KR20240069992A - Aerosol generating device - Google Patents

Abstract

The present invention relates to an aerosol generating device, and more specifically, to an aerosol generating device that can increase heating efficiency by heating air drawn from the outside and infiltrating it into an aerosol-generating product. An aerosol generating device according to an embodiment of the present invention includes a case; a cavity forming a space into which a cigarette is inserted and having an opening at the bottom; a first heater that heats the aerosol-generating article inserted into the cavity; an air inflow member including an airflow passage communicating with an opening provided in the lower portion of the cavity; a second heater installed on the air inlet member; an airflow pipe communicating with an airflow passage provided in the air inlet member; A pressure sensor installed in the airflow pipe; an intake port that communicates with the airflow pipe and allows external air to flow in; a battery supplying power to the first heater and the second heater, respectively; a microcontroller that controls power to be supplied from the battery to the first heater and the second heater, respectively; a second heater heating control means controlled by a microcontroller between the battery and the second heater, wherein the pressure sensor is connected to the microcontroller, and the microcontroller controls a change in the user's puffing pressure according to a signal input from the pressure sensor. Based on this judgment, the second heater heating control means is controlled.

Description

Aerosol generating device {AEROSOL GENERATING DEVICE}

The present invention relates to an aerosol generating device, and more specifically, to an aerosol generating device that can increase heating efficiency by heating air drawn from the outside and infiltrating it into an aerosol-generating product.

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 aerosol-generating products for various purposes.

Figure 1 is a diagram for explaining an example of an aerosol generating device according to the prior art, and Figure 2 is a diagram for explaining another example of an aerosol generating device according to the prior art.

Referring to Figures 1 and 2, the aerosol generator 10, 20 can instantly supply high power to the heaters 14, 24, which generate heat by resistance when current is applied, and the heaters 14, 24. It includes batteries 16 and 26 and control units 15 and 25 for controlling the heaters 14 and 24. The heaters 14 and 24 generate an aerosol by heating the vaporization material contained in the cavities 13 and 23 containing a substance (vaporizing material) that vaporizes when heated above a certain temperature. For example, when a cigarette-type aerosol-generating article (11, 21) filled with paper impregnated with an inhalant substance or buried on the surface is inserted into the cavity (13, 23) through the opening (12, 22), the heater (14, 24) When heated to vaporize the inhaled material inside the cigarette-type aerosol-generating article (11, 21), the user can inhale the vaporized inhaled material through the filter portion of the cigarette-type aerosol-generating article (11, 21). The heater 14 shown in FIG. 1 is provided as a needle-type heater and penetrates the cigarette-type aerosol-generating article 11 inserted into the cavity 13 to heat the cigarette-type aerosol-generating article 11, as shown in FIG. 2. The heater 24 is provided as a pipe heater and heats the cigarette-type aerosol-generating article 21. The heater 14, which is provided as a bee-type heater, can effectively heat the inside of the cigarette-type aerosol-generating article 11, but has a problem in that the exterior and parts near the outside of the cigarette-type aerosol-generating article 11 are not heated well. there is. In addition, there is a problem in that aerosol-generating substrate residue generated from the cigarette-type aerosol-generating article 11 may adhere, deteriorate the performance of the heater 14 and generate an unpleasant odor. In the case of the heater 24 provided as a pipe heater, the exterior and near the outside of the cigarette-type aerosol-generating article 21 can be effectively heated, but the inner central portion of the cigarette-type aerosol-generating article 21 cannot be heated well. There is a problem. In the prior art described above with reference to FIGS. 1 and 2, there is a problem in that the heating efficiency is not high and the amount of aerosol generated may be small.

The present invention provides an aerosol generator that can heat incoming air and allow the heated air to penetrate into an aerosol-generating product, and can increase heating efficiency by controlling the heating of incoming air according to changes in the user's puffing pressure. The purpose is to

An aerosol generating device according to an embodiment of the present invention includes a case; a cavity forming a space into which an aerosol-generating article is inserted and having an opening at the bottom; a first heater that heats the aerosol-generating article inserted into the cavity; an air inflow member having an airflow passage communicating with an opening provided in the lower part of the cavity; a second heater installed on the air inlet member; an airflow pipe communicating with an airflow passage provided in the air inlet member; A pressure sensor installed in the airflow pipe; an intake port that communicates with the airflow pipe and allows external air to flow in; a battery supplying power to the first heater and the second heater, respectively; a microcontroller that controls power to be supplied from the battery to the first heater and the second heater, respectively; a first heater heating adjustment means controlled by a microcontroller between the battery and the first heater; A second heater heating control means controlled by a microcontroller between the battery and the second heater, wherein the pressure sensor is connected to the microcontroller, and the microcontroller controls the user's puffing according to the signal input from the pressure sensor. The second heater heating control means is controlled by determining the pressure change.

In addition, according to the embodiment, the aerosol-generating product is provided as a liquid cartridge, and the microcontroller determines the change in the user's puffing pressure according to the signal input from the pressure sensor and controls the first heater heating control means separately from the second heater heating control means. Control.

In addition, depending on the embodiment, the microcontroller determines a change in the user's puffing pressure according to a signal input from the pressure sensor, and when the puffing pressure is lower than the reference pressure, the heating temperature of the first heater and/or the second heater is within a predetermined temperature range. Control the first heater heating control means and/or the second heater heating control means to decrease from, and control the heating temperature of the first heater and/or the second heater to rise within a predetermined temperature range when the puffing pressure is higher than the reference pressure. 1 Controls the heater heating control means and/or the second heater heating control means.

In addition, depending on the embodiment, the microcontroller determines a change in the user's puffing pressure according to a signal input from the pressure sensor, and when the puffing pressure is lower than the reference pressure, the heating temperature of the first heater and/or the second heater is adjusted to the reference pressure. Control the first heater heating control means and/or the second heater heating control means to rise to the corresponding preset temperature, and when the puffing pressure is higher than the reference pressure, the heating temperature of the first heater and/or the second heater is adjusted to the reference pressure. The first heater heating control means and/or the second heater heating control means are controlled to drop to a preset temperature corresponding to .

According to an embodiment of the present invention, the air coming in from the outside, including the second heater, is heated and penetrated into the aerosol-generating article, and the change in the user's puffing pressure is determined according to the signal input from the pressure sensor to heat the second heater. Heating efficiency can be improved through control.

In addition, according to an embodiment of the present invention, when the user's puffing pressure is strong, the pressure of the incoming air is strong and cannot be heated, and air that penetrates the aerosol-generating product is generated, so even if the heated air is reduced, the second heater is heated. It can be controlled and heated to the desired temperature.

Additionally, according to an embodiment of the present invention, aerosol can be generated relatively uniformly by controlling heating even if the user's puffing pressure is different.

1 is a diagram illustrating an example of an aerosol generating device according to the prior art;
Figure 2 is a diagram for explaining another example of an aerosol generating device according to the prior art;
Figure 3 is a diagram for conceptually explaining an aerosol generating device according to an embodiment of the present invention. Figure 3 (a) is a diagram schematically showing the case where the aerosol generating product is provided as a cigarette, and Figure 3 (b) is a diagram schematically showing the case where the aerosol generating product is provided as a cigarette. is a diagram schematically showing a case where an aerosol-generating product is provided as a liquid cartridge,
Figure 4 is a block diagram for explaining an aerosol generating device according to an embodiment of the present invention;
Figure 5 is a graph illustrating an example of heating control according to a change in user puffing pressure 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 3 is a diagram for conceptually explaining an aerosol generating device according to an embodiment of the present invention. Figure 3 (a) is a diagram schematically showing the case where the aerosol generating product is provided as a cigarette, and Figure 3 (b) is a diagram schematically showing the case where the aerosol generating product is provided as a cigarette. is a diagram schematically showing a case where an aerosol-generating product is provided as a liquid cartridge, and Figure 4 is a block diagram for explaining the aerosol-generating device according to the present invention.

Referring to Figure 3 (a), Figure 3 (b) and Figure 4, the aerosol generating device 100 according to an embodiment of the present invention includes a case 101 and an aerosol generating article (1) into which the aerosol generating article (1) is inserted. A cavity 102 that forms a space and has an opening 102a at the bottom, a first heater 103 for heating the aerosol-generating article 1 inserted into the cavity 102, and a lower portion of the cavity 102. an air inlet member 104 having an air flow passage 104a communicating with the opening 102a provided in the An air flow pipe 106 in communication with the air flow passage 104a provided, a pressure sensor 107 installed in the air flow pipe 106, an inlet 108 in communication with the air flow pipe 106 through which external air flows in, and , a battery 109 that supplies power to the first heater 103 and the second heater 105, respectively, and a battery 109 to supply power to the first heater 103 and the second heater 105, respectively. A microcontroller 111 for controlling, a first heater heating control means 113 controlled by the microcontroller 111 between the battery 109 and the first heater 103, and the battery 109 and the second heater It includes a second heater heating control means 114 controlled by the microcontroller 111 between (105), and the pressure sensor 107 is connected to the microcontroller 111, and the microcontroller 111 is a pressure sensor. The second heater heating control means 114 is controlled by determining the change in the user's puffing pressure according to the signal input from 107.

Referring to (a) of FIG. 3, the aerosol-generating article 1 may be provided as a cigarette, and referring to (b) of FIG. 3, the aerosol-generating article 1 may be provided as a liquid cartridge. The aerosol-generating article (1) provided as a liquid cartridge stores a liquid (1a) that generates an aerosol by heating, a moisture absorber (1b) that absorbs the liquid (1a), and an airflow passage (1c) for inhaling the aerosol. may be provided. According to the embodiment, the first heater 103 that heats the aerosol-generating article 1 is made of a resistance heating type heater, and may be installed by being wound around the moisture absorber 1b that absorbs the liquid 1a.

The first heater 103 receives power from the battery 109 under the control of the microcontroller 111 and heats the aerosol-generating article 1 inserted into the cavity 102. In addition, air flows in from the outside through the inlet 108 and is transferred to the airflow passage 104a provided in the air inlet member 104 through the airflow pipe 106, and is controlled by the microcontroller 111 to create a second air flow path 104a. When power is supplied to the heater 105 from the battery 109, the second heater 105 may be heated. When the air transported to the airflow passage 104a is heated by the second heater 105, the heated air can penetrate into the aerosol-generating article 1 through the opening 102a and heat the aerosol-generating article 1. there is.

For example, the first heater heating control means 113 controlled by the microcontroller 111 between the battery 109 and the first heater 103 includes a FET, and the microcontroller 111 controls the battery 109. In order to control the power supplied to the first heater 103, the duty of the PWM signal is varied and transmitted to the first heater heating control means 113, and the power included in the first heater heating control means 113 is transmitted. As the FET is turned on and off according to the duty of the PWM signal input from the microcontroller 111, the power supplied from the battery 109 to the first heater 103 is controlled to control the first heater 103. The heating temperature of (103) can be adjusted.

In addition, the second heater heating control means 114 controlled by the microcontroller 111 between the battery 109 and the second heater 105 includes a FET, and the microcontroller 111 controls the In order to control the power supplied to the second heater 105, the duty of the PWM signal is varied and transmitted to the second heater heating control means 114, and the FET included in the second heater heating control means 114 As it turns on and off according to the duty of the PWM signal input from the microcontroller 111, the power supplied from the battery 109 to the second heater 105 is controlled and the second heater ( 105) the heating temperature can be adjusted.

The microcontroller 111 determines a change in the user's puffing pressure according to a signal input from the pressure sensor 107 and controls the second heater heating control means 114. For example, the microcontroller 111 determines the change in the user's puffing pressure according to the signal input from the pressure sensor 107, and if the user's puffing pressure is strong, the pressure of the incoming air is strong and the aerosol-generating product cannot be heated. Even if the amount of heated air decreases due to air penetrating into (1), the second heater heating control means 114 can be controlled to increase the heating temperature of the second heater 105 to reach a desired temperature.

In addition, according to the embodiment, when the aerosol-generating product 1 is provided as a liquid cartridge, the microcontroller 111 determines the change in the user's puffing pressure according to the signal input from the pressure sensor 107 and controls the heating of the second heater. The first heater heating control means 113 is controlled separately from the means 114. When the aerosol-generating product 1 is provided as a liquid cartridge, the temperature of the liquid changes rapidly, and not only the second heater 105 installed on the air inlet member 104 but also the first heater 103 is used for puffing by the user. Since heating can be greatly affected by the pressure of air drawn in according to pressure changes, the microcontroller 111 determines the change in the user's puffing pressure according to the signal input from the pressure sensor 107 and controls the heating of the second heater. By controlling the first heater heating control means 113 separately from the means 114, the heating temperature of the first heater 113 can be varied.

Figure 5 is a graph for explaining an example of heating control according to a change in user puffing pressure in an aerosol generating device according to an embodiment of the present invention.

Referring to FIGS. 3, 4, and 5, according to the embodiment, the microcontroller 111 determines a change in the user's puffing pressure according to a signal input from the pressure sensor 107, and when the puffing pressure is lower than the reference pressure. (A Level, B Level) The first heater heating control means 113 and/or the second heater heating control means so that the heating temperature of the first heater 103 and/or the second heater 105 falls within a predetermined temperature range. (114) is controlled, and when the puffing pressure is higher than the reference pressure (D Level), the first heater heating control means so that the heating temperature of the first heater 103 and/or the second heater 105 rises within a predetermined temperature range. (113) and/or controls the second heater heating control means (114). The microcontroller 111 determines the change in the user's puffing pressure, and when the puffing pressure is lower than the reference pressure (A Level, B Level), the microcontroller 111 determines that the puffing pressure has been lowered so that the user inhales less aerosol, and controls the heating of the first heater. By controlling the means 113 and/or the second heater heating control means 114, the heating temperature of the first heater 103 and/or the second heater 105 is controlled to fall within a predetermined temperature range, thereby reducing the amount of aerosol generated. In order to determine the change in the user's puffing pressure, if the puffing pressure is higher than the reference pressure (D Level), it is determined that the puffing pressure has increased in order for the user to inhale more aerosol, and the first heater heating control means 113 and/ Alternatively, the second heater heating control means 114 is controlled to increase the heating temperature of the first heater 103 and/or the second heater 105 within a predetermined temperature range to increase the amount of aerosol generated.

In addition, according to the embodiment, the microcontroller 111 determines the change in the user's puffing pressure according to the signal input from the pressure sensor 107, and when the puffing pressure is lower than the reference pressure (A Level, B Level), the first heater (103) and/or controls the first heater heating control means 113 and/or the second heater heating control means 114 so that the heating temperature of the second heater 105 rises to a preset temperature corresponding to the reference pressure. And, when the puffing pressure is higher than the reference pressure (D Level), the first heater heating control means lowers the heating temperature of the first heater 103 and/or the second heater 107 to a preset temperature corresponding to the reference pressure. (113) and/or controls the second heater heating control means (114). The microcontroller 111 determines the change in the user's puffing pressure to generate a uniform aerosol, and when the puffing pressure is lower than the reference pressure (A Level, B Level), the first heater heating control means 113 and/or the second heater heating control means 113 The heater heating control means 114 is controlled so that the heating temperature of the first heater 103 and/or the second heater 105 rises to a preset temperature corresponding to the reference pressure, so that the amount of aerosol generated increases, and the user If the puffing pressure is higher than the reference pressure (D Level) by determining the change in puffing pressure, the first heater heating control means 113 and/or the second heater heating control means 114 are controlled to control the first heater 103 and /Or the heating temperature of the second heater 105 is controlled to fall to a preset temperature corresponding to the reference pressure to reduce the amount of aerosol generated.

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 (4)

case and;
a cavity forming a space into which an aerosol-generating article is inserted and having an opening at the bottom;
a first heater that heats the aerosol-generating article inserted into the cavity;
an air inflow member having an airflow passage communicating with an opening provided in the lower part of the cavity;
a second heater installed on the air inlet member;
an airflow pipe communicating with an airflow passage provided in the air inlet member;
A pressure sensor installed in the airflow pipe;
an intake port that communicates with the airflow pipe and allows external air to flow in;
a battery supplying power to the first heater and the second heater, respectively;
a microcontroller that controls power to be supplied from the battery to the first heater and the second heater, respectively;
a first heater heating adjustment means controlled by a microcontroller between the battery and the first heater;
It includes; a second heater heating adjustment means controlled by a microcontroller between the battery and the second heater;
The pressure sensor is connected to a microcontroller, and the microcontroller determines the change in the user's puffing pressure according to the signal input from the pressure sensor and controls the second heater heating control means. According to paragraph 1,
The aerosol-generating product is provided as a liquid cartridge, and the microcontroller determines the change in the user's puffing pressure according to the signal input from the pressure sensor and controls the first heater heating control means separately from the second heater heating control means. Aerosol generator. According to claim 1 or 2,
The microcontroller determines the change in the user's puffing pressure according to the signal input from the pressure sensor, and controls the first heater and/or the second heater so that the heating temperature of the first heater and/or the second heater falls within a predetermined temperature range when the puffing pressure is lower than the reference pressure. A first heater heating control means for controlling the heating control means and/or the second heater heating control means, so that the heating temperature of the first heater and/or the second heater rises in a predetermined temperature range when the puffing pressure is higher than the reference pressure, and /Or an aerosol generating device characterized in that it controls the second heater heating control means. According to claim 1 or 2,
The microcontroller determines the change in the user's puffing pressure according to the signal input from the pressure sensor, and when the puffing pressure is lower than the reference pressure, the heating temperature of the first heater and/or the second heater is adjusted to a preset temperature corresponding to the reference pressure. Control the first heater heating control means and/or the second heater heating control means to rise, and when the puffing pressure is higher than the reference pressure, the heating temperature of the first heater and/or the second heater is set to a preset temperature corresponding to the reference pressure. An aerosol generating device, characterized in that controlling the first heater heating control means and/or the second heater heating control means to descend to .