EP3915404A1 - Cartouche de liquide insérable dans un objet à fumer chauffé électriquement, objet à fumer chauffé électriquement la comprenant et dispositif et système de génération d'aérosol associés - Google Patents

Cartouche de liquide insérable dans un objet à fumer chauffé électriquement, objet à fumer chauffé électriquement la comprenant et dispositif et système de génération d'aérosol associés Download PDF

Info

Publication number: EP3915404A1
Authority: EP; European Patent Office
Prior art keywords: smoking article; liquid cartridge; liquid; absorbent; electrically heated
Prior art date: 2019-01-24
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.): Pending

Application number

EP20745034.7A

Other languages

German (de)

English (en)

Other versions

EP3915404A4 (fr

Inventor

Seung Kiu Jeong

Hyuk Won

Seung Joo Han

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.)

Inno IT Co Ltd

Original Assignee

Inno IT Co Ltd

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.)

2019-01-24

Filing date

2020-01-28

Publication date

2021-12-01

2020-01-28 Application filed by Inno IT Co Ltd filed Critical Inno IT Co Ltd

2020-01-28 Priority claimed from PCT/KR2020/001277 external-priority patent/WO2020153828A1/fr

2021-12-01 Publication of EP3915404A1 publication Critical patent/EP3915404A1/fr

2022-11-16 Publication of EP3915404A4 publication Critical patent/EP3915404A4/fr

Status Pending legal-status Critical Current

Links

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Images

Classifications

- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24B—MANUFACTURE OR PREPARATION OF TOBACCO FOR SMOKING OR CHEWING; TOBACCO; SNUFF
- A24B15/00—Chemical features or treatment of tobacco; Tobacco substitutes, e.g. in liquid form
- A24B15/10—Chemical features of tobacco products or tobacco substitutes
- A24B15/16—Chemical features of tobacco products or tobacco substitutes of tobacco substitutes
- A24B15/167—Chemical features of tobacco products or tobacco substitutes of tobacco substitutes in liquid or vaporisable form, e.g. liquid compositions for electronic cigarettes
- 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
- A24D1/20—Cigarettes specially adapted for simulated smoking devices
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/30—Devices using two or more structurally separated inhalable precursors, e.g. using two liquid precursors in two cartridges
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/10—Devices using liquid inhalable precursors
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/20—Devices using solid inhalable precursors
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24F—SMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
- A24F40/00—Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
- A24F40/40—Constructional details, e.g. connection of cartridges and battery parts
- A24F40/46—Shape or structure of electric heating means
- A24F40/465—Shape or structure of electric heating means specially adapted for induction heating

Definitions

the present invention relates to a liquid cartridge that can be inserted into an electrically heated smoking article, an electrically heated smoking article including the same, and an aerosol generating device and system therefor, and more particularly, to a liquid cartridge that can be inserted into an electrically heated smoking article comprising a tobacco substrate, for generating an aerosol by heating instead of burning, and that can generate more aerosol by heating, an electrically heated smoking article including the same, and an aerosol generating device and system therefor.
a reconstituted tobacco slurry sheet which is the main ingredient of the tobacco substrate, is not easy to manufacture because of its low tensile strength, and its physical properties are weak because the tobacco substrate contains large amounts of humectants.
the tobacco substrate contains a liquid such as glycerin and is sensitive to the humidity in the surroundings due to its hydrophilic nature, which makes it difficult to control the environment of the manufacturing process.
the tobacco substrate can contain only a limited amount of liquid.
An object of the present invention is to solve the problems occurring in the prior art and provide a liquid cartridge that can be inserted into an electrically heated smoking article, an electrically heated smoking article including the same, and an aerosol generating device and system therefor.
the present invention provides a liquid cartridge that can be inserted into an electrically heated smoking article, the liquid cartridge comprising: a liquid composition; an absorbent soaked with the liquid composition; and wrapping paper wrapped around the side of the absorbent in a cylindrical shape measuring 7 to 20 mm long and 5 to 8 mm in diameter, wherein the absorbent has a sufficient absorption rate to absorb 70 to 120 mg of liquid composition and keep the same in the liquid cartridge.
the present invention also provides an electrically heated smoking article comprising: a filter; the above liquid cartridge located upstream of the filter; and a tobacco filler containing shredded tobacco located upstream of the filter and located upstream or downstream of the liquid cartridge, wherein the filter, liquid cartridge, and tobacco filler are wrapped in wrapping paper to form a smoking article.
the present invention also provides an aerosol generating device for the above electrically heated smoking article, which is grippable and portable-sized, the aerosol generating device comprising: a cavity provided in the device into which the smoking article can be inserted; at least one of a resistance heater and an induction heater provided in the device, that can heat the interior or exterior of a liquid cartridge and tobacco filler of the smoking article; a rechargeable battery provided in the device to function as a direct current power source; and a control unit provided in the device to control the heaters by receiving direct current power from the battery.
the present invention also provides an aerosol generating system comprising: the above electrically heated smoking article: and an aerosol generating device comprising: a cavity into which the smoking article can be inserted; at least one of a resistance heater and an induction heater that can heat the interior or exterior of a liquid cartridge and tobacco filler of the smoking article; a rechargeable battery functioning as a direct current power source; and a control unit for controlling the heaters by receiving direct current power from the battery, wherein an aerosol is generated inside the smoking article by inserting the electrically heated smoking article into the cavity and electrically heating the liquid cartridge and tobacco filler of the electrically heated smoking article.
a liquid cartridge that can be inserted into an electrically heated smoking article, the liquid cartridge comprising: a liquid composition; an absorbent soaked with the liquid composition; and wrapping paper wrapped around the side of the absorbent in a cylindrical shape measuring 7 to 20 mm long and 5 to 8 mm in diameter, wherein the absorbent has a sufficient absorption rate to absorb 70 to 120 mg of liquid composition and keep the same in the liquid cartridge.
the liquid composition may contain glycerin VG and optionally contain glycerin PG, water, and flavorings, and the liquid composition may contain 70 to 100 wt% glycerin VG, 0 to 20 wt% glycerin PG, and 0 to 10 wt% water and further contain flavorings added in an amount that is 10 % or less of the total weight of the resulting liquid composition.
the absorbent may be made by crumpling or rolling a strip made of a melamine-based foam resin with a thickness of 2 to 3 mm into a cylindrical shape or by processing a melamine-based foam resin into a cylindrical shape, and optionally have a weight of 0.01 to 0.013 mg/mm 3 per unit volume.
the absorbent may be made by crumpling, folding, or rolling pulp or a fabric containing pulp into a cylindrical shape or by processing the same into a cylindrical shape, and optionally have a weight of 0.25 to 0.4 mg/mm 3 per unit volume.
the absorbent may be made by crumpling or rolling a cotton woven or non-woven fabric into a cylindrical shape or by processing the same into a cylindrical shape, and optionally have a weight of 0.2 to 0.35 mg/mm 3 per unit volume.
the absorbent may be made by crumpling or rolling a bamboo fiber woven or non-woven fabric into a cylindrical shape or by processing the same into a cylindrical shape, and optionally have a weight of 0.15 to 0.25 mg/mm 3 per unit volume.
the amount of liquid composition absorbed by the absorbent may be 0.13 to 0.32 mg/mm 3 per unit volume of the absorbent.
the wrapping paper may be made by attaching aluminum foil to paper, and may be wrapped in a cylindrical shape so that the aluminum foil comes into contact with the absorbent.
an electrically heated smoking article comprising: a filter; the above liquid cartridge located upstream of the filter; and a tobacco filler containing shredded tobacco located upstream of the filter and located upstream or downstream of the liquid cartridge, wherein the filter, liquid cartridge, and tobacco filler are wrapped in wrapping paper to form a smoking article.
a paper tube may be provided directly upstream of the filter.
an aerosol generating device for the above electrically heated smoking article, which is grippable and portable-sized, the aerosol generating device comprising: a cavity provided in the device into which the smoking article can be inserted; at least one of a resistance heater and an induction heater provided in the device, that can heat the interior or exterior of a liquid cartridge and tobacco filler of the smoking article; a rechargeable battery provided in the device to function as a direct current power source; and a control unit provided in the device to control the heaters by receiving direct current power from the battery.
the resistance heater may be either a pipe heater for heating the exterior of the smoking article or an invasive heater inserted into the smoking article to heat the interior, wherein the pipe heater may heat the liquid cartridge and/or tobacco filler, and the invasive heater may be inserted into the tobacco filler and heat the interior of the tobacco filler.
the aerosol generating device may further comprise a temperature sensor provided in the device to sense the temperatures of the heaters, wherein the control unit may control the resistance heater according to a sensed value from the temperature sensor.
the induction heater may be either a heat pipe made of a susceptor material that heats the exterior of the smoking article, heated by an excitation coil provided separately in the device, or a heat blade made of a susceptor material that is inserted into the smoking article to heat the interior of the smoking article, wherein the heat pipe may heat the liquid cartridge and/or tobacco filler, and the heat blade may be inserted into the tobacco filler and heat the interior of the tobacco filler.
the aerosol generating device may further comprise a temperature obtaining unit provided in the device to obtain the temperature of the induction heater, wherein the control unit may control the electrical current applied to the excitation coil based on an input from the temperature obtaining unit.
an aerosol generating system comprising: the above electrically heated smoking article; and an aerosol generating device comprising: a cavity into which the smoking article can be inserted; at least one of a resistance heater and an induction heater that can heat the interior or exterior of a liquid cartridge and tobacco filler of the smoking article; a rechargeable battery functioning as a direct current power source; and a control unit for controlling the heaters by receiving direct current power from the battery, wherein an aerosol may be generated inside the smoking article by inserting the electrically heated smoking article into the cavity and electrically heating the liquid cartridge and tobacco filler of the electrically heated smoking article.
the present invention it is possible to solve the problems occurring in the prior art when the user inhales an aerosol derived from a liquid and an aerosol derived from a tobacco substrate, by providing a liquid cartridge that can be inserted into an electrically heated smoking article and an electrically heated smoking article including the same.
upstream and downstream are used to describe the relative positions of segments of a smoking article in relation to the direction in which a user draws in air through the smoking article.
the smoking article includes an upstream end (through which air enters) and an opposite downstream end (through which air exits).
the user draws on the downstream end of the smoking article and inhales air that is drawn through the upstream end of the smoking article, passes through the inside of the smoking article, and goes out to the downstream end.
the downstream end is downstream of the upstream end.
end may also be described as "extreme end”.
a liquid cartridge which can be inserted into an electrically heated smoking article for generating an aerosol by heating, and an electrically heated smoking article including the liquid cartridge according to a preferred embodiment of the present invention will now be described with reference to the accompanying drawings.
the electrically heated smoking article is intended to indicate a smoking article which is heated by electric resistance or induction heating, not by burning, to generate an aerosol for inhalation by a user.
the smoking article contains a proper amount of aerosol-forming substrate and/or shredded tobacco to take an equivalent number of puffs to a single traditional cigarette.
the smoking article does not generate any more aerosol after generating a preset amount of aerosol and will be discarded by the user after used once.
the electrically heated smoking article according to the present invention comprises a liquid composition, such as typical shredded tobacco and glycerin, as an aerosol-forming substrate, which will be described below.
the electrically heated smoking article 50 according to a preferred embodiment of the present invention has a laminate structure composed of a tobacco filler 58 located at the upstream end that contains shredded tobacco as an aerosol-forming substrate, a liquid cartridge 56 located directly downstream thereof as another aerosol-forming substrate that contains a liquid composition, a paper tube 54 located directly downstream thereof that provides an aerosol passage, and a filter 52 functioning as a mouthpiece, all of which are wrapped in wrapping paper 60.
the relative positions of the liquid cartridge 56 and the tobacco filler 58 of shredded tobacco may be reversed.
the liquid cartridge 56 comprises: a liquid composition; an absorbent 56a soaked with the liquid composition; and wrapping paper 61 wrapped around the side of the absorbent in a cylindrical shape measuring 7 to 20 mm long and 5 to 8 mm in diameter, wherein the absorbent has a sufficient absorption rate to absorb 70 to 120 mg of liquid composition and keep it in the liquid cartridge 56.
the cylindrical shape measuring 7 to 20 mm long and 5 to 8 mm in diameter meets the standard for regular cigarettes or electrically heated smoking articles being currently used.
the shredded tobacco 58a in itself cannot maintain its form, it is wrapped in a separate piece of wrapping paper 62 to form the tobacco filler 58. Also, the shredded tobacco 58a is prepared in the same size as the liquid cartridge 56, and the aforementioned filter 52, paper tube 54, liquid cartridge 56, and tobacco filler 58 are wrapped in the wrapping paper 60, thereby obtaining the electrically heated smoking article 50 shown in FIG. 1 .
the present invention is characterized in that the absorbent of the liquid cartridge 56 of the above standard absorbs 70 to 120 mg of liquid composition, and this numerical range indicates the amount of liquid composition that provides an aerosol derived from the liquid composition as well when the user inhales an aerosol from the tobacco filler 58 of shredded tobacco in a single cigarette stick for the electrically heated smoking article. If the amount of liquid composition absorbed by the absorbent 56a is less than the above lower limit (70 mg), the amount of aerosol derived from the liquid composition when the user inhales an aerosol from the tobacco filler 58 of shredded tobacco in the electrically heated smoking article would be insufficient. Thus, the amount of liquid composition absorbed by the liquid cartridge 56 should be equal to or greater than the above lower limit (70 mg).
the amount of liquid composition absorbed by the absorbent 56a exceeds the above upper limit (120 mg), it would be difficult to keep the liquid composition absorbed in the absorbent in the liquid cartridge of the above standard, causing the liquid composition to flow out of the liquid cartridge 56.
the amount of liquid composition absorbed by the liquid cartridge should be equal to or less than the above upper limit (120 mg).
a desirable range is between 80 and 110 mg, and a more desirable range is between 90 and 105 mg.
the absorbent in the liquid cartridge 56 of the above standard has a sufficient absorption rate to keep the liquid composition having the above range in the liquid cartridge. That is, the liquid composition remains absorbed in the absorbent in the liquid cartridge, without flowing out of the liquid cartridge.
the absorption means that the absorbent is soaked with the liquid composition which does not flow out.
the filter 52, paper tube 54, liquid cartridge 56, and tobacco filler 58 are wrapped in the wrapping paper 60 to form the electrically heated smoking article 50, wherein the liquid cartridge 56 is brought into direct contact with the tobacco filler 58, paper tube 54, or filter 52 without a separate member upstream or downstream, and the liquid composition absorbed by the absorbent 56a in the liquid cartridge 56 is stored in the absorbent 56a, but does not flow out toward the tobacco filler 58, paper tube 54, or filter 52.
the amount of liquid composition absorbed by the absorbent 56a is preferably 0.13 to 0.32 mg/mm 3 per unit volume of the absorbent 56a.
This numerical limitation is set for a similar reason to why the numerical limitation is set on the amount of liquid composition absorbed by the absorbent of the present invention. That is, if the amount of liquid composition absorbed by the absorbent 56a is not sufficient, i.e., less than the above lower limit (0.13 mg/mm 3 ), the amount of aerosol derived from the liquid composition when the user inhales an aerosol from the shredded tobacco in the electrically heated smoking article 50 would be insufficient. Thus, the amount of liquid composition absorbed by the liquid cartridge should be equal to or greater than the lower limit (0.13 mg/mm 3 ).
the liquid composition contains glycerin VG and optionally contains glycerin PG, water, and flavorings.
the liquid composition contains 70 to 100 wt% glycerin VG, 0 to 20 wt% glycerin PG, and 0 to 10 wt% water and further contains flavorings added in an amount that is 10 % or less of the total weight of the resulting liquid composition.
the present invention uses a liquid composition made of 100 wt% glycerin VG.
the present invention uses a liquid composition made of 80 wt% glycerin VG and 20 wt% glycerin PG.
the present invention uses a liquid composition made of 75 wt% glycerin VG, 20 wt% glycerin PG, and 5 wt% water. According to a yet further preferred embodiment, the present invention further contains flavorings added in an amount that is 10 % or less of the total weight of the resulting liquid composition.
the flavorings may include licorice, sucrose, fructose syrup, isosweet, cocoa, lavender, cinnamon, cardamom, celery, cascarilla, fenugreek, cascarilla, sandalwood, bergamot, geranium, honey essence, rose oil, vanilla, lemon oil, orange oil, mint oil, caraway, cognac, jasmine, chamomile, menthol, ylang-ylang, salvia, spearmint, ginger, coriander, or coffee, etc.
the liquid composition may or may not contain nicotine.
the absorbent 56a may be made of various materials. Although FIGS. 1 and 2 illustrate that the absorbent 56a is formed in a rolled shape, this is only for convenience of description and the construction of the absorbent 56a is not limited thereto. Various types of absorbents 56a may be considered as stated below. Basically, an absorbent rod 57 may be obtained by crumpling or rolling the absorbent 56a, inserting it through one side of a pipe structure 40 shown in FIG. 3 , pressing it into a shape with a narrower cross-section through the other side, and wrapping it in the wrapping paper 61. Before the absorbent 56a is inserted into the pipe structure 40, the liquid composition is provided into the absorbent 56a through a liquid composition injection part such as a needle.
a liquid composition injection part such as a needle.
the absorbent 56a As the absorbent 56a passes through the pipe structure 40, it becomes dampened with the liquid composition, and is then wrapped in the wrapping paper 61 immediately on the other side of the pipe structure 40 and cut to an appropriate length, for example, 80 mm to 140 mm, thereby forming the absorbent rod 57.
the absorbent rod 57 comes in the form of the absorbent 56a dampened with the liquid composition being wrapped in the wrapping paper 61.
the absorbent rod 57 is cut to a size that fits into an individual smoking article 50.
This construction is a generalized process in existing cigarette manufacturing lines, and has the advantage of using existing cigarette manufacturing processes and equipment. That is, the same process above applies to the conventional manufacturing of filters, paper tubes, and shredded tobacco, and the cartridge 56 can be produced using the equipment and processes currently used.
the absorbent 56a of the present invention is made by crumpling or rolling a strip made of a melamine-based foam resin with a thickness of 2 to 3 mm and inserting it into the above-mentioned pipe structure 40 to form a cylindrical shape.
the absorbent of the present invention is made by processing a melamine-based foam resin into a cylindrical shape and inserting and pressing it into the above-mentioned pipe structure 40, and more preferably, the absorbent made of the melamine-based foam resin has a weight of 0.01 to 0.013 mg/mm 3 per unit volume.
the liquid composition remained absorbed in the absorbent without flowing out, during the test, a much greater amount of aerosol than in the existing heated cigarettes was observed, and a sufficient amount of aerosol derived from the liquid composition was observed, even compared to the existing hybrid types.
the absorbent of the present invention is made by crumpling, folding, or rolling pulp or a fabric containing pulp and inserting it into the above-mentioned pipe structure 40 to form a cylindrical shape or by processing it into a cylindrical shape and inserting and pressing it into the above-mentioned pipe structure 40, and more preferably, the absorbent made of pulp or a fabric containing pulp has a weight of 0.25 to 0.4 mg/mm 3 per unit volume.
the liquid composition remained absorbed in the absorbent without flowing out, during the test, a much greater amount of aerosol than in the existing heated cigarettes was observed, and a sufficient amount of aerosol derived from the liquid composition was observed, even compared to the existing hybrid types.
the absorbent of the present invention is made by crumpling or rolling a cotton woven or non-woven fabric and inserting it into the above-mentioned pipe structure 40 to form a cylindrical shape or by processing it into a cylindrical shape and inserting and pressing it into the above-mentioned pipe structure 40, and more preferably, the absorbent made of a cotton woven or non-woven fabric has a weight of 0.2 to 0.35 mg/mm 3 per unit volume.
the liquid composition remained absorbed in the absorbent without flowing out, during the test, a much greater amount of aerosol than in the existing heated cigarettes was observed, and a sufficient amount of aerosol derived from the liquid composition was observed, even compared to the existing hybrid types.
the absorbent of the present invention is made by crumpling or rolling a bamboo fiber woven or non-woven fabric and inserting it into the above-mentioned pipe structure 40 to form a cylindrical shape or by processing it into a cylindrical shape and inserting and pressing it into the above-mentioned pipe structure 40, and more preferably, the absorbent made of a bamboo fiber woven or non-woven fabric has a weight of 0.15 to 0.25 mg/mm 3 per unit volume.
the liquid composition remained absorbed in the absorbent without flowing out, during the test, a much greater amount of aerosol than in the existing heated cigarettes was observed, and a sufficient amount of aerosol derived from the liquid composition was observed, even compared to the existing hybrid types.
the wrapping paper 61 forming the liquid cartridge 56 may come in the form of laminated paper made by attaching aluminum foil to paper, and is wrapped in a cylindrical shape so that the aluminum foil comes into contact with the absorbent 56a.
the aluminum foil may eliminate or minimize the possibility that the liquid composition dampening the absorbent 56a may flow out through the side of the liquid cartridge 56. That is, as can be seen from the construction of the liquid cartridge shown in FIGS. 1 and 2 , the absorbent 56a is wrapped in a separate piece of wrapping paper 61 before it is wrapped in the wrapping paper 60 used to form the smoking article.
the wrapping paper 61 may come in the form of paper with aluminum foil attached to it, and it is desirable that the absorbent 56a be wrapped in a cylindrical shape so that the aluminum foil comes into contact with the absorbent 56a.
the tobacco filler 58 may contain tobacco-based solid substances such as reconstituted tobacco and shredded tobacco.
the tobacco filler 58 may be stuffed with a corrugated reconstituted tobacco sheet.
the reconstituted tobacco sheet may have corrugations as it is substantially horizontally rolled around the axis of cylinder, folded, compressed, or shrunken.
the porosity may be determined by adjusting the gaps between the corrugations of the reconstituted tobacco sheet.
the tobacco filler 58 may be stuffed with shredded tobacco.
the shredded tobacco may be formed by finely cutting a tobacco sheet (or reconstituted tobacco slurry sheet).
the tobacco filler 58 may be formed by combining multiple strands of tobacco together in the same direction (parallel) or randomly.
the tobacco filler 58 may be formed by combining multiple strands of tobacco together, and may have a plurality of longitudinal channels through which aerosol can pass. The longitudinal channels may be regular or irregular depending on the size and arrangement of the strands of tobacco.
the tobacco filler 58 may additionally comprise at least one among ethylene glycol, dipropylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, and oleyl alcohol.
the tobacco filler may further comprise glycerin and propylene glycol.
the tobacco filler 58 may contain other additives such as flavorings and/or organic acids.
the flavorings may include licorice, sucrose, fructose syrup, isosweet, cocoa, lavender, cinnamon, cardamom, celery, fenugreek, cascarilla, sandalwood, bergamot, geranium, honey essence, rose oil, vanilla, lemon oil, orange oil, mint oil, caraway, cognac, jasmine, chamomile, menthol, ylang-ylang, salvia, spearmint, ginger, coriander, coffee, etc.
a tobacco substrate receiving portion 11a and 11b may partially contain glycerin or propylene glycol.
the electrically heated smoking article 50 may comprise the paper tube 54 for providing an aerosol passage, wherein PLA may be inserted into the tube to reduce the temperature of the aerosol to prevent the user from getting burned when inhaling the aerosol.
the paper tube 54 also may be wrapped in a separate piece of wrapping paper (not shown). In this case, regular paper will suffice as the wrapping paper for the paper tube 54.
the filter 52 functioning as a mouthpiece allows aerosol to pass therethrough and blocks the inflow of liquid.
the liquid composition soaking through or dampening the absorbent 56a is kept within the liquid cartridge 56 in a normal and typical usage environment, but the liquid composition may partially flow out in an abnormal environment, such as when excessive external force is applied only to the liquid cartridge 56, in which case the filter serves to prevent the inflow of liquid (the paper tube may function similarly).
the filter may be made of pulp in a cylindrical or tube shape.
the filter may contain a flavoring component to increase the user's satisfaction.
Examples of the flavoring component may include licorice, sucrose, fructose syrup, isosweet, cocoa, lavender, cinnamon, cardamom, celery, cascarilla, fenugreek, cascarilla, sandalwood, bergamot, geranium, honey essence, rose oil, vanilla, lemon oil, orange oil, mint oil, caraway, cognac, jasmine, chamomile, menthol, ylang-ylang, salvia, spearmint, ginger, coriander, or coffee, etc.
the above-described liquid cartridge 56 may be made by employing the same process and equipment used to add a flavoring component to the filter 52. In this case, there will be no significant difficulties in achieving mass production and quality control since the existing process and equipment are used.
the electrically heated smoking article 50 is usually wrapped in wrapping paper 60, 61, and 62 composed of multiple layers, such as first wrapping paper 61 wrapped around the liquid cartridge, second wrapping paper 62 wrapped around the liquid cartridge and the tobacco filler of shredded tobacco altogether, downstream or upstream from the first wrapping paper 61, third wrapping paper (not shown) wrapped around the liquid cartridge, the tobacco filler of shredded tobacco, and the tube altogether, and fourth wrapping paper 60 wrapped around the whole parts of the electrically heated smoking article.
the electrically heated smoking article can be obtained through a number of stages of wrapping.
a process of forming the liquid cartridge can be carried out separately or through a continuous line.
packaging of different materials or different thicknesses may be added to the inside of the outermost wrapping paper wrapped around the whole parts of the electrically heated smoking article to wrap them altogether.
the absorbent 56a with the liquid composition absorbed in it is wrapped in the wrapping paper 61 serving as a housing.
the paper tube 54 and the filter 52 are stacked sequentially at the downstream end of the liquid cartridge 56. The filter and the paper tube are wrapped in the wrapping paper 60, together with the liquid cartridge.
the liquid composition in the liquid cartridge 56 remains absorbed in the absorbent in the liquid cartridge 56, without flowing out of the liquid cartridge, and is vaporized by heating to generate an aerosol.
the wrapping paper 60, 61, and 62 is made of a material that does not deform when heated to a high temperature or when in contact with liquid, or that does not generate harmful components.
the wrapping paper may be made of a metal thin film or metal foil, or, as described above, may be made by adding a metal thin film or thin metal sheet to wrapping paper or by laminating them together.
the wrapping paper 61 serving as a housing for the liquid cartridge 56 is composed of paper and aluminum foil laminated together, and the aluminum foil adjoins the absorbent 56a and therefore prevents the liquid composition absorbed in the absorbent from flowing out to the side of the liquid cartridge 56.
the filter 52 provided downstream of the liquid cartridge 56 may have a hollow portion for generating an airflow, but a filter with no hollow portion may also be used.
the filter may be composed of one or more segments and may include at least one of a tube filter, a cooling structure and a recess filter, for example.
the tube filter has an inner hollow portion.
the tube filter and the recess filter may be made of cellulose acetate, and the tube functioning as the cooling structure may be made of pure polylactic acid (PLA) or a combination of polylactic acid and another degradable polymer.
the filter 52 may be made of acetate, paper, PP, etc. and the wrapping paper wrapped around the filter may be classified as regular paper, porous paper, perforated paper, non-wrapped acetate (NWA), etc.
the filter type may be classified as a mono filter composed of one segment or a composite (double, triple, etc.) filter composed of a number of segments.
the filter may be made from acetate tow, plasticizer, activated charcoal, X-DNA, and wrapping paper.
the acetate tow refers to an aggregate of continuous filaments of cellulose acetate, which plays a major role in determining draw resistance, which is the most important characteristic of the filter. The properties of the acetate tow are determined by denier.
the plasticizer makes cellulose acetate fibers soft and flexible to form bonds at the contact points between the fibers and make a fiber bundle more rigid. Triacetin is used as a plasticizer for cigarette filters.
the activated charcoal which is one of the absorbents, contains carbon as the main constituent and can be classified by particle size and nature.
Source materials used for the activated charcoal include plant materials, such as wood, sawdust, and fruit stones (coconut husk, bamboo, peach seeds, etc.).
X-DNA refers to functional particles that are extracted from sea algae and then condensed and processed. As compared with the activated charcoal mainly used for cigarette filters, X-DNA does not affect the taste of cigarettes and exhibits strong anticarcinogenic effects.
the wrapping paper 60 serves to maintain the shape of a filter plug during the manufacture of the filter.
the wrapping paper is required to satisfy physical properties, such as porosity, tensile strength, extension, thickness, glue adhesion, etc., in its manufacture.
the liquid cartridge 56 may be 14.0 mm long, the filter 52 or the tube 54 may be 2.5 mm long, and the tobacco filler 58 containing shredded tobacco may be 9.0 mm long.
the filter may be 10 mm
the paper tube 54 may be 16 mm
the liquid cartridge 56 may be 10 mm
the tobacco filler 58 may be 12 mm.
the relative lengths of the filter 52, paper tube 54, liquid cartridge 56, and tobacco filler 58 and the relative positioning of the liquid cartridge 56 and tobacco filler 58 may be associated with the temperature of an aerosol the user inhales that is generated from the electrically heated smoking article by means of an aerosol generating device 100 to be described later.
the temperature of an aerosol generated from the liquid cartridge 56 and the temperature of an aerosol generated from the tobacco filler 58 are different, and high-temperature aerosol can be cooled further as the paper tube 54 becomes longer.
the temperatures of aerosols generated from the liquid cartridge 56 and tobacco filler 58 and the relative positioning of the liquid cartridge 56 and tobacco filler 58 may be taken into account, and the relative lengths and positioning of the liquid cartridge 56 and tobacco filler 58 may vary with the amounts of liquid composition and shredded tobacco dependent on the volumes of the liquid cartridge 56 and tobacco filler 58 and the heating method used by the aerosol generating device to be described later. It would not be difficult for a person of ordinary skill in the art to satisfy the above conditions when making an electrically heated smoking article the same size as the electrically heated smoking articles currently on the market.
an absorbent formed in a cylinder shape by the pipe structure 40 is passed through spray equipment or a liquid composition injection part such as a needle before it is inserted into the pipe structure 40, and enough of the liquid composition is sprayed or injected into the absorbent 56a, and the absorbent 56a becomes dampened or soaked with the liquid composition as it passes through the pipe structure 40.
the absorbent with the liquid composition absorbed in it is wrapped in, for example, wrapping paper (or a laminate of paper and aluminum foil), and cut to a required length (for example, 140 mm, 100 mm, or 80 mm) to form an absorbent rod 57.
the absorbent rod 57 may be cut up into a liquid cartridge 56 of a desired length (for example, 14 mm, 10 mm, or 8 mm), and then packed (wrapped) together with other segments (the tube, filter, and tobacco filler) of the electrically heated smoking article, thereby making an electrically heated smoking article 50 for generating an aerosol.
a liquid cartridge 56 of a desired length for example, 14 mm, 10 mm, or 8 mm
FIG. 4 is a view schematically illustrating a process of cutting the above-obtained absorbent rod 57 in order to manufacture a liquid cartridge 56 according to a preferred embodiment of the present invention.
the absorbent rod 57 which is 140 mm, 100 mm, or 80 mm long, for example, may be inserted into a groove in an index table 70 and moved to a conveyor belt 90 by the rotation of the index table.
rotary blades 80 are placed on the moving path along the index table 70, and the absorbent rod 57 is cut into ten liquid cartridges 56 of a desired length, for example, 14 mm, 10 mm, or 80 mm by the rotary blades.
Ten rotary blades 80 may be placed at equal intervals to cut a 140-mm absorbent rod 57 into ten 14-mm liquid cartridges 56, a 100-mm absorbent rod 57 into ten 10-mm liquid cartridges 56, or an 80-mm absorbent rod 57 into ten 8-mm liquid cartridges 56.
a 140-mm absorbent rod 57 into ten 14-mm liquid cartridges 56
a 100-mm absorbent rod 57 into ten 10-mm liquid cartridges 56 or an 80-mm absorbent rod 57 into ten 8-mm liquid cartridges 56.
the filter 52 functioning as a mouthpiece is located at the downstream end of the liquid cartridge 56, and the tobacco filler 58 containing shredded tobacco is located at the upstream end of the liquid cartridge 56.
the tube 54 which provides an aerosol passage and cools aerosols may be located between the filter 52 and the liquid cartridge 56. All of these segments - filter 52, tube 54, liquid cartridge 56, and tobacco filler 58 - are arranged side by side and packed together, thereby obtaining an electrically heated smoking article 50 for generating an aerosol. In an actual manufacturing line, 10 or more sets of these segments are arranged and wrapped, and then cut into a number of electrically heated smoking articles.
the liquid composition in the liquid cartridge 56 remains absorbed in the absorbent 56a in the liquid cartridge, and does not flow out of the liquid cartridge 56. Nevertheless, in the process of manufacturing an electrically heated smoking article or after completing the electrically heated smoking article, a dried liquid composition may flow out due to high-temperature heat or physical pressure applied to the liquid cartridge, or may be vaporized into an aerosol and exit to the outside.
the tobacco filler is located upstream of the liquid cartridge, and the filter is located downstream of the liquid cartridge, and therefore it is extremely unlikely that the dried liquid composition may flow out through the filter or tobacco filler even if external physical force is applied to the liquid cartridge.
the liquid composition Since the liquid composition starts to generate an aerosol at about 120 °C or higher, any loss of the liquid composition during the manufacturing process can be prevented by performing process control at 100 °C or lower in the process of wrapping or making the liquid cartridge 56.
the liquid composition may be controlled in such a way that it is additionally absorbed by estimating the amount of liquid composition lost during the process and adding the estimated amount of loss to a required amount of liquid composition.
the aerosol generating device 100 to be described below is a grippable and portable-sized aerosol generating device that comprises an aerosol-forming substrate such as a liquid composition or shredded tobacco within the smoking article, as in the electrically heated smoking article 50 according to the present invention, has a cavity into which the electrically heated smoking article 50 wrapped in wrapping paper in the shape of a traditional cigarette is inserted, and forms an aerosol by heating the aerosol-forming substrate of the smoking article inserted into the cavity by a heater provided in the aerosol generating device.
an aerosol-forming substrate such as a liquid composition or shredded tobacco within the smoking article
the heater may be a resistance heater or induction heater, which may be heated up to 100 to 400 °C to heat the aerosol-forming substrate within the electrically heated smoking article 50 inserted into the cavity of the aerosol generating device, thereby generating an aerosol.
the target temperature may range between 200 and 350 °C, and more preferably, between 250 and 320 °C (for example, the target temperature may be set to 280 °C).
the target temperature may range between 150 and 250 °C (for example, the target temperature may be set to 180 °C), and may vary depending on whether an aerosol is generated from the liquid composition (glycerin, etc.), the tobacco filler, or the tobacco filler with the liquid composition such as glycerin absorbed in it.
an aerosol generated in the electrically heated smoking article 50 is inhaled into the mouth of the user through the tube 54 and the filter 52.
the target temperature of a heating element should be preset. For these reasons, the above upper limit is set on the target temperature of the heating element.
the temperature of a generated aerosol measured after it passes through the tube 54 and the filter 52 may be a mouth end temperature.
the temperature of the aerosol should be lower than 50 °C, preferably, 45 °C or lower.
a desirable temperature range for the aerosol at the mouth end is 25 to 45 °C, and a more desirable temperature range for the aerosol at the mouth end is 30 to 40 °C.
the aerosol generating device 100 commonly comprises a rechargeable battery 110 that is provided into the device and functions as a DC power source and a control unit 120 that controls the output from the battery 110.
FIG. 5 depicts a conceptual diagram of the aerosol generating device 100, together with the electrically heated smoking article 50, and schematically shows a cross-section of the aerosol generating device 100 to explain the heating method for each embodiment.
the electrically heated smoking article 50 will be described basically with respect to a construction in which the filter 52, the tube 54, the liquid cartridge 56, and the tobacco filler 58 are arranged in the order named and wrapped in the wrapping paper 60. It should be noted that, as explained earlier, the relative positions of the liquid cartridge 56 and tobacco filler 58 may be reversed.
an aerosol generating system within the scope of the present invention can be constructed by deleting or adding some of the components of the aerosol generating device exemplified below or combining it with another device.
FIG. 5 is a view schematically illustrating a cross-section of an aerosol generating device 100 according to a first embodiment of the present invention, along with a conceptual diagram of an exemplary aerosol generating system to which the present invention may apply.
the aerosol generating system comprise an aerosol generating device 100 and an electrically heated smoking article 50.
the electrically heated smoking article 50 is constructed by wrapping the filter 52, paper tube 54, liquid cartridge 56, and tobacco filler 58 in the wrapping paper 60, as described above, and is inserted into a cavity formed in the aerosol generating device 100.
the aerosol generating device 100 comprises a pipe heater 130b using electrical resistance, for generating an aerosol by heating a liquid composition absorbed by the liquid cartridge 56, and an invasive heater 130a using electrical resistance, for generating an aerosol by heating the shredded tobacco, etc. in the tobacco filler 58. Additionally, the aerosol generating device 100 comprises a battery 110 for supplying power to the heaters 130a and 130b and a control unit 120 configured to control the power supply to the heaters 130a and 130b from the battery 110.
the above-mentioned invasive heater 130a according to the first embodiment may be in the shape of a blade or stick needle with a heater pattern printed on the outside.
a temperature sensor pattern along with the heater pattern, may be provided so as to sense the temperature on the surface of the invasive heater 130a and control the power supply to the invasive heater 130a according to the sensed value.
the invasive heater is inserted into the tobacco filler 58 and heats the tobacco filler 58 to form an aerosol inside the tobacco filler 58, as in the first embodiment, it may help immediately generate an aerosol since it heats the tobacco filler 58 by contact with the tobacco filler 58.
the liquid cartridge 56 is formed by crumpling or rolling physically connected materials; therefore, there is a possibility that the invasive heater 130a may not be properly inserted and, even if so, the absorbent may not be properly separated when the invasive heater 130a is removed. Thus, it is desirable that the invasive heater 130a be inserted only as far as the tobacco filler 58.
the above-mentioned pipe heater 130b is a pipe with a heater line or planar heating element pattern printed or provided on the outside.
the pipe heater 130b has a temperature sensor pattern so as to sense the temperature and control the power supply to the pipe heater 130b according to the sensed value.
the pipe heater 130b heats the liquid cartridge 56 of the electrically heated smoking article 50 from the side of the liquid cartridge 56 so that an aerosol is generated as the liquid composition soaking through or dampening the liquid cartridge is heated.
An aerosol may be generated by heating an aerosol-forming substrate within a temperature range of 150 to 350 °C by the above heaters, and the generated aerosol is inhaled through the mouth of the user via the paper tube 54 and the filter 52.
the invasive heater 130a may heat the shredded tobacco in the tobacco filler 58 within a temperature range of 150 to 250 °C to generate an aerosol derived from the shredded tobacco
the pipe heater 130b may heat the absorbent in the liquid cartridge 56 within a temperature range of 250 to 350 °C to generate an aerosol derived from the liquid composition in the absorbent.
the above temperature conditions may be reversed. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the heater patterns of the heaters 130a and 130b, the sensing unit, and the control unit are electrically connected, and the battery and the control unit also are electrically connected.
FIG. 6 is a view schematically illustrating a cross-section of an aerosol generating system according to a second embodiment of the present invention.
the electrically heated smoking article 50 is constructed in the same manner as in the first embodiment.
An aerosol generating device 100 has a single resistance pipe heater 132 corresponding to the liquid cartridge 56 and tobacco filler 58.
this pipe heater is a pipe with a heater line or planar heating element pattern printed or provided on the outside.
the pipe heater 132 according to the second embodiment also has a temperature sensor pattern so as to sense the temperature and control the power supply to the pipe heater 132 according to the sensed value.
the pipe heater 132 heats the liquid cartridge 56 of the electrically heated smoking article 50 from the side of the liquid cartridge 56 to generate an aerosol from the liquid composition soaking through or dampening the liquid cartridge, and also heats the tobacco filler 58 of the electrically heated smoking article 50 from the side of the tobacco filler 58 to generate an aerosol from the shredded tobacco, etc. in the tobacco filler 58.
the pipe heater 132 of the second embodiment heats the liquid cartridge 56 and the tobacco filler 58 to basically the same temperature.
the target temperature may be within a temperature range of 150 to 350 °C, and may be adjusted according to the sensed temperature. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the amount of aerosol generated from the liquid composition and the amount of aerosol generated from the shredded tobacco may be properly adjusted by adjusting the relative positions of the liquid cartridge 56 and tobacco filler 58 or their relative volumes (or heights).
the heater pattern of the pipe heater 132, the sensing unit, and the control unit 120 are electrically connected, and the battery and the control unit also are electrically connected. It is desirable that the pipe heater 132 only covers the liquid cartridge 56 and the tobacco filler 58 but not the paper tube 54 or the filter 52.
FIG. 7 is a view schematically illustrating a cross-section of an aerosol generating system according to a third embodiment of the present invention.
the electrically heated smoking article 50 is constructed in the same manner as in the foregoing embodiment.
An aerosol generating device 100 has a resistance pipe heater 132a corresponding to the liquid cartridge 56 and a resistance pipe heater 132b corresponding to the tobacco filler 58.
these pipe heaters are pipes with a heater line or planar heating element pattern printed or provided on the outside.
the pipe heaters 132a and 132b according to the third embodiment also have a temperature sensor pattern so as to sense the temperature and control the power supply to the pipe heaters 132a and 132b according to the sensed value.
the pipe heater 132a heats the liquid cartridge 56 of the electrically heated smoking article 50 from the side of the liquid cartridge 56 to generate an aerosol from the liquid composition soaking through or dampening the liquid cartridge
the pipe heater 132b heats the tobacco filler 58 of the electrically heated smoking article 50 from the side of the tobacco filler 58 to generate an aerosol from the shredded tobacco, etc. in the tobacco filler 58.
the pipe heaters 132a and 132b of the third embodiment allow the liquid cartridge 56 and the tobacco filler 58 to be heated to different temperatures.
the target temperature may be within a temperature range of 150 to 350 °C, and may be adjusted according to the sensed temperature.
the generated aerosol is inhaled through the mouth of the user via the paper tube 54 and the filter 52.
the pipe heater 132b may heat the shredded tobacco in the tobacco filler 58 within a temperature range of 150 to 250 °C to generate an aerosol derived from the shredded tobacco
the pipe heater 132a may heat the absorbent in the liquid cartridge 56 within a temperature range of 250 to 350 °C to generate an aerosol derived from the liquid composition in the absorbent.
the above temperature conditions may be reversed. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the construction of the third embodiment it is possible to properly generate an aerosol from the liquid cartridge 56 and the tobacco filler 58, in an electrically heated smoking article that has the construction shown in the drawing, or in an electrically heated smoking article in which the relative positions of the liquid cartridge 56 and tobacco filler 58 are reversed, without problems with the invasive heater (such as having residues coming off from the electrically heated smoking article after use or not being easily inserted into the liquid cartridge), and it is also possible to set and control the temperatures of the pipe heaters 132a and 132b to an optimum temperature for each aerosol-forming substrate to generate an aerosol.
the heater pattern of the pipe heaters 132a and 132b, the sensing unit, and the control unit 120 are electrically connected, and the battery and the control unit also are electrically connected. It is desirable that the pipe heaters 132a and 132b only cover the liquid cartridge 56 and the tobacco filler 58 but not the paper tube 54 or the filter 52.
FIG. 8 is a view schematically illustrating a cross-section of an aerosol generating system according to a fourth embodiment of the present invention.
the electrically heated smoking article 50 is constructed in the same manner as in the foregoing embodiment.
An aerosol generating device 100 has a single resistance pipe heater 134b corresponding in height to the liquid cartridge 56 and tobacco filler 58 and an invasive heater 134a that can be inserted into the tobacco filler 58.
the pipe heater 134b has a heater line or planar heating element pattern printed or provided on the outside, and also has a temperature sensor pattern so as to sense the temperature and control the power supply to the pipe heater 134b according to the sensed value.
the pipe heater 134b heats the liquid cartridge 56 of the electrically heated smoking article 50 from the side of the liquid cartridge 56 to generate an aerosol from the liquid composition soaking through or dampening the liquid cartridge, and also heats the tobacco filler 58 of the electrically heated smoking article 50 from the side of the tobacco filler 58 to generate an aerosol from the shredded tobacco, etc. in the tobacco filler 58.
the pipe heater 134b of the fourth embodiment heats the liquid cartridge 56 and the tobacco filler 58 to basically the same temperature.
the fourth embodiment provides the invasive heater 134a having the same construction as described above, that can be inserted into the tobacco filler 58.
an additional heating source can be provided to the tobacco filler 58, which means that it is possible to better cope with the aerosol-forming substrate provided in the electrically heated smoking article.
the target temperature may be within a temperature range of 150 to 350 °C, and may be adjusted according to the sensed temperature.
the pipe heater 134b may heat the liquid composition soaking through or dampening the absorbent in the liquid cartridge 56 and the shredded tobacco in the tobacco filler 58 within a temperature range of 150 to 250 °C to generate an aerosol derived from them, and, additionally, the invasive heater 134a may heat the shredded tobacco in the tobacco filler 58 within a temperature range of 250 to 350 °C to generate an aerosol derived from the shredded tobacco.
the above temperature conditions may be reversed. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the heater patterns of the invasive heater 134a and pipe heater 134b, the sensing unit, and the control unit 120 are electrically connected, and the battery and the control unit also are electrically connected. It is desirable that the pipe heater 134b only covers the liquid cartridge 56 and the tobacco filler 58 but not the paper tube 54 or the filter 52. It is desirable that the invasive heater 134a is inserted only into the tobacco filler 58 due to the above-mentioned reason.
FIGS. 9 through 12 illustrate an aerosol generating system to which an induction heater is applied, according to fifth through eighth embodiments of the present invention.
the electrical components used for induction heating are parts for induction heating, which include an excitation coil 136a, 136c, 138b, 140a, and 140b wound multiple times in a cylindrical shape, and a susceptor (magnetic heating element) which reacts with the excitation coil 136a, 136c, 138b, 140a, and 140b so that induction heating occurs due to eddy current losses.
the susceptor is a metal heat pipe 135, 136d, 138a, 142a, and 142b provided inside the excitation coil 136a, 136c, 138b, 140a, and 140b to be surrounded by the excitation coil 136a, 136c, 138b, 140a, and 140b in the device, which is made of a hollow cylindrical thin plate defining a cavity into which the electrically heated smoking article 50 can be inserted, and which is heated to a temperature of 400 °C or lower by induction heating due to eddy current losses, by reaction with the excitation coil 136a, 136c, 138b, 140a, and 140b.
the susceptor may be heated to a temperature of 1,000 °C or higher depending on the magnitude of the alternating current applied to the excitation coil 136a, 136c, 138b, 140a, and 140b, whereas, in the present invention, the susceptor functioning as a heating element is heated to a temperature of 400 °C or lower, as stated above.
the temperature of the heat pipe 135, 136d, 138a, 142a, and 142b may be sensed by a temperature sensor that makes physical contact with the surface of the heat pipe 135, 136d, 138a, 142a, and 142b, or the temperature of the susceptor may be calculated based on current and voltage changes detected by a current sensor and voltage sensor which measure changes in the current and voltage for heating the susceptor depending on the inductance or reactance varying with changes in the temperature of the susceptor functioning as the heat pipe 135, 136d, 138a, 142a, and 142b.
the control unit receives direct current power from the battery 110 and supplies an alternating current having a resonance frequency or an alternating current having a frequency different from the resonance frequency to the excitation coil.
the alternating current applied to the excitation coil may be controlled based on changes in the temperature of the susceptor, the susceptor may be heated to a desired temperature, be maintained at that temperature, or have temperature changes.
FIG. 9 is a view schematically illustrating a cross-section of an aerosol generating system according to a fifth embodiment of the present invention.
the electrically heated smoking article 50 is constructed in the same manner as in the foregoing embodiment.
An aerosol generating device 100 has an induction heat pipe 135 corresponding to the liquid cartridge 56 and an induction heat blade 136b corresponding to the tobacco filler 58. Both the heat pipe 135 and the heat blade 136b are constructed of a susceptor, and are heated by induction heating.
the heat pipe 135 heats the liquid cartridge 56 of the electrically heated smoking article 50 from the side of the liquid cartridge 56 to generate an aerosol from the liquid composition soaking through or dampening the liquid cartridge, and the heat blade 136b heats the shredded tobacco in the tobacco filler 58 of the electrically heated smoking article 50 to generate an aerosol.
thermoelectric pipe 135 and heat blade 136b functioning as a susceptor are provided separately, a desired heating temperature condition can be achieved by adjusting their material or thickness.
the temperature condition to be achieved by control may be the same as or similar to what has been stated earlier. That is, the heat pipe 135 and heat blade 136b of the fifth embodiment allow the liquid cartridge 56 and the tobacco filler 58 to be heated to different temperatures.
the target temperature may be within a temperature range of 150 to 300 °C, and may be adjusted according to the sensed temperature.
the generated aerosol is inhaled through the mouth of the user via the paper tube 54 and the filter 52.
the heat blade 136b may heat the shredded tobacco in the tobacco filler 58 within a temperature range of 150 to 200 °C to generate an aerosol derived from the shredded tobacco
the heat pipe 135 may heat the absorbent in the liquid cartridge 56 within a temperature range of 250 to 300 °C to generate an aerosol derived from the liquid composition in the absorbent.
the above temperature conditions may be reversed. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the excitation coil 136a, the sensing unit, and the control unit 120 are electrically connected, and the battery and the control unit also are electrically connected. It is desirable that the heat pipe 135 only covers the liquid cartridge 56 but not the paper tube 54 or the filter 52. Also, it is desirable that the heat blade 136b be inserted only as far as the tobacco filler 58, like the electrical resistance-type invasive heater.
FIG. 10 is a view schematically illustrating a cross-section of an aerosol generating system according to a sixth embodiment of the present invention.
the electrically heated smoking article 50 is constructed in the same manner as in the foregoing embodiment.
An aerosol generating device 100 according to the sixth embodiment is an example of a combination of an induction heat pipe 136d corresponding to the liquid cartridge 56 and a resistance pipe heater 136e corresponding to the tobacco filler 58.
the heat pipe 136d functioning as a susceptor heats the liquid cartridge 56 of the electrically heated smoking article 50 from the side of the liquid cartridge 56 to generate an aerosol from the liquid composition soaking through or dampening the liquid cartridge.
the resistance pipe heater 136e heats the tobacco filler 58 of the electrically heated smoking article 50 from the side of the tobacco filler 58 to generate an aerosol from the shredded tobacco, etc. in the tobacco filler 58.
the amount of aerosol generated from the liquid composition and the amount of aerosol generated from the shredded tobacco may be properly adjusted by adjusting the relative positions of the liquid cartridge 56 and tobacco filler 58 or their relative volumes (or heights).
the heat pipe 136d and pipe heater 136e of the sixth embodiment allow the liquid cartridge 56 and the tobacco filler 58 to be heated to different temperatures.
the target temperature may be within a temperature range of 150 to 350 °C, and may be adjusted according to the sensed temperature.
the generated aerosol is inhaled through the mouth of the user via the paper tube 54 and the filter 52.
the heat pipe 136d may heat the shredded tobacco in the tobacco filler 58 within a temperature range of 150 to 250 °C to generate an aerosol derived from the shredded tobacco
the pipe heater 136e may heat the absorbent in the liquid cartridge 56 within a temperature range of 250 to 350 °C to generate an aerosol derived from the liquid composition in the absorbent.
the above temperature conditions may be reversed. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the excitation coil 136c, the heater pattern of the pipe heater 136e, the sensing unit, and the control unit 120 are electrically connected, and the battery and the control unit also are electrically connected. It is desirable that the heat pipe 136d and the pipe heater 136e only cover the liquid cartridge 56 and the tobacco filler 58 but not the paper tube 54 or the filter 52.
FIG. 11 is a view schematically illustrating a cross-section of an aerosol generating system according to a seventh embodiment of the present invention.
the electrically heated smoking article 50 is constructed in the same manner as in the foregoing embodiment.
the aerosol generating device 100 works by heating both the liquid cartridge 56 and the tobacco filler 58 by an induction heat pipe 138a. As the heat pipe 138a is heated, an aerosol is generated from the liquid composition soaking through or dampening the absorbent in the liquid cartridge 56, and, at the same time, an aerosol is generated from the shredded tobacco, etc. in the tobacco filler 58.
the heat pipe 138a of the seventh embodiment heats the liquid cartridge 56 and the tobacco filler 58 to basically the same temperature.
the target temperature may be within a temperature range of 150 to 350 °C, and may be adjusted according to the sensed temperature. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the amount of aerosol generated from the liquid composition and the amount of aerosol generated from the shredded tobacco may be properly adjusted by adjusting the relative positions of the liquid cartridge 56 and tobacco filler 58 or their relative volumes (or heights).
the excitation coil 138b, the sensing unit, and the control unit 120 are electrically connected, and the battery and the control unit also are electrically connected. It is desirable that the heat pipe 138a only covers the liquid cartridge 56 and the tobacco filler 58 but not the paper tube 54 or the filter 52.
FIG. 12 is a view schematically illustrating a cross-section of an aerosol generating system according to an eighth embodiment of the present invention.
the electrically heated smoking article 50 is constructed in the same manner as in the foregoing embodiment.
An aerosol generating device 100 has an induction heat pipe 142a corresponding to the liquid cartridge 56 and an induction heat pipe 142b corresponding to the tobacco filler 58. Excitation coils 140a and 140b for heating them by induction are provided respectively.
the heat pipe 142a heats the liquid cartridge 56 of the electrically heated smoking article 50 from the side of the liquid cartridge 56 to generate an aerosol from the liquid composition soaking through or dampening the liquid cartridge, and the heat pipe 142b heats the tobacco filler 58 of the electrically heated smoking article 50 from the side of the tobacco filler 58 to generate an aerosol from the shredded tobacco, etc. in the tobacco filler 58.
the heat pipes 142a and 142b of the eighth embodiment allow the liquid cartridge 56 and the tobacco filler 58 to be heated to different temperatures.
the target temperature may be within a temperature range of 150 to 350 °C, and may be adjusted according to the sensed temperature.
the generated aerosol is inhaled through the mouth of the user via the paper tube 54 and the filter 52.
the heat pipe 142b may heat the shredded tobacco in the tobacco filler 58 within a temperature range of 150 to 250 °C to generate an aerosol derived from the shredded tobacco
the heat pipe 142a may heat the absorbent in the liquid cartridge 56 within a temperature range of 250 to 350 °C to generate an aerosol derived from the liquid composition in the absorbent.
the above temperature conditions may be reversed. Within the above temperature range, the wrapping paper is not combusted but may be partially scorched.
the amount of aerosol generated from the liquid composition and the amount of aerosol generated from the shredded tobacco may be properly adjusted by adjusting the relative positions of the liquid cartridge 56 and tobacco filler 58 or their relative volumes (or heights).
the excitation coils 140a and 140b, the sensing unit, and the control unit 120 are electrically connected, and the battery and the control unit also are electrically connected. It is desirable that the heat pipes 142a and 142b only cover the liquid cartridge 56 and the tobacco filler 58 but not the paper tube 54 or the filter 52.
an aerosol derived from a liquid and an aerosol derived from a tobacco substrate together by providing a liquid cartridge that can be inserted into an electrically heated smoking article, an electrically heated smoking article including the same, and an aerosol generating device and system therefor.

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Chemical Kinetics & Catalysis (AREA)
General Chemical & Material Sciences (AREA)
Cigarettes, Filters, And Manufacturing Of Filters (AREA)

EP20745034.7A 2019-01-24 2020-01-28 Cartouche de liquide insérable dans un objet à fumer chauffé électriquement, objet à fumer chauffé électriquement la comprenant et dispositif et système de génération d'aérosol associés Pending EP3915404A4 (fr)

Applications Claiming Priority (6)

Application Number	Priority Date	Filing Date	Title
KR20190009335		2019-01-24
KR20190101077		2019-08-19
KR20190119221		2019-09-27
KR20190119452		2019-09-27
KR20190150221		2019-11-21
PCT/KR2020/001277 WO2020153828A1 (fr)	2019-01-24	2020-01-28	Cartouche de liquide insérable dans un objet à fumer chauffé électriquement, objet à fumer chauffé électriquement la comprenant et dispositif et système de génération d'aérosol associés

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EP3915404A1 true EP3915404A1 (fr)	2021-12-01
EP3915404A4 EP3915404A4 (fr)	2022-11-16

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WO2024086210A1 (fr) *	2022-10-18	2024-04-25	Ip Concepts Llc	Dispositif de formation d'aérosol pour cigarettes électroniques à chauffage sans combustion et biodégradable et avec système et procédé associés
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- 2020-01-28 EP EP20745034.7A patent/EP3915404A4/fr active Pending
- 2020-01-28 KR KR1020200009696A patent/KR20200092267A/ko active Application Filing

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WO2024086210A1 (fr) *	2022-10-18	2024-04-25	Ip Concepts Llc	Dispositif de formation d'aérosol pour cigarettes électroniques à chauffage sans combustion et biodégradable et avec système et procédé associés
WO2024094657A1 (fr) *	2022-10-31	2024-05-10	Nicoventures Trading Limited	Chauffage par induction

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CN113329643B (zh)	2023-05-23
EP3915404A4 (fr)	2022-11-16
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