KR102167501B1 - Electromagnetic wave heating type fine particle generator - Google Patents

Abstract

The present invention relates to a device for generating fine particles that vaporizes an inhaled substance to generate an aerosol, and more particularly, to a device for generating fine particles that vaporizes an inhaled substance by generating heat using an electromagnetic wave. The present invention is a device for generating fine particles so that fine particles can be inhaled by a user's inhalation. In the device for generating fine particles, a power supply supplying power and an amplifying unit amplifying the power supplied from the power supply unit An oscillator that transmits electric power as an electromagnetic wave, a wave guide that guides the electromagnetic wave transmitted from the oscillator, and a wave scattering part and a wave scattering part that scatters and propagates the electromagnetic wave guided by the wave guide It characterized in that it comprises a heating unit that generates heat by the electromagnetic wave propagated from and a control unit for controlling at least one or more of them.

Description

Electromagnetic wave heating method fine particle generator {ELECTROMAGNETIC WAVE HEATING TYPE FINE PARTICLE GENERATOR}

The present invention relates to a device for generating fine particles that vaporizes an inhaled substance to generate an aerosol, and more particularly, to a device for generating fine particles that vaporizes an inhaled substance by generating heat using an electromagnetic wave.

Aerosols are small particles of liquid or solid that are suspended in the atmosphere and usually have a size of 0.001 to 1.0 µm. Inhalation of such fine particles in the air, i.e., inhalation of preference substances such as smoking, commonly referred to as inhaling aerosols, can be achieved. 1 is a cross-sectional view showing an embodiment of a conventional heating method fine particle generating device. Referring to FIG. 1, the fine particle generating device 10 includes a heater 14 that generates heat by resistance when a current is applied, a power storage device 16 capable of instantaneously supplying high power to the heater 14, and the And a control device 15 for controlling the heater 14. The heater 14 generates fine particles by heating a vaporization material containing a material (gasification material) that vaporizes when heated above a certain temperature accommodated in the cartridge 13. For example, when a cigarette 11 filled with paper impregnated with a suction substance or buried on the surface is inserted into the cartridge 13 through the cartridge opening 12, the heater 14 is heated to suck the inside of the cigarette 11 When the material is vaporized, the user can inhale the vaporized inhalation material through the filter unit.

The structure for heating the heater 14 in the fine particle generating device 10 as described above is a structure that is connected by a wire to supply power through a wire, and there is a poor contact between the heater 14 and the main board. When an error occurs in the wiring such as a disconnection, the heater 14 does not operate smoothly, there is a problem that may cause a failure, and the time for preheating the heater 14 because it is a structure to heat the heater 14 This is necessary, and there is a possibility that the heater 14 may be overheated, and there is a possibility that the amount of the vaporized suction material may change irregularly due to the difficulty in controlling the temperature of the heater 14. There is a problem.

An object of the present invention is to provide a device for generating fine particles that evaporates an inhaled substance by generating heat using electromagnetic waves.

The present invention for achieving the above object is a device for generating fine particles so that fine particles can be inhaled by a user's inhalation, the power supply supplying power and amplifying the power supplied from the power supply unit. Wave scattering that propagates by scattering electromagnetic waves guided by the amplification unit and the wave guide and the wave guide that guides the electromagnetic waves transmitted from the oscillation unit and the oscillator that transmits the amplified power as electromagnetic waves. It characterized in that it comprises a heating unit that generates heat by an electromagnetic wave propagated from the wave scattering unit and a control unit that controls at least one or more of them.

In addition, according to an embodiment of the present invention, a cigarette-type raw material provided with a suction material is inserted into the heating part, and the suction material is vaporized by heat generation of the heating part.

In addition, according to an embodiment of the present invention, the cigarette-type raw material includes an external filter having a cut filler therein and an internal filter provided below the external filter.

In addition, the present invention is characterized in that, according to an embodiment, the heating unit includes a hollow and a chamber that generates heat by electromagnetic waves.

In addition, the present invention is characterized in that, according to an embodiment, a plurality of wave scattering units are located close to side surfaces and lower surfaces of the heating unit.

In addition, according to an embodiment of the present invention, the control unit controls the oscillation unit to adjust the frequency of the electromagnetic wave.

According to the present invention, since the inhalation material is vaporized using electromagnetic waves, high heat generation efficiency can be provided.

In addition, according to the present invention, by providing a device for generating fine particles using an electromagnetic wave heater, it is possible to prevent smooth heating or failure due to wiring abnormalities such as contact failure or disconnection.

In addition, according to the present invention, it is possible to control the frequency of the electromagnetic wave so that optimal heat generation is achieved according to the inhaled material vaporized.

1 is a cross-sectional view showing an embodiment of a conventional heating method fine particle generating device.
2 is a block diagram of an electromagnetic wave heating method fine particle generator according to an embodiment of the present invention.
3 is a view for explaining a cigarette-type raw material and a heating unit according to an embodiment of the present invention.
4 is a view for explaining a location of a wave scattering unit according to an embodiment of the present invention.
5 is a view for explaining frequency control and resonance change of a chamber according to an embodiment of the present invention.

In the following, the present invention will be described in detail through examples and drawings. 2 is a block diagram of an electromagnetic wave heating method fine particle generator according to an embodiment of the present invention. 3 is a view for explaining a cigarette-type raw material and a heating unit according to an embodiment of the present invention. 2 and 3, the electromagnetic wave heating method fine particle generating apparatus 100 according to the present invention includes a power supply unit 90 for supplying power and an amplification unit 80 for amplifying power supplied from the power supply unit 90, and Guided by a wave guide 60 and a wave guide 60 for guiding the electromagnetic waves transmitted from the oscillation unit 70 and the oscillation unit 70 that transmits the power amplified by the amplification unit 80 as electromagnetic waves A wave scattering unit 50 that scatters and propagates the generated electromagnetic waves, a heating unit 30 that generates heat by an electromagnetic wave propagated from the wave scattering unit 50, and a control unit that controls at least one or more of them It includes (40). When using the electromagnetic wave heating method fine particle generating device 100, the control unit 40 supplies power to the amplifying unit 80 by controlling a power supply unit 90 such as a battery, and the amplifying unit 80 provides power to the control unit 40 Power is amplified at a frequency set by control and supplied to the oscillator 70. Depending on the embodiment, the amplification unit 80 may include a magnetron or a micro-fabricated vacuum device. The oscillation unit 70 transmits the power amplified by the amplification unit 80 as an electromagnetic wave, and the electromagnetic wave transmitted from the oscillation unit 70 is guided by a wave guide 60, for example, a waveguide, and thus a wave scattering unit ( 50). The wave guide 60 is designed to guide electromagnetic waves, and the electromagnetic waves guided by the wave guide 60 are propagated from the wave scattering unit 50 into the air and transmitted to the heating unit 30. According to an embodiment, the wave scattering unit 50 may include a stirrer or a fixed scattering module. Referring to FIG. 3, the heating unit 30 includes a hollow 32 and a chamber 31, and a target material to be vaporized, for example, a cigarette-type raw material 20, which will be described later, may be inserted into the hollow 32. have. As described above, heat is generated in the chamber 31 provided in the heat generating part 30 by the electromagnetic wave transmitted to the heat generating part 30. In the chamber 31, resonance is generated by the electromagnetic wave. The cigarette-type raw material 20 includes an outer filter 21 having a cut filler 23 therein and an inner filter 22 provided below the outer filter 21 according to an embodiment of the present invention. The cut filler 23 provided in the external filter 21 is composed of a material including a suction material vaporized by heat generation, and according to an embodiment of the present invention, the cut candle 23 may include a polar material. Polar substances include, for example, water and glycerin. In general, polar substances undergo rotational motion according to the motion of an electric field. Therefore, by using electromagnetic waves, energy can be applied to polar molecules of a polar material. The cigarette-type raw material 20 inserted into the hollow 32 of the heating part 30 is transferred to the cut candle 23 by heat generated by electromagnetic waves in the chamber 31 of the heating part 30, The inhalation material contained in 23) is vaporized. By varying the density of the cuticle 23, the amount of vaporization of the suction material may be controlled, and the amount of vaporization of the suction material may be adjusted according to the size of the outer filter 21 or the inner filter 22.

4 is a view for explaining a location of a wave scattering unit according to an embodiment of the present invention. Referring to FIG. 4, according to an embodiment of the present invention, a plurality of wave scattering units 50 may be positioned close to the side and lower surfaces of the heating unit 30, and the wave scattering unit ( The electromagnetic wave transmitted from 50) is evenly transmitted to the chamber, thereby increasing the heating effect.

5 is a view for explaining frequency control and resonance change of a chamber according to an embodiment of the present invention. Referring to FIG. 5, according to an embodiment of the present invention, the controller 40 controls the oscillation unit 70 to adjust the frequency of the electromagnetic wave to generate resonance generated by the electromagnetic wave in the chamber 31 of the heating unit 30. Can be adjusted. In general, when the diameter of the chamber 31 is ø7.0 to 8.0, the resonance frequency is 10 to 40 GHz, and the higher the frequency, the more evenly heat is possible, and a frequency having a high absorption energy may be selected according to the heating material.

The present invention is not limited to the specific preferred embodiments described above, and any person having ordinary knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the claims can implement various modifications Of course, such changes are within the scope of the claims.

10: fine particle generation device 11: cigarette
12: cartridge opening 13: cartridge
14: heater 15: control device
16: power storage device 100: electromagnetic wave heating method fine particle generator
20: cigarette-type raw material 21: external filter
22: internal filter 23: each second
30: heating unit 31: chamber
32: hollow 40: control unit
50: wave (Wave) scattering unit 60: wave (Wave) guide
70: oscillation unit 80: amplification unit
90: power supply

Claims (7)

In the fine particle generating device for generating fine particles by vaporizing the suction material provided in the inserted cigarette-type raw material so that the fine particles can be inhaled by a user's suction action,
And a power supply that supplies power
An amplification unit that amplifies the power supplied from the power supply unit and
And an oscillator that transmits the amplified power as electromagnetic waves
A wave guide that guides the electromagnetic waves transmitted from the oscillator and
A wave scattering unit that scatters and propagates the electromagnetic wave guided by the wave guide,
A space in which cigarette-type raw materials can be inserted, in which the polar molecules contained in the inserted cigarette-type raw materials are rotated by the electromagnetic waves propagated from the wave scattering part, and the inhaled substances in the cigarette-type raw materials are vaporized by heat generation. Heating part chamber and
Electromagnetic wave heating method fine particle generating device, characterized in that it comprises a control unit for controlling at least one or more of these.
delete delete delete delete The method of claim 1,
Electromagnetic wave heating method fine particle generation device, characterized in that the plurality of wave scattering portions are located in proximity to at least one of the side and lower surface of the heating unit.
The method of claim 1,
The control unit controls the oscillation unit to control the frequency of the electromagnetic wave.

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