KR20230045607A - Aerosol generating device and method, system - Google Patents

Abstract

The present application provides an aerosol generating device, method, and system, the aerosol generating device comprising: a shell having an opening; a cavity configured to receive or remove an aerosol generating product through the opening; a heater for generating an aerosol for inhalation by heating at least a portion of the aerosol generating product received in the cavity; a color detection device configured to emit light into the cavity and detect a reflection of the light to generate a color signal; and a controller that obtains a color signal generated by the color detection device and generates a control signal based on the color signal to control the operation of the heater. The present application detects the insertion or pulling out of the aerosol-generating product into the cavity through a color detection device, and further controls the operation of the heater; The cost is relatively low, the operation of the aerosol generating device is simplified, and the user experience is improved.

Description

Aerosol generating device and method, system

DETAILED DESCRIPTION OF THE INVENTION Embodiments of this application relate to the field of smoking sets, and more particularly to aerosol generating devices, methods, and systems.

This application was filed with the Chinese Intellectual Property Office on August 11, 2020, and the application number is 202010801561.7, and claims the priority of the Chinese patent application entitled "Aerosol generating device, method and system", all contents of which are by reference. incorporated herein.

For example, smoking products such as cigarettes and cigars generate fumes by burning tobacco during use. Attempts have already been made to provide a replacement for such tobacco burning articles through products that release compounds in non-combustion situations. An example of such a product is a so-called heated non-combustion product, which releases compounds through heating the tobacco rather than burning combustion.

In order to simplify user operation, a conventional smoking set generally includes a single sensor in a cigarette insertion port to detect whether or not a cigarette is inserted, and further controls a heater to operate heating. However, the sensor cannot detect whether or not the cigarette is inserted in the right position, and when the cigarette is not inserted in the right position, the heating is activated so that the cigarette is not easily heated effectively, further affecting the inhalation experience. As a solution, a sensor is further added in the cigarette cavity to detect whether or not the cigarette is inserted in the correct position. However, adding a sensor increases the hardware cost of the smoking set and lowers the product's competitiveness.

Embodiments of the present application are aimed at providing an aerosol generating device, method, and system to solve the problem of relatively high hardware detection cost existing in conventional smoking sets.

In one aspect of the embodiments of the present application, an aerosol generating device is provided,

a shell having an opening;

a cavity configured to receive or remove an aerosol generating product through the opening;

a heater for generating an aerosol for inhalation by heating at least a portion of the aerosol generating product received in the cavity;

a color detection device configured to emit light into the cavity and detect a reflection of the light to generate a color signal;

and a controller that obtains a color signal generated by the color detection device and generates a control signal based on the color signal to control the operation of the heater.

Another aspect of the embodiments of the present application provides a method for controlling an aerosol generating device, the method comprising:

obtaining a color signal generated by a color detection device;

and controlling the operation of the heater by generating a control signal based on the color signal.

In another aspect of the embodiments of the present application, an aerosol generating system is provided,

an aerosol-generating product having a first color and a second color on its outer surface;

and the aerosol generating device of the first aspect.

The aerosol-generating device, method and system provided by the embodiments of the present application detect the insertion or pulling-out of an aerosol-generating product into a cavity through a color detection device, and further control the operation of a heater; The cost is relatively low, the operation of the aerosol generating device is simplified, and the user experience is improved.

One or a plurality of embodiments proceed with exemplary descriptions through figures in the corresponding drawings, but these exemplary descriptions do not limit the embodiments, and components having the same reference numerals in the drawings indicate similar components. and, except as specifically described, the figures in the drawings are not subject to proportional restrictions.
1 is a diagram of an aerosol generating device provided by an embodiment of the present application.
2 is a diagram of an aerosol-generating product provided by an embodiment of the present application.
3 is an exploded view of an aerosol generating device provided by an embodiment of the present application.
4 is a diagram of some parts of an aerosol generating device provided by an embodiment of the present application.
Figure 5 is a cross-sectional view of Figure 4;
6 is a diagram of a heater in an aerosol generating device provided by an embodiment of the present application.
7 is a flowchart of a control method of an aerosol generating device provided by an embodiment of the present application.
8 is another flowchart of a control method of an aerosol generating device provided by an embodiment of the present application.

In order to help the understanding of the present application, the present application will be further described in detail with reference to the accompanying drawings and specific embodiments below. It should be noted that when an element is "fixed" to another element, it may be directly on the other element or there may be one or more intermediate elements in between. When an element is "connected" to another element, it may be directly connected to the other element or there may be one or more intermediate elements in between. The terms "upper", "lower", "left", "right", "inside", "outside" and similar descriptions used herein are for descriptive purposes only.

Unless otherwise defined, all technical and scientific terms used herein are as commonly understood by those of ordinary skill in the art of this application. Terms used in the description of the present application in this specification are for describing specific implementation modes, but do not limit the present application. As used herein, “and/or” includes any and all combinations of one or more related listed items.

1 is a diagram of an aerosol generating device provided by an embodiment of the present application.

As shown in FIG. 1 , the aerosol generating device includes an aerosol generating product 100 and an aerosol generating device 200 . The aerosol-generating device 200 has a cavity that receives or removes an aerosol-generating product 100, the aerosol-generating product 100 being inserted or pulled out of the cavity through an opening A on the aerosol-generating device 200 and , The aerosol generating device 200 is for generating an aerosol for inhalation by heating at least a portion of the aerosol generating product 100 inserted into the cavity.

2 is a diagram of an aerosol-generating product provided by an embodiment of the present application.

As shown in FIG. 2 , the aerosol-generating product 100 includes a filter section 101 and a tobacco section 102 .

The tobacco section 102 includes an aerosol generating substrate. An aerosol-generating substrate is a substrate capable of releasing volatile compounds capable of forming an aerosol, and the volatile compounds can be released by heating the aerosol-forming substrate.

The aerosol-forming substrate may be a solid state aerosol-forming substrate. Alternatively, the aerosol-forming substrate may include solid-state and liquid-state components. The aerosol-forming substrate may include tobacco material, which includes volatile tobacco fragrance compounds that upon heating release from the substrate. Alternatively, the aerosol-forming substrate may include a non-tobacco material. The aerosol-forming substrate may further comprise an aerosol-former. Examples of suitable aerosol formers are glycerin and propylene glycol.

The aerosol generated by heating the tobacco section 102 is transported to the user through the filter section 101, and the filter section 101 may be a cellulose acetate filter. The filter section 101 may provide fragrance by spraying the seasoning liquid, or insert a separated fiber coated with the seasoning liquid into the filter section 101 to further improve the durability of the taste transported to the user. can The filter section 101 may also have a spherical or cylindrical capsule, and the capsule may contain a content of seasoning material.

2 shows only portions of the aerosol-generating product 100 relevant to this embodiment. Correspondingly, those skilled in the art related to this embodiment will appreciate that the aerosol-generating product 100 may include general-purpose components other than those shown in FIG. 2 . For example, a cooling section for cooling the aerosol heated in the tobacco section 102 may be included, allowing the user to inhale the aerosol cooled to an appropriate temperature.

One label C1 is provided on the outer surface of the filter section 101 at the border with the tobacco section 102. The color of the label C1 may be a single color, for example, red, blue, green, or the like, or a mixed color. The color of label C1 may indicate one flavor (but not limited to type) of different aerosol-generating products 100, eg red indicates a mint flavor aerosol-generating product and blue indicates a mint flavor aerosol-generating product. Green indicates a coffee flavored aerosol generating product, green indicates a mango flavored aerosol generating product, and so on. The color of the label C1 and the color of the outer surface of the tobacco section 102 are different, which is advantageous for detection and identification by the color detection device.

3 is an exploded view of an aerosol generating device provided by an embodiment of the present application.

As shown in FIG. 3 , the aerosol generating device 200 includes a shell 6 and a heater 1 , and the heater 1 is provided within the shell 6 .

The shell 6 includes a case 61, a fixed case 62, a base 63 and a bottom cover 64, and the fixed case 62 and the base 63 are all fixed in the case 61, Here, the base 63 is for fixing the base body 11, the base 63 is provided in the fixed case 62, and the bottom cover 64 is provided at one end of the case 61 and also the case 61 ) to cover

Specifically, the base 63 includes a base 631 sleeve-connected to the upper end of the base body 11 and a base 632 sleeve-connected to the lower end of the base body 11, and the base 631 and the base ( 632) are all provided in the fixed case 62, and an intake pipe 641 protrudes on the bottom cover 64, and an intake pipe 641 is connected to one end of the base 632 facing away from the base 632. And, the base 631, the heater 1, the base 632, and the intake pipe 641 are provided coaxially, and the heater 1, the base 621, and the base 632 are sealed through sealing parts. The base 632 and the intake pipe 641 can also be sealed, and the intake pipe 641 communicates with external air so that the user can breathe smoothly when inhaling.

The aerosol generating device 200 further comprises a control circuit board 3 and a battery 7 . The fixed case 62 includes a front case 621 and a rear case 622, an opening A is provided on the rear case 622, and the front case 621 is fixedly connected to the rear case 622. , the control circuit board 3 and the battery 7 are all provided in the fixed case 62, the battery 7 is electrically connected to the control circuit board 3, and the button 4 protrudes on the case 61 are provided One charging interface 31 is further connected to the control circuit board 3, the charging interface 31 is exposed on the reservoir case 64, and the user accesses the aerosol generating device 200 through the charging interface 31. Continuous use of the aerosol generating device 200 may be secured by charging or upgrading the device.

The battery 7 provides electrical power for operating the aerosol generating device 200 . For example, the battery 7 can provide power to heat the heater 1 and also provide power required for controller operation. The battery 7 may be a lithium iron phosphate (LiFePO4) battery. For example, the battery 7 may be a lithium cobaltate (LiCoO2) battery or a lithium titanate battery. The battery 7 may be a rechargeable battery or a disposable battery.

The aerosol generating device 200 further includes a heat insulating pipe 5, the heat insulating pipe 5 is provided in the fixed case 62, the heat insulating pipe 5 is provided on the outer edge of the base body 11, The heat insulating pipe 5 prevents a large amount of heat from being transferred onto the case 61 and causing the user to feel a sting in the hand. The heat insulating tube includes a heat insulating material, and the heat insulating material may be heat insulating adhesive, airgel, airgel felt, asbestos, aluminum silicate, calcium silicate, diatomaceous earth, zirconium oxide, or the like. The insulated tube may also be a vacuum insulated tube. An infrared reflective coating layer is further formed in the insulated pipe 5 to improve heating efficiency.

The aerosol generating device 200 further includes a temperature sensor 2, for example an NTC temperature sensor, to detect the real-time temperature of the heater 1 and transmit the detected real-time temperature to the control circuit board 3, and the control circuit board (3) controls the magnitude of the current flowing through the heater 1 according to the corresponding real-time temperature.

Specifically, when the NTC temperature sensor detects that the real-time temperature of the heater 1 is relatively low, for example, that the temperature of the heater 1 is less than 150° C., the control circuit board 3 switches the battery ( 7) to make the heater 1 output a relatively high voltage, and further enhance the heating power of the aerosol-forming substrate, reducing the waiting time required for the user to inhale the first bite.

When the NTC temperature sensor detects that the temperature of the heater 1 is 150°C - 200°C, the control circuit board 3 controls the battery 7 to output a normal voltage to the heater 1.

When the NTC temperature sensor detects that the temperature of the heater 1 is 200°C - 250°C, the control circuit board 3 controls the battery 7 to output a relatively low voltage to the heater 1.

When the NTC temperature sensor detects that the temperature of the heater 1 is 250 DEG C or higher, the control circuit board 3 controls the battery 7 to stop outputting voltage to the heater 1.

4 is a view of some parts of an aerosol generating device provided by an embodiment of the present application, FIG. 5 is a cross-sectional view of some parts of an aerosol generating device provided by an embodiment of the present application, and FIG. 6 is a view of an embodiment of the present application This is a diagram of a heater in an aerosol generating device provided.

4 As shown in FIG. 6 , the aerosol generating device 200 further includes a heater 1 and a color detection device, and the color detection device includes a light source 201 and a color sensor 202 .

The heater 1 is for heating at least a portion of the aerosol generating product 100 received in the cavity of the aerosol generating device 200 to generate an aerosol for inhalation.

The heater 1 can be a central heating method (through direct contact between the outer circumference of the heating body and the aerosol-forming substrate) and an external periphery heating method (a cylindrical heating body surrounds the aerosol-forming substrate), and the heater also conducts heat; The aerosol-forming substrate may be heated to produce an inhalable aerosol through one or several of electromagnetic induction, chemical reaction, infrared action, resonance, photoelectric conversion, and photothermal conversion.

Description will be made by taking an example that the heater 1 below is an infrared heater.

As shown in FIG. 6 , the heater 1 includes a base body 11 , an infrared conductive coating layer 12 and an electrical conduction element 13 .

The base body 11 may be in the shape of a cylinder, truncated pyramid or other columnar shape, preferably a cylinder shape. The inside of the base body 11 is hollow, and the hollow portion constitutes at least a part of the cavity of the aerosol generating device 200, and the base 631 at the top of the base body 11 has a through hole corresponding to the hollow portion. , and the aerosol-generating product 100 can be sequentially removed from the corresponding intermediate portion or inserted into the corresponding hollow portion through the opening A and the corresponding through hole.

The infrared thermal coating layer 12 is formed on the outer surface of the base body, and the infrared thermal coating layer 12 generates heat by receiving power from the battery 7 through the electrical conductive element 13, and converts the generated heat to at least It delivers by way of infrared radiation to the aerosol-generating product inserted into the cavity.

The electrically conductive element 13 includes a first electrode 131 and a second electrode 132 provided on the base body 11, and both the first electrode 131 and the second electrode 132 are infrared electric heat. It is electrically connected to the coating layer 12 . The first electrode 131 and the second electrode 132 may be a circular ring-shaped electrically conductive coating layer coated on an outer surface adjacent to both upper and lower ends of the base body 11, and the electrically conductive coating layer is a metal coating layer or electrical conductive tape, etc., and the metal coating layer may include silver, gold, palladium, platinum, copper, nickel, molybdenum, tungsten, niobium, or the metal alloy material.

4-5, the light source 201 and color sensor 202 are provided in the aperture of the base 631, and the aerosol-generating product 100 is positioned in the cavity of the aerosol-generating device 200. When inserted, the location where the color sensor 202 is provided and the label C1 of the aerosol-generating product 100 correspond. The light source 201 is configured to project light into the cavity of the aerosol-generating device 200, i.e., an aperture in the base 631; The color sensor 202 is configured to detect the reflection of the light and generate a color signal.

In this example, the light source 201 may be an LED lamp. The color sensor 202 may include a color filter and a photoelectric detector. Through the color filter and photoelectric detector, a color in the reflection of the light is calculated and a corresponding color signal is generated. Photoelectric detectors include, but are not limited to, photodiodes, photoconductive resistors, photoelectric transistors, and the like. It should be noted that the structure of the color sensor 202 is not limited in this case. The light source 201 and the color sensor 202 may be provided independently, or may be directly integrated together.

The aerosol generating device 200 further includes a controller, and the controller may control overall operation of the aerosol generating device 200 . Specifically, the controller not only controls the operation of the battery 7 and the heater 1, but also controls the operation of other elements in the aerosol control device 200. In addition, the controller may determine whether or not to operate the aerosol generating device 200 by examining the state of the element of the aerosol generating device 200 . In this example, the controller obtains a color signal generated by the color sensor 202 and generates a control signal based on the color signal to control the operation of the heater 1 .

The controller includes at least one processor. A processor may include an array of logic gates, or may include a combination of a general-purpose microprocessor and a memory storing programs executable on the microprocessor. And, those of ordinary skill in the art will understand that the controller may include other types of hardware.

In one example, the aerosol generating device 200,

an input module configured to receive a turn-on command input by a user and generate a turn-on signal;

The controller is also configured to receive the turn-on signal and control turn-on of the light source 201 and the color detection device 202 according to the turn-on signal.

In this example, the input module may be the button 4 shown in FIG. 3, but is not limited to this case.

1 - 6 , in an example, the controller also acquires the second color signal and the first color signal generated by the sensor 202 sequentially within a first predetermined time, product information generate a position insertion signal; It is configured to operate the heating by controlling the heater 1 according to the product proper position insertion signal.

Specifically, when the aerosol-generating product 100 is sequentially inserted into the hollow portion of the base body 11 through the opening A and the through hole of the base 631, the light emitted by the light source 201 is the aerosol-generating product 100 is irradiated, and the color sensor 202 sequentially detects the color of the outer surface of the tobacco section 102 and the color of the label C1, and also generates corresponding second color signals and first color signals. When the controller obtains the second color signal and the first color signal, it can determine that the aerosol-generating product 100 has been inserted into the cavity of the aerosol-generating device 200 and further generates a product in-place insertion signal. . Thereafter, the heater 1 is controlled through a corresponding product proper position insertion signal to automatically operate the heating.

Furthermore, the controller also

determine, by means of the first color signal, a type of aerosol-generating product (100) received in the cavity; determine, according to the type of the aerosol-generating product 100, corresponding temperature configuration information; Based on the temperature configuration information, it is configured to control power supplied to the heater.

Specifically, the color of the label C1 may indicate one flavor of the different aerosol-generating products 100, eg, red indicates a mint flavored aerosol-generating product and blue indicates a coffee-flavored aerosol-generating product. product, green indicates mango-flavored aerosol-generating products, and so on. When obtaining the first color signal through the color sensor 202, a corresponding heating curve, that is, temperature configuration information may be selected from pre-stored heating curves. Thereafter, heating is performed by controlling the heater 1 according to the corresponding heating curve, so that the user can obtain an optimal taste.

Furthermore, the controller also

generate a product pull-out signal when acquiring the second color signal and the third color signal sequentially generated by the color sensor 202 within a second predetermined time; According to the product pull-out signal, the heater is controlled to stop heating.

Specifically, after controlling the heater 1 to automatically heat the heating, if the user pulls the aerosol-generating product 100 out of the cavity of the aerosol-generating device 200, the color sensor 202 sequentially The color of the outer surface of the tobacco section 102 and the color of the inner wall of the cavity are detected, and corresponding second color signals and third color signals are generated. When the controller sequentially obtains the second color signal and the third color signal, it may determine that the aerosol-generating product 100 has been removed from the cavity of the aerosol-generating device 200 and further generate a product pull-out signal and the The controller 1 is controlled to stop heating.

Furthermore, the controller also

generate a product in-place insertion error signal when only the second color signal generated by the color sensor 202 is acquired within a second predetermined time period; According to the product proper insertion error signal, the heater is controlled to stop heating, and the heating time of the heater has already been completed is recorded.

Specifically, after automatically heating by controlling the heater 1, if the aerosol-generating product 100 is unexpectedly pulled out, the aerosol-generating product 100 is positioned in the cavity of the aerosol-generating device 200. If not inserted, at this time the color sensor 202 can only detect the color of the outer surface of the tobacco section 102 and generate a corresponding second color signal. When the controller obtains the second color signal, it can determine that the aerosol-generating product 100 has not been inserted into place, generates a product into place error signal, controls heater 1 to stop heating, and Record the heating time the heater 1 has already completed.

Furthermore, the controller also

After controlling the heater 1 to stop heating, it is configured to generate first reminder information;

The aerosol generating device 200,

A first notification module for obtaining the first notification information and notifying the user that there is an abnormality in the position of the aerosol-generating product 100 is included.

Specifically, after the heater 1 starts heating, if the aerosol-generating product 100 unexpectedly pulls out and the heater 1 stops heating, the aerosol-generating product 100 ), allowing the user to insert the aerosol-generating product 100 back into the cavity in place.

Furthermore, the controller also

when obtaining the second color signal and the first color signal sequentially generated by the color sensor 202 within a third predetermined time, generating a signal for inserting the product back into place; calculating the remaining heating time of the heater according to the heating time already completed by the heater; The heater is controlled to proceed with heating according to a signal for inserting the product back into the correct position and the remaining heating time of the heater.

If the user inserts the aerosol-generating product 100 again into the cavity in place, the aerosol-generating product 100 can continue to be heated, and the user does not need to activate the heating, furthermore the aerosol-generating device 200 ), and improved the user product.

Furthermore, the controller also

When only the second color signal generated by the color sensor 202 is acquired within a first predetermined time, or the second color signal and the fourth color signal generated by the color sensor 202 sequentially within a first predetermined time and when obtaining a signal, control the controller to put it into a turn-off state.

Specifically, if only the second color signal generated by the color sensor 202 is obtained within a first predetermined time period, the aerosol-generating product 100 may be considered to have failed to be inserted into position. At this time, since there is no need to control the heater 1 to operate the heating, the heater 1 is controlled to be turned off. Alternatively, when acquiring the second color signal and the fourth signal sequentially generated by the color sensor 202 within a first predetermined time, an aerosol generating product that does not match the aerosol generating device 200 may be regarded as being inserted. can At this time, there is also no need to control the heater 1 to operate the heating, so the heater 1 is controlled to be turned off. Here, the fourth color is different from the color of the label C1 described above, and also different from the color of the outer surface of the tobacco section 102 and the color of the inner wall of the cavity.

It should be noted that the first preset time, the second preset time and the third preset time may be empirical values, already set when the aerosol generating device 200 is shipped, or set by the user himself. will be.

Furthermore, the controller also

When only the second color signal generated by the color sensor 202 is acquired within a first predetermined time, or the second color signal and the fourth color signal generated by the color sensor 202 sequentially within a first predetermined time when acquiring a signal, configured to generate second notification information;

The aerosol generating device 200,

and a second notification module for receiving the second notification information and notifying the user that there is an abnormality.

7 is a flowchart of a control method of an aerosol generating device provided by an embodiment of the present application. The method includes the following steps.

Step S11: Obtain a color signal generated by the color detection device.

Step S12: A control signal is generated based on the color signal to control the operation of the heater.

The overall control process of the aerosol generating device 200 will be described in conjunction with FIG. 8 below.

Step S21: Inserting a cigarette;

Step S22: detecting whether a cigarette is inserted;

Specifically, when a cigarette is inserted, the color sensor 202 detects the color of the outer surface of the tobacco section 102 and generates a corresponding second color signal, that is, it can be determined that the cigarette is inserted.

Step S23: continue to insert a cigarette;

Step S24: detecting whether the cigarette is inserted in the correct position;

S25: The heater starts heating;

Specifically, when the cigarette is properly inserted into the cavity, the color sensor 202 sequentially detects the color of the outer surface of the tobacco section 102 and the color of the label C1, and also detects the corresponding second color signal and first generate a color signal.

Step S26: When the cigarette is properly inserted into the cavity, the controller controls the heater to start heating;

Steps S261 and S27: heating of the cigarette is completed, the cigarette is pulled out, and heating is terminated;

Step S262, Step S263, Step S27: When the cigarette is abnormally out of the insertion position, the control controls the heater to stop heating; At this time, if the cigarette is pulled out, heating is terminated.

It should be noted that while the specification and drawings of this application present preferred embodiments of this application, this application may be implemented in many different forms and is not limited to the embodiments described herein; These examples are not additional limitations on the content of this application, and the purpose of providing these examples is to make the disclosure of this application more thorough and comprehensive. In addition, the various embodiments not exemplified above, in which each technical feature is continuously combined with each other, all belong to the description scope of the specification of the present application, and furthermore, for those of ordinary skill in the art, the above description improvements or conversions may be made according to the above, and all such improvements and conversions shall fall within the scope of protection of the appended claims of this application.

Claims (11)

In the aerosol generating device,
a shell having an opening;
a cavity configured to receive or remove an aerosol generating product through the opening;
a heater for generating an aerosol for inhalation by heating at least a portion of the aerosol generating product received in the cavity;
a color detection device configured to emit light into the cavity and detect a reflection of the light to generate a color signal;
and a controller for obtaining a color signal generated by the color detection device and generating a control signal based on the color signal to control the operation of the heater. According to claim 1,
The controller also generates a product in-place insertion signal when obtaining the second color signal and the first color signal sequentially generated by the color detection device within a first predetermined time period; An aerosol generating device, characterized in that configured to operate the heating by controlling the heater according to the product position insertion signal. According to claim 2,
The controller also determines, in accordance with the first color signal, a type of aerosol-generating product received in the cavity; determine, according to the type of the aerosol-generating product, corresponding temperature configuration information; The aerosol generating device according to the temperature configuration information, characterized in that configured to control the power supplied to the heater. According to claim 2,
the controller also generates a product pull-out signal when acquiring the second color signal and the third color signal sequentially generated by the color detection device within a second predetermined time; and configured to control the heater to stop heating in response to the product pull-out signal. According to claim 2,
The controller also generates a product in-place insertion error signal when only the second color signal generated by the color detection device is obtained within a second predetermined time period; and according to the product insertion error signal, control the heater to stop heating and record the heating time that the heater has already completed. According to claim 5,
The controller further generates a product in-place insertion signal when obtaining the second color signal and the first color signal sequentially generated by the color detection device within a third predetermined time period; calculating the remaining heating time of the heater according to the heating time already completed by the heater; The aerosol generating device, characterized in that configured to proceed with heating by controlling the heater based on a signal for inserting the product back into the correct position and the remaining heating time of the heater. According to claim 1,
The controller may also acquire only the second color signal generated by the color detection device within a first predetermined time period or the second color signal and the fourth color signal generated by the color detection device sequentially within a first predetermined time period. and when obtaining a signal, control the controller to place it in an off state. According to claim 7,
The controller may also acquire only the second color signal generated by the color detection device within a first predetermined time period or the second color signal and the fourth color signal generated by the color detection device sequentially within a first predetermined time period. configured to generate notification information when acquiring a signal;
The aerosol generating device further comprises a notification module that receives the notification information and notifies a user that an abnormality exists. According to claim 1,
The aerosol generating device,
an input module configured to receive a turn-on command input by a user and generate a turn-on signal;
The aerosol-generating device according to claim 1, wherein the controller is also configured to receive the turn-on signal and to control the color detection device to turn on according to the turn-on signal. A method of controlling an aerosol generating device, the method comprising:
obtaining a color signal generated by a color detection device;
Controlling the operation of the heater by generating a control signal based on the color signal. In the aerosol generating system,
an aerosol-generating product having a first color and a second color on its outer surface;
An aerosol-generating system comprising the aerosol-generating device of any one of claims 1-9.

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