KR101364136B1 - Apparatus for Inhaling Nicotine Solution Vaporized by Gas Energy - Google Patents

Abstract

The present invention relates to a suction device for vaporized nicotine solution by a gas heat source, and specifically, a vaporized nicotine solution by a gas heat source to vaporize a nicotine solution with heat generated during combustion of a liquefied gas such as butane or propane to enable inhalation. Relates to a suction device. The suction device includes a liquefied gas storage container 15 in which a discharge pipe 152 is formed; An air inlet pipe 142 connected to the discharge pipe 152; An opening / closing valve 153 which is determined to be opened or closed by inflow of air through the air inlet pipe 142; A nozzle assembly 141 which injects the gas gas of the discharge pipe 152 and the air of the air inlet pipe 142; An ignition device 13 for igniting gaseous gas and air injected from the noble assembly 141; A storage container 113 in which nicotine solution is stored; A vaporization apparatus 14 for vaporizing the nicotine solution supplied from the storage container 11; And a smoke induction furnace 111 connected with the vaporization device 14 to induce the vaporized nicotine solution.

Description

Apparatus for Inhaling Nicotine Solution Vaporized by Gas Energy

The present invention relates to a suction device for vaporized nicotine solution by a gas heat source, and specifically, a vaporized nicotine solution by a gas heat source to vaporize a nicotine solution with heat generated during combustion of a liquefied gas such as butane or propane to enable inhalation. Relates to a suction device.

Nicotine (C ₁₀ H ₁₄ N ₂ ) refers to alkaloids that are biosynthesized at the root of tobacco and accumulate on leaves. Nicotine easily penetrates the skin, is easily soluble in methanol and ethanol, and when absorbed by the body, spreads rapidly through the bloodstream, reaching some of the brain. After reaching the brain, nicotine stimulates the release of many chemical transporters, such as acetylcholine, norepinephrine, epinephrine, vasopressin, arginine, dopamine or betaendodolphin, improving concentration and memory, improving alertness, reducing anxiety, reducing pain, or susceptibility. It causes the same effect as increase. One problem with nicotine that causes these emotional changes is addictiveness.

Cigarettes are smoking products in which tobacco is a major ingredient and are known to be highly addictive and cause various diseases, and are known to increase the risk of death from cancer. Tobacco contains many harmful substances such as acetone, ammonia, formaldehyde, tar, urethane or asbestos. However, nicotine in cigarettes is not classified as a hazardous substance. The nicotine contained in cigarettes is addictive, but it is not a harmful substance, and the effect of smoking is mainly caused by nicotine, so that nicotine is dissolved in a solvent that is not harmful to the human body, made into a solution, and then vaporized by inhalation. Was developed. An electric sensor operates by inhaling air to operate an electric heating element, thereby causing the nicotine solution to vaporize, and an inhalation device is called an electronic cigarette.

E-cigarettes were developed in 2003 and related arts include Patent Publication No. 2007-0022640, Aerosol Electric Cigarette and Patent Publication No. 2007-0005159, Aerosol Electronic Cigarette. The prior art all discloses electronic cigarettes consisting of a battery assembly, a nebulizer assembly, an electronic circuit board, an air sensor, a liquid supply bottle and a mouthpiece. The battery housed in the battery assembly powers the heaters installed in the electronic circuit board, air sensor and atomizer assembly. The nicotine solution stored in the liquid feed bottle is delivered to the nebulizer assembly in an amount and vaporized by the heater. The vaporized nicotine solution can be aspirated into the mouth by flowing along a discharge passageway formed from the nebulizer assembly to the mouthpiece.

E-cigarettes have the advantage that they can be used as an intermediary means for quitting smoking in some cases without incurring damages caused by indirect smoking while solving the problem of the harmfulness of cigarettes. However, due to the supply of power to the intermittent heater during the smoking process, the battery consumption is fast, and thus the battery has to be continuously charged or replaced. In addition, in order to connect the heater to the battery there is a problem that the wiring must be formed inside and the electronic circuit board must be installed separately as necessary.

The present invention has been made to solve the above problems with the electronic cigarette and has the following object.

An object of the present invention is to supply a nicotine solution stored in a container to a heat transfer material in a predetermined amount and to transfer the heat by the combustion of gas to the heat transfer material vaporization nicotine solution by the gas heat source to inhale the vaporized nicotine solution to inhale To provide.

According to a preferred embodiment of the present invention, the inhalation device of the vaporized nicotine solution of the liquefied gas storage container in which the discharge pipe is formed, the air inlet pipe connected to the discharge pipe, the on-off valve that is opened or closed by the air inlet through the air inlet pipe, the discharge pipe Nozzle assembly for injecting air from gas gas and air inlet pipe, Ignition device for igniting gaseous gas and air from nozzle assembly, Storage vessel for storing nicotine solution, Vaporizer for vaporizing nicotine solution supplied from storage vessel And a smoke induction furnace connected to the vaporization device to induce the vaporized nicotine solution.

According to another suitable embodiment of the present invention, the open / close valve may be a mechanical valve, an electronic valve or a manual switch type.

According to another suitable embodiment of the present invention, the ignition device is an electric heater, a piezoelectric element or a igniter.

According to another suitable embodiment of the present invention, the vaporization apparatus is composed of a heating material heated by combustion of a gas, a heat transfer material transferring heat of the heating material, and an absorbent material capable of holding a nicotine solution.

Inhalation device of nicotine solution according to the present invention has the advantage that it is possible to solve the frequent battery charging problem of the electronic cigarette while preventing the inhalation of harmful substances generated from tobacco. In addition, the inhalation device of the nicotine solution according to the present invention has the advantage that the manufacturing process is simple, mass production is possible, and environmental pollution due to battery use can be prevented.

1 schematically shows the structure of an inhalation device according to the invention.
Figure 2 shows an embodiment of the on-off valve, nozzle assembly and vaporization assembly that can be applied to the suction device according to the present invention.
Figure 3 schematically shows an embodiment of a supply structure and vaporization assembly of nicotine solution that can be applied to the inhalation device according to the present invention.
Figure 4 shows an embodiment of a vaporization structure that can be applied to the suction device according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

1 schematically shows the structure of an inhalation device according to the invention.

1, the suction device of the vaporized nicotine solution according to the present invention comprises a liquefied gas storage container 15, the discharge pipe 152 is formed; An air inlet pipe 142 connected to the discharge pipe 152; An opening / closing valve 153 which is determined to be opened or closed by inflow of air through the air inlet pipe 142; A nozzle assembly 141 which injects the gas gas of the discharge pipe 152 and the air of the air inlet pipe 142; An ignition device 13 for igniting gaseous gas and air injected from the nozzle assembly 141; A storage container 113 in which nicotine solution is stored; A vaporization assembly 12 for vaporizing the nicotine solution supplied from the storage container 113; And a smoke induction furnace 111 connected with the vaporization assembly 12 to induce the vaporized nicotine solution.

Nicotine solution which can be used in the inhalation device according to the present invention refers to a solution of nicotine dissolved in a solvent such as water, propylene glycol or vegetable glycerin. The inhalation device according to the invention can be used for the vaporization and smoking of any nicotine solution which is vaporized by heat and made into an inhalable form.

The inhalation device comprises an inhalation assembly 11 for inhalation of the vaporized nicotine solution, a vaporization assembly 12 in which the nicotine solution is vaporized, an ignition device 13 for initiating the combustion of the supplied gas, and for injecting air and gas. It may consist of the vaporization apparatus 14 and the liquefied gas storage container 15 in which gas is stored in a liquid state.

Each device is described below.

The liquefied gas storage container 15 refers to a container that can be stored in a liquid state at a predetermined pressure, such as butane, propane, or liquefied natural gas, and can store any gas that can become a gas while being discharged to the outside. The liquefied gas storage vessel 15 may be of any type known in the art and may have a separator plate installed therein as needed and have a discharge tube extending to the bottom surface. The gas stored in the liquefied gas storage container 15 may be discharged to the outside through the discharge pipe 152.

The air inlet pipe 142 may be connected to the discharge pipe 152 to introduce external air into the vaporization device 14, and the opening / closing valve 153 may be connected to the air inlet pipe 142 and the discharge pipe 152. ) Can be installed. The liquid gas stored in the storage space 151 flows into the gaseous state when air is introduced in the direction of arrow B through the air inlet pipe 142 and the opening / closing valve 153 is opened, and the discharge pipe 152 is along the direction of arrow A. It may be guided to the nozzle assembly 141 with the air discharged through the). Air and gas introduced into the nozzle assembly 141 pass through the nozzle tip 143 and pass through the ignition device 13 at high speed as indicated by arrow C.

The ignition device 13 may, for example, consist of a piezoelectric element 131 and a spark tip 132. When air and gas flowing at high speed vibrate the piezoelectric element 131, electricity is generated, and spark is generated at the spark tip 132, thereby igniting. The pressure on the piezoelectric element 131 may be generated by a switch method and manually generated or may be operated as an air sensor by installing an air sensor. Specifically, the air introduced into the air inlet pipe 142 may be guided to the piezoelectric element 131 instead of guided to the nozzle assembly 141 to operate the sensor. The piezoelectric element 131 may be operated by the operation of the sensor, and spark may occur at the spark tip 132.

The ignition device 13 is not limited to piezoelectric elements. For example, the ignition device 13 may be a device such as a heating wire or ignition stone operated by a separate battery. Any type of ignition device 13 known in the art can be used in the suction device according to the invention and the invention is not so limited.

The gas burned by the ignition device 13 heats the heating material 123. The heating material may be a metal material having a low specific heat and may be made into a network shape, for example. The heating material 123 is advantageously made of a material having a low specific heat. The open / close valve 153 discharges the gas for a short time, so that the gas is momentarily injected into the nozzle tip 143. Therefore, the heating material 123 must be able to absorb heat within a very short time when the gas is combusted. On the other hand, the absorbed heat should be easily transferred to the heat transfer material 122 so that it can be used to vaporize the nicotine solution. In order to satisfy such conditions, the heating material 123 is advantageously made of a material having a small specific heat. As shown in FIG. 1, a through hole may be formed in the heating material 123 to allow air to communicate.

When the heating material 123 is heated by the combustion of the gas, the temperature of the heating material 123 is increased, thereby increasing the temperature of the heat transfer material 122. The heat transfer material 122 may be made of any material, but may preferably be made of a material or a shape having high thermal conductivity. For example, it may be made of a material such as metal to have a large cross-sectional area.

The absorbent material 121 may be attached to the heat transfer material 122. Absorbent material 121 is any material capable of absorbing nicotine solution, but may be, for example, such as fibers, cotton or nonwovens, but is not limited thereto. The absorbent material 121 has a function of vaporizing a predetermined amount of nicotine solution by the heat transferred by the heat transfer material 122 while maintaining a predetermined amount of the nicotine solution. The supply of the nicotine solution to the absorbent material 121 is made by the storage container 113. The storage container 113 may supply a predetermined amount of nicotine solution to the absorbent material 121 through the supply nozzle 114 while storing the nicotine solution. The feed nozzle 114 may be of a structure in which the inlet portion is filled by, for example, a fiber assembly.

The vaporized nicotine solution may be led to the outlet 112 through the smoke induction path 111 and sucked into the mouth as indicated by arrow D. The smoke induction furnace 111 or the outlet 112 may be formed in various ways and may include various forms of additional means. For example, the outlet 112 may be provided with a filter for removing small liquid components contained in impurities or nicotine smoke.

The structure of the storage container 113 or the supply of nicotine solution from the storage container 113 to the vaporization assembly 12 can be made in a variety of ways and the embodiments shown are exemplary and the invention is not so limited.

Figure 2 shows an embodiment of the on-off valve, nozzle assembly and vaporization assembly that can be applied to the suction device according to the present invention.

Referring to (a) of FIG. 2, the on / off valve is installed at a point where the air inlet pipe 142 and the discharge pipe 152 are combined, and whether the on / off valve is opened or closed by inflow of air through the air inlet pipe 142. Can be determined. The opening / closing valve may include a blocking body 22, a through connection path 221 crossing the blocking body 22 vertically, and an elastic means 21. The discharge tip 222 is formed at the end of the discharge pipe and the air inlet pipe 142 may be formed to enable the flow of air to the nozzle assembly 141.

When inhaling for smoking, the outside air flows into the suction device in the direction indicated by arrow B, partly flows into the nozzle assembly 141 and partly pressurizes the blocking body 22. As the blocking body 22 is pushed by the pressure, the through connection path 221 and the discharge tip 222, which are initially offset from each other, coincide with each other. Thus, gas flows into the nozzle assembly 141 through the discharge pipe 152. Can be. When the suction is finished, the blocking body 22 is restored to the original position by the elastic means 21 and the gas discharge through the discharge pipe 152 is stopped.

Referring to FIG. 2B, a high velocity flow path 23 may be formed inside the nozzle tip 143. The high flow path 23 has a diameter sufficiently smaller than that of the nozzle assembly 141 so that the gas passing through the nozzle assembly 141 exits the nozzle tip 143 at a high speed while the nozzle assembly ( Do not allow gas to remain inside 141). On the other hand, a diffusion cup 24 may be formed above the spark tip 132 to diffuse the gas ejected from the nozzle tip 143. The diffusion cup 24 has a function of allowing the heating material 123 to be heated as a whole by dispersing the gas. In addition, the through-hole H is formed in the heating material 123 to allow the remaining air used in the combustion process to be discharged.

Referring to FIG. 2C, the diffusion cup 24 may have a wide cup shape at an upper portion thereof, and the heating material 123 may have a plate shape having a plurality of through holes H formed therein. Alternatively, the heating material 123 may be a metal mesh shape. The heat transfer material 122 may be hemispherical and the absorbent material 121 may have a shape covering a portion of the surface of the heat transfer material 122.

2 (a), (b) and (c) are exemplary embodiments and various types of open / close valve structures, nozzle tip structures, and vaporization structures may be applied to the suction device according to the present invention. For example, the shut off valve may be a solenoid valve or an electronically controlled valve and the nozzle tip 143 may be made of a plurality of orifices. The heat transfer material can also be made into a strip structure. As such, the invention is not limited by any means known in the art or readily employed by one of ordinary skill in the art.

Hereinafter, an embodiment of a supply structure and a vaporization assembly of nicotine solution applicable to the inhalation device according to the present invention will be described.

Figure 3 schematically shows an embodiment of a supply structure and vaporization assembly of nicotine solution that can be applied to the inhalation device according to the present invention.

Figure 3 (a) shows the exploded view of the supply structure and vaporization assembly of the nicotine solution and (b) shows the bonding degree, respectively.

Referring to (a) and (b) of FIG. 3, the supply and vaporization structure of the nicotine solution is a hollow cylindrical storage housing 31, a fixing block 34 coupled to the bottom of the storage housing 31, and fixed. It may consist of a vaporization block 32 coupled to the top of the block 34 and received inside the storage housing 31 and a cover block 33 coupled to the top of the storage housing 31.

The fixing block 34 has a function of fixing the heating material 123 while closing the lower portion of the storage housing 31. The fixing block 34 may have a hollow cylindrical shape and a diffusion cup 24 may be installed at a central portion thereof. The spark tip 132 may be positioned above the diffusion cup 24. As shown in FIGS. 3A and 3B, the heating material 123 may be, for example, a low specific heat metal coil shape and both ends may be fixed to the fixing block 34. In the center of the heating material 123, a supply means 35 of a nicotine solution such as a fiber aggregate may be installed. The supply means 35 of nicotine solution may extend around the fixing block 34 and outward of the vaporization space 321 which is coupled to the fixing block 34. The nicotine solution stored in the storage housing 31 can be absorbed from both ends of the supply means 35 and transferred to the heating material 123.

The vaporization space 321 is coupled to the upper portion of the fixing block 34 so that the heating material 123 and the supply means 35 are accommodated in the vaporization space 321. The nicotine solution vaporized from the heating material 123 may be discharged to the outside through the vaporization induction tube 322. The vaporization guide tube 322 extends to the outside of the storage housing 31.

The lid block 33 may be detachably coupled to the upper side of the storage housing 31. The cover block 33 may be formed of an insertion hole 332 formed in the center of the body 331 so that one end of the body 331 and the vaporization induction pipe 322 may be inserted. The lid block 33 allows the nicotine solution to be refilled inside the storage housing 31 while functioning as a mouthpiece.

The embodiment shown in FIG. 3 is exemplary and the supply, vaporization and vaporization of the nicotine solution in the inhalation device according to the present invention can be made in various ways, and the present invention is not limited to the embodiment shown.

An embodiment of the vaporization structure will be described below.

Figure 4 shows an embodiment of a vaporization structure that can be applied to the suction device according to the present invention.

Referring to FIG. 4A, the diffusion cup 24 is fixed below the vaporization space 321 and the spark tip 123 is positioned directly above the diffusion cup 24. The heating material 123 is positioned inside the vaporization space 321 and the nicotine solution is transferred to the heating material 123 by the supply means 35. The filter cap 41 may be installed above the heating material 123 to make the heating material 123 sealed to the outside.

The filter cap 41 may consist of a first filter layer 412 for the absorption of harmful components and a second filter layer 411 and the receiving body 413 for passing only gaseous components. The first filter layer 412 may be, for example, such as a carbon filter or an active filter, and the second filter layer 412 may be a nonwoven filter, but is not limited thereto. The first filter layer 412 is for removal of harmful components that may be generated due to incomplete combustion of the gas and the second filter layer 411 is for removal of liquid components.

The heating material 123 may be fixed to the filter cap 41 or fixed to the vaporization space 321 by the fixing holders 42a and 42b.

In the embodiment shown in FIG. 4, the filter cap 41 and the fixing holders 42a and 42b should be made of a heat-resistant material and when the heating material 123 is made in the form of a coil, the specific heat of the entire coil is dependent on the vaporization temperature of the nicotine solution. It needs to be determined accordingly.

Inhalation device of nicotine solution according to the present invention has the advantage that it is possible to solve the frequent battery charging problem of the electronic cigarette while preventing the inhalation of harmful substances generated from tobacco. In addition, the inhalation device of the nicotine solution according to the present invention has the advantage that the manufacturing process is simple, mass production is possible, and environmental pollution due to battery use can be prevented.

The invention above has been described in detail with reference to the examples presented. Those skilled in the art will be able to make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. The invention is not limited by these variations and modifications, but is only limited by the scope of the appended claims.

11: suction assembly 12: vaporization assembly
13: ignition device 14: vaporization device
15: liquefied gas storage container
111: smoke induction furnace 112: outlet
113: storage container 114: supply nozzle
121: absorbing material 122: heat transfer material
123: heating material
131: piezoelectric element 132: spark tip
141: nozzle assembly 142: air inlet pipe
143: Nozzle Tip 151: Storage Space
152: discharge pipe 153: on-off valve
21: elastic means 22: blocking body
221: through connection 222: discharge tip
23: high flow path 24: diffusion cup
H: Through hole
31: storage housing 32: vaporization block
33: cover block 34: fixing block
35: supply means
321: vaporization space 322: vaporization guide tube
331: body 332: insertion hole
35: supply means
41: filter cap 411: second filter layer
412: first filter layers 42a, 42b: fixed holder

Claims (4)

A liquefied gas storage container 15 in which a discharge pipe 152 is formed;
An air inlet pipe 142 connected to the discharge pipe 152;
An opening / closing valve 153 which is determined to be opened or closed by inflow of air through the air inlet pipe 142;
A nozzle assembly 141 which injects the gas gas of the discharge pipe 152 and the air of the air inlet pipe 142;
An ignition device 13 for igniting gaseous gas and air injected from the injection nozzle 142;
A storage container 113 in which nicotine solution is stored;
A vaporization apparatus 14 for vaporizing the nicotine solution supplied from the storage container 11; And
And a smoke induction furnace 111 connected to the vaporization device 14 to induce a vaporized nicotine solution, and the vaporization device 14 includes a heating material 123 and a heating material 123 heated by combustion of a gas. Inhalation apparatus of the vaporized nicotine solution by the gas heat source, characterized in that consisting of a heat transfer material (122) for transferring the heat and the absorbent material (121) capable of holding the nicotine solution. The suction device of nicotine solution according to claim 1, wherein the on-off valve (153) is a mechanical valve, an electronic valve or a manual switch method. The inhalation device of nicotine solution according to claim 1, wherein the ignition device is an electric heater, a piezoelectric element, or a igniter. delete

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