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WO2011065754A2 - Device for vaporisation and inhalation, a composition for vaporisation and inhalation used therewith, and a method for vaporising the composition for vaporisation and inhalation - Google Patents

Device for vaporisation and inhalation, a composition for vaporisation and inhalation used therewith, and a method for vaporising the composition for vaporisation and inhalation Download PDF

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Publication number
WO2011065754A2
WO2011065754A2 PCT/KR2010/008367 KR2010008367W WO2011065754A2 WO 2011065754 A2 WO2011065754 A2 WO 2011065754A2 KR 2010008367 W KR2010008367 W KR 2010008367W WO 2011065754 A2 WO2011065754 A2 WO 2011065754A2
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WO
WIPO (PCT)
Prior art keywords
vaporization
inhalation
composition
suction
derivative
Prior art date
Application number
PCT/KR2010/008367
Other languages
French (fr)
Korean (ko)
Other versions
WO2011065754A3 (en
Inventor
조여찬
Original Assignee
주식회사 에바코
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020090114223A external-priority patent/KR100955080B1/en
Priority claimed from KR1020100116571A external-priority patent/KR101039837B1/en
Application filed by 주식회사 에바코 filed Critical 주식회사 에바코
Publication of WO2011065754A2 publication Critical patent/WO2011065754A2/en
Publication of WO2011065754A3 publication Critical patent/WO2011065754A3/en

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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K47/00Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
    • A61K47/06Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
    • A61K47/08Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite containing oxygen, e.g. ethers, acetals, ketones, quinones, aldehydes, peroxides
    • A61K47/10Alcohols; Phenols; Salts thereof, e.g. glycerol; Polyethylene glycols [PEG]; Poloxamers; PEG/POE alkyl ethers
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K9/00Medicinal preparations characterised by special physical form
    • A61K9/0012Galenical forms characterised by the site of application
    • A61K9/007Pulmonary tract; Aromatherapy
    • A61K9/0073Sprays or powders for inhalation; Aerolised or nebulised preparations generated by other means than thermal energy
    • A61K9/0078Sprays or powders for inhalation; Aerolised or nebulised preparations generated by other means than thermal energy for inhalation via a nebulizer such as a jet nebulizer, ultrasonic nebulizer, e.g. in the form of aqueous drug solutions or dispersions
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M15/00Inhalators
    • A61M15/06Inhaling appliances shaped like cigars, cigarettes or pipes

Definitions

  • the present invention relates to a vaporization inhalation device, a vaporization inhalation composition applied thereto, and a method of vaporizing the vaporization inhalation composition, which vaporizes a substance beneficial to the human body so that it can be inhaled through a user's mouth and respiratory tract.
  • the liquid vaporization apparatus includes a case and a liquid receiving member interchangeably inserted into the case and having a vaporization target material contained therein in a liquid state, and a heat generating member for generating heat so that the liquid in the liquid receiving member is vaporized. do.
  • Such a liquid vaporization device has the potential to allow water to flow into the user's lungs when the liquid substance is converted into a liquid substance before inhalation in the body in the vaporized state.
  • an object of the present invention is to provide a vapor inhalation target material having a high vaporization rate and a high likelihood of inhalation, and a vaporization inhalation device required to use the same.
  • Another object of the present invention is to provide a vaporization suction device having a structure in which each vaporization suction material can be easily exchanged at the user's option.
  • Still another object of the present invention is to provide a vaporization inhalation apparatus capable of shortening the installation route of a derivative so as to sufficiently induce viscous inhalation targets having high viscosity, such as amino acids, vitamins and minerals.
  • Still another object of the present invention is to provide an apparatus for inhaling vaporization which can present a replacement structure capable of hygienic management of a cartridge containing a composition.
  • the weight ratio of the vaporization composition and the vapor inhalation composition is 1: 0.0005 to 1: 0.5
  • the present invention provides a composition for vapor inhalation that can be used phosphorus mixture.
  • Composition for inhalation vaporization is mint, rosemary, basil, peppermint, juniper, geranium, clary sage, ylang-ylang, lavender, rosewood, lavender, lemon, chamomile, spearmint, vitagrain, pine needle
  • At least one vaporized human inhalation target material selected from the group consisting of mir, maychang, cinnamon, orange beater, jasmine, rose, geranium, grapefruit, patchouli, phytoncide and ginseng extract and propylene glycol, glycerin or alcohol
  • One or more selected vaporization promoting substances are mixed in a weight ratio of 0.5 to 10: 1.
  • the vaporization suction apparatus is provided with a switching means and a power supply means,
  • a storage container which secures a filling space for accommodating the mixed composition and which contains an air suction pipe for sucking the vaporized mixed composition through the suction nozzle;
  • Derivative module including a derivative for inducing the mixed composition through the capillary phenomenon in communication with the interior of the filling space, is installed in close proximity to the derivative module, the heating means is controlled by the switching means and the power supply means It characterized in that it comprises a; atomization portion made of a heat generating module.
  • a vaporization inhaler in which a desired substance such as spearmint and the like may be easily stored to avoid drowsiness during operation.
  • the vaporization inhalation device has a structure that is unlikely to penetrate the lungs of the body of the liquid substance.
  • the device for vaporization inhalation and the composition for vaporization inhalation according to the present invention can increase the vaporization efficiency by shortening the installation route of the derivative so that the vaporization inhalation object with high viscosity can be sufficiently induced, and also the highly viscous mixed composition.
  • FIG. 1 is an exploded perspective view of a vaporization suction device according to one preferred embodiment of the present invention.
  • FIG. 2 is a cross-sectional view of main parts of the vaporization suction device shown in FIG.
  • FIG. 3 is an enlarged view illustrating an enlarged portion A of FIG. 2;
  • FIG. 4 is an enlarged view illustrating an enlarged portion B of FIG. 2;
  • FIG. 5 illustrates the fluid flow in the intake nozzle of FIG. 2.
  • FIG. 6 is an exploded perspective view of a vaporization suction device according to another preferred embodiment of the present invention.
  • FIG. 7 is a perspective view showing a suction nozzle side vaporization portion of the vaporization suction apparatus according to the present invention.
  • FIG. 8 is an exploded perspective view of FIG. 7;
  • FIG. 9 is a perspective view for explaining the atomizing vessel and the inside thereof of FIG.
  • FIG. 10 is a cross-sectional view showing the storage container of FIG.
  • FIG. 11 is a cross-sectional view showing the assembled state of the suction nozzle side vaporization unit according to the present invention.
  • front and rear are to be understood as near forward and far as backward from the user's point of view unless otherwise specified.
  • switching means includes switching means for the user to operate the power supply by arbitrary operating means such as buttons and switching means for operating in conjunction with the suction pressure of the user.
  • arbitrary operating means such as buttons and switching means for operating in conjunction with the suction pressure of the user.
  • the switching means operating in conjunction with the intake pressure of the user for the purpose of explanation, only illustrative, it will be appreciated that the power supply can also be manually driven when reading this specification.
  • Those skilled in the art will be able to reconfigure by completely excluding the component operating at the suction pressure described below when the switching means are manual.
  • FIG. 1 schematically shows a vaporization suction device according to one preferred embodiment of the present invention
  • FIG. 2 shows a combined state of the vaporization suction device shown in FIG. 1 in a sectional view
  • FIG. A portion of FIG. 2 is shown in an enlarged scale
  • FIG. 4 shows an enlarged portion B of FIG. 4 shows a part of the suction nozzle side of FIG. 2 and a flow of a fluid such as a vapor.
  • a vaporization suction device includes a suction nozzle side vaporization part 100, a first connection body 200, in which a reservoir in which a vaporization suction target material is stored is provided.
  • the second connector 300 and the power operation unit 400 are included.
  • the power operation unit 400 has a curved portion at its side so that the user can easily grip by hand.
  • the suction nozzle side vaporization unit 100 is provided with a suction nozzle 102 in communication with the interior, as shown, the first connector 200 has its interior in the threaded portion connected to the second connector 300. There is provided a hole 210 leading to.
  • the second connector 300 has a groove at a portion that is connected to the first connector 200, the groove serves as an air passage 310 at the time of engagement with the second connector (300). .
  • a groove in this embodiment, those skilled in the art will recognize that it may also be provided in the form of holes provided that the communication conditions with the hole 210.
  • An inner space between the air passage 310 and the hole 210 is formed to move the fluid.
  • the vaporization suction device includes a reservoir 106 in which the vaporization target material is stored.
  • the reservoir 106 has a closed structure except for the left part of the drawing.
  • the left open portion of the reservoir 106 is provided in close contact with the open portion of the reservoir 106, including a capillary bundle through which liquid substance can move.
  • the liquid guide member 108 may include multilayer expandable nickel nets, stainless fiber felts, polymeric foams, and metal porous bodies.
  • the liquid guide member 108 is supported by the support member 122 to the rear side as shown.
  • the vaporization target material stored in the reservoir 106 is limited to the case where the vaporization target material is kept in a liquid state.
  • the liquid inducing member 108 and its support may be used. Member 122 may be omitted.
  • the heating body 110 is provided behind the support member 122.
  • a heating wire may be preferably used.
  • the heating wire 110 may be made of, for example, a composite such as a nickel alloy or a rare earth element.
  • a heating body is used to vaporize the material to be vaporized, but in addition to the heating body, an ultrasonic generator may be used. When the ultrasonic generator is used, the heat isolation member 120 to be described later may be omitted.
  • the rear of the heating body 110 is provided with a heat insulating member 120 that can block the heat generated by the heating body (110).
  • the thermal isolation member 120 is made of ceramic, for example.
  • the heat isolation member 120 sucks the vaporized substance (liquid or solid substance) from the reservoir 106 into the vaporized substance by heating by the heating body 110 through the suction nozzle 102.
  • the injection port 118 is provided.
  • the space between the reservoir 106 and the heating body 110 is provided with a backflow hole 116 such that the gaseous substance is converted into the liquid state or the liquid substance which has not reached the gaseous state is re-supplied to the reservoir.
  • the liquid reservoir 112 is provided at the rear of the heater 110 as shown, and the liquid substance stored in the liquid reservoir 112 is again in a gaseous state by heating by the heater 110. Substance is converted.
  • This liquid reservoir 112 is made of, for example, multilayered nickel mesh.
  • a moisture suppressing member 114 is provided to prevent the liquid substance from entering the rear.
  • One end of the liquid guide member 108 is connected to the liquid reservoir 112, in the middle of which a liquid absorber such as a cotton chamber is provided.
  • the liquid substance flows into the liquid reservoir 112 by the capillary action of the liquid guide member 108, and the small liquid droplet is injected through the injection hole 118 of the hot air isolation member 120 by the action of the airflow.
  • the liquid is vaporized by the action of the heating line 110 to move to the absorption nozzle 102 through the fluid passage provided on the outer surface of the liquid reservoir 112.
  • the moisture suppressing member 114 serves to prevent backflow of the liquid in the liquid storage chamber 112.
  • a reservoir 106 is provided spaced inwardly into the casing 104, and a fluid containing a gaseous substance between the outer circumferential surface of the reservoir 106 and the inner circumferential surface of the casing 104.
  • a movable fluid passage 116 is provided.
  • a suction nozzle 102 is provided with a fluid passage 116 between the inner circumferential surface of the casing 104 and the outer circumferential surface of the reservoir 106.
  • the inner surface of the suction nozzle 102 is provided with a water containment pail 120 to block entry of moisture into the oral cavity as shown.
  • the power operation unit 400 is provided with a power supply 410 such as a rechargeable battery and a switching means.
  • the switching means are electrically interrupted in contact with the movable contact 404 and the movable contact 404 which act by moving laterally relative to the longitudinal actuation of the spring 412 and the spring indicated at 412 as shown.
  • a fixed contact 406 is provided.
  • the spring 412 and the moving contact 404 are interconnected by a plastic rod 402 including rubber as shown.
  • the fixed contact 406 is fixed to the support 407 of plastic as shown.
  • FIG. 4 an enlarged portion of the connection between the first and second connectors 200 and 300 is shown.
  • a switch valve 214 is provided at the first connecting body 200, and an air inlet hole 210 is formed at a side thereof.
  • air is introduced through the air entry hole 210 to open the switch valve 214, and the negative pressure chamber between the right side of the spring 412 and the connecting conductor 301 in the drawing by the action of airflow. 408 is formed.
  • the spring 412 moves to the right in the drawing, and at the same time, the movable contact 404 connected to the plastic rod 402 also moves in the lateral direction to make electrical contact with the fixed contact 406.
  • the connecting conductor 301 is provided with a female threaded wire 304 and a male threaded wire 212 as shown, and is connected to each other.
  • the connecting conductor 301 is connected to the cathode of the conductive wire connected to the heating body 110, and the two centers
  • the rod-shaped conductors 206 and 310 are connected with the anode of the conductor connected to the heating body 110.
  • the connecting conductor 301 and the central rod-shaped conductor 310 are electrically separated from each other with an insulating material 306 located therebetween.
  • FIG. 6 shows a variant of the electric actuating part. It is the same as the vaporization suction device of the present invention shown in FIG. 1, except that the external shape of the power supply operation portion is cylindrical.
  • the vaporization suction device is provided with a remaining amount display unit for displaying the remaining amount of power, which may be a liquid crystal display.
  • the remaining amount display unit allows the user to determine the remaining power level so that the replacement time of the power source can be easily determined.
  • the present invention includes the material to be vaporized stored in the reservoir 106.
  • the substance to be vaporized includes both a liquid substance and a solid substance.
  • the liquid guide member 108 and the support member 122 are omitted so that heating by the heating body 110 is performed directly with one end of the reservoir 106 open as described above.
  • the vaporization target material stored in the reservoir 106 is stored in a mixture with a substance promoting acceleration of vaporization and a desired material at a constant ratio.
  • At least one selected from the group consisting of propylene glycol, glycerin, or alcohols including ethanol is used as the vaporization promoting substance in the substance to be vaporized belonging to a part of the present invention.
  • propylene glycol and glycerin are used.
  • the desired substance in the vaporization target material belonging to a part of the present invention is various, and is listed in Table 1 by way of example.
  • the various desired vaporization inhalation target materials listed in Table 1 may be used alone or in combination with a vaporization promoting material, and the vaporization promoting material used may have a mixed weight ratio of the vaporization inhalation target material 1: 0.5. ⁇ 10 is preferred.
  • propylene glycol is used as the vaporization promoting substance, and mint, rosemary, or a combination of the two is used as the target substance.
  • the weight ratio of propylene glycol and mint or rosemary used is preferably 1: 0.5 to 10. Mint can be vaporized without the use of vaporization accelerators and can be used for oral cleanliness. Rosemary may also be used for concentration purposes.
  • propylene glycol is used as a vaporization promoting substance
  • lavender is used as a target substance of interest.
  • At least one of propylene glycol, glycerin, or alcohol was selected and used as a vaporization promoting substance, and the substances listed in Table 2 below were used as target substances for inhalation of vaporization.
  • the experiment was carried out in both the presence and absence state of the substance for vaporization inhalation, and was performed with different vaporization promoting substance and the target vaporization inhalation substance. As a result, with the exception of some substances, they were vaporized at a certain proportion of vaporization promoting substances. According to the results, the experiment was performed by setting the weight ratio of the vaporization promoting material and the target material for vaporization inhalation within the range of 1: 0.5 ⁇ 10.
  • a device according to the present invention shown in FIG. 1 was used, and the vaporization was determined by visual identification and distinctive fragrance emanation. Vaporization by visual identification is the basis for judging whether the target substance is vaporized, and fragrance divergence is the basis for judging whether the target substance is vaporized alone or together with the vaporization promoting substance.
  • Desired vaporization target material is vaporized while giving a specific scent of the target vaporization inhalation target material at about 1 to 5 based on the weight of propylene glycol, which is the smoke of the conventional panel according to the embodiment.
  • the results of sensory tests such as degree, aroma and taste were found.
  • FIG. 7 is a perspective view illustrating a suction nozzle side vaporization unit according to an exemplary embodiment of the present invention. This corresponds to the suction nozzle side vaporization portion already described in the best mode for carrying out the present invention described above, and the power supply operation portion including the following first and second connectors is the same structure as that of the present invention. Duplicate explanations will be omitted.
  • the suction nozzle side vaporizer 1200 having a cylindrical structure is provided with a suction contact portion 1213 for sucking the mixed composition through body contact, the end of the first connection for performing electrical switching in the air suction process
  • a fastening part 1207 is formed to be fastened to a sieve (not shown), and a predetermined filling space is secured between the fastening part 1207 and the suction contact part 1213 to fill the mixed composition in a liquid state.
  • an atomizing container 1203 to vaporize the mixed composition by direct or indirect heating through a predetermined heating member.
  • the atomization container 1203 may be molded in any shape, and as necessary, the atomizing container 1203 may have a heat generating member mounted on the storage container 1201. That is, in the embodiment of the present invention, the atomizing container 1203 is provided, but this is for explaining the atomizing container and the storage container as a structure separated from each other as an embodiment, the structure of the atomizing container and the storage container are mutually integrated. When molded into a furnace, the shape of the atomizing container itself becomes unnecessary.
  • suction contact portion 1213 presented in this embodiment may also be manufactured in a structure integrated with the end of the storage container 1201, the suction contact portion 1213 is described for convenience of description only, The meaning as a functional or structural element will be insignificant.
  • the storage container 1201 has a liquid injection valve 1205, and opens and closes the liquid injection valve 1205 to load a predetermined mixed composition. Accordingly, the user can selectively load the desired mixed composition using the liquid injection valve 1205, and the storage container 1201 integrated with the suction contact part 1213 is removed from the atomizing container 1203 as needed. It can be made detachable. This may replace the reservoir 1201 and the suction contact 1213 according to frequent use in the hygiene management of the user, or may use the respective reservoir 1201 according to the selection of the mixed composition.
  • liquid injection valve 1205 is illustrated as a visible structure in an embodiment of the present invention, this is not a concept of a valve which can be opened and closed, but describes a structure in which the composition can be introduced by mechanical means in the manufacturing process. To do this. Thus, the liquid injection valve 1205 may not be visualized, and moreover, its position may not be determined.
  • the atomizing container 1203 vaporizes the mixed composition derived from the storage container 1201 by using a heating member, and the heating member uses a filament-type heating element made of a composite such as nickel alloy or rare earth element.
  • the mixture composition may be vaporized using a high frequency or ultra high frequency generator, and a Peltier element may be applied as necessary.
  • the Peltier device has a structure in which one side is heated and the other side is endothermic according to electrical polarity, and thus, the outer surface of the atomizing container 1203 may be generated in accordance with frequent use.
  • the Peltier element since the Peltier element is delayed in starting time, it may be preferable to interlock with the heating element in the form of the filler.
  • the fastening part 1207 is provided with a screw of a hollow structure for fastening with the first connector, the center of the screw portion protrudes the power supply electrode 1209 for the smooth operation of the atomizing container 1203
  • a suction port 1211 is provided such that the amount of air sucked from the suction contact part 1213 communicates with the first connection body and the second connection body that is not described.
  • the fastening part 1207 may be made of a metal material, and thus, the electrode 1209 may be set to a '+' terminal, and the fastening part 1207 may be set to a ' ⁇ ' terminal.
  • the polarity of the terminals can vary.
  • the suction nozzle side vaporizer 1200 is fastened with the first connector using the fastener 1207
  • the first connector is fastened with the second connector
  • the second connector is powered. It is connected to the negative.
  • Power supplied from the power operation unit is connected to the electrode 1209 via a second connector and a first connector, and interlocks with the suction port 1211 or the first connector of the fastening part 1207.
  • the air pressure sucked through the suction port 1211 is controlled to supply power to the electrode 1209 during the suction process of the user as the switching operation of the first connector is induced.
  • the storage container 1201 and the atomizing container 1203 may be manufactured in a separate structure or may be provided in an integrated structure.
  • the storage container 1201 has an end portion coupled to the atomizing container 1203 having a stepped structure, and is assembled to the inner circumferential surface of the atomizing container 1203.
  • the storage container 1201 and the atomizing container 1203 may form projections of the mutually uneven structure, so that the direction and position can be fixed in the bonding process.
  • the storage container 1201 and the atomizing container 1203 are not fastened by screw coupling in their structure, the storage container 1201 and the atomizing container 1203 may be formed into a fastening structure by an interference fit coupling or an elastic protrusion.
  • the storage container 1201 is a hollow structure in which an air suction pipe 1313 is embedded at the center thereof, and the periphery of the air suction pipe 1313 has an integrated communication structure.
  • a fluid insertion hole 1311 communicating with the outside is provided in the communication structure.
  • the air suction pipe 1313 communicates with the suction contact part 1213, so that the air pressure is transferred to the first connection through the air suction pipe 1313 during the suction process of the user.
  • the atomization container 1203 is fastened and fixed to the heating module 1303 to the inner side, the derivative module 1301 is installed to the top of the heating module 1303.
  • the heat generating module 1303 is provided with a coupling screw portion 1321, which is fixed to the inner bottom of the atomizing container 1203 having a hollow structure with open both ends, and is fixed to one side of the coupling screw portion 1321. Protruding to one end of the atomizing container (1203) to form a positive electrode (1323) having an electrical contact of the heat generating member (1319), it has a suction port 1211 in communication with the air suction pipe (1313).
  • the heat generating module 1303 is also made of a metal material, the body forms an electrode 1325 and is in contact with the atomizing container 1203.
  • the derivative module 1301 is fixed or bonded to the other opening of the atomizing container 1203 and forms a fixed plate 1327 is provided with an air inlet hole 1317 communicating with the air suction pipe 1313, the fixed plate At one end of the 1327, a derivative 1315 is fixedly installed to correspond to the derivative insertion hole 1311, and the derivative 1315 is used to induce the mixed composition loaded in the storage container 1201 by capillary action. It is made of material.
  • the derivative 1315 may be composed of a multilayer expandable nickel network, stainless fiber felt, a polymer foam, and a porous metal body.
  • the fixing plate 1327 partitions the inner space and the outer space of the atomization container 1203, and the derivative 1315 is installed in close proximity to the heat generating member 1319 of the heat generating module 1303 installed in the inner space. A predetermined distance is drawn out to the outer space so as to be drawn into the derivative insertion hole 1311.
  • the heating member 1319 may be a heating element of a filament structure, the polarity of the electrode 1209 at this time will be meaningless. However, the heat generating member 1319 requires a set polarity when the high frequency generator or the Peltier element is used or interlocked.
  • the heat generating member 1319 is a filament-type heating element, and the filament has a structure of winding the derivative 1315 in close proximity. Accordingly, the heat generating member 1319 vaporizes the mixed composition introduced through the derivative 1315. For this reason, the derivative 1315 has a pipe structure with a circular cross section and is bent.
  • the derivative 1315 may increase the application area of the high frequency by forming a portion in contact with the high frequency generator in a flat structure.
  • the heat generating member 1319 includes the Peltier element, that is, when the high frequency generating element and the Peltier element are mixed, or when the filament and the Peltier element are mixed, the heat absorbing portion, that is, the cooling surface of the Peltier element is the coupling screw portion 1321. ) Is tightly fixed. Since the Peltier device has a low response speed as described above, the Peltier device may not directly heat the mixed composition, but may be preheated in conjunction with other materials (filament, high frequency generator). In addition, as the heat absorbing portion of the Peltier element is in close contact with the heat generating module 1303 made of metal, the heat generation state of the atomizing container 1203 is suppressed, thereby inducing the durability of the product.
  • the atomization container assembly is a state in which the additive heating module 1303 and the derivative module 1301 are sequentially assembled, and have a screw coupling structure having a negative electrode 1325 at the bottom of the atomization container 1203 made of metal, and a derivative at the top thereof.
  • the module 1301 is assembled to protrude the derivative 1315.
  • the heat generating module 1303 includes a coupling threaded portion 1321 made of a metal material, and forms a protrusion having a non-conductive material such as a plastic material at one end thereof, and a metal + electrode 1323 is formed on one side of the protrusion. Is formed.
  • the coupling screw 1321 of the heat generating module 1303 forms a metal electrode 1325.
  • the derivative 1315 is fixed by the fixing plate 1327 and partitioned into upper and lower portions, the upper end of the derivative 1315 is wound by the heat generating member 1319, and the lower end of the derivative 1315 is the storage container ( It extends to a predetermined length for insertion into the derivative insertion hole 1311 of 1201).
  • the heat generating module 1303 and the derivative module 1301 configured as described above are assembled to each other and then fastened to the inside of the atomization container 1203 through the coupling screw 1321 of the heat generating module 1303.
  • the coupling screw 1321 of the heat generating module 1303 has a screw structure
  • the derivative module 1301 is a heat generating module 1303.
  • the fixing plate 1327 of the derivative module 1301 is fitted to the coupling protrusion not shown.
  • FIG. 10 is a cross-sectional view showing a storage container 1201 according to the present invention
  • FIG. 11 is an assembled cross-sectional view of the suction nozzle side vaporizer 1200 according to the present invention.
  • a hollow structure and a cylindrical air suction tube 1313 is buried in the center, the air suction tube 1313 communicates with the suction nozzle 1501 of the suction contact portion 1213.
  • the storage container 1201 forms a loading part 1503 as the remaining space except for the air suction pipe 1313, and the loading part 1503 is mounted with the mixed composition through the liquid crystal inlet valve 1205.
  • the mixed composition comes into contact with one end of the derivative 1315 which is installed through the derivative insertion hole 1311, and the derivative 1315 adsorbs the mixed composition by a capillary phenomenon, and the heating element 1319. Heated by
  • the derivative 1315 is in direct contact with the mixed composition in the loading portion 1503, thereby shortening the movement path of the mixed composition. This is to prevent the fluid movement due to viscosity from deteriorating when the viscosity of the mixed composition is high.
  • the derivative insertion hole 1311 and the derivative 1315 may generate a mutual gap in the installation process, there is a fear that the mixed composition of the loading portion (1503) flows out due to this gap.
  • the fiber material to be accommodated in the loading portion 1503, it will be possible to prevent the leakage of the mixed composition.
  • the derivative insertion hole 1311 since the derivative insertion hole 1311 according to another embodiment of the present invention is not a structure for inserting the derivative, it may be referred to as a communication groove. That is, the communication groove and the derivative insertion hole 1311 have the same structure, but different names according to different purposes of use, and should be preceded by the technical concept of the communication groove used in the following description.
  • the derivative 1315 is designed to be in close contact with the communication groove, and the diameter of the derivative 1315 is designed to be larger than the communication groove, and then the silicon is used.
  • the end of the derivative 1315 is bonded to the outer circumference of the communication groove.
  • the derivative 1315 is installed under the communication groove so that the mixed composition flowing out through the communication groove is absorbed into the derivative 1315.
  • the present invention provides a suction nozzle side vaporization unit 1200 that can use a highly viscous mixed composition, so that the vaporization inhalation targets such as minerals, vitamins, amino acids, etc. having a very high content ratio of the vaporization accelerator composition can be used. do.
  • at least one selected from among alcohols including propylene glycol, glycerin, or ethanol is used for the vaporization composition, and the content ratio of the gasification accelerator composition is 95% or more, and the vaporization composition and the vapor inhalation target
  • the weight ratio has a weight ratio of 1: 0.0005 to 1: 0.5. Preferably it may have a weight ratio of 1: 0.05.
  • glycerin and the like constituting the vaporization promoting composition are solvents having a very high oily component, and eventually, the viscosity of the vaporization suction object becomes high. Due to this viscosity, it is preferable that the switching structure of the vaporization suction device can be used both automatically and manually. In other words, it is possible to temporarily induce preheating or overheating manually by evaporation of the mixed composition for the purpose. Therefore, the present invention is appropriately provided with a manual button separately.
  • Table 3 lists the vapor inhalation targets according to the present invention by way of example, and also suggests its efficacy.
  • Vapor inhalation targets of various purposes listed in Table 3 are used in combination with the gas-promoting material, the gas-promoting material used is propylene glycol or glycerine. At this time, the mixing weight ratio of the vaporization promoting material and the vapor inhalation target material is 1: 0.0005 to 1: 0.5, preferably 1: 0.0005 to 1: 0.05.
  • the vaporization suction object applied in the present invention is inorganic calcium, phosphorus, iron, sodium, magnesium, manganese, zinc, cobalt, copper, molybdenum, selenium, fluorine, iodine, ash, calcium, phosphorus, iron , Sodium, zinc can be used, and as vitamins, vitamin A, retinol (RE), beta carotene, thiamine, riboflavin, niacin, vitamin C, vitamin B6, pantothenic acid, vitamin B12, folic acid, vitamin D, vitamin E, vitamin K , Vitamins and thiamine are used.
  • vitamins, vitamin A, retinol (RE), beta carotene, thiamine, riboflavin, niacin, vitamin C, vitamin B6, pantothenic acid, vitamin B12, folic acid, vitamin D, vitamin E, vitamin K , Vitamins and thiamine are used.
  • isoleucine leucine, lysine, methionine, cysteine, phenylalanine, tyrosine, threonine, tryptophan, valine, histidine, arginine, aspartic acid, glutamic acid, glycine, proline and serine may be used.
  • the vapor inhalation target is a nutrient component of the vapor inhalation target, ie, water, protein, lipids, carbohydrates, insoluble fiber, water-soluble dietary fiber, in a weight ratio of 1: 0.0005 to 1: 0.5 based on the weight of propylene glycol, Total dietary fiber, sugars and the like were maintained.
  • Table 4 below is an experiment on the vaporization promoting material used in the vaporization suction device according to the present invention, it shows the functional level of the vaporization inhalation target material.
  • the vaporization inhalation target material is a functional substance, herbs, extracts, vitamins, amino acids, physiological agents, nutritional components of each efficacy including general nutrients, tea, fruit, vegetables, herbal, functional ingredients.
  • the functional ingredient may further include xylitol.
  • the compounding weight ratio of the vaporization accelerator to the functional substance is sufficiently smoked up to 1: 0.0005, indicating that the preference does not decrease.
  • the vaporization inhalation device and the composition for vaporization inhalation according to the present invention it is determined that the industrial use value is high enough to induce the market expansion of health supplements.

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Abstract

Disclosed are a device for vaporisation and inhalation, a composition for vaporisation and inhalation used therewith, and a method for vaporising the composition for vaporisation and inhalation. The disclosed composition for vaporisation and inhalation comprises a 0.5 to 10 : 1 weight ratio mixture of one or more substance to be vaporised and inhaled into the human body, selected from the group consisting of mint, rosemary, basil, peppermint, juniper, geranium, clary sage, ylang ylang, lavandin, rosewood, lavender, lemon, chamomile, spearmint, beauty grain, pine needle, myrrh, may chang, cinnamon, orange bitter, jasmine, rose, geranium, grapefruit, patchouli, phytoncide and ginseng extract, and a vaporisation-promoting substance of which at least one or more is selected from propylene glycol, glycerin or alcohol. The disclosed device for vaporisation and inhalation, the composition for vaporisation and inhalation used therewith and the method for vaporising the composition for vaporisation and inhalation are advantageous in that they allow the vaporisation and easy inhalation of any substance as desired in accordance with the user's reason for use.

Description

기화 흡입용 장치, 이에 적용되는 기화 흡입용 조성물 및 그 기화 흡입용 조성물의 기화시키는 방법Device for vaporization inhalation, composition for vaporization inhalation and method for vaporizing the composition for vaporization inhalation thereof
본 발명은 인체에 유리한 물질을 기화시켜 사용자의 구강과 호흡기를 통해 흡입할 수 있게 하는 기화 흡입용 장치, 이에 적용되는 기화 흡입용 조성물 및 그 기화 흡입용 조성물의 기화시키는 방법에 관한 것이다.The present invention relates to a vaporization inhalation device, a vaporization inhalation composition applied thereto, and a method of vaporizing the vaporization inhalation composition, which vaporizes a substance beneficial to the human body so that it can be inhaled through a user's mouth and respiratory tract.
출원인이 주식회사 손엔이고 고안의 명칭이 "액체 기화 흡입 장치"인 실용신안공개 20-2009-0003871호에는 기화시키고자 하는 액상 물질의 수용량을 증대시키는 구조를 갖는 액체 기화 장치가 개시되어 있다.Utility Model Publication No. 20-2009-0003871, in which Applicant is Sonen Co., Ltd. and whose name is "liquid vaporization suction device," discloses a liquid vaporization device having a structure for increasing the capacity of a liquid substance to be vaporized.
이 실용신안 문헌에 따른 액체 기화 장치는 케이스와 상기 케이스에 교환 가능하게 삽입되고 기화 대상 물질이 액체 상태로 내부에 수용된 액체 수용 부재 그리고 상기 액체 수용 부재 내의 상기 액체가 기화되도록 발열하는 발열부재를 포함한다.The liquid vaporization apparatus according to this utility model document includes a case and a liquid receiving member interchangeably inserted into the case and having a vaporization target material contained therein in a liquid state, and a heat generating member for generating heat so that the liquid in the liquid receiving member is vaporized. do.
이러한 액체 기화 장치는 액상 물질이 기화된 상태에서 체내 흡입 전에 다시 액상의 물질로 전환되는 경우에 사용자의 폐에 물이 유입되게 할 수 있는 가능성이 있다.Such a liquid vaporization device has the potential to allow water to flow into the user's lungs when the liquid substance is converted into a liquid substance before inhalation in the body in the vaporized state.
따라서, 본 발명의 목적은 기화율이 높아 흡입 가능성이 높은 기화 흡입용 대상 물질과 이를 사용하는데 필요한 기화 흡입 장치를 제공하는 데에 있다.Accordingly, an object of the present invention is to provide a vapor inhalation target material having a high vaporization rate and a high likelihood of inhalation, and a vaporization inhalation device required to use the same.
본 발명의 다른 목적은 각각의 기화 흡입 물질을 사용자의 선택에 따라 쉽게 교환할 수 있는 구조의 기화 흡입 장치를 제공하는 데에 있다.Another object of the present invention is to provide a vaporization suction device having a structure in which each vaporization suction material can be easily exchanged at the user's option.
본 발명의 또 다른 목적은 액체 상태의 물질의 체내의 폐에 스며들 가능성이 희박한 구조의 기화 흡입 장치를 제공하는 데에 있다.It is still another object of the present invention to provide a vaporization inhalation device having a structure that is unlikely to penetrate the lungs of a substance in a liquid state.
본 발명의 또 다른 목적은 아미노산, 비타민, 무기질 등의 점성이 높은 기화흡입 대상물이 충분히 유도될 수 있도록 유도체의 설치 경로를 단축시켜 기화 효율을 높일 수 있는 기화 흡입용 장치를 제공함에 있다.Still another object of the present invention is to provide a vaporization inhalation apparatus capable of shortening the installation route of a derivative so as to sufficiently induce viscous inhalation targets having high viscosity, such as amino acids, vitamins and minerals.
본 발명의 또 다른 목적은, 조성물을 수용하고 있는 카트리지에 대한 위생적 관리가 가능한 교체 구조를 제시할 수 있는 기화 흡입용 장치를 제공함에 있다.Still another object of the present invention is to provide an apparatus for inhaling vaporization which can present a replacement structure capable of hygienic management of a cartridge containing a composition.
본 발명의 또 다른 목적은, 점성이 높은 혼합 조성물에 대한 액체의 유도와 공급을 원활히 하기 위하여 유도체 및 발열부재를 단일화함으로써, 제조생산의 효율성과 제조단가를 격감시킬 수 있는 기화 흡입용 장치를 제공함에 있다.It is still another object of the present invention to provide an apparatus for inhaling vaporization that can reduce the production efficiency and manufacturing cost by unifying derivatives and heat generating members to smoothly induce and supply liquid to highly viscous mixed compositions. Is in.
한편, 본 발명에서 적용되는 기화 흡입용 장치를 사용함에 있어, 이에 적용되는 기화흡입 대상물로서 무기질, 비타민, 아미노산을 포함하여, 기화촉진 조성물 및 기화흡입 조성물의 중량비율이 1:0.0005 내지 1:0.5인 혼합물이 사용될 수 있는 기화흡입용 조성물을 제공함에 있다.On the other hand, in using the apparatus for inhalation vaporization applied in the present invention, including the inorganic, vitamins, and amino acids as the vapor inhalation targets applied thereto, the weight ratio of the vaporization composition and the vapor inhalation composition is 1: 0.0005 to 1: 0.5 The present invention provides a composition for vapor inhalation that can be used phosphorus mixture.
본 발명의 일 측면에 따른 기화 흡입용 조성물은 민트, 로즈마리, 바질, 페퍼민트, 쥬니퍼, 제라늄, 클라리세이지, 일랑일랑, 라벤딘, 로즈우드, 라벤다, 레몬, 캐모마일, 스피아민트, 브띠그레인, 파인니들, 미르, 메이창, 시나몬, 오렌지비터, 쟈스민, 장미, 제라늄, 자몽, 패출리, 피톤치드 및 인삼 추출물로 구성된 군으로부터 선택되는 1종 이상의 기화 인체 흡입용 대상물질과 프로필렌 글리콜, 글리세린 또는 알코올 중에서 최소한 1개 이상 선택된 기화 촉진 물질 0.5~10 : 1의 중량비로 혼합되어 있다.Composition for inhalation vaporization according to an aspect of the present invention is mint, rosemary, basil, peppermint, juniper, geranium, clary sage, ylang-ylang, lavender, rosewood, lavender, lemon, chamomile, spearmint, vitagrain, pine needle At least one vaporized human inhalation target material selected from the group consisting of mir, maychang, cinnamon, orange beater, jasmine, rose, geranium, grapefruit, patchouli, phytoncide and ginseng extract and propylene glycol, glycerin or alcohol One or more selected vaporization promoting substances are mixed in a weight ratio of 0.5 to 10: 1.
본 발명의 일 측면에 따른 기화 흡입용 장치는 스위칭 수단 및 전원공급 수단을 구비한 것으로서,The vaporization suction apparatus according to an aspect of the present invention is provided with a switching means and a power supply means,
혼합 조성물을 수용하기 위한 충진공간을 확보하고, 흡입 노즐을 통해 기화된 혼합 조성물을 흡입하기 위한 공기흡입관이 내설되는 저장용기; 상기 충진공간의 내부와 연통하여 모세관 현상을 통해 상기 혼합 조성물을 유도하기 위한 유도체가 포함된 유도체 모듈, 상기 유도체 모듈에 근접 설치되며, 상기 스위칭 수단 및 전원공급 수단에 의거 발열 제어되는 발열부재가 포함된 발열모듈로 이루어진 무화부;를 포함하는 것을 특징으로 한다.A storage container which secures a filling space for accommodating the mixed composition and which contains an air suction pipe for sucking the vaporized mixed composition through the suction nozzle; Derivative module including a derivative for inducing the mixed composition through the capillary phenomenon in communication with the interior of the filling space, is installed in close proximity to the derivative module, the heating means is controlled by the switching means and the power supply means It characterized in that it comprises a; atomization portion made of a heat generating module.
본 발명에 의하면, 사용자의 사용 목적에 따라 원하는 물질을 기화시켜 손쉽게 흡입되게 할 수 있다. 가령, 운전 중 졸음을 피하기 위해서는 스피아민트 등과 같은 목적하는 물질과 기화 촉진 물질이 함께 저장된 기화 흡입기를 사용하여 운전중에도 간편하게 졸음을 피할 수 있다.According to the present invention, it is possible to easily inhale by vaporizing the desired material according to the user's purpose of use. For example, in order to avoid drowsiness while driving, a vaporization inhaler in which a desired substance such as spearmint and the like may be easily stored to avoid drowsiness during operation.
또한, 본 발명에 따른 기화 흡입 장치는 액체 상태의 물질의 체내의 폐에 스며들 가능성이 희박한 구조를 갖는다.Further, the vaporization inhalation device according to the present invention has a structure that is unlikely to penetrate the lungs of the body of the liquid substance.
본 발명에 따른 기화 흡입용 장치 및 이에 적용되는 기화흡입용 조성물은, 점성이 높은 기화흡입 대상물이 충분히 유도될 수 있도록 유도체의 설치 경로를 단축시켜 기화 효율을 높일 수 있으며, 또한 점성이 높은 혼합 조성물에 대한 액체의 유도와 공급을 원활히 하기 위하여 유도체 및 발열부재를 단일화함으로써, 제조생산의 효율성과 제조단가를 격감시킬 수 있는 효과가 있다.The device for vaporization inhalation and the composition for vaporization inhalation according to the present invention can increase the vaporization efficiency by shortening the installation route of the derivative so that the vaporization inhalation object with high viscosity can be sufficiently induced, and also the highly viscous mixed composition. By unifying the derivative and the heating element in order to facilitate the induction and supply of liquid to the, there is an effect that can reduce the efficiency and manufacturing cost of production.
도 1은 본 발명의 하나의 바람직한 실시예에 따른 기화 흡입 장치의 분해 사시도.1 is an exploded perspective view of a vaporization suction device according to one preferred embodiment of the present invention.
도 2는 도 1에 분해되어 도시된 기화 흡입 장치의 요부 단면도.FIG. 2 is a cross-sectional view of main parts of the vaporization suction device shown in FIG.
도 3은 도 2의 A 부분을 확대하여 도시한 확대도.3 is an enlarged view illustrating an enlarged portion A of FIG. 2;
도 4는 도 2의 B 부분을 확대하여 도시한 확대도.4 is an enlarged view illustrating an enlarged portion B of FIG. 2;
도 5는 도 2의 흡입 노즐에서 유체 흐름을 도해하는 도면.FIG. 5 illustrates the fluid flow in the intake nozzle of FIG. 2. FIG.
도 6은 본 발명의 다른 바람직한 실시예에 따른 기화 흡입 장치의 분해 사시도.6 is an exploded perspective view of a vaporization suction device according to another preferred embodiment of the present invention.
도 7는 본 발명에 따른 기화 흡입용 장치의 흡입 노즐측 기화부를 나타낸 사시도.7 is a perspective view showing a suction nozzle side vaporization portion of the vaporization suction apparatus according to the present invention.
도 8은 도 7의 분해 사시도.8 is an exploded perspective view of FIG. 7;
도 9는 도 7의 무화용기 및 이의 내부를 설명하기 위한 사시도.9 is a perspective view for explaining the atomizing vessel and the inside thereof of FIG.
도 10는 도 7의 저장용기를 나타낸 단면도.10 is a cross-sectional view showing the storage container of FIG.
도 11은 본 발명에 따른 흡입 노즐측 기화부의 조립상태를 나타낸 단면도.11 is a cross-sectional view showing the assembled state of the suction nozzle side vaporization unit according to the present invention.
본원에서 사용되는 용어 "전방" 및 "후방"은 달리 명시하지 않는 한 사용자의 입장에서 근거리는 전방으로, 원거리는 후방으로 이해되어야 한다.As used herein, the terms "front" and "rear" are to be understood as near forward and far as backward from the user's point of view unless otherwise specified.
본원에서 사용되는 용어 "스위칭 수단"은 사용자가 버튼과 같은 임의적 조작 수단에 의해 전원 장치를 작동시키는 스위칭 수단과 사용자의 흡입 압력에 연동하여 작동하는 스위칭 수단을 포함한다. 이하에서는, 설명의 목적상 사용자의 흡입 압력에 연동하여 작동하는 스위칭 수단만을 예시하여 설명하였을 뿐이며, 본 명세서를 읽을 때는 수동으로도 전원 장치를 구동할 수 있다는 것을 인지해야 할 것이다. 본 명세서를 완벽하게 숙지한 당업자라면 스위칭 수단이 수동인 경우에 이하에서 설명되는 흡입 압력에 동작하는 구성요소를 배제함으로써 재구성할 수 있을 것이다.The term "switching means" as used herein includes switching means for the user to operate the power supply by arbitrary operating means such as buttons and switching means for operating in conjunction with the suction pressure of the user. In the following description, only the switching means operating in conjunction with the intake pressure of the user for the purpose of explanation, only illustrative, it will be appreciated that the power supply can also be manually driven when reading this specification. Those skilled in the art will be able to reconfigure by completely excluding the component operating at the suction pressure described below when the switching means are manual.
이하, 본 발명은 첨부된 예시 도면을 참조하여 상세하게 설명된다.Hereinafter, the present invention will be described in detail with reference to the accompanying exemplary drawings.
도 1에는 본 발명의 하나의 바람직한 실시예에 따른 기화 흡입 장치가 개략적으로 도시되어 있고, 도 2에는 도 1에 도시된 기화 흡입 장치의 결합된 상태가 단면도로 도시되어 있으며, 도 3에는 도 2의 A 부분이 확대되어 도시되어 있으며, 도 4에는 도 2의 B 부분이 확대되어 도시되어 있다. 또한, 도 4에는 도 2의 흡입 노즐측의 일부와 기화물 등의 유체의 흐름이 도시되어 있다.1 schematically shows a vaporization suction device according to one preferred embodiment of the present invention, FIG. 2 shows a combined state of the vaporization suction device shown in FIG. 1 in a sectional view, and FIG. A portion of FIG. 2 is shown in an enlarged scale, and FIG. 4 shows an enlarged portion B of FIG. 4 shows a part of the suction nozzle side of FIG. 2 and a flow of a fluid such as a vapor.
도 1을 참조하면, 본 발명의 바람직한 실시예에 따른 기화 흡입 장치는 기화 흡입 대상 물질이 저장되어 있는 저장소가 내부에 제공되어 있는 흡입 노즐측 기화부(100), 제 1 연결체(200), 제 2 연결체(300) 및 전원 작동부(400)를 포함한다.Referring to FIG. 1, a vaporization suction device according to a preferred embodiment of the present invention includes a suction nozzle side vaporization part 100, a first connection body 200, in which a reservoir in which a vaporization suction target material is stored is provided. The second connector 300 and the power operation unit 400 are included.
전원 작동부(400)는 사용자가 손으로 쉽게 파지할 수 있도록 이의 측면에 만곡된 부위를 갖는다.The power operation unit 400 has a curved portion at its side so that the user can easily grip by hand.
흡입 노즐측 기화부(100)에는 도시된 바와 같이 내부와 연통하는 흡입 노즐(102)이 제공되어 있고, 제 1 연결체(200)에는 제 2 연결체(300)와 연결되는 나사산 부위에 이의 내부로 통하는 구멍(210)이 제공되어 있다. 한편, 제 2 연결체(300)는 제 1 연결체(200)와 연결되는 부위에 홈을 가지며, 이 홈은 상기 제 2 연결체(300)와의 결합시에 공기 통로(310)로서의 역할을 한다. 본 실시예에서는 홈의 형태로 제공되지만, 당업자라면 상기 구멍(210)과의 연통 조건이면 구멍의 형태로도 제공될 수 있음을 인지할 것이다. 상기 공기 통로(310)와 상기 구멍(210) 사이의 내측 공간은 유체가 이동 가능하게 형성된다.The suction nozzle side vaporization unit 100 is provided with a suction nozzle 102 in communication with the interior, as shown, the first connector 200 has its interior in the threaded portion connected to the second connector 300. There is provided a hole 210 leading to. On the other hand, the second connector 300 has a groove at a portion that is connected to the first connector 200, the groove serves as an air passage 310 at the time of engagement with the second connector (300). . Although provided in the form of a groove in this embodiment, those skilled in the art will recognize that it may also be provided in the form of holes provided that the communication conditions with the hole 210. An inner space between the air passage 310 and the hole 210 is formed to move the fluid.
도 2 및 도 3을 참조하면, 본 발명의 바람직한 실시예에 따른 기화 흡입 장치는 기화 대상 물질이 저장되어 있는 저장소(106)를 포함한다. 상기 저장소(106)는 도시된 바와 같이 도면상 좌측 부위를 제외한 나머지 부분은 폐쇄된 구조를 갖는다. 도면상 저장소(106)의 좌측 개방 부위에는 액체 상태의 물질이 이동할 수 있는 모세관 다발을 포함한 액체 유도 부재(108)가 상기 저장소(106)의 개방 부위와 밀착된 상태로 제공된다. 액체 유도 부재(108)의 비제한적인 예로는 다층의 발포성 니켈망, 스테인레스 섬유 펠트, 고분자 발포체 및 금속 다공체가 언급될 수 있다.2 and 3, the vaporization suction device according to the preferred embodiment of the present invention includes a reservoir 106 in which the vaporization target material is stored. As shown, the reservoir 106 has a closed structure except for the left part of the drawing. In the drawing, the left open portion of the reservoir 106 is provided in close contact with the open portion of the reservoir 106, including a capillary bundle through which liquid substance can move. Non-limiting examples of the liquid guide member 108 may include multilayer expandable nickel nets, stainless fiber felts, polymeric foams, and metal porous bodies.
상기 액체 유도 부재(108)는 도시된 바와 같이 후면으로 지지 부재(122)에 의해 지지된다.The liquid guide member 108 is supported by the support member 122 to the rear side as shown.
본 실시예에서는 저장소(106)에 저장되는 기화 대상 물질이 액체 상태로 유지되어 있을 경우로 한정되었지만, 기화 대상 물질이 액체가 아닌 고체 상태의 물질인 경우에는 상기 액체 유도 부재(108)와 이의 지지 부재(122)는 생략될 수 있다.In the present exemplary embodiment, the vaporization target material stored in the reservoir 106 is limited to the case where the vaporization target material is kept in a liquid state. However, when the vaporization target material is a solid state material rather than a liquid, the liquid inducing member 108 and its support may be used. Member 122 may be omitted.
상기 지지 부재(122)의 후방으로는 가열체(110)가 제공된다. 가열체(110)로는 바람직하게는 가열선이 사용될 수 있다. 가열선(110)은 예를 들어 니켈 합금 또는 희토류 원소 등의 합성체로 제조될 수 있다. 본 실시예에서는 기화 대상 물질을 기화시키기 위해 가열체가 사용되지만, 가열체 이외에도 초음파 발생기가 사용될 수 있다. 초음파 발생기가 사용될 경우에는 후술되는 열 격리 부재(120)는 생략 가능하다.The heating body 110 is provided behind the support member 122. As the heating body 110, a heating wire may be preferably used. The heating wire 110 may be made of, for example, a composite such as a nickel alloy or a rare earth element. In this embodiment, a heating body is used to vaporize the material to be vaporized, but in addition to the heating body, an ultrasonic generator may be used. When the ultrasonic generator is used, the heat isolation member 120 to be described later may be omitted.
가열체(110)의 후방으로는 가열체(110)에서 발생하는 열을 차단할 수 있는 열 격리 부재(120)가 제공된다. 열 격리 부재(120)는 예를 들어 세라믹으로 제조된다. 열 격리 부재(120)에는 저장소(106)로부터의 기화 대상 물질(액체 또는 고체 상태의 물질)이 가열체(110)에 의한 가열에 의해 기체화된 상태의 물질이 흡입 노즐(102)을 통해 흡입되게 하는 분사구(118)가 마련되어 있다. 저장소(106)와 가열체(110) 사이의 공간에는 기체 상태의 물질이 액체 상태로 변환되거나 기체 상태에 이르지 못한 액체 상태의 물질이 저장소로 재공급되게 역류 구멍(116)이 제공된다.The rear of the heating body 110 is provided with a heat insulating member 120 that can block the heat generated by the heating body (110). The thermal isolation member 120 is made of ceramic, for example. The heat isolation member 120 sucks the vaporized substance (liquid or solid substance) from the reservoir 106 into the vaporized substance by heating by the heating body 110 through the suction nozzle 102. The injection port 118 is provided. The space between the reservoir 106 and the heating body 110 is provided with a backflow hole 116 such that the gaseous substance is converted into the liquid state or the liquid substance which has not reached the gaseous state is re-supplied to the reservoir.
한편, 가열체(110)의 후방에는 도시된 바와 같이 액체 저장실(112)이 제공되어 있으며, 이러한 액체 저장실(112)에 저장된 액체 상태의 물질은 가열체(110)에 의한 가열에 의해 다시 기체 상태의 물질이 전환된다. 이러한 액체 저장실(112)은 예를 들어 다층의 발포된 니켈망으로 제조된다.On the other hand, the liquid reservoir 112 is provided at the rear of the heater 110 as shown, and the liquid substance stored in the liquid reservoir 112 is again in a gaseous state by heating by the heater 110. Substance is converted. This liquid reservoir 112 is made of, for example, multilayered nickel mesh.
액체 저장실(112)의 후방으로는 액체 상태의 물질이 후방으로 진입하지 못하도록 습기 억제 부재(114)가 제공된다. 액체 유도 부재(108)의 일단은 액체 저장실(112)과 연결되며, 이의 중간에는 무명실과 같은 액체 흡수체가 마련되어 있다. 액체 유도 부재(108)의 모세관 작용에 의해 액상의 물질이 액체 저장실(112)로 유입되며, 기류의 작용에 의해 작은 액체 방울은 열기 격리 부재(120)의 분사구(118)를 통해 분사된다. 가열선(110)의 작용에 의해 액체는 기화되어 액체 저장실(112)의 외측면에 마련된 유체 통로를 통해 흡수 노즐(102)로 이동하게 된다.At the rear of the liquid reservoir 112, a moisture suppressing member 114 is provided to prevent the liquid substance from entering the rear. One end of the liquid guide member 108 is connected to the liquid reservoir 112, in the middle of which a liquid absorber such as a cotton chamber is provided. The liquid substance flows into the liquid reservoir 112 by the capillary action of the liquid guide member 108, and the small liquid droplet is injected through the injection hole 118 of the hot air isolation member 120 by the action of the airflow. The liquid is vaporized by the action of the heating line 110 to move to the absorption nozzle 102 through the fluid passage provided on the outer surface of the liquid reservoir 112.
습기 억제 부재(114)는 액체 저장실(112) 내의 액체가 역류하는 것을 방지하는 역할을 하게 된다.The moisture suppressing member 114 serves to prevent backflow of the liquid in the liquid storage chamber 112.
도 3과 함께 도 5를 참조하면, 저장소(106)는 케이싱(104)에 내측으로 이격되어 제공되며, 이러한 저장소(106)의 외주면과 케이싱(104)의 내주면 사이에는 기체 상태의 물질을 포함한 유체가 이동 가능한 유체 통로(116)가 제공된다. 흡입 노즐(102)은 상기 케이싱(104)의 내주면과 상기 저장소(106)의 외주면 사이의 유체 통로(116)와 함께 제공된다. 흡입 노즐(102)의 내측면에는 도시된 바와 같이 수분의 구강 내 진입을 차단하기 위한 수분 억제통(120)이 제공된다.Referring to FIG. 3 in conjunction with FIG. 3, a reservoir 106 is provided spaced inwardly into the casing 104, and a fluid containing a gaseous substance between the outer circumferential surface of the reservoir 106 and the inner circumferential surface of the casing 104. A movable fluid passage 116 is provided. A suction nozzle 102 is provided with a fluid passage 116 between the inner circumferential surface of the casing 104 and the outer circumferential surface of the reservoir 106. The inner surface of the suction nozzle 102 is provided with a water containment pail 120 to block entry of moisture into the oral cavity as shown.
도 1과 함께 도 2를 참조하면, 전원 작동부(400)는 충전지와 같은 전원 장치(410)와 스위칭 수단이 구비된다.Referring to FIG. 2 together with FIG. 1, the power operation unit 400 is provided with a power supply 410 such as a rechargeable battery and a switching means.
스위칭 수단은 도시된 바와 같이 도면부호 412로 도시된 스프링과 스프링(412)의 길이방향 작동에 대하여 횡방향으로 이동함으로써 작동하는 이동 접촉부(404)와 이동 접촉부(404)와 접촉하여 전기적으로 단속되는 고정 접촉부(406)가 제공된다. 스프링(412)과 이동 접촉부(404)는 도시된 바와 같이 고무를 포함한 플라스틱 막대(402)에 의해 상호 연결되어 있다. 고정 접촉부(406)는 도시된 바와 같이 플라스틱의 지지대(407)에 고정되어 있다.The switching means are electrically interrupted in contact with the movable contact 404 and the movable contact 404 which act by moving laterally relative to the longitudinal actuation of the spring 412 and the spring indicated at 412 as shown. A fixed contact 406 is provided. The spring 412 and the moving contact 404 are interconnected by a plastic rod 402 including rubber as shown. The fixed contact 406 is fixed to the support 407 of plastic as shown.
도 4에는 제 1 연결체(200)와 제 2 연결체(300)의 연결 부위가 확대되어 도시되어 있다.In FIG. 4, an enlarged portion of the connection between the first and second connectors 200 and 300 is shown.
도 2와 함께 도 4를 참조하면, 제 1 연결체(200)에는 스위치 밸브(214)가 제공되어 있고, 이의 측면에는 공기 진입 구멍(210)이 형성되어 있다. 사용자가 흡입할 때, 공기가 공기 진입 구멍(210)을 통해 유입되어 스위치 밸브(214)가 개방되고, 기류의 작용에 의해 도면상 스프링(412)의 우측면과 연결도체(301) 사이에 부압강실(408)을 형성되어 있다. 부압의 작용에 의해 스프링(412)은 도면상 우측으로 움직이게 되고 동시에 플라스틱 막대(402)에 연결되어 있는 이동 접촉부(404)도 횡방향으로 움직이면서 고정 접촉부(406)와 전기적으로 접촉하게 된다. 사용자의 흡입력이 감소하게 되면, 스위치 밸브(214)가 닫히면서 공기 진입 구멍(210)으로부터의 기류가 차단된다. 부압강실(408)이 일정한 시간 동안 유지되다가, 사용자가 흡입을 멈추게 되면 기류가 연결도체(301)의 중간 통로(302)를 통해 부압강실(408)로 신속히 진입한다. 이에 따라 부압이 즉시 사라지고 스프링(412)은 원위치로 복원된다. 스프링(412)이 원래 위치로 움직이면 플라스틱 막대(402)가 도면상 좌측으로 움직여 이동 접촉부(404)가 고정 접촉부(406)로부터 전기적으로 접촉 해제된다.Referring to FIG. 4 along with FIG. 2, a switch valve 214 is provided at the first connecting body 200, and an air inlet hole 210 is formed at a side thereof. When the user inhales, air is introduced through the air entry hole 210 to open the switch valve 214, and the negative pressure chamber between the right side of the spring 412 and the connecting conductor 301 in the drawing by the action of airflow. 408 is formed. Under the action of the negative pressure, the spring 412 moves to the right in the drawing, and at the same time, the movable contact 404 connected to the plastic rod 402 also moves in the lateral direction to make electrical contact with the fixed contact 406. When the suction force of the user is reduced, the air flow from the air inlet hole 210 is blocked while the switch valve 214 is closed. The negative pressure chamber 408 is maintained for a certain time, and when the user stops suction, the air flow quickly enters the negative pressure chamber 408 through the intermediate passage 302 of the connecting conductor 301. As a result, the negative pressure disappears immediately and the spring 412 is restored to its original position. When the spring 412 is moved to its original position, the plastic rod 402 moves to the left in the drawing to electrically disengage the movable contact 404 from the stationary contact 406.
연결도체(301)에는 도시된 바와 같이 암나사선(304)과 수나사선(212)이 구비되어 상호 연결되며 연결도체(301)는 가열체(110)에 연결된 도선의 음극과 접속하고, 두 개의 중앙 막대형 도체(206, 310)는 가열체(110)에 연결된 도선의 양극과 접속된다. 연결도체(301)와 중앙 막대형 도체(310)는 그 사이에 절연재(306)가 위치하여 전기적으로 분리된다.The connecting conductor 301 is provided with a female threaded wire 304 and a male threaded wire 212 as shown, and is connected to each other. The connecting conductor 301 is connected to the cathode of the conductive wire connected to the heating body 110, and the two centers The rod-shaped conductors 206 and 310 are connected with the anode of the conductor connected to the heating body 110. The connecting conductor 301 and the central rod-shaped conductor 310 are electrically separated from each other with an insulating material 306 located therebetween.
도 6에는 전기 작동부의 변형예가 도시되어 있다. 전원 작동부의 외형이 원통형이라는 점을 제외하고는 상기한 도 1에 도시된 본 발명의 기화 흡입 장치와 동일하다.6 shows a variant of the electric actuating part. It is the same as the vaporization suction device of the present invention shown in FIG. 1, except that the external shape of the power supply operation portion is cylindrical.
도시되어 있지는 않지만, 본 발명에 따른 기화 흡입 장치에는 전원의 잔량을 표시하는 잔량 표시부가 제공되며, 이러한 표시부는 액정 디스플레이일 수 있다. 이러한 잔량 표시부를 통해 사용자는 전원의 잔량을 파악할 수 있어 전원의 교체 시기를 쉽게 파악할 수 있게 된다.Although not shown, the vaporization suction device according to the present invention is provided with a remaining amount display unit for displaying the remaining amount of power, which may be a liquid crystal display. The remaining amount display unit allows the user to determine the remaining power level so that the replacement time of the power source can be easily determined.
또한, 본 발명에서는 저장소(106)에 저장되는 기화 대상 물질을 포함한다. 기화 대상 물질은 액체 상태의 물질과 고체 상태의 물질을 모두 포함한다. 고체 상태의 물질일 경우에는 전술한 바와 같이 저장소(106)의 일단이 개방된 상태로 가열체(110)에 의한 가열이 직접 이루어지도록 액체 유도 부재(108)와 지지 부재(122)가 생략된다.In addition, the present invention includes the material to be vaporized stored in the reservoir 106. The substance to be vaporized includes both a liquid substance and a solid substance. In the case of the material in the solid state, the liquid guide member 108 and the support member 122 are omitted so that heating by the heating body 110 is performed directly with one end of the reservoir 106 open as described above.
저장소(106)에 저장되는 기화 대상 물질은 기화를 촉진하는 물질과 목적하는 물질이 일정한 비율로 혼합되어 함께 저장된다.The vaporization target material stored in the reservoir 106 is stored in a mixture with a substance promoting acceleration of vaporization and a desired material at a constant ratio.
본 발명의 일부에 속하는 기화 대상 물질 중의 기화 촉진 물질로는 프로필렌 글리콜류, 글리세린류 또는 에탄올을 포함하는 알코올류 중에서 최소한 1개 이상 선택된 것을 사용된다. 특히 본 발명에서는 프로필렌 글리콜류와 글리세린류가 사용된다.At least one selected from the group consisting of propylene glycol, glycerin, or alcohols including ethanol is used as the vaporization promoting substance in the substance to be vaporized belonging to a part of the present invention. In particular, in the present invention, propylene glycol and glycerin are used.
또한, 본 발명의 일부에 속하는 기화 대상 물질 중의 목적하는 물질은 다양하며, 하기 표 1에 예시적으로 수록하였다.In addition, the desired substance in the vaporization target material belonging to a part of the present invention is various, and is listed in Table 1 by way of example.
표 1
Figure PCTKR2010008367-appb-T000001
Table 1
Figure PCTKR2010008367-appb-T000001
상기 표 1에 수록되어 있는 다양한 목적하는 기화 흡입용 대상 물질은 단독으로 또는 기화 촉진 물질과 함께 조합적으로 사용될 수 있고, 이용되는 상기 기화 촉진 물질은 기화 흡입용 대상물질의 혼합 중량비는 1:0.5~10이 바람직하다.The various desired vaporization inhalation target materials listed in Table 1 may be used alone or in combination with a vaporization promoting material, and the vaporization promoting material used may have a mixed weight ratio of the vaporization inhalation target material 1: 0.5. ˜10 is preferred.
특히, 졸음 방지를 목적으로 할 경우에는, 기화 촉진 물질로서 프로필렌 글리콜이 사용되고, 목적하는 대상 물질로서 민트(Mint)나 로즈마리(Rosemary), 또는 이 둘의 조합물이 이용된다. 이용되는 프로필렌 글리콜과 민트 또는 로즈마리의 중량비는 1:0.5~10이 바람직하다. 민트의 경우에는 기화 촉진 물질의 사용이 없어도 기화가 가능하며, 구강 청결 목적으로도 사용된다. 로즈마리의 경우에는 집중력 강화 목적으로 사용될 수도 있다.In particular, for the purpose of preventing drowsiness, propylene glycol is used as the vaporization promoting substance, and mint, rosemary, or a combination of the two is used as the target substance. The weight ratio of propylene glycol and mint or rosemary used is preferably 1: 0.5 to 10. Mint can be vaporized without the use of vaporization accelerators and can be used for oral cleanliness. Rosemary may also be used for concentration purposes.
또한, 특히, 심신의 안정화를 목적으로 할 경우에는, 기화 촉진 물질로서 프로필렌 글리콜이 사용되고, 목적하는 대상 물질로서 라벤다(Lavender)가 사용된다. 라벤다의 경우에는 기화 촉진 물질의 중량에 대하여 1:0.5~10 정도로 사용되는 것이 바람직하다.In particular, in the case of stabilizing the mind and body, propylene glycol is used as a vaporization promoting substance, and lavender is used as a target substance of interest. In the case of lavender, it is preferable to use about 1: 0.5-10 about the weight of the vaporization promoting substance.
이하, 본 발명은 하기의 비제한적인 실시예로 설명된다.Hereinafter, the present invention is illustrated by the following non-limiting examples.
실시예 1 내지 36Examples 1 to 36
기화 촉진 물질로서 프로필렌 글리콜, 글리세린 또는 알코올 중에서 최소한 1개 이상을 선택하여 사용하였고, 목적하는 기화 흡입용 대상 물질로는 하기 표 2에 수록된 물질을 사용하였다. 또한, 실험은 기화 흡입용 대상 물질이 존재하는 상태일 때와 존재하지 않았을 때 모두의 상황에서 이루어졌고, 기화 촉진 물질과 목적하는 기화 흡입용 대상 물질을 달리하면서 수행하였다. 결과적으로, 일부 물질들을 제외하고는 기화 촉진 물질의 특정 비율에서 기화되었다. 그 결과에 따라 기화 촉진 물질과 목적하는 기화 흡입용 대상 물질이 혼합되는 중량비율을 1:0.5~10의 범위내 정하여 실험을 수행하였다. 기화 흡입 장치로는 도 1에 도시된 본 발명에 따른 장치를 사용하였으며, 기화 여부는 육안 식별과 각각이 지닌 특유의 향 발산 여부로 판단하였다. 육안 식별에 의한 기화는 목적하는 물질이 기화되는지의 여부를 판단하는 근거가 되고, 향 발산은 목적하는 물질이 성분 변화 없이 단독으로 또는 기화 촉진 물질과 함께 기화되는지의 여부를 판단하는 근거가 된다.At least one of propylene glycol, glycerin, or alcohol was selected and used as a vaporization promoting substance, and the substances listed in Table 2 below were used as target substances for inhalation of vaporization. In addition, the experiment was carried out in both the presence and absence state of the substance for vaporization inhalation, and was performed with different vaporization promoting substance and the target vaporization inhalation substance. As a result, with the exception of some substances, they were vaporized at a certain proportion of vaporization promoting substances. According to the results, the experiment was performed by setting the weight ratio of the vaporization promoting material and the target material for vaporization inhalation within the range of 1: 0.5 ~ 10. As the vaporization suction device, a device according to the present invention shown in FIG. 1 was used, and the vaporization was determined by visual identification and distinctive fragrance emanation. Vaporization by visual identification is the basis for judging whether the target substance is vaporized, and fragrance divergence is the basis for judging whether the target substance is vaporized alone or together with the vaporization promoting substance.
표 2
Figure PCTKR2010008367-appb-T000002
TABLE 2
Figure PCTKR2010008367-appb-T000002
시험 결과Test result
목적하는 기화 흡입용 대상 물질은 프로필렌 글리콜의 중량을 기준으로 하여 1:1~5 정도에서 목적하는 기화 흡입용 대상 물질의 특유의 향을 내면서 기화되는 것으로서 이는 상기 실시예에 따른 통상적인 패널의 발연정도, 향, 맛 등의 관능시험 결과로 판명되었다.Desired vaporization target material is vaporized while giving a specific scent of the target vaporization inhalation target material at about 1 to 5 based on the weight of propylene glycol, which is the smoke of the conventional panel according to the embodiment. The results of sensory tests such as degree, aroma and taste were found.
이상에서는 본 발명의 바람직한 실시예를 참조하여 설명하였지만, 해당 기술분야의 숙련된 당업자라면 하기의 특허청구범위에 기재된 본 발명의 사상 및 영역으로부터 벗어나지 않는 범위 내에서 본 발명을 다양하게 수정 및 변경시킬 수 있음을 이해할 수 있을 것이다.Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention described in the claims below. It will be appreciated.
이하에서는 도면을 참조하여 본 발명의 다른 실시예에 대하여 설명한다. 이러한 설명을 수행함에 있어서, 상기된 본 발명의 실시를 위한 최선의 형태에서 이미 기재된 내용과 중복되는 설명은 그에 갈음하고, 여기서는 생략하기로 한다.Hereinafter, another embodiment of the present invention will be described with reference to the drawings. In carrying out this description, descriptions overlapping with those already described in the best mode for carrying out the present invention described above will be replaced by those, and will be omitted herein.
먼저, 도 7는 본 발명의 실시 예에 따른 흡입 노즐측 기화부를 나타낸 사시도이다. 이는 상기된 본 발명의 실시를 위한 최선의 형태에서 이미 기재된 흡입 노즐측 기화부에 해당하는 것으로, 이하의 제1 연결체 및 제2 연결체를 포함하여 전원 작동부는 본원 발명과 동일한 구조이며 이에 대한 중복 설명은 생략할 것이다.First, FIG. 7 is a perspective view illustrating a suction nozzle side vaporization unit according to an exemplary embodiment of the present invention. This corresponds to the suction nozzle side vaporization portion already described in the best mode for carrying out the present invention described above, and the power supply operation portion including the following first and second connectors is the same structure as that of the present invention. Duplicate explanations will be omitted.
도시된 바와 같이, 원통구조를 갖는 흡입 노즐측 기화부(1200)는 신체접촉을 통해 혼합 조성물을 흡입하는 흡입접촉부(1213)가 마련되고, 종단에는 공기 흡입과정에서 전기적 스위칭을 수행하는 제1 연결체(미도시함)와 체결되는 체결부(1207)를 형성하며, 상기 체결부(1207) 및 흡입 접촉부(1213) 사이에는 혼합 조성물을 액체 상태로 충진될 수 있도록 소정의 충진공간이 확보된 저장용기(1201) 및 상기 저장용기(1201)의 혼합 조성물을 모세관 현상을 이용하여 유도한 후, 소정의 발열부재를 통해 직간접 가열하여 상기 혼합 조성물을 기화시키는 무화용기(1203)로 이루어진다.As shown, the suction nozzle side vaporizer 1200 having a cylindrical structure is provided with a suction contact portion 1213 for sucking the mixed composition through body contact, the end of the first connection for performing electrical switching in the air suction process A fastening part 1207 is formed to be fastened to a sieve (not shown), and a predetermined filling space is secured between the fastening part 1207 and the suction contact part 1213 to fill the mixed composition in a liquid state. After the induction of the mixed composition of the container 1201 and the storage container 1201 by using a capillary phenomenon, it is made of an atomizing container (1203) to vaporize the mixed composition by direct or indirect heating through a predetermined heating member.
여기서, 상기 무화용기(1203)는 임의의 형상으로 성형될 수 있으며, 필요에 따라 그 형상을 갖지 아니하고, 상기 저장용기(1201)에 발열부재가 탑재될 수 있을 것이다. 즉, 본 발명의 실시 예에서는 무화용기(1203)를 제시하고 있으나, 이는 하나의 실시 예로서 무화용기 및 저장용기가 상호 분리된 구조로 설명하기 위한 것이며, 무화용기와 저장용기가 상호 일체화된 구조로 성형될 경우, 무화용기 자체의 형상은 불필요하게 되는 것이다.Here, the atomization container 1203 may be molded in any shape, and as necessary, the atomizing container 1203 may have a heat generating member mounted on the storage container 1201. That is, in the embodiment of the present invention, the atomizing container 1203 is provided, but this is for explaining the atomizing container and the storage container as a structure separated from each other as an embodiment, the structure of the atomizing container and the storage container are mutually integrated. When molded into a furnace, the shape of the atomizing container itself becomes unnecessary.
또한, 본 실시 예에서 제시되는 흡입접촉부(1213) 또한 상기 저장용기(1201)의 종단에 일체화된 구조로 제조될 수 있음에 따라, 흡입접촉부(1213)는 설명의 편의상 기재될 뿐, 흡입접촉부의 기능적 요소 또는 구조적 요소로서의 의미는 미비할 것이다.In addition, the suction contact portion 1213 presented in this embodiment may also be manufactured in a structure integrated with the end of the storage container 1201, the suction contact portion 1213 is described for convenience of description only, The meaning as a functional or structural element will be insignificant.
한편, 상기 저장용기(1201)는 액투입 밸브(1205)를 구비하며, 액투입 밸브(1205)를 개폐하여 소정의 혼합 조성물을 적재한다. 따라서, 사용자는 상기 액투입 밸브(1205)를 이용하여 소망하는 혼합 조성물을 선택적으로 적재할 수 있으며, 필요에 따라 흡입접촉부(1213)와 일체화된 상기 저장용기(1201)는 무화용기(1203)로부터 분리 가능하도록 할 수 있다. 이는 사용자의 위생 관리상 잦은 사용에 따른 저장용기(1201) 및 흡입 접촉부(1213)를 교체하거나, 혼합 조성물의 선택에 따른 각각의 저장용기(1201) 사용이 가능할 것이다. 그리고, 상기 액투입 밸브(1205)는 본 발명의 실시 예에서 가시화된 구조로 도시하고 있으나, 이는 개폐 가능한 밸브의 개념이라기 보다는, 제조 과정에서 기계적 수단에 의해 해당 조성물을 투입할 수 있는 구조를 설명하기 위함이다. 따라서, 상기 액투입 밸브(1205)는 시각화되지 않을 수 있으며, 더욱이 그 위치가 결정되지 않을 수 있음은 물론이다.On the other hand, the storage container 1201 has a liquid injection valve 1205, and opens and closes the liquid injection valve 1205 to load a predetermined mixed composition. Accordingly, the user can selectively load the desired mixed composition using the liquid injection valve 1205, and the storage container 1201 integrated with the suction contact part 1213 is removed from the atomizing container 1203 as needed. It can be made detachable. This may replace the reservoir 1201 and the suction contact 1213 according to frequent use in the hygiene management of the user, or may use the respective reservoir 1201 according to the selection of the mixed composition. In addition, although the liquid injection valve 1205 is illustrated as a visible structure in an embodiment of the present invention, this is not a concept of a valve which can be opened and closed, but describes a structure in which the composition can be introduced by mechanical means in the manufacturing process. To do this. Thus, the liquid injection valve 1205 may not be visualized, and moreover, its position may not be determined.
그리고, 상기 무화용기(1203)는 저장용기(1201)로부터 유도된 혼합 조성물을 발열부재를 이용하여 기화시키며, 상기 가열부재는 니켈 합금 또는 희토류 원소 등의 합성체로 제조되는 필라멘트 형태의 발열체가 사용되거나, 고주파 또는 초고주파 발생장치를 이용하여 혼합 조성물을 기화시킬 수 있으며, 필요에 따라 펠티어 소자가 적용될 수 있다. 상기 펠티어 소자는 전기적 극성에 따라 일측 면이 발열되고 타측 면이 흡열되는 구조로서, 잦은 사용에 따라 상기 무화용기(1203)의 외피가 발열되는 현상을 방지할 수 있다. 물론, 펠티어 소자는 기동 시간이 지연되기 때문에, 상기 필마렌트 형태의 발열체와 연동함이 바람직할 것이다.The atomizing container 1203 vaporizes the mixed composition derived from the storage container 1201 by using a heating member, and the heating member uses a filament-type heating element made of a composite such as nickel alloy or rare earth element. The mixture composition may be vaporized using a high frequency or ultra high frequency generator, and a Peltier element may be applied as necessary. The Peltier device has a structure in which one side is heated and the other side is endothermic according to electrical polarity, and thus, the outer surface of the atomizing container 1203 may be generated in accordance with frequent use. Of course, since the Peltier element is delayed in starting time, it may be preferable to interlock with the heating element in the form of the filler.
상기 체결부(1207)는 제1 연결체와의 체결을 위한 중공형 구조의 나사부가 마련되고, 나사부의 중앙은 상기 무화용기(1203)의 원활한 동작을 위한 전원 공급용 전극(1209)이 돌출되고, 상기 흡입 접촉부(1213)에서 흡입된 공기량이 상기 제1 연결체 및 미설명된 제2 연결체로 연통 되도록 흡입구(1211)가 마련된다. 상기 체결부(1207)는 금속 재질로 구성될 수 있으며, 이에 상기 전극(1209)은 '+' 단자로 설정되고, 체결부(1207)는 '-' 단자로 설정될 수 있을 것이며, 제조의 편의상 단자의 극성은 가변될 수 있다.The fastening part 1207 is provided with a screw of a hollow structure for fastening with the first connector, the center of the screw portion protrudes the power supply electrode 1209 for the smooth operation of the atomizing container 1203 In addition, a suction port 1211 is provided such that the amount of air sucked from the suction contact part 1213 communicates with the first connection body and the second connection body that is not described. The fastening part 1207 may be made of a metal material, and thus, the electrode 1209 may be set to a '+' terminal, and the fastening part 1207 may be set to a '−' terminal. The polarity of the terminals can vary.
따라서, 상기 흡입 노즐측 기화부(1200)는 체결부(1207)를 이용하여 제1 연결체 와 체결된 후, 상기 제1 연결체는 제2 연결체와 체결되고, 제2 연결체는 전원 작동부와 접속된다. 상기 전원 작동부에서 공급되는 전원은 제2 연결체 및 제1 연결체를 거쳐 상기 전극(1209)과 접속되며, 상기 체결부(1207)의 흡입구(1211) 또는 제1 연결체와 연동 된다. 상기 흡입구(1211)를 통해 흡입되는 공기압은 상기 제1 연결체의 스위칭 동작을 유도함에 따라, 사용자의 흡입 과정 시 상기 전극(1209)으로 전원 공급이 이루어지도록 제어된다.Therefore, after the suction nozzle side vaporizer 1200 is fastened with the first connector using the fastener 1207, the first connector is fastened with the second connector, and the second connector is powered. It is connected to the negative. Power supplied from the power operation unit is connected to the electrode 1209 via a second connector and a first connector, and interlocks with the suction port 1211 or the first connector of the fastening part 1207. The air pressure sucked through the suction port 1211 is controlled to supply power to the electrode 1209 during the suction process of the user as the switching operation of the first connector is induced.
도 8은 본 발명에 따른 흡입 노즐측 기화부(1200)를 나타낸 분해 사시도이다. 먼저, 본 발명에서는 상기 저장용기(1201) 및 무화용기(1203)가 분리된 구조로 제조되거나, 상호 일체화된 구조로 제공될 수 있다. 상기 저장용기(1201)는 무화용기(1203)와 결합되는 종단부가 단차진 구조를 갖고, 상기 무화용기(1203)의 내주면으로 삽설되는 조립구조이다. 이에, 상기 저장용기(1201) 및 무화용기(1203)는 상호 요철 구조의 돌기를 형성하여, 결합 과정에서 방향 및 위치가 고정되도록 할 수 있다. 또한, 상기 저장용기(1201) 및 무화용기(1203)는 그 구조상 나사 결합에 의한 체결이 이루어지지 못함에 따라, 억지끼움 결합 또는 탄성 돌기에 의한 체결 구조로 성형될 수 있을 것이다.8 is an exploded perspective view illustrating the suction nozzle side vaporizer 1200 according to the present invention. First, in the present invention, the storage container 1201 and the atomizing container 1203 may be manufactured in a separate structure or may be provided in an integrated structure. The storage container 1201 has an end portion coupled to the atomizing container 1203 having a stepped structure, and is assembled to the inner circumferential surface of the atomizing container 1203. Thus, the storage container 1201 and the atomizing container 1203 may form projections of the mutually uneven structure, so that the direction and position can be fixed in the bonding process. In addition, since the storage container 1201 and the atomizing container 1203 are not fastened by screw coupling in their structure, the storage container 1201 and the atomizing container 1203 may be formed into a fastening structure by an interference fit coupling or an elastic protrusion.
상기 저장용기(1201)는 중앙으로 공기흡입관(1313)이 매설된 중공형 구조로서, 공기 흡입관(1313)의 주변은 일체화된 연통구조를 갖는다. 그리고, 상기 연통구조에서 외부와 연통되는 유동체 삽입공(1311)이 마련된다. 상기 공기 흡입관(1313)은 흡입 접촉부(1213)와 연통되어, 사용자의 흡입 과정 시 공기압은 상기 공기 흡입관(1313)을 통해 제1 연결체로 전이된다. 상기 무화용기(1203)는 안측으로 발열모듈(1303)이 체결 고정되고, 상기 발열모듈(1303)의 상단으로 유도체 모듈(1301)이 설치된다.The storage container 1201 is a hollow structure in which an air suction pipe 1313 is embedded at the center thereof, and the periphery of the air suction pipe 1313 has an integrated communication structure. A fluid insertion hole 1311 communicating with the outside is provided in the communication structure. The air suction pipe 1313 communicates with the suction contact part 1213, so that the air pressure is transferred to the first connection through the air suction pipe 1313 during the suction process of the user. The atomization container 1203 is fastened and fixed to the heating module 1303 to the inner side, the derivative module 1301 is installed to the top of the heating module 1303.
상기 발열모듈(1303)은 양측단이 개구된 중공형 구조를 갖는 무화용기(1203)의 내측 저면에 전기적 접촉을 이루며 고정되는 결합 나사부(1321)가 형성되고, 상기 결합 나사부(1321)의 일측에는 무화용기(1203)의 일단으로 돌출되어 발열부재(1319)의 전기적 접촉을 갖는 +전극(1323)을 형성하되, 상기 공기 흡입관(1313)과 연통하는 흡입구(1211)를 갖는다. 상기 발열모듈(1303) 또한 금속 재질로 구현되며, 몸체는 -전극(1325)을 형성하며 상기 무화용기(1203)와 접촉된다.The heat generating module 1303 is provided with a coupling screw portion 1321, which is fixed to the inner bottom of the atomizing container 1203 having a hollow structure with open both ends, and is fixed to one side of the coupling screw portion 1321. Protruding to one end of the atomizing container (1203) to form a positive electrode (1323) having an electrical contact of the heat generating member (1319), it has a suction port 1211 in communication with the air suction pipe (1313). The heat generating module 1303 is also made of a metal material, the body forms an electrode 1325 and is in contact with the atomizing container 1203.
한편, 상기 유도체 모듈(1301)은 상기 무화용기(1203)의 타측 개구부에 고정 또는 접합되고 상기 공기 흡입관(1313)과 연통하는 공기 유입공(1317)이 마련된 고정판(1327)을 형성하고, 상기 고정판(1327)의 일단에는 상기 유도체 삽입공(1311)과 대응하도록 고정 설치되는 유도체(1315)가 형성되며, 상기 유도체(1315)는 저장용기(1201)에 적재된 혼합 조성물을 모세관 현상에 의해 유도하기 위한 재질로 구성된다. 상기 유도체(1315)는 다층의 발포성 니켈망, 스테인레스 섬유 펠트, 고분자 발포체 및 금속 다공체로 구성될 수 있다. 상기 고정판(1327)은 무화용기(1203)의 내부 공간과 외부 공간을 구획하며, 상기 유도체(1315)는 내부 공간에 설치되는 발열모듈(1303)의 발열부재(1319)와 근접 설치됨과 동시에, 상기 외부 공간으로 소정 거리 인출되어 상기 유도체 삽입공(1311)으로 인입되도록 한다.On the other hand, the derivative module 1301 is fixed or bonded to the other opening of the atomizing container 1203 and forms a fixed plate 1327 is provided with an air inlet hole 1317 communicating with the air suction pipe 1313, the fixed plate At one end of the 1327, a derivative 1315 is fixedly installed to correspond to the derivative insertion hole 1311, and the derivative 1315 is used to induce the mixed composition loaded in the storage container 1201 by capillary action. It is made of material. The derivative 1315 may be composed of a multilayer expandable nickel network, stainless fiber felt, a polymer foam, and a porous metal body. The fixing plate 1327 partitions the inner space and the outer space of the atomization container 1203, and the derivative 1315 is installed in close proximity to the heat generating member 1319 of the heat generating module 1303 installed in the inner space. A predetermined distance is drawn out to the outer space so as to be drawn into the derivative insertion hole 1311.
상기 발열부재(1319)는 필라멘트 구조의 발열체가 사용될 수 있으며 이때의 전극(1209)의 극성은 무의미할 것이다. 그러나, 상기 발열부재(1319)가 고주파 발생기 또는 펠티어 소자가 사용되거나 연동될 경우에는 설정된 극성을 필요로 함은 당연하다. 본 발명의 실시 예에서 상기 발열부재(1319)는 필라멘트 형태의 발열체이고, 상기 필라멘트는 유도체(1315)를 근접 권취하는 구조를 갖는다. 따라서, 발열부재(1319)는 상기 유도체(1315)를 통해 유입되는 혼합 조성물을 기화시킨다. 이로 인해, 상기 유도체(1315)는 단면이 원형인 파이프 구조를 갖고 절곡된다.The heating member 1319 may be a heating element of a filament structure, the polarity of the electrode 1209 at this time will be meaningless. However, the heat generating member 1319 requires a set polarity when the high frequency generator or the Peltier element is used or interlocked. In the embodiment of the present invention, the heat generating member 1319 is a filament-type heating element, and the filament has a structure of winding the derivative 1315 in close proximity. Accordingly, the heat generating member 1319 vaporizes the mixed composition introduced through the derivative 1315. For this reason, the derivative 1315 has a pipe structure with a circular cross section and is bent.
반면, 상기 발열부재(1319)가 고주파 발생소자일 경우, 상기 유도체(1315)는 고주파 발생소자와 맞닿는 부위를 평판 구조로 형상화하여 고주파의 적용면적을 늘릴 수 있을 것이다. 그리고, 발열부재(1319)가 펠티어 소자를 포함할 경우 즉, 고주파 발생소자와 펠티어 소자가 혼용되거나, 상기 필라멘트와 펠티어 소자가 혼용될 경우에는 펠티어 소자의 흡열부 즉, 냉각면은 결합 나사부(1321)와 밀착 고정된다. 상기 펠티어 소자는 전술한 바와 같이 응답속도가 늦기 때문에, 상기 혼합 조성물을 직접 가열하지는 못하나, 타 소재(필라멘트, 고주파 발생기)와 연동하여 예열을 도모할 수 있을 것이다. 그리고, 펠티어 소자의 흡열부는 금속 재질의 발열모듈(1303)과 밀착됨에 따라, 무화용기(1203)의 발열상태를 억제함으로써, 제품의 내구성 향상을 유도한다.On the other hand, when the heat generating member 1319 is a high frequency generator, the derivative 1315 may increase the application area of the high frequency by forming a portion in contact with the high frequency generator in a flat structure. When the heat generating member 1319 includes the Peltier element, that is, when the high frequency generating element and the Peltier element are mixed, or when the filament and the Peltier element are mixed, the heat absorbing portion, that is, the cooling surface of the Peltier element is the coupling screw portion 1321. ) Is tightly fixed. Since the Peltier device has a low response speed as described above, the Peltier device may not directly heat the mixed composition, but may be preheated in conjunction with other materials (filament, high frequency generator). In addition, as the heat absorbing portion of the Peltier element is in close contact with the heat generating module 1303 made of metal, the heat generation state of the atomizing container 1203 is suppressed, thereby inducing the durability of the product.
도 9는 본 발명에 따른 무화용기 조립체 및 이의 내부 구조를 나타낸 사시도이다. 무화용기 조립체는 상가 발열모듈(1303) 및 유도체 모듈(1301)이 순차적으로 조립된 상태로서, 금속재질의 무화용기(1203)의 하단에는 -전극(1325)을 갖는 나사 결합 구조를 갖고 상단에는 유도체 모듈(1301)이 조립되어 유도체(1315)가 돌출되고 있다.9 is a perspective view showing the atomization vessel assembly and its internal structure according to the present invention. The atomization container assembly is a state in which the additive heating module 1303 and the derivative module 1301 are sequentially assembled, and have a screw coupling structure having a negative electrode 1325 at the bottom of the atomization container 1203 made of metal, and a derivative at the top thereof. The module 1301 is assembled to protrude the derivative 1315.
이에, 상기 발열모듈(1303)은 금속재질의 결합 나수부(1321)를 포함하여, 일단에 플라스틱 재질 등의 부도체 재질을 갖는 돌출부를 형성하되, 돌출부의 외주부 일편에는 금속 재질의 + 전극(1323)이 형성된다. 그리고, 상기 발열모듈(1303)의 결합 나사부(1321)는 금속 재질로서 - 전극(1325)를 형성한다. 따라서, 상기 발열부재(1319)는 결합 나사부(1321)와 체결됨에 있어, - 극은 결합 나사부(1321)에 직접 접속되고, +극은 상기 돌출부의 내부를 통해 +전극(1323)과 접속된다. Thus, the heat generating module 1303 includes a coupling threaded portion 1321 made of a metal material, and forms a protrusion having a non-conductive material such as a plastic material at one end thereof, and a metal + electrode 1323 is formed on one side of the protrusion. Is formed. The coupling screw 1321 of the heat generating module 1303 forms a metal electrode 1325. Thus, the heat generating member 1319 is fastened to the coupling screw 1321, the pole is directly connected to the coupling screw 1321, the + pole is connected to the + electrode 1323 through the interior of the projection.
상기 유도체(1315)는 고정판(1327)에 의해 고정됨과 동시에 상하부로 구획되며, 유도체(1315)의 상단은 상기 발열부재(1319)에 의해 권취되고, 상기 유도체(1315)의 하단은 상기 저장용기(1201)의 유도체 삽입공(1311)에 삽입 설치되기 위한 소정 길이로 연장된다. 이와 같이 구성된 발열모듈(1303) 및 유도체 모듈(1301)은 상호 조립된 후, 상기 발열모듈(1303)의 결합 나사부(1321)를 통해 상기 무화용기(1203)의 내부로 체결된다. 여기서, 상기 발열모듈(1303)의 결합 나사부(1321)는 나사 구조를 가짐에 따라, 상기 발열모듈(1303)을 무화용기(1203) 내에 체결할 때, 상기 유도체 모듈(1301)은 발열모듈(1303)의 회전에 연동하도록 한다. 발열모듈(1303)의 조립이 완료되는 시점에서 상기 유도체 모듈(1301)의 고정판(1327)은 미도시된 결합돌기에 끼움 결합된다.The derivative 1315 is fixed by the fixing plate 1327 and partitioned into upper and lower portions, the upper end of the derivative 1315 is wound by the heat generating member 1319, and the lower end of the derivative 1315 is the storage container ( It extends to a predetermined length for insertion into the derivative insertion hole 1311 of 1201). The heat generating module 1303 and the derivative module 1301 configured as described above are assembled to each other and then fastened to the inside of the atomization container 1203 through the coupling screw 1321 of the heat generating module 1303. Here, as the coupling screw 1321 of the heat generating module 1303 has a screw structure, when the heat generating module 1303 is fastened in the atomizing container 1203, the derivative module 1301 is a heat generating module 1303. ) In conjunction with the rotation. At the time when the assembly of the heat generating module 1303 is completed, the fixing plate 1327 of the derivative module 1301 is fitted to the coupling protrusion not shown.
도 10는 본 발명에 따른 저장용기(1201)를 나타낸 단면도이고, 도 11은 본 발명에 따른 흡입 노즐측 기화부(1200)의 조립 단면도이다. 도시된 바와 같이, 중공형 구조를 갖고 중앙에 원통형 공기 흡입관(1313)이 매설되며, 상기 공기 흡입관(1313)은 흡입 접촉부(1213)의 흡입노즐(1501)과 연통한다. 이에, 상기 저장용기(1201)는 공기 흡입관(1313)을 제외한 나머지 공간으로서 적재부(1503)를 형성하며, 상기 적재부(1503)는 상기 액정 투입밸브(1205)를 통해 혼합 조성물이 탑재된다. 상기 혼합 조성물은 상기 유도체 삽입공(1311)을 통해 인입 설치되는 유도체(1315)의 일단과 접촉하게 되며, 상기 유도체(1315)는 모세관 현상에 의해 상기 혼합 조성물을 흡착하며, 발열부재(1319)에 의해 가열된다.10 is a cross-sectional view showing a storage container 1201 according to the present invention, and FIG. 11 is an assembled cross-sectional view of the suction nozzle side vaporizer 1200 according to the present invention. As shown, a hollow structure and a cylindrical air suction tube 1313 is buried in the center, the air suction tube 1313 communicates with the suction nozzle 1501 of the suction contact portion 1213. Thus, the storage container 1201 forms a loading part 1503 as the remaining space except for the air suction pipe 1313, and the loading part 1503 is mounted with the mixed composition through the liquid crystal inlet valve 1205. The mixed composition comes into contact with one end of the derivative 1315 which is installed through the derivative insertion hole 1311, and the derivative 1315 adsorbs the mixed composition by a capillary phenomenon, and the heating element 1319. Heated by
즉, 상기 유도체(1315)는 적재부(1503) 내의 혼합 조성물과 직접 접촉함으로써, 혼합 조성물의 이동 경로를 단축시키게 된다. 이는 혼합 조성물의 점성이 높을 경우에 점성에 의한 유체 이동이 저하됨을 방지하기 위한 것이다. 한편, 상기 유도체 삽입공(1311)과 유도체(1315)는 설치 과정에서 상호 간극이 발생될 수 있으며, 이러한 간극으로 인해 적재부(1503)의 혼합 조성물이 유출될 우려가 있다. 이에, 상기 적재부(1503) 내부에 섬유재질을 수용하도록 함으로써, 혼합 조성물의 유출을 방지할 수 있을 것이다.That is, the derivative 1315 is in direct contact with the mixed composition in the loading portion 1503, thereby shortening the movement path of the mixed composition. This is to prevent the fluid movement due to viscosity from deteriorating when the viscosity of the mixed composition is high. On the other hand, the derivative insertion hole 1311 and the derivative 1315 may generate a mutual gap in the installation process, there is a fear that the mixed composition of the loading portion (1503) flows out due to this gap. Thus, by allowing the fiber material to be accommodated in the loading portion 1503, it will be possible to prevent the leakage of the mixed composition.
한편, 본 발명의 실시 예에서 상기 유도체(1315)의 종단부는 저장용기의 유도체 삽입공(1311)으로 삽설되는 것으로 설명하였으나, 혼합 조성물의 유출 우려를 감안할 때, 본 발명의 다른 실시 예로서 상기 유도체(1315)의 종단부가 유도체 삽입공(1311)에 밀착 또는 접착되도록 할 수 있다. 여기서, 본 발명의 다른 실시 예에 따른 유도체 삽입공(1311)은 유도체가 삽설되기 위한 구조가 아님에 따라, 이를 연통홈으로 명명할 수 있을 것이다. 즉, 연통홈과 유도체 삽입공(1311)은 동일한 구조이나, 사용 목적이 상이함에 따라 명칭을 달리하는 것이며, 이하의 설명에서 사용되는 연통홈의 기술적 개념에 대한 정립이 선행되어야 할 것이다.On the other hand, in the embodiment of the present invention, but the end portion of the derivative 1315 is described as being inserted into the derivative insertion hole 1311 of the storage container, in consideration of the leakage of the mixed composition, as another embodiment of the present invention the derivative The end portion 1315 may be in close contact with or adhered to the derivative insertion hole 1311. Here, since the derivative insertion hole 1311 according to another embodiment of the present invention is not a structure for inserting the derivative, it may be referred to as a communication groove. That is, the communication groove and the derivative insertion hole 1311 have the same structure, but different names according to different purposes of use, and should be preceded by the technical concept of the communication groove used in the following description.
결국, 본 발명의 다른 실시 예에 따르면, 상기 유도체(1315)가 연통홈에 밀착되기 위한 구조로서, 상기 유도체(1315)의 직경 크기를 상기 연통홈보다 크도록 설계한 후, 실리콘을 이용하여 상기 유도체(1315)의 종단부를 연통홈의 외주부에 접착하는 것이다. 또는 유도체(1315)의 직경이 상기 연통홈보다 크도록 설계한 후, 유도체(1315)를 연통홈으로 가압 설치함으로써, 연통홈을 통해 유출되는 혼합 조성물이 유도체(1315)로 흡수되도록 하는 것이다.As a result, according to another embodiment of the present invention, the derivative 1315 is designed to be in close contact with the communication groove, and the diameter of the derivative 1315 is designed to be larger than the communication groove, and then the silicon is used. The end of the derivative 1315 is bonded to the outer circumference of the communication groove. Alternatively, after the diameter of the derivative 1315 is designed to be larger than the communication groove, the derivative 1315 is installed under the communication groove so that the mixed composition flowing out through the communication groove is absorbed into the derivative 1315.
이와 같이, 본 발명에서는 점성이 높은 혼합 조성물을 사용할 수 있는 흡입 노즐측 기화부(1200)를 제시함으로써, 기화촉진 조성물의 함량 비율이 극히 높은 무기질, 비타민, 아미노산 등의 기화흡입 대상물을 사용할 수 있게 된다. 또한, 기화촉진 조성물은 프로필렌 글리콜류, 글리세린류 또는 에탄올을 포함하는 알코올류 중에서 최소한 1개 이상 선택된 것이 사용되며, 기화촉진 조성물의 함량 비율은 95%이상으로서, 기화촉진 조성물과 기화흡입 대상물에 대한 중량비율은 1:0.0005 내지 1:0.5의 중량비를 가진다. 바람직하게는 1:0.05의 중량비를 가질 수 있다.As described above, the present invention provides a suction nozzle side vaporization unit 1200 that can use a highly viscous mixed composition, so that the vaporization inhalation targets such as minerals, vitamins, amino acids, etc. having a very high content ratio of the vaporization accelerator composition can be used. do. In addition, at least one selected from among alcohols including propylene glycol, glycerin, or ethanol is used for the vaporization composition, and the content ratio of the gasification accelerator composition is 95% or more, and the vaporization composition and the vapor inhalation target The weight ratio has a weight ratio of 1: 0.0005 to 1: 0.5. Preferably it may have a weight ratio of 1: 0.05.
따라서, 기화촉진 조성물을 구성하는 글리세린 등은 지성성분이 매우 높은 용매로써, 결국 기화흡입 대상물의 점성이 높게 된다. 이러한 점성으로 인해, 상기 기화 흡입용 장치의 스위칭 구조는 자동 및 수동을 포함하여 겸용이 가능하도록 함이 바람직하다. 즉, 혼합 조성물의 기화를 목적을 수동에 의한 예열 또는 과열을 일시적으로 유도할 수 있는 것이다. 따라서, 본 발명은 수동 버튼을 별도로 구비함이 적절하다.Therefore, glycerin and the like constituting the vaporization promoting composition are solvents having a very high oily component, and eventually, the viscosity of the vaporization suction object becomes high. Due to this viscosity, it is preferable that the switching structure of the vaporization suction device can be used both automatically and manually. In other words, it is possible to temporarily induce preheating or overheating manually by evaporation of the mixed composition for the purpose. Therefore, the present invention is appropriately provided with a manual button separately.
아래의 표 3은 본 발명에 따른 기화흡입 대상물질을 예시적으로 나열하고 있으며, 더불어 그 효능을 제시하고 있다.Table 3 below lists the vapor inhalation targets according to the present invention by way of example, and also suggests its efficacy.
표 3
Figure PCTKR2010008367-appb-T000003
TABLE 3
Figure PCTKR2010008367-appb-T000003
표 3에 수록되어 있는 다양한 목적의 기화흡입용 대상물질은 기화촉진 물질과 조합되어 사용되는데, 이용되는 기화촉진 물질은 프로필렌 글리콜 또는 글레세린이 사용된다. 이때 기화촉진 물질과 기화흡입용 대상물질의 혼합 중량비율은 1: 0.0005 내지 1:0.5이며, 바람직하게는 1: 0.0005 내지 1:0.05이다.Vapor inhalation targets of various purposes listed in Table 3 are used in combination with the gas-promoting material, the gas-promoting material used is propylene glycol or glycerine. At this time, the mixing weight ratio of the vaporization promoting material and the vapor inhalation target material is 1: 0.0005 to 1: 0.5, preferably 1: 0.0005 to 1: 0.05.
한편, 전술된 바와 같이 본 발명에서 적용되는 기화흡입 대상물은 무기질의 칼슘, 인, 철, 나트륨, 마그네슘, 망간, 아연, 코발트, 구리, 몰리브덴, 셀레늄, 불소, 요오드, 회분, 칼슘, 인, 철, 나트륨, 아연이 사용될 수 있으며, 비타민으로서, 비타민 A, 레티놀(RE), 베타카로틴, 티아민, 리보플라빈, 나이아신, 비타민 C, 비타민 B6, 판토텐산, 비타민 B12, 엽산, 비타민 D, 비타민 E, 비타민 K, 비타민, 티아민이 사용된다. 또한, 아미노산으로 이소루신, 루신, 라이신, 메티오닌, 시스테인, 페닐알라닌, 티로신, 트레오닌, 트립토판, 발린, 히스티딘, 아르기닌, 아스파르트산, 글루탐산, 글리신, 프롤린, 세린이 사용될 수 있다.Meanwhile, as described above, the vaporization suction object applied in the present invention is inorganic calcium, phosphorus, iron, sodium, magnesium, manganese, zinc, cobalt, copper, molybdenum, selenium, fluorine, iodine, ash, calcium, phosphorus, iron , Sodium, zinc can be used, and as vitamins, vitamin A, retinol (RE), beta carotene, thiamine, riboflavin, niacin, vitamin C, vitamin B6, pantothenic acid, vitamin B12, folic acid, vitamin D, vitamin E, vitamin K , Vitamins and thiamine are used. As amino acids, isoleucine, leucine, lysine, methionine, cysteine, phenylalanine, tyrosine, threonine, tryptophan, valine, histidine, arginine, aspartic acid, glutamic acid, glycine, proline and serine may be used.
필요에 따라 일반영양소로서, 수분, 단백질, 지질, 탄수화물, 불용성 식이섬유, 수용성 식이섬유, 총식이섬유 및 당이 사용될 수 있으며, 생리활성제로서 다이드제인, 제니스테인, 글리세테인, 시아니딘, 델피니딘, 말비딘, 펠라고니딘, 페노니딘, 페투리딘, 에피카테친, 에피카테친 3-갈레트, 에피칼로카테친, 에피칼로카테친 3-갈레트, 카테친, 갈로카테친, 에리오딕촐, 헤스페르레틴, 나린제닌, 에피그닌, 루테올린, 이소함네틴, 켐페롤, 마이리세틴, 쿠에르세틴, 모노머 프로안토시아니딘, 다이머 프로안토시아니딘, 트리머 프로안토시아니딘, 4-6머즈 프로안토시아니딘, 7-10머즈 프로안토시아닌, 폴리머 프로안토시아니딘, 콜린, 베타닌, 프로콜린, 글리세로포스포콜린, 포스포콜린, 포스파티딜콜린, 스핑고마이엘린이 사용될 수 있다.As needed, as general nutrients, water, protein, lipids, carbohydrates, insoluble dietary fiber, water soluble fiber, total dietary fiber and sugars can be used, and as bioactive agents, Dyzedine, Genistein, Glycerin, Cyanidin, Delfinidine, Malvidin, pelagonidine, phenonidine, peturidine, epicatechin, epicatechin 3-galet, epicalocatechin, epicalocatechin 3-galet, catechin, gallocatechin, eriodicone, hesperetine, naringenin , Epignin, luteolin, isohamnetine, camphorol, myricetin, quercetin, monomeric proanthocyanidins, dimer proanthocyanidins, trimer proanthocyanidins, 4-6 mus proanthocyanidins Anidine, 7-10 mus proanthocyanin, polymer proanthocyanidins, choline, betainine, procholine, glycerophosphocholine, phosphocholine, phosphatidylcholine, sphingomyelin can be used.
그리고, 이러한 기화흡입 대상물은 프로필렌 글리콜의 중량을 기준으로 하여 1:0.0005 내지 1:0.5의 중량 비율에서 기화흡입 대상물의 영양성분 즉, 수분, 단백질, 지질, 탄수화물, 불용성 식이섬유, 수용성 식이섬유, 총 식이섬유, 당 등이 유지되는 것으로 실험되었다.In addition, the vapor inhalation target is a nutrient component of the vapor inhalation target, ie, water, protein, lipids, carbohydrates, insoluble fiber, water-soluble dietary fiber, in a weight ratio of 1: 0.0005 to 1: 0.5 based on the weight of propylene glycol, Total dietary fiber, sugars and the like were maintained.
아래의 표 4는 본 발명에 따른 기화 흡입용 장치가 사용되는 기화촉진 물질에 대한 실험으로, 기화흡입 대상물질의 관능도를 나타내고 있다.Table 4 below is an experiment on the vaporization promoting material used in the vaporization suction device according to the present invention, it shows the functional level of the vaporization inhalation target material.
표 4
Figure PCTKR2010008367-appb-T000004
Table 4
Figure PCTKR2010008367-appb-T000004
여기서, 상기 기화흡입 대상물질은 기능성 물질로써 허브류, 추출물류, 비타민, 아미노산, 생리활성제, 일반영양소를 포함한 효능별 영양성분, 차, 과일, 야채, 한방, 기능성 성분을 포함한다. 필요에 따라 상기 기능성 성분에는 자일리톨(Xilytol)을 더 포함할 수 있다. 그리고, 이러한 기능성 물질에 대한 기화촉진 물질의 배합 중량비가 1:0.0005까지 충분히 발연되고 있으며, 기호도 또한 저하되지 않음을 나타낸다. Here, the vaporization inhalation target material is a functional substance, herbs, extracts, vitamins, amino acids, physiological agents, nutritional components of each efficacy including general nutrients, tea, fruit, vegetables, herbal, functional ingredients. If necessary, the functional ingredient may further include xylitol. In addition, the compounding weight ratio of the vaporization accelerator to the functional substance is sufficiently smoked up to 1: 0.0005, indicating that the preference does not decrease.
상기에서 본 발명은 특정한 실시예에 관하여 도시되고 설명되었지만, 당업계에서 통상의 지식을 가진 자라면 이하의 특허청구범위에 기재된 본 발명의 사상 및 영역을 벗어나지 않는 범위 내에서 본 발명을 다양하게 수정 및 변경시킬 수 있음을 알 수 있을 것이다. 그렇지만 이러한 수정 및 변형 구조들은 모두 본 발명의 권리범위 내에 포함되는 것임을 분명하게 밝혀두고자 한다.While the invention has been shown and described with respect to specific embodiments thereof, those skilled in the art can variously modify the invention without departing from the spirit and scope of the invention as set forth in the claims below. And that it can be changed. Nevertheless, it will be clearly understood that all such modifications and variations are included within the scope of the present invention.
전술된 바와 같이 본 발명에 따른 기화 흡입용 장치 및 이에 적용되는 기화흡입용 조성물은, 건강보조용품의 시장확대를 유도하여 산업적 이용 가치가 충분히 높을 것으로 판단된다.As described above, the vaporization inhalation device and the composition for vaporization inhalation according to the present invention, it is determined that the industrial use value is high enough to induce the market expansion of health supplements.

Claims (41)

  1. 기화 흡입용 조성물에 있어서,In the composition for inhalation of vaporization,
    민트, 로즈마리, 바질, 페퍼민트, 쥬니퍼, 제라늄, 클라리세이지, 일랑일랑, 라벤딘, 로즈우드, 라벤다, 레몬, 캐모마일, 스피아민트, 브띠그레인, 파인니들, 미르, 메이창, 시나몬, 오렌지비터, 쟈스민, 장미, 제라늄, 자몽, 패출리, 피톤치드 및 인삼 추출물로 구성된 군으로부터 선택되는 1종 이상의 기화 인체 흡입용 대상물질과 프로필렌 글리콜, 글리세린 또는 알코올 중에서 최소한 1개 이상 선택된 기화 촉진 물질 0.5~10 : 1의 중량비로 혼합되어 있는 기화 흡입용 조성물.Mint, rosemary, basil, peppermint, juniper, geranium, clary sage, ylang-ylang, lavender, rosewood, lavender, lemon, chamomile, spearmint, vitagrain, pine needle, mir, maychang, cinnamon, orange beater, jasmine At least one vaporization substance selected from the group consisting of rose, geranium, grapefruit, patchouli, phytoncide and ginseng extract and at least one vaporization promoting substance selected from propylene glycol, glycerin or alcohol 0.5-10: 1 A composition for inhalation vaporization is mixed in a weight ratio of.
  2. 제 1항의 기화 흡입용 조성물이,The composition for inhalation vaporization of claim 1,
    저장소(106); 스위칭 수단, 상기 스위칭 수단에 따라 동작하는 전원 장치(410) 및 상기 전원 장치(410)로부터 인가되는 전압으로 작동하여 상기 저장소(106)에 저장되어 있는 기화 대상 물질을 기화시키기 위한 기화 수단; 및 상기 기화 수단에 의해 기화되는 기화 대상 물질을 흡입하기 위한 흡입 노즐(102);을 포함하는 기화 흡입 장치의 상기 저장소(106)에 저장되어 상기 기화 수단에 의한 기화에 의해 기화되는 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.Reservoir 106; Vaporization means for vaporizing a vaporization target material stored in the storage means by operating with a switching means, a power supply 410 operating according to the switching means, and a voltage applied from the power supply 410; And a suction nozzle 102 for sucking the vaporization target material vaporized by the vaporization means, which is stored in the reservoir 106 of the vaporization suction device and vaporized by vaporization by the vaporization means. Vaporization Method of the composition for inhalation.
  3. 제 2 항에 있어서,The method of claim 2,
    상기 스위칭 수단이 흡입 압력에 따라 작동하는 스위칭 수단 또는 수동으로 작동하는 스위칭 수단인 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.And the switching means is a switching means operating according to the suction pressure or a manually operating switching means.
  4. 제 3 항에 있어서,The method of claim 3, wherein
    상기 기화 수단이 가열체(110), 초음파 발생기 또는 고주파 발생기, 또는 이들의 선택적인 혼합형인 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.And the vaporization means is a heating element (110), an ultrasonic wave generator or a high frequency generator, or a selective mixing thereof.
  5. 제 4 항에 있어서,The method of claim 4, wherein
    상기 저장소(106)는 케이싱(104)에 내측으로 이격되어 제공되며, 상기 저장소(106)의 외주면과 상기 케이싱(104)의 내주면 사이에는 기체 상태의 물질을 포함한 유체가 이동 가능한 유체 통로(116)가 제공되며, 상기 흡입 노즐(102)은 상기 케이싱(104)의 내주면과 상기 저장소(106)의 외주면 사이의 유체 통로(116)와 함께 제공되는 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.The reservoir 106 is provided spaced inwardly from the casing 104, and a fluid passage 116 in which fluid containing a gaseous substance is movable between an outer circumferential surface of the reservoir 106 and an inner circumferential surface of the casing 104. And the suction nozzle (102) is provided with a fluid passageway (116) between the inner circumferential surface of the casing (104) and the outer circumferential surface of the reservoir (106).
  6. 제 5 항에 있어서,The method of claim 5,
    상기 가열체측의 상기 저장소(106)의 일면에는 다수의 모세관 다발이 제공되어 있는 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.And a plurality of capillary bundles are provided on one surface of the reservoir (106) on the heating body side.
  7. 제 6 항에 있어서,The method of claim 6,
    상기 가열체(110)의 하류부에는 액체 상태의 물질을 흡수할 수 있는 흡수 부재(112)가 제공되고, 상기 흡수 부재(112)는 유체학적으로 상기 흡입 노즐(102)과 연통되어 있는 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.A downstream part of the heating body 110 is provided with an absorbing member 112 capable of absorbing a substance in a liquid state, and the absorbing member 112 is in fluid communication with the suction nozzle 102. A method of vaporizing the composition for vaporization inhalation.
  8. 제 7 항에 있어서,The method of claim 7, wherein
    상기 스위칭 수단은 상기 흡입 노즐(102)을 통한 흡입에 의해 흡입 압력 의존적으로 이동하여 전기적으로 접촉함으로써 작동되는 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.And said switching means is actuated by moving in electrical contact with suction pressure dependent by suction through said suction nozzle (102) to make electrical contact.
  9. 제 8 항에 있어서,The method of claim 8,
    상기 스위칭 수단은 흡입에 의해 부압이 발생되게 하는 부압강실(408), 상기 부압강실(408)에서 발생되는 부압에 의해 흡입측으로 이동 가능한 스프링(412), 상기 스프링(412)의 동작에 따라 접점이 이동되어 전기적으로 접속 또는 해제되는 이동 접촉부(404)와 고정 접촉부(406)를 포함하는 것을 특징으로 하는 기화 흡입용 조성물의 기화시키는 방법.The switching means includes a negative pressure chamber 408 for generating negative pressure by suction, a spring 412 movable to the suction side by negative pressure generated in the negative pressure chamber 408, and a contact point according to the operation of the spring 412. A vaporized method of vaporizing a composition for vaporization inhalation, comprising a movable contact 404 and a fixed contact 406 that are moved and electrically connected or disconnected.
  10. 스위칭 수단 및 전원공급 수단을 구비한 기화 흡입용 장치에 있어서,An apparatus for evaporating suction having a switching means and a power supply means,
    혼합 조성물을 수용하기 위한 충진공간을 확보하고, 흡입 노즐을 통해 기화된 혼합 조성물을 흡입하기 위한 공기흡입관이 내설되는 저장용기;A storage container which secures a filling space for accommodating the mixed composition and which contains an air suction pipe for sucking the vaporized mixed composition through the suction nozzle;
    상기 충진공간의 내부와 연통하여 모세관 현상을 통해 상기 혼합 조성물을 유도하기 위한 유도체가 포함된 유도체 모듈, 상기 유도체 모듈에 근접 설치되며, 상기 스위칭 수단 및 전원공급 수단에 의거 발열 제어되는 발열부재가 포함된 발열모듈로 이루어진 무화부;를 포함하는 것을 특징으로 하는 기화 흡입용 장치.Derivative module including a derivative for inducing the mixed composition through the capillary phenomenon in communication with the interior of the filling space, is installed in close proximity to the derivative module, the heating means is controlled by the switching means and the power supply means A vaporization suction device comprising a; atomization portion consisting of a heating module.
  11. 제 10 항에 있어서,The method of claim 10,
    상기 무화부는 상기 저장용기와 일체형 구조로 형성되거나, 무화부 및 저장용기가 착탈되는 것을 특징으로 하는 기화 흡입용 장치.The atomization portion is formed in an integrated structure with the storage container, or the vaporization suction device, characterized in that the atomization portion and the storage container is removable.
  12. 제 10 항에 있어서,The method of claim 10,
    상기 저장용기는 상기 혼합 조성물을 투입하기 위한 액투입 밸브를 더 포함하는 것을 특징으로 하는 기화 흡입용 장치.The storage container further comprises a liquid inlet valve for injecting the mixed composition.
  13. 제 11 항에 있어서,The method of claim 11,
    상기 저장용기는 상기 혼합 조성물을 투입하기 위한 액투입 밸브를 더 포함하는 것을 특징으로 하는 기화 흡입용 장치.The storage container further comprises a liquid inlet valve for injecting the mixed composition.
  14. 제 10 항에 있어서,The method of claim 10,
    상기 공기흡입관은 상기 저장용기의 중앙으로 구획 설치되거나, 상기 저장용기의 내주면을 따라 형성되는 것을 특징으로 하는 기화 흡입용 장치.The air suction pipe is installed in the center of the storage container, or the vaporization suction device, characterized in that formed along the inner circumferential surface of the storage container.
  15. 제 11 항에 있어서,The method of claim 11,
    상기 공기흡입관은 상기 저장용기의 중앙으로 구획 설치되거나, 상기 저장용기의 내주면을 따라 형성되는 것을 특징으로 하는 기화 흡입용 장치.The air suction pipe is installed in the center of the storage container, or the vaporization suction device, characterized in that formed along the inner circumferential surface of the storage container.
  16. 제 10 항에 있어서,The method of claim 10,
    상기 충진공간을 형성하는 저장용기의 종단 일측면에 외부와 연통되는 유동체 삽입공이 마련되며, 상기 유도체의 종단 일부가 상기 유동체 삽입공으로 삽설되는 것을 특징으로 하는 기화 흡입용 장치.And a fluid insertion hole communicating with the outside is provided at one end surface of the storage container forming the filling space, and a part of the end of the derivative is inserted into the fluid insertion hole.
  17. 제 11 항에 있어서,The method of claim 11,
    상기 충진공간을 형성하는 저장용기의 종단 일측면에 외부와 연통되는 유동체 삽입공이 마련되며, 상기 유도체의 종단 일부가 상기 유동체 삽입공으로 삽설되는 것을 특징으로 하는 기화 흡입용 장치.And a fluid insertion hole communicating with the outside is provided at one end surface of the storage container forming the filling space, and a part of the end of the derivative is inserted into the fluid insertion hole.
  18. 제 10 항에 있어서,The method of claim 10,
    상기 충진공간을 형성하는 저장용기의 종단 일측면에 외부와 연통되는 연통홈이 마련되고 상기 유도체의 종단 일부가 상기 연통홈에 밀착되는 것을 특징으로 하는 기화 흡입용 장치.Evaporation suction device, characterized in that the communication groove which is in communication with the outside is provided on one side end surface of the storage container forming the filling space and the end portion of the derivative is in close contact with the communication groove.
  19. 제 11 항에 있어서,The method of claim 11,
    상기 충진공간을 형성하는 저장용기의 종단 일측면에 외부와 연통되는 연통홈이 마련되고 상기 유도체의 종단 일부가 상기 연통홈에 밀착되는 것을 특징으로 하는 기화 흡입용 장치.Evaporation suction device, characterized in that the communication groove which is in communication with the outside is provided on one side end surface of the storage container forming the filling space and the end portion of the derivative is in close contact with the communication groove.
  20. 제 10 항에 있어서,The method of claim 10,
    상기 유도체 모듈은 상기 저장용기 또는 무화용기 내부의 공간을 내부 공간 및 외부 공간으로 구획하는 고정판을 포함하며, 상기 고정판은 상기 유도체를 상기 발열부재와 근접하도록 내부 공간에 설치함과 동시에, 상기 유도체의 종단 일부를 상기 외부 공간으로 소정 거리 인출시키는 것을 특징으로 하는 기화 흡입용 장치.The derivative module includes a fixed plate for partitioning a space inside the storage container or the atomization container into an internal space and an external space, wherein the fixed plate is installed in the internal space so as to be close to the heat generating member, A vaporization suction device, characterized in that for drawing a portion of the termination to the outer space a predetermined distance.
  21. 제 11 항에 있어서,The method of claim 11,
    상기 유도체 모듈은 상기 저장용기 또는 무화용기 내부의 공간을 내부 공간 및 외부 공간으로 구획하는 고정판을 포함하며, 상기 고정판은 상기 유도체를 상기 발열부재와 근접하도록 내부 공간에 설치함과 동시에, 상기 유도체의 종단 일부를 상기 외부 공간으로 소정 거리 인출시키는 것을 특징으로 하는 기화 흡입용 장치.The derivative module includes a fixed plate for partitioning a space inside the storage container or the atomization container into an internal space and an external space, wherein the fixed plate is installed in the internal space so as to be close to the heat generating member, A vaporization suction device, characterized in that for drawing a portion of the termination to the outer space a predetermined distance.
  22. 제 10 항에 있어서,The method of claim 10,
    상기 유도체는 다층의 발포성 니켈망, 스테인레스 섬유 펠트, 고분자 발포체, 금속 다공체, 섬유질 중 어느 하나의 소재 또는 이의 조합으로부터 제조되는 것을 특징으로 하는 기화 흡입용 장치.The derivative is a device for evaporating inhalation, characterized in that it is made from any one of a multi-layered expandable nickel mesh, stainless fiber felt, polymer foam, porous metal, fibrous material or a combination thereof.
  23. 제 11 항에 있어서,The method of claim 11,
    상기 유도체는 다층의 발포성 니켈망, 스테인레스 섬유 펠트, 고분자 발포체, 금속 다공체, 섬유질 중 어느 하나의 소재 또는 이의 조합으로부터 제조되는 것을 특징으로 하는 기화 흡입용 장치.The derivative is a device for evaporating inhalation, characterized in that it is made from any one of a multi-layered expandable nickel mesh, stainless fiber felt, polymer foam, porous metal, fibrous material or a combination thereof.
  24. 제 10 항에 있어서,The method of claim 10,
    상기 발열부재는 니켈 합금 또는 희토류 원소 등의 합성체로 제조되는 코일 구조를 갖는 필라멘트 형태의 발열체가 사용되며, 상기 유도체는 상기 필라멘트로부터 권취되는 것을 특징으로 하는 기화 흡입용 장치.The heating member is a filament-like heating element having a coil structure made of a composite such as nickel alloy or rare earth elements, and the derivative is inhalation device, characterized in that the wound around the filament.
  25. 제 11 항에 있어서,The method of claim 11,
    상기 발열부재는 니켈 합금 또는 희토류 원소 등의 합성체로 제조되는 코일 구조를 갖는 필라멘트 형태의 발열체가 사용되며, 상기 유도체는 상기 필라멘트로부터 권취되는 것을 특징으로 하는 기화 흡입용 장치.The heating member is a filament-like heating element having a coil structure made of a composite such as nickel alloy or rare earth elements, and the derivative is inhalation device, characterized in that the wound around the filament.
  26. 제 10 항에 있어서,The method of claim 10,
    상기 발열부재는 고주파 또는 초고주파 발생장치이며, 상기 유도체는 상기 고주파 또는 초고주파 발생장치와 밀착되는 평판 구조로 성형되는 것을 특징으로 하는 기화 흡입용 장치.The heating member is a high frequency or ultra high frequency generator, and the derivative is a device for evaporating suction, characterized in that formed into a flat structure in close contact with the high frequency or ultra high frequency generator.
  27. 제 11 항에 있어서,The method of claim 11,
    상기 발열부재는 고주파 또는 초고주파 발생장치이며, 상기 유도체는 상기 고주파 또는 초고주파 발생장치와 밀착되는 평판 구조로 성형되는 것을 특징으로 하는 기화 흡입용 장치.The heating member is a high frequency or ultra high frequency generator, and the derivative is a device for evaporating suction, characterized in that formed into a flat structure in close contact with the high frequency or ultra high frequency generator.
  28. 제 26 항에 있어서,The method of claim 26,
    상기 발열부재는 전기적으로 병렬 접속된 펠티어 소자를 포함하되, 상기 펠티어 소자의 흡열판은 상기 발열모듈과 물리적으로 접촉되는 것을 특징으로 하는 기화 흡입용 장치.The heating member includes a Peltier element electrically connected in parallel, wherein the heat absorbing plate of the Peltier element is in physical contact with the heating module.
  29. 제 27 항에 있어서,The method of claim 27,
    상기 발열부재는 전기적으로 병렬 접속된 펠티어 소자를 포함하되, 상기 펠티어 소자의 흡열판은 상기 발열모듈과 물리적으로 접촉되는 것을 특징으로 하는 기화 흡입용 장치.The heating member includes a Peltier element electrically connected in parallel, wherein the heat absorbing plate of the Peltier element is in physical contact with the heating module.
  30. 제 10 항에 있어서,The method of claim 10,
    상기 발열부재는 니켈 합금 또는 희토류 원소 등의 합성체로 제조되는 코일 구조를 갖는 필라멘트 형태의 발열체 및 고주파 또는 초고주파 발생장치가 병행되는 것을 특징으로 하는 기화 흡입용 장치.The heating member is a device for vaporization suction, characterized in that the filament-like heating element having a coil structure made of a composite such as nickel alloy or rare earth elements and a high frequency or ultra-high frequency generator in parallel.
  31. 제 11 항에 있어서,The method of claim 11,
    상기 발열부재는 니켈 합금 또는 희토류 원소 등의 합성체로 제조되는 코일 구조를 갖는 필라멘트 형태의 발열체 및 고주파 또는 초고주파 발생장치가 병행되는 것을 특징으로 하는 기화 흡입용 장치.The heating member is a device for vaporization suction, characterized in that the filament-like heating element having a coil structure made of a composite such as nickel alloy or rare earth elements and a high frequency or ultra-high frequency generator in parallel.
  32. 제 30 항에 있어서,The method of claim 30,
    상기 발열부재는 전기적으로 병렬 접속된 펠티어 소자를 포함하되, 상기 펠티어 소자의 흡열판은 상기 발열모듈과 물리적으로 접촉되는 것을 특징으로 하는 기화 흡입용 장치.The heating member includes a Peltier element electrically connected in parallel, wherein the heat absorbing plate of the Peltier element is in physical contact with the heating module.
  33. 제 31 항에 있어서,The method of claim 31, wherein
    상기 발열부재는 전기적으로 병렬 접속된 펠티어 소자를 포함하되, 상기 펠티어 소자의 흡열판은 상기 발열모듈과 물리적으로 접촉되는 것을 특징으로 하는 기화 흡입용 장치.The heating member includes a Peltier element electrically connected in parallel, wherein the heat absorbing plate of the Peltier element is in physical contact with the heating module.
  34. 제 10 항에 있어서,The method of claim 10,
    상기 스위칭 수단은 자동, 수동 중 어느 하나의 방식이거나, 겸용되는 것을 특징으로 하는 기화 흡입용 장치.The switching means is a device for vaporization inhalation, characterized in that either automatic or manual.
  35. 제 11 항에 있어서,The method of claim 11,
    상기 스위칭 수단은 자동, 수동 중 어느 하나의 방식이거나, 겸용되는 것을 특징으로 하는 기화 흡입용 장치.The switching means is a device for vaporization inhalation, characterized in that either automatic or manual.
  36. 제 10 항에 따른 기화 흡입용 장치에 적용되는 혼합 조성물 중 기화 흡입용 조성물은, 일반영양소, 무기질, 비타민, 아미노산, 생리활성제 중 어느 하나이고, 프로필렌 글리콜, 글리세린 또는 에탄올 중에서 최소한 1개 이상 선택된 기화촉진 조성물질이 0.0005 ~ 0.5 : 1의 중량비로 혼합되어 있는 것을 특징으로 하는 기화 흡입용 조성물.The composition for inhalation of vaporization in the mixed composition applied to the apparatus for inhalation of vaporization according to claim 10 is any one of general nutrients, minerals, vitamins, amino acids and physiological active agents, and at least one selected from propylene glycol, glycerin or ethanol. A composition for vaporization inhalation, wherein the promoting composition is mixed at a weight ratio of 0.0005 to 0.5: 1.
  37. 제 36 항에 있어서,The method of claim 36,
    상기 기화촉진 조성물질은 0.0005 ~ 0.05 : 1의 중량비로 혼합되어 있는 것을 특징으로 하는 기화 흡입용 조성물.The vaporization promoting composition is a composition for inhalation vaporization, characterized in that the mixture in a weight ratio of 0.0005 ~ 0.05: 1.
  38. 제 36 항에 있어서,The method of claim 36,
    상기 일반 영양소는 수분, 단백질, 지질, 탄수화물, 불용성 식이섬유, 수용성 식이섬유, 총 식이섬유 및 당 중 어느 하나가 선택되거나,The general nutrient is selected from water, protein, lipids, carbohydrates, insoluble fiber, water soluble fiber, total fiber and sugar,
    무기질의 칼슘, 인, 철, 나트륨, 마그네슘, 망간, 아연, 코발트, 구리, 몰리브덴, 셀레늄, 불소, 요오드, 회분, 칼슘, 인, 철, 나트륨, 아연 중 어느 하나 또는 둘 이상의 조합으로 선택되거나;Mineral calcium, phosphorus, iron, sodium, magnesium, manganese, zinc, cobalt, copper, molybdenum, selenium, fluorine, iodine, ash, calcium, phosphorus, iron, sodium, zinc, or any combination of two or more;
    비타민으로서, 비타민 A, 레티놀(RE), 베타카로틴, 티아민, 리보플라빈, 나이아신, 비타민 C, 비타민 B6, 판토텐산, 비타민 B12, 엽산, 비타민 D, 비타민 E, 비타민 K, 비타민, 티아민 중 어느 하나 또는 둘 이상의 조합으로 선택되거나;As a vitamin, any one or two of vitamin A, retinol (RE), beta carotene, thiamine, riboflavin, niacin, vitamin C, vitamin B6, pantothenic acid, vitamin B12, folic acid, vitamin D, vitamin E, vitamin K, vitamin, thiamine Selected from the above combinations;
    아미노산으로 이소루신, 루신, 라이신, 메티오닌, 시스테인, 페닐알라닌, 티로신, 트레오닌, 트립토판, 발린, 히스티딘, 아르기닌, 아스파르트산, 글루탐산, 글리신, 프롤린, 세린 중 어느 하나 또는 둘 이상의 조합으로 선택되거나;Amino acids are selected from any one or a combination of isoleucine, leucine, lysine, methionine, cysteine, phenylalanine, tyrosine, threonine, tryptophan, valine, histidine, arginine, aspartic acid, glutamic acid, glycine, proline, serine;
    생리활성제로서 다이드제인, 제니스테인, 글리세테인, 시아니딘, 델피니딘, 말비딘, 펠라고니딘, 페노니딘, 페투리딘, 에피카테친, 에피카테친 3-갈레트, 에피칼로카테친, 에피칼로카테친 3-갈레트, 카테친, 갈로카테친, 에리오딕촐, 헤스페르레틴, 나린제닌, 에피그닌, 루테올린, 이소함네틴, 켐페롤, 마이리세틴, 쿠에르세틴, 모노머 프로안토시아니딘, 다이머 프로안토시아니딘, 트리머 프로안토시아니딘, 4-6머즈 프로안토시아니딘, 7-10머즈 프로안토시아닌, 폴리머 프로안토시아니딘, 콜린, 베타닌, 프로콜린, 글리세로포스포콜린, 포스포콜린, 포스파티딜콜린, 스핑고마이엘린 중 어느 하나 또는 둘 이상의 조합으로 선택되는 것을 특징으로 하는 기화 흡입용 조성물.As a bioactive agent, Dyzezein, Genistein, Glycerin, Cyanidin, Delfinidine, Malvidin, Pelaronidine, Phenonidine, Peturidine, Epicatechin, Epicatechin 3-gallet, Epicalocatechin, Epicalocatechin 3- Gallet, catechin, gallocatechin, erythromycin, hesperetine, naringenin, epignin, luteolin, isohamnetine, camphorol, myricetin, quercetin, monomeric proanthocyanidins, dimer proanthocytin Anidine, trimer proanthocyanidins, 4-6 mums proanthocyanidins, 7-10 mums proanthocyanidins, polymer proanthocyanidins, choline, betainine, procholine, glycerophosphocholine, phospho Evaporation inhalation composition, characterized in that selected from any one or a combination of two or more of choline, phosphatidylcholine, sphingomyelin.
  39. 제 37 항에 있어서,The method of claim 37, wherein
    상기 일반 영양소는 수분, 단백질, 지질, 탄수화물, 불용성 식이섬유, 수용성 식이섬유, 총 식이섬유 및 당 중 어느 하나가 선택되거나,The general nutrient is selected from water, protein, lipids, carbohydrates, insoluble fiber, water soluble fiber, total fiber and sugar,
    무기질의 칼슘, 인, 철, 나트륨, 마그네슘, 망간, 아연, 코발트, 구리, 몰리브덴, 셀레늄, 불소, 요오드, 회분, 칼슘, 인, 철, 나트륨, 아연 중 어느 하나 또는 둘 이상의 조합으로 선택되거나;Mineral calcium, phosphorus, iron, sodium, magnesium, manganese, zinc, cobalt, copper, molybdenum, selenium, fluorine, iodine, ash, calcium, phosphorus, iron, sodium, zinc, or any combination of two or more;
    비타민으로서, 비타민 A, 레티놀(RE), 베타카로틴, 티아민, 리보플라빈, 나이아신, 비타민 C, 비타민 B6, 판토텐산, 비타민 B12, 엽산, 비타민 D, 비타민 E, 비타민 K, 비타민, 티아민 중 어느 하나 또는 둘 이상의 조합으로 선택되거나;As a vitamin, any one or two of vitamin A, retinol (RE), beta carotene, thiamine, riboflavin, niacin, vitamin C, vitamin B6, pantothenic acid, vitamin B12, folic acid, vitamin D, vitamin E, vitamin K, vitamin, thiamine Selected from the above combinations;
    아미노산으로 이소루신, 루신, 라이신, 메티오닌, 시스테인, 페닐알라닌, 티로신, 트레오닌, 트립토판, 발린, 히스티딘, 아르기닌, 아스파르트산, 글루탐산, 글리신, 프롤린, 세린 중 어느 하나 또는 둘 이상의 조합으로 선택되거나;The amino acid is selected from any one or a combination of isoleucine, leucine, lysine, methionine, cysteine, phenylalanine, tyrosine, threonine, tryptophan, valine, histidine, arginine, aspartic acid, glutamic acid, glycine, proline, serine;
    생리활성제로서 다이드제인, 제니스테인, 글리세테인, 시아니딘, 델피니딘, 말비딘, 펠라고니딘, 페노니딘, 페투리딘, 에피카테친, 에피카테친 3-갈레트, 에피칼로카테친, 에피칼로카테친 3-갈레트, 카테친, 갈로카테친, 에리오딕촐, 헤스페르레틴, 나린제닌, 에피그닌, 루테올린, 이소함네틴, 켐페롤, 마이리세틴, 쿠에르세틴, 모노머 프로안토시아니딘, 다이머 프로안토시아니딘, 트리머 프로안토시아니딘, 4-6머즈 프로안토시아니딘, 7-10머즈 프로안토시아닌, 폴리머 프로안토시아니딘, 콜린, 베타닌, 프로콜린, 글리세로포스포콜린, 포스포콜린, 포스파티딜콜린, 스핑고마이엘린 중 어느 하나 또는 둘 이상의 조합으로 선택되는 것을 특징으로 하는 기화 흡입용 조성물.As a bioactive agent, Dyzezein, Genistein, Glycerin, Cyanidin, Delfinidine, Malvidin, Pelaronidine, Phenonidine, Peturidine, Epicatechin, Epicatechin 3-gallet, Epicalocatechin, Epicalocatechin 3- Gallet, catechin, gallocatechin, erythromycin, hesperetine, naringenin, epignin, luteolin, isohamnetine, camphorol, myricetin, quercetin, monomeric proanthocyanidins, dimer proanthocytin Anidine, trimer proanthocyanidins, 4-6 mums proanthocyanidins, 7-10 mums proanthocyanidins, polymer proanthocyanidins, choline, betainine, procholine, glycerophosphocholine, phospho Evaporation inhalation composition, characterized in that selected from any one or a combination of two or more of choline, phosphatidylcholine, sphingomyelin.
  40. 제 36 항에 있어서,The method of claim 36,
    상기 기화 흡입용 조성물은, 아미노산, 깅코빌로바(Gingko Biloba), 코엔자임큐10(Co-Q10), Phosphatidyl Serine(PS), 알파 리포익산(Alpha Lipoic Acid), 무기염류, 미네랄 중 어느 하나의 영양성분과; 녹차, 둥굴레, 오미자차, 맥문동차, 옥수수 수염차, 매실차, 귤껍질차, 진피차, 국화차, 오가피, 모과, 칡, 구기자, 산수유, 감잎, 두충, 우롱, 동규자차 중 어느 하나의 차 성분과; 오렌지, 레몬, 자몽 중 어느 하나의 과일성분과; 브로클리 추출물, 양배추 추출물, 양파, 마늘, 생강, 상추 추출물, 케일 추출물, 도라지 추출물, 토마토 추출물 중 어느 하나의 야채성분과; 은행잎, 복분자, 구기자, 오미자, 사상자, 토사자, 산수유, 결명자 중 어느 하나의 한방성분과; 로얄제리, 매실, 헛개나무, 자일리톨 중 어느 하나의 기능성 성분 중 하나 또는 둘 이상의 조합으로 선택되는 군을 더 포함하는 것을 특징으로 하는 기화 흡입용 조성물.The vaporizing composition for inhalation, nutrition of any one of amino acids, Gingko Biloba, Coenzyme Q 10 (Co-Q10), Phosphatidyl Serine (PS), Alpha Lipoic Acid, inorganic salts, minerals Components; Tea ingredients of any one of green tea, round goose, Schisandra tea, mackmundong tea, corn mustard tea, plum tea, tangerine peel tea, dermis tea, chrysanthemum tea, ogapi, Chinese quince, sauerkraut, wolfberry, cornus, persimmon leaf, tofu, oolong, and Donggyuja tea; Fruit component of any one of orange, lemon and grapefruit; Vegetable composition of any one of broccoli extract, cabbage extract, onion, garlic, ginger, lettuce extract, kale extract, bellflower extract, tomato extract; Herbal ingredients of any one of ginkgo biloba, bokbunja, wolfberry, schisandra, casualty, earthenware, cornus, deficiency; The composition for inhalation of vaporization, characterized in that it further comprises a group selected from one or a combination of two or more of the functional ingredients of royal jelly, plum, barberry, xylitol.
  41. 제 37 항에 있어서,The method of claim 37, wherein
    상기 기화 흡입용 조성물은, 아미노산, 깅코빌로바(Gingko Biloba), 코엔자임큐10(Co-Q10), Phosphatidyl Serine(PS), 알파 리포익산(Alpha Lipoic Acid), 무기염류, 미네랄 중 어느 하나의 영양성분과; 녹차, 둥굴레, 오미자차, 맥문동차, 옥수수 수염차, 매실차, 귤껍질차, 진피차, 국화차, 오가피, 모과, 칡, 구기자, 산수유, 감잎, 두충, 우롱, 동규자차 중 어느 하나의 차 성분과; 오렌지, 레몬, 자몽 중 어느 하나의 과일성분과; 브로클리 추출물, 양배추 추출물, 양파, 마늘, 생강, 상추 추출물, 케일 추출물, 도라지 추출물, 토마토 추출물 중 어느 하나의 야채성분과; 은행잎, 복분자, 구기자, 오미자, 사상자, 토사자, 산수유, 결명자 중 어느 하나의 한방성분과; 로얄제리, 매실, 헛개나무, 자일리톨 중 어느 하나의 기능성 성분 중 하나 또는 둘 이상의 조합으로 선택되는 군을 더 포함하는 것을 특징으로 하는 기화 흡입용 조성물.The vaporizing composition for inhalation, nutrition of any one of amino acids, Gingko Biloba, Coenzyme Q 10 (Co-Q10), Phosphatidyl Serine (PS), Alpha Lipoic Acid, inorganic salts, minerals Components; Tea components of any one of green tea, round goose, Schisandra tea, mackmundong tea, corn mustard tea, plum tea, tangerine peel tea, dermis tea, chrysanthemum tea, ogapi, quince, 칡, wolfberry, cornus, persimmon leaf, tofu, oolong, and Donggyu jacha; Fruit component of any one of orange, lemon and grapefruit; Vegetable composition of any one of broccoli extract, cabbage extract, onion, garlic, ginger, lettuce extract, kale extract, bellflower extract, tomato extract; Herbal ingredients of any one of ginkgo biloba, bokbunja, wolfberry, schisandra, casualty, earthenware, cornus, deficiency; The composition for inhalation of vaporization, characterized in that it further comprises a group selected from one or a combination of two or more of the functional ingredients of royal jelly, plum, hawthorn, xylitol.
PCT/KR2010/008367 2009-11-24 2010-11-24 Device for vaporisation and inhalation, a composition for vaporisation and inhalation used therewith, and a method for vaporising the composition for vaporisation and inhalation WO2011065754A2 (en)

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