EP4643662A1 - Procédé de production de feuille de tabac reconstituée - Google Patents

Procédé de production de feuille de tabac reconstituée

Info

Publication number: EP4643662A1
Authority: EP; European Patent Office
Prior art keywords: raw material; mixed; extruder; mixer; liquid
Prior art date: 2022-12-26
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

EP22969927.7A

Other languages

German (de)

English (en)

Inventor

Kotaro SENDA

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.)

2022-12-26

Filing date

2022-12-26

Publication date

2025-11-05

2022-12-26 Application filed by Japan Tobacco Inc filed Critical Japan Tobacco Inc

2025-11-05 Publication of EP4643662A1 publication Critical patent/EP4643662A1/fr

Status Pending legal-status Critical Current

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
- A24B15/18—Treatment of tobacco products or tobacco substitutes
- A24B15/28—Treatment of tobacco products or tobacco substitutes by chemical substances
- 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
- A24B15/12—Chemical features of tobacco products or tobacco substitutes of reconstituted tobacco
- 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
- A24B15/12—Chemical features of tobacco products or tobacco substitutes of reconstituted tobacco
- A24B15/14—Chemical features of tobacco products or tobacco substitutes of reconstituted tobacco made of tobacco and a binding agent not derived from tobacco
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24B—MANUFACTURE OR PREPARATION OF TOBACCO FOR SMOKING OR CHEWING; TOBACCO; SNUFF
- A24B3/00—Preparing tobacco in the factory
- A24B3/14—Forming reconstituted tobacco products, e.g. wrapper materials, sheets, imitation leaves, rods, cakes; Forms of such products

Definitions

the present invention relates to a method for producing a reconstituted tobacco sheet.
Rolling methods, casting (slurry) methods, and sheet-forming methods are conventionally known methods for producing reconstituted tobacco sheets. These manufacturing methods are selected depending on the amount of moisture contained in the reconstituted tobacco raw material.
the devices for producing reconstituted tobacco sheets that are employed in these methods of production are also different from each other.
Rolling methods are known to be particularly suitable for reconstituted tobacco raw materials that contain up to 50% by volume of moisture.
kneaded reconstituted tobacco raw materials are rolled and formed by means of rotating rollers, the thickness is adjusted, and the material is then dried in a separately provided dryer.
Casting (slurry) methods are known to be particularly suitable for reconstituted tobacco raw materials that contain 50% by volume or more of moisture.
a reconstituted tobacco raw material fluid is continuously spread onto a rotating drum or belt conveyor, is leveled to a desired thickness with a member called a blade, is then released from the rotating drum or the belt conveyor, and is dried in a separately provided dryer.
Sheet-forming methods are known to be particularly suitable for reconstituted tobacco raw materials that contain 80% by volume or more of moisture.
a reconstituted tobacco raw material fluid is continuously spread onto a liquid-permeable belt conveyor, moisture is removed and the desired thickness is achieved by means of squeeze rolls, and the material is then dried in a separately provided dryer.
An object of the present invention is to provide a novel method for producing a reconstituted pressure-molded tobacco sheet.
a first aspect provides a method for producing a reconstituted pressure-molded tobacco sheet.
the production method comprises: a first step in which two or more powdered raw materials comprising at least tobacco are introduced into and mixed in a mixer; a second step in which a first liquid raw material is introduced, after the first step, into the mixer and mixed with the two or more powdered raw materials; and a molding step in which the raw materials mixed in the second step are molded into a pressure-molded sheet.
the two or more powdered raw materials are mixed in the first step before the powdered raw material and the first liquid raw material are mixed, thus allowing the two or more powdered raw materials to be thoroughly mixed.
the two or more powdered raw materials may comprise tobacco, a binder, and an additive.
the powdered raw material and the first liquid raw material are mixed, thereby allowing tobacco raw materials in which the viscosity has been increased by the binder to be produced.
the additive may comprise, for example, one or more selected from the group consisting of pulp, cellulose (such as crystallized cellulose or cellulose powder), calcium carbonate, menthol, and powdered flavoring.
the additive is included in the powdered raw material to allow the strength of the tobacco sheet to be increased or to allow flavor to be provided.
the first liquid raw material may comprise an aerosol source, water, and an additive.
the powdered raw material and the first liquid raw material are mixed, thereby allowing tobacco raw materials in which a greater amount of aerosol is generated to be produced.
the aerosol source may comprise, for example, one or more selected from the group consisting of glycerol and propylene glycol.
the additive may also comprise, for example, liquid flavoring. The liquid flavoring is included in the liquid raw material to allow the tobacco sheet to be flavored.
the second step may comprise introducing the first liquid raw material, which is formed by pre-mixing the aerosol source, the water, and the additive, into the mixer.
the aerosol source, water, and additive contained in the first liquid raw material are pre-mixed, thus allowing the powdered raw material and the first liquid raw material to be more uniformly mixed.
the production method may comprise: a step in which the raw material mixed in the second step is fed to an extruder; and a step in which a second liquid raw material is furthermore added to the raw material fed to the extruder.
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in an extruder.
a raw material that is moist enough to be extruded in an extruder will be highly adhesive, and will thus be difficult to handle outside the extruder.
Adding a second liquid raw material to the raw material in the extruder will therefore allow the moisture of the raw material to be adjusted in the extruder, and thus allow the amount of the first liquid raw material that is mixed in the mixer to be lowered.
the raw material in the mixer can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer to the extruder.
the second liquid raw material may include water.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder into a die; and a step in which the raw material is extruded from the die into the form of a sheet.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by at least a pair of vertically facing rolling rollers.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by being passed between two or more horizontally adjacent rolling rollers.
a second aspect provides a method for producing a reconstituted pressure-molded tobacco sheet.
the production method comprises: a first step in which a first liquid raw material is introduced into a mixer; a second step in which a powdered raw material comprising at least tobacco is introduced, after the first step, into the mixer and mixed with the first liquid raw material; and a molding step in which the raw materials mixed in the second step are molded into a pressure-molded sheet.
the powdered raw material is mixed with the first liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the powdered raw material may include tobacco, a binder, and an additive.
the powdered raw material and the first liquid raw material are mixed, thereby allowing tobacco raw materials in which the viscosity has been increased by the binder to be produced.
the additive may comprise, for example, one or more selected from the group consisting of pulp, cellulose (such as crystallized cellulose or cellulose powder), calcium carbonate, menthol, and powdered flavoring.
the additive is included in the powdered raw material to allow the strength of the tobacco sheet to be increased or to allow flavor to be provided.
the second step may comprise separately introducing and mixing each of the tobacco, the binder, and the additive with the first liquid raw material in the mixer.
the powdered raw materials are separately mixed with the first liquid raw material, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the first liquid raw material may comprise an aerosol source, water, and an additive.
the powdered raw material and the first liquid raw material are mixed, thereby allowing tobacco raw materials in which a greater amount of aerosol is generated to be produced.
the aerosol source may comprise, for example, one or more selected from the group consisting of glycerol and propylene glycol.
the additive may also comprise, for example, liquid flavoring. The liquid flavoring is included in the liquid raw material to allow the tobacco sheet to be flavored.
the production method may comprise: a step in which the raw material mixed in the second step is fed to an extruder; and a step in which a second liquid raw material is furthermore added to the raw material fed to the extruder.
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in an extruder.
a raw material that is moist enough to be extruded in an extruder will be highly adhesive, and will thus be difficult to handle outside the extruder.
Adding a second liquid raw material to the raw material in the extruder will therefore allow the moisture of the raw material to be adjusted in the extruder, and thus allow the amount of the first liquid raw material that is mixed in the mixer to be lowered.
the raw material in the mixer can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer to the extruder.
the second liquid raw material may include water.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder into a die; and a step in which the raw material is extruded from the die into the form of a sheet.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by at least a pair of vertically facing rolling rollers.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by being passed between two or more horizontally adjacent rolling rollers.
a third aspect provides a method for producing a reconstituted pressure-molded tobacco sheet.
the production method comprises: a first step in which water and a binder are introduced into and mixed in a mixer to allow the binder to swell; a second step in which a first liquid raw material and a powdered raw material comprising at least tobacco are introduced into the mixer, after the first step, to be mixed with the binder that has been allowed to swell; and a molding step in which the raw materials mixed in the second step are molded into a pressure-molded sheet.
a binder is pre-mixed with water and allowed to swell, and a first liquid raw material and a powdered raw material are mixed while the binding function of the binder is active, thus allowing the viscosity of the raw materials to be increased.
the raw material is easier to handle, and the raw material is also easily extruded by the extruder.
the viscosity of the raw material is also increased, thus allowing the strength of the tobacco sheet to be enhanced.
binders examples include one or more binders selected from the group consisting of tamarind seed gum, guar gum, locust bean gum, xanthan gum, glucomannan, native gellan gum, gum Arabic, shellac, lecithin, gluten, CMC, HPC-L, HPC-H, pullulan, sorbitol, guar gum, gelatinized waxy corn starch, glycerin gum, hydroxypropyl starch, shellac, hydroxypropyl potato starch, phosphate-crosslinked tapioca starch.
the powdered raw material may include tobacco and an additive.
the powdered raw material and the first liquid raw material are mixed, thereby allowing tobacco raw materials in which the viscosity has been increased by the binder to be produced.
the additive may comprise, for example, one or more selected from the group consisting of pulp, cellulose (such as crystallized cellulose or cellulose powder), calcium carbonate, menthol, and powdered flavoring.
the additive is included in the powdered raw material to allow the strength of the tobacco sheet to be increased or to allow flavor to be provided.
the second step may comprise separately introducing each of the tobacco and the additive into the mixer to be mixed with the binder that has been allowed to swell.
the powdered raw materials are each separately mixed with the binder that has been allowed to swell, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the first liquid raw material may comprise an aerosol source and an additive.
the binder that has been allowed to swell, the powdered raw material, and the first liquid raw material are mixed, thereby allowing tobacco raw materials in which a greater amount of aerosol is generated to be produced.
the aerosol source may comprise, for example, one or more selected from the group consisting of glycerol and propylene glycol.
the additive may also comprise, for example, liquid flavoring. The liquid flavoring is included in the liquid raw material to allow the tobacco sheet to be flavored.
the first liquid raw material may further comprise water.
the second step may comprise separately introducing each of the first liquid raw material and the powdered raw material into the mixer to be mixed with the binder that has been allowed to swell.
the first liquid raw material and the powdered raw material are each separately mixed, thus allowing the raw materials to be more uniformly mixed.
the second step may comprise introducing the first liquid raw material, prior to the powdered raw material, into the mixer to be mixed with the binder that has been allowed to swell.
the powdered raw material is introduced and mixed with the binder that has been allowed to swell and the liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw material to be more uniformly mixed.
the production method may comprise: a step in which the raw material mixed in the second step is fed to an extruder; and a step in which a second liquid raw material is furthermore added to the raw material fed to the extruder.
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in an extruder.
a raw material that is moist enough to be extruded in an extruder will be highly adhesive, and will thus be difficult to handle outside the extruder.
Adding a second liquid raw material to the raw material in the extruder will therefore allow the moisture of the raw material to be adjusted in the extruder, and thus allow the amount of the first liquid raw material that is mixed in the mixer to be lowered.
the raw material in the mixer can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer to the extruder.
the second liquid raw material may include water.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder into a die; and a step in which the raw material is extruded from the die into the form of a sheet.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by at least a pair of vertically facing rolling rollers.
the molding step may comprise: a step in which the raw material mixed in the second step is extruded by means of an extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by being passed between two or more horizontally adjacent rolling rollers.
a fourth aspect provides a method for producing a reconstituted pressure-molded tobacco sheet.
the production method comprises: a mixing step in which a first liquid raw material and a powdered raw material comprising at least tobacco are introduced into and mixed in a mixer; a step in which the raw material mixed in the mixing step is fed to an extruder; a step in which a second liquid raw material is furthermore added to the raw material fed to the extruder; and a molding step in which the raw material extruded from the extruder is molded into a pressure-molded sheet.
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in an extruder.
a raw material that is moist enough to be extruded in an extruder will be highly adhesive, and will thus be difficult to handle outside the extruder.
the fourth aspect thus allows the moisture of the raw material to be adjusted in the extruder, and thus allows the amount of the first liquid raw material that is mixed in the mixer to be lowered. As a result, the raw material in the mixer can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer to the extruder.
the second liquid raw material may include water.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the mixing step may comprise: a first step in which two or more powdered raw materials are introduced into and mixed in a mixer; and a second step in which a first liquid raw material is introduced, after the first step, into the mixer and mixed with the powdered raw materials.
the two or more powdered raw materials are mixed in the first step, thus allowing the powdered raw materials to be thoroughly mixed, before the powdered raw material is mixed with the first liquid raw material.
the second step may comprise introducing first liquid raw material, which is formed by pre-mixing an aerosol source, water, and an additive, into the mixer.
the aerosol source, water, and additive contained in the first liquid raw material are pre-mixed, thus allowing the powdered raw material and the first liquid raw material to be more uniformly mixed.
the mixing step may comprise: a first step in which a first liquid raw material is introduced into a mixer; and a second step in which a powdered raw material is introduced, after the first step, into the mixer and mixed with the first liquid material.
the powdered raw material is mixed with the first liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the second step may comprise separately introducing and mixing each of tobacco, a binder, and an additive with the first liquid raw material in the mixer.
the powdered raw materials are separately mixed with the first liquid raw material, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the mixing step may comprise: a first step in which water and a binder are introduced into and mixed in a mixer to allow the binder to swell; and a second step in which a first liquid raw material and a powdered raw material are introduced into the mixer, after the first step, to be mixed with the binder that has been allowed to swell.
a binder is pre-mixed with water and allowed to swell, and a first liquid raw material and a powdered raw material are mixed while the binding function of the binder is active, thus allowing the viscosity of the raw materials to be increased.
the raw material is easily extruded by the extruder.
the viscosity of the raw material is also increased, thus allowing the strength of the tobacco sheet to be enhanced.
the second step may comprise separately introducing each of tobacco and an additive into the mixer to be mixed with the binder that has been allowed to swell.
the powdered raw materials are each separately mixed with the binder that has been allowed to swell, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the second step may comprise separately introducing each of the first liquid raw material and the powdered raw material into the mixer to be mixed with the binder that has been allowed to swell.
the first liquid raw material and the powdered raw material are each separately mixed, thus allowing the raw materials to be more uniformly mixed.
the second step may comprise introducing the first liquid raw material, prior to the powdered raw material, into the mixer to be mixed with the binder that has been allowed to swell.
the powdered raw material is introduced and mixed with the binder that has been allowed to swell and the first liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw material to be more uniformly mixed.
the molding step may comprise: a step in which the raw material is extruded by means of the extruder into a die; and a step in which the raw material is extruded from the die into the form of a sheet.
the molding step may comprise: a step in which the raw material is extruded by means of the extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by at least a pair of vertically facing rolling rollers.
the molding step may comprise: a step in which the raw material is extruded by means of the extruder; and a step in which the raw material extruded from the extruder is formed into a sheet by being passed between two or more horizontally adjacent rolling rollers.
Fig. 1 is a schematic view of a system for producing a reconstituted pressure-molded tobacco sheet.
the reconstituted pressure-molded tobacco sheet production system 100 comprises: a first grinder 10; a second grinder 20; a classifier 30; a mixer 40; an extruder 50; a die 60; a take-off machine 70; and a dryer 80.
the tobacco is first ground to a predetermined particle size by the first grinder 10.
the ground tobacco (tobacco particles) are then ground in a second grinder 20 to a smaller particle size.
the tobacco ground by the second grinder 20 is classified by a classifier 30.
the tobacco removed by the classifier 30 is again ground in the first and second grinders 10 and 20.
the tobacco classified by the classifier 30 is mixed with an additive, for example, in the mixer 40 to produce the raw material for a reconstituted pressure-molded tobacco sheet.
the raw material is fed to the extruder 50, and is extruded by the extruder 50 into the die 60.
the raw material is extruded from the die 60 into the form of a sheet.
the raw material in the form of a sheet discharged from the die 60 is taken up by the take-up machine 70 and is dried in a dryer 80 at a later stage. A reconstituted pressure-molded tobacco sheet is thus produced.
Fig. 2 is a flowchart of a method for producing a reconstituted pressure-molded tobacco sheet using the mixer 40, the extruder 50, and the die 60 according to a first embodiment.
two or more powdered raw materials including at least tobacco are first introduced into and mixed in the mixer 40 (first step: step S201).
the tobacco may be tobacco leaf of any shape, but is preferably tobacco particles that have been classified in the classifier 30 shown in Fig. 1 .
a first liquid raw material is then introduced into the mixer 40 and mixed with the two or more powdered raw materials (second step: step S202).
Raw material for a reconstituted pressure-molded tobacco sheet is thus produced.
the raw material mixed in the second step is molded into a pressure-molded sheet (molding step).
the raw material mixed in the second step is fed to the extruder 50 (step S203).
the raw material may be highly adhesive, and can therefore be fed by means of a carrier machine such as a belt conveyor to the extruder 50.
the raw material fed to the extruder 50 is extruded by the extruder 50 into the form of a sheet.
two or more powdered raw materials are mixed in the first step S201 before the powdered raw material and the first liquid raw material are mixed, thus allowing two or more powdered raw materials to be thoroughly mixed.
the raw material fed to the extruder 50 is extruded by the extruder 50 into the die 60 (step S205), and is extruded from the die 60 into the form of a sheet (step S206).
a second liquid raw material may furthermore be added to the raw material fed to the extruder 50 (step S204).
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in the extruder 50.
raw material that is moist enough to be extruded in the extruder 50 will be highly adhesive, and will thus be difficult to handle outside the extruder 50 (when, for example, conveyed from the mixer 40 to the extruder 50).
Adding a second liquid raw material to the raw material in the extruder 50 will therefore allow the moisture of the raw material to be adjusted in the extruder 50, and thus allow the amount of the first liquid raw material that is mixed in the mixer 40 to be lowered.
the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material may comprise water. This will allow the amount of the first liquid raw material that is mixed in the mixer 40 to be lowered. As a result, the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the two or more powdered raw materials preferably include tobacco, a binder, and an additive.
the additive may comprise, for example, one or more selected from the group consisting of pulp, cellulose (such as crystallized cellulose or cellulose powder), calcium carbonate, menthol, and powdered flavoring.
the additive is included in the powdered raw material to allow the strength of the tobacco sheet to be increased or to allow flavor to be provided.
the first liquid raw material preferably includes an aerosol source, water, and an additive.
the two or more powdered raw materials and the first liquid raw material are mixed in step S202, thereby allowing tobacco raw materials in which a greater amount of aerosol is generated to be produced.
the aerosol source may comprise, for example, one or more selected from the group consisting of glycerol and propylene glycol.
the additive may also comprise, for example, liquid flavoring. The liquid flavoring is included in the liquid raw material to allow the tobacco sheet to be flavored.
a first liquid raw material which is formed by pre-mixing an aerosol source, water, and an additive, may be introduced into the mixer 40.
the aerosol source, water, and additive contained in the first liquid raw material are pre-mixed, thus allowing the powdered raw material and the first liquid raw material to be more uniformly mixed.
the production method shown in Fig. 2 may comprise, instead of step S205 and step S206, a step in which the raw material mixed in the second step (step S202) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by at least a pair of vertically facing rollers. More specifically, the raw material may be formed in stages into a sheet by three sets of rolling rollers (i.e., six rollers).
step S 2 may also comprise, instead of step S205 and step S206, a step in which the raw material mixed in the second step (step S202) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by passed through two or more horizontally adjacent rolling rollers. More specifically, the raw material may be formed in stages into a sheet by being passed through each of four horizontally adjacent rolling rollers.
Fig. 3 is a flowchart of a method for producing a reconstituted pressure-molded tobacco sheet using the mixer 40, the extruder 50, and the die 60 according to a second embodiment.
a first liquid raw material is first introduced into a mixer 40 (first step: step S301).
a powdered starting material comprising at least tobacco is then introduced into the mixer 40 and mixed with the first liquid raw material (second step: step S302).
Raw material for a reconstituted pressure-molded tobacco sheet is thus produced.
the tobacco may be tobacco leaf of any shape, but is preferably tobacco particles that have been classified in the classifier 30 shown in Fig. 1 .
the raw material mixed in the second step is molded into a pressure-molded sheet (molding step). Specifically, the raw material mixed in the second step is fed to the extruder 50 (step S303).
the raw material may be highly adhesive, and can therefore be fed by means of a carrier machine such as a belt conveyor to the extruder 50.
the raw material fed to the extruder 50 is extruded by the extruder 50 into the form of a sheet.
the powdered raw material is mixed with the first liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the raw material fed to the extruder 50 is extruded by the extruder 50 into the die 60 (step S305), and is extruded from the die 60 into the form of a sheet (step S306).
a second liquid raw material may furthermore be added to the raw material fed to the extruder 50 (step S304).
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in the extruder 50.
raw material that is moist enough to be extruded in the extruder 50 will be highly adhesive, and will thus be difficult to handle outside the extruder 50 (when, for example, conveyed from the mixer 40 to the extruder 50).
Adding a second liquid raw material to the raw material in the extruder 50 will therefore allow the moisture of the raw material to be adjusted in the extruder 50, and thus allow the amount of the first liquid raw material that is mixed in the mixer 40 to be lowered.
the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material may comprise water. This will allow the amount of the first liquid raw material that is mixed in the mixer 40 to be lowered. As a result, the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the powdered raw material preferably includes tobacco, a binder, and an additive.
a powdered raw material and a first liquid raw material are mixed in step S302, thereby allowing tobacco raw materials in which the viscosity has been increased by the binder to be produced.
the additive may comprise, for example, one or more selected from the group consisting of pulp, cellulose (such as crystallized cellulose or cellulose powder), calcium carbonate, menthol, and powdered flavoring.
the additive is included in the powdered raw material to allow the strength of the tobacco sheet to be increased or to allow flavor to be provided.
the second step (step S302) may comprise separately introducing and mixing each of tobacco, a binder, and an additive with the first liquid raw material in the mixer 40.
the powdered raw materials are separately mixed with the first liquid raw material, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the first liquid raw material preferably includes an aerosol source, water, and an additive.
the powdered raw material and the first liquid raw material are mixed in step S302, thereby allowing tobacco raw materials in which a greater amount of aerosol is generated to be produced.
the aerosol source may comprise, for example, one or more selected from the group consisting of glycerol and propylene glycol.
the additive may also comprise, for example, liquid flavoring. The liquid flavoring is included in the liquid raw material to allow the tobacco sheet to be flavored.
the production method shown in Fig. 3 may comprise, instead of step S305 and step S306, a step in which the raw material mixed in the second step (step S302) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by at least a pair of vertically facing rollers. More specifically, the raw material may be formed in stages into a sheet by three sets of rolling rollers (i.e., six rollers).
step S3 may also comprise, instead of step S305 and step S306, a step in which the raw material mixed in the second step (step S302) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by passed through two or more horizontally adjacent rolling rollers. More specifically, the raw material may be formed in stages into a sheet by being passed through each of four horizontally adjacent rolling rollers.
Fig. 4 is a flowchart of a method for producing a reconstituted pressure-molded tobacco sheet using the mixer 40, the extruder 50, and the die 60 according to a third embodiment.
water and a binder are first introduced into a mixer 40 and mixed to allow the binder to swell (first step: step S401).
a first liquid raw material and a powdered starting material comprising at least tobacco are then introduced into the mixer 40 and mixed with the binder that has been allowed to swell (second step: step S402).
Raw material for a reconstituted pressure-molded tobacco sheet is thus produced.
the tobacco may be tobacco leaf of any shape, but is preferably tobacco particles that have been classified in the classifier 30 shown in Fig. 1 .
the raw material mixed in the second step is molded into a pressure-molded sheet (molding step). Specifically, the raw material mixed in the second step is fed to the extruder 50 (step S403).
the raw material may be highly adhesive, and can therefore be fed by means of a carrier machine such as a belt conveyor to the extruder 50.
the raw material fed to the extruder 50 is extruded by the extruder 50 into the form of a sheet.
a binder is pre-mixed with water and allowed to swell, and a first liquid raw material and a powdered raw material are mixed while the binding function of the binder is active, thus allowing the viscosity of the raw materials to be increased.
the raw material is easier to handle, and the raw material is also easily extruded by the extruder 50.
the viscosity of the raw material is also increased, thus allowing the strength of the tobacco sheet to be enhanced.
the raw material fed to the extruder 50 is extruded by the extruder 50 into the die 60 (step S405), and is extruded from the die 60 into the form of a sheet (step S406).
a second liquid raw material may furthermore be added to the raw material fed to the extruder 50 (step S404).
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in the extruder 50.
raw material that is moist enough to be extruded in the extruder 50 will be highly adhesive, and will thus be difficult to handle outside the extruder 50 (when, for example, conveyed from the mixer 40 to the extruder 50).
Adding a second liquid raw material to the raw material in the extruder 50 will therefore allow the moisture of the raw material to be adjusted in the extruder 50, and thus allow the amount of the first liquid raw material that is mixed in the mixer 40 to be lowered.
the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material may comprise water. This will allow the amount of the first liquid raw material that is mixed in the mixer 40 to be lowered. As a result, the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the powdered raw material preferably includes tobacco and an additive.
a powdered raw material and a first liquid raw material are mixed in step S402, thereby allowing tobacco raw materials in which the viscosity has been increased by the binder to be produced.
the additive may comprise, for example, one or more selected from the group consisting of pulp, cellulose (such as crystallized cellulose or cellulose powder), calcium carbonate, menthol, and powdered flavoring.
the additive is included in the powdered raw material to allow the strength of the tobacco sheet to be increased or to allow flavor to be provided.
the tobacco and additive may each be separately introduced into the mixer 40 and mixed with the binder that has been allowed to swell.
the powdered raw materials are each separately mixed with the binder that has been allowed to swell, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the first liquid raw material preferably includes an aerosol source and an additive.
the binder that has been allowed to swell, the powdered raw material, and the first liquid raw material are mixed in step S402, thereby allowing tobacco raw materials in which a greater amount of aerosol is generated to be produced.
the aerosol source may comprise, for example, one or more selected from the group consisting of glycerol and propylene glycol.
the additive may also comprise, for example, liquid flavoring. The liquid flavoring is included in the liquid raw material to allow the tobacco sheet to be flavored.
the first liquid raw material and powdered raw material may each be separately introduced into the mixer 40 and mixed with the binder that has been allowed to swell.
the first liquid raw material and the powdered raw material are each thereby separately mixed, thus allowing the raw materials to be more uniformly mixed.
the first liquid raw material is preferably introduced, prior to the powdered raw material, into the mixer 40 to be mixed with the binder that has been allowed to swell in the second step (step S402).
the powdered raw material is thereby introduced and mixed with the binder that has been allowed to swell and the liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw material to be more uniformly mixed.
the production method shown in Fig. 4 may comprise, instead of step S405 and step S406, a step in which the raw material mixed in the second step (step S402) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by at least a pair of vertically facing rollers. More specifically, the raw material may be formed in stages into a sheet by three sets of rolling rollers (i.e., six rollers).
step S405 and step S406 may also comprise, instead of step S405 and step S406, a step in which the raw material mixed in the second step (step S402) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by being passed through two or more horizontally adjacent rolling rollers. More specifically, the raw material may be formed in stages into a sheet by being passed through each of four horizontally adjacent rolling rollers.
Fig. 5 is a flowchart of a method for producing a reconstituted pressure-molded tobacco sheet using the mixer 40, extruder 50, and die 60 according to a fourth embodiment.
powdered raw material including at least tobacco and a first liquid raw material are first introduced into and mixed in the mixer 40 (mixing step: step S501).
the tobacco may be tobacco leaf of any shape, but is preferably tobacco particles that have been classified in the classifier 30 shown in Fig. 1 .
the raw material mixed in the mixing step is then fed to the extruder 50 (step S502).
the raw material may be highly adhesive, and can therefore be fed by means of a carrier machine such as a belt conveyor to the extruder 50.
a second liquid raw material is furthermore added to the raw material fed to the extruder 50 (step S503).
the raw material extruded from the extruder 50 is molded into a pressure-molded sheet (molding step). Specifically, the raw material fed to the extruder 50 is extruded in the form of a sheet. More specifically, the raw material fed to the extruder 50 is extruded by the extruder 50 into the die 60 (step S504), and is extruded from the die 60 into the form of a sheet (step S505).
the raw material must have moisture suitable for the extrusion process in order for the raw material to be extruded in the extruder 50.
raw material that is moist enough to be extruded in the extruder 50 will be highly adhesive, and will thus be difficult to handle outside the extruder 50 (when, for example, conveyed from the mixer 40 to the extruder 50).
the fourth embodiment thus allows the moisture of the raw material to be adjusted in the extruder, and thus allow the amount of the first liquid raw material that is mixed in the mixer to be lowered.
the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material in step S503 may comprise water. This will allow the amount of the first liquid raw material that is mixed in the mixer 40 to be lowered. As a result, the raw material in the mixer 40 can be prevented from becoming highly adhesive, thus allowing the raw material to be easily handled when the raw material is fed from the mixer 40 to the extruder 50.
the second liquid raw material may include one or more selected from the group consisting of water, glycerol, propylene glycol, binder solution, and liquid flavoring.
the mixing step (step S501) may comprise: a first step in which two or more powdered raw materials are introduced into and mixed in the mixer 40; and a second step in which a first liquid raw material is introduced, after the first step, into the mixer 40 and mixed with the powdered raw materials.
the two or more powdered raw materials are mixed in the first step, thus allowing the powdered raw materials to be thoroughly mixed, before the powdered raw material is mixed with the first liquid raw material.
a first liquid raw material which is formed by pre-mixing an aerosol source, water, and an additive, may be introduced into the mixer 40.
the aerosol source, water, and additive contained in the first liquid raw material are pre-mixed, thus allowing the powdered raw material and the first liquid raw material to be more uniformly mixed.
the mixing step may comprise: a first step in which a first liquid raw material is introduced into the mixer 40; and a second step in which a powdered raw material is introduced, after the first step, into the mixer 40 and mixed with the first liquid material.
the powdered raw material is mixed with the first liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
tobacco, a binder, and an additive may each be separately introduced and mixed the first liquid raw material in the mixer 40.
the powdered raw materials are separately mixed with the first liquid raw material, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the mixing step (step S501) may comprise: a first step in which water and a binder are introduced into and mixed in the mixer 40 to allow the binder to swell; and a second step in which a first liquid raw material and a powdered raw material are introduced into the mixer 40, after the first step, to be mixed with the binder that has been allowed to swell.
a binder is pre-mixed with water and allowed to swell, and a first liquid raw material and a powdered raw material are mixed while the binding function of the binder is active, thus allowing the viscosity of the raw materials to be increased.
the raw material is easily extruded by the extruder 50.
the tobacco and additive may each be separately introduced into the mixer 40 and mixed with the binder that has been allowed to swell.
the powdered raw materials are each separately mixed with the binder that has been allowed to swell, thus making it possible to further prevent the powdered raw material from becoming lumpy and allowing the raw materials to be more uniformly mixed.
the first liquid raw material and the powdered raw material may also each be separately introduced into the mixer 40 to be mixed with the binder that has been allowed to swell.
the first liquid raw material and the powdered raw material are each thereby separately mixed, thus allowing the raw materials to be more uniformly mixed.
the second step may comprise introducing the first liquid raw material, prior to the powdered raw material, into the mixer 40 to be mixed with the binder that has been allowed to swell.
the powdered raw material is thereby introduced and mixed with the binder that has been allowed to swell and the first liquid raw material, thus making it possible to prevent the powdered raw material from becoming lumpy and allowing the raw material to be more uniformly mixed.
the production method shown in Fig. 5 may comprise, instead of step S504 and step S505, a step in which the raw material mixed in the second step (step S502) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by at least a pair of vertically facing rollers. More specifically, the raw material may be formed in stages into a sheet by three sets of rolling rollers (i.e., six rollers).
step S504 may also comprise, instead of step S504 and step S505, a step in which the raw material mixed in the second step (step S502) is extruded by an extruder 50, and a step in which the raw material extruded from the extruder 50 is formed into a sheet by passed through two or more horizontally adjacent rolling rollers. More specifically, the raw material may be formed in stages into a sheet by being passed through each of four horizontally adjacent rolling rollers.

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Chemical & Material Sciences (AREA)
Chemical Kinetics & Catalysis (AREA)
General Chemical & Material Sciences (AREA)
Health & Medical Sciences (AREA)
General Health & Medical Sciences (AREA)
Toxicology (AREA)
Manufacture Of Tobacco Products (AREA)

EP22969927.7A 2022-12-26 2022-12-26 Procédé de production de feuille de tabac reconstituée Pending EP4643662A1 (fr)

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PCT/JP2022/047813 WO2024142133A1 (fr)	2022-12-26	2022-12-26	Procédé de production de feuille de tabac reconstituée

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EP (1)	EP4643662A1 (fr)
JP (1)	JPWO2024142133A1 (fr)
KR (1)	KR20250112278A (fr)
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WO (1)	WO2024142133A1 (fr)

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WO2022019027A1 (fr)	2020-07-20	2022-01-27	日本たばこ産業株式会社	Dispositif de fabrication et procédé de fabrication de feuille de tabac reconstitué

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JP3206857B2 (ja) *	1994-03-30	2001-09-10	日本たばこ産業株式会社	シートたばこ刻みの製造方法及びその製造機
US5829453A (en) *	1995-06-09	1998-11-03	R. J. Reynolds Tobacco Company	Low-density tobacco filler and a method of making low-density tobacco filler and smoking articles therefrom
JP2000125834A (ja) *	1998-10-19	2000-05-09	Japan Tobacco Inc	圧延シートの成形装置
US20220296521A1 (en)	2019-06-10	2022-09-22	Respira Therapeutics, Inc.	Carrier-based formulations and related methods
JP7499859B2 (ja) *	2020-07-20	2024-06-14	日本たばこ産業株式会社	再構成たばこシートの製造装置および製造方法

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- 2022-12-26 JP JP2024566925A patent/JPWO2024142133A1/ja active Pending
- 2022-12-26 EP EP22969927.7A patent/EP4643662A1/fr active Pending
- 2022-12-26 WO PCT/JP2022/047813 patent/WO2024142133A1/fr not_active Ceased
- 2022-12-26 CN CN202280102697.6A patent/CN120344160A/zh active Pending
- 2022-12-26 KR KR1020257020289A patent/KR20250112278A/ko active Pending

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WO2024142133A1 (fr)	2024-07-04
CN120344160A (zh)	2025-07-18
KR20250112278A (ko)	2025-07-23
JPWO2024142133A1 (fr)	2024-07-04

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EP3912494A1 (fr)	2021-11-24	Procédé de production d'une feuille de tabac reconstitué laminée
WO2016067226A1 (fr)	2016-05-06	Tabac reconstitué par nano-stratification
US4337783A (en)	1982-07-06	Forming sheet from reconstituted tobacco
EP2695530B1 (fr)	2018-09-26	Tabac à usage oral et procédé de fabrication de ce dernier
US2887414A (en)	1959-05-19	Smoking product and method of manufacture
CN111526739B (zh)	2023-07-25	包括含有生物碱的均质化材料的片材的制备方法以及包含由其制备的组分的气溶胶形成制品
US3012914A (en)	1961-12-12	Reconstituted tobacco products and method of manufacture
EP4643662A1 (fr)	2025-11-05	Procédé de production de feuille de tabac reconstituée
EP4643667A1 (fr)	2025-11-05	Procédé de production de feuille de tabac reconstitué
EP4643661A1 (fr)	2025-11-05	Procédé de production de feuille de tabac reconstituée
EP4643660A1 (fr)	2025-11-05	Procédé de production de feuille de tabac reconstituée
JP6794216B2 (ja)	2020-12-02	溶解性に優れる細孔水溶性非イオン性セルロースエーテル及びその製造方法
WO2009070168A1 (fr)	2009-06-04	Procédé de préparation de cellulose alcaline ou d'un dérivé de cellulose
US3424170A (en)	1969-01-28	Process of forming reconstituted tobacco foils
CN121127646A (zh)	2025-12-12	用于制造纤维素基幅材的方法和设备
JP5779351B2 (ja)	2015-09-16	高密度リグノセルロースパルプの製造方法及びリグノセルロース繊維と熱可塑物質の複合物の製造方法
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CN120694426A (zh)	2025-09-26	发烟基材添加剂辊涂施加方法
GB2070410A (en)	1981-09-09	Reconstituted tobacco sheet
CN119423344A (zh)	2025-02-14	辊压烟芯的制备装置和辊压烟芯的制备方法
WO2025052297A1 (fr)	2025-03-13	Procédé de fabrication d'une bande de matériau reconstitué d'origine végétale
JPS6050433B2 (ja)	1985-11-08	しわ付きシ−トたばこの製造方法
ES425212A3 (es)	1976-08-01	Un molino aglomerador para preparar pienso compuesto en forma de granulos o nodulos.

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