KR102796348B1 - Aerosol generator - Google Patents

Abstract

The present invention relates to an aerosol generating device, and more particularly, to an aerosol generating device capable of recognizing the type of a cigarette-type aerosol generating article and controlling heating according to the type of the cigarette-type aerosol generating article. An aerosol generating device according to one embodiment of the present invention comprises: a cigarette-type aerosol generating article including an aerosol medium portion, a wrapping paper wrapping the aerosol medium portion, and at least one temperature sensor attached to a predetermined position of the wrapping paper corresponding to the aerosol medium portion; a cavity into which the cigarette-type aerosol generating article is inserted; a heater which heats the aerosol medium portion included in the cigarette-type aerosol generating article inserted into the cavity; a battery which supplies power to the heater; A microcontroller for controlling power supply from a battery to the heater; wherein, when the cigarette-shaped aerosol-generating article is inserted into the cavity, the temperature sensor is electrically connected to the microcontroller, and the microcontroller calculates temperature change data according to a signal input from the temperature sensor for a predetermined period of time, determines the aerosol medium portion accordingly, recognizes the type of the cigarette-shaped aerosol-generating article, and controls heating of the heater.

Description

Aerosol generator {AEROSOL GENERATOR}

The present invention relates to an aerosol generating device, and more particularly, to an aerosol generating device capable of recognizing the type of a cigarette-type aerosol generating article and controlling heating according to the type of the cigarette-type aerosol generating article.

Aerosols are small liquid or solid particles that exist suspended in the atmosphere, usually with a size of 0.001 to 1.0 ㎛. In particular, there are cases where people inhale aerosols derived from various types of cigarette-type aerosol-generating products.

FIG. 1 is a drawing for explaining an aerosol generating device according to one embodiment of the prior art. Referring to FIG. 1, the aerosol generating device (10) includes a heater (13) that generates heat by resistance when current is applied, a battery (14) that can supply high power to the heater (13) instantaneously, and a microcontroller (15) for controlling the heater (13). The heater (13) generates an aerosol by heating a vaporizing agent containing a substance (vaporizing substance) that vaporizes when heated above a certain temperature accommodated in a cavity (12). For example, when a cigarette-shaped aerosol-generating article (11) filled with paper impregnated with an aerosol medium or embedded in a surface thereof is inserted into a cavity (12), the heater (13) is heated to vaporize the aerosol medium inside the cigarette-shaped aerosol-generating article (11), so that the user can inhale the aerosol vaporized from the aerosol medium through the filter portion of the cigarette-shaped aerosol-generating article (11). Since the above-described conventional technology does not have a function to recognize the type of the cigarette-shaped aerosol-generating article (11) and control heating according to the aerosol medium included in the cigarette-shaped aerosol-generating article (11), there is a problem that a satisfactory inhalation sensation and taste may not be provided to the user depending on the type of the cigarette-shaped aerosol-generating article (11).

The purpose of the present invention is to provide an aerosol generating device capable of recognizing the type of a cigarette-type aerosol generating article and controlling heating according to the type of the cigarette-type aerosol generating article.

An aerosol generating device according to one embodiment of the present invention comprises: a cigarette-shaped aerosol-generating article including an aerosol medium portion, wrapping paper wrapping the aerosol medium portion, and at least one temperature sensor attached to a predetermined position of the wrapping paper corresponding to the aerosol medium portion; a cavity into which the cigarette-shaped aerosol-generating article is inserted; a heater which heats the aerosol medium portion included in the cigarette-shaped aerosol-generating article inserted into the cavity; a battery which supplies power to the heater; and a microcontroller which controls the supply of power from the battery to the heater; wherein, when the cigarette-shaped aerosol-generating article is inserted into the cavity, the temperature sensor is electrically connected to the microcontroller, and the microcontroller calculates temperature change data according to a signal input from the temperature sensor for a predetermined period of time, determines the aerosol medium portion accordingly, recognizes the type of the cigarette-shaped aerosol-generating article, and controls heating of the heater.

In addition, according to an embodiment, the microcontroller calculates a temperature gradient as temperature change data based on a signal input from a temperature sensor for a predetermined period of time, and determines an aerosol medium portion based on this to recognize the type of a cigarette-type aerosol-generating article.

In addition, according to an embodiment, the microcontroller calculates a temperature difference value as temperature change data based on a signal input from a temperature sensor for a predetermined period of time, and determines an aerosol medium portion based on this to recognize the type of a cigarette-type aerosol-generating article.

In addition, according to an embodiment, an AD converter is provided between the microcontroller and the temperature sensor, and the microcontroller receives an ADC signal from the AD converter for a predetermined period of time, calculates an ADC slope as temperature change data, and determines an aerosol medium portion based on the ADC slope to recognize the type of cigarette-type aerosol generating article.

In addition, according to an embodiment, an AD converter is provided between the microcontroller and the temperature sensor, and the microcontroller receives an ADC signal from the AD converter for a predetermined period of time, calculates an ADC difference value as temperature change data, and determines an aerosol medium portion based on the ADC difference value to recognize the type of a cigarette-type aerosol generating article.

In addition, according to an embodiment, a mode selection unit connected to a microcontroller is included, and the microcontroller recognizes the type of the cigarette-type aerosol-generating article, determines whether it is a cigarette-type aerosol-generating article selected by the mode selection unit, and controls heating of the heater.

Additionally, according to an embodiment, a power regulation means controlled by a microcontroller is included between the heater and the battery.

Additionally, according to an embodiment, it includes a display unit connected to a microcontroller.

According to another embodiment of the present invention, an aerosol generating device comprises: a cigarette-shaped aerosol-generating article including a first aerosol medium portion and a second aerosol medium portion, wrapping paper wrapping the first aerosol medium portion and the second aerosol medium portion, a first temperature sensor attached to a predetermined position of the wrapping paper corresponding to the first aerosol medium portion, and a second temperature sensor attached to a predetermined position of the wrapping paper corresponding to the second aerosol medium portion; a cavity into which the cigarette-shaped aerosol-generating article is inserted; a first heater which heats the first aerosol medium portion included in the cigarette-shaped aerosol-generating article inserted into the cavity; a second heater which heats the second aerosol medium portion of the cigarette-shaped aerosol-generating article inserted into the cavity; a battery which supplies power to each of the first heater and the second heater; A microcontroller configured to control power to be supplied from a battery to the first heater and the second heater, respectively; wherein, when the cigarette-shaped aerosol-generating article is inserted into the cavity, the first temperature sensor and the second temperature sensor are respectively configured to be electrically connected to the microcontroller, and the microcontroller calculates temperature change data according to signals respectively received from the first temperature sensor and the second temperature sensor for a predetermined period of time, and determines the first aerosol medium portion and the second aerosol medium portion accordingly to recognize the type of the cigarette-shaped aerosol-generating article, and controls heating of the first heater and the second heater, respectively.

In addition, according to an embodiment, the microcontroller calculates a temperature gradient as temperature change data based on signals received from the first temperature sensor and the second temperature sensor for a predetermined period of time, and determines the first aerosol medium portion and the second aerosol medium portion accordingly to recognize the type of the cigarette-type aerosol generating article.

In addition, according to an embodiment, the microcontroller calculates a temperature difference value as temperature change data based on signals received from the first temperature sensor and the second temperature sensor for a predetermined period of time, and determines the first aerosol medium portion and the second aerosol medium portion accordingly to recognize the type of the cigarette-type aerosol generating article.

In addition, according to an embodiment, a first AD converter is provided between the microcontroller and the first temperature sensor, and a second AD converter is provided between the microcontroller and the second temperature sensor, and the microcontroller receives ADC signals from the first AD converter and the second AD converter for a predetermined period of time, calculates ADC slopes as temperature change data, and determines the first aerosol medium portion and the second aerosol medium portion accordingly to recognize the type of the cigarette-type aerosol generating article.

In addition, according to an embodiment, a first AD converter is provided between the microcontroller and the first temperature sensor, and a second AD converter is provided between the microcontroller and the second temperature sensor, and the microcontroller receives ADC signals from the first AD converter and the second AD converter for a predetermined period of time, calculates ADC difference values as temperature change data, and determines the first aerosol medium part and the second aerosol medium part accordingly to recognize the type of the cigarette-type aerosol generating article.

Additionally, according to an embodiment, a first power regulating means controlled by a microcontroller is included between the first heater and the battery, and a second power regulating means controlled by a microcontroller is included between the second heater and the battery.

According to an embodiment of the present invention, a temperature sensor is attached to a cigarette-type aerosol-generating article, and temperature change data (e.g., temperature slope, temperature difference value, ADC slope, ADC difference value) is calculated based on a signal input from the temperature sensor to recognize the type of the cigarette-type aerosol-generating article, and heating can be controlled according to the type of the cigarette-type aerosol-generating article.

Figure 1 is a drawing for explaining an aerosol generating device according to one embodiment of the prior art;
Figure 2 is a drawing conceptually explaining an aerosol generating device according to one embodiment of the present invention.
Figure 3 is a block diagram for explaining an aerosol generating device according to one embodiment of the present invention.
Figure 4 is a graph for explaining the recognition of the type of a cigarette-shaped aerosol generating article according to an embodiment of the present invention.
FIG. 5 is a drawing conceptually explaining an aerosol generating device according to another embodiment of the present invention;
Figure 6 is a block diagram illustrating an aerosol generating device according to another embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

FIG. 2 is a drawing conceptually explaining an aerosol generating device according to an embodiment of the present invention, FIG. 3 is a block diagram explaining an aerosol generating device according to an embodiment of the present invention, and FIG. 4 is a graph explaining recognition of the type of a cigarette-type aerosol generating article according to an embodiment of the present invention.

Referring to FIG. 2(a) and FIG. 2(b) and FIG. 3 and FIG. 4, an aerosol generating device (1000) according to one embodiment of the present invention includes a cigarette-shaped aerosol generating article (100) including an aerosol medium portion (130), a wrapping paper (140) wrapping the aerosol medium portion (130), and at least one temperature sensor (150) attached to a predetermined position of the wrapping paper (140) corresponding to the aerosol medium portion (130). A cigarette-shaped aerosol-generating article (100) comprises, for example, a filter rod (110) which is a mouse filter on the upper side, a cooling tube rod (120) having a hollow space formed in the upper and lower direction is laminated on the lower side of the filter rod (110), an aerosol medium section (130) which generates aerosol by heating and accommodates an aerosol medium is laminated on the lower side of the cooling tube rod (120), and the filter rod (110), the cooling tube rod (120), and the aerosol medium section (130) are wrapped by wrapping paper (140). A temperature sensor (150) is attached to the wrapping paper (140) to detect a temperature change according to an aerosol medium, and is attached to a predetermined position corresponding to the aerosol medium section (130) so as to detect a temperature change according to an aerosol medium. Since the temperature sensor (150) is attached to the wrapping paper (140), it is easy to accurately detect the temperature change of the aerosol medium. In addition, the aerosol generating device (1000) includes a cavity (200) into which a cigarette-shaped aerosol generating article (100) is inserted, a heater (300) for heating the aerosol medium portion (130) of the cigarette-shaped aerosol generating article (100) inserted into the cavity (200), a battery (400) for supplying power to the heater (300), and a microcontroller (500) for controlling the supply of power from the battery (400) to the heater (300). When a cigarette-shaped aerosol-generating article (100) is inserted into the cavity (200), a temperature sensor (150) is provided to be electrically connected to a microcontroller (500). For example, when a cigarette-shaped aerosol-generating article (100) is inserted into the cavity (200), a terminal (210) that comes into contact with the temperature sensor (150) is provided, and the temperature sensor (150) is electrically connected to the microcontroller (500) through the terminal (210). The microcontroller (500) calculates temperature change data according to a signal input from the temperature sensor (150) for a predetermined period of time (e.g., 3 seconds) and determines the aerosol medium portion (130) accordingly. The aerosol medium portion (130) is determined by calculating temperature change data that varies depending on the type of aerosol medium accommodated in the aerosol medium portion (130). For example, temperature change data varies depending on whether the aerosol medium includes a liquid or a vapor phase, and the microcontroller (500) calculates the temperature change data and compares it with preset temperature change data to determine the aerosol medium portion (130), thereby recognizing the type of the cigarette-type aerosol-generating article (100), and controls heating of the heater (300) by supplying power from the battery (400) to the heater (300) according to the temperature profile for the cigarette-type aerosol-generating article (100). According to an embodiment, the temperature change data is a temperature gradient, and the microcontroller (500) calculates the temperature gradient as temperature change data according to a signal input from the temperature sensor (150) for a predetermined period of time, and determines the aerosol medium portion (130) accordingly to recognize the type of the cigarette-type aerosol-generating article (100). According to an embodiment, the temperature change data is a temperature difference value for a predetermined period of time, and the microcontroller (500) calculates the temperature difference value as the temperature change data according to a signal input from the temperature sensor (150) for a predetermined period of time, and determines the aerosol medium (130) accordingly to recognize the type of the cigarette-type aerosol-generating article (100). According to an embodiment, the temperature change data is an ADC slope, and an AD converter (501) is provided between the microcontroller (500) and the temperature sensor (150), and the microcontroller (500) receives an ADC signal from the temperature sensor (150) for a predetermined period of time, calculates the ADC slope as the temperature change data, and determines the aerosol medium (130) accordingly to recognize the type of the cigarette-type aerosol-generating article (100). Referring to (a) of FIG. 4, there may be cases where there is not a large difference in the ADC slope depending on the type of aerosol medium, and therefore, referring to (b) of FIG. 4, in order to increase the difference in the ADC slope depending on the type of aerosol medium, a specific formula (for example, (1.5 seconds ADC - 0.4 seconds ADC) × 0.4 seconds ADC) ÷ 1000)) is applied to the ADC value, the ADC slope is calculated, and the aerosol medium portion (130) is determined accordingly, thereby recognizing the type of the cigarette-type aerosol-generating article (100). According to an embodiment, the temperature change data is an ADC difference value for a predetermined period of time, and an AD converter (501) is provided between the microcontroller (500) and the temperature sensor (150), and the microcontroller (500) receives an ADC signal from the temperature sensor (150) for a predetermined period of time and calculates the ADC difference value as the temperature change data, and accordingly determines the aerosol medium (130) to recognize the type of the cigarette-type aerosol generating article (100).

In addition, according to an embodiment, a mode selection unit (600) connected to a microcontroller (500) is included, and the type of the cigarette-type aerosol-generating article (100) can be selected from the mode selection unit (600). The microcontroller (500) recognizes the type of the cigarette-type aerosol-generating article (100), determines whether it is the cigarette-type aerosol-generating article (100) selected from the mode selection unit (600), and controls the heating of the heater (300). For example, if it is the selected cigarette-type aerosol-generating article (100), the microcontroller (500) controls the heater (300) to be heated, and if it is not the selected cigarette-type aerosol-generating article (100), the microcontroller (500) controls the heater (300) to be stopped from heating.

In addition, according to an embodiment, a power control means (700) controlled by a microcontroller (500) is included between the heater (300) and the battery (400). For example, the power control means (700) includes a FET, and the microcontroller (500) transmits a PWM signal to the power control means (700) according to the type of the cigarette-type aerosol generating article (100), so that the FET included in the power control means (700) is turned on and off according to the duty of the PWM signal input from the microcontroller (500), thereby controlling the heating of the heater (300) by controlling the power supplied to the heater (300) from the battery (400). In addition, according to an embodiment, a display unit (800) connected to a microcontroller (500) is included, and the type of the cigarette-shaped aerosol-generating article (100) selected by the mode selection unit (600), whether it is the cigarette-shaped aerosol-generating article (100) selected by the mode selection unit (600), or the heating state can be displayed on the display unit (800) by the control of the microcontroller (500).

FIG. 5 is a drawing conceptually explaining an aerosol generating device according to another embodiment of the present invention, and FIG. 6 is a block diagram explaining an aerosol generating device according to another embodiment of the present invention.

Referring to FIG. 5(a) and FIG. 5(b) and FIG. 6, an aerosol generating device (1000) according to another embodiment of the present invention includes a cigarette-type aerosol generating article (100) including a first aerosol medium portion (131) and a second aerosol medium portion (132), a wrapping paper (140) wrapping the first aerosol medium portion (131) and the second aerosol medium portion (132), a first temperature sensor (151) attached to a predetermined position of the wrapping paper (140) corresponding to the first aerosol medium portion (131), and a second temperature sensor (152) attached to a predetermined position of the wrapping paper (140) corresponding to the second aerosol medium portion (132). A cigarette-shaped aerosol-generating article (100) comprises, for example, a filter rod (110) which is a mouse filter on the upper side, a cooling tube rod (120) having a hollow shape formed in the upper and lower direction is laminated on the lower side of the filter rod (110), a first aerosol medium portion (131) which generates aerosol by heating and accommodates an aerosol medium is laminated on the lower side of the cooling tube rod (120), a second aerosol medium portion (132) which generates aerosol by heating and accommodates an aerosol medium is laminated on the lower side of the first aerosol medium portion (131), and the filter rod (110), the cooling tube rod (120), the first aerosol medium portion (131), and the second aerosol medium portion (132) are wrapped by wrapping paper (140). The aerosol medium accommodated in the first aerosol medium portion (131) and the aerosol medium accommodated in the second aerosol medium portion (132) may be different or the same. Temperature sensors (151, 152) are attached to the wrapping paper (140) to detect temperature changes according to the aerosol medium. The first temperature sensor (151) is attached to a predetermined position capable of detecting temperature changes according to the aerosol medium accommodated in the first aerosol medium portion (131) corresponding to the first aerosol medium portion (131), and the second temperature sensor (152) is attached to a predetermined position capable of detecting temperature changes according to the aerosol medium accommodated in the second aerosol medium portion (132) corresponding to the second aerosol medium portion (132).

In addition, the aerosol generating device (1000) includes a cavity (200) into which a cigarette-shaped aerosol generating article (100) is inserted, a first heater (310) for heating a first aerosol medium portion (131) of the cigarette-shaped aerosol generating article (100) inserted into the cavity (200), a second heater (320) for heating a second aerosol medium portion (132) of the cigarette-shaped aerosol generating article (100) inserted into the cavity (200), a battery (400) for supplying power to each of the first heater (310) and the second heater (320), and a microcontroller (500) for controlling the supply of power from the battery (400) to each of the first heater (310) and the second heater (320). When a cigarette-shaped aerosol-generating article (100) is inserted into the cavity (200), a first temperature sensor (151) and a second temperature sensor (152) are provided so as to be electrically connected to a microcontroller (500), respectively. For example, when a cigarette-shaped aerosol-generating article (100) is inserted into the cavity (200), a terminal (211) that comes into contact with the first temperature sensor (151) is provided, and the first temperature sensor (151) is electrically connected to the microcontroller (500) through the terminal (211). In addition, when a cigarette-shaped aerosol-generating article (100) is inserted into the cavity (200), a terminal (212) that comes into contact with the second temperature sensor (152) is provided, and the second temperature sensor (152) is electrically connected to the microcontroller (500) through the terminal (212). The microcontroller (500) calculates temperature change data according to signals received from the first temperature sensor (151) and the second temperature sensor (152) for a predetermined period of time (e.g., 3 seconds) and determines the first aerosol medium portion (131) and the second aerosol medium portion (132) accordingly. The microcontroller calculates temperature change data that varies depending on the type of aerosol medium accommodated in the first aerosol medium portion (131), and calculates temperature change data that varies depending on the type of aerosol medium accommodated in the second aerosol medium portion (132). The microcontroller (500) determines the first aerosol medium portion (131) and the second aerosol medium portion (132) by comparing the calculated temperature change data with the preset temperature change data, and accordingly recognizes the type of the cigarette-shaped aerosol-generating article (100), and controls the supply of power from the battery (400) to the first heater (310) and the second heater (320) according to the temperature profile of the cigarette-shaped aerosol-generating article (100), thereby controlling the heating of the first heater (310) and the second heater (320), respectively. According to an embodiment, the temperature change data is a temperature gradient, and the microcontroller (500) calculates the temperature gradient as the temperature change data according to the signals input from the first temperature sensor (151) and the second temperature sensor (152) for a predetermined period of time, and determines the first aerosol medium part (131) and the second aerosol medium part (132) accordingly to recognize the type of the cigarette-type aerosol-generating article (100). According to an embodiment, the temperature change data is a temperature difference value for a predetermined period of time, and the microcontroller (500) calculates the temperature difference value as the temperature change data according to the signals input from the first temperature sensor (151) and the second temperature sensor (152) for a predetermined period of time, and determines the first aerosol medium part (131) and the second aerosol medium part (132) accordingly to recognize the type of the cigarette-type aerosol-generating article (100). According to an embodiment, the temperature change data is an ADC slope, a first AD converter (502) is provided between a microcontroller (500) and a first temperature sensor (151), and a second AD converter (503) is provided between the microcontroller (500) and a second temperature sensor (152). The microcontroller (500) receives ADC signals from the first AD converter (502) and the second AD converter (503) for a predetermined period of time, calculates the ADC slopes as temperature change data, and determines the first aerosol medium portion (131) and the second aerosol medium portion (132) accordingly to recognize the type of the cigarette-type aerosol generating article (100). According to an embodiment, the temperature change data is an ADC difference value for a predetermined period of time, a first AD converter (502) is provided between a microcontroller (500) and a first temperature sensor (151), and a second AD converter (503) is provided between the microcontroller (500) and a second temperature sensor (152). The microcontroller (500) receives ADC signals from the first AD converter (502) and the second AD converter (503) for a predetermined period of time, calculates the ADC difference value as temperature change data, and accordingly determines the first aerosol medium portion (131) and the second aerosol medium portion (132), thereby recognizing the type of the cigarette-type aerosol generating article (100).

In addition, according to an embodiment, a first power control means (710) controlled by a microcontroller (500) is included between the first heater (310) and the battery (400), and a second power control means (720) controlled by the microcontroller (500) is included between the second heater (320) and the battery (400). For example, the first power control means (710) and the second power control means (720) each include a FET, and the microcontroller (500) transmits a PWM signal to the first power control means (710) and the second power control means (720) depending on the type of the cigarette-type aerosol generating article (100), so that the FETs included in the first power control means (710) and the second power control means (720) are turned on and off depending on the duty of the PWM signal input from the microcontroller (500), thereby controlling the heating of the first heater (310) and the second heater (320) respectively by controlling the power supplied to the first heater (310) and the second heater (320) from the battery (400).

The present invention is not limited to the specific preferred embodiments described above, and anyone with ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims, and such modifications are within the scope of the claims.

Claims (14)

A cigarette-shaped aerosol-generating article comprising an aerosol medium portion and a wrapping paper wrapping the aerosol medium portion, and at least one temperature sensor attached to a predetermined position of the wrapping paper corresponding to the aerosol medium portion;
A cavity into which a cigarette-shaped aerosol-generating article is inserted;
A terminal for contacting a temperature sensor attached to a cigarette-shaped aerosol-generating article provided in the cavity and inserted into the cavity;
A heater for heating the aerosol medium portion included in the cigarette-shaped aerosol generating article inserted into the cavity; A battery for supplying power to the heater;
A microcontroller for controlling power supply to the heater from a battery;
An aerosol generating device characterized in that when the above-mentioned cigarette-shaped aerosol-generating article is inserted into the above-mentioned cavity, the temperature sensor is provided to contact the terminal and be electrically connected to the microcontroller, and the microcontroller calculates temperature change data according to a signal input from the temperature sensor for a predetermined period of time, determines the aerosol medium portion accordingly, recognizes the type of the above-mentioned cigarette-shaped aerosol-generating article, and controls the heating of the heater. In the first paragraph,
An aerosol generating device characterized in that the microcontroller calculates a temperature gradient as temperature change data based on a signal input from a temperature sensor for a predetermined period of time, determines an aerosol medium portion based on this, and recognizes the type of a cigarette-type aerosol generating article. In the first paragraph,
An aerosol generating device characterized in that the microcontroller calculates a temperature difference value as temperature change data based on a signal input from a temperature sensor for a predetermined period of time, determines an aerosol medium based on this, and recognizes the type of a cigarette-type aerosol generating article. In the first paragraph,
An aerosol generating device characterized in that an AD converter is provided between a microcontroller and a temperature sensor, and the microcontroller receives an ADC signal from the AD converter for a predetermined period of time, calculates an ADC slope as temperature change data, and determines an aerosol medium portion based on the ADC slope to recognize the type of a cigarette-type aerosol generating product. In the first paragraph,
An aerosol generating device characterized in that an AD converter is provided between a microcontroller and a temperature sensor, and the microcontroller receives an ADC signal from the AD converter for a predetermined period of time, calculates an ADC difference value as temperature change data, and determines an aerosol medium portion based on the ADC difference value to recognize the type of a cigarette-type aerosol generating product. In the first paragraph,
An aerosol generator comprising a mode selector connected to a microcontroller, wherein the microcontroller recognizes the type of a cigarette-type aerosol-generating article, determines whether it is a cigarette-type aerosol-generating article selected by the mode selector, and controls heating of a heater. In any one of claims 1 to 6,
An aerosol generator characterized by including a power control means controlled by a microcontroller between the heater and the battery. In any one of claims 1 to 6,
An aerosol generating device characterized by including a display unit connected to a microcontroller. A cigarette-shaped aerosol-generating article comprising a first aerosol medium portion and a second aerosol medium portion, wrapping paper wrapping the first aerosol medium portion and the second aerosol medium portion, a first temperature sensor attached to a predetermined position of the wrapping paper corresponding to the first aerosol medium portion, and a second temperature sensor attached to a predetermined position of the wrapping paper corresponding to the second aerosol medium portion;
A cavity into which a cigarette-shaped aerosol-generating article is inserted;
First and second terminals each contacting a first temperature sensor and a second temperature sensor attached to a cigarette-shaped aerosol-generating article provided in the cavity and inserted into the cavity;
A first heater for heating the first aerosol medium portion included in the cigarette-shaped aerosol generating article inserted into the cavity;
A second heater for heating the second aerosol medium portion included in the cigarette-shaped aerosol generating article inserted into the above cavity;
A battery that supplies power to each of the first heater and the second heater;
A microcontroller for controlling power to be supplied from a battery to each of the first heater and the second heater;
An aerosol generating device characterized in that when the above-mentioned cigarette-shaped aerosol-generating article is inserted into the cavity, the first temperature sensor and the second temperature sensor are respectively provided to contact the first and second terminals and be electrically connected to the microcontroller, and the microcontroller calculates temperature change data according to signals respectively received from the first temperature sensor and the second temperature sensor for a predetermined period of time, determines the first aerosol medium portion and the second aerosol medium portion accordingly, recognizes the type of the above-mentioned cigarette-shaped aerosol-generating article, and controls heating of the first heater and the second heater, respectively. In Article 9,
An aerosol generating device characterized in that the microcontroller calculates a temperature gradient as temperature change data based on signals received from the first temperature sensor and the second temperature sensor for a predetermined period of time, and determines the first aerosol medium portion and the second aerosol medium portion accordingly to recognize the type of a cigarette-type aerosol generating article. In Article 9,
An aerosol generating device characterized in that the microcontroller calculates a temperature difference value as temperature change data based on signals received from the first temperature sensor and the second temperature sensor for a predetermined period of time, and determines the first aerosol medium portion and the second aerosol medium portion accordingly to recognize the type of a cigarette-type aerosol generating article. In Article 9,
An aerosol generating device characterized in that a first AD converter is provided between a microcontroller and a first temperature sensor, and a second AD converter is provided between the microcontroller and a second temperature sensor, wherein the microcontroller receives ADC signals from the first AD converter and the second AD converter for a predetermined period of time, calculates ADC slopes as temperature change data, and determines the first aerosol medium portion and the second aerosol medium portion accordingly to recognize the type of a cigarette-type aerosol generating article. In Article 9,
An aerosol generating device characterized in that a first AD converter is provided between a microcontroller and a first temperature sensor, and a second AD converter is provided between the microcontroller and a second temperature sensor, wherein the microcontroller receives ADC signals from the first AD converter and the second AD converter for a predetermined period of time, calculates ADC difference values as temperature change data, and determines the first aerosol medium part and the second aerosol medium part accordingly to recognize the type of a cigarette-type aerosol generating article. In any one of Articles 9 to 13,
An aerosol generator characterized in that it comprises a first power regulating means controlled by a microcontroller between the first heater and the battery, and a second power regulating means controlled by a microcontroller between the second heater and the battery.