CN112656046A - Electronic cigarette target temperature setting method and device - Google Patents

Abstract

The invention relates to a method and a device for setting target temperature of an electronic cigarette, comprising the following steps: s1, monitoring the suction action of the electronic cigarette to obtain effective suction, wherein when the first interval time of the suction action is smaller than a first preset value, the suction action is judged as effective suction; s2, counting the effective aspirations in sequence, starting timing at the end of each effective aspiration to obtain a second interval time between the effective aspiration and the next effective aspiration, stopping counting when the second interval time is greater than a second preset value, and obtaining the current count as the continuous effective aspiration times; s3, when the continuous effective pumping times are preset times, acquiring a current target temperature to adjust the temperature once according to preset steps on the basis of the current target temperature to acquire an adjusted temperature; and S4, controlling the temperature by taking the adjusted temperature as the final target temperature. The invention can realize the setting of the target temperature and save the volume of the product.

Description

Electronic cigarette target temperature setting method and device

Technical Field

The invention relates to the technical field of electronic cigarettes, in particular to a method and a device for setting target temperature of an electronic cigarette.

Background

The electronic cigarette is used as a substitute of a cigarette, is mainly used for simulating the smoking feeling on the premise of not influencing health, and is divided into two parts, namely an atomizing device and a power supply device, wherein the power supply device is connected with the atomizing device and supplies power to the atomizing device, and the atomized cigarette liquid is supplied for consumers to smoke.

Atomizing device can exert best effect under certain or some section temperature for the suction of electron cigarette has fine experience, so the electron cigarette of control by temperature change version should be transported and come, because of every user hits the larynx sense to the suction, smog impact sense differentiates in the demand, need change through temperature regulation, current electron cigarette is through structurally increasing the touch-sensitive screen, knob or button mode temperature regulation, lead to structural design to become complicated, the structure increases, and is with high costs, and is bulky, influences the outward appearance.

Disclosure of Invention

The present invention provides a method and an apparatus for setting a target temperature of an electronic cigarette, aiming at some technical defects in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for setting the target temperature of the electronic cigarette is constructed, and comprises the following steps:

s1, monitoring the suction action of the electronic cigarette to obtain effective suction, wherein when the first interval time of the suction action is smaller than a first preset value, the suction action is judged as effective suction;

s2, counting the effective aspirations in sequence, starting timing at the end of each effective aspiration to obtain a second interval time between the effective aspiration and the next effective aspiration, stopping counting when the second interval time is greater than a second preset value, and obtaining the current count as the number of continuous effective aspirations;

s3, when the continuous effective pumping times are preset times, acquiring a current target temperature to adjust the temperature once according to preset steps on the basis of the current target temperature to acquire an adjusted temperature;

and S4, controlling the temperature by taking the adjusted temperature as the final target temperature.

Preferably, in the step S3, when the number of continuous effective pumping times is a preset number, acquiring a current target temperature to adjust the temperature once according to a preset step on the basis of the current target temperature to acquire an adjusted temperature; the method comprises the following steps:

when the continuous effective pumping times are first preset times, adjusting once upwards according to a first step on the basis of the current target temperature to obtain the adjusted temperature;

and when the continuous effective pumping times are second preset times, adjusting the continuous effective pumping times downwards once according to a second step on the basis of the current target temperature to obtain the adjusted temperature.

Preferably, the electronic cigarette target temperature setting method of the present invention further includes: the following steps are performed while the step S4 is being performed:

s41, acquiring a first difference value between the adjusted temperature and a preset temperature, and generating a corresponding prompt signal according to the first difference value.

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

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

Preferably, the first and second electrodes are formed of a metal,

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

acquiring a first ratio of the absolute value of the first difference to a third preset value, and generating an LED flicker signal with a first flicker speed and a first flicker frequency, wherein the first flicker frequency corresponds to the first ratio; and/or

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

and acquiring a second ratio of the absolute value of the first difference to a fourth preset value, and generating LED flicker signals of a second flicker speed and a second flicker frequency, wherein the first flicker frequency corresponds to the second ratio.

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 continuous effective pumping times are first preset times, judging whether the current target temperature is smaller than a first temperature limit value, if so, adjusting the current target temperature once upwards according to a first step on the basis of the current target temperature to obtain the adjusted temperature, otherwise, performing temperature control by taking the current target temperature as a final target temperature;

and when the continuous effective pumping times are second preset times, judging whether the current target temperature is greater than a second temperature limit value, if so, adjusting the current target temperature once downwards according to a second step on the basis of the current target temperature to obtain the adjusted temperature, otherwise, controlling the temperature by taking the current target temperature as the final target temperature.

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

and S31, confirming the continuous effective pumping times to obtain a second difference value between the current target temperature and the preset temperature when the continuous effective pumping times is a third preset time, and generating a corresponding third prompt signal according to the second difference value.

Preferably, the third prompt signal is an LED flashing signal, in step S31, the 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; the method comprises the following steps:

and acquiring a ratio of the absolute value of the second difference to a second ratio of a third step, generating LED flicker signals of a third flicker speed and a third flicker frequency when the second difference is a positive value, and generating LED flicker signals of a fourth flicker speed and the third flicker frequency when the second difference is a negative value, wherein the third flicker frequency corresponds to the second ratio.

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

the electronic cigarette smoking device comprises a first execution unit, a second execution unit and a control unit, wherein the first execution unit is used for monitoring the smoking action of the electronic cigarette to obtain effective smoking, and when the first interval time of the smoking action is smaller than a first preset value, the smoking action is judged as the effective smoking;

the second execution unit is used for counting the effective suction in sequence, starting timing when each effective suction is finished so as to obtain a second interval time between the effective suction and the next effective suction, stopping counting when the second interval time is greater than a second preset value, and obtaining the current count as the continuous effective suction times;

a third execution unit, configured to, when the number of consecutive effective puffs is a preset number, acquire a current target temperature to adjust a temperature once according to a preset step on the basis of the current target temperature to acquire an adjusted temperature;

and the fourth execution unit is used for controlling the temperature by taking the adjusted temperature as the final target temperature.

The implementation of the target temperature setting method and the device of the electronic cigarette has the following beneficial effects: the product volume is saved while the target temperature is set.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a flowchart illustrating a procedure of an embodiment of a method for setting a target temperature of an electronic cigarette according to the present invention;

figure 2 is a flowchart of a process of another embodiment of a method for setting a target temperature of an electronic cigarette according to the present invention;

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

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, 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 the electronic cigarette target temperature setting method of the present invention, S1, a smoking action of the electronic cigarette is monitored to obtain an effective smoking, wherein the smoking action is determined as the effective smoking when a first interval time of the smoking action is less than a first preset value; specifically, in the setting process of the target temperature, whether or not effective suction is performed is determined based on the suction frequency of the suction operation, and the determination based on the suction frequency of the suction operation may be also understood as being performed based on the first interval time which is the interval time of the suction operation. The entire target temperature setting process monitors the effective pumping. In one embodiment, the first predetermined value is less than or equal to 0.5 s; i.e. a pumping action with a pumping frequency of 2Hz or more can be taken as an effective pumping.

S2, counting the effective aspirations in sequence, starting timing at the end of each effective aspiration to obtain a second interval time between the effective aspiration and the next effective aspiration, stopping counting when the second interval time is greater than a second preset value, and obtaining the current count as the continuous effective aspiration times; specifically, the effective suction is counted, that is, one effective suction is determined, and one counting is performed while the interval between each effective suction and the next effective suction, that is, the second interval is acquired. Whether the effective suction is the last count, that is, whether the count needs to be ended is judged according to the interval time. The judgment standard of the count ending is that when the effective suction interval time after the effective suction is longer to a certain extent, namely the second interval time is more than a second preset value, the effective suction is taken as the last count to end the count, and the continuous effective suction times are obtained. In one embodiment, the second preset value is greater than or equal to 1 s; that is, if there is no next effective suction within 1s after the end of the effective suction, the count of the consecutive effective suctions is obtained using the current effective suction as the last count. And when the next effective suction exists within 1s after the effective suction is finished, further counting is carried out to obtain a new continuous effective suction count.

S3, when the continuous effective pumping times are preset times, acquiring a current target temperature to adjust the temperature once according to preset steps on the basis of the current target temperature to acquire an adjusted temperature; specifically, according to the obtained effective pumping frequency, when the effective pumping frequency meets the preset frequency, the temperature is adjusted once on the basis of the current target temperature according to the preset frequency, and the adjusting process is adjusted according to the preset steps to obtain the adjusted temperature.

And S4, controlling the temperature by taking the adjusted temperature as the final target temperature. That is, after the adjusted temperature is obtained, the adjusted temperature is used as the final target temperature for temperature control, so as to realize setting or updating of the final target temperature, and it can be understood that the setting or updating of the target temperature can be performed at any working stage of the electronic cigarette, and the detected effective suction is adjusted according to the effective suction to obtain the final target temperature.

Optionally, in the method for setting the target temperature of the electronic cigarette according to the present invention, in step S3, when the number of consecutive effective puffs is a preset number, the current target temperature is obtained to adjust the temperature once according to a preset step on the basis of the current target temperature to obtain an adjusted temperature; the method comprises the following steps: when the continuous effective pumping times are the first preset times, adjusting the temperature once upwards according to the first step on the basis of the current target temperature to obtain an adjusted temperature; and when the continuous effective pumping times are the second preset times, adjusting the temperature downwards once according to a second step on the basis of the current target temperature to obtain the adjusted temperature. That is, the setting of the final target temperature may be adjusted upward based on the current target temperature, i.e., the temperature is increased based on the current target temperature to obtain the adjusted temperature, or the setting of the final target temperature may be adjusted downward based on the current target temperature, i.e., the temperature is decreased based on the current target temperature to obtain the adjusted temperature. Whether it is the upward adjustment or the downward adjustment may be determined according to the number of continuous effective puffs, and when the number of continuous effective puffs is a first preset number, it may be understood that the adjustment of the target temperature thereof is the upward adjustment. When the number of consecutive effective puffs is the second preset number, it can be understood that the adjustment of its target temperature is a downward adjustment. After the adjustment is completed, the temperature control can be performed with the obtained final adjustment temperature as a target temperature. In one embodiment, the first preset number and the second preset number are set in advance, for example, the first preset number is set to two times, and the second preset number is set to three times. Depending on whether two or three consecutive effective puffs are obtained, an upward or downward adjustment can be obtained.

As shown in fig. 2, in an embodiment, in the electronic cigarette target temperature setting method of the present invention, the method further includes: the following steps are performed while step S4 is being performed: s41, acquiring a first difference value between the adjusted temperature and a preset temperature, and generating a corresponding prompt signal according to the first difference value. Specifically, in the temperature adjustment process, after the adjusted temperature is obtained each time, the adjusted temperature is compared with a preset temperature to obtain a difference value between the adjusted temperature and the preset temperature, namely a first difference value, and a prompt signal is generated according to the difference value correspondingly. Because the preset temperature is known, when the preset temperature is known, the prompt signal corresponds to the first difference, namely the prompt signal can be obtained to correspond to the temperature of the adjusted temperature, and the adjusted temperature is the set target temperature, so that 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, the preset temperature can be understood as a factory target temperature or a default target temperature of the electronic cigarette.

Optionally, in step S41, generating a corresponding prompt signal according to the first difference includes: a first cue signal is generated when the first difference is a positive value, and a second cue signal is generated when the first difference is a negative value. Specifically, it generates the cue signal according to the first difference of adjustment temperature and preset temperature, and it can be higher than preset temperature or be less than preset temperature according to the adjustment temperature in order to generate different types of cue signal respectively to the suggestion of distinguishing to the adjustment temperature that obtains at present.

Optionally, the first prompt signal is an LED flashing signal, and in step S41, the generating the first prompt signal when the first difference is a positive value includes: acquiring a first ratio of the absolute value of the first difference to a third preset value, and generating an LED flicker signal with a first flicker speed and a first flicker frequency, wherein the first flicker frequency corresponds to the first ratio; specifically, the LED flashing signal may be used for prompting, and it may be determined whether the difference between the currently obtained adjusted temperature and the preset temperature is a positive value or a negative value according to the LED flashing speed, and when the first difference is the positive value, the flashing speed of the LED flashing signal may be set to be the first flashing speed, that is, when the first flashing speed is obtained, the currently obtained adjusted temperature may be obtained and is greater than the preset temperature. The number of continuous flashes of the LED flashing signal, that is, the first number of flashes, may also be determined by a ratio of the absolute value of the first difference to a third preset value, where the larger the ratio is, the more the flashing coefficient is, the smaller the ratio is, and the fewer the number of flashes is. It also can be reasonable set up the third default for corresponding ratio is the integer, and at this moment, the number of times of scintillation directly equals this ratio, when the ratio is 1, then the scintillation is once, when the ratio is 2, then the scintillation is twice, analogizes in proper order. And when the difference value is zero, the flicker is not directly generated. Since the third preset value is preset and known, the difference between the current adjustment temperature and the preset temperature can be obtained according to the continuous flicker frequency of the LED flicker signal, and finally the adjustment temperature obtained after adjustment is obtained.

Optionally, the second prompt signal is an LED flashing signal, and in step S41, the second prompt signal is generated when the first difference is a negative value, including: and acquiring a second ratio of the absolute value of the first difference to a fourth preset value, and generating LED flicker signals of a second flicker speed and a second flicker frequency, wherein the first flicker frequency corresponds to the second ratio. Specifically, the LED blinking signal may be adopted to prompt, and whether the difference between the currently obtained adjustment temperature and the preset temperature is a positive value or a negative value may be determined according to the LED blinking speed, and when the first difference is a negative value, the blinking speed of the LED blinking signal may be set to be the second blinking speed, that is, when the second blinking speed is obtained, the currently obtained adjustment temperature may be smaller than the preset temperature. The number of continuous flickers of the LED flicking signal, that is, the second number of flickers, may also be determined by a ratio of the absolute value of the first difference to a fourth preset value, where the larger the ratio is, the more the flicking coefficient is, the smaller the ratio is, and the fewer the number of flickers is. It also can be reasonable set up the fourth default for corresponding ratio is the integer, and at this moment, the number of times of scintillation directly equals this ratio, when the ratio is 1, then the scintillation is once, when the ratio is 2, then the scintillation is twice, analogizes in proper order. And when the difference value is zero, the flicker is not directly generated. Since the fourth preset value is preset and known, the difference between the current adjustment temperature and the preset temperature can be obtained according to the continuous flashing times of the LED flashing signal, and finally the adjustment temperature obtained after adjustment is obtained.

Optionally, the third preset value, the fourth preset value, the first step and the second step are the same. Specifically, in order to obtain the currently obtained adjustment temperature through the number of times of flashing of the LED flashing signal, which is fast and convenient, in the temperature adjustment process, the upward adjustment and the downward adjustment are both the same, when the first difference value between the obtained current adjustment temperature and the preset temperature is the same as the third preset value or the fourth preset value, and when the third preset value and the fourth preset value are the same as the adjustment step, the obtained first ratio is an integer, and the integer can be used as the first number of times of flashing or the second number of times of flashing, so that the whole process is simpler.

Optionally, in the method for setting the target temperature of the electronic cigarette of the present invention, the method further includes: when the continuous effective pumping times are the first preset times, judging whether the current target temperature is smaller than a first temperature limit value, if so, adjusting once upwards according to a first step on the basis of the current target temperature to obtain an adjusted temperature, otherwise, performing temperature control by taking the current target temperature as a final target temperature; and when the continuous effective pumping times are second preset times, judging whether the current target temperature is greater than a second temperature limit value, if so, adjusting the current target temperature once downwards according to a second step on the basis of the current target temperature to obtain an adjusted temperature, otherwise, controlling the temperature by taking the current target temperature as the final target temperature. Specifically, after the adjustment process, it needs to be confirmed whether it can adjust the target temperature. I.e. whether the current target temperature is at the limit value. For example, when it is determined that the upward adjustment is required according to the number of consecutive effective puffs, before the adjustment, it is determined whether the current target temperature has reached an upper limit value of the temperature adjustment, that is, it is determined whether the current target temperature is less than a first temperature limit value, and if the current target temperature is less than the first temperature limit value, the upward adjustment may be performed, that is, the upward adjustment is performed once in a first step on the basis of the current target temperature to obtain an adjusted temperature, otherwise, the temperature control is performed with the current target temperature as a final target temperature. For another example, when it is determined that downward adjustment is required according to the number of consecutive effective puffs, before the adjustment, it is determined whether the current target temperature has reached a lower limit value of the temperature adjustment, that is, it is determined whether the current target temperature is greater than a second temperature limit value, if so, downward adjustment may be performed, that is, downward adjustment is performed once in a second step on the basis of the current target temperature to obtain an adjusted temperature, otherwise, temperature control is performed with the current target temperature as a final target temperature.

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 value of the temperature setting can be set based on the preset temperature, for example, the upper limit value of the temperature, i.e., the first temperature limit value, can be 1.3 times the preset temperature, and the lower limit value of the temperature, i.e., the second temperature limit value, can be 0.7 times the preset temperature.

Optionally, in the method for setting the target temperature of the electronic cigarette of the present invention, the method further includes: and S31, confirming the continuous effective pumping times to obtain a second difference value between the current target temperature and the preset temperature when the continuous effective pumping times are a third preset times, and generating a corresponding third prompt signal according to the second difference value. Specifically, in the working process of the electronic cigarette, the current target temperature can be triggered and obtained according to the continuous effective smoking times. Specifically, when the continuous effective pumping times are the third preset times, the second difference value between the current target temperature and the preset temperature is obtained, and a corresponding third prompt signal is generated according to the difference value. The third prompt signal corresponds to the second difference, so that the second difference can be obtained through the third prompt signal, and the final current target temperature can be obtained according to the preset temperature and the obtained second difference because the preset temperature is known. In an embodiment, by setting a third preset number in advance, for example, setting the third preset number to four, when the number of the obtained continuous effective suction is four, the corresponding current target temperature can be obtained through the third prompt signal and the preset 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; the method comprises the following steps: and acquiring a ratio of the absolute value of the second difference to a second ratio of the third step, generating LED flicker signals of a third flicker speed and a third flicker frequency when the second difference is a positive value, and generating LED flicker signals of a fourth flicker speed and a third flicker frequency when the second difference is a negative value, wherein the third flicker frequency 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 may be that, when the second difference is a positive value, the third prompt signal is an LED flashing signal flashing at a third flashing speed, and when the second difference is a negative value, the third prompt signal is an LED flashing signal flashing at a fourth flashing speed. The number of continuous flickers of the LED flicking signal may also be determined by a ratio of the absolute value of the difference to the third step, where the larger the ratio is, the more the flicking coefficient is, and the smaller the ratio is, the smaller the number of flickers is. It also can be reasonable set up the third step-by-step for corresponding ratio is the integer, and at this moment, the number of times of scintillation directly equals this ratio, when the ratio is 1, then the scintillation is once, when the ratio is 2, then the scintillation is twice, analogizes in proper order. And when the difference value is zero, the flicker is not directly generated. Through the step, the current set target temperature can be inquired, the difference value between the current target temperature and the preset temperature is obtained according to the flicker speed and the flicker frequency of the LED flicker signal, the preset temperature is usually the known temperature, and the current target temperature is finally obtained according to the difference value.

Optionally, the first step, the second step and the third step have the same value; in order to perform upward adjustment, the processing procedures of downward adjustment and query of the target temperature are simpler, and the same value is taken by setting a first step of upward adjustment, a second step of downward adjustment and a third step of a ratio corresponding to or difference value.

As shown in fig. 3, the target temperature setting device for an electronic cigarette according to the present invention includes:

the first execution unit 110 is configured to monitor a smoking action of the electronic cigarette to obtain an effective smoking, wherein the smoking action is determined as the effective smoking when a first interval time of the smoking action is smaller than a first preset value;

the second execution unit 120 is configured to count the effective aspirations in sequence, start timing at the end of each effective aspiration to obtain a second interval time between the effective aspiration and the next effective aspiration, and stop counting when the second interval time is greater than a second preset value to obtain the current count as the number of consecutive effective aspirations;

a third executing unit 130, configured to, when the number of consecutive effective puffs is a preset number, acquire a current target temperature to adjust a temperature once according to a preset step on the basis of the current target temperature to acquire an adjusted temperature;

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

Specifically, the specific coordination operation process among the units of the electronic cigarette target temperature setting device may specifically refer to the above electronic cigarette target temperature setting method, and details are not repeated here.

It is to be understood that the foregoing examples, while indicating the preferred embodiments of the invention, are given by way of illustration and description, and are not to be construed as limiting the scope of the invention; it should be noted that, for those skilled in the art, the above technical features can be freely combined, and several changes and modifications can be made without departing from the concept of the present invention, which all belong to the protection scope of the present invention; therefore, all equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. A method for setting a target temperature of an electronic cigarette is characterized by comprising the following steps:

s1, monitoring the suction action of the electronic cigarette to obtain effective suction, wherein when the first interval time of the suction action is smaller than a first preset value, the suction action is judged as effective suction;

s2, counting the effective aspirations in sequence, starting timing at the end of each effective aspiration to obtain a second interval time between the effective aspiration and the next effective aspiration, stopping counting when the second interval time is greater than a second preset value, and obtaining the current count as the number of continuous effective aspirations;

s3, when the continuous effective pumping times are preset times, acquiring a current target temperature to adjust the temperature once according to preset steps on the basis of the current target temperature to acquire an adjusted temperature;

and S4, controlling the temperature by taking the adjusted temperature as the final target temperature.

2. The electronic cigarette target temperature setting method according to claim 1, wherein in the step S3, when the number of consecutive effective puffs is a preset number, acquiring a current target temperature to adjust the temperature once in preset steps on the basis of the current target temperature to acquire an adjusted temperature; the method comprises the following steps:

when the continuous effective pumping times are first preset times, adjusting once upwards according to a first step on the basis of the current target temperature to obtain the adjusted temperature;

and when the continuous effective pumping times are second preset times, adjusting the continuous effective pumping times downwards once according to a second step on the basis of the current target temperature to obtain the adjusted temperature.

3. The electronic cigarette target temperature setting method of claim 2, further comprising: the following steps are performed while the step S4 is being performed:

s41, acquiring a first difference value between the adjusted temperature and a preset temperature, and generating a corresponding prompt signal according to the first difference value.

4. The method according to claim 3, wherein in step S41, the generating a corresponding prompt signal according to the first difference value includes:

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

5. The electronic cigarette target temperature setting method of claim 4,

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

acquiring a first ratio of the absolute value of the first difference to a third preset value, and generating an LED flicker signal with a first flicker speed and a first flicker frequency, wherein the first flicker frequency corresponds to the first ratio; and/or

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

and acquiring a second ratio of the absolute value of the first difference to a fourth preset value, and generating LED flicker signals of a second flicker speed and a second flicker frequency, wherein the first flicker frequency corresponds to the second ratio.

6. The method of claim 5, wherein 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.

7. The electronic cigarette target temperature setting method of claim 2, further comprising:

when the continuous effective pumping times are first preset times, judging whether the current target temperature is smaller than a first temperature limit value, if so, adjusting the current target temperature once upwards according to a first step on the basis of the current target temperature to obtain the adjusted temperature, otherwise, performing temperature control by taking the current target temperature as a final target temperature;

and when the continuous effective pumping times are second preset times, judging whether the current target temperature is greater than a second temperature limit value, if so, adjusting the current target temperature once downwards according to a second step on the basis of the current target temperature to obtain the adjusted temperature, otherwise, controlling the temperature by taking the current target temperature as the final target temperature.

8. The electronic cigarette target temperature setting method of claim 2, further comprising:

and S31, confirming the continuous effective pumping times to obtain a second difference value between the current target temperature and the preset temperature when the continuous effective pumping times is a third preset time, and generating a corresponding third prompt signal according to the second difference value.

9. The method according to claim 8, wherein 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 third prompt signal is generated according to the second difference; the method comprises the following steps:

and acquiring a ratio of the absolute value of the second difference to a second ratio of a third step, generating LED flicker signals of a third flicker speed and a third flicker frequency when the second difference is a positive value, and generating LED flicker signals of a fourth flicker speed and the third flicker frequency when the second difference is a negative value, wherein the third flicker frequency corresponds to the second ratio.

10. An electronic cigarette target temperature setting device, comprising:

the electronic cigarette smoking device comprises a first execution unit, a second execution unit and a control unit, wherein the first execution unit is used for monitoring the smoking action of the electronic cigarette to obtain effective smoking, and when the first interval time of the smoking action is smaller than a first preset value, the smoking action is judged as the effective smoking;

the second execution unit is used for counting the effective suction in sequence, starting timing when each effective suction is finished so as to obtain a second interval time between the effective suction and the next effective suction, stopping counting when the second interval time is greater than a second preset value, and obtaining the current count as the continuous effective suction times;

a third execution unit, configured to, when the number of consecutive effective puffs is a preset number, acquire a current target temperature to adjust a temperature once according to a preset step on the basis of the current target temperature to acquire an adjusted temperature;

and the fourth execution unit is used for controlling the temperature by taking the adjusted temperature as the final target temperature.

Images