KR20180085648A - Power-efficient fine particle generator - Google Patents

Abstract

The present invention relates to a fine particle generating device having improved power efficiency and, specifically, to a fine particle generating device capable of generating fine particles by electric heating and preventing power waste due to unnecessary operation. According to the present invention, the fine particle generating device generating the fine particles to inhale the fine particles by the inhalation action of a user includes: a heater emitting heat by resistance when a current is applied; an electric condenser capable of supplying high current to the heater in a moment; an evaporation material sensor sensing installation of an evaporation material; and a control device controlling at least one among the heater, the electric condenser, and the evaporation material sensor. The heater generates the fine particles by heating the evaporation material containing a matter (evaporation matter) which is evaporated when being heated at a predetermined temperature or greater.

Description

[0001] POWER-EFFICIENT FINE PARTICLE GENERATOR [0002]

TECHNICAL FIELD The present invention relates to a fine particle generator having improved power efficiency, and more particularly, to a fine particle generator capable of preventing power waste due to unnecessary operation in an apparatus for generating fine particles through electric heating.

 Inhalation of a particulate matter such as smoking, which is commonly referred to as inhalation of fine particles in the air, that is, aerosols, can be achieved. Conventionally, cigarette-like cigarettes were almost the only means of inhalation of such a substance, but recently electronic cigarettes have become another means. The electronic cigarette is completely differentiated from the conventional cigarette-type cigarette, which generates smoke by burning the inhaled material by vaporizing the inhaled material by applying heat or ultrasonic waves to the cartridge containing the inhaled substance in a liquid form And the advantages thereof, in particular the ability to inhibit the generation of various hazardous substances that may arise from combustion.

In addition, according to the demand of consumers who prefer a cigarette-like ordinary cigarette, a filter portion of a normal cigarette and an electronic cigarette having the shape of a cigarette portion have been proposed. And is sucked by a user through a filter portion having a configuration equivalent to a normal cigarette while being vaporized by a heater. In such an electronic cigarette, unlike a normal cigarette having a structure of a cigarette portion filled with dry tobacco leaves, the suction material is impregnated or filled with paper buried on the surface. When the electronic cigarette is inserted into the holder and the heater inside the holder is heated to vaporize the suction material in the cigarette portion, the user can suck in the suctioned material to be vaporized through the filter portion. As with conventional electronic cigarettes, it has the advantage of not burning, and it can absorb the inhaled material that is vaporized through the filter part by the same mechanism as that of a normal cigarette, so that the user can feel the same feeling as smoking a normal cigarette .

Conventional electronic cigarettes tend to generate excessive heat because the power supplied during preheating is very high. Therefore, the power consumption of the electronic cigarette is consumed in a short period of time because a lot of electric power is consumed in the preheating step, and the use of the electronic cigarette is stopped. In addition, the electronic cigarette can be used by separating the battery inside the electronic cigarette after a certain period of time and recharging it by a separate charger. Normally, if the battery is discharged for a day or two after the battery is discharged and recharged, There was an inconvenience that the use was discontinued.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fine particle generating device which does not involve combustion and can diversify an inhaling material.

It is another object of the present invention to provide a fine particle generator which improves power efficiency by reducing malfunction.

According to an aspect of the present invention, there is provided a fine particle generator for generating fine particles so that fine particles can be sucked in by a user's inhalation action, comprising: a heater for generating heat by resistance when a current is applied; A power storage device capable of instantly supplying a high electric power to the heater; A fire sensor to detect whether a fire is installed; And a control device for controlling at least one of them, wherein the heater generates fine particles by heating a vapor containing a substance (vaporizing material) to be vaporized when heated above a certain temperature.

According to another aspect of the present invention, there is provided an external power supply device connected to a microparticle generator to supply power to the power storage device.

According to the embodiment of the present invention, the control device controls the heater by the preheating step, the step of reaching the vaporization temperature, and the step of maintaining the vaporization temperature.

Further, according to the embodiment of the present invention, the control device operates only up to the preheating step if the installation of the fire is not detected.

According to another aspect of the present invention, there is provided a micro particle generating apparatus, comprising: a touch sensor for sensing contact of a user's lips;

According to an embodiment of the present invention, the controller determines whether the fine particle generator is operable without recharging based on the remaining amount of power regardless of whether the fine particle generator is in a use state or not.

According to an embodiment of the present invention, at least a part of the internal electronic circuits of the microparticle generator is formed of a single crystal material.

According to another aspect of the present invention, there is provided an apparatus for generating fine particles, comprising: an external power supply unit for supplying external power;

According to an embodiment of the present invention, the external power supply unit is supplied with external power from an external power supply apparatus in a wireless communication manner.

 According to the present invention, it is possible to provide a fine particle generating apparatus which does not involve combustion and generates no harmful substances.

Further, according to the present invention, it is determined whether or not the fire is inserted and the operation is determined, so that power waste due to unnecessary operation can be prevented.

1 is an exploded perspective view showing an embodiment of a fine particle generator and an external power supply device according to the present invention.
2 is a cross-sectional view illustrating one embodiment of a device for generating fine particles and an external power supply device according to the present invention.
3 is a cross-sectional view illustrating an embodiment of a fine particle generator according to the present invention.
4 is a block diagram of an embodiment of the apparatus for generating fine particles according to the present invention.
5 is a perspective view showing a state in which the apparatus for generating fine particles according to the present invention is usable in a state where the apparatus is housed in an external power supply apparatus.
6 is a perspective view illustrating a process of separating the fine particle generator according to the present invention from the external power supply apparatus.

The present invention relates to a fine particle generator for generating fine particles so that fine particles can be sucked by a user's inhalation action, comprising: a heater which generates heat by resistance when a current is applied; A power storage device capable of instantly supplying a high electric power to the heater; A fire sensor to detect whether a fire is installed; And a control device for controlling at least one of them, wherein the heater generates fine particles by heating a vapor containing a substance (vaporizing material) to be vaporized when heated above a certain temperature.

The present invention further includes an external power supply device connected to the fine particle generator to transmit power to the power storage device.

According to the embodiment of the present invention, the control device controls the heater by the preheating step, the step of reaching the vaporization temperature, and the step of maintaining the vaporization temperature.

Further, according to the embodiment of the present invention, the control device operates only up to the preheating step if the installation of the fire is not detected.

According to another aspect of the present invention, there is provided a micro particle generating apparatus, comprising: a touch sensor for sensing contact of a user's lips;

According to an embodiment of the present invention, the controller determines whether the fine particle generator is operable without recharging based on the remaining amount of power regardless of whether the fine particle generator is in a use state or not.

According to an embodiment of the present invention, at least a part of the internal electronic circuits of the microparticle generator is formed of a single crystal material.

According to another aspect of the present invention, there is provided an apparatus for generating fine particles, comprising: an external power supply unit for supplying external power;

According to an embodiment of the present invention, the external power supply unit is supplied with external power in a wireless connection manner.

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

FIG. 1 is an exploded perspective view showing an embodiment of a fine particle generator and an external power supply device according to the present invention, FIG. 2 is a sectional view of a device for generating fine particles and a device for supplying external power according to the present invention, Sectional view showing an embodiment of a fine particle generator according to the present invention. 1 to 3, an external power supply apparatus 1000 according to the present invention includes respective cases 200 that can be separated, and each of the cases 200 is connected to the external power supply apparatus 1000 The hook 200 has a plurality of hooks 205 and an engagement groove 206 so that the case 200 and the case 200 can be fastened to each other. The auxiliary power storage device 400 and the auxiliary power supply device 500 can be mounted in the receiving portion 401 of the external power supply device 1000 and the holes 301 formed on both sides of the charge receiving portion 300 The hinge 303 is inserted into the groove 202 formed in the case 200 by placing the hinge 303 so that the charge accommodating unit 300 is inserted into the case of the external power supply apparatus 1000 200). The auxiliary power storage device 300 is connected to the auxiliary power storage device 400 by wires and the auxiliary power supply device 500 is connected to the auxiliary power storage device 400. [ The device 500 is connected to the charging terminal 302 formed in the charging container 300 by a wiring 207. The auxiliary power supply apparatus 500 controls the auxiliary power storage device 400 to be charged through a conventional external power source built in a case such as the USB port 506 and is connected to the auxiliary power storage device 400 is displayed. For example, referring to FIG. 1, each of the LEDs 501 may include three LEDs, and may illuminate one LED or two or three LEDs according to the amount of electric power charged. , It indicates that the auxiliary power storage device 400 is fully charged. Each of the LEDs of the LED 501 can light the LED 501 to the outside of the case through a hole 505 provided in another case 200 coupled to the case 200 in which the LED 501 is mounted . The button 503 extends through the hole 504 to the outside of the case 200. The button 503 is supported by the fixing protrusion 502 in the case 200, do. The button 503 is connected to the auxiliary power supply apparatus 500 via a wire and the micro particle generator 100 is accommodated in the charge storage unit 300 in parallel with the case, The auxiliary power supply 500 applies heat to the suction opening of the microparticle generator 100 through the charging terminal 302 of the charging receptacle 300 so that the microparticle generator 100 can generate heat, When the button 503 is pressed while the fine particle generator 100 is inclined with respect to the case 200 in the charging container 300, The auxiliary power supply apparatus 500 supplies the power of the auxiliary power storage device 400 to the fine particle generator 100 through the charging terminal 302 of the charging container 300, ). The charging terminal 302 provided in the charging container 300 is connected to the charging terminal 302 of the fine particle generator 100 while the charging device 300 is accommodated in the charging device 300 The auxiliary power unit 500 is connected to a charging terminal 30 which is opposed to the auxiliary power unit 500. The auxiliary power unit 500 is controlled by the auxiliary power unit 500, Can be supplied to the particle generator (100). The auxiliary power device 500 may include a wireless communication port to supply electric power directly to the fine particle generator 100 via wire as well as wirelessly.

The case 200 is provided with a magnet 201. The magnet 200 is mounted on the case 200 by a magnetic force provided at a predetermined position opposite to the magnet 201 in the charge receiving portion 300. The magnet 204 is inclined at a lower portion of the case 200 and magnetically coupled to the magnet 60 of the fine particle generator 100 at the same height as the magnet 204, So that the generator 100 can be accommodated in the charge receiving portion 300.

3 is a cross-sectional view schematically showing a main part of an embodiment of the apparatus for generating fine particles according to the present invention. 3, the apparatus for generating fine particles of the present invention includes a push button 40 for pre-heating the fine particle generator, a heater 20 for generating heat by applying a current when the current is applied, And a control device 50 for controlling the heater 20. The power storage device 70 includes a power storage device 70, The heater 20 generates fine particles by heating a vapor containing a substance (vaporizing material) to be vaporized when heated to a predetermined temperature or more, which is contained in the cartridge 10. For example, when a cigarette-shaped electronic cigarette, which is impregnated with a suction material or filled with a paper buried on a surface, is inserted into the cartridge 10, the heater 20 is heated to vaporize the suction material inside the cigarette, So that it is possible to suck in the inhaled substance vaporized through. When the fine particle generator 100 is inoperable due to insufficient electric power in the heater 20 and charging is required or when the fine particle generator 100 is ready for operation, So that the micro particle generator 100 is vibrated by the microcomputer 80 so that the micro particle generator 100 can be recognized by the user. Further, the control device 50 displays the remaining power of the power storage device 70 through a separate display means formed in the fine particle generator 100. When the heater 20 generates insufficient power, Even when the operation of the apparatus 100 is impossible, the status can be displayed through the display means.

The power storage device 70 is connected to the terminal 302 of the charge storage unit 300 while the fine particle generator 100 is accommodated in the charge storage unit 300 of the external power supply apparatus 1000 The fine particle generator 100 may be connected to a power supply via a charging terminal 30 provided in an external power supply unit 92 of the fine particle generator 100. When the fine particle generator 100 receives power The control device 50 can display the electric power supplied to the power storage device 70 through the display means. The fine particle generator 100 is capable of performing data communication with the charging terminal 302 of the external power supply apparatus 1000 through the charging terminal 30. In addition, the external power supply unit 92 of the fine particle generator 100 may have a separate wireless communication port, so that the controller 50 may be connected to the external device through the wireless communication port provided in the micro particle generator 100, Data communication with the auxiliary power device 500 is possible through a wireless communication port provided in the power supply device 1000 so that power can be supplied from the external power supply device 1000 wirelessly. The power storage device 70 is detachable from the fine particle generator 100. The external power supply device 1000 includes a plurality of accommodating portions capable of accommodating the power storage device 70, It is also possible to charge one or a plurality of power storage devices 70 separated from the generator 100 and charge them. In addition, according to the embodiment of the present invention, the fine particle generator 100 may include power generating means for converting external energy such as light energy or mechanical energy into electric energy to generate power to charge the power storage device 70 It is possible.

4 is a block diagram of an embodiment of a microparticle generator according to the present invention. 4, the apparatus 100 for generating fine particles according to the present invention includes a heater 20 that generates heat by resistance when a current is applied thereto, and a power storage device 70 that is capable of instantaneously supplying a high power to the heater 20 A fire sensor 90 for detecting the presence or absence of a fire, and a control device 50 for controlling at least one of them. The heater 20 generates fine particles by heating a vapor containing a substance (vaporizing material) to be vaporized when heated above a certain temperature.

The control device 50 controls the heater 20 in the preheating step, the vaporization temperature reaching step, and the vaporization temperature holding step according to the use of the fine particle generator 100. For example, when a user inserts a cigarette-type electronic cigarette in the form of a cigarette-shaped electronic cigarette filled with a paper impregnated with a suction material or buried on the surface of the cartridge 10 or puts a liquid type fire in the cartridge 10, The controller 50 senses a fire through the fire sensor 90 and controls the heater 20 to preheat the fine particle generator 100 so that the temperature is instantaneously raised to a target vaporization temperature Then, the heater 20 is controlled to maintain the vaporization temperature for a predetermined time. If the user does not detect a fire from the fire sensor 90 while the button 40 of the micro particle generator 100 is being pressed, the controller 50 controls the heater 20 The power supplied to the heater 20 is controlled by controlling the power storage device 70 when a fire is not detected from the fire sensor 90 even after a predetermined time elapses Thereby preventing unnecessary power consumption.

 According to an embodiment of the present invention, the microparticle generator 100 may include a touch sensor 91 for sensing the contact of the user's lips. Accordingly, the fine particle generator 100 can sense not only the fire but also the contact of the lips, so that the controller 50 can control the heater 20 of the fine particle generator 100. For example, when the user presses the button 40 of the fine particle generator 100, the controller 50 controls the heater 20 to preheat the fine particle generator 100, When the contact of the user's lips is sensed by the touch sensor 91, the heater is raised to the target vaporization temperature, and then the heater is controlled to maintain the vaporization temperature for a predetermined time, , And the vaporization temperature is maintained. If the contact of the user's lips from the touch sensor 91 is not detected for a predetermined time or for a predetermined period of time to preheat the microparticle generator 100 by controlling the heater 20, The power storage device 70 is controlled to cut off power supplied to the heater 20 to prevent unnecessary power consumption.

Further, according to the embodiment of the present invention, the control device 50 can determine whether the micro particle generator 100 is in an operable state without recharging based on the remaining amount of power regardless of whether the micro particle generator 100 is in the use state or not. If the remaining amount of electric power can not be operated without recharging, as described above, the fine particle generator 100 may be powered by an external power supply unit (not shown) through an external power supply unit 92, 1000). ≪ / RTI > Therefore, it is possible to prevent the power storage device 70 from consuming power in the course of using the micro particle generator 100 by the user, thereby stopping the use of the power storage device 70 in advance.

Further, according to the embodiment of the present invention, at least a part of internal electronic circuits connected to the heater 20 from the electrical storage device 70 of the fine particle generator may be formed of a single crystal material. The power storage device 70 quickly supplies high power to rapidly increase the temperature of the heater 20. The single crystal material is easy to instantaneously raise the temperature of the heater 20 because the resistance value is small.

5 is a perspective view showing a state in which the apparatus for generating fine particles according to the present invention is usable in a state where the apparatus is housed in an external power supply apparatus. 5, the fine particle generator 100 may be accommodated in the charging receptacle 300 of the external power supply apparatus 1000 to be supplied with electric power. When the user intends to use the fine particle generator 100 When the fine particle generator 100 is pushed by the magnet 60 in a state where the fine particle generator 100 is accommodated in the charge receiving portion 300 of the external power supply apparatus 1000, When the fine particle generator 100 is received in the charging container 300 by the magnet 60 provided in the fine particle generator 100, The fine particle generator 100 is inclined to the outside of the case 200 by a predetermined angle so that the upper part of the fine particle generator 100 is led out to the outside, The user may be a cigarette form It is possible to insert the electronic cigarette into the cartridge 10 of the fine particle generator 100 and press the button 503 of the external power supply device 1000 to preheat the micro particle generator 100 . Accordingly, while the fine particle generator 100 is supplied with electric power from the external power supply apparatus 1000, it can be continuously used without interruption of suction.

6 is a perspective view illustrating a process of separating the fine particle generator according to the present invention from the external power supply apparatus. Referring to FIG. 6, when the user separates the fine particle generator from the external power supply, the fine particle generator 100 is tilted to the external power supply 1000, A predetermined force is applied to the fine particle generator 100 to overcome the magnetic forces of the fine particle generator 100 and the external power supplier 1000 and to draw the same.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

1000: external power supply device 100: fine particle generator
200: Case 300:
400: auxiliary storage device 500: auxiliary power supply device
201: magnet 202: groove
203: wiring 204: magnet
205: hook 206: latching groove
207: wiring 301: hole
302: Charging terminal 303: Hinge
401: accommodating portion 501: LED
502: Fixing projection 503: Button
504, 505: Hole 506: USB port
10: cartridge 20: heater
30: Charging terminal 40: Button
50: control device 60: magnet
70: Power storage device 80: Motor
90: fire sensor 91: touch sensor
92: External power supply

Claims (9)

A fine particle generating apparatus for generating fine particles so that fine particles can be sucked by a suction operation of a user, comprising: a heater which generates heat by resistance when a current is applied; A power storage device capable of instantly supplying a high electric power to the heater; A fire sensor to detect whether a fire is installed; And a control device for controlling at least one of at least one of the first and second electrodes. The method according to claim 1,
And an external power supply device connected to the fine particle generator to supply electric power to the power storage device. The method according to claim 1,
Wherein the controller controls the heater by the preheating step, the vaporization temperature reaching step, and the vaporization temperature holding step. The method according to claim 1,
Wherein the controller operates only up to the pre-heating stage if the installation of the fire is not detected. The method according to claim 1,
Wherein the microparticle generator comprises a touch sensor for sensing contact of the user's lips. The method according to claim 1,
Wherein the controller determines whether the microparticle generator is operable without recharging based on the remaining power regardless of whether the microparticle generator is in a use state or not. The method according to claim 1,
Wherein at least a part of the internal electronic circuits of the fine particle generator is formed of a single crystal material. The method according to claim 1,
Wherein the fine particle generator comprises an external power supply for receiving external power. 9. The method of claim 8,
Wherein the external power supply unit is supplied with external power in a wireless connection manner.

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