KR20240021998A - Aerosol generator having auto conrolling structure for airflow path - Google Patents

Abstract

The embodiment relates to an aerosol generating device having an automatic airflow path adjustment structure.
Examples include an aerosol generating unit that aerosolizes an aerosol generating substrate; An outdoor air introduction hole connected to the aerosol generator and introducing outdoor air; An airflow path adjusting device formed on the airflow path and having a hole whose size can be adjusted; A suction hole connected to the aerosol generator and through which the outside air and aerosol introduced by the outside air introduction hole are discharged by suction pressure; An airflow path connecting the outside air introduction hole, the aerosol generator, and the suction hole; A pressure sensor connected to one side of the airflow path and detecting the suction pressure provided through the suction hole; and a control unit that controls the size of the hole by operating the airflow path control structure according to the sensing value of the pressure sensor.

Description

Aerosol generator having an automatic air flow path control structure {AEROSOL GENERATOR HAVING AUTO CONROLLING STRUCTURE FOR AIRFLOW PATH}

The embodiment relates to an aerosol generating device having an automatic airflow path adjustment structure.

Figure 1 is a diagram showing an aerosol generating device according to the prior art.

The aerosol generating device 1 according to the prior art includes an induction heating device, a control circuit 50 for controlling the induction heating device, and an induction heating device through the control circuit 50 to heat the aerosol-forming substrate within the casing 11. It includes a battery 60 that supplies power. The induction heating device includes a susceptor 21 and an inductor coil 22 for inductively heating the susceptor 21. The susceptor 21 is cylindrical and has a cavity into which an aerosol-forming substrate can be inserted. The upper end of the susceptor 21 is fixed to the upper housing 31, and the lower end of the susceptor 21 is attached to the lower housing 32. ) is combined with. A coil housing 33 for fixing the inductor coil 22 is installed in the upper housing 31 and the lower housing 32 at a distance from the susceptor 21. An inductor coil 22 is installed on the outer surface of the coil housing 33, and power is supplied to the inductor coil 22 to inductively heat the susceptor 21.

At this time, the lower housing 32 communicates with the outside air introduction hole 40 to supply outside air, and the lower housing 32 stores the outside air introduced through the outside air introduction hole 40 inside the susceptor 21, that is, in the west. It serves as a passage for supplying the aerosol-forming substrate inserted into the septor 21.

However, in the airflow path according to the prior art, the size of the outside air introduction hole 40 cannot be adjusted, so the amount of atomization varies depending on the amount of puffing by the user. Therefore, there was a disadvantage in that a sufficient amount of atomization could not be generated if the user's puffing amount was small.

International Publication WO 95/27411 International Publication WO 2015/177257 International Publication WO 2015/177255

The purpose of the embodiment is to provide an aerosol generator capable of controlling the suction pressure inhaled by the user by having an airflow path automatic adjustment structure.

Examples include an aerosol generating unit that aerosolizes an aerosol generating substrate; An outdoor air introduction hole connected to the aerosol generator and introducing outdoor air; An airflow path adjusting device formed on the airflow path and having a hole whose size can be adjusted; A suction hole connected to the aerosol generator and through which the outside air and aerosol introduced by the outside air introduction hole are discharged by suction pressure; An airflow path connecting the outside air introduction hole, the aerosol generator, and the suction hole; A pressure sensor connected to one side of the airflow path and detecting the suction pressure provided through the suction hole; and a control unit that controls the size of the hole by operating the airflow path control structure according to the sensing value of the pressure sensor.

In addition, as another aspect of the embodiment, the control unit increases the size of the hole when the suction pressure detected by the pressure sensor is higher than the preset setting value to lower the suction resistance. An aerosol generator having an airflow path automatic adjustment structure is provided. to provide.

In addition, as another aspect of the embodiment, the control unit includes an aerosol generator having an airflow path automatic adjustment structure, which increases suction resistance by reducing the size of the hole when the suction pressure detected by the pressure sensor is higher than the preset setting value. to provide.

In addition, as another aspect of the embodiment, the outside air introduction hole includes a first outside air introduction hole and a second outside air introduction hole formed at a distance from each other, and an airflow path adjustment device is installed in at least one of the two. An aerosol generator having an automatic airflow path adjustment structure is provided.

In addition, as another aspect of the embodiment, the airflow path control device is an aerosol generator having an airflow path automatic adjustment structure, characterized in that it is installed in an outside air introduction hole connected to the airflow path connecting the suction hole and the aerosol generator. to provide.

In addition, as another aspect of the embodiment, the airflow path control device provides an aerosol generating device having an airflow path automatic adjustment structure, characterized in that the airflow path control device adjusts the size of the hole within the range of 0.5mm to 4.0mm.

In addition, as another aspect of the embodiment, an aerosol generating device having an automatic airflow path adjustment structure is provided, wherein the airflow path control device is an aperture structure having a plurality of rotating blades.

In addition, as another aspect of the embodiment, an aerosol generating device having an automatic airflow path adjustment structure is provided, wherein the airflow path adjustment device has a sliding opening and closing structure.

In addition, as another aspect of the embodiment, an aerosol generator is provided with an airflow path automatic adjustment structure, wherein the aerosol generator is one of an ultrasonic oscillator, a hot ray heater, a ceramic heater, and an induction heater.

In addition, as another aspect of the embodiment, the aerosol-generating substrate provides an aerosol-generating device having an airflow path automatic adjustment structure containing at least one of a liquid-type aerosol-generating substrate, a gel-type aerosol-generating substrate, a cigarette, and a chemical solution.

Additionally, as another aspect of the embodiment, it further includes a user identification device capable of identifying the user, wherein the control unit stores the suction pressure or puffing amount of the user identified through the user identification device, and stores the airflow path according to the stored information. An aerosol generating device having an automatic airflow path adjustment structure is provided, which is characterized in that the hole size of the adjustment device is automatically adjusted.

The aerosol generator having an airflow path automatic adjustment structure provided by the embodiment installs an airflow path adjustment device capable of adjusting the size of the hole in the outdoor air introduction hole to generate a constant amount of atomization regardless of the user's puffing amount. There is an advantage in that it can be generated.

1 is a diagram showing an aerosol generating device according to the prior art;
Figure 2 is a cross-sectional view of an aerosol generator having an automatic airflow path adjustment structure according to the first embodiment of the present invention;
Figure 3 is a view showing the automatic airflow path adjustment device provided in the aerosol generating device according to the first embodiment of the present invention minimizing holes;
Figure 4 is a view showing the hole maximized by the airflow path automatic adjustment device provided in the aerosol generating device according to the first embodiment of the present invention;
Figure 5 is a cross-sectional view of an aerosol generator having an automatic airflow path adjustment structure according to a second embodiment of the present invention;
Figure 6 is a diagram showing an automatic airflow path adjustment device included in the aerosol generating device according to the second embodiment of the present invention.

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

Figure 2 is a cross-sectional view of an aerosol generator having an automatic airflow path adjustment structure according to the first embodiment of the present invention, and Figure 3 is a cross-sectional view of the airflow path automatic adjustment device provided by the aerosol generator according to the first embodiment of the present invention. FIG. 4 is a diagram showing a state in which a hole is minimized, and FIG. 4 is a diagram showing an airflow path automatic adjustment device provided in an aerosol generating device according to the first embodiment of the present invention, in which the hole is maximized.

In the aerosol generating device shown in FIG. 2, an induction heating device is installed in the outer casing 110 to heat the aerosol-forming substrate. The induction heating device includes a susceptor 210 and an inductor coil 220 for inductively heating the susceptor 210. The susceptor 210 is cylindrical and has a cavity into which an aerosol-forming substrate can be inserted. Additionally, a coil housing 230 is installed at a distance from the susceptor 210 to secure the inductor coil 220. An inductor coil 220 is installed on the outer surface of the coil housing 230, and power is supplied to the inductor coil 220 to inductively heat the susceptor 210. Additionally, in order to fix the inductor coil 220 on the coil housing 230, a film 250 surrounding the outer surface of the coil housing 230 may be additionally attached.

A suction hole 130 communicating with the cavity inside the susceptor 210 is formed on the upper side of the external casing 110, and a door 120 capable of opening and closing the suction hole 130 may be installed. The suction hole 130 also serves as a cigarette inlet into which a cigarette is inserted.

At this time, a cigarette is used as an aerosol-generating substrate, and an induction heater using a susceptor 210 and an inductor coil 220 for inductively heating the susceptor 210 is used as a heating device for heating the cigarette, but the aerosol A liquid may be used as the generating base, or a ceramic heater or heating coil may be used as a heating device to generate aerosol by heating the aerosol generating base. In other words, the automatic airflow path control device of the present invention can be applied to any type of aerosol generating device used in the past. In addition, a chemical solution that a user inhales for treatment, etc. can be used as an aerosol generating base, and it can also be applied to a nebulizer-type aerosol generating device that has an ultrasonic vibrator as an aerosol generating unit.

At this time, in order to inhale the aerosol generated inside the susceptor 210, an airflow must be formed through the cigarette and the suction hole 130. For this purpose, an outdoor air introduction hole is provided through which outdoor air can be introduced. In the first embodiment, the gap between the susceptor 210 and the coil housing 230 forms a part of the outside air introduction hole and the air flow path. The outside air introduced into the outside air introduction hole is introduced into the susceptor 210 through the airflow path control device 300 along the airflow path.

At this time, a pressure sensor 400 capable of measuring suction pressure is installed in the middle of the airflow path. The pressure sensor 400 may have a sensor surface exposed on the airflow path, or may be connected to the airflow path through a separately branched connection passage 410.

The airflow path control device 300 is equipped with a blade 330 that rotates and can adjust the size of the hole on a plate 310 with a hole 320 whose size can be adjusted in the center. The size of the hole 320 opened by the blade 330 varies depending on the rotation angle of the blade 330. At this time, it is preferable that the size of the hole 320 provided in the airflow path adjusting device 300 is adjusted within the range of 0.5 mm to 4.0 mm. At this time, the shape of the hole 320 may be circular as shown in FIG. 3, but may be polygonal, such as a pentagon, hexagon, or octagon, depending on the number and shape of the blades 330.

In the first embodiment of the present invention shown in FIGS. 2 to 4, the aperture structure is such that the blade 330 rotates to adjust the opening and closing degree of the hole 320, but the shutter (not shown) slides to adjust the opening and closing degree of the hole. A sliding opening/closing structure can also be adopted. At this time, the hole opened and closed by the shutter may have an oval, square, or rectangular shape.

At this time, the control unit (not shown) operates the airflow path control structure according to the sensing value of the pressure sensor 400 to adjust the size of the hole 320. If the suction pressure detected by the pressure sensor is lower than the preset setting value, the control unit (not shown) operates the airflow path control structure. It is desirable to lower the suction resistance by increasing the size of the hole, and if the suction pressure detected by the pressure sensor is higher than the preset value, it is desirable to increase the suction resistance by reducing the size of the hole. Accordingly, by constantly controlling the suction pressure, there is an advantage that the amount of atomization can be kept constant regardless of the user's individual puffing amount.

Meanwhile, when equipped with a user identification device (not shown) such as fingerprint recognition, the control unit (not shown) detects and stores the suction pressure or puffing amount of the identified user and continuously learns the suction pattern to control the airflow path. The hole 320 of 300 can be automatically adjusted according to the learned value.

Figure 5 is a cross-sectional view of an aerosol generating device equipped with an automatic airflow path adjustment structure according to a second embodiment of the present invention.

The aerosol generating device having an automatic airflow path adjustment structure according to the second embodiment shown in FIG. 5 includes a first outside air introduction hole 340a and a second outside air introduction hole 300a where the outside air introduction holes are formed at intervals from each other. Equipped with Figure 5 illustrates a structure employing a liquid cartridge, but it can be applied to any type of aerosol generating device used in the past. In addition, a chemical solution that a user inhales for treatment, etc. can be used as an aerosol generating base, and it can also be applied to a nebulizer-type aerosol generating device that has an ultrasonic vibrator as an aerosol generating unit.

The aerosol generating device according to the second embodiment of the present invention is provided with an aerosol generating unit 210a that receives and heats the liquid from the liquid storage space 220a, and includes an aerosol generating unit 210a in the airflow and a pressure sensor ( It includes a first outside air introduction hole 340a located upstream of 400a) and introducing outside air, and a second outside air introduction hole 300a located downstream from the aerosol generator 210a and the pressure sensor 400a.

Here, the first outside air introduction hole 340a is a fixed type with a fixed size, and an airflow path control device such as the airflow path control device 300 of the first embodiment is installed in the second outside air introduction hole 300a. The second outside air introduction hole 300a rotates on a plate 310a with a size-adjustable hole 320a formed in the center, and a blade 330a capable of adjusting the size of the hole 320a is installed. The size of the hole 320a opened by the blade 330a varies depending on the rotation angle of the blade 330a.

Figure 5 shows an embodiment in which the airflow path control device is installed only in the second outside air introduction hole 300a. However, the airflow path control device may be installed in both the first outside air introduction hole 340a and the second outside air introduction hole 300a. In this case, there is an advantage that the range of adjustment of suction resistance is widened.

Figure 6 is a diagram showing an automatic airflow path adjustment device included in the aerosol generating device according to the third embodiment of the present invention.

The automatic airflow path control device 300b provided by the aerosol generator according to the third embodiment has a sliding shutter 330b installed on the plate 310b having the hole 320b, and can slide to adjust the opening and closing degree of the hole. . At this time, FIG. 6 shows a structure in which the hole 320b is circular, but the hole 320b opened and closed by the shutter 330b may have an oval, square, or rectangular shape.

Claims (11)

An aerosol generating unit that aerosolizes the aerosol generating substrate;
An outdoor air introduction hole connected to the aerosol generator and introducing outdoor air;
An airflow path adjusting device formed on the airflow path and having a hole whose size can be adjusted;
A suction hole connected to the aerosol generator and through which the outside air and aerosol introduced by the outside air introduction hole are discharged by suction pressure;
An airflow path connecting the outside air introduction hole, the aerosol generator, and the suction hole;
A pressure sensor connected to one side of the airflow path and detecting the suction pressure provided through the suction hole; and
An aerosol generator having an automatic airflow path control structure, comprising a control unit that operates the airflow path control structure according to the sensing value of the pressure sensor to adjust the size of the hole. According to paragraph 1,
The control unit is an aerosol generator having an airflow path automatic adjustment structure, wherein when the suction pressure detected by the pressure sensor is higher than the preset setting value, the suction resistance is lowered by increasing the size of the hole. According to paragraph 1,
An aerosol generator having an airflow path automatic adjustment structure, wherein the control unit increases suction resistance by reducing the size of the hole when the suction pressure detected by the pressure sensor is higher than the preset setting value. According to paragraph 1,
The outside air introduction hole has a first outside air introduction hole and a second outside air introduction hole formed at a distance from each other, and has an airflow path automatic adjustment structure, characterized in that an airflow path adjustment device is installed in at least one of the two. Aerosol generator. According to clause 4,
The airflow path control device is an aerosol generating device having an airflow path automatic adjustment structure, characterized in that it is installed in an external air introduction hole connected to the airflow path connecting the suction hole and the aerosol generator. According to paragraph 1,
The airflow path control device is an aerosol generator having an automatic airflow path control structure, characterized in that it adjusts the size of the hole within the range of 0.5mm to 4.0mm. According to paragraph 1,
An aerosol generator having an automatic airflow path control structure, characterized in that the airflow path control device has an aperture structure having a plurality of rotating blades. According to paragraph 1,
The airflow path control device is an aerosol generator having an automatic airflow path control structure, characterized in that it has a sliding opening and closing structure. According to paragraph 1,
An aerosol generator having an airflow path automatic adjustment structure, wherein the aerosol generator is one of an ultrasonic oscillator, a hot wire heater, a ceramic heater, and an induction heater. According to paragraph 1,
The aerosol-generating base is an aerosol-generating device having an airflow path automatic adjustment structure containing at least one of a liquid-type aerosol-generating base, a gel-type aerosol-generating base, a cigarette, and a chemical solution. According to paragraph 1,
It further includes a user identification device capable of identifying the user,
The control unit stores the suction pressure or puffing amount of the user identified through the user identification device, and automatically adjusts the hole size of the airflow path adjustment device according to the stored information. Generating device.