US20130133675A1 - Smokeless flavor inhalator - Google Patents

Smokeless flavor inhalator Download PDF

Info

Publication number: US20130133675A1
Authority: US; United States
Prior art keywords: flavor; heat source; tobacco material; cooling element; carbon
Prior art date: 2010-07-30
Legal status (The legal status 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 status listed.): Abandoned

Application number

US13/720,081

Other languages

English (en)

Inventor

Yasuhiro SHINOZAKI

Kazuhiko Katayama

Takeshi Akiyama

Yoshiaki Ishikawa

Manabu Yamada

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Japan Tobacco Inc

Original Assignee

Japan Tobacco Inc

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.)

2010-07-30

Filing date

2012-12-19

Publication date

2013-05-30

2012-12-19 Application filed by Japan Tobacco Inc filed Critical Japan Tobacco Inc

2013-02-27 Assigned to JAPAN TOBACCO INC. reassignment JAPAN TOBACCO INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: AKIYAMA, TAKESHI, ISHIKAWA, YOSHIAKI, KATAYAMA, KAZUHIKO, SHINOZAKI, YASUHIRO, YAMADA, MANABU

2013-05-30 Publication of US20130133675A1 publication Critical patent/US20130133675A1/en

2018-07-18 Priority to US16/038,877 priority Critical patent/US11160304B2/en

Status Abandoned legal-status Critical Current

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Classifications

- A24F47/008—
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24D—CIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
- A24D1/00—Cigars; Cigarettes
- A24D1/22—Cigarettes with integrated combustible heat sources, e.g. with carbonaceous heat sources

Definitions

the present invention relates to smokeless flavor inhalators capable of releasing flavor without generating aerosol to allow users to inhale and enjoy the released flavor.
Smoking articles such as cigarettes and cigars are typical flavor generation products using, as a medium, the smoke (aerosol) produced by the combustion of tobacco leaves to allow users to enjoy the flavor of tobacco through the senses of taste and smell.
the substitutes for the smoking articles can be roughly classified into two types, non-heating type and heating type. In either type, tobacco leaves are not burned, and thus it is possible to prevent the sidestream smoke or smell of the burned tobacco leaves from affecting the people around the user.
the non-heating type smoking article substitute disclosed in Patent Document 1 identified below includes a holder provided with an air inlet opening and a mouthpiece, and an air permeable vessel accommodated in the holder.
the air permeable vessel is filled with a tobacco material impregnated with the flavor components of tobacco.
the user has only to inhale, through the mouthpiece, the air that has passed through the tobacco material, without lighting the tobacco material, to enjoy the flavor of tobacco contained in the air.
the heating-type substitutes for the smoking articles can be classified in more detail according to the type of heat source and the method of transferring heat from the heat source to the tobacco material or the flavor generator.
the smoking article substitutes disclosed in Patent Documents 2 to 6 use a carbon heat source.
the carbon heat source heats air by utilizing the heat of combustion thereof, to produce a high-temperature gas flow for heating the tobacco material or the flavor generator.
the flavor components of tobacco are vaporized and released invariably by heating the tobacco material or the flavor generator.
the smoking article substitutes disclosed in Patent Documents 7 and 8 also use a carbon heat source.
heat generated by the combustion of the carbon heat source is transferred to the tobacco material or the flavor generator to heat same.
the smoking article substitutes disclosed in Patent Documents 9 to 13 use a liquid or gas fuel as the heat source.
a liquid fuel is burned with the aid of a catalyst, and the tobacco material or the flavor generator is heated by a high-temperature gas flow created by the combustion heat of the liquid fuel.
the smoking article substitute of Patent Document 10 is equipped with a micro gas burner as an attachment, which is used to heat a cigarette.
the smoking article substitute of Patent Document 13 is provided with a heat sink, which stores heat therein as it is heated by the flame of a gas lighter (external heat source).
the heat stored in the heat sink is transferred through a heat pipe to a volatile component (flavor generator) to heat same.
the smoking article substitutes disclosed in Patent Documents 14 to 17 are provided with a heat source utilizing the heat of chemical reaction.
the heat source generates heat by utilizing an exothermic reaction between two chemicals (e.g., quicklime and water), to heat the tobacco material or the flavor generator.
the heat source generates heat by utilizing the heat of oxidation reaction of metal, to heat the tobacco material or the flavor generator.
the smoking article substitutes disclosed in Patent Documents 18 to 21 are all provided with a heat source utilizing electrical energy. Namely, the heat source converts electrical energy to heat energy, which is used to heat the tobacco material or the flavor generator.
additives to be added to the tobacco material and heating conditions for heating the additives are defined with a view to heightening the flavor component releasing effect.
the tobacco material or the flavor generator is heated, thus allowing a large amount of flavor components to be released from the tobacco material or the flavor generator, compared with the smoking article substitute of Patent Document 1. It is therefore thought that the user will be able to enjoy the flavor to an extent equivalent to that to which the user senses when smoking an ordinary filter cigarette. Since the heating of the tobacco material or the flavor generator is accompanied by the generation of aerosol, however, the smoking article substitutes of Patent Documents 2 to 21 are not perfectly smokeless.
the smoking article substitute of Patent Document 22 is smokeless and at the same time is capable of releasing an increased amount of flavor components.
the smoking article substitute of Patent Document 22 it is necessary that a large amount of water should be contained in the tobacco material.
the water content needs to be 0.25 to 7 g, preferably, 1 to 5 g per gram of the tobacco material.
the water content per gram of the tobacco material is 0.1 to 0.15 g, and even in snuff having a relatively high water content such as snus, the upper-limit water content per gram of the tobacco material is 0.5 g or thereabout from the standpoint of preservative quality.
the smoking article substitute of Patent Document 22 is not suitable for commercial realization from the standpoint of the preservative quality of the tobacco material.
the water content of the tobacco material decreases due to the heating of the tobacco material.
the amount of the flavor components released from the tobacco material varies, which brings a feeling of strangeness to the user.
An object of the present invention is to provide a smokeless flavor inhalator permitting compatibility between smokelessness and strengthening of flavor and also capable of stabilizing the amount of flavor components released each time the user inhales through the flavor inhalator.
the present invention provides a smokeless flavor inhalator comprising: a casing having a mouthpiece, the casing being configured to generate a flow of air guided therethrough toward the mouthpiece when a user inhales through the mouthpiece; a flavor generator arranged inside the casing and capable of releasing a flavor component into the air flow; and a heater for keeping the flavor generator heated at a heating temperature of 50 to 200° C., to allow the flavor component to be released while preventing generation of aerosol from the flavor generator, wherein the heater includes a carbon heat source having air permeability and attached to a distal end of the casing for heating the air, and an incombustible cooling element having air permeability and arranged inside the casing and between the carbon heat source and the flavor generator for cooling the air heated by the carbon heat source.
the heater keeps the heating temperature of the flavor generator at a temperature of 50 to 200° C. Accordingly, when the user inhales through the flavor inhalator, the flavor generator releases the flavor component into the air flow guided toward the mouthpiece, without generating any aerosol (smoke).
the flavor inhalator is therefore not only smokeless but is capable of delivering the flavor component into the user's mouth.
the cooling element has a plurality of through holes formed therethrough, and the through holes provide the cooling element with a heat exchange area of 500 mm 2 or more.
the presence of the cooling element serves to shorten the distance required between the carbon heat source and the flavor generator, making it possible to reduce the length of the flavor inhalator.
the smokeless flavor inhalator of the present invention permits flavor components to be effectively released from the flavor generator without an aerosol being generated from the flavor generator, whereby the flavor components of the flavor generator can be adequately delivered into the user's mouth.
FIG. 1 is a longitudinal sectional view of a smokeless flavor inhalator according to a first embodiment.
FIG. 2 exemplifies an end face of a carbon heat source.
FIG. 3 exemplifies another end face of the carbon heat source.
FIG. 4 exemplifies still another end face of the carbon heat source.
FIG. 5 is a longitudinal sectional view of a heat source holder according to modification 1(1) of the first embodiment.
FIG. 6 is a longitudinal sectional view of a flavor inhalator according to modification 1(2) of the first embodiment.
FIG. 7 is a longitudinal sectional view of a smokeless flavor inhalator according to a second embodiment.
FIG. 8 is a longitudinal sectional view of a smokeless flavor inhalator according to a third embodiment.
FIG. 9 is a longitudinal sectional view of a flavor inhalator according to modification 3(1) of the third embodiment.
FIG. 10 is a longitudinal sectional view of a flavor inhalator according to modification 3(2) of the third embodiment.
FIG. 11 is a longitudinal sectional view of a smokeless flavor inhalator according to a fourth embodiment.
FIG. 12 schematically illustrates a first testing device.
FIG. 13 schematically illustrates a second testing device.
FIG. 14 schematically illustrates a third testing device.
FIG. 15 is an end view of a carbon heat source used in the third testing device.
FIG. 16 is a perspective view of the carbon heat source of FIG. 15 .
FIG. 17 is a graph showing test results obtained using the third testing device.
FIG. 18 schematically illustrates a fourth testing device.
FIG. 19 is an end view of a cooling element used in the fourth testing device.
FIG. 20 is an end view of another cooling element used in the fourth testing device.
FIG. 21 is a graph showing test results obtained using the fourth testing device.
FIG. 22 is a graph showing the relations between heat exchange areas and outlet temperatures of the cooling element.
a smokeless flavor inhalator according to a first embodiment, illustrated in FIG. 1 is categorized as Carbon Combustion+High-temperature Gas Heating+Cooling type and is shaped like a rod as a whole.
the inhalator of FIG. 1 has a carbon heat source 10 at a distal end thereof.
the carbon heat source 10 will be described in detail.
the carbon heat source 10 is cylindrical in shape and is obtained by molding a mixture of high-purity carbon particles, an incombustible additive, an organic or inorganic binder, and water into shape. Specifically, the carbon heat source 10 has a carbon ratio of 10 to 99 weight % or a carbon content of 1 to 120 mg/mm.
the high-purity carbon particles are obtained, for example, by heating carbon at a high temperature of 750° C. or more for 5 minutes or more in an inert gas atmosphere. This heating process removes volatile components, which are impurities contained in carbon particles. As a result, odor emitted from the carbon particles is lessened.
the incombustible additive carbonates or oxides of sodium, potassium, calcium, magnesium and silicon may be used.
the incombustible additive accounts for 40 to 89 weight % of the carbon heat source 10 .
calcium carbonate is used as the incombustible additive.
the incombustible additive is optional and may be omitted.
the organic binder is one, or a mixture of two or more, of alginates, CMC, EVA, PVA, PVAC and sugars, and accounts for 1 to 10 weight % of the carbon heat source 10 .
a preferred organic binder is ammonium alginate.
mineral-based binders such as refined bentonite, or silica-based binders, such as colloidal silica, water glass and calcium silicate, may be used.
silica-based binders such as colloidal silica, water glass and calcium silicate.
the inorganic binder accounts for 5 to 20 weight % of the carbon heat source 10 .
the inorganic binder is superior to the organic binder in that the former emits no smoke when the carbon heat source 10 is burned.
the carbon heat source 10 is preferably obtained by a carbonizing-and-baking process.
the carbonizing-and-baking process removes the organic binder from the carbon heat source 10 , and therefore, the carbon heat source 10 does not emit odor when burned.
the carbonizing-and-baking process is described in detail in, for example, JP 3024703 B1.
the carbon heat source 10 has at least one through hole 12 extending in an axial direction thereof.
FIGS. 2 to 4 each illustrate an exemplary concrete shape of an end face of the carbon heat source 1 .
adjacent ones of the through holes 12 are set apart from each other by a partition wall.
the partition wall has a thickness of 0.1 to 0.5 mm.
the carbon heat source 10 is attached to a distal end of a heat source holder 14 .
the heat source holder 14 will be described in detail.
the heat source holder 14 has heat resistance and is tubular in shape.
the heat source holder 14 holds the carbon heat source 10 in such a manner that a predetermined length of the carbon heat source 10 projects from the distal end of the heat source holder 14 .
the heat source holder 14 has a peripheral wall with a laminated structure, for example.
the peripheral wall is constituted by a single laminate including a metal layer and a paper layer bonded together, or by a plurality of such laminates superposed one upon the other in a radial direction of the heat source holder 14 .
An inner surface of the peripheral wall has to be constituted by the metal layer.
the metal layer is made of an aluminum alloy, for example, and the total thickness of the metal layers included in the peripheral wall is preferably larger than or equal to 30 ⁇ m.
the paper layer may be obtained from wrapper paper used for cigarettes, tip paper used for filter-tipped cigarettes, or other paper material such as ordinary paper, incombustible paper and flame-resistant paper.
the metal layer has excellent heat conductivity. Accordingly, when the carbon heat source 10 is burned and thus the paper layer is heated by the heat from the carbon heat source 10 , the metal layer keeps the heating temperature of the paper layer lower than the burning temperature of the paper layer. The emission of odor due to scorching of the paper layer can therefore be suppressed.
the heat source holder 14 may have a peripheral wall made of an incombustible material, or a composite peripheral wall including a wall section constituted by the aforementioned peripheral wall with the laminated structure and a wall section made of an incombustible material.
the incombustible material one of inorganic materials including ceramics, meerschaums, glass and metals or a mixture of two or more of the inorganic materials may be used.
the heat source holder 14 accommodates a cooling element 16 .
the cooling element 16 has air permeability and heat resistance and is located adjacent to the carbon heat source 10 . In the following, the cooling element 16 will be described in detail.
the cooling element 16 is made of an inorganic material such as ceramics, meerschaums, glass, metals and calcium carbonate, hydrates, or water absorptive polymers.
the cooling element 16 has a honeycomb structure, a foamed structure or a packing structure, the packing structure being obtained by packing pellets or a granular or fibrous material into a mold.
the cooling element 16 includes internal passages. These internal passages have a total inner surface or a heat exchange area of 500 mm 2 or more.
the cooling element 16 contains the inorganic material of 90 to 95 wt %.
the cooling element 16 may alternatively have a composite structure including two or more different structures selected from the above structures, and the different structures may be juxtaposed so as to be closely adjacent to each other or with a space therebetween in the axial direction of the heat source holder 14 .
the cooling element 16 may contain water, an aromatic, an extraction liquid of tobacco components, and the like.
a material holder 18 is coupled to the proximal end of the heat source holder 14 .
the material holder 18 has heat resistance and is tubular in shape.
the material holder 18 is made of paper, metal or synthetic resin, or is farmed using the laminated structure of the aforementioned laminates.
a tobacco material 20 is contained in the material holder 18 .
the tobacco material 20 may be ordinary shredded tobacco used for cigarettes, granular tobacco used for snuff, rolled tobacco, or molded tobacco.
the rolled tobacco is obtained by forming a sheet of reconstituted tobacco into a roll and has channels therein.
the molded tobacco is obtained by molding granular tobacco into shape.
the tobacco material 20 may be admixed with a flavor-developing aid.
the flavor-developing aid contains at least one of carbonates, hydrogen carbonates, oxides and hydroxides of alkali metals and/or alkaline-earth metals.
a preferred flavor-developing aid is potassium carbonate.
the tobacco material 20 may further contain a desired aromatic or aromatics.
the tobacco material 20 is 5 to 30 mm in length and has a resistance of 10 to 120 mmAq to draw. It is to be noted here that the tobacco material 20 has a water content equivalent to that of shredded tobacco used in ordinary cigarettes, that is, a water content of 10 to 20 weight %.
the tobacco material 20 is held between front and rear stoppers 22 f and 22 r to be kept within the material holder 18 .
Each of the stoppers 22 f and 22 r is shaped like a disk and has air permeability.
the stoppers 22 f and 22 r are fitted into respective opposite ends of the material holder 18 and are each made of a filter material such as acetate and paper, or a membrane material such as nonwoven fabric, or formed using an inorganic molded piece having air permeability.
a mouthpiece 24 is connected to a rear end of the material holder 18 .
the mouthpiece 24 includes a tubular filter holder 26 .
the filter holder 26 is made of paper or a synthetic resin and has a rear end forming a mouthpiece.
a filter 28 is accommodated in the filter holder 26 .
the filter 28 is in the form of a solid cylinder and is made of acetate fibers, paper or the like. Acetate fibers and paper have the property of not readily adsorbing the flavor components of the tobacco material 20 .
the filter 28 may have at least one through hole axially extending therethrough. Further, the filter 28 may be a combination of different kinds of filter materials, like dual filters and the like for cigarettes.
the user first lights the carbon heat source 10 of the flavor inhalator and then inhales with the mouthpiece 24 held in his/her mouth.
the inhalation creates a flow of air from the outside of the flavor inhalator into the user's mouth cavity through the through holes 12 of the carbon heat source 10 , the cooling element 16 in the heat source holder 14 , the front stopper 22 f , the tobacco material 20 , the rear stopper 22 r , the filter 28 and the mouthpiece 24 .
the air flow While passing through the through holes 12 in the carbon heat source 10 , the air flow is heated by the combustion heat of the carbon heat source 10 . Accordingly, the air flow just left the carbon heat source 10 forms a high-temperature gas flow.
the high-temperature gas flow is cooled in some degree while passing through the cooling element 16 , thus turning to a heated gas flow.
the heated gas flow heats the tobacco material 20 when passing through the tobacco material 20 , but the heating of the tobacco material 20 by the heated gas flow does not lead to burning of the tobacco material 20 or generation of aerosol (smoke) from the tobacco material 20 .
the heating temperature of the tobacco material 20 is kept within a temperature range of 50 to 200° C. This temperature range is higher than an ambient temperature (concretely, 5 to 35° C.) at which the flavor inhalator is used, but is sufficiently lower than the heating temperature of the carbon heat source 10 .
the cooling element 16 has the function of lessening the amount of heat transferred from the carbon heat source 10 to the tobacco material 20 .
liquid contained in the tobacco material 20 such as water, is not aerosolized and the flavor components of the tobacco material 20 are satisfactorily released into the heated gas flow passing through the tobacco material 20 .
the aforementioned flavor-developing aid promotes the release of the flavor components from the tobacco material 20 into the heated gas flow; on the other hand, the amount of the flavor components adsorbed by the filter 28 of the mouthpiece 24 is small.
the flavor inhalator allows the heated gas flow containing a large amount of the flavor components of the tobacco material 20 to be delivered into the user's mouth cavity without generating an aerosol, so that the user can fully enjoy the flavor of the tobacco material 20 .
the carbon heat source 10 When the carbon heat source 10 is burned, the generation of smoke from the carbon heat source 10 is minimized as stated above, and therefore, the carbon heat source 10 also does not constitute a source of aerosol (smoke).
smokeless used herein means that the aerosol generated from the flavor inhalator during use has a concentration of 1.0 ⁇ 10 5 particles/cc or less. Aerosol with such a concentration is substantially invisible and the concentration is virtually unmeasurable because of the influence of the background of ambient air.
the water content of the tobacco material 20 is equivalent to that of shredded tobacco contained in ordinary cigarettes. Accordingly, although the tobacco material 20 is heated to a temperature falling within the aforementioned temperature range and its water content varies as a result, the amount of the flavor components in the heated gas flow inhaled per puff of the user is almost constant. As a result, the user can enjoy the flavor of the tobacco material 20 reliably and stably even if he/she repeatedly puffs.
the heat source holder 14 , the material holder 18 and the filter holder 26 constitute a casing of the flavor inhalator.
the holders 14 , 18 and 26 connected to one another at lease two of the holders may be formed as a one-piece body, or adjacent ones of the holders may be previously connected to each other by tip paper or the like. Further, the holders may be detachably connected to one another.
the present invention is not limited to the aforementioned first embodiment and may be modified in various ways.
FIG. 5 illustrates modification 1(1) of the flavor inhalator of the first embodiment.
a heat insulator 30 is arranged between the carbon heat source 10 and the heat source holder 14 .
the heat insulator 30 is tubular in shape and is made of an inorganic material such as inorganic fibers, or formed using an inorganic molded piece, for example.
the heat insulator 30 reduces the transfer of heat from the carbon heat source 10 to the heat source holder 14 and prevents the generation of smoke due to scorching of the heat source holder 14 .
the heat insulator 30 may be so arranged as to surround the entire outer periphery of the carbon heat source 10 . In this case, smoke, if produced in a small amount due to the combustion of the carbon heat source 10 , is dispersed within the heat insulator 30 and does not become visible.
FIG. 6 illustrates modification 1(2) of the smokeless flavor inhalator of the first embodiment.
the flavor inhalator has a plurality of air inlet holes 32 formed in at least one of the heat source holder 14 , the material holder 18 and the filter holder 26 .
the air inlet holes 32 are located downstream of the carbon heat source 10 and are arranged at intervals in the circumferential direction of the corresponding holder.
the air inlet holes 32 are formed in each of the heat source holder 14 , the material holder 18 and the filter holder 26 .
FIG. 7 illustrates a smokeless flavor inhalator according to a second embodiment.
the flavor inhalator of FIG. 7 is categorized as Carbon Combustion+High-temperature Gas/Thermal Conduction Heating+Cooling type.
the flavor inhalator of the second embodiment is provided with a heat conduction holder 50 .
the heat conduction holder 50 not only serves as both of the heat source holder 14 and the material holder 18 but has the function of transferring the heat of the carbon heat source 10 to the tobacco material 20 . Accordingly, the heat conduction holder 50 is made of a highly heat-conductive material.
the heat conduction holder 50 allows heat to be transferred from the carbon heat source 10 to the tobacco material 20 .
the tobacco material 20 is continuously heated to emit the flavor components having a rich taste and aroma.
FIG. 8 illustrates a smokeless flavor inhalator according to a third embodiment.
This flavor inhalator is categorized as Carbon Combustion+Thermal Conduction Heating type.
the flavor inhalator of the third embodiment is also provided with the heat conduction holder 50 but uses an incombustible element 52 , in place of the cooling element 16 and the front stopper 22 f.
the incombustible element 52 has air impermeability and heat resistance. Specifically, the incombustible element 52 is constituted by a filler of inorganic fibers or an inorganic molded piece and, as clearly shown in FIG. 8 , is interposed between the carbon heat source 10 and the tobacco material 20 within the heat conduction holder 50 .
the heat conduction holder 50 Since the incombustible element 52 is impermeable to air, the heat conduction holder 50 has a plurality of air inlet holes 32 formed in the outer periphery thereof.
heat generated by the combustion of the carbon heat source 10 is transferred to the tobacco material 20 only through the heat conduction holder 50 , and the tobacco material 20 is heated to a temperature within the aforementioned temperature range only by the thus-transferred heat. That is, the heat conduction holder 50 performs a function similar to that of the aforementioned cooling element 16 . In this case, it is unlikely that the user will inhale the combustion gas produced by the combustion of the carbon heat source 10 .
the carbon heat source 10 need not have air permeability. Where the carbon heat source used is impermeable to air, the incombustible element 52 may have air permeability. Thus, in the case of the third embodiment, either the carbon heat source 10 or the incombustible element 52 has only to be impermeable to air, in order to prevent the combustion gas from flowing into the tobacco material 20 .
the carbon heat source 10 preferably has a circular cross section, as illustrated in FIG. 2 or 3 .
the carbon heat source 10 illustrated in FIG. 2 or 3 has a large effective heat transfer area with respect to the inner peripheral surface of the heat conduction holder 50 , compared with the carbon heat source 10 shown in FIG. 4 .
FIG. 9 illustrates modification 3(1) of the flavor inhalator of the third embodiment.
the flavor inhalator is provided with a heat conduction rod 54 , in place of the heat conduction holder 50 .
the heat conduction rod 54 extends through the carbon heat source 10 , the incombustible element 52 and the tobacco material 20 in their center and has an outer end projecting from the carbon heat source 10 and an inner end disposed in contact with the rear stopper 22 r .
the carbon heat source 10 , the incombustible element 52 and the tobacco material section 20 are each tubular or annular in shape.
the heat conduction rod 54 is made of a metal having high heat conductivity, for example, an aluminum alloy, and is a solid member or a hollow member with at least one end closed. Compared with the solid heat conduction rod, the hollow heat conduction rod 54 has small heat capacity and thus is capable of satisfactorily and quickly conducting heat from the carbon heat source 10 to the tobacco material 20 .
the heat conduction rod 54 may, in this case, have an outer diameter of 1 to 5 mm, and the length of the tobacco material section 20 may be 5 to 50 mm.
FIG. 10 illustrates modification 3(2) of the flavor inhalator of the third embodiment.
a heat conduction pipe 56 is arranged inside the hollow carbon heat source 10 coaxially therewith.
the heat conduction pipe 56 serves as both of the material holder 18 and the heat conduction rod 54 .
the heat conduction pipe 56 has an air inlet opening located at a distal end face of the carbon heat source 10 , and the front stopper 22 f is fitted into the distal end portion of the heat conduction pipe 56 .
a gap of 5 mm or more is provided between the front stopper 22 f and the air inlet opening. The gap serves to reliably prevent the tobacco material 20 from burning when the carbon heat source 10 is lighted.
the carbon heat source 10 is surrounded by an outer heat insulator 58 .
the outer heat insulator 58 is in the form of a thin pipe and has air permeability, that is, breathability.
the outer heat insulator 58 serves to reduce the radiation of heat from the carbon heat source 10 , thereby making it possible to keep the amount of heat necessary for sustaining the combustion of the carbon heat source 10 , and thus is very effective in securing combustion sustention of the carbon heat source 10 .
an insulator in the form of a thin pipe (not shown) is arranged between the carbon heat source 10 and the heat conduction pipe 56 , and/or between the heat conduction pipe 56 and the tobacco material 20 .
the heat conduction pipe 56 has an outer diameter of 3 to 8 mm and an inner diameter of 2 to 7 mm.
FIG. 11 illustrates a smokeless flavor inhalator according to a fourth embodiment.
This flavor inhalator is categorized as Carbon Combustion+Air Heating type.
the carbon heat source 10 has an air inlet hole 60 formed in the center thereof.
the air inlet hole 60 axially penetrates through the carbon heat source 10 .
the carbon heat source 10 has a heat-resistant coating 62 covering the entire inner surface of the air inlet hole 60 .
the heat-resistant coating 62 may be made of clay, or a metal oxide such as iron oxide, alumina, titania, silica, silica-alumina, zirconia and zeolite, or a mixture of clay and two or more of the mentioned metal oxides.
the incombustible element 52 has a through hole 64 formed in the center thereof and connected to the air inlet hole 60 .
the incombustible element 52 has an extension surrounding the rear end portion of the carbon heat source 10 .
the incombustible element 52 serves also as the heat source holder 14 .
the reference sign L 1 represents a projection length of the carbon heat source 10 projecting from the incombustible element 52
the reference sign L 2 represents an overlap length (length of the extension) of the incombustible element 52 overlapping with the carbon heat source 10 .
the flavor inhalator of the fourth embodiment when the user inhales through the mouthpiece 24 after lighting the carbon heat source 10 , air flows into the tobacco material 20 through the air inlet hole 60 of the carbon heat source 10 and the through hole 64 of the incombustible element 52 , and the air is heated to a temperature within the aforementioned temperature range in the process of passing through the carbon heat source 10 .
the flavor inhalator of this embodiment also permits the flavor components of the tobacco material 20 to be adequately delivered into the user's mouth cavity without generating an aerosol.
the smokeless flavor inhalator of the present invention requires that the tobacco material 20 be heated to a temperature of 50° C. to 200° C. while the inhalator is in use.
a first testing device shown in FIG. 12 was prepared.
the first testing device is provided with a heat resistant tube 100 accommodating the tobacco material 20 , and a heater 102 surrounding the tube 100 and capable of heating the tube 100 , namely, the tobacco material 20 , up to 22° C. or 50° C.
the tobacco material 20 subjected to the test contained 230 mg of tobacco particles made from Burley tobacco leaves and 14 mg of potassium carbonate. The tobacco particles had a particle diameter of 0.5 to 1.18 mm.
the first testing device is further provided with a suction source 104 , which is connected to the tube 100 through an impinger 106 .
the suction source 104 is configured to draw in air or a gas from the tube 100 through the impinger 106 at a flow rate of 55 ml/2 sec (corresponding to one puff).
the suction gas was drawn to the suction source 104 while being allowed to bubble in the impinger 106 so that a flavor component (nicotine) of the tobacco material contained in the suction gas might be collected in the impinger 106 .
a flavor component Nicotine
the amount of the collected flavor component was 0.7 ⁇ g/puff.
the flavor component was collected in the impinger 106 in the same manner, and it was found that the amount of the collected flavor component was 9.0 ⁇ g/puff.
FIG. 13 illustrates a second testing device.
the second testing device is provided with a heat resistant tube 108 accommodating the tobacco material 20 .
the tobacco material 20 subjected to the test contained 35 mg of tobacco particles made from Burley tobacco leaves, and the tobacco particles had a particle diameter of 0.5 to 1.18 mm.
the tube 108 is connected through a transparent case 110 and a mass-flow controller 112 to a suction pump 114 , which is capable of drawing in air from the tube 108 at a flow rate of 1,650 ml/min.
the cooling element 16 needs to have the heat exchange area of 500 mm 2 , as stated above.
a third testing device illustrated in FIG. 14 was prepared.
the third testing device is provided with a tube 116 made of heat resistant paper.
the tube 116 has a hollow cylindrical carbon heat source 10 a attached to a distal end thereof.
the carbon heat source 10 a subjected to the test was obtained by extrusion molding and contained 80 weight % of active carbon, 15 weight % of calcium carbonate, and 5 weight % of carboxymethylcellulose (CMC). Specifically, as illustrated in FIGS. 15 and 16 , the carbon heat source 10 a had an inner diameter of 3 mm, an outer diameter of 6.8 mm, and a length of 10 mm.
the proximal end of the tube 116 is connected to a suction source (not shown), and the suction source is configured to draw in air from the tube 116 at a flow rate of 55 ml/2 sec (corresponding to one puff) at intervals of 30 seconds.
the tube 116 has five temperature sensors (not shown) attached thereto. The temperature sensors are located at distances of 5 mm, 10 mm, 15 mm, 20 mm and 50 mm from the carbon heat source 10 a , respectively, and are each capable of measuring the temperature in the tube 116 .
the temperature in the tube 116 shows a tendency to lower with increasing distance from the carbon heat source 10 a , and in order for the temperature in the tube 116 to drop to 200° C. or less, a distance of 50 mm or more from the carbon heat source 10 a is needed.
a distance of 50 mm or more needs to be secured between the carbon heat source 10 a and the tobacco material 20 in order to restrict the heating temperature of the tobacco material 20 to a temperature not higher than 200° C., at and below which generation of smoke (aerosol) from the tobacco material 20 can be avoided.
the smokeless flavor inhalator does not include the cooling element 16 , a distance of 50 mm or more needs to be provided between the carbon heat source 10 a and the tobacco material 20 .
a distance of 50 mm or more needs to be provided between the carbon heat source 10 a and the tobacco material 20 .
Such a flavor inhalator is, however, extraordinarily long and is not practical.
FIG. 18 illustrates a fourth testing device prepared for verifying the function of the cooling element 16 .
the fourth testing device includes the cooling element 16 having air permeability as well as heat resistance and arranged inside the tube 116 in a position adjacent to the carbon heat source 10 a .
the temperature sensor is arranged only at the outlet end (downstream end) of the cooling element 16 to measure the temperature in the tube 116 at the outlet of the cooling element 16 .
cooling elements 16 a and 16 b For use with the fourth testing device, multiple pieces of cylindrical cooling elements 16 a and 16 b , illustrated in FIGS. 19 and 20 , respectively, were prepared.
the cooling elements 16 a and 16 b were each obtained by extrusion molding and contained 95 weight % of calcium carbonate and 5 weight % of carboxymethylcellulose (CMC).
the cooling elements 16 a and 16 b are identical in outer diameter (6.5 mm) but are different in the opening area of their internal passages. Specifically, the cooling element 16 a had an opening area of 17.2 mm 2 obtained, for example, by 52 through holes each with a square (0.57 mm ⁇ 0.57 mm) cross-section. In this case, the total length of the inner perimeters of all through holes is 120 mm.
the cooling element 16 b had an opening area of 24.1 mm 2 obtained, for example, by 21 through holes each with a square (1.23 mm ⁇ 1.23 mm) cross-section. In this case, the total length of the inner perimeters of all through holes is 90.9 mm.
the heat exchange areas of the cooling elements 16 a and 16 b are each given by: inner perimeter x length, the cooling elements 16 a and 16 b with different lengths were prepared.
FIGS. 21 and 22 show the test results. As is clear from FIG. 21 , the greater the length, the lower the outlet temperature of the cooling element 16 becomes, regardless of whether the cooling element tested is the cooling element 16 a or the cooling element 16 b.
the test results indicate that a heat exchange area of 500 mm 2 is needed in order to keep the outlet temperature of the cooling element 16 , that is, the heating temperature of the tobacco material 20 , at 200° C. or below.
the cooling element 16 a or 16 b in the smokeless flavor inhalator, it is possible to significantly shorten the distance (length of the cooling element 16 a or 16 b ) needed between the carbon heat source 10 and the tobacco material 20 , so that the overall length of the smokeless flavor inhalator can be reduced to a practical level.
the cooling element 16 a or 16 b located between the carbon heat source 10 and the tobacco material 20 need not be disposed in direct contact with the carbon heat source 10 or the tobacco material 20 .
a predetermined space may be provided between the carbon heat source 10 and the cooling element 16 a or 16 b , or between the cooling element 16 a or 16 b and the tobacco material 20 .
the presence of the cooling element 16 a or 16 b makes it unnecessary to introduce outside air to the upstream side of the tobacco material 20 , that is, into the region between the carbon heat source 10 and the tobacco material 20 , in order to keep the heating temperature of the tobacco material 20 at a temperature not higher than 200° C., and also prevents the ignition performance of the carbon heat source 10 from being deteriorated due to the inflow of the outside air.
the introduction of outside air leads to reduction in the amount of the outside air passing through the carbon heat source 10 when the carbon heat source 10 is lighted, deteriorating the ignition performance of the carbon heat source 10 .
the flavor generator is not limited to the aforementioned tobacco material and may be a liquid or solid aromatic, other than the flavor components of the tobacco material, carried on a base material of cellulose or the like.
the flavor inhalator of the present invention may be implemented by optionally combining the elements in the aforementioned embodiments and modifications with commonly known means without departing from the purpose of the invention.

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US13/720,081 2010-07-30 2012-12-19 Smokeless flavor inhalator Abandoned US20130133675A1 (en)

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US16/038,877 US11160304B2 (en)	2010-07-30	2018-07-18	Smokeless flavor inhalator

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JP2010172338		2010-07-30
JP2010-172338		2010-07-30
PCT/JP2011/004299 WO2012014490A1 (fr)	2010-07-30	2011-07-28	Inhalateur d'arôme sans fumée

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PCT/JP2011/004299 Continuation WO2012014490A1 (fr)	2010-07-30	2011-07-28	Inhalateur d'arôme sans fumée

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US20130133675A1 true US20130133675A1 (en)	2013-05-30

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US13/720,081 Abandoned US20130133675A1 (en)	2010-07-30	2012-12-19	Smokeless flavor inhalator
US16/038,877 Active 2033-04-05 US11160304B2 (en)	2010-07-30	2018-07-18	Smokeless flavor inhalator

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US (2)	US20130133675A1 (fr)
EP (2)	EP3831220B1 (fr)
JP (1)	JP5459813B2 (fr)
CN (1)	CN103037718B (fr)
RU (1)	RU2524887C1 (fr)
TW (1)	TWI507220B (fr)
WO (1)	WO2012014490A1 (fr)

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Publication number	Publication date
JP2013532953A (ja)	2013-08-22
WO2012014490A1 (fr)	2012-02-02
EP2597976B1 (fr)	2021-03-10
TWI507220B (zh)	2015-11-11
CN103037718B (zh)	2014-05-21
CN103037718A (zh)	2013-04-10
JP5459813B2 (ja)	2014-04-02
EP3831220A1 (fr)	2021-06-09
TW201208725A (en)	2012-03-01
EP2597976A1 (fr)	2013-06-05
EP3831220B1 (fr)	2022-09-07
RU2524887C1 (ru)	2014-08-10
US20180317560A1 (en)	2018-11-08
US11160304B2 (en)	2021-11-02
EP2597976A4 (fr)	2017-02-22

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