WO2023169056A1

WO2023169056A1 - Aerosol atomization device control method and device

Info

Publication number: WO2023169056A1
Application number: PCT/CN2022/142275
Authority: WO
Inventors: 邱伟华
Original assignee: 深圳市卓尔悦电子科技有限公司
Priority date: 2022-03-07
Filing date: 2022-12-27
Publication date: 2023-09-14
Also published as: CN116762999A

Abstract

An aerosol atomization device control method and a device, the method comprising: acquiring a current resistance value of a connected atomization head; according to the current resistance value and a preset power recommendation scale, obtaining a recommended output power; according to the current resistance value and preset basic apparatus information, obtaining an adjustable power range; and according to the adjustable power range and a user output power input by a user, adjusting a current output power of an aerosol atomization device. When a user changes an atomization head, an adjustable power range that can be adjusted will be set automatically correspondingly, thereby limiting an effective range of a user output power adjusted by the user, preventing the user from inputting a user power out of an actually allowable power range according to own habits after changing the atomization head, and avoiding the problem that an adjusted power is too large or too small because an adjustment range corresponding to a heating setting is unchanged.

Description

A control method and device for an aerosol atomization device

Technical field

The invention belongs to the field of aerosol atomization control, and specifically relates to a control method and device for an aerosol atomization device.

Background technique

The aerosol atomization device consists of two parts: an atomization head and a battery pole; the atomization head part can store the aerosol-generating substrate and atomize the aerosol-generating substrate through a heating device. The atomization head and battery pole are generally split. Design, consumers can choose different atomizing heads according to their preferences, and the resistance of the heating device is different in different atomizing heads. Existing e-cigarettes generally have a single heating level, resulting in a poor user experience, especially for heating devices with different resistances. If the heating power cannot be changed, it will be difficult to adapt to different user needs. At the same time, after the user replaces the atomizer head, the adjustment range corresponding to the heating gear will not change. When the user adjusts the power, it is likely that the power will be too high or too low, affecting the user experience.

Contents of the invention

The present invention provides a control method and device for an aerosol atomization device, which solves the problem in the prior art that after the user replaces the atomization head, the adjustment range corresponding to the heating gear will not change, making it easy for the user to adjust the power during use. There is a problem that the adjusted power is too large or too small.

The basic solution of the present invention is: a control method for an aerosol atomization device, including:

Get the current resistance value of the connected atomizer head;

According to the current resistance value, combined with the preset power recommendation classification, the recommended output power is obtained;

According to the current resistance value and the preset basic equipment information, the adjustable power range is obtained;

The current output power of the aerosol atomization device is adjusted according to the adjustable power range and the user output power input by the user.

The beneficial effects of the basic solution are: in this solution, the resistance value of the atomization head is obtained at the moment the atomization head is connected; based on the obtained resistance value of the atomization head, the corresponding recommended output power is obtained for the user. Select or input to facilitate the user to set the specific content of the subsequent "User Output Power". At the same time, the adjustable power range is obtained based on the resistance value combined with the basic equipment information of the device. It can be seen that as the resistance value of the atomizer head changes, the corresponding adjustable power range will also change. Therefore, this solution can realize that when the user replaces the atomizing head, the adjustable adjustable power range will be automatically set correspondingly, thereby limiting the effective range of the user output power adjusted by the user and preventing the user from changing the atomizing head according to his own requirements. If the user is accustomed to inputting a power range that exceeds the actual allowable power range, insufficient heating or overheating may occur.

Further, obtaining the current resistance value of the accessed atomizer head includes:

Obtain user keystrokes/voice information within a preset period of time; adjust the working mode of the atomization device according to user keystrokes/voice information;

If the working mode is smart mode, read the current resistance value of the atomizer head currently connected;

If the working mode is the normal mode, the preset power output value and power standard range are obtained, and the current output power of the aerosol atomization device is adjusted according to the power standard range and the power output value input by the user.

Further, after adjusting the current output power of the aerosol atomization device according to the power standard range and the power output value input by the user,

The current output power is updated to a power output value.

Further, based on the current resistance value and combined with the preset power recommendation classification, the recommended output power is obtained, including:

According to the current resistance value, the corresponding taste-power table is found from the preset power recommendation table; the power recommendation is classified into the power recommendation table, and the power recommendation table includes the corresponding atomization Head resistance, taste, and power range, and the taste-power meter includes the corresponding taste and power range;

Obtain user taste information input by the user;

According to the user's taste information, the corresponding power range is obtained from the taste-power table as the recommended output power.

If there is no user taste information within the preset time period, the power recommendation summary table will be used as the recommended output power.

If there is no user taste information within the preset time period, the preset taste information stored in the aerosol atomization device is obtained;

According to the preset taste information, the corresponding power range is obtained from the taste-power table as the recommended output power.

Further, after obtaining the user taste information input by the user, the user taste information is updated to the preset taste information and stored.

According to the current resistance value, the corresponding change coefficient is obtained from the preset power coefficient table; the power coefficient table includes the resistance value and the change coefficient;

According to the variation coefficient and the preset standard taste power meter, the corresponding current taste power meter is calculated; the standard taste power meter includes the corresponding taste and power standard range; the current taste power meter includes the corresponding taste power meter and current power range;

According to the user taste information input by the user, the corresponding power range is obtained from the current taste power table as the recommended output power.

Further, based on the current resistance value and the preset basic equipment information, the adjustable power range is obtained, including:

According to the variation coefficient and the preset power standard range, the adjustable power range is calculated; the basic equipment information is the power standard range.

According to the current resistance value, the corresponding adjustable power range is found from the preset power control table; the basic information of the equipment is the power control table, and the power control table includes the corresponding resistance value and adjustable Power range.

According to the current resistance value, find the corresponding recommended output power from the recommended output power table; the recommended output power table includes the current resistance value and recommended output power;

Wherein, after the recommended output power is obtained, the user output power input by the user is obtained. When the user output power belongs to the recommended output power, the user output power is used as the recommended output power, combined with the current resistance value , stored in the recommended output power table and updated.

Further, adjusting the current output power of the aerosol atomization device according to the adjustable power range and the user output power input by the user includes:

When the user output power does not fall within the adjustable power range, an alarm is prompted.

The present invention also provides a computer-readable storage medium. The computer-readable storage medium stores more than one instruction. When the one or more instructions are executed by the processor in the aerosol atomization device, any one of the above mentioned instructions can be realized. Control method of aerosol atomization device.

The present invention also provides a control device for an aerosol atomization device. The control device includes: a memory and a processor; at least one program instruction is stored in the memory; and the processor loads and executes the at least one program instruction. Program instructions are used to implement any of the above-mentioned control methods of an aerosol atomization device.

Description of the drawings

Figure 1 is a schematic flow chart of a control method of an aerosol atomization device provided by the first embodiment of the present invention;

Figure 2 is a schematic structural diagram of a control device of an aerosol atomization device provided by the third embodiment of the present invention.

Detailed ways

In order to make the objectives, technical solutions and advantages of the embodiments of the present invention clearer, each implementation mode of the present invention will be described in detail below with reference to the accompanying drawings. However, those of ordinary skill in the art will understand that in various embodiments of the present invention, many technical details are provided to enable readers to better understand the present application. However, even without these technical details and various changes and modifications based on the following embodiments, the technical solution claimed in this application can also be realized:

First implementation:

The first embodiment of the present invention provides a control method for an aerosol atomization device, which includes: obtaining the current resistance value connected to the atomization head; and obtaining the recommendation based on the current resistance value in combination with the preset power recommendation classification. Output power; according to the current resistance value, combined with the preset basic equipment information, the adjustable power range is obtained; according to the adjustable power range and the user output power input by the user, the aerosol atomization device is adjusted current output power.

At the moment when the atomizing head is connected, the resistance value of the atomizing head is obtained; based on the obtained resistance value of the atomizing head, the corresponding recommended output power is obtained for the user to select or input, which facilitates the user's subsequent steps. The specific content settings of "User Output Power". At the same time, based on the resistance value combined with the basic equipment information of the device, the adjustable power range is obtained, and the adjustable power range is adjusted according to the change in the resistance value of the atomizer head, so that it changes accordingly. When the user replaces the atomizing head, the adjustable power range will be automatically set accordingly, thereby limiting the effective range of the user output power adjusted by the user and preventing the user from inputting a user power range that exceeds the actual value according to their own habits after replacing the atomizing head. Within the allowable power range, insufficient heating or overheating occurs.

The following is a detailed description of the implementation details of the control method of the sol atomization device of this embodiment. The following content is only an implementation detail provided for the convenience of understanding, and is not necessary to implement this solution. The specific process of this embodiment is shown in Figure 1. This embodiment is applied to the control device of the aerosol atomization device.

Step 101: Obtain the current resistance value of the atomizer head.

Specifically, there are many ways to obtain the current resistance value of the atomization head, such as directly detecting the current resistance value of the atomization head connected to the atomization device body, or detecting the current resistance value of the atomization head connected to the atomization device body. specifications, and according to the specifications, the resistance value corresponding to the specifications is found in a preset storage device (such as an external database, or its own memory) as the current resistance value.

In some examples, obtaining the current resistance value of the accessed atomization head includes: S1-1, obtaining the user's keystrokes/voice information within a preset time period; S1-2, adjusting the atomization device according to the user's keystrokes/voice information. working mode; S1-2-1, if the working mode is smart mode, reads the current resistance value of the atomizer head currently connected; S1-2-2, if the working mode is regular mode, obtains the preset power output value and a power standard range, and adjust the current output power of the aerosol atomization device according to the power standard range and the power output value input by the user.

In this case, the preset duration in step S1-1 is usually preset by the user before use. For example, the preset duration is set to 2s, and the key information input by the user through the keystrokes is obtained within 2s. There are two types of user key information, the "intelligent mode" corresponding to the user pressing the key, and the "regular mode" corresponding to the user not pressing the key. User buttons can be physical buttons or buttons on a virtual screen. For example, the keys on the virtual screen are touch sensors under the screen. According to the pressure on the corresponding part of the screen sensed by the touch sensor, it is used to determine whether the user presses (the touch sensor senses a non-zero change in the position corresponding to the virtual key). Current/voltage is regarded as the user pressing the virtual button, which is the specific embodiment of this behavior).

The atomization device has two working states. In "intelligent mode", it automatically reads the resistance value of the atomization head, and then adjusts the output power of the aerosol atomization device in real time according to the resistance value of the atomization head; in "normal mode" it does not Then obtain the resistance value of the atomizing head, and directly adjust the output power of the aerosol atomizing device according to the preset value. The corresponding power standard range will not change, that is, the corresponding power output value A when the atomizing head is a. The power standard range A' is used during the adjustment. After replacing the atomizer head b, the power standard range A' is still used as a measure of the power output value input by the user.

Further, after S1-2-2, the current output power will be updated to the power output value. In this way, the current output power output by this adjustment can be used as the reference power output value for the next adjustment.

For example, in normal mode, if the power output value sent by the user is not received within a preset time period, the power output value stored in the atomization device will be used as the current output power, where the preset time period is set by the user; If the power output value sent by the user is received within the preset time period, the current output power is directly adjusted according to the power standard range and power output value.

Step 102: According to the current resistance value and the preset power recommendation classification, the recommended output power is obtained.

In some examples, the implementation of step 102 includes: S2-1-1, according to the current resistance value, find the corresponding taste-power table from the preset power recommendation table; S2-1-2, obtain the user Input user taste information; S2-1-3, according to the user taste information, obtain the corresponding power range from the taste-power table as the recommended output power.

Specifically, the power recommendation classification described in S2-1-1 is the power recommendation summary table. The power recommendation summary table includes the corresponding atomization head resistance, taste, and power range. The taste-power table Including the corresponding taste and power range, this step aims to find the preset correspondence between the taste and power corresponding to the current resistance value. In S2-1-3, the corresponding power range is further found as the recommended output power based on the user taste information selected by the user.

It is worth noting that the power recommendation summary table includes the corresponding current resistance values, tastes and power ranges. The power recommendation summary table indicates that it is preset by the manufacturer, usually by testers on common fogs with different resistance values. The atomizing head is tested for power values of different tastes, thereby obtaining atomizing heads with different resistance values and the power range that needs to be maintained to achieve different tastes.

In some examples, further, after step S2-1-2 is completed, step S2-1-4 will also be executed. If there is no user taste information within the preset time period, the power recommendation summary table will be used as the recommended output power. .

Similarly, the preset duration in S2-1-4 here is also preset by the staff. In this solution, if the taste information sent by the user is not received within the preset time period, the power recommendation table will be directly output, directly showing the atomization heads with different resistance values and the power range that needs to be maintained to achieve different tastes. It is convenient for subsequent users to determine the input power output value according to their own needs.

In some examples, further, after step S2-1-2 is completed, step S2-1-5 is also performed. If there is no user taste information within the preset time period, the stored preset of the aerosol atomization device is obtained. Taste information; S2-1-6, according to the preset taste information, obtain the corresponding power range from the taste-power table as the recommended output power.

Specifically, the preset taste information is preset inside the aerosol atomization device. When the user does not select a taste, the preset taste information is directly used for substitution and judgment, and the power corresponding to the preset taste information is used. The range serves as the recommended output power for users to know the output power corresponding to the preset taste information. Usually the default taste information is set to one or more commonly used default taste information.

Furthermore, there is only one preset taste information, and the preset taste information is set to the most commonly used taste. For example, the default taste information is preset by the manufacturer based on market research before leaving the factory; for another example, the user will archive the running taste information every time he uses it to form a taste collection. Here, the default taste information is set to taste The median value in the set. For another example, the user's taste information will be set as the default taste information after each use, ensuring that the previous user's taste information will be used as the next default taste information, thereby realizing the transmission of taste information and improving the update speed of taste information.

Furthermore, there is a plurality of preset taste information, and the taste information input by the user in step S2-1-3 is obtained by selecting from a plurality of preset taste information.

In other examples, the implementation steps of step 102 include: S2-2-1, according to the current resistance value, obtain the corresponding change coefficient from the preset power coefficient table; S2-2-2, according to the change coefficients and the preset standard taste power table to calculate the corresponding current taste power table; S2-2-3, according to the user taste information input by the user, obtain the corresponding power range from the current taste power table as the required The recommended output power is as follows.

Specifically, in step S2-2-1, the power coefficient table is pre-stored. The power coefficient table includes corresponding resistance values and variation coefficients, which are determined by the manufacturer through multiple tests by testers before leaving the factory. In step S2-2-2, the standard taste power meter includes the corresponding taste and power standard ranges, which are also tested and determined by the manufacturer before leaving the factory, and usually will not be changed during use; this step S2- 2-2 Based on the variation coefficient and the standard taste power meter, calculate the current taste power meter. The current taste power meter represents different tastes and corresponding power adjustment ranges under the current resistance value, thus facilitating subsequent steps S2-2-3 According to the user taste information that the user chooses to input, the corresponding power range is obtained, and the recommended output power is set to the power range corresponding to the taste, so that the user can input a reasonable user output power according to his or her clear taste requirements.

Further, after step S2-2-2, step S2-2-4 is also executed. If there is no user taste information within the preset time period, the current taste power meter is used as the recommended output power. Directly displays the output power corresponding to each flavor under the current resistance of the atomizer head.

Further, after step S2-2-2, step S2-2-5 is also executed. If there is no user taste information within the preset time period, the preset taste information stored in the aerosol atomization device is obtained; S2-2 -6. According to the preset taste information, obtain the corresponding power range from the taste-power table as the recommended output power. The preset taste information is preset, which may be factory settings or may be input by the user during use.

Specifically, after obtaining the user taste information input by the user, the user taste information is updated to the preset taste information and stored. This embodiment proposes a setting process of default taste information. In this embodiment, after the user's taste is set this time, it is saved as the default taste information for the next cycle. If there is taste information input by the user in the next cycle, Then it is still executed according to the user taste information input by the user. If there is no user taste information input by the user, then the preset taste information is directly executed as the user taste information, which realizes the direct execution without the user inputting the user taste information. The effect of inheriting the user's taste information from the last time reflects the mutual inheritance of taste information and avoids errors and omissions.

It may also be: according to the current resistance value, find the corresponding recommended output power from the recommended output power table; the recommended output power table includes the current resistance value and the recommended output power; wherein, after obtaining the recommended output power , obtain the user output power input by the user, and when the user output power belongs to the recommended output power, the user output power is used as the recommended output power, combined with the current resistance value, and stored in the recommended output power table and updated.

Step 103: According to the current resistance value and the preset basic equipment information, the adjustable power range is obtained; the current taste power meter includes the corresponding taste and the current power range.

In some examples, the implementation of step 103 includes: S3-1-1, according to the current resistance value, obtain the corresponding change coefficient from the preset power coefficient table; S3-1-2, according to the change coefficient and The preset power standard range is used to calculate the adjustable power range; the basic information of the device is the power standard range.

Specifically, the power coefficient table is preset, usually preset by the manufacturer or user before use. The power coefficient table includes a resistance value and a variation coefficient, which shows the resistance of different atomizing heads with the resistance value. Changes correspond to changes in power. The power standard range is the effective power range under standard conditions set by the manufacturer, usually [Pmin, Pmax]. As the resistance changes, the coefficient will also change. Assuming the coefficient is k, then the calculated adjustable power range is [k*Pmin, k/Pmax].

In some examples, the implementation of step 103 includes: S3-2-1, according to the current resistance value, find the corresponding adjustable power range from the preset power control table; wherein the basic device information is Described power control table, described power control table includes corresponding resistance value and adjustable power range. Find the adjustable power range corresponding to the resistance value by looking up the table.

Step 104: Adjust the current output power of the aerosol atomization device according to the adjustable power range and the user output power input by the user.

Specifically, it is determined whether the user output power input by the user satisfies the adjustable power range obtained in step 103. Since the setting of the adjustable power range in step 103 is related to the current resistance value in the atomizing head, when atomizing heads with different resistance values are connected to the control device of the same atomizing device, the adjustable power range is also possible. There will be changes, so this step 104 is necessary.

Adjusting the current output power of the aerosol atomization device specifically includes: S4-1. When the user output power belongs to the adjustable power range, adjust the current output power of the aerosol atomization device so that the current output power Within the preset error range of the user output power; S4-2, when the user output power exceeds the maximum value of the adjustable power range, or the user output power is less than the minimum value of the adjustable power range (that is, when the user output power does not fall within the adjustable power range), an alarm will be prompted.

Among them, the method of prompting the alarm can be through one or more of the following: LED light flashing, display screen display, sending alarm information to the user client through the wireless network, notifying the user client through broadcast, and informing the user in a timely manner. The current faulty user output power is reset.

In some examples, step S4-2 may also include: when the user output power exceeds the maximum value of the adjustable power range, adjusting the output power to the maximum value of the adjustable power range; when the user output power is less than The minimum value of the adjustable power range, adjust the output power to the minimum value of the adjustable power range.

The steps of the various methods above are divided just for the purpose of clear description. During implementation, they can be combined into one step or some steps can be split into multiple steps. As long as they include the same logical relationship, they are all within the scope of protection of this patent. ; Adding insignificant modifications or introducing insignificant designs to the algorithm or process without changing the core design of the algorithm and process are within the scope of protection of this patent.

Second implementation mode:

A second embodiment of the present invention provides a computer-readable storage medium. The computer-readable storage medium stores more than one instruction. When the one or more instructions are executed by a processor in an aerosol atomization device, the first step is implemented. The control method of the aerosol atomization device according to any one of the embodiments.

That is, those skilled in the art can understand that all or part of the steps in the methods of the above embodiments can be completed by instructing relevant hardware through a program. The program is stored in a storage medium and includes several instructions to cause a device ( It may be a microcontroller, a chip, etc.) or a processor (processor) that executes all or part of the steps of the methods described in various embodiments of this application. The aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or optical disk and other media that can store program code. .

Third implementation mode:

The third embodiment of the present invention provides a control device for an aerosol atomization device. The control device includes: a memory 302 and a processor 301; at least one program instruction is stored in the memory 302; the processor 301, The control method of an aerosol atomization device described in any one of the first embodiments is implemented by loading and executing the at least one program instruction.

The memory 302 and the processor 301 are connected using a bus. The bus may include any number of interconnected buses and bridges. The bus connects various circuits of one or more processors 301 and the memory 302 together. The bus may also connect various other circuits together such as peripherals, voltage regulators, and power management circuits, which are all well known in the art and therefore will not be described further herein. The bus interface provides the interface between the bus and the transceiver. A transceiver may be one element or may be multiple elements, such as multiple receivers and transmitters, providing a unit for communicating with various other devices over a transmission medium. The data processed by the processor 301 is transmitted on the wireless medium through the antenna. Furthermore, the antenna also receives the data and transmits the data to the processor 301.

Processor 301 is responsible for managing the bus and general processing, and can also provide various functions, including timing, peripheral interfaces, voltage regulation, power management, and other control functions. The memory 302 may be used to store data used by the processor 301 when performing operations.

The above are only embodiments of the present invention. Common knowledge such as the specific structures and characteristics of the solutions are not described in detail here. Those of ordinary skill in the art are aware of all common knowledge in the technical field to which the invention belongs before the filing date or priority date. Technical knowledge, being able to know all the existing technologies in the field, and having the ability to apply conventional experimental methods before that date. Persons of ordinary skill in the field can, under the inspiration given by this application, combine their own abilities to perfect and implement this plan, Some typical well-known structures or well-known methods should not be an obstacle for those of ordinary skill in the art to implement the present application. It should be pointed out that for those skilled in the art, several modifications and improvements can be made without departing from the structure of the present invention. These should also be regarded as the protection scope of the present invention and will not affect the implementation of the present invention. effectiveness and patented practicality. The scope of protection claimed in this application shall be based on the content of the claims, and the specific implementation modes and other records in the description may be used to interpret the content of the claims.

Claims

A control method for an aerosol atomization device, characterized by including:

Get the current resistance value of the connected atomizer head;

According to the current resistance value, combined with the preset power recommendation classification, the recommended output power is obtained;

According to the current resistance value and the preset basic equipment information, the adjustable power range is obtained;

The current output power of the aerosol atomization device is adjusted according to the adjustable power range and the user output power input by the user.
A control method for an aerosol atomization device according to claim 1, characterized in that said obtaining the current resistance value of the accessed atomization head includes:

Obtain user key information within a preset period of time; adjust the working mode of the atomization device according to the user key information;

If the working mode is smart mode, read the current resistance value of the atomizer head currently connected;

If the working mode is the normal mode, the preset power output value and power standard range are obtained, and the current output power of the aerosol atomization device is adjusted according to the power standard range and the power output value input by the user.
A control method for an aerosol atomization device according to claim 1, characterized in that, according to the current resistance value and combined with the preset power recommendation classification, the recommended output power is obtained, including:

According to the current resistance value, the corresponding taste-power table is found from the preset power recommendation table; the power recommendation is classified into the power recommendation table, and the power recommendation table includes the corresponding atomization Head resistance, taste, and power range, and the taste-power meter includes the corresponding taste and power range;

Obtain user taste information input by the user;

According to the user's taste information, the corresponding power range is obtained from the taste-power table as the recommended output power.
A control method for an aerosol atomization device according to claim 3, characterized in that, based on the current resistance value and combined with the preset power recommendation classification, the recommended output power is obtained, including:

If there is no user taste information within the preset time period, the preset taste information stored in the aerosol atomization device is obtained;

According to the preset taste information, the corresponding power range is obtained from the taste-power table as the recommended output power.
A control method for an aerosol atomization device according to claim 1, characterized in that, according to the current resistance value and combined with the preset power recommendation classification, the recommended output power is obtained, including:

According to the current resistance value, the corresponding change coefficient is obtained from the preset power coefficient table; the power coefficient table includes the resistance value and the change coefficient;

According to the variation coefficient and the preset standard taste power meter, the corresponding current taste power meter is calculated; the standard taste power meter includes the corresponding taste and power standard range; the current taste power meter includes the corresponding taste power meter and current power range;

According to the user taste information input by the user, the corresponding power range is obtained from the current taste power table as the recommended output power.
A control method for an aerosol atomization device according to claim 1, characterized in that, based on the current resistance value and combined with preset basic equipment information, the adjustable power range is obtained, including:

According to the current resistance value, the corresponding change coefficient is obtained from the preset power coefficient table; the power coefficient table includes the resistance value and the change coefficient;

According to the variation coefficient and the preset power standard range, the adjustable power range is calculated; the basic equipment information is the power standard range.
A control method for an aerosol atomization device according to claim 1, characterized in that, according to the current resistance value and combined with the preset power recommendation classification, the recommended output power is obtained, including:

According to the current resistance value, find the corresponding recommended output power from the recommended output power table; the recommended output power table includes the current resistance value and recommended output power;

Wherein, after obtaining the recommended output power, the user output power input by the user is obtained. When the user output power belongs to the recommended output power, the user output power is used as the recommended output power, combined with the current resistance value , stored in the recommended output power table and updated.
The control method of an aerosol atomization device according to claim 1, characterized in that the current output power of the aerosol atomization device is adjusted according to the adjustable power range and the user output power input by the user, include:

When the user output power does not fall within the adjustable power range, an alarm is prompted.
A computer-readable storage medium, the computer-readable storage medium stores more than one instruction, characterized in that when the more than one instruction is executed by a processor in an aerosol atomization device, claims 1 to 8 are realized The control method of the aerosol atomization device described in any one of the above.
A control device for an aerosol atomization device, characterized in that the control device includes:

memory and processor;

At least one program instruction is stored in the memory;

The processor implements the control method of an aerosol atomization device according to any one of claims 1 to 8 by loading and executing the at least one program instruction.