RU2767008C1 - Tobacco product heated without burning with tobacco granules and method of production thereof - Google Patents

Abstract

FIELD: smoking accessories.SUBSTANCE: invention discloses a non-combustible tobacco product with tobacco granules and a method for production thereof. Technical result is achieved by the fact that the tobacco product with tobacco granules heated without burning comprises a section of tobacco granules and a filtering section; wherein section of tobacco granules has the following structure: front sealing structure and rear sealing structure are fixed, respectively, on front end and rear end of hollow paper tube, and the tobacco beads are packed between the front sealing structure and the rear sealing structure; wherein the rear sealing structure is adjacent to the filtering section; as front sealing structure, and the rear sealing structure have the shape of a bottle cap containing a disc-shaped cover section and a rim section having convex bends and concave depressions, as well as the technical result is achieved by a method for manufacturing such a heated tobacco product.EFFECT: providing manufacturability of the process.14 cl, 4 dwg, 1 tbl

Description

FIELD OF TECHNOLOGY TO WHICH THE INVENTION RELATES

The present invention relates to a non-burning heated tobacco bead cigarette and a method for making the same in the field of new tobacco products.

BACKGROUND OF THE INVENTION

In recent years, due to the introduction and implementation of the Framework Convention on Tobacco Control, governments of various countries have taken increasingly stringent measures to control tobacco smoking, and their tobacco regulatory laws have become tougher. Demands for tobacco and smoking control are getting stronger, and the pressure of competition in the domestic and foreign markets continues to increase. At the same time, with the continuous improvement of people's living standards, people are paying more attention to their physical and mental health and protecting the environment, and have a new perception of tobacco.

For the above reasons, the development of traditional cigarettes has been increasingly limited according to the 2011 statistics, while the production and sales of cigarettes in the world have been declining, other types of tobacco products have shown a tendency to spread rapidly. The product structure of the global tobacco market continues to undergo significant changes, and the active development of a full range of tobacco products has gradually become a strategic focus of various multinational tobacco companies. There are currently three main types of new tobacco products on the market: non-flammable heated tobacco products, electronic cigarettes and smokeless tobacco products. Of these, non-burning heated tobacco product, which appeared in the 1980s. and belongs to one of the important categories of new tobacco products, is a new type of tobacco products that create the effects of smoke emission by heating various forms of tobacco materials.

Flameless heated tobacco products typically deliver a tobacco flavor to consumers by "heating without burning" and are packaged and consumed in a manner similar to traditional cigarettes in that they are tailored to and meet the physical and psychological needs of consumers. Said "heating without burning" method allows tobacco to be heated only at a relatively low temperature (typically below 500°C), with the exception of tar and numerous harmful compounds formed due to the combustion of tobacco at a high temperature, and therefore in this case there is essentially no the influx of smoke, this method will not cause passive smoking and will not adversely affect the public environment. In recent years, many tobacco manufacturing companies and research institutes have seen the great potential of non-flammable heated tobacco products, invested huge capital in this field, and achieved significant results. Among such products, flameless electrically heated tobacco products have the advantage of controlled heating temperature, flexible heating method, convenience and fashionable shape, etc., have attracted more attention and are now an important development trend of flameless heated tobacco products in domestic and foreign markets.

The technological basis of non-burning heated tobacco products mainly includes two aspects: a heat source and a smoke-generating material. There are three types of heat sources: electric heating, coal heating and chemical reaction heating, with electric heating and coal heating sources used in products such as Philip Morris International's "iQOS" and Renault Tobacco's "Revo". Smoke-generating materials are major factors influencing the smoking sensation of non-burning heated tobacco products, and smoke-generating materials produced to date mainly include shredded tobacco, tobacco dust, reconstituted tobacco sheets, and the like. These materials can emit smoke with a characteristic tobacco flavor under different heating conditions, but they usually have disadvantages such as uneven heating, charring tendency, inconvenience to use, and the like. Of these, it is difficult to add atomizing agents to cut tobacco and tobacco dust, and therefore disadvantages such as small amount of smoke, uneven smoke emission, caking tendency, and the like are generated; The reconstituted tobacco leaf adopted in iQOS products solves the problem of smoke emission, but is characterized by complex manufacturing technology, expensive equipment and unreliable controllability, and there is a strong smell of burning paper in its smoke, which affects the taste sensation. Meanwhile, after the existing products are used, the smoke-generating material will remain on the electric heating component due to sintering, charring, adhesion and other reasons, and a special tool is required to clean the heating component; moreover, current non-burning heated leaf-type cigarettes are completely ejected after smoking, and tobacco will enter the heating chamber of the smoking set, thereby requiring an auxiliary component to eject the cigarettes.

In view of the aforementioned problems with tobacco products that use cut tobacco, tobacco dust, and reconstituted tobacco sheets as smoke-generating materials, patent documents CN108065456A, CN108143003A, CN108143005A, CN108185524A and the like. proposed a non-burning heated tobacco product that uses tobacco granules as smoke-generating materials, however, they all have the following problems: the layout of the cigarette structure is complicated; the sealing effect of tobacco granules is weak and the efficiency is low; and the chosen carrier material for encapsulating the tobacco beads shrinks when heated, resulting in dropout of the beads. Therefore, there is a strong need to develop a new type of heated, non-burning tobacco products with sufficient and uniform smoke emission, without falling out of tobacco granules, and with full extraction of cigarettes.

SUMMARY OF THE INVENTION

In order to overcome the aforementioned shortcomings of the prior art, the present invention provides a non-burning heated tobacco product with tobacco beads and a method for making the same, for ensuring that the non-burning heated tobacco product stably emits sufficient smoke, the tobacco beads do not fall out, the cigarette can be completely ejected, and , at the same time, to make the technological process simple and convenient through the rational layout of the cigarette structure.

To achieve the objectives of the invention, the following technical solutions are adopted in the present invention:

The invention discloses a non-burning heated tobacco product with tobacco beads, which is characterized in that: the non-burning heated tobacco product includes a section of tobacco beads and a filter section; wherein the tobacco bead section is structured as follows: a front seal structure and a rear seal structure are fixed to a front end and a rear end of the hollow paper tube, respectively, and tobacco beads are packed between the front seal structure and the back seal structure; while the rear sealing structure is adjacent to the filter section.

Preferably, both the front seal structure and the back seal structure are in the form of a bottle cap, including a disc-shaped lid portion and a rim portion with convex curves and concave depressions, and the lid portion is provided with a plurality of through holes; wherein the cover portion of the front seal structure is adjacent to the tobacco granules in the hollow paper tube, the rim portion is glued to the inner wall of the hollow paper tube, and the top of the rim portion is flush with the front opening of the hollow paper tube; the rim portion of the back seal structure is adjacent to the tobacco beads in the hollow paper tube and inserted into the hollow paper tube, and the rear end of the covering portion is flush with the rear opening of the hollow paper tube.

Preferably, the material used for the front seal structure is aluminum foil-backed paper and the material used for the back seal structure is aluminum foil. The weight of the paper with the aluminum foil sublayer is 40-60 g/m ² and the thickness of the aluminum foil is 30-100 µm. An aluminum foil-backed paper is a paper formed by gluing and bonding an aluminum foil and a base paper layer. The thickness of aluminum foil in paper with an aluminum foil sublayer is 5-9 µm.

Preferably, the diameter of the through hole of the cover portion of the front seal structure and the rear seal structure is 0.05-0.4 mm, and the distance from the edge of the through hole is 1-2 mm; the height of the rim portion of both the front sealing structure and the rear sealing structure is 1.0-2.5 mm.

Preferably, the aluminum foil layer is glued to the inner layer of the hollow paper tube.

Preferably, the hollow paper tube (11) has an outer diameter of 22.0-24.0 mm, a wall thickness of 0.2-0.4 mm and a length of 12-20 mm.

Preferably, the filter section includes a first cooling section, a second cooling section, and a filter section connected in series; wherein the first cooling section is adjacent to the tobacco bead section and the filter section is located at the lip end.

Preferably, the first cooling section is a specially formed cellulose acetate filter rod containing phase change material, the second cooling section is a polylactic acid filter rod, and the filter section is a solid or specially formed cellulose acetate filter rod.

Preferably, around the periphery of the filter rod and/or inside the filter rod is a specially shaped structure of a specially shaped cellulose acetate filter rod used as the first cooling section; at the same time, a specially formed structure located along the periphery of the filter rod has 3-5 "V"-shaped grooves, which are evenly distributed around the circumference of the cylindrical surface of the filter rod, and the volume of the grooves occupies 10-20% of the volume of the entire filter rod; the specially formed structure located inside the filter rod is a cavity provided on the central axis of the filter rod and extending along the axial direction of the filter rod, and the cross section of the cavity can be round, triangular, quadrangular, pentagonal, hexagonal, heptagonal, etc., the volume cavity is 7-18% of the volume of the entire filter rod.

Preferably, the phase change material is polyethylene glycol with a molecular weight of 4000-40000, which is sprayed onto the CA during processing of the specially formed cellulose acetate filter rod, and the amount of the phase change material is 10-30% of the total mass of the specially formed cellulose acetate filter rod.

Preferably, the PLA filter rod used as the second cooling section is formed by wrapping the PLA cooling material in forming paper; the polylactic acid cooling material is polylactic acid in the form of fibers or polylactic acid in the form of strips; the diameter of the fibers of polylactic acid is 50-300 microns; the width of the polylactic acid strips is 0.5-2.0 mm and the thickness is 25-50 µm; the suction resistance of the fiber-shaped polylactic acid filter rod is 300-1000 Pa/100 mm, and the suction resistance of the strip-shaped polylactic acid filter rod is 100-400 Pa/100 mm.

Preferably, the cellulose acetate filter rod used as the filter section is formed by wrapping cellulose acetate in forming paper; when the filter section is adopted in the form of a specially formed cellulose acetate filter rod, the specially formed structure is a cavity provided on the central axis of the filter rod and extending along the axial direction of the filter rod, and the volume of the cavity is not more than 10% of the volume of the entire specially formed pulp - acetate filter rod; when the filter section is adopted in the form of a solid cellulose acetate filter rod, the suction resistance does not exceed 1000Pa/100mm.

Preferably, the hollow paper tube of the tobacco bead section and the first cooling section are wrapped in airtight forming paper to form a double composite rod of the hollow paper tube/first cooling section; the second cooling section and the filter section are wrapped in high air permeability forming paper (air permeability exceeds 2000 CU (Coresta units) to form a double compound rod from the second cooling section/filter section; while the double composite rod from the hollow paper tube/first cooling section and the double compound rod from the second cooling section/filter section is twisted together by means of label paper, the label paper wrapping the entire double compound rod from the second cooling section/filter section and part of the first cooling section.

Preferably, the length of the first cooling section is 7-12 mm and the diameter is 22.0-24.0 mm; the length of the second cooling section is 15-18 mm and the diameter is 22.0-24.0 mm; the length of the filter section is 7-10 mm, and the diameter is 22.0-24.0 mm; wherein the diameters of the tobacco bead section, the first cooling section, the second cooling section and the filtering section are the same.

The manufacturing method of the above-described heated non-burning tobacco product with tobacco beads comprises the following steps:

1) preparation of warp rods:

using a paper tube spiral forming machine to form the paper into a hollow paper tube, or using a paper tube spiral forming machine to spirally bond paper and paper with aluminum foil to form a paper tube hollow;

spraying the polyethylene glycol phase change material evenly onto the cellulose acetate by high pressure spray technology, and then converting it into a specially shaped cellulose acetate filter rod as the first cooling section using a filter rod forming machine; in the manufacturing process, forming a specially formed structure inside the filter rod by fixing a metal setting device with the same hollow section shape as the specially formed filter rod at the center of the molded part, and forming a specially formed structure located on the periphery of the filter rod by fixing several triangular locating devices on the inner wall of the molded part;

wrapping the PLA cooling material in a forming paper using a filter rod forming machine to form a PLA filter rod used as a second cooling section; And

wrapping the cellulose acetate in forming paper using a filter rod forming machine to form a solid or specially shaped cellulose acetate filter rod used as a filter section;

2) Preparation of composite filter rod:

using a double compound filter rod forming machine to connect the hollow paper tube and the first cooling section through airtight shaping paper, and connect the second cooling section and the filter section through high air permeability forming paper to obtain a double compound rod from the hollow paper tube/first cooling section and a double composite rod from the second cooling/filtering section;

3) Making Hollow Tube Cigarettes: Use a cigarette rolling machine to twist the double stacked rod of the hollow paper tube/first cooling section and the double stacked rod of the second cooling section/filtering section together through the label paper to form hollow tube cigarettes. ;

4) stuffing and sealing of tobacco granules: using a rotary drum to bring the hollow tube cigarette to a state where the hollow paper tube is vertically upward; inserting the rear sealing structure into the hollow paper tube; then, a measuring cup method is used to quantitatively pack tobacco granules into a hollow paper tube and reserve the height required for the front sealing structure at the front end; then, pad printing and gluing technology is used to glue the inner wall of the hollow paper tube, without filling tobacco granules; and finally, after drying, a non-burning heated tobacco product with tobacco beads is obtained.

The non-burning heated tobacco product with tobacco granules of the present invention can be used in connection with an electric heating smoking apparatus to produce sufficiently stable smoke by heating the tobacco granular materials.

The beneficial effects of the present invention are as follows:

(1) The tobacco bead seal structure used in the present invention seals the tobacco bead tightly and has high heat resistance, will not shrink or fall off the tobacco bead, and the tobacco bead seal carrier material is safe and environmentally friendly;

(2) the non-flammable heated tobacco products of the present invention can be fully ejected after smoking without the need for an auxiliary ejection device;

(3) the process for making non-burning heated tobacco products of the present invention is simple, highly efficient, and inexpensive; And

(4) The filter section of the present invention creates a dual effect of smoke cooling and low smoke retention by combining two cooling sections.

BRIEF DESCRIPTION OF THE DRAWINGS

1 is a longitudinal section through a non-burning heated tobacco product with tobacco beads of the present invention.

Fig. 2 is a schematic representation of the design of the front seal structure of a non-burning heated tobacco product with tobacco beads according to the present invention.

3 is a schematic representation of the design of a specially formed cellulose acetate filter rod used as the first cooling section in a non-burning heated tobacco product with tobacco beads of the present invention, with the specially formed structure located at the periphery of the filter rod.

4 is a schematic representation of the structure of a specially formed cellulose acetate filter rod used as the first cooling section in a non-burning heated tobacco product with tobacco beads of the present invention, with the specially formed structure located inside the filter rod.

List of reference items:

1: tobacco bead section, 11: hollow paper tube, 12: tobacco bead, 13: front seal structure, 131: top section, 132: rim section, 14: rear seal structure;

2: first cooling section, 2a: "V" grooves, 2b: cavity with triangular cross section;

3: second cooling section, 31: forming paper in the second cooling section, 32: polylactic acid cooling material;

4: filter section, 41: filter section forming paper, 42: cellulose acetate;

5: airtight shaping paper;

6: shaping paper with high air permeability;

7: label paper.

DETAILED DESCRIPTION OF EMBODIMENTS

The following describes in detail the embodiments of the present invention; the present embodiments are implemented based on the technical solution of the present invention, and exhaustive implementations and specific workflows are provided, but the protection scope of the present invention is not limited to the following embodiments.

As shown in FIG. 1, a non-burning heated tobacco bead product includes a tobacco bead section 1 and a filter section. The tobacco bead section 1 has the following structure: a front seal structure 13 and a rear seal structure 14 are respectively fixed at the front end and rear end of the hollow paper tube 11, and tobacco beads 12 are packed between the front seal structure 13 and the rear seal structure 14; the rear sealing structure 14 is adjacent to the filter section. The filter section includes a first cooling section 2, a second cooling section 3 and a filter section 4 connected in series; the first cooling section 2 is adjacent to the tobacco bead section 1, and the filter section 4 is located at the lip end. The hollow paper tube of the tobacco bead section 1 and the first cooling section 2 are wrapped in an airtight forming paper 5 to form a double composite rod of the hollow paper tube/first cooling section; the second cooling section 3 and the filter section 4 are wrapped in high air permeability forming paper 6 to form a double compound rod of the second cooling section/filter section; double compound rod from hollow paper tube/first cooling section and double compound rod from second cooling/filtering section are twisted together with label paper cooling.

Both the front seal structure 13 and the back seal structure 14 are in the form of bottle caps, and taking the front seal structure 13 as an example, as shown in FIG. having convex bends and concave depressions, and the covering section is provided with a plurality of through holes. The cover portion of the front seal structure 13 is adjacent to the tobacco granules in the hollow paper tube, the rim portion is glued to the inner wall of the hollow paper tube 11, and the top of the rim portion is flush with the front opening of the hollow paper tube 11; the rim portion of the back seal structure 14 is adjacent to the tobacco beads in the hollow paper tube and is inserted into the hollow paper tube 11, and the rear end of the cover portion is flush with the rear opening of the hollow paper tube 11. The rim portion of both the rear seal structure and the front seal structure has beer bottle cap design with convex curves and concave troughs, which can increase the contact area with the inner wall of the hollow paper tube to prevent slippage; and can ensure the adhesive strength of the front sealing structure on the inner wall of the hollow paper tube. The cover portion of the rear seal structure is used to prevent tobacco beads from entering the cavity filter rod, and the cover portion of the front seal structure is used to prevent tobacco beads from falling out of the hollow paper tube of the cigarette.

Information about the tobacco granular material used in the present embodiment is given in Embodiment 1 of patent document CN108143003A.

In a specific implementation, the material used for the front seal structure 13 is paper with an aluminum foil sublayer (its weight is 45 g/m ² in the present embodiment), and the material used for the back seal structure 14 is aluminum foil (its thickness is 40 µm in the present embodiment). When smoking cigarettes, cold air enters from the side of the paper with the aluminum foil sublayer of the front sealing material and mixes with the smoke emitted when the tobacco granules are heated to form a hot air stream, and the hot air stream passes through the aluminum foil of the back sealing material and enters the filter chamber. section. Therefore, the use of aluminum foil as a back sealing material provides satisfactory heat resistance, does not release harmful components when heated, and provides some cooling effect. Due to the need to attach the surface of the paper base paper with an aluminum foil sublayer to the inner wall of the hollow paper tube by means of adhesive, and due to the fact that its adhesive strength is much higher than the adhesive strength of the surface of the aluminum foil to the inner wall of the hollow paper tube, paper with an aluminum foil sublayer is used as a front sealing material. In addition, using paper with an aluminum foil backing as a front sealing material is a better solution than using paper directly as a front sealing material, since paper with an aluminum foil backing has higher warping ability and permeation resistance than paper alone. , due to the presence of metallic aluminum foil.

In a specific implementation, the diameter of the through hole of the covering portion of the front seal structure 13 and the rear seal structure 14 is 0.05-0.4 mm, and the distance from the edge of the through hole is 1-2 mm; the height of the rim portion of both the front seal structure 13 and the rear seal structure 14 is 1.0-2.5 mm. If the diameter of the through hole is less than 0.05 mm, it will lead to excessive suction resistance, decrease in smoke volume, and deterioration of the smoking feeling; if the diameter of the through hole is larger than 0.4 mm, it will cause dropping of tobacco granules. If the height of the rim portion of the front sealing structure is less than 1.0 mm, there is a risk of the sealing structure falling out due to insufficient bonding strength with the hollow paper tube; if the height of the rim portion of the rear seal structure is less than 1.0 mm, there is a risk of the seal structure shifting due to the small area of contact with the hollow paper tube. If the height of the rim portion of the front seal structure is larger than 2.5 mm, it will reduce the effective packing volume of tobacco granules, make it difficult to manufacture, and reduce production efficiency; if the height of the rim portion of the rear seal structure is greater than 2.5 mm, it will not only result in wastage of material, but also will not contribute to high-performance processing. In the present embodiment: the diameter of the through hole of the cover portion of the front seal structure 13 is 0.2 mm, and the distance from the edge of the through hole is 1 mm, and the height of the rim portion is 2 mm; the diameter of the through hole of the cover portion of the rear sealing structure is 0.1 mm, and the distance from the edge of the through hole is 1 mm, and the height of the rim portion is 2 mm.

In a specific implementation, a layer of aluminum foil is glued to the inner layer of the hollow paper tube 11. The aluminum foil layer has an excellent protective function and can effectively prevent tobacco granule chemicals from leaking during storage or smoking.

In a specific implementation, the hollow paper tube 11 has an outer diameter of 22.0-24.0 mm, a wall thickness of 0.2-0.4 mm, and a length of 12-20 mm. In the present embodiment, the outer diameter of the hollow paper tube is 22.5 mm, the wall thickness is 0.2 mm, and the length is 15 mm.

In a particular implementation, the first cooling section 2 is a specially formed cellulose acetate filter rod containing a phase change material, and its specially formed structure is located around the periphery of the filter rod and/or inside the filter rod. As shown in FIG. 3, the specially formed structure, located on the periphery of the filter rod, contains 3-5 "V"-shaped grooves 2a evenly distributed around the circumference of the cylindrical surface of the filter rod, and the volume of the grooves is 10-20% of the entire volume of the filter rod; the specially formed structure inside the filter rod is a cavity provided on the central axis of the filter rod and extending along the axial direction of the filter rod, wherein the cross section of the cavity is circular, triangular (as shown in Fig. 4, where 2b in the figure denotes a cavity with a triangular cross section ), quadrangular, pentagonal, hexagonal or heptagonal, and the volume of the cavity is 7-18% of the volume of the entire filter rod. The phase change material is polyethylene glycol with a molecular weight of 4000-40000, which is uniformly sprayed onto the CA during processing of the specially shaped cellulose acetate filter rod; while the mass of material with a changeable phase state is 10-30% of the total mass of a specially formed cellulose acetate filter rod. In the present embodiment, the specially shaped structure of the specially shaped cellulose acetate filter rod used as the first cooling section 2 is 5 "V" grooves 2a uniformly distributed around the circumference of the cylindrical surface of the filter rod, and the volume of the grooves is 15 % by volume of the entire filter rod, and the phase change material used is polyethylene glycol with a molecular weight of 6000, and its weight is 20% of the total weight of the specially formed cellulose acetate filter rod.

In a specific implementation, the PLA filter rod used as the second cooling section 3 is formed by wrapping the PLA cooling material 32 in the forming paper 31 of the second cooling section; wherein the polylactic acid cooling material is polylactic acid in the form of fibers or polylactic acid in the form of strips; moreover, the diameter of the fibers of polylactic acid is 50-300 microns; strips of polylactic acid have a width of 0.5-2.0 mm and a thickness of 25-50 microns; when polylactic acid in the form of fibers is used, the suction resistance of the polylactic acid filter rod is 300-1000 Pa/100 mm; when polylactic acid strips are used, the suction resistance of the polylactic acid filter rod is 100-400 Pa/100 mm. In the present embodiment, polylactic acid is used in the form of fibers with a fiber diameter of 100 µm, and the suction resistance of the filter rod is 500 Pa/100 mm.

The phase change material has the characteristics of absorbing and storing heat, and by adding the polyethylene glycol phase change material to the specially formed cellulose acetate filter rod, the smoke temperature can be reduced. However, due to the large longitudinal airflow passage in the specially formed filter rod containing the phase change material, it is difficult to reduce the temperature of the smoke to a temperature acceptable for the cavity, and therefore, a cooling filter rod based on polylactic acid. The polylactic acid in the PLA filter rod is in the form of fibers or platelets, it has a large specific surface area, and can more fully contact with the smoke, so that the cooling effect is enhanced. However, if only a PLA filter rod is used, too much smoke will be captured, resulting in a low smoke volume, and therefore the two cooling approaches are used together. For the first cooling section: if the volume of the groove or cavity is too small, then more smoke will be captured; if the volume of the groove or cavity is too large, the cooling effect will be greatly reduced. On the second cooling section: if polylactic acid in the form of fibers is used, when the suction resistance exceeds 1000Pa/100mm, it will intensively capture smoke, and when the suction resistance is lower than 300Pa/100mm, the effective cooling area material will be too small and the cooling effect will be limited; if polylactic acid strips are used, the cooling effect will be limited when the suction resistance is lower than 100Pa/100mm, and the smoke will also be more strongly entrained when the suction resistance is over 400Pa/100mm.

In a specific implementation, the cellulose acetate filter rod used as the filter section is formed by wrapping cellulose acetate 42 in the forming paper 41 of the filter section; when the filter section uses a specially formed cellulose acetate filter rod, the specially formed structure is a cavity provided on the central axis of the filter rod and extends along the axial direction of the filter rod, and the volume of the cavity is not less than 10% of the volume of the entire specially formed cellulose acetate filter rod; When the filter section uses a solid cellulose acetate filter rod, the suction resistance does not exceed 1000Pa/100mm. In the present embodiment, a solid cellulose acetate filter rod is used as the filter section, and its suction resistance is 1000 Pa/100 mm.

In a specific implementation, the length of the first cooling section 2 is 7-12 mm and the diameter is 22.0-24.0 mm; the length of the second cooling section 3 is 15-18 mm and the diameter is 22.0-24.0 mm; the length of the filter section 4 is 7-10 mm, and the diameter is 22.0-24.0 mm. The diameters of the tobacco bead section 1, the first cooling section 2, the second cooling section 3 and the filter section 4 are the same. In the present embodiment, the diameter of each section is 22.5 mm, and the lengths of the first cooling section 2, the second cooling section 3, and the filter section 4 are 10 mm, 15 mm, and 10 mm, respectively.

The present embodiment also provides a method for making a non-burning heated tobacco product with tobacco beads, which includes the following steps:

1) preparation of warp rods:

using a paper tube spiral forming machine to spirally bond paper and paper with aluminum foil to form a hollow paper tube;

spraying the polyethylene glycol phase change material evenly onto the cellulose acetate by high pressure spray technology, and then converting it into a specially shaped cellulose acetate filter rod as the first cooling section using a filter rod forming machine;

wrapping the PLA cooling material in a forming paper using a filter rod forming machine to form a PLA filter rod used as a second cooling section; And

wrapping the cellulose acetate in forming paper using a filter rod forming machine to form a solid or specially shaped cellulose acetate filter rod used as a filter section;

2) preparation of composite filter rods:

using a double compound filter rod forming machine to connect the hollow paper tube and the first cooling section through airtight shaping paper, and connect the second cooling section and the filter section through high air permeability forming paper to obtain a double compound rod from the hollow paper tube/first cooling section and a double composite rod from the second cooling/filtering section.

3) Making Hollow Tube Cigarettes: Using a cigarette rolling machine to twist the double stacked rod of the hollow paper tube/first cooling section and the double stacked rod of the second cooling section/filtering section together through the label paper to form a hollow tube cigarette. .

4) stuffing and sealing of tobacco granules: using a rotary drum to bring the hollow tube cigarette to a state where the hollow paper tube is vertically upward; inserting the rear sealing structure into the hollow paper tube; then, a measuring cup method is used to quantitatively pack tobacco granules into a hollow paper tube and reserve the height required for the front sealing structure at the front end; then, pad printing and gluing technology is used to glue the inner wall of the hollow paper tube, without filling tobacco granules; and finally, after drying, the production of a non-burning heated tobacco product with tobacco granules is completed.

Comparing the non-burning heated tobacco bead cigarette products provided in the present embodiment with a commercial sheet-type cigarette product, in the same smoking device, in a smoking mode in which the smoking duration is 2 seconds and the smoking interval is 30 seconds, the number of puffs is 8 and the number of tests is 3 to obtain an average value. The smoke temperature varies as shown in Table 1, and it can be seen that the temperature for each puff and the overall average temperature of the cigarette products provided in the present embodiment are lower than the temperature of the commercial product, which means that the refrigeration combination system of the present embodiment implementation gives a higher smoke cooling effect. In addition, the total amount of smoke captured by the filter of the present embodiment is 25.3%, while the total amount of smoke captured by the commercial product is 26.9%, and the amount of smoke captured in the present embodiment is slightly less than in commercial product. In general, assuming that the total amount of captured smoke does not substantially increase, the cooling effect of the smoke of the cigarette product of the present embodiment is stronger.

Table 1

Sample name first puff second puff third puff fourth puff fifth puff sixth puff seventh puff eighth puff the average commercial item 36°C 48°C 51°C 49°C 54°C 48°C 47°C 49°C 48°C The product of the present invention 33°C 37°C 38°C 36°C 37°C 35°C 36°C 38°C 36°C

Claims (38)

1. Heated without burning tobacco product with tobacco granules, containing: section (1) tobacco granules and filter section; wherein the section (1) of tobacco granules has the following structure: the front sealing structure (13) and the rear sealing structure (14) are fixed at the front end and the rear end of the hollow paper tube (11), respectively, and the tobacco granules (12) are packed between a front sealing structure (13) and a rear sealing structure (14); moreover, the rear sealing structure (14) is adjacent to the filter section; both the front seal structure (13) and the back seal structure (14) are in the form of a bottle cap, comprising a disc-shaped top portion and a rim portion having convex curves and concave cavities. 2. Heated without combustion tobacco product with tobacco granules according to claim 1, in which the covering section is provided with a plurality of through holes; at the same time, the cover section of the front sealing structure (13) is adjacent to the tobacco granules in the hollow paper tube, and the rim section is fixed with glue on the inner wall of the hollow paper tube (11), and the top of the rim section is flush with the front opening of the hollow paper tube (11 ); the rim portion of the rear sealing structure (14) is adjacent to the tobacco granules in the hollow paper tube and inserted into the hollow paper tube (11), and the rear end of the covering portion is flush with the rear opening of the hollow paper tube (11). 3. Heated without combustion tobacco product with tobacco beads according to claim 1, in which the material used for the front sealing structure (13) is paper with a sublayer of aluminum foil, and the material used for the back sealing structure (14) is aluminum foil. 4. Heated without combustion tobacco product with tobacco granules according to claim 2, in which the diameter of the through hole of the covering section of the front sealing structure (13) and the rear sealing structure (14) is 0.05-0.4 mm, and the distance from the edge of the through holes is 1-2mm; the height of the rim section of both the front sealing structure (13) and the rear sealing structure (14) is 1.0-2.5 mm. 5. The non-burning heated tobacco product with tobacco beads according to claim 2, wherein the layer of aluminum foil is adhered to the inner layer of the hollow paper tube (11). 6. Heated without combustion tobacco product with tobacco granules according to claim 2, in which the hollow paper tube (11) has an outer diameter of 22.0-24.0 mm, a wall thickness of 0.2-0.4 mm and a length of 12-20 mm. 7. Heated without combustion tobacco product with tobacco granules according to claim 1, in which the filter section comprises a first cooling section (2), a second cooling section (3) and a filter section (4) connected in series; wherein the first cooling section (2) is adjacent to the tobacco bead section (1), and the filtering section (4) is located at the lip end; wherein the first cooling section (2) is a shaped cellulose acetate filter rod containing phase change material, the second cooling section (3) is a polylactic acid filter rod, and the filter section (4) is a solid or shaped cellulose acetate filter rod. rod. 8. Heated without combustion tobacco product with tobacco granules according to p. 7, in which on the periphery of the filter rod and/or inside the filter rod there is a profiled structure of a profiled cellulose acetate filter rod used as the first section (2) cooling; at the same time, the profiled structure located along the periphery of the filter rod has 3-5 "V"-shaped grooves evenly distributed around the circumference of the cylindrical surface of the filter rod, and the volume of the grooves is 10-20% of the volume of the entire filter rod; the shaped structure located inside the filter rod is a cavity provided on the central axis of the filter rod and extending along the axial direction of the filter rod, and the volume of the cavity is 7-18% of the volume of the entire filter rod. 9. The non-flammable heated tobacco bead tobacco product of claim 7, wherein the phase change material is 4,000-40,000 molecular weight polyethylene glycol that is uniformly sprayed onto the cellulose acetate during processing of the shaped cellulose acetate filter rod; and the amount of phase change material is 10-30% of the total amount of shaped cellulose acetate filter rod. 10. The non-burning heated tobacco bead tobacco product according to claim 7, wherein the PLA filter rod used as the second cooling section (3) is formed by wrapping the PLA cooling material in forming paper; wherein the polylactic acid cooling material is polylactic acid in the form of fibers or polylactic acid in the form of strips; the diameter of the fibers of polylactic acid in the form of fibers is 50-300 microns; the width of the strip-shaped polylactic acid strips is 0.5-2.0 mm and the thickness is 25-50 µm; moreover, when polylactic acid in the form of fibers is used, the suction resistance of the polylactic acid filter rod is 300-1000 Pa/100 mm; and when polylactic acid in the form of strips is used, the suction resistance of the polylactic acid filter rod is 100-400 Pa/100 mm. 11. Heated without combustion tobacco product with tobacco granules according to claim 7, in which the cellulose acetate filter rod used as the filter section is formed by wrapping cellulose acetate in forming paper; when the filter section takes the form of a shaped cellulose acetate filter rod, the shaped structure is a cavity provided on the central axis of the filter rod and extending along the axial direction of the filter rod, the volume of the cavity being not more than 10% of the volume of the entire shaped cellulose acetate filter rod ; and when the filter section takes the form of a solid cellulose acetate filter rod, the suction resistance does not exceed 1000 Pa/100 mm. 12. The non-burning heated tobacco bead product according to claim 5, wherein the hollow paper tube of the tobacco bead section (1) and the first cooling section (2) are wrapped in airtight shaping paper (5) to form a double composite rod of the hollow paper tube/first cooling section; the second cooling section (3) and the filter section (4) are wrapped in high air permeability forming paper (6) to form a double compound rod of the second cooling section/filter section; wherein the double composite rod of the hollow paper tube/first cooling section and the double composite rod of the second cooling/filtering section are twisted together by the label paper (7). 13. Heated without combustion tobacco product with tobacco granules according to claim 7, in which the length of the first section (2) cooling is 7-12 mm, and the diameter is 22.0-24.0 mm; the length of the second cooling section (3) is 15-18 mm and the diameter is 22.0-24.0 mm; the length of the filter section (4) is 7-10 mm and the diameter is 22.0-24.0 mm; wherein the diameters of the tobacco granules section (1), the first cooling section (2), the second cooling section (3) and the filtering section (4) are the same. 14. A method of manufacturing a non-burning heated tobacco product with tobacco granules according to any one of paragraphs. 7-13 containing the following steps: 1) the stage of preparation of the base rods, including: using a paper tube forming machine to form a paper tube into a hollow paper tube or using a paper tube forming machine to spirally bond paper and paper with aluminum foil to form a paper tube; spraying the polyethylene glycol phase change material uniformly onto cellulose acetate by high pressure spray technology, and then converting it into a shaped cellulose acetate filter rod as the first cooling section using a filter rod forming machine; wrapping the PLA cooling material in a forming paper using a filter rod forming machine to form a PLA filter rod used as a second cooling section; And wrapping CA in forming paper using a filter rod forming machine to form a solid or shaped cellulose acetate filter rod used as a filter section; 2) the stage of preparing a composite filter rod, including: using a double compound filter rod forming machine to connect the hollow paper tube and the first cooling section through airtight shaping paper, and connect the second cooling section and the filter section through high air permeability shaping paper to obtain a double compound rod from the hollow paper tube/first cooling section and a double composite rod from the second cooling/filtering section; 3) the step of preparing hollow tube cigarettes, comprising: using a cigarette rolling machine to twist the double stacked rod of the hollow paper tube/first cooling section and the double stacked rod of the second cooling section/filtering section together through the label paper to form hollow tube cigarettes; And 4) the stage of stuffing and compacting tobacco granules, including: using the rotary drum to bring the hollow tube cigarette to a state in which the hollow paper tube is vertically upward; inserting the rear sealing structure into the hollow paper tube; then applying the measuring cup method to quantitatively pack the tobacco granules into the hollow paper tube and reserve the height required for the front sealing structure at the front end; then applying pad printing technology and applying glue to glue the inner wall of the hollow paper tube, without filling the tobacco granules; and finally, after drying, obtaining a heated non-burning tobacco product with tobacco beads.

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