing speed and a second flashing count, wherein the first flashing count and the second ratio are correspond.
The method for setting the target temperature of an electronic cigarette according to claim 5, wherein the third preset value is the same as the first step step value, and the fourth preset value is the same as the second step step value The value is the same.
The method for setting a target temperature of an electronic cigarette according to claim 2, wherein the method further comprises:

When the number of consecutive effective puffs is the first preset number of times, determine whether the current target temperature is less than the first temperature limit value, and if so, adjust the current target temperature upwards once according to the first step to obtain the adjusted temperature, otherwise the current target temperature is used as the final target temperature for temperature control;

When the number of consecutive effective puffs is the second preset number of times, determine whether the current target temperature is greater than the second temperature limit value, and if so, adjust the current target temperature downward according to the second step once to obtain the adjusted temperature, otherwise, the current target temperature is used as the final target temperature for temperature control.
The method for setting a target temperature of an electronic cigarette according to claim 2, wherein the method further comprises:

S31. Confirm the number of consecutive effective puffs to obtain a second difference between the current target temperature and the preset temperature when the number of consecutive effective puffs is a third preset number, and obtain a second difference between the current target temperature and the preset temperature according to the second The difference value generates a corresponding third prompt signal.
The method for setting a target temperature of an electronic cigarette according to claim 8, wherein the third prompt signal is an LED flashing signal, and in the step S31, the obtaining the difference between the current target temperature and the preset temperature the second difference, generating a corresponding third prompt signal according to the second difference; including:

Obtain the absolute value of the second difference and the second ratio ratio of the third step, and when the second difference is a positive value, generate an LED flashing signal with a third flashing speed and a third flashing number, and in When the second difference is a negative value, an LED blinking signal of a fourth blinking speed and the third blinking number is generated, wherein the third blinking number corresponds to the second ratio.
An electronic cigarette target temperature setting device, characterized in that it includes:

The first execution unit is used to monitor the smoking action of the electronic cigarette to obtain effective smoking, wherein when the first interval time of the smoking action is less than a first preset value, it is determined that the smoking action is effective smoking Suck;

The second execution unit is used to count the effective suction in sequence, and start timing at the end of each effective suction, so as to obtain the second interval time between the effective suction and the next effective suction, and at the first effective suction When the second interval time is greater than the second preset value, stop counting, and obtain the current count as the number of continuous effective puffs;

a third execution unit, configured to obtain a current target temperature when the number of continuous effective suctions is a preset number of times to adjust the temperature once in a preset step on the basis of the current target temperature to obtain the adjusted temperature;

The fourth execution unit is configured to perform temperature control with the adjusted temperature as the final target temperature.