CN211861817U - Aerial fog generating device and heating component using same - Google Patents

Abstract

The application discloses aerial fog produces device and uses its heating element, this aerial fog produces device includes main part and heating element, heating element can dismantle with the main part and be connected, wherein, heating element is including first identification information, first identification information can be used for being discerned by the server, the main part is used for acquireing the characteristic parameter that the server provided according to first identification information, and heat heating element according to characteristic parameter, in order further to utilize heating element to produce the aerial fog to aerial fog production matrix and heat in order to produce aerial fog, characteristic parameter corresponds the heating element of a model. Through the mode, on the one hand, the replacement of the heating component can be facilitated, the use cost is reduced, and on the other hand, the situation that the replacement of the heating component is replaced by fake and fake parts and the use of a user is influenced is avoided when the parts are replaced.

Description

Aerial fog generating device and heating component using same

Technical Field

The application relates to the technical field of heating and non-combustion, in particular to an aerosol generating device and a heating assembly applying the same.

Background

Most of the existing non-combustible heating aerosol generating devices utilize a heating element to heat an aerosol generating substrate, so as to form a continuous smoking effect for a user to smoke. After the puff is completed, the user pulls the aerosol-generating substrate out of the heating element to effect separation of the heating element from the aerosol-generating substrate.

Because the aerosol generating substrate can produce certain bonding thing and attach to the heating element after the heating, form the bonding state to the bonding thing still can remain and further increase on the heating element surface, thereby lead to increasing the external diameter of heating element to a certain extent, cause the loss to the heating element, not only influenced smoking article's taste, also reduced the life-span of heating incombustible fog generating device simultaneously.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present application provides an aerosol generating device and a heating assembly using the same to solve the problem that the heating element cannot be replaced conveniently in the prior art.

In order to solve the technical problem, the application adopts a technical scheme that: there is provided an aerosol-generating device comprising: a main body; the heating component is detachably connected with the main body; the heating component comprises first identification information, the first identification information can be used for being identified by a server, the main body is used for obtaining characteristic parameters provided by the server according to the first identification information and heating the heating component according to the characteristic parameters so as to further utilize the heating component to heat aerosol generating substrate to generate aerosol, and the characteristic parameters correspond to the heating component of one type.

According to the utility model provides an embodiment, data connection is established with external terminal to the main part, the heating element passes through external terminal to the server sends first identification information, the main part further passes through external terminal follows the server acquires the server foundation the characteristic parameter that first identification information provided.

According to the utility model provides an embodiment, first identification information is the serial number, the characteristic parameter of server storage is according to first identification information generates, the main part passes through external terminal is used for acquireing the server basis the characteristic parameter that the serial number generated.

According to the utility model provides an embodiment, first identification signal is bar code and/or two-dimensional code, the main part passes through external terminal is used for acquireing the server discerns the characteristic parameter that bar code and/or two-dimensional code generated.

According to the utility model provides an embodiment, the main part still includes communication module, the main part pass through communication module with external terminal establishes data connection.

According to the utility model provides an embodiment, communication module is any one or more in WIFI communication module, bluetooth communication module or the NFC communication module.

According to the utility model provides an embodiment, the main part includes: a housing assembly; a controller disposed within the housing assembly; the heating assembly is detachably connected with the shell assembly and is electrically connected with the controller when the heating assembly is connected with the shell assembly, and the controller is used for acquiring the characteristic parameters from the server by utilizing the communication module.

According to the utility model provides an embodiment, the main part is including second identification information, second identification information can be used for being discerned by the server, the main part is used for acquireing the server basis parameter that second identification information generated, and according to basic parameter updates and/or upgrades.

According to the utility model provides an embodiment, the heating element includes: a heating element; the first conductive terminal is connected with the heating body; the main body also comprises a second conductive terminal, and when the first conductive terminal is connected with the second conductive terminal, the main body supplies power to the heating body; the characteristic parameters comprise heating element parameters and heating parameters of the heating assembly, and the heating element parameters represent the corresponding relation between the resistance value and the temperature of a heating element of the heating assembly; the main body is also used for detecting the resistance value of the heating body, further determining the temperature of the heating body according to the parameters of the heating body, and heating the heating assembly according to the temperature of the heating body and the heating parameters.

In order to solve the above technical problem, another technical solution adopted by the present application is: providing a heat generating component for detachable connection with a body of an aerosol-generating device; the heating component comprises first identification information, the first identification information can be used for being identified by a server, the main body is used for obtaining characteristic parameters provided by the server according to the first identification information and heating the heating component according to the characteristic parameters so as to further utilize the heating component to heat aerosol generating substrate to generate aerosol, and the characteristic parameters correspond to the heating component of one type.

Be different from prior art, this application is through providing an aerial fog generating device, this aerial fog generating device is including dismantling connecting main part and heating element, and heating element is including first identification information, and first identification information can be used for being discerned by the server, and the main part is used for obtaining the characteristic parameter that the server provided according to first identification information, and heats heating element according to characteristic parameter, heats in order further to utilize heating element to produce aerial fog to aerial fog production matrix, and characteristic parameter corresponds a model heating element. In this way, through setting up heating element and main part into detachable construction, can be convenient for on the one hand can change at will to the spare part in the aerial fog production device, reduce use cost, and on the other hand has guaranteed when the change of spare part, has avoided changing for counterfeit and shoddy spare part, and influence user's use. In yet another aspect, by retrieving relevant feature parameters from a server, storage costs may be reduced and rapid updating and replacement of feature parameters may be facilitated.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts. Wherein:

figure 1 is a schematic structural view of a first embodiment of an aerosol-generating device provided herein;

figure 2 is a schematic data interaction diagram of an aerosol-generating device and a server provided herein;

figure 3 is a schematic structural view of a second embodiment of an aerosol-generating device provided herein;

FIG. 4 is a schematic illustration of a temperature-time profile provided herein;

FIG. 5 is a schematic diagram of the pulsed voltages provided herein;

figure 6 is a schematic view of a body of the aerosol-generating device of figure 1;

figure 7 is a schematic structural view of a third embodiment of an aerosol-generating device provided herein;

FIG. 8 is a schematic structural diagram of one embodiment of a heat generating component provided herein;

FIG. 9 is a schematic structural diagram of an embodiment of a server provided in the present application;

fig. 10 is a flowchart illustrating an embodiment of a data interaction method provided in the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "first", "second", etc. in this application are used to distinguish between different objects and not to describe a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1 and 2 and fig. 3, fig. 1 is a schematic structural diagram of a first embodiment of an aerosol generating device provided by the present application, fig. 2 is a schematic data interaction diagram of the aerosol generating device provided by the present application and a server, fig. 3 is another schematic structural diagram of the first embodiment of the aerosol generating device provided by the present application, wherein a left half of fig. 3 shows an overall schematic diagram of the aerosol generating device 10, and a right half of fig. 3 shows a disassembly schematic diagram, the aerosol generating device 10 includes a main body 11 and a heat generating component 12, wherein the main body 11 and the heat generating component 12 are detachably connected.

Specifically, the heating component 12 includes first identification information, which can be used to be identified by the server 20, and the main body 11 is configured to obtain a characteristic parameter provided by the server 20 according to the first identification information, and heat the heating component according to the characteristic parameter, so as to further heat the aerosol generating substrate by using the heating component to generate aerosol, where the characteristic parameter corresponds to a type of the heating component.

The characteristic parameters are formed according to different types of heating elements 12, and due to the influence of factors such as the material, process, and manufacturing equipment of the heating element in the heating element 12, the characteristic parameters (such as a "temperature T-resistance R" curve, an initial resistance value R0, a TCR (temperature coefficient of resistance) and the like) are different, when a product is produced, the heating element 12 is placed in a testing device, and the characteristic parameters of the heating elements 12 of different types are tested.

In an optional embodiment, the server 20 stores a feature parameter-first identification information data packet, and after obtaining the first identification information, the server 20 may unlock the feature parameter-first identification information data packet through the first identification information to generate a corresponding feature parameter, and provide the feature parameter to the main body 11.

In another alternative embodiment, the server 20 stores a corresponding algorithm, and obtains the characteristic parameter through the algorithm after inputting the first identification information, and provides the characteristic parameter to the main body 11.

Specifically, the first identification information may be unique identification information of each heat generating component 12 or unique identification information of the same model of heat generating component 12. Therefore, the characteristic parameter obtained from the first identification information may be the corresponding unique heat generating component 12.

In another embodiment, the characteristic parameter corresponds to one type of heat generating component 12. Because this characteristic parameter is fixed, can only adopt this characteristic parameter to heat the heating element 12 of adaptation, then, if the model of the heating element 12 of connecting does not correspond with the model that this characteristic parameter corresponds, heating element 12 can not be fine heats aerosol production matrix, and the aerosol taste of inhaling can become relatively poor. In this way, it is possible to avoid the need to replace the type of the heat generating component 12 at will, and when the user replaces the heat generating component 12, only the heat generating component 12 of the same type can be replaced.

Optionally, the main body 11 specifically includes a first main body 11a and a second main body 11b, wherein the first main body 11a is used for accommodating a battery, and the second main body 11b is used for accommodating a controller and the like and is used for forming a connection with the heat generating component 12. For example, the second body portion 11b is provided with a first connector, and the heat generating component 12 is provided with a second connector for connecting the second body portion 11b and the heat generating component 12. Alternatively, the connector may be a snap, screw, or the like. The heat generating element 12 may be connected to the first body 11a through a bottom portion.

Optionally, the aerosol-generating device 10 further comprises a first cover 14 and a second cover 15 removably attached to the body 11. When the heating element 12 is fixedly connected with the main body 11, the first cover 14 may cover the heating element 12 to protect the heating element 12; further, the second cover 15 may be provided so as to cover the heat generating element 12 (or the first cover 14) and the second body portion 11b, and protect the heat generating element 12 and the second body portion 11 b.

Alternatively, in an embodiment, the characteristic parameters include a heater parameter in the heater assembly 12 and a heating parameter, wherein the heater parameter represents a correspondence between a resistance value and a temperature of the heater.

The parameters of the heating element are formed according to the heating elements 12 of different models, and due to the influence of factors such as the material, process, manufacturing equipment, etc. of the heating element in the heating element 12, the characteristic parameters (such as a temperature T-resistance R curve, an initial resistance value R0, a TCR (temperature coefficient of resistance), etc.) are different, when the product is produced, the heating element 12 is placed in a testing device, and the characteristic parameters of the heating elements 12 of different models are tested.

The heating parameter may be a "temperature-time variation curve" to determine that the heating element is heated to different degrees with time. As shown in fig. 4, fig. 4 is a schematic diagram of a temperature-time variation curve provided in the present application.

For example, the controller may control the temperature of the heating body according to a preset temperature-time change curve using a PID algorithm. Wherein the "temperature-time" profile refers to the heating profile for tobacco.

The present embodiment is described below with a specific scenario.

When a user uses the electronic smoking set to smoke, the main body 11 and the heating element 12 are connected, optionally, a switch button arranged on the main body 11 is turned on, and at this time, the electronic smoking set starts to work.

The main body 11 obtains the characteristic parameters in the server 20, obtains the corresponding relationship between the resistance value and the temperature of the heating element in the heating assembly 12, and starts timing. Then the current resistance value of the heating element is obtained, the current temperature of the heating element is obtained based on the parameters of the heating element, and finally the voltage of the heating element is controlled through a temperature-time curve.

It will be appreciated that in general, the heating temperature required at different time periods is different in order to obtain a better taste profile of the aerosol substrate (e.g. tobacco). In an alternative embodiment, as shown in FIG. 3, where the abscissa represents time and the ordinate represents temperature.

Heating the heating element in a time period of T0-T1 to raise the temperature from the normal temperature W0 to the temperature W1;

maintaining the temperature of the heating body at W1 for a period of T1-T2;

reducing the temperature of the heating element from W1 to W2 in a time period of T2-T3;

maintaining the temperature of the heating body at W2 for a period of T3-T4;

after T4, the temperature of the heating element was lowered from W2 to room temperature.

In a specific embodiment, the value of T1 may be 5 to 10s, the value of T2 may be 12 to 18s, the value of W1 may be 320-.

In an alternative embodiment, T1 is 7s, T2 is 15s, W1 is 340 c, and W2 is 320 c, so that if the resistance of the heating element in this embodiment is correspondingly reduced by 2.28m Ω when the temperature is reduced by 1 c, the temperature is reduced from W1 to W2, that is, the temperature is reduced by 20 c, and the resistance value needs to be reduced by 20 × 2.28m Ω.

Further, when the heating temperature of the heating element is controlled by using the electric energy, the pulse frequency and/or the pulse amplitude and/or the duty ratio of the electric power supplied to the heating element are changed to provide the temperature control of the heating element, so that the aerosol device can be controlled to release the smog with better taste. As shown in fig. 5, fig. 5 is a schematic diagram of the pulse voltage provided by the present application. For example, the enable switch is turned on at time t1, the battery supplies power to the heat generating body, and the enable switch is turned off at time t2, the battery does not supply power to the heat generating body. Therefore, the temperature of the heat-generating body can be adjusted by adjusting the percentage of T1 in the period T. Specifically, the temperature of the heat-generating body is increased by increasing the duty ratio of t1, and the temperature of the heat-generating body is decreased by decreasing the duty ratio of t 1.

In practical applications, the main body 11 and the heat generating component 12 may be sold as a whole, and one or both of the main body 11 and the heat generating component 12 may also be sold in combination, so that the user can replace any one of the components conveniently. For example, when the user purchases the heater module 12 and the main body 11 at the same time, if the heater module 12 is worn and needs to be replaced during the use process, the user only needs to purchase the heater module 12 of the same model as before.

It should be noted that, if the heat generating component 12 purchased by the user is different from one model to another model, the main body 11 may still obtain the characteristic parameter corresponding to the heat generating component 12 from the server 20 according to the first identification information of the heat generating component 12, and heat the heat generating component 12 according to the corresponding characteristic parameter. In this way, the heating effect and the taste are not affected even if one of the heating elements is replaced.

Through the mode, the users can be randomly collocated, and the users do not need to be bundled and sold with poor experience feeling, so that the purchasing desire of the users is stimulated.

Being different from the prior art, the aerosol-generating device that this embodiment provided includes: a main body; and the heating component is detachably connected with the main body. The heating component comprises first identification information, the first identification information can be used for being identified by the server, the main body is used for acquiring characteristic parameters provided by the server according to the first identification information and heating the heating component according to the characteristic parameters, so that the heating component is further utilized to heat aerosol generating substrate to generate aerosol, and the characteristic parameters correspond to one type of the heating component. In this way, through setting up heating element into detachable construction to set up first identification information on heating element, make the server can generate corresponding characteristic parameter according to first identification information, can change at will to the spare part in the aerial fog production device on the one hand, reduce use cost, on the other hand has guaranteed when the change of spare part, has avoided changing for the spare part of counterfeit and shoddy, and influence user's use. In yet another aspect, by protecting the characteristic parameters in the server, the cost of the storage medium is reduced and real-time updating of the product is facilitated.

Referring to fig. 6, the main body 11 includes a controller 111 and a communication module 112, and the main body 11 may perform data interaction with the server 20 through the communication module 112 to obtain the characteristic parameters.

In a specific embodiment, the main body 11 establishes a data connection with an external terminal, the heat generating component 12 sends the first identification information to the server 20 through the external terminal, and the main body 11 further obtains the characteristic parameters provided by the server 20 according to the first identification information from the server 20 through the external terminal.

Specifically, the external terminal may be a PC terminal, such as a computer, or a mobile terminal, such as a mobile phone, a tablet computer, or the like.

In a specific embodiment, the main body 11 may establish a data connection with an external terminal through the communication module 112.

Optionally, the communication module 112 may be any one or more of a WIFI communication module, a bluetooth communication module, or an NFC (Near field communication) communication module. The communication module 112 may also be a data interface or the like, and performs data interaction with an external terminal through a data line. The main body 11 performs data interaction with an external terminal through the communication module 112 to acquire the characteristic parameters. The controller 111 then heats the heat generating component 12 according to the characteristic parameters acquired by the communication module 112.

In a specific embodiment, the first identification information is a serial number. In the alternative process, the server 20 may acquire the serial number and generate the related characteristic parameter through an external terminal such as a PC terminal or a mobile terminal as an intermediary.

In a specific embodiment, the first identification information is a two-dimensional code or/and a barcode, and in the replacement process, the server 20 may scan the two-dimensional code or/and the barcode through an external terminal such as a mobile terminal as a medium, and generate the related characteristic parameter according to the two-dimensional code or/and the barcode. Wherein the characteristic parameter stored by the server 20 is generated according to the first identification information.

In a specific embodiment, the communication module 112 is not limited to wireless communication such as WIFI communication module, bluetooth communication module, or NFC, but may also perform wired communication directly through a data line, which is not limited herein.

In a specific embodiment, the first identification information may also be RFID tag information with higher security, and in the replacement process, the server 20 may obtain the RFID tag information through an RFID identifier as a medium and generate related characteristic parameters, and the security of the RFID tag information is better, and the RFID tag information is not easily plagiarized, replaced, and modified.

In a specific embodiment, the main body 11 may further include second identification information, which may be one or more of a serial number, a two-dimensional code, a barcode, and RFID tag information, similar to the first identification information. The second identification information may also be used for being recognized by the server 20, and the main body is used for acquiring the basic parameters generated by the server 20 according to the second identification information, and updating and/or upgrading according to the basic parameters.

Specifically, the main body 11 may directly obtain the relevant basic parameters from the server 20 through the second identification information of itself, so as to perform soft update and/or upgrade on itself.

Further, the main body 11 specifically includes a housing assembly and a controller disposed in the housing assembly, and the heating assembly 12 is detachably connected to the housing assembly and electrically connected to the controller when connected to the housing assembly. The controller is configured to obtain the characteristic parameters from the server 20 and heat the heating component 12 according to the characteristic parameters to further heat the aerosol-generating substrate with the heating component 12 to generate the aerosol. The controller is operable to retrieve the characteristic parameters from the server 20 using the communication module 112.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a third embodiment of the aerosol-generating device 10 provided by the present application, where the aerosol-generating device includes a main body 11 and a heat generating component 12, and the main body 11 and the heat generating component 12 are detachably connected.

In another embodiment, the heating element 12 includes a first conductive terminal 121, the main body 11 includes a controller 111 and a second conductive terminal 113 connected to the controller 111, and when the first conductive terminal 121 and the second conductive terminal 113 are connected, the main body 11 can supply power to the heating element 12, wherein the heating element 12 specifically includes a heating body, and the main body 11 is specifically configured to supply power to the heating element.

Referring to fig. 8, fig. 8 is a schematic structural diagram of the heating element provided in the present application, the heating element 12 includes a first conductive terminal 121 and a heating element 122, wherein the heating element 12 is detachably connected to the main body of the aerosol generating device, and when the first conductive terminal 121 is electrically connected to the second conductive terminal 113 of the main body 11.

The heating component 12 comprises first identification information which can be used for being identified by the server 20, and the main body 11 is used for acquiring characteristic parameters provided by the server 20 according to the first identification information and heating the heating component 12 according to the characteristic parameters so as to further heat the aerosol generating substrate by using the heating component 12 to generate aerosol.

Referring to fig. 9, the present application further provides a server 20, where the server 20 is used for data interaction with the aerosol-generating device 10 according to any of the above embodiments.

Specifically, the server 20 is configured to identify the first identification information of the heat generating component 12 to provide a characteristic parameter, and specifically, the characteristic parameter may be originally stored, and although the characteristic parameter is provided after verification and unlocking are performed after the first identification information is passed, the characteristic parameter may also be generated by calculating the first identification information through a corresponding algorithm, which is not limited herein. The server 20 sends the characteristic parameters to the main body 11, so that the main body 11 heats the heat generating components 12 according to the characteristic parameters. Such that the body 11 further heats the aerosol-generating substrate with the heater element 12 to generate an aerosol with characteristic parameters corresponding to one model of the heater element 12.

It can be understood that the embodiments of the heating assembly and the server are similar to the structures and working principles of the heating assembly and the server in the embodiments of the aerosol generating device, and are not described herein again.

Referring to fig. 10, fig. 10 is a schematic flow chart of a data interaction method, which is specifically applied to an external terminal, and the external terminal can be used as a medium to perform data interaction with the aerosol generating device 10 and the server 20.

And S11, acquiring first identification information of a heating component in the aerosol generating device.

First identification information of a heating component in an aerosol-generating device is obtained.

Specifically, the external terminal can be a PC terminal or a mobile terminal, and the aerosol generation device includes a main body and a heating component, wherein the heating component has first identification information thereon.

In a specific embodiment, the first identification information may specifically be a two-dimensional code and/or a barcode, and the mobile terminal may identify the two-dimensional code and/or the barcode to obtain the first identification information.

S12, the first identification information is sent to the server.

And sending the first identification information to a server.

And S13, acquiring the characteristic parameters provided by the server according to the first identification information.

The server correspondingly generates the characteristic parameters after receiving the first identification information, and obtains the characteristic parameters provided by the server according to the first identification information.

And S14, sending the characteristic parameters to a main body in the aerosol generating device, so that the main body heats the heating component according to the characteristic parameters, and further heats the aerosol generating substrate by using the heating component to generate aerosol.

After the characteristic parameters provided by the server are obtained, the characteristic parameters are sent to the main body in the aerosol generating device, so that the main body can heat the heating component according to the characteristic parameters, and the main body can further heat the aerosol generating substrate by using the heating component to generate aerosol. The characteristic parameter corresponds to one type of the heating component.

The specific embodiment of the data interaction method is similar to the embodiment of the aerosol generating device, and is not described herein again.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made according to the content of the present specification and the accompanying drawings, or which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. An aerosol-generating device, comprising:

a main body;

the heating component is detachably connected with the main body;

the heating component comprises first identification information, the first identification information can be used for being identified by a server, the main body is used for obtaining characteristic parameters provided by the server according to the first identification information and heating the heating component according to the characteristic parameters so as to further utilize the heating component to heat aerosol generating substrate to generate aerosol, and the characteristic parameters correspond to the heating component of one type.

2. The aerosol generating device of claim 1, wherein the main body is in data connection with an external terminal, the heating component sends first identification information to the server through the external terminal, and the main body further obtains the characteristic parameters provided by the server according to the first identification information from the server through the external terminal.

3. The aerosol generating device of claim 2, wherein the first identification information is a serial number, the server-stored characteristic parameters are generated according to the first identification information, and the main body is configured to obtain, by the external terminal, the characteristic parameters generated by the server according to the serial number.

4. The aerosol-generating device of claim 2, wherein the first identification information is a bar code and/or a two-dimensional code, and the main body is configured to obtain, through the external terminal, a characteristic parameter generated by the server to identify the bar code and/or the two-dimensional code.

5. The aerosol generating device of claim 2, wherein the body further comprises a communication module, the body establishing a data connection with the external terminal through the communication module.

6. The aerosol generating device of claim 5, wherein the communication module is any one or more of a WIFI communication module, a Bluetooth communication module, or an NFC communication module.

7. The aerosol-generating device of claim 5, wherein the body comprises:

a housing assembly;

a controller disposed within the housing assembly;

the heating assembly is detachably connected with the shell assembly and is electrically connected with the controller when the heating assembly is connected with the shell assembly, and the controller is used for acquiring the characteristic parameters from the server by utilizing the communication module.

8. An aerosol generating device according to claim 1, wherein the main body includes second identification information, the second identification information being recognizable by the server, and the main body is configured to obtain the basic parameters generated by the server according to the second identification information, and update and/or upgrade the basic parameters according to the basic parameters.

9. The aerosol-generating device of claim 1, wherein the heat generating component comprises:

a heating element;

the first conductive terminal is connected with the heating body;

the main body also comprises a second conductive terminal, and when the first conductive terminal is connected with the second conductive terminal, the main body supplies power to the heating body;

the characteristic parameters comprise heating element parameters and heating parameters of the heating assembly, and the heating element parameters represent the corresponding relation between the resistance value and the temperature of the heating element of the heating assembly.

10. A heating element for detachable connection to a body of an aerosol-generating device;

the heating component comprises first identification information, the first identification information can be used for being identified by a server, the main body is used for obtaining characteristic parameters provided by the server according to the first identification information and heating the heating component according to the characteristic parameters so as to further utilize the heating component to heat aerosol generating substrate to generate aerosol, and the characteristic parameters correspond to the heating component of one type.

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