KR20240053145A - Aerosol generator with puff recognition function - Google Patents

Abstract

The present invention relates to an aerosol generating device, and more specifically, to an aerosol generating device that recognizes a puff according to a change in capacitance detected in a cigarette. An aerosol generating device with a puff recognition function according to an embodiment of the present invention includes a cavity into which a cigarette is inserted; a heater that heats the cigarette inserted into the cavity; a battery that supplies power to the heater; It includes a microcontroller that controls the supply of power from the battery to the heater, and a capacitance sensor detection unit installed to surround the cigarette in the cavity; It further includes a capacitance sensor that detects the capacitance of the capacitance sensor detection unit, and the microcontroller is connected to the capacitance sensor and recognizes the puff by calculating the amount of change in capacitance according to the detection signal input from the capacitance sensor.

Description

Aerosol generator with puff recognition function {AEROSOL GENERATOR WITH PUFF RECOGNITION FUNCTION}

The present invention relates to an aerosol generating device, and more specifically, to an aerosol generating device that recognizes a puff according to a change in capacitance detected in a cigarette.

Aerosols are small liquid or solid particles that exist in suspension in the atmosphere and usually have a size of 0.001 to 1.0 ㎛. In particular, there are cases where people inhale aerosols derived from various types of cigarettes.

1 is a diagram for explaining an aerosol generating device according to an embodiment of the prior art. Referring to FIG. 1, the aerosol generator 10 includes a heater 13 that generates heat by resistance when current is applied, a battery 14 that can instantly supply high power to the heater 13, and a heater 13. It includes a microcontroller 15 for control. The heater 13 generates an aerosol by heating a vaporizing material containing a material (vaporizing material) that vaporizes when heated above a certain temperature contained in the cavity 12. For example, when a cigarette (11) filled with paper impregnated with an aerosol medium or buried on the surface is inserted into the cavity (12), the heater (13) is heated to vaporize the aerosol medium inside the cigarette (11), allowing the user to use the cigarette (11). ) It is possible to inhale aerosol vaporized from the aerosol medium through the filter unit. In the above-described prior art, when the aerosol generating device 10 is driven, use is terminated when a preset time is reached regardless of the number of puffs by the user, so use may be terminated without the user sufficiently inhaling aerosol from the cigarette. There is a problem.

The purpose of the present invention is to provide an aerosol generating device capable of recognizing puffs.

Additionally, the purpose of the present invention is to provide an aerosol generating device that can recognize a puff and control the heating time.

An aerosol generating device with a puff recognition function according to an embodiment of the present invention includes a cavity into which a cigarette is inserted; a heater that heats the cigarette inserted into the cavity; a battery that supplies power to the heater; It includes a microcontroller that controls the supply of power from the battery to the heater, and a capacitance sensor detection unit installed to surround the cigarette in the cavity; It further includes a capacitance sensor that detects the capacitance of the capacitance sensor detection unit, and the microcontroller is connected to the capacitance sensor and recognizes the puff by calculating the amount of change in capacitance according to the detection signal input from the capacitance sensor.

Additionally, depending on the embodiment, a power adjustment means connected to a microcontroller and controlled by the microcontroller is included between the battery and the heater.

Additionally, depending on the embodiment, it includes a display unit that displays usage time information under control of a microcontroller.

Additionally, depending on the embodiment, the microcontroller recognizes the puff and controls the heater to terminate heating when the number of puffs reaches a preset number.

Additionally, depending on the embodiment, the microcontroller recognizes the puff, calculates the puff time interval, and controls the heating time of the heater according to the calculated puff time interval.

According to an embodiment of the present invention, a capacitance sensor is included, and a puff can be recognized by calculating a change in capacitance according to inhalation of a cigarette.

Additionally, according to an embodiment of the present invention, the heating time can be controlled by calculating the puff interval.

1 is a diagram for explaining an aerosol generating device according to an embodiment of the prior art;
2 is a diagram conceptually illustrating an aerosol generating device according to an embodiment of the present invention;
Figure 3 is a block diagram for explaining an aerosol generating device according to an embodiment of the present invention;
Figure 4 is a graph illustrating the principle of puff recognition in the aerosol generating device according to an embodiment of the present invention;
Figure 5 is a flowchart illustrating an example of heating control according to puff recognition in an aerosol generating device according to an embodiment of the present invention;
Figure 6 is a flowchart illustrating another example of heating control according to puff recognition in an aerosol generating device according to an embodiment of the present invention.

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

Figure 2 is a diagram for conceptually explaining an aerosol generating device according to an embodiment of the present invention, Figure 3 is a block diagram for explaining an aerosol generating device according to an embodiment of the present invention, and Figure 4 is a diagram showing the present invention. This is a graph to explain the principle of puff recognition in an aerosol generating device according to an embodiment of.

Referring to Figures 2 and 3, the aerosol generating device 100 having a puff recognition function according to an embodiment of the present invention includes a cavity 102 into which a cigarette 101 is inserted, and a cigarette inserted into the cavity 102. It includes a heater 103 that heats the heater 101, a battery 104 that supplies power to the heater 103, and a microcontroller 105 that controls power to be supplied to the heater 103 from the battery 104. do. The heater 103 is provided, for example, as a pipe-shaped heater installed on the inner or outer wall of the cavity 102 and heats the cigarette inserted into the cavity 102. In addition, the aerosol generating device 100 includes a capacitance sensor detection unit 106 installed to surround the cigarette in the cavity, and a capacitance sensor 107 that detects the capacitance of the capacitance sensor detection unit 106. The microcontroller 105 is connected to the capacitance sensor 107 and recognizes the puff by calculating the amount of change in capacitance according to the detection signal input from the capacitance sensor 107. Referring to FIGS. 2 to 4, the cigarette 101 As it is inserted into the cavity 102 and heated, the aerosol-forming material contained in the cigarette 101 is vaporized and the capacitance of the capacitance sensor detection unit 106 installed to surround the cigarette 101 changes, and the microcontroller 105 Calculate the amount of change in capacitance according to the detection signal input from the capacitance sensor 107 and recognize the puff.

In addition, depending on the embodiment, a power adjustment means 108 connected to the microcontroller 105 and controlled by the microcontroller 105 is included between the battery 104 and the heater 103. For example, the power control means 108 includes a FET, and the microcontroller 105 transmits a PWM signal to the power control means 108, so that the FET included in the power control means 108 is connected to the microcontroller 105. Heating of the heater 103 can be controlled by adjusting the power supplied from the battery 104 to the heater 103 by turning it on and off according to the duty of the PWM signal input from.

In addition, depending on the embodiment, it may include a display unit 109 that displays usage time information under the control of the microcontroller 105, for example, displaying the remaining heating time on the display unit 109 or indicating the end of usage time. It can be displayed on the display unit 109 and recognized by the user.

Figure 5 is a flowchart for explaining an example of heating control according to puff recognition in an aerosol generating device according to an embodiment of the present invention. 2 to 5, according to an embodiment of the present invention, the microcontroller 105 recognizes a puff, counts the number of puffs, and terminates heating of the heater 103 when the number of puffs reaches a preset number. Control. In Figure 5 (A), heating of the heater 103 begins under the control of the microcontroller 105 with the cigarette 101 inserted into the cavity 102, and in Figure 5 (B), the capacitance sensor ( 107) detects the capacitance of the capacitance sensor detection unit 106 and inputs a detection signal to the microcontroller 105. In Figure 5 (C), the microcontroller 105 recognizes the puff by calculating the amount of capacitance change according to the detection signal input from the capacitance sensor 107, and in Figure 5 (D), the microcontroller 105 detects the puff. To count the number of times, for example, the microcontroller 105 may be preset with data on the number of puffs according to the capacitance change, and the microcontroller 105 compares the calculated capacitance change with data on the preset number of puffs. to count the number of puffs. In Figure 5(E), the microcontroller 105 determines whether the number of puffs has reached the preset number of puffs, and if the number of puffs has not reached the preset number of puffs, the microcontroller 105 performs the puff again in Figure 5(C). Recognizes, and if the number of puffs reaches the preset number of puffs, the microcontroller 105 controls the heating of the heater 103 to end. For example, the microcontroller 105 controls the power adjustment means 108. Heating of the heater 103 can be terminated by not transmitting the PWM signal. When heating of the heater 103 ends, the microcontroller 105 can control the display unit 108 to display the end of use time on the display unit 108.

Figure 6 is a flowchart for explaining another example of heating control according to puff recognition in the aerosol generating device according to an embodiment of the present invention. 2 to 6, according to an embodiment of the present invention, the microcontroller 105 recognizes a puff, calculates the puff time interval, and controls the heating time of the heater 103 according to the calculated puff time interval. . In Figure 6 (A), heating of the heater 103 begins under the control of the microcontroller 105 with the cigarette 101 inserted into the cavity 102, and in Figure 6 (B), the capacitance sensor ( 107) detects the capacitance of the capacitance sensor detection unit 106 and inputs a detection signal to the microcontroller 105. In Figure 6 (C), the microcontroller 105 recognizes the puff by calculating the amount of capacitance change according to the detection signal input from the capacitance sensor 107, and in Figure 6 (D), the time interval between puffs Calculate to determine whether the puff time interval is, for example, 30 seconds or less. If the puff time interval is 30 seconds or less, the microcontroller in Figure 6 (E) controls the heating of the heater 103 to apply the default heating time (for example, 4 minutes), while in Figure 6 (F) The microcontroller 105 counts the number of puffs, and in Figure 6(G), the microcontroller 105 determines whether the number of puffs has reached the preset number of puffs, and determines whether the number of puffs has reached the preset number of puffs. If not, the puff is recognized again in Figure 6 (C), and if the number of puffs reaches the preset number of puffs, the microcontroller 105 ends heating of the heater 103 in Figure 6 (H). Control it to do so. For example, the microcontroller 105 may terminate heating of the heater 103 by not transmitting a PWM signal to the power adjustment means 108. If the puff time interval is not 30 seconds or less in (D) of FIG. 6, the microcontroller 105 in FIG. 6 (I) determines whether the remaining use time is less than or equal to the preset time. For example, the preset time may be 180 seconds minus N seconds (for example, N seconds can be 30 seconds or 60 seconds depending on the setting). If the remaining use time is less than or equal to the preset time, the microcontroller 105 controls the heating of the heater 103 to apply the default heating time (for example, 4 minutes) in (K) of FIG. 6. do. Thereafter, the microcontroller 105 controls the heating of the heater 103 to end when the basic heating time is reached. If the remaining use time of the microcontroller 105 is not less than the preset time, the microcontroller 105 sets the heating time of the heater 103 by a predetermined time in (J) of FIG. 6 to extend the heating time of the heater 103. While controlling the heating, the microcontroller 105 in FIG. 6(F) counts the number of puffs.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

Claims (5)

A cavity into which a cigarette is inserted;
a heater that heats the cigarette inserted into the cavity;
a battery that supplies power to the heater;
Includes a microcontroller that controls the supply of power from the battery to the heater,
A capacitance sensor detection unit installed to surround the cigarette in the cavity;
It further includes a capacitance sensor that detects the capacitance of the capacitance sensor detection unit,
An aerosol generator with a puff recognition function, wherein the microcontroller is connected to a capacitance sensor and recognizes the puff by calculating the change in capacitance according to the detection signal input from the capacitance sensor. According to paragraph 1,
An aerosol generator with a puff recognition function, characterized in that it includes a power adjustment means connected to a microcontroller and controlled by the microcontroller between the battery and the heater. According to paragraph 1,
An aerosol generator with a puff recognition function, comprising a display unit that displays usage time information under the control of a microcontroller. According to any one of claims 1 to 3,
An aerosol generator with a puff recognition function, wherein the microcontroller recognizes the puff and controls the heating of the heater to end when the number of puffs reaches a preset number. According to any one of claims 1 to 3,
An aerosol generator with a puff recognition function, wherein the microcontroller recognizes the puff, calculates the puff time interval, and controls the heating time of the heater according to the calculated puff time interval.