CN114451591A - Electronic cigarette atomization effect control method and system, storage medium and intelligent terminal - Google Patents

Abstract

The application relates to a method and a system for controlling the atomization effect of electronic cigarette, a storage medium and an intelligent terminal, relating to the technical field of electronic cigarettes and comprising the steps of obtaining blood pressure parameter information; defining the first blood pressure parameter information as initial blood pressure information, and determining initial frequency information according to a gear database; controlling the electronic cigarette to emit ultrasonic waves at initial frequency information, and timing to obtain operation duration information; judging whether the operation duration information is consistent with the in-place duration or not; if not, timing is maintained; if the blood pressure parameter information is consistent with the final blood pressure parameter information, the current blood pressure parameter information is defined as the final blood pressure information, and differential blood pressure information is determined according to the initial blood pressure information and the final blood pressure information; determining adjustment frequency information according to an adjustment database; and determining final frequency information according to the initial frequency information and the adjustment frequency information, and controlling the electronic cigarette to emit ultrasonic waves according to the final frequency information. This application has the effect that the atomization effect that makes the electron cigarette can adjust according to the smoker actual conditions.

Description

Electronic cigarette atomization effect control method and system, storage medium and intelligent terminal

Technical Field

The application relates to the field of electronic cigarette technology, in particular to an electronic cigarette atomization effect control method, system, storage medium and intelligent terminal.

Background

The electronic cigarette is an electronic product simulating a cigarette, has the same appearance, smoke, taste and feeling as the cigarette, and is a product which is absorbed by a user after nicotine and the like are changed into steam by means of atomization and the like. The electronic cigarette comprises a cigarette rod and a cigarette cartridge, wherein the cigarette rod is held by a user, the cigarette cartridge is used for storing tobacco tar, and the user utilizes the cigarette cartridge to perform smoking operation in the using process of the electronic cigarette.

Among the correlation technique, the research shows that the reduction blood pressure that takes out the electron cigarette can be showing mainly is in order to realize the reduction of the different degree of blood pressure through the atomization effect that the tobacco juice is different, has an electron cigarette to be ultrasonic wave electron cigarette, has the ultrasonic device of transmission fixed frequency on this electron cigarette's the cigarette bullet, through the ultrasonic wave in order to realize the atomization treatment of tobacco juice to make the smoker who has the hypertension disease can carry out the smoking operation.

In view of the above-mentioned related arts, the inventor believes that smokers with hypertension have different blood pressure conditions, and the atomization effect of the smoke bomb is fixed, so that the atomization effect cannot be adjusted according to the actual physical conditions of the smokers, and there is still room for improvement.

Disclosure of Invention

In order to enable the atomization effect of the electronic cigarette to be adjusted according to the actual situation of a smoker, the application provides an electronic cigarette atomization effect control method, system, storage medium and intelligent terminal.

In a first aspect, the application provides a method for controlling an atomization effect of an electronic cigarette, which adopts the following technical scheme:

an electronic cigarette atomization effect control method comprises the following steps:

acquiring current blood pressure parameter information; defining the blood pressure parameter information acquired for the first time as initial blood pressure information, and matching the blood pressure information and the frequency information stored in a preset gear database with the initial blood pressure information to determine initial frequency information; controlling the electronic cigarette to transmit ultrasonic waves at a frequency corresponding to the initial frequency information, and timing when the ultrasonic waves are transmitted to obtain operation duration information; judging whether the time length corresponding to the operation time length information is consistent with the preset in-place time length or not; if the time length corresponding to the operation time length information is not consistent with the in-place time length, maintaining the timing state of the operation time length information; if the time length corresponding to the operation time length information is consistent with the in-place time length, outputting an in-place signal, defining the current blood pressure parameter information as final blood pressure information, and calculating the difference value between the initial blood pressure information and the final blood pressure information to obtain difference blood pressure information; matching the blood pressure change information and the frequency change information stored in the preset adjustment database with the differential blood pressure information to determine adjustment frequency information; and determining final frequency information according to the initial frequency information and the adjustment frequency information, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the final frequency information.

By adopting the technical scheme, the blood pressure parameter of the smoker can be obtained in the process of using the electronic cigarette by the smoker, so that the initial frequency of the electronic cigarette can be determined according to the blood pressure parameter, and the initial atomization effect of the electronic cigarette can be adjusted according to the blood pressure condition of the smoker; in the process of smoking, can judge the long interior smoker's blood pressure decline condition of putting in place to make the frequency of electron cigarette carry out the adaptability adjustment along with the blood pressure decline condition, so that the atomization effect of electron cigarette can be adjusted according to the smoker actual conditions, make the smoker experience effectually.

Optionally, when the electronic cigarette is in place and the signal is output, the electronic cigarette atomization effect control method further includes: dividing a detection interval with a range as in-place duration in a reverse order on a time axis by taking the current time as an end point; determining the blood pressure parameter information which is most ahead in time and the blood pressure parameter information which is most behind in time in the detection interval, and defining the blood pressure parameter information which is most ahead in time as the starting point blood pressure information and the blood pressure parameter information which is most behind in time as the end point blood pressure information; controlling the detection interval to move in a positive sequence on a time axis so as to continuously update the starting point blood pressure information and the end point blood pressure information; and calculating the difference value between the starting point blood pressure information and the end point blood pressure information to obtain the replacement blood pressure information, and updating the replacement blood pressure information into new difference blood pressure information.

Through adopting above-mentioned technical scheme, can learn the blood pressure change condition at head and the tail both ends among the detection interval to make difference blood pressure information constantly update, thereby realize that the electron cigarette frequency is constantly adjusted along with the cigarette person self condition, so that the cigarette person all has comparatively suitable atomization effect at the in-process electron cigarette of smoking.

Optionally, the method further includes: judging whether the blood pressure value corresponding to the end point blood pressure information is in a preset safety area or not; if the blood pressure value corresponding to the endpoint blood pressure information is not in the safety area, outputting an abnormal signal;

if the blood pressure value corresponding to the destination blood pressure information is in the safe area, judging whether the blood pressure value corresponding to the starting point blood pressure information is in the safe area; if the blood pressure value corresponding to the starting point blood pressure information is not in the safety area, outputting an abnormal signal; if the blood pressure value corresponding to the starting point blood pressure information is in the safe area, outputting a normal signal and maintaining the normal signal; and defining the final frequency information at the moment as continuous frequency information when the normal signal is output, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the continuous frequency information when the normal signal exists.

By adopting the technical scheme, the blood pressure value in the detection interval can be detected, when the blood pressure in the detection interval is in the safe area, the situation that the blood pressure of the smokers tends to a stable gap is explained, and the frequency of the electronic cigarette at the moment is fixed, so that the blood pressure of the smokers can be maintained in the current state, and the situation that the blood pressure is too low is reduced.

Optionally, the method further includes: after the in-place signal is output, judging whether the parameter value corresponding to the current blood pressure parameter information is zero or not; if the parameter value corresponding to the current blood pressure parameter information is not zero, outputting a holding signal; if the parameter value corresponding to the current blood pressure parameter information is zero, outputting a relaxation signal; and outputting an abnormal operation signal when the relaxation signal is output, and defining the final frequency information at the moment as identification frequency information.

By adopting the technical scheme, whether the electronic cigarette is out of hand in the using process can be judged, so that the electronic cigarette after being out of hand can be further analyzed and processed.

Optionally, the method further includes: acquiring the temperature information of the cigarette cartridge after the abnormal operation signal is output; judging whether the temperature corresponding to the temperature information of the cigarette cartridge is within a preset temperature range or not;

if the temperature corresponding to the cigarette cartridge temperature information is not within the temperature range, controlling the electronic cigarette to be closed; and if the temperature corresponding to the cigarette cartridge temperature information is within the temperature range, outputting a continuous working signal and maintaining the normal operation of the electronic cigarette.

Through adopting above-mentioned technical scheme, when the condition of taking off the hand appears, the accessible is held in the hands in order to learn whether held in the mouth by the user to the judgement electron cigarette needs to carry out work to cigarette temperature's judgement.

Optionally, the method further includes: timing when the continuous working signal is output to obtain the adjustment duration information; calculating according to the adjustment frequency information and the in-place time length to obtain unit frequency information;

calculating according to the adjustment duration information and the unit frequency information to obtain change frequency information; and calculating according to the identification frequency information and the change frequency information to obtain temporary frequency information, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the temporary frequency information.

By adopting the technical scheme, when the continuous working signal is output, the hands-off time can be timed, the change condition of each unit time frequency in the time length corresponding to the in-place time length can be calculated according to the adjustment frequency information and the in-place time length, so that the frequency condition needing to be adjusted is determined according to the hands-off time length, the frequency value under the hands-off condition is obtained, and the electronic cigarette can be continuously maintained to be normally used under the hands-off condition.

Optionally, the method further includes: defining blood pressure parameter information when the abnormal operation signal is output as relaxation blood pressure information; judging whether the holding signal is output again after the continuous working signal is output;

if the holding signal is not output again after the continuous working signal is output, maintaining the timing of the adjustment duration information; if the holding signal is output again after the continuous working signal is output, defining the current blood pressure parameter information as holding blood pressure information and calculating according to the current temporary frequency information and the identification frequency information to obtain mean frequency information; calculating a difference value between relaxation blood pressure information and holding blood pressure information to obtain blood pressure transition information; matching the frequency information, the duration information, the blood pressure information, the adjustment duration information and the mean value frequency information stored in a preset relevant database to determine temporary blood pressure information; calculating according to the temporary blood pressure information and the blood pressure transition information to determine deviation blood pressure information; judging whether the blood pressure value corresponding to the deviation blood pressure information falls into a preset safety interval or not; if the blood pressure value corresponding to the deviation blood pressure information falls into the safety interval, outputting a normal holding signal; if the blood pressure value corresponding to the deviation blood pressure information does not fall into the safety interval, outputting an abnormal holding signal and controlling the electronic cigarette to be closed.

By adopting the technical scheme, when the electronic cigarette is held again after being released from the hand, whether the situation of overlarge difference value occurs or not is judged according to the actually reached blood pressure value and the calculated difference value between the corresponding blood pressure values, so that whether the hand held again is the hand of a smoker or not is known, and the situation that the frequency of the electronic cigarette is adjusted according to the corresponding blood pressure situation after the hand held is changed is reduced.

The second aspect, this application provides an electron smog effect control system, adopts following technical scheme:

an electronic cigarette atomization effect control system comprising: the acquisition module is used for acquiring current blood pressure parameter information; the processing module is connected with the acquisition module and the judgment module and used for storing and processing information;

the processing module defines the blood pressure parameter information acquired for the first time as initial blood pressure information, and the initial frequency information is determined according to matching of the blood pressure information and the frequency information stored in the preset gear database and the initial blood pressure information; the processing module controls the electronic cigarette to transmit ultrasonic waves at a frequency corresponding to the initial frequency information, and timing is carried out when the ultrasonic waves are transmitted so as to obtain operation duration information; the judging module is used for judging whether the time length corresponding to the operation time length information is consistent with the preset in-place time length or not; if the judging module judges that the time length corresponding to the operation time length information is not consistent with the in-place time length, the processing module maintains the timing state of the operation time length information;

if the judging module judges that the time length corresponding to the operation time length information is consistent with the in-place time length, the processing module outputs an in-place signal, defines the current blood pressure parameter information as final blood pressure information, and calculates the difference value between the initial blood pressure information and the final blood pressure information to obtain difference blood pressure information; the processing module matches the blood pressure change information, the frequency change information and the difference blood pressure information stored in the preset adjustment database to determine adjustment frequency information; and the processing module determines final frequency information according to the initial frequency information and the adjustment frequency information and controls the electronic cigarette to emit ultrasonic waves at a frequency corresponding to the final frequency information.

By adopting the technical scheme, in the process of using the electronic cigarette by a smoker, the blood pressure parameter of the smoker can be obtained through the obtaining module, so that the processing module determines the initial frequency of the electronic cigarette according to the blood pressure parameter, and the initial atomization effect of the electronic cigarette can be adjusted according to the blood pressure condition of the smoker; at the in-process of smoking, the judge module can judge the long interior smoker's blood pressure decline condition of in place to make the frequency of electron cigarette carry out the adaptability adjustment along with the blood pressure decline condition, so that the atomization effect of electron cigarette can be adjusted according to the smoker actual conditions, make the smoker experience effectually.

In a third aspect, the present application provides an intelligent terminal, which adopts the following technical scheme: an intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute any one of the electronic cigarette atomization effect control methods.

By adopting the technical scheme, through the use of the intelligent terminal, the blood pressure parameter of a smoker can be obtained in the process that the smoker uses the electronic cigarette, so that the initial frequency of the electronic cigarette can be determined according to the blood pressure parameter, and the initial atomization effect of the electronic cigarette can be adjusted according to the blood pressure condition of the smoker; in the process of smoking, can judge the long interior smoker's blood pressure decline condition of putting in place to make the frequency of electron cigarette carry out the adaptability adjustment along with the blood pressure decline condition, so that the atomization effect of electron cigarette can be adjusted according to the smoker actual conditions, make the smoker experience effectually.

In a fourth aspect, the present application provides a computer storage medium, which can store a corresponding program, and has a feature that the atomization effect of an electronic cigarette can be adjusted according to the actual situation of a smoker, and adopts the following technical scheme:

a computer readable storage medium storing a computer program that can be loaded by a processor and that can perform any of the above-described electronic aerosolization effect control methods.

By adopting the technical scheme, the storage medium is provided with the computer program of the electronic cigarette atomization effect control method, so that the blood pressure parameter of a smoker can be obtained in the process of using the electronic cigarette by the smoker, the initial frequency of the electronic cigarette is determined according to the blood pressure parameter, and the initial atomization effect of the electronic cigarette can be adjusted according to the blood pressure condition of the smoker; in the process of smoking, can judge the long interior smoker's blood pressure decline condition of putting in place to make the frequency of electron cigarette carry out the adaptability adjustment along with the blood pressure decline condition, so that the atomization effect of electron cigarette can be adjusted according to the smoker actual conditions, make the smoker experience effectually.

Drawings

Fig. 1 is a flow chart of an electronic cigarette cartridge identification method.

FIG. 2 is a flow chart of a brand misrecognition determination method.

Fig. 3 is a flowchart of an abnormal cartridge handling mode determination method.

Fig. 4 is a flow chart of a method of cartridge malposition usage determination.

Fig. 5 is a flow chart of the electronic cigarette atomization effect control method.

Fig. 6 is a schematic structural diagram of the electronic cigarette.

Fig. 7 is a flowchart of a differential blood pressure adjustment method.

Fig. 8 is a flowchart of a frequency stability determination method.

Fig. 9 is a flow chart of a hands-off condition determination method.

FIG. 10 is a flow chart diagram of a method of cartridge temperature determination.

Fig. 11 is a flow chart of a frequency adjustment method.

Fig. 12 is a flowchart of a hand condition determination method.

Fig. 13 is a block flow diagram of an electronic cigarette atomization effect control method.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings attached hereto.

The embodiment of the application discloses method for controlling atomization effect of electronic cigarette, which is used for adjusting ultrasonic emission frequency of the electronic cigarette according to the body condition of a user in the process of pumping the electronic cigarette by a hypertensive user, so that the atomization effect of the electronic cigarette can be adapted to the current blood pressure condition of the user in real time, and the user experience effect is better.

Referring to fig. 1, the method flow of the electronic cigarette atomization effect control includes the following steps:

step S100: and acquiring a cigarette bullet in-place signal.

The cartridge in-place signal is a signal that the cartridge has been completely mounted on the tobacco rod, and can be acquired by mounting a pressure sensor on the bottom surface of a mounting groove for mounting the cartridge on the tobacco rod, and when the cartridge is mounted on the cartridge, the value of the pressure sensor changes, so that the cartridge in-place signal can be output.

Step S101: and activating a preset acquisition area for acquiring signals of the smoke cartridge according to the smoke cartridge in-place signal.

Gather the region for setting up in the inside region that is used for reading the cigarette bullet information of tobacco rod, can utilize installation NFC card on the cigarette bullet, in the regional installation NFC card reading ware of gathering in order to realize, when the signal that targets in place of output cigarette bullet, activation gathering area to make gathering the region and can carry out information acquisition to the cigarette bullet.

Step S102: and outputting collected brand information according to the collection area.

The collection area can output brand information in the collected information according to the collected information, if corresponding information is not collected, the output brand is blank, and the brand corresponding to the collected brand information is the brand of the cigarette cartridge collected by the collection area.

Step S103: and judging whether the brand corresponding to the collected brand information is consistent with the preset brand.

Set for the brand of brand for the tobacco rod, can set for the brand to setting for in the in-process of tobacco rod production, the purpose of judgement is whether unanimous with the brand of tobacco rod in order to learn the cigarette bullet brand of gathering to whether the condition of taking up the use is mixed with the cigarette bullet to the tobacco rod of knowing different brands whether appears.

Step S1031: and if the brand corresponding to the collected brand information is inconsistent with the set brand, outputting a brand abnormal signal.

When the brand that the collection brand information corresponds is inconsistent with the setting brand, show that the brand of the cigarette bullet of installing this moment is inconsistent with the brand of tobacco rod, output brand abnormal signal in order to record this condition to follow-up further analysis.

Step S1032: if the brand corresponding to the collected brand information is consistent with the set brand, acquiring the parameter information of the smoke cartridge, and matching the parameter information, the mode information and the parameter information of the smoke cartridge stored in a preset normal mode database to determine the normal mode information.

When the brand corresponding to the collected brand information is consistent with the set brand, the brand of the cigarette cartridge is consistent with that of the cigarette rod at the moment, the condition that the cigarette rods and the cigarette cartridges of different brands are used in a mixed mode is not generated, the information of the cigarette cartridge can be read according to the collecting area, an NFC card carried on the cigarette cartridge comprises corresponding parameters besides the brand, and the information of the parameters of the cigarette cartridge, namely the parameter information of the cigarette cartridge, is recorded; the parameters corresponding to the parameter information are parameters of the cartridge, the mode corresponding to the mode information is a processing mode of the cigarette rod to the cartridge, the processing mode comprises heating temperature or ultrasonic frequency and the like, each parameter information corresponds to one mode information, a normal mode database is established through different parameter information and corresponding mode information, the establishing method is a conventional technical means of a person skilled in the art, and the establishing method is not repeated; and inputting the information of the smoke cartridge parameters into a normal mode database, wherein the normal mode database can output corresponding mode information, and the mode information is the normal mode information.

Step S104: and controlling the tobacco rod to adjust to the mode corresponding to the normal mode information to operate.

The tobacco rod operation is controlled according to the mode corresponding to the normal mode information, so that the cigarette bullet can exert a better effect.

Referring to fig. 2, after the brand abnormal signal is output, there are the following processing steps:

step S200: and controlling the preset fixed time length countdown when the brand abnormal signal is output.

The fixed time length is a fixed value and is set by a worker according to the actual situation during production, which is not described in detail; when the brand abnormal signal is output, it is indicated that the collected brand information of the cartridge is inconsistent with the tobacco rod, and at this time, the brand of the cartridge is possibly inconsistent with the brand of the tobacco rod, or the brand information on the cartridge is not read, and further analysis is needed; and controlling the fixed time length countdown to time the time length of the brand abnormal signal for subsequent analysis.

Step S201: and judging whether the in-place signal of the cigarette cartridge is cancelled before the fixed time length timing is reset to zero.

The purpose of the judgment is to know whether the user takes the cartridge off the tobacco rod within a period of time when the brand of the cartridge is not consistent with the brand of the tobacco rod, so as to facilitate subsequent further analysis.

Step S2011: and if the cigarette cartridge in-place signal is canceled before the fixed time length timing is reset to zero, outputting a cigarette cartridge insertion waiting signal.

When the cartridge in-place signal is cancelled before the fixed time length is timed to zero, the user is explained to take the cartridge off the cigarette rod, and at the moment, the cartridge to-be-inserted signal is output to identify so as to remind the user to install the cartridge.

Step S2012: if the smoke abatement bomb in-place signal is not taken before the fixed time length timing is reset to zero, the acquisition area is controlled to move circumferentially in the smoke rod for at least one circle.

When a smoke cartridge arrival signal is not taken before the fixed duration timing is reset to zero, it is indicated that a user does not take the smoke cartridge off the tobacco rod within a specified time, at the moment, the acquisition region is circumferentially moved for at least one circle in the tobacco rod, so that the acquisition region can acquire the situation of one circle of the smoke cartridge, the situation that brand information is not acquired due to the fact that an NFC card on the smoke cartridge is not aligned with an NFC card reader is reduced, the movement of the acquisition region drives equipment on the acquisition region to move by starting a set driving device, the driving device can be combined with a motor connecting rod, and the method is a conventional technical means of a person skilled in the art and is not described in detail; the number of turns of the movement of the acquisition area is set by the staff according to the actual situation, and is not described in detail.

Step S202: and judging whether the collected brand information same as the set brand is output or not in the moving process of the collecting area.

The purpose of the judgment is to know whether the cigarette cartridge is the same brand as the cigarette rod brand or not so as to facilitate subsequent analysis.

Step S2021: if the acquisition brand information which is the same as the set brand is not output in the acquisition area moving process, a smoke cartridge error signal is output.

When the acquisition brand information which is the same as the set brand is not output in the acquisition region moving process, the situation that the NFC card of the cartridge is not aligned with the acquisition region is shown, namely the brand of the cartridge is incorrect, and at the moment, a cartridge error signal is output to identify so as to facilitate subsequent further processing of the situation.

Step S2022: if the acquisition brand information which is the same as the set brand is output in the process of moving the acquisition area, a correct signal of the smoke cartridge is output.

When the acquisition brand information which is the same as the set brand is output in the process of moving the acquisition area, the brand of the cigarette cartridge is consistent with the brand of the cigarette rod, so that the brand abnormal signal is output because the NFC card is not aligned with the acquisition area, and the correct signal of the cigarette cartridge is output to mark the situation, so that the situation can be further processed conveniently.

Referring to fig. 3, after the cartridge error signal is output, the following processing steps are provided:

step S300: and controlling the preset check time length to count down when the error signal of the smoke cartridge is output.

The checking duration is a fixed value, and is set by a worker according to the actual situation during production, which is not described in detail; when the cigarette bullet error signal is output, the brand of the cigarette bullet installed on the cigarette rod is not consistent with the brand of the cigarette rod; the control checks that the time length countdown is timed with the time length of the existence of the smoke cartridge error signal number so as to facilitate the subsequent analysis.

Step S301: and judging whether a continuous operation signal is received before the check time length is reset to zero.

The continuous operation signal is input by a user, and can be input by a method such as a key and the like for allowing the smoke cartridge to be continuously used, which is a conventional technical means of a person skilled in the art and is not described in detail; the purpose of the judgment is to know whether the staff inputs a signal for continuing using the cartridge within a specified time so as to facilitate the further use of the subsequent cartridge for analysis.

Step S3011: if the continuous operation signal is not received before the timing of the checking time length is reset to zero, the signal that the cigarette cartridge needs to be changed is output, and the electronic cigarette is controlled to be shut down.

When the continuous operation signal is not received before the timing of the checking time is reset to zero, the user does not input a signal for continuously using the cigarette cartridge within the set time, namely the default user does not use the cigarette cartridge, and a signal that the cigarette cartridge needs to be changed is output to record the situation so as to inform the user of changing the cigarette cartridge; meanwhile, the electronic cigarette is controlled to be shut down so as to reduce the standby consumption of the electronic cigarette, and meanwhile, the shutdown process can reduce the damage to the cigarette rod caused by the replacement of the cigarette cartridge.

Step S3012: and if the continuous operation signal is received before the timing of the check time length is reset to zero, acquiring the existing time length information according to the existing time length of the continuous operation signal.

When a continuous operation signal is received before the timing of the checking duration is reset to zero, the fact that the user needs to continuously use the cigarette cartridge is indicated, and at the moment, the user needs to select a processing mode because the brand of the cigarette cartridge is not consistent with the brand of the cigarette rod; the duration corresponding to the existence duration information is the duration of the existence of the continuous operation signal, that is, the time is counted when the continuous operation signal exists, and the corresponding existence duration information is output when the continuous operation signal disappears.

Step S302: and determining the abnormal mode information according to the matching of the time length information, the mode information and the existing time length information stored in the preset abnormal mode database.

The duration corresponding to the duration information is the duration of the continuous operation signal, the mode corresponding to the mode information is a mode for processing the smoke bombs of different brands, each duration information corresponds to corresponding mode information, the abnormal mode database is established through different duration information and corresponding mode information, and the establishing method is a conventional technical means of a person skilled in the art and is not described in detail; when the existing duration information is input into the abnormal pattern database, the abnormal pattern database can output corresponding pattern information, namely abnormal pattern information.

Step S303: and controlling the tobacco rod to adjust to the mode corresponding to the abnormal mode information to carry out operation.

The tobacco rod operation is controlled according to the mode corresponding to the abnormal mode information, so that the tobacco bullets of different brands can exert better effect.

Referring to fig. 4, after the movement of the acquisition area is completed, the following processing steps are provided:

step S400: and acquiring the signal intensity information of the correct signal of the cartridge.

When a correct signal of the cartridge is output, the brand of the cartridge is correct, but the cartridge is not installed according to a standard form, and the situation needs to be further analyzed to judge that the cartridge can be directly used; the intensity value corresponding to the signal intensity information is the intensity value of the correct signal of the cartridge and can be determined through the magnitude of the induced current, when the NFC card is closer to the NFC card reader, the intensity corresponding to the signal intensity information is larger, and otherwise, the intensity is smaller.

Step S401: and determining the signal strength information with the maximum strength value in all the signal strength information according to a preset sorting rule, and defining the signal strength information as the latest strength information.

The sorting rule is a method which is set in advance and can sort the data size, such as a bubbling method, signal strength information with the maximum strength value can be determined according to the sorting rule, and the signal strength information is defined as the latest strength information to be identified, so that the signal strength information can be called conveniently in the subsequent analysis process.

Step S402: and determining the area position information of the acquisition area when the correct signal of the corresponding cartridge is acquired according to the latest intensity information.

The position corresponding to the region position information is the position of the acquisition region when the latest intensity information is acquired, and the acquisition can be realized by installing a positioning device on the acquisition region, and the specific method is set by a worker according to actual conditions and is not repeated.

Step S403: and judging whether the position corresponding to the area position information is consistent with the preset starting position or not.

The starting position can satisfy the position that the electron cigarette normally used when the NFC card is read for the NFC card reading device, and the position through the NFC card promptly and judge whether the installation of cigarette bullet can satisfy the user demand, and the purpose of judgement is in order to learn whether the electron cigarette can normally use.

Step S4031: and if the position corresponding to the area position information is inconsistent with the starting position, outputting a position error signal and controlling the electronic cigarette to be turned off.

When the position corresponding to the area position information is inconsistent with the starting position, the situation that the current position where the cigarette cartridge is installed cannot meet the requirement of direct use of the electronic cigarette is shown, and a position error signal is output at the moment to enable a user to know the situation, so that the user can adjust the position of the cigarette cartridge in time; the electronic cigarette is controlled to be turned off so as to reduce the waste of the power supply, and therefore the user can conveniently adjust the cigarette cartridge.

Step S4032: and if the position corresponding to the area position information is consistent with the starting position, determining normal mode information according to the smoke cartridge parameter information, and controlling the smoke rod to adjust to the mode corresponding to the normal mode information for operation.

When the position corresponding to the area position information is consistent with the starting position, the current position of the cigarette cartridge can meet the requirement of direct use of the electronic cigarette, and corresponding normal mode information is matched in the normal mode database according to the parameter information of the cigarette cartridge so as to control the cigarette rod to be normally used.

Referring to fig. 5, the usage steps of the electronic cigarette in the mode corresponding to the normal mode information are as follows:

step S500: and acquiring current blood pressure parameter information.

The blood pressure value corresponding to the current blood pressure parameter information is the blood pressure value of the user at the current time, as shown in fig. 6, a blood pressure measuring sensor may be installed on the cigarette rod, so that the user holds the cigarette rod with his hand during the use of the electronic cigarette, and the blood pressure measuring sensor can acquire the blood pressure of the user at this time, wherein the blood pressure measuring sensor is a sensor for measuring blood pressure, and is a conventional technical means for those skilled in the art, and is not described in detail; meanwhile, in order to monitor the body health parameters of the user in the smoking process, a heartbeat sensor, a respiration sensor and the like can be arranged on the cigarette rod, so that the body performance of the user can be monitored in the smoking process of the user.

Step S501: and defining the blood pressure parameter information acquired for the first time as initial blood pressure information, and matching the blood pressure information and the frequency information stored in the preset gear database with the initial blood pressure information to determine initial frequency information.

The blood pressure parameter information acquired for the first time is blood pressure parameter information when the electronic cigarette is started and needs to be used, and the blood pressure parameter information is defined as initial blood pressure information to be identified so as to be convenient for calling the blood pressure parameter information subsequently; the blood pressure corresponding to the blood pressure information is the blood pressure information of the user, the frequency corresponding to the frequency information is the frequency of the electronic cigarette required to be emitted by the electronic cigarette, each piece of blood pressure information corresponds to one piece of frequency information, the frequency information is the frequency information which is most suitable for the user under the condition of the current blood pressure information, the specific corresponding relation is obtained by a worker according to a plurality of tests, a plurality of pieces of blood pressure information and corresponding frequency information are arranged in the gear database, and the established method is a conventional technical means of the worker in the field and is not described in detail; when the initial blood pressure information is input into the gear database, the gear database can output corresponding frequency information, and the frequency information is the initial frequency information.

Step S502: and controlling the electronic cigarette to transmit ultrasonic waves at a frequency corresponding to the initial frequency information, and timing when the ultrasonic waves are transmitted so as to obtain the operation duration information.

Controlling the electronic cigarette to emit ultrasonic waves at a frequency corresponding to the initial frequency information, wherein the emitted ultrasonic waves can adjust the atomization effect of the electronic cigarette to the atomization effect meeting the requirements of the current user so that the user has better experience; the initial value of the time length corresponding to the operation time length information is zero, when the ultrasonic wave is transmitted, the electronic cigarette starts to be used, the time length corresponding to the operation time length information starts to be timed and increased, and the time length corresponding to the operation time length information is the use time length of the electronic cigarette.

Step S503: and judging whether the time length corresponding to the operation time length information is consistent with the preset in-place time length.

The in-place time duration is a fixed value, the time duration set by a worker and allowing the electronic cigarette to carry out ultrasonic emission at the frequency corresponding to the initial frequency information is judged to know whether the starting time duration of the electronic cigarette exceeds a specified value or not, and therefore the electronic cigarette can be further analyzed subsequently.

Step S5031: and if the time length corresponding to the operation time length information is not consistent with the in-place time length, maintaining the timing state of the operation time length information.

When the time length corresponding to the operation time length information is inconsistent with the in-place time length, the use time length of the electronic cigarette does not reach the specified value, the electronic cigarette is enabled to normally work, and the operation time length information is maintained to continue timing.

Step S5032: and if the time length corresponding to the operation time length information is consistent with the in-place time length, outputting an in-place signal, defining the current blood pressure parameter information as final blood pressure information, and calculating the difference value between the initial blood pressure information and the final blood pressure information to obtain difference blood pressure information.

When the time length corresponding to the operation time length information is consistent with the in-place time length, outputting an in-place signal to indicate that the use time length of the electronic cigarette at the moment reaches a specified value, identifying the condition, defining the blood pressure parameter information at the moment as final blood pressure information for identifying under the condition that the blood pressure of a user drops under the use of the electronic cigarette at the time length corresponding to the operation time length information, and facilitating the follow-up calling of the blood pressure parameter information; the blood pressure value corresponding to the differential blood pressure information is the blood pressure value which is reduced by the user within the in-place time, and the calculation method is that the blood pressure value corresponding to the initial blood pressure information is reduced by the blood pressure value corresponding to the final blood pressure information.

Step S504: and matching the blood pressure change information, the frequency change information and the difference blood pressure information stored in the preset adjustment database to determine adjustment frequency information.

The change value corresponding to the blood pressure change information is the change value of the blood pressure in the in-place time, the frequency value corresponding to the frequency change information is the frequency value which needs to be changed under the current blood pressure change information, each piece of blood pressure change information corresponds to the frequency change information, a specific numerical value is obtained by a worker through multiple tests, the adjustment database is established by a plurality of pieces of blood pressure change information and corresponding frequency change information, the establishing method is a conventional technical means of a person skilled in the art, and the description is omitted; when the differential blood pressure information is input into the adjustment database, the adjustment database can output corresponding frequency change information, namely adjustment frequency information.

Step S505: and determining final frequency information according to the initial frequency information and the adjustment frequency information, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the final frequency information.

The frequency value corresponding to the final frequency information is the ultrasonic frequency value which needs to be adjusted after the electronic cigarette is operated in place for a long time, and the calculation method is that the frequency value corresponding to the initial frequency information is subtracted from the frequency value corresponding to the adjustment frequency information; the electronic cigarette is controlled to emit ultrasonic waves at the frequency corresponding to the final frequency information, and the atomization effect of the electronic cigarette can be adjusted according to the change condition of the electronic cigarette operation of the user, so that the user can have better use experience.

Referring to fig. 7, when the bit signal is output, the electronic cigarette atomization effect control method further includes:

step S600: and dividing a detection interval with the range as the in-place duration in a reverse order by taking the current time as an end point on a time axis.

When the in-place signal is output, it indicates that the electronic cigarette has been started for the in-place time at this time, a detection interval with a range of the in-place time is divided on a time axis at this time so as to perform interval detection on the blood pressure change condition of the user, wherein the current time is taken as an end point to perform reverse division, that is, the tail end of the detection interval is taken as the current time.

Step S601: and determining the blood pressure parameter information which is most ahead in time and the blood pressure parameter information which is most behind in time in the detection interval, and defining the blood pressure parameter information which is most ahead in time as the starting point blood pressure information and the blood pressure parameter information which is most behind in time as the end point blood pressure information.

The time corresponding to each piece of blood pressure parameter information can be determined in the detection interval, so that the blood pressure parameter information with the most front time can be defined as the starting point blood pressure information, the blood pressure parameter information with the most rear time can be defined as the end point blood pressure information, the blood pressure parameter information at the head end and the tail end in the detection interval can be identified, and the information can be called later.

Step S602: the detection interval is controlled to move in a positive sequence on a time axis so as to continuously update the starting point blood pressure information and the ending point blood pressure information.

And controlling the detection interval to move along with the movement of time on a time axis, so that the end-point blood pressure information is always the blood pressure parameter information at the current time, and the continuous updating of the start-point blood pressure information and the end-point blood pressure information is realized, thereby facilitating the subsequent calculation.

Step S603: and calculating the difference value between the starting point blood pressure information and the end point blood pressure information to obtain the replacement blood pressure information, and updating the replacement blood pressure information into new difference blood pressure information.

The time corresponding to the replacement blood pressure information is the difference value of the head blood pressure and the tail blood pressure in the detection interval, the calculation method is that the blood pressure value corresponding to the starting point blood pressure information is subtracted from the blood pressure value corresponding to the ending point blood pressure information, the replacement blood pressure information is updated to be new difference blood pressure information, so that the difference blood pressure information can be updated in real time along with the change situation of the blood pressure of the user, and the frequency adjustment of the subsequent ultrasonic waves can be matched with the change situation of the blood pressure of the user.

Referring to fig. 8, the electronic cigarette atomization effect control method further includes:

step S700: and judging whether the blood pressure value corresponding to the end point blood pressure information is in a preset safety area.

The safe area is a blood pressure range defined by the staff and used for determining the blood pressure of the user to be under the safe condition, and the purpose of judgment is to know whether the blood pressure of the user is under the safe condition at the current time so as to facilitate the subsequent further analysis of the condition.

Step S7001: and if the blood pressure value corresponding to the endpoint blood pressure information is not in the safe area, outputting an abnormal signal.

When the blood pressure value corresponding to the endpoint blood pressure information is not in the safety area, the blood pressure of the user is not a safety condition at the moment, and an abnormal signal is output to record the condition so that the user can know the current blood pressure condition.

Step S7002: and if the blood pressure value corresponding to the destination blood pressure information is in the safe area, judging whether the blood pressure value corresponding to the start blood pressure information is in the safe area.

When the blood pressure value corresponding to the endpoint blood pressure information is in the safe area, it is described that the blood pressure of the user is under the safe condition, and the blood pressure may enter the safe area due to shifting of the blood pressure, and at this time, the blood pressure condition needs to be further judged.

Step S70021: and if the blood pressure value corresponding to the starting point blood pressure information is not in the safe area, outputting an abnormal signal.

When the blood pressure value corresponding to the starting point blood pressure information is not in the safe area, the fact that part of the blood pressure parameter information in the detection interval is not in the safe area is explained, namely the fact that the ending point blood pressure information is in the safe area possibly caused by fluctuation, and at the moment, an abnormal signal is output to record the situation.

Step S70022: and if the blood pressure value corresponding to the starting point blood pressure information is in the safe area, outputting a normal signal and maintaining the normal signal.

When the blood pressure value corresponding to the starting point blood pressure information is in the safety area, the whole detection interval is in the safety area at the moment so as to indicate that the blood pressure of the user is stable in the safety area at the moment, and a normal signal is output to identify the situation, so that the situation can be conveniently processed subsequently.

Step S701: and defining the final frequency information at the moment as continuous frequency information when the normal signal is output, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the continuous frequency information when the normal signal exists.

Final frequency information during normal signal output is defined as continuous frequency information to be identified, so that the electronic cigarette can be controlled to emit ultrasonic waves at the frequency corresponding to the continuous frequency information when normal signals exist, and the blood pressure of the user can be stabilized in a safe area by the atomization effect of the current electronic cigarette under the action of the ultrasonic waves at the frequency corresponding to the continuous frequency information, so that the user experience effect is better.

Referring to fig. 9, the electronic cigarette atomization effect control method further includes:

step S800: and after the in-place signal is output, judging whether the parameter value corresponding to the current blood pressure parameter information is zero or not.

When the in-place signal is output, the time length that the electronic cigarette is started in place is indicated, and the purpose of judgment at this time is to know whether the condition that the blood pressure parameter information is not detected exists after the time length that the electronic cigarette is used in place, so that the subsequent judgment is facilitated.

Step S8001: and if the parameter value corresponding to the current blood pressure parameter information is not zero, outputting a holding signal.

When the parameter value corresponding to the current blood pressure parameter information is not zero, the blood pressure parameter information is detected at this moment, namely the cigarette rod is held by the hand of the user, and a holding signal is output to record the situation.

Step S8002: and if the parameter value corresponding to the current blood pressure parameter information is zero, outputting a relaxation signal.

When the parameter value corresponding to the current blood pressure parameter information is zero, the condition that the blood pressure parameter information is not detected at present, namely the cigarette rod leaves the hand of the user, is indicated, and a relaxation signal is output to record the condition so as to process the condition subsequently.

Step S801: and outputting an abnormal operation signal when the relaxation signal is output, and defining the final frequency information at the moment as identification frequency information.

When the loosening signal is output, the situation that the electronic cigarette is out of hand is described, and at the moment, an abnormal operation signal is output to enable a user to know the situation and prompt the user that the electronic cigarette is out of hand, so that the situation that the user does not pay attention to the out of hand and does not know the situation is reduced; and defining the final frequency information as identification frequency information for identification so as to further analyze the change condition of the ultrasonic frequency under the condition of hands-off.

Referring to fig. 10, the electronic cigarette atomization effect control method further includes:

step S900: and acquiring the temperature information of the cigarette cartridge after the abnormal operation signal is output.

When an abnormal operation signal is output, the situation that the electronic cigarette is out of hand is described, and the situation of out of hand needs to be further analyzed; the temperature value corresponding to the temperature information of the cartridge is the temperature value of the outer surface of the cartridge, and a temperature sensor can be arranged on the outer surface of the cartridge for detection, which is a conventional technical means for those skilled in the art and is not described in detail.

Step S901: and judging whether the temperature corresponding to the temperature information of the cigarette cartridge is within a preset temperature range.

The temperature range is the temperature range of the normal human mouth set by the operator, and the purpose of judgment is to know whether the user holds the electronic cigarette with the mouth after the electronic cigarette is released, so that the electronic cigarette can be further analyzed and processed subsequently.

Step S9011: and if the temperature corresponding to the cigarette cartridge temperature information is not in the temperature range, controlling the electronic cigarette to be closed.

When the temperature corresponding to the cigarette bullet temperature information is not in the temperature range, the fact that the user does not hold the electronic cigarette with the mouth means that the user does not use the electronic cigarette any more, and the electronic cigarette is controlled to be closed to reduce consumption of electric energy.

Step S9012: and if the temperature corresponding to the cigarette cartridge temperature information is within the temperature range, outputting a continuous working signal and maintaining the normal operation of the electronic cigarette.

When the temperature that cigarette bullet temperature information corresponds is in the temperature range, it indicates that the user still holds the electronic cigarette with the mouth after taking off the hand, namely the user is still using the electronic cigarette, output working signal this moment in order to sign this condition, be convenient for follow-up further adjustment to the electronic cigarette ultrasonic frequency, maintain the normal operation of electronic cigarette in order to make the user can normally use the electronic cigarette.

Referring to fig. 11, the electronic cigarette atomization effect control method further includes:

step S1000: and timing when the continuous working signal is output to obtain the adjustment duration information.

When the continuous working signal is output, the fact that the electronic cigarette is released but the user holds the electronic cigarette with the mouth for use is indicated, and the electronic cigarette needs to be further analyzed; the duration corresponding to the adjustment duration information is the duration in which the continuous working signal exists, and is obtained by a timing method, which is a conventional technical means for those skilled in the art and is not described in detail.

Step S1001: and calculating according to the adjustment frequency information and the in-place time length to acquire unit frequency information.

The frequency value corresponding to the unit frequency information is the change value of the ultrasonic frequency in the in-place time within the unit time, and the calculation method is that the frequency value corresponding to the adjustment frequency information is divided by the time corresponding to the in-place time, wherein the adjustment frequency information is the adjustment frequency information when the time corresponding to the operation time information reaches the in-place time.

Step S1002: and calculating according to the adjustment duration information and the unit frequency information to obtain the change frequency information.

The frequency value corresponding to the change frequency information is a frequency value which is changed in the time length corresponding to the adjustment time length information, and the calculation method is that the time length value corresponding to the adjustment time length information is multiplied by the frequency value corresponding to the unit frequency information.

Step S1003: and calculating according to the identification frequency information and the change frequency information to obtain temporary frequency information, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the temporary frequency information.

The frequency value corresponding to the temporary frequency information is an ultrasonic frequency value when the user holds the electronic cigarette with the mouth after the electronic cigarette is released, and the calculation method is that the frequency value corresponding to the identification frequency information is subtracted from the frequency value corresponding to the change frequency information, so that the electronic cigarette can adjust the frequency according to the previous blood pressure change condition of the user when the blood pressure condition of the user cannot be collected, and the user can have better experience when using the electronic cigarette after the user releases the hand.

Referring to fig. 12, the electronic cigarette atomization effect control method further includes:

step S1100: and defining the blood pressure parameter information when the abnormal operation signal is output as relaxation blood pressure information.

When the abnormal operation signal is output, the situation that the electronic cigarette is out of hand is explained, and at the moment, the blood pressure parameter information when the abnormal operation signal is output is defined as relaxation blood pressure information to be identified, so that the blood pressure parameter information can be called subsequently.

Step S1101: and judging whether the holding signal is output again after the continuous working signal is output.

The purpose of the judgment is to know whether the cigarette rod is held by the hand again after being taken off the hand for a period of time so as to facilitate the subsequent further analysis.

Step S11011: and if the holding signal is not output again after the continuous working signal is output, maintaining the timing of the adjustment duration information.

When the holding signal is not output again after the continuous working signal is output, the electronic cigarette is not held by the hand again after the electronic cigarette is out of hand, and the timing of the adjustment time length information is maintained, so that the electronic cigarette can be normally used when the electronic cigarette is out of hand but held by the mouth.

Step S11012: and if the holding signal is output again after the continuous working signal is output, defining the current blood pressure parameter information as holding blood pressure information, and calculating according to the current temporary frequency information and the identification frequency information to obtain mean frequency information.

When the holding signal is output again after the continuous working signal is output, the situation that the electronic cigarette is held by the hand again after the electronic cigarette is out of hand is explainedAt this time, it is necessary to determine whether the held hand is the hand of the smoking user, so as to facilitate subsequent analysis; defining the blood pressure parameter information at the moment as holding blood pressure information for marking so as to be convenient for calling the blood pressure parameter information subsequently; the frequency value corresponding to the average frequency information is approximate average frequency value in the time length corresponding to the adjustment time length information, and the calculation formula is

Wherein

Is the frequency value corresponding to the average frequency information,

is a frequency value corresponding to the temporary frequency information,

to identify the frequency value corresponding to the frequency information.

Step S1102: and calculating the difference value between the relaxation blood pressure information and the holding blood pressure information to obtain blood pressure transition information.

The blood pressure value corresponding to the blood pressure transition information is an actual change value of the blood pressure during the electronic cigarette hands off, and the calculation method is that the blood pressure value corresponding to the relaxation blood pressure information is subtracted from the blood pressure value corresponding to the holding blood pressure information.

Step S1103: and matching the frequency information, the duration information, the blood pressure information, the adjustment duration information and the mean value frequency information stored in the preset relevant database to determine temporary blood pressure information.

The frequency information in the related database is frequency information of ultrasonic waves, the duration corresponding to the duration information is duration of operation of the ultrasonic waves at a fixed frequency, the blood pressure value corresponding to the blood pressure information is an approximate variation value of the blood pressure of the electronic cigarette at the duration corresponding to the frequency action duration information corresponding to the frequency information, each frequency information, the duration information and the blood pressure information correspond to one another one to one, the corresponding relations are obtained through repeated tests of workers, the related database is established through the corresponding relations of different frequency information, different duration information and different blood pressure information, the establishing method is a conventional technical means of technicians in the field, and details are omitted; when the adjustment duration information and the mean frequency information are simultaneously input into the related database, the blood pressure information corresponding to the adjustment duration information and the mean frequency information at the same time can be output, the blood pressure information is temporary blood pressure information, and the blood pressure value corresponding to the temporary blood pressure information is the approximate blood pressure value which needs to be changed under the current condition.

Step S1104: and calculating according to the temporary blood pressure information and the blood pressure transition information to determine deviation blood pressure information.

The blood pressure value corresponding to the deviation blood pressure information is the difference value between the actual blood pressure change value and the value which needs to be changed approximately when the electronic cigarette is held again after hands are taken off, and the calculation method is the blood pressure value corresponding to the temporary blood pressure information minus the blood pressure value corresponding to the blood pressure transition information.

Step S1105: and judging whether the blood pressure value corresponding to the deviation blood pressure information falls into a preset safety interval or not.

The safety interval is the range of the error of the allowed blood pressure set by the staff, and the specific value is set by the staff according to the actual situation and is not described in detail; the purpose of the judgment is to know whether the hand-changing situation occurs or not by knowing whether the blood pressure error is too large.

Step S11051: and if the blood pressure value corresponding to the deviation blood pressure information falls into the safety interval, outputting a normal holding signal.

When the blood pressure value corresponding to the deviation blood pressure information falls into the safety interval, the fact that the electronic cigarette is held again after being released from the hand is explained, the hand held by the electronic cigarette is the hand of the smoking user with high probability, and a normal holding signal is output to record the situation, so that the electronic cigarette can be normally used.

Step S11052: if the blood pressure value corresponding to the deviation blood pressure information does not fall into the safety interval, outputting an abnormal holding signal and controlling the electronic cigarette to be closed.

When the blood pressure value corresponding to the deviation blood pressure information does not fall into the safety interval, the fact that the electronic cigarette is held again after being out of hand is explained, the deviation of the blood pressure is large, the situation that a person holding the cigarette rod and a person smoking the cigarette are not the same person is possible to occur, the collected blood pressure parameter information cannot provide help, the electronic cigarette is controlled to be closed to reduce the situation that the user experience is poor due to the fact that the ultrasonic frequency is incorrect, an abnormal holding signal is output to record the situation, and the user can know the reason for closing the electronic cigarette.

Referring to fig. 13, based on the same inventive concept, an embodiment of the present invention provides an electronic cigarette atomization effect control system, including: the cigarette bullet identification module is used for judging whether the cigarette bullets and cigarette rods are of the same brand or not so as to reduce the occurrence of the mixed use of the cigarette rods of different brands and the cigarette bullets; the cigarette cartridge brand determining module is used for determining whether brand information is acquired differently due to the fact that the cigarette cartridges are not installed in a standard mode, and therefore whether the brands of the cigarette cartridges are correct or not can be determined; the abnormal mode determining module is used for determining the processing modes of the smoke cartridges of different brands so that the functions of the smoke cartridges can be well exerted in the using process of the smoke cartridges of different brands; the smoke cartridge installation determining module is used for determining whether the installation of the smoke cartridge can meet the use requirement; the acquisition module is used for acquiring current blood pressure parameter information; the processing module is connected with the acquisition module and the judgment module and used for storing and processing information; the processing module defines the blood pressure parameter information acquired for the first time as initial blood pressure information, and the initial frequency information is determined according to matching of the blood pressure information and the frequency information stored in the preset gear database and the initial blood pressure information; the processing module controls the electronic cigarette to transmit ultrasonic waves at a frequency corresponding to the initial frequency information, and timing is carried out when the ultrasonic waves are transmitted so as to obtain operation duration information; the judging module is used for judging whether the time length corresponding to the operation time length information is consistent with the preset in-place time length or not; if the judging module judges that the time length corresponding to the operation time length information is not consistent with the in-place time length, the processing module maintains the timing state of the operation time length information; if the judging module judges that the time length corresponding to the operation time length information is consistent with the in-place time length, the processing module outputs an in-place signal, defines the current blood pressure parameter information as final blood pressure information, and calculates the difference value between the initial blood pressure information and the final blood pressure information to obtain difference blood pressure information; the processing module matches the blood pressure change information, the frequency change information and the difference blood pressure information stored in the preset adjustment database to determine adjustment frequency information; the processing module determines final frequency information according to the initial frequency information and the adjustment frequency information, and controls the electronic cigarette to emit ultrasonic waves at a frequency corresponding to the final frequency information; the difference blood pressure updating module is used for continuously updating the difference blood pressure information so that the ultrasonic frequency of the electronic cigarette can be continuously adjusted along with the change condition of the blood pressure of the user; the frequency stability determining module is used for controlling the ultrasonic frequency stability of the electronic cigarette for a user with stable blood pressure so that the blood pressure of the user is not easy to fluctuate greatly; the electronic cigarette releasing determining module is used for judging whether the electronic cigarette is released or not so as to analyze and process different conditions in the follow-up process; the temperature determining module is used for judging whether the cigarette cartridge is held in the mouth of the user so as to know whether the user uses the electronic cigarette, and the subsequent further analysis of different conditions is facilitated; the electronic cigarette hands are taken off and the frequency of the ultrasonic waves of the electronic cigarette is adjusted by the hands-off frequency adjusting module, so that the electronic cigarette which is taken off but does not leave the mouth can be adjusted continuously to meet the requirements of users approximately;

the holding hand determining module is used for judging whether the hand held again after the hand is taken off is the hand of a smoker or not so as to reduce the frequency adjustment of the electronic cigarette when the smoker and the person holding the electronic cigarette are not the same person.

An embodiment of the present invention provides a computer-readable storage medium storing a computer program that can be loaded by a processor and execute an electronic cigarette atomization effect control method.

Computer storage media include, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

Based on the same inventive concept, the embodiment of the invention provides an intelligent terminal, which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the electronic cigarette atomization effect control method.

Claims (10)

1. An electronic cigarette atomization effect control method is characterized by comprising the following steps:

acquiring current blood pressure parameter information;

defining the blood pressure parameter information acquired for the first time as initial blood pressure information, and matching the blood pressure information and the frequency information stored in a preset gear database with the initial blood pressure information to determine initial frequency information;

controlling the electronic cigarette to transmit ultrasonic waves at a frequency corresponding to the initial frequency information, and timing when the ultrasonic waves are transmitted to obtain operation duration information;

judging whether the time length corresponding to the operation time length information is consistent with the preset in-place time length or not;

if the time length corresponding to the operation time length information is not consistent with the in-place time length, maintaining the timing state of the operation time length information;

if the time length corresponding to the operation time length information is consistent with the in-place time length, outputting an in-place signal, defining the current blood pressure parameter information as final blood pressure information, and calculating the difference value between the initial blood pressure information and the final blood pressure information to obtain difference blood pressure information;

matching the blood pressure change information, the frequency change information and the difference blood pressure information stored in the preset adjustment database to determine adjustment frequency information;

and determining final frequency information according to the initial frequency information and the adjustment frequency information, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the final frequency information.

2. The electronic aerosolization effect control method of claim 1, wherein: when the electronic cigarette atomization effect control method is in place for signal output, the electronic cigarette atomization effect control method further comprises the following steps:

dividing a detection interval with a range as in-place duration in a reverse order on a time axis by taking the current time as an end point;

determining the blood pressure parameter information which is most ahead in time and the blood pressure parameter information which is most behind in time in the detection interval, and defining the blood pressure parameter information which is most ahead in time as the starting point blood pressure information and the blood pressure parameter information which is most behind in time as the end point blood pressure information;

controlling the detection interval to move in a positive sequence on a time axis so as to continuously update the starting point blood pressure information and the end point blood pressure information;

and calculating the difference value between the starting point blood pressure information and the end point blood pressure information to obtain the replacement blood pressure information, and updating the replacement blood pressure information into new difference blood pressure information.

3. The electronic aerosolization effect control method of claim 2, wherein: further comprising:

judging whether the blood pressure value corresponding to the end point blood pressure information is in a preset safety area or not;

if the blood pressure value corresponding to the endpoint blood pressure information is not in the safety area, outputting an abnormal signal;

if the blood pressure value corresponding to the destination blood pressure information is in the safe area, judging whether the blood pressure value corresponding to the starting point blood pressure information is in the safe area;

if the blood pressure value corresponding to the starting point blood pressure information is not in the safety area, outputting an abnormal signal;

if the blood pressure value corresponding to the starting point blood pressure information is in the safe area, outputting a normal signal and maintaining the normal signal;

and defining the final frequency information at the moment as continuous frequency information when the normal signal is output, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the continuous frequency information when the normal signal exists.

4. The electronic aerosolization effect control method of claim 1, wherein: further comprising:

after the in-place signal is output, judging whether the parameter value corresponding to the current blood pressure parameter information is zero or not;

if the parameter value corresponding to the current blood pressure parameter information is not zero, outputting a holding signal;

if the parameter value corresponding to the current blood pressure parameter information is zero, outputting a relaxation signal;

and outputting an abnormal operation signal when the relaxation signal is output, and defining the final frequency information at the moment as identification frequency information.

5. The electronic aerosolization effect control method of claim 4, wherein: further comprising:

acquiring the temperature information of the cigarette cartridge after the abnormal operation signal is output;

judging whether the temperature corresponding to the temperature information of the cigarette cartridge is within a preset temperature range or not;

if the temperature corresponding to the cigarette cartridge temperature information is not within the temperature range, controlling the electronic cigarette to be closed;

if the temperature corresponding to the cigarette cartridge temperature information is within the temperature range, outputting a continuous working signal and maintaining the normal operation of the electronic cigarette.

6. The electronic aerosolization effect control method of claim 5, wherein: further comprising:

timing when the continuous working signal is output to obtain the adjustment duration information;

calculating according to the adjustment frequency information and the in-place duration to obtain unit frequency information;

calculating according to the adjustment duration information and the unit frequency information to obtain change frequency information;

and calculating according to the identification frequency information and the change frequency information to obtain temporary frequency information, and controlling the electronic cigarette to transmit ultrasonic waves at the frequency corresponding to the temporary frequency information.

7. The electronic aerosolization effect control method of claim 6, wherein: further comprising:

defining blood pressure parameter information when the abnormal operation signal is output as relaxation blood pressure information;

judging whether the holding signal is output again after the continuous working signal is output;

if the holding signal is not output again after the continuous working signal is output, maintaining the timing of the adjustment duration information;

if the holding signal is output again after the continuous working signal is output, defining the current blood pressure parameter information as holding blood pressure information and calculating according to the current temporary frequency information and the identification frequency information to obtain mean frequency information;

calculating a difference value between relaxation blood pressure information and holding blood pressure information to obtain blood pressure transition information;

matching the frequency information, the duration information, the blood pressure information, the adjustment duration information and the mean value frequency information stored in a preset relevant database to determine temporary blood pressure information;

calculating according to the temporary blood pressure information and the blood pressure transition information to determine deviation blood pressure information;

judging whether the blood pressure value corresponding to the deviation blood pressure information falls into a preset safety interval or not;

if the blood pressure value corresponding to the deviation blood pressure information falls into the safety interval, outputting a normal holding signal;

if the blood pressure value corresponding to the deviation blood pressure information does not fall into the safety interval, outputting an abnormal holding signal and controlling the electronic cigarette to be closed.

8. An electronic cigarette atomization effect control system, comprising:

the acquisition module is used for acquiring current blood pressure parameter information;

the processing module is connected with the acquisition module and the judgment module and used for storing and processing information;

the processing module defines the blood pressure parameter information acquired for the first time as initial blood pressure information, and the initial frequency information is determined according to matching of the blood pressure information and the frequency information stored in the preset gear database and the initial blood pressure information;

the processing module controls the electronic cigarette to transmit ultrasonic waves at a frequency corresponding to the initial frequency information, and timing is carried out when the ultrasonic waves are transmitted so as to obtain operation duration information;

the judging module is used for judging whether the time length corresponding to the operation time length information is consistent with the preset in-place time length or not;

if the judging module judges that the time length corresponding to the operation time length information is not consistent with the in-place time length, the processing module maintains the timing state of the operation time length information;

if the judging module judges that the time length corresponding to the operation time length information is consistent with the in-place time length, the processing module outputs an in-place signal, defines the current blood pressure parameter information as final blood pressure information, and calculates the difference value between the initial blood pressure information and the final blood pressure information to obtain difference blood pressure information;

the processing module matches the blood pressure change information, the frequency change information and the difference blood pressure information stored in the preset adjustment database to determine adjustment frequency information;

and the processing module determines final frequency information according to the initial frequency information and the adjustment frequency information and controls the electronic cigarette to emit ultrasonic waves at a frequency corresponding to the final frequency information.

9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any one of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.

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