KR102214675B1 - Microwave 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 capable of controlling a multi-antenna as a device for generating aerosol using a microwave heating method. The microwave heating method fine particle generator according to an embodiment of the present invention includes a battery that supplies power; and a wireless RF oscillator that receives power from the battery and oscillates into a microwave; and a microwave is amplified by being connected to the wireless RF oscillator. A wireless RF power amplifier; and a plurality of antennas emitting microwaves transmitted from the wireless RF power amplifier; and an antenna switch block installed between the wireless RF power amplifier and the plurality of antennas; and a control device for switching and controlling the antenna switch block; And EMI shielding box in which microwaves radiated from the antenna are radiated and reflected from the inside; and the EMI shield wall formed inside the EMI shielding box; and EMI shielding ) The box (Box) and the EMI shield (Shield) is formed in the wall of the opening into which the cigarette is inserted; characterized by including.

Description

Microwave heating type fine particle generator {MICROWAVE 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 capable of controlling a multi-antenna as a device for generating aerosol using a microwave heating method.

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 microparticle generating device 10 includes a heater 14 that generates heat by resistance when current is applied, a battery 16 capable of instantaneously supplying high power to the heater 14, and the heater. It includes a control device 15 for controlling (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 inhaled material vaporized 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. If an abnormality occurs in the wiring such as a disconnection, the heater 14 does not operate smoothly, and there is a problem that may cause a failure, and the heater 14 may be overheated because it is a structure that heats the heater 14. In addition, since the temperature control of the heater 14 is not easy, there is a possibility that the amount of the vaporized suction material may change irregularly, so that it is difficult to provide a satisfactory suction feeling to the user. There is a device for generating fine particles that has a contained cartomizer and heats a heater installed in the cartomizer to vaporize the liquid so that the user can inhale the vaporized inhalation material, but the above-described embodiment is a structure that electrically heats the heater It has the same problem. In addition, in the above-described fine particle generating device 10, there is a problem that cigarette debris remains in the fine particle generating device 10 by inserting the heater 14 into the cigarette 11, and the cylindrical cigarette 11 is evenly heated. There is a problem that it is difficult to give.

The present invention has been conceived to solve the above-described problems, and an object of the present invention is to provide a fine particle generating device capable of multi-antenna control as a microwave heating type fine particle generating device that does not use an electrically heated heater.

A microwave heating method fine particle generator according to an embodiment of the present invention for achieving the above object includes a battery that supplies power; and a wireless RF oscillator that receives power from the battery and oscillates with microwaves; and wireless RF A wireless RF power amplifier connected to the oscillator to amplify a microwave; and a plurality of antennas radiating microwaves transmitted from the wireless RF power amplifier; and an antenna switch block installed between the wireless RF power amplifier and the plurality of antennas; and an antenna switch Control device for controlling the switching of the block; and an EMI shielding box in which microwaves radiated from the antenna are radiated and reflected from the inside; and an EMI shield formed inside the EMI shielding box ) Wall; And EMI shielding (Shielding) box (Box) and EMI shielding (Shield) is formed in the wall and the opening into which the cigarette is inserted; characterized by including a.

In addition, according to an embodiment of the present invention, the antenna switch block includes a driver connected to a control device and a first antenna switch and a second antenna switch respectively switched by signals from the driver.

In addition, according to an embodiment of the present invention, a plurality of antennas are located opposite to each other in an EMI shielding box.

According to the present invention, as a microwave-type fine particle generating device that does not use a heater, multi-antenna control is possible, so it is easy to control the heating temperature of the fine particle generating device and has excellent energy efficiency.

According to the present invention, it is possible to prevent the occurrence of smooth heating or failure due to wiring abnormalities such as poor contact or disconnection by providing a microwave heating method fine particle generator using wireless RF that does not use a heater.

In addition, according to the present invention, the multi-antenna is switched and controlled so that the cigarette is evenly heated by microwaves, thereby increasing the heat generation efficiency.

In addition, according to the present invention, heat is generated by microwaves by switching control of the multi-antenna, so that the preheating time can be shortened.

1 is a cross-sectional view showing an embodiment of a conventional heating method fine particle generating device.
2 is a block diagram of a microwave heating method fine particle generation apparatus according to an embodiment of the present invention.
3 is a diagram showing a circuit diagram of a switch block and a connection to a multi-antenna 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 a microwave heating method fine particle generation apparatus according to an embodiment of the present invention. 3 is a diagram illustrating a circuit diagram of a switch block and a connection to a multi-antenna according to an embodiment of the present invention.

2 and 3, the microwave heating method fine particle generation apparatus 100 according to an embodiment of the present invention receives power from the battery 30 and the battery 30 to supply power to the microwave. A wireless RF power amplifier 42 that is connected to the wireless RF oscillator 41 to oscillate and the wireless RF oscillator 41 to amplify a microwave, and a plurality of antennas radiating microwaves transmitted from the wireless RF power amplifier 42 ( A control device 70 and an antenna 54 for switching and controlling the antenna switch block 50 and the antenna switch block 50 installed between the 54 and 55 and the wireless RF power amplifier 42 and the plurality of antennas 54 and 55 , EMI shielding wall formed inside the EMI shielding box 60 and the EMI shielding box 60 in which microwaves radiated and reflected from the inside are radiated and reflected. 61 and an EMI shielding box 60 and openings 62 and 63 formed in the EMI shielding wall 61 and into which the cigarette 20 is inserted.

In the battery 30, the wireless RF oscillator 41 supplies power for oscillating microwaves, and the wireless RF oscillator 41 oscillates microwaves by receiving power from the battery 30, and the wireless RF oscillator 41 The microwave oscillated in is amplified by the wireless RF power amplifier 42 and radiated from the antennas 54 and 55 to the EMI shielding box 60 through the RF cable. According to an embodiment of the present invention, by applying a plurality of antennas 54 and 55, for example, the first antenna 54 and the second antenna 55 are connected to the EMI shielding box 60. It is installed and controlled to radiate microwaves transmitted from the wireless RF power amplifier 42 through the first antenna 54 or the second antenna 55 alternately through the switching operation of the antenna switch block 50. By controlling (54, 55) and radiating alternately, when one antenna is applied, the antenna performance decreases over time, preventing the radiation output from dropping, and efficiently radiating microwaves. According to an embodiment of the present invention, the microwave transmitted from the wireless RF power amplifier 42 has an RF of 2.4 GHz to 50 GHz and a power in the range of 2 W to 200 W. In addition, according to an embodiment of the present invention, a plurality of antennas 54 and 55 may be positioned opposite to each other in an EMI shielding box 60, and a plurality of antennas 54 and 55 are alternately arranged. It is possible to heat the cigarette 20 evenly by controlling the radiation to be radiated. The EMI shielding box 60 forms a space so that microwaves radiated from the plurality of antennas 54 and 55 are reflected therein, and the microwaves are EMI shielding boxes ( 60) An EMI shield wall 61 is formed inside to prevent leakage to the outside. The EMI shielding box 60 and the EMI shield wall 61 include openings 62 and 63 into which the cigarette 20 can be inserted, and the cigarette 20 is the opening 62 In the state inserted into the EMI shielding box (60) through 63), the microwave is oscillated from the wireless RF oscillator (41) to amplify the microwave from the wireless RF power amplifier (42), and a plurality of antennas The cigarette 20 is heated by microwaves radiated through 54 and 55 and radiated and reflected from the EMI shielding box 60 to evaporate the inhaled material to generate an aerosol. According to an embodiment of the present invention, the antenna switch block 50 includes a driver 51 connected to the control device 70 and a first antenna switch 52 and a second antenna respectively switched by signals from the driver 51. A switch 53 is provided. For example, when the control device 70 applies a control signal for operating the first antenna switch 52 to the driver 51 of the antenna switch block 50, the driver 51 is sent to the first antenna switch 52. The first antenna switch 52 is turned on by sending a signal, so that the microwave transmitted from the wireless RF power amplifier 42 is transmitted through the first antenna 54 to the inside of the EMI shielding box 60 Radiates as. At this time, since the second antenna switch 53 is in an off state, microwaves are not radiated through the second antenna 55. In addition, when the control device 70 applies a control signal for operating the second antenna switch 53 to the driver 51 of the antenna switch block 50 according to a preset time interval, the driver 51 The second antenna switch 53 is turned on by sending a signal to 53, and the microwave transmitted from the wireless RF power amplifier 42 is transmitted through the second antenna 55 to an EMI shielding box. (60) Radiated inside. At this time, since the driver 51 does not send a signal to the first antenna switch 52, the first antenna switch 52 is switched to an off state, and microwaves are not radiated through the first antenna 54. . As described above, microwaves alternately radiate into the EMI shielding box 60 through the first antenna 54 and the second antenna 55 according to the switching operation in the antenna switch block 50. do.

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 will fall within the scope of the description of the claims.

10: fine particle generation device 11: cigarette
12: cartridge opening 13: cartridge
14: heater 15: control device
16: battery 100: fine particle generation device
20: cigarette 30: battery
41: wireless RF oscillator 42: wireless RF power amplifier
50: antenna switch block 51: driver
52: first antenna switch 53: second antenna switch
54: first antenna 55: second antenna
60: EMI Shielding Box
61: EMI shield wall 62, 63: opening
70: control device

Claims (5)

A battery for supplying power; and
A wireless RF oscillator that receives power from a battery and oscillates with a microwave; and
A wireless RF power amplifier connected to a wireless RF oscillator to amplify a microwave; and
A plurality of antennas radiating microwaves transmitted from the wireless RF power amplifier; And
An antenna switch block installed between a wireless RF power amplifier and a plurality of antennas; And
A control device for switching and controlling the antenna switch block; and
EMI shielding box in which microwaves radiated from the antenna are radiated and reflected from the inside; And
EMI shield wall formed inside the EMI shielding box; and
Including; an opening formed in the EMI shielding box and the EMI shield wall into which the cigarette is inserted,
Microwave heating method fine particle generating device, characterized in that the cigarette inserted through the opening is heated by microwave in the EMI shielding box to generate an aerosol.
The method of claim 1,
The antenna switch block includes a driver connected to the control device, and a first antenna switch and a second antenna switch respectively switched by a signal from the driver.
The method of claim 1,
Microwave heating method fine particle generation device, characterized in that the plurality of antennas are positioned opposite to each other in the EMI shielding box.
The method of claim 1,
The control device is a microwave heating method fine particle generating device, characterized in that for controlling the antenna switch block according to a preset time interval.
The method according to any one of claims 1 to 4,
Microwaves transmitted from the wireless RF power amplifier have an RF of 2.4 GHz to 50 GHz and a power in the range of 2 W to 200 W.

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