WO2013084786A1 - 喫煙物品、フィルター - Google Patents

喫煙物品、フィルター Download PDF

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Publication number
WO2013084786A1
WO2013084786A1 PCT/JP2012/080905 JP2012080905W WO2013084786A1 WO 2013084786 A1 WO2013084786 A1 WO 2013084786A1 JP 2012080905 W JP2012080905 W JP 2012080905W WO 2013084786 A1 WO2013084786 A1 WO 2013084786A1
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WO
WIPO (PCT)
Prior art keywords
filter
smoke
suction port
smoking article
cigarette
Prior art date
Application number
PCT/JP2012/080905
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
中村 淳
祐一郎 木戸
宏和 一坪
豊 改發
悠 二宮
明弘 杉山
和香子 貫戸
康信 井上
Original Assignee
日本たばこ産業株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 日本たばこ産業株式会社 filed Critical 日本たばこ産業株式会社
Priority to EP12854784.1A priority Critical patent/EP2789248B1/en
Priority to CA2857227A priority patent/CA2857227C/en
Priority to UAA201407701A priority patent/UA112567C2/uk
Priority to JP2013548199A priority patent/JP5816702B2/ja
Priority to KR1020147018471A priority patent/KR101722303B1/ko
Priority to CN201280060691.3A priority patent/CN103974636B/zh
Priority to EP18198912.0A priority patent/EP3446576B1/en
Publication of WO2013084786A1 publication Critical patent/WO2013084786A1/ja

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24CMACHINES FOR MAKING CIGARS OR CIGARETTES
    • A24C5/00Making cigarettes; Making tipping materials for, or attaching filters or mouthpieces to, cigars or cigarettes
    • A24C5/32Separating, ordering, counting or examining cigarettes; Regulating the feeding of tobacco according to rod or cigarette condition
    • A24C5/34Examining cigarettes or the rod, e.g. for regulating the feeding of tobacco; Removing defective cigarettes
    • A24C5/3406Controlling cigarette combustion
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24DCIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
    • A24D3/00Tobacco smoke filters, e.g. filter-tips, filtering inserts; Filters specially adapted for simulated smoking devices; Mouthpieces for cigars or cigarettes
    • A24D3/02Manufacture of tobacco smoke filters
    • A24D3/0275Manufacture of tobacco smoke filters for filters with special features
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24DCIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
    • A24D1/00Cigars; Cigarettes
    • A24D1/002Cigars; Cigarettes with additives, e.g. for flavouring
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24DCIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
    • A24D1/00Cigars; Cigarettes
    • A24D1/02Cigars; Cigarettes with special covers
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24DCIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
    • A24D1/00Cigars; Cigarettes
    • A24D1/02Cigars; Cigarettes with special covers
    • A24D1/027Cigars; Cigarettes with special covers with ventilating means, e.g. perforations
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24DCIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
    • A24D3/00Tobacco smoke filters, e.g. filter-tips, filtering inserts; Filters specially adapted for simulated smoking devices; Mouthpieces for cigars or cigarettes
    • A24D3/04Tobacco smoke filters characterised by their shape or structure
    • A24D3/043Tobacco smoke filters characterised by their shape or structure with ventilation means, e.g. air dilution
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24DCIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES FOR CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
    • A24D3/00Tobacco smoke filters, e.g. filter-tips, filtering inserts; Filters specially adapted for simulated smoking devices; Mouthpieces for cigars or cigarettes
    • A24D3/17Filters specially adapted for simulated smoking devices
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F42/00Simulated smoking devices other than electrically operated; Component parts thereof; Manufacture or testing thereof
    • A24F42/20Devices without heating means

Definitions

  • the present invention relates to a smoking article and a filter provided with a filter part.
  • a cigarette filter chip is disclosed in which the suction side end of a cylindrical filter chip is cut obliquely.
  • smoke flows out at right angles to the inclined surface during smoking, and the taste is improved (for example, see Patent Document 1).
  • the conventional filter chip for cigarettes requires a process for cutting the suction side end of the filter chip at an angle at the end of the manufacturing process, which requires a special processing device or manufacture. There has been a problem in that the efficiency is deteriorated.
  • a smoking article includes a cigarette part, a filter part having a suction port, a cylindrical cover part covering the cigarette part and the filter part, and the cover part in the vicinity of the suction port.
  • a plurality of apertures are provided.
  • a smoking article includes a cigarette part, a filter part having a suction port, a cylindrical cover part covering the cigarette part and the filter part, and the cover part in the vicinity of the suction port. An exposed portion.
  • the filter which concerns on one form of this invention has the cylinder part attached to one edge part of a smoking article, a suction port, the filter part provided inside the said cylinder part, and the said cylinder part in the vicinity of the said suction port A plurality of apertures provided in the.
  • a smoking article includes a cigarette part, a filter part having a suction port, a cylindrical cover part covering the cigarette part and the filter part, and the cover part in the vicinity of the suction port. And a plurality of apertures provided at a predetermined angle with respect to the axis of the filter unit.
  • the filter which concerns on one form of this invention has the cylinder part attached to one edge part of a smoking article, a suction port, the filter part provided inside the said cylinder part, and the said cylinder part in the vicinity of the said suction port And a plurality of apertures provided at a predetermined angle with respect to the axis of the filter unit.
  • a smoking article includes a cigarette part, a filter part having a suction port, a cylindrical cover part covering the cigarette part and the filter part, and the cover part in the vicinity of the suction port.
  • a plurality of apertures, and an air intake portion provided in the cover portion at a position deviating from the vicinity of the suction port, and provided in the filter portion, and from the smoke and the air intake portion.
  • a mixing unit for mixing with air.
  • FIG. 2 is a perspective view in which the cigarette shown in FIG. 1 is partly cut and partly exploded.
  • the schematic diagram which showed the measuring apparatus which evaluates about the smoke diffusion effect of the cigarette shown in FIG. The table
  • surface shown in FIG. The schematic diagram which showed the diffusion state of the smoke of the comparative example 101 of the table
  • FIG. 17 is a perspective view in which the cigarette shown in FIG. 16 is partly cut and partly disassembled.
  • surface which showed the comparative example 201 and Examples 201-213 of the cigarette shown in FIG. The schematic diagram which showed the diffusion state of the smoke of the comparative example 201 of the table
  • surface shown in FIG. The schematic diagram which showed the diffusion state of the smoke of Example 201 of the table
  • surface shown in FIG. The schematic diagram which showed the diffusion state of the smoke of Example 202 of the table
  • surface shown in FIG. The schematic diagram which showed the diffusion state of the smoke of Example 203 of the table
  • surface shown in FIG. The schematic diagram which showed the diffusion state of the smoke of Example 206 of the table
  • surface shown in FIG. The schematic diagram which showed the diffusion state of the smoke of Example 207 of the table
  • surface shown in FIG. The schematic diagram which showed the diffusion state of the smoke of Example 211 of the table
  • the graph which showed the relationship between L and R of each Example. 66 is a graph showing an enlarged position where L in FIG. 66 is near 0 mm to 2 mm.
  • the cigarette 11 has a cylindrical shape including a cigarette portion 12 in which the periphery of a cut leaf (cigarette) is wrapped with a wrapping paper and formed into a cylindrical shape, and a winding body 14 covering the periphery of the filter body 13 and the filter body 13.
  • a filter unit 15, a chip paper 16 provided across the cigarette unit 12 and the filter unit 15, and an opening 17 provided so as to penetrate the winding paper 14 and the chip paper 16 are provided.
  • the chip paper 16 is an example of a cylindrical cover portion that covers the tobacco portion 12 and the filter portion 15.
  • the cigarette 11 may be provided with a ventilation 18 (ventilation hole) provided in a ring shape at an equal interval, for example, at an intermediate position of the filter portion 15.
  • the chip paper 16 is connected to the tobacco part 12 and the filter part 15.
  • the chip paper 16 has a suction port 21 at one end, and overlaps the cigarette portion 12 at the other end opposite to the one end.
  • the ventilation 18 is, for example, a hole provided so as to penetrate the chip paper 16 or a hole that penetrates the chip paper 16 and the web 14 and reaches the filter unit 15. It supplies and plays the role which mainly thins the smoke which flows through the filter part 15.
  • the plurality of apertures 17 are arranged in, for example, a four-row ring shape.
  • the number of columns of the openings 17 is not limited to four, and may be an arbitrary number of columns such as 1 to 6, for example.
  • circular apertures 17 are arranged in each row at regular intervals, for example.
  • the shape of the opening 17 is not limited to a circle, and may be another shape such as a polygon.
  • the plurality of apertures 17 are closer to the suction port 22 (suction port 21) than the position of, for example, 8 mm from the suction port 22 (suction port 21) of the filter unit 15 in the axial direction A of the cigarette 11 (filter unit 15).
  • the plurality of apertures 17 are preferably located, for example, at a position of 4 mm from the suction port 22 (suction port 21) of the filter unit 15 in the axial direction A of the cigarette 11 (filter unit 15). From the position close to the suction port 22 (suction port 21), or less than 4 mm from the suction port 22 (suction port 21), or more preferably from the position closer to the suction port 22 (suction port 21) than the position of 2 mm (suction port 22 (suction port 21)) Within a range of less than 2 mm).
  • the opening portion 17 includes a first portion 17A provided so as to penetrate the chip paper 16, and a second portion 17B provided in the filter portion 15 (the web 14 and the filter body 13).
  • the diameter of the filter unit 15 is, for example, 5 mm to 9 mm, for example, 8 mm. Further, the circumferential length of the filter unit 15 is, for example, 16 mm to 28 mm, for example, 25 mm.
  • the filter unit 15 is provided adjacent to the tobacco unit 12 at the end opposite to the end surface 22A of the suction port 22.
  • the filter main body 13 has a second portion 17B of the opening portion 17 provided so as to be continuous with the first portion 17A.
  • Each second portion 17B is formed so as to extend from the first portion 17A toward the center and stop at a predetermined depth.
  • a value obtained by adding the depth of the first portion 17A and the depth of each second portion 17B of each aperture 17 is, for example, in the range of 0.11 mm to 2.61 mm.
  • the first portion 17A and the second portion 17B of the opening portion 17 are integrally formed, and are collectively formed by, for example, laser processing.
  • the depth (defect depth) obtained by adding the depth of the first portion 17A and the depth of the second portion 17B of the opening 17 is specifically the condition of Comparative Example 101 and Examples 101 to 123 described later. Produced.
  • the filter body 13 may not be provided with the second portion 17B, and the opening portion 17 (a part of the first portion 17A and the second portion 17B) may be provided only in the chip paper 16 and the web 14.
  • the manufacturing method of the first portion 17A and the second portion 17B of the opening portion 17 is not limited to the one by laser processing.
  • An electrical method may be used.
  • the angle of the opening 17 may be arbitrarily set. That is, in the present embodiment, each aperture 17 is formed at an angle of 90 ° with respect to the tangential direction of the cross section of the filter portion 15, but the angle of each aperture 17 can be formed at an arbitrary angle.
  • FIG. 10 is a cross-sectional view of the filter unit 15 cut along a plane orthogonal to the axial direction A, and shows a first modification of the present embodiment. As shown in the figure, for example, the opening 17 may be formed at any angle as long as it is 1 ° or more and 179 ° or less with respect to the tangential direction in a plane orthogonal to the axial direction A (FIG.
  • FIG. 11 is a cross-sectional view of the filter unit 15 cut along a plane along the axial direction A, and shows a second modification of the present embodiment.
  • the opening 17 may be formed at any angle as long as it is 1 ° or more and 179 ° or less with respect to the tangential direction in the plane along the axial direction A (see FIG.
  • the opening portion 17 extends away from the axis A as it approaches the suction port 22.
  • the opening 17 is assumed to extend in a direction approaching the axis A as it approaches the suction port 22.
  • first modification and the second modification are combined to form a predetermined angle with respect to the tangential direction in a plane orthogonal to the axial direction A (an angle of 1 ° to 179 °, as an example) 60 °) and the opening 17 is formed so as to form a predetermined angle with respect to the tangential direction in a plane along the axial direction A (an angle of 1 ° or more and 179 ° or less, for example, 60 °). Also good.
  • the filter body 13 can be formed by various kinds of fillers.
  • the filter main body 13 is composed of, for example, a filler of cellulose semisynthetic fibers such as acetate, but the filler is not limited thereto.
  • Filling materials include, for example, plant fibers such as cotton, hemp, manila hemp, palm and rush, animal fibers such as wool and cashmere, cellulosic regenerated fibers such as rayon, cellulose semisynthetic fibers such as diacetate and triacetate, nylon, Synthetic fibers such as polyester, acrylic, polyethylene, and polypropylene, or combinations thereof can be used.
  • the constituent element of the filter unit 15 may be a charcoal filter containing charcoal or a filter containing particles other than charcoal in addition to the acetate filter.
  • granular materials other than charcoal include acetate granules, powders such as cyclodextrins, and microcapsules.
  • the filter unit 15 may be composed of two or more segments.
  • plasticizer used for the filter body 13 of the filter unit 15 is not limited.
  • triethyl citrate, acetyl triethyl citrate, acetyl tributyl citrate, dibutyl tartrate, ethyl phthalyl ethyl glycolate, methyl phthalyl ethyl glycolate, triacetin, triethyl phosphate, triphenyl phosphate, tripropionine or combinations thereof Things can be used.
  • a plasticizer may not be used.
  • the filter body 13 may include a menthol flavor and the like.
  • the flavoring method is not particularly limited.
  • a string-like substance adsorbing a flavor is disposed in the filter body 13, or the filler in the filter portion 15 is included, or a flavor such as a capsule is fixed.
  • a method of disposing the converted material in the filter unit 15 may be used.
  • the type and material of the web 14 used for the filter body 13 of the filter unit 15 are not limited. An air-permeable web used for general products may be used, or a paper that does not have air-permeability may be used.
  • paper made of vegetable fibers is used as the material of the web, but sheets made of polymer fibers (polypropylene, polyethylene, nylon, etc.) or polymer sheets are used. Alternatively, a metal foil such as an aluminum foil may be used.
  • the filter body 13 may be a non-wrap filter as shown in FIG. 15 of Japanese Patent No. 4262247.
  • the non-wrap filter has a filter material and a skin layer that forms the filter material into a cylindrical shape, and the skin layer is obtained by thermoforming the filter material. Therefore, when a non-wrap filter is used, no web is required.
  • the material of the chip paper 16 does not matter.
  • the chip paper 16 is generally made of paper made of vegetable fibers, but a sheet using polymer fibers (polypropylene, polyethylene, nylon, etc.) or polymer sheets may be used. Alternatively, a metal foil such as an aluminum foil may be used.
  • the manufacturing process of the cigarette 11 of this embodiment is demonstrated.
  • the cigarette part 12 (winding) and the filter part 15 of two lengths are manufactured by a general method.
  • a filter portion 15 having a length of two is inserted between the two tobacco portions 12.
  • a rod-shaped thing which connected the tobacco part 12 and the filter part 15 is formed by winding up these with the chip paper 16 which has a length for 2 pieces collectively.
  • the continuous output beam output from a laser oscillator such as a CO 2 laser is distributed in pulses from the outer periphery of the rod using a rotating chopper or the like. Irradiate.
  • a ventilation 18 is formed on the chip paper 16 by the pulsed laser beam.
  • the first portion 17A of the opening portion 17 is formed in the chip paper 16 and the web 14 by the pulsed laser beam, and at the same time, the second portion 17B having a predetermined depth is formed in the filter body 13. .
  • tip paper 16 are cut
  • the opening portion 17 may be provided after the ventilation hole 18 is provided using a CO 2 laser, and conversely, the ventilation hole 18 may be provided after the opening portion 17 is provided with a CO 2 laser. It may be provided.
  • the opening portion 17 may be formed with a CO 2 laser when the cigarette 11 is manufactured using the chip paper 16 in which the ventilation holes 18 are provided in advance.
  • the ventilation hole 18 may be formed with a CO 2 laser (in this case, the opening portion 17 is formed of the chip paper 16.
  • the hole 17 may be provided with a CO 2 laser after manufacturing a normal cigarette.
  • the measuring device 24 includes an air flow path separating jig 25, a first membrane flow meter 26, a second membrane flow meter 27, a first valve 31 adjacent to the first membrane flow meter 26, A second valve 32 adjacent to the second membrane flow meter 27, a pump 33 (suction pump) that sucks air from the air flow path separation jig 25, and an exhaust part from which the exhaust from the pump 33 is discharged 34.
  • a buffer for preventing pulsation of the pump 33 is provided at a position upstream of the pump 33.
  • the suction flow rate of the pump 33 is controlled by a mass flow controller at a flow rate of 1050 ml / min.
  • the first membrane flow meter 26 and the second membrane flow meter 27 can measure the flow rate of smoke (actually air) discharged to the first portion 35 and the second portion 36, respectively.
  • the first valve 31 and the second valve 32 have a flow rate of air passing through the first portion 35 when the cigarette 11 is sucked by the pump 33 in a state where the cigarette 11 is not attached to the air flow path separation jig 25.
  • the flow rate is adjusted so that the flow rate of air passing through the second portion 36 is 50%, specifically 525 ml / min.
  • the air flow path separating jig 25 includes a first portion 35 (cell) provided at a position far from the cigarette 11 so that smoke (air) flowing out from the end surface 22A of the filter portion 15 is discharged, and the filter portion.
  • a second portion 36 (cell) provided near the cigarette 11 so that smoke flowing out from the 15 second portions 17B and the apertures 17 is discharged, a first portion 35 and a second portion 36 And a second seal 38 provided so as to contact the chip paper 16 of the cigarette 11.
  • the pipes extending from the first portion 35 and the second portion 36 are joined downstream and connected to the pump 33.
  • the first part 35 and the second part 36 each have a hollow disk shape, and the internal volume is the same.
  • a cylindrical extension tube portion 41 attached to the suction port 21 of the chip paper 16 of the cigarette 11 is disposed inside the first portion 35.
  • the extension cylinder part 41 is comprised, for example with the tape which has the contact bonding layer on the single side
  • the extension cylinder portion 41 guides smoke (air) discharged from the end surface 22 ⁇ / b> A of the filter portion 15 to the inside of the first portion 35.
  • the first and second seals 37 and 38 are each formed in a ring shape.
  • the first seal 37 can airtightly partition between the internal space of the first portion 35 and the internal space of the second portion 36 in a state where the extension cylinder portion 41 is inserted inside.
  • the second seal 38 can air-tightly partition between the internal space of the second portion 36 and the outside in a state where the cigarette 11 is inserted inside.
  • Cigarette 11 which is an example of a smoking article, was manufactured under the conditions of Comparative Example 101 and Examples 101 to 123 shown in FIG.
  • the defect rate of the filter unit 15 was determined by the following formula. First, prior to the measurement of the defect rate, the tobacco part 12 and the filter part 15 are separated. Then, the filter unit 15 wound with the web 14 or the chip paper 16 is impregnated with a 30% by volume ethanol aqueous solution, and only the chip paper 16 is separated from the filter body 13. The separated chip paper 16 is spread on a slide, pasted and dried. The aperture 17 is enlarged with an optical microscope, and the area of the aperture 17 is measured using area measurement software.
  • the total defect area in the vicinity of the suction port 21 of the chip paper 16 a value obtained by multiplying the area of one aperture 17 by the number of all apertures 17 was used.
  • the area of one opening part 17 measured the area of 30 opening parts 17 arbitrarily, and used the arithmetic average.
  • deletion area by the area of the filter part 15 of the state wound by the chip paper 16 from the suction inlet 21 to 8 mm was made into the defect rate.
  • the defect depth was determined by coloring the filter body 13 with a pigment and measuring the depth of the second portion 17B. Specifically, the defect depth is determined such that when the aperture portion 17 is cut into a ring perpendicular to the axial direction A of the filter portion 15 and the cross section is uniformly colored, the defect portion of the aperture portion 17 is not colored. Appears in state. Measure its depth. At this time, the 2nd part 17B was expanded with the optical microscope or the magnifier, and the depth was measured. The value of the defect depth was determined by arbitrarily measuring the depth of the ten second portions 17B and taking the arithmetic average thereof.
  • the thickness of the chip paper 16 and the web 14 is defined as the defect depth.
  • the chip depths shown in the table of FIG. 4 those having a depth of 0.11 mm do not have the opening portion 17 penetrating the chip paper 16 and the winding paper 14, and the opening portion 17 is formed of the chip paper 16 and the winding paper 14. Stops within the thickness range.
  • those with a depth of 0.14 mm or more penetrate the chip paper 16 through the hole 17 (first portion 17A), and the winding paper 14 and the filter main body 13 have a predetermined depth.
  • the second portion 17B is formed.
  • FIG. 5 shows a graph in which each example shown in FIG. 4 is plotted.
  • the same mark is attached
  • FIG. 6 is a state of mainstream smoke (air) of a normal cigarette 11, and mainstream smoke flows out from the end face 22A of the filter portion 15 in a horizontal direction as indicated by a broken line.
  • a broken line in FIG. 7 in the cigarette 11 of Example 101, most of the smoke flows out in the horizontal direction as in Comparative Example 101, but the outer peripheral part (opening part 17) of the filter part 15 Smoke (air flow) flowing out vertically was confirmed.
  • Example 117 in Example 117, in addition to the outflow of smoke in the horizontal direction as seen in Comparative Example 101 and Example 101, a large amount of smoke (air) is generated on the outer periphery of the filter unit 15. It was confirmed that the gas flowed out from the part (opening part 17).
  • the fluff test of the filter part 15 was conducted on the cigarettes 11 of Examples 101 to 123 and the cigarettes having the shape described in JP-A-59-102386.
  • the cigarette 11 of each example and the cigarette having the shape described in Japanese Patent Application Laid-Open No. 59-102386 are inserted into and removed from a cigarette holder of an automatic smoker used for a general smoking test, for example, seven times, and the suction port 22 of the filter unit 15 is inserted. The vicinity was observed with an optical microscope.
  • the filter portion 15 was fuzzy near the suction port 21.
  • the cigarette 11 of each Example showed no fuzz.
  • Example 102 Example 107, Example 108, Example 111, Example 112, Example 116, Example 117, Example 119, Cigarette 11 with the same defect rate and defect depth as in Example 120, What closed the ventilation 18 was used.
  • the result of measuring the air ratio F that has passed through the apertures 17 of each sample is shown in FIG.
  • the ventilation 18 is a major means for reducing the tar of the cigarette 11.
  • the present invention can be applied to any tar range.
  • the smoking article (cigarette 11) has a cylindrical shape that covers the cigarette part 12, the filter part 15 having the suction port 22, and the cigarette part 12 and the filter part 15. And a plurality of opening portions 17 provided in the cover portion in the vicinity of the suction port 22.
  • the opening portion 17 is provided in the vicinity of the suction port 22, not only the end surface 22A of the filter portion 15 but also the opening portion 17 can cause smoke to flow out. Thereby, smoke becomes easy to spread in the oral cavity during smoking, and the taste can be further improved.
  • the special filter cutting process is not required at the time of manufacture, but the cigarette 11 with the opening part 17 can be manufactured with a general tobacco winding machine, and a manufacturing process is simplified. And an increase in cost can be prevented.
  • the cigarette 11 having the above-described configuration is partially covered with the tip paper 16 and the web 14 as in the case of a normal cigarette, the quality of the filter fiber such as fluffing is reduced when smoking. Can be prevented.
  • Smoking article penetrates the cover part and reaches the filter part 15. According to this structure, the outflow of smoke from the opening portion 17 can be further promoted. Thereby, the spread of smoke during smoking can be improved and the taste can be further improved.
  • the plurality of second portions 17B are provided closer to the suction port 22 than the position of 8 mm from the suction port 22 in the axial direction A of the filter portion 15. According to this structure, the opening part 17 can be provided in the location located in the oral cavity at the time of smoking.
  • the flow rate F of the smoke flowing out from the opening portion 17 with respect to the total flow rate of the smoke flowing out from the end face 22A of the filter portion 15 and the opening portion 17 is 2.8% or more and 68.9% or less. According to this configuration (condition), a smoker can feel the spread of smoke in the oral cavity during smoking.
  • the tip paper 16 is removed in a ring shape with a predetermined width in the vicinity of the suction port 21 (suction port 22) of the cigarette 11 to form one exposed portion 51. is doing.
  • the exposed portion 51 exposes the web 14 to the outside.
  • the exposed portion 51 is provided closer to the suction port 21 (suction port 22) than the position of 8 mm from the suction port 21 (suction port 22) in the axial direction A of the filter unit 15.
  • the exposed portion 51 is preferably located at a position closer to the suction port 22 (suction port 21) than the position of 4 mm from the suction port 22 (suction port 21), or more preferably at a position closer to the suction port 22 (suction port 21) than 2 mm. It may be a position close to. Also in this embodiment, smoke diffusion effect in the oral cavity can be expected to some extent as in the first embodiment and its examples 101 to 123, and the taste can be further improved.
  • the chip paper 16 is removed in the triangle vicinity in the suction inlet 21 (suction inlet 22) of the cigarette 11, and the some exposed part 51 is shown. Is forming.
  • the plurality of exposed portions 51 are provided closer to the suction port 21 (suction port 22) than the position of 8 mm from the suction port 21 (suction port 22) in the axial direction A of the filter unit 15.
  • the plurality of exposed portions 51 are preferably located closer to the suction port 22 (suction port 21) than the position of 4 mm from the suction port 22 (suction port 21), or more preferably at a position closer to the suction port 22 (suction port) than 2 mm. It may be a position close to 21).
  • the plurality of exposed portions 51 expose the web 14 to the outside. Also in this embodiment, smoke diffusion effect in the oral cavity can be expected to some extent as in the first embodiment and its examples 101 to 123, and the taste can be further improved.
  • the shape of the exposed portion 51 is not limited to a triangle.
  • the exposed portion 51 may be, for example, a circular shape such as a circle or an ellipse, a polygonal shape such as a quadrangle, a rhombus, a parallelogram, a trapezoid, a cross shape, or a combination of these shapes.
  • the exposed portions 51 may have their shapes extending to the suction port 21, and the geometric shapes of the exposed portions 51 may be provided at any angle.
  • FIG. 14 the upper half of the smoking tool 53 is shown cut by a plane passing through the axis A.
  • the smoking tool 53 includes a cigarette part 12 composed of cut leaves (cigarettes), a cylindrical first filter part 15A and a second filter part 15B adjacent to the cigarette part 12, A cylindrical resin covering portion 52 that covers the cigarette portion 12, the first filter portion 15A, and the second filter portion 15B, and an opening portion 17 provided so as to penetrate the covering portion 52.
  • the first filter portion 15 ⁇ / b> A has a suction port 22.
  • the cover 52 has the suction port 21 at one end.
  • the opening portion 17 is provided in the vicinity of the suction port 22 of the cover portion 52, and the suction port 22 (suction port 21) is located at a position 8 mm from the suction port 22 (suction port 21) in the axial direction A of the first filter portion 15A. ). However, the opening 17 is preferably located closer to the suction port 22 (suction port 21) than the position of 4 mm from the suction port 22 (suction port 21), or more preferably from the position of 2 mm to the suction port 22 (suction port 21). )
  • the plurality of apertures 17 are arranged in, for example, four rows of rings.
  • the opening portion 17 includes a first portion 17A provided so as to penetrate the cover portion 52, and a second portion 17B provided so as to stop in the middle of the first filter portion 15A.
  • the filter 81 is configured to be detachable from a smoking article, for example, the general cigarette 11 as described above.
  • the filter 81 has a resin-made cylinder part 82 attached to one end of the smoking article (cigarette 11) and the suction port 22, and the columnar filter part 15 provided inside the cylinder part 82, and the suction port 22. , And a plurality of apertures 17 provided in the cylindrical portion 82 in the vicinity.
  • the opening portion 17 is provided closer to the suction port 22 (suction port 21) than the position of 8 mm from the suction port 22 (suction port 21) in the axial direction A of the filter unit 15. However, the opening 17 is preferably located closer to the suction port 22 (suction port 21) than the position of 4 mm from the suction port 22 (suction port 21), or more preferably from the position of 2 mm to the suction port 22 (suction port 21). )
  • the plurality of apertures 17 are arranged in, for example, four rows of rings.
  • the opening portion 17 includes a first portion 17A provided so as to penetrate the cylinder portion 82 and a second portion 17B provided so as to stop in the middle of the filter portion 15.
  • the effect of diffusing air including smoke in the oral cavity or the flavor of tobacco that comes out of the filter portion can be expected, and the taste can be further improved.
  • the smoking article (cigarette 11) and the filter 81 are not limited to the above-described embodiment and each example, and can be embodied by modifying the constituent elements without departing from the scope in the implementation stage.
  • some constituent elements may be deleted from all the constituent elements shown in the embodiments and examples, or constituent elements in different embodiments and examples may be appropriately combined.
  • FIG. 17, 5th Embodiment of the cigarette which is an example of a smoking article is described. Parts different from those of the first embodiment will be mainly described, and description of parts common to the first embodiment will be omitted.
  • the upper half of the cigarette 11 is cut along a plane passing through the axis A.
  • the cigarette 11 includes a cigarette portion 12 that is formed by wrapping a cigarette (cigarette) with a wrapping paper into a cylindrical shape, and a web 14 that covers the periphery of the filter main body 13 and the filter main body 13.
  • a cylindrical filter portion 15, a chip paper 16 provided across the cigarette portion 12 and the filter portion 15, and an opening portion 17 provided so as to penetrate the winding paper 14 and the chip paper 16 are provided.
  • the chip paper 16 is an example of a cylindrical cover portion that covers the tobacco portion 12 and the filter portion 15.
  • the cigarette 11 may be provided with a ventilation 18 (ventilation hole) provided in a ring shape at an equal interval, for example, at an intermediate position of the filter portion 15.
  • the chip paper 16 is connected to the tobacco part 12 and the filter part 15.
  • the chip paper 16 has a suction port 21 at one end, and overlaps the cigarette portion 12 at the other end opposite to the one end.
  • the ventilation 18 is, for example, a hole provided so as to penetrate the chip paper 16 or a hole that penetrates the chip paper 16 and the web 14 and reaches the filter unit 15. It supplies and plays the role which mainly thins the smoke which flows through the filter part 15.
  • the plurality of apertures 17 are, for example, arranged in a single row of ring shapes (or radial shapes), but may be arranged in a plurality of rows of ring shapes. In each row, for example, a plurality of circular apertures 17 are arranged at regular intervals, for example.
  • the plurality of apertures 17 are provided in the vicinity of the suction port 22 of the filter unit 15. More specifically, the plurality of apertures 17 are arranged in the direction of the axis A of the cigarette 11 (filter portion 15) from the suction port 22 (suction port 21) of the filter unit 15 at, for example, 8 mm from the suction port 22 (suction port).
  • the opening portion 17 includes a first portion 17A provided so as to penetrate the chip paper 16, and a second portion 17B provided in the filter portion 15 (the web 14 and the filter body 13).
  • the diameter of the filter unit 15 is, for example, 5 mm to 9 mm, for example, 8 mm. Further, the circumferential length of the filter unit 15 is, for example, 16 mm to 28 mm, for example, 25 mm.
  • the filter unit 15 is provided adjacent to the tobacco unit 12 at the end opposite to the end surface 22A of the suction port 22.
  • the filter main body 13 has a second portion 17B of the opening portion 17 provided so as to be continuous with the first portion 17A.
  • Each second portion 17B is formed so as to extend from the first portion 17A toward the center and stop at a predetermined depth.
  • the first portion 17A and the second portion 17B of the opening portion 17 are integrally formed, and are collectively formed by, for example, laser processing.
  • the total depth (defect depth) of the depth of the first portion 17A and the depth of the second portion 17B of the opening 17 is specifically the condition of Comparative Example 201 and Examples 201 to 213 described later. Produced.
  • the filter body 13 may not be provided with the second portion 17B, and the opening portion 17 (a part of the first portion 17A and the second portion 17B) may be provided only in the chip paper 16 and the web 14.
  • the opening 17 is provided so as to form an angle ⁇ with the axis A passing through the center of the filter 15.
  • the angle at which the opening 17 is provided is set as in each example described later.
  • the angle ⁇ between the aperture 17 and the axis A of the filter portion 15 can be set, for example, at 1 ° or more and 179 ° or less, but the angle of the aperture 17 is limited to this. Is not to be done.
  • the angle ⁇ formed between the opening portion 17 and the axis A of the filter portion 15 may be set to 1 ° or more and less than 90 °. In this case, it can be paraphrased that the opening portion 17 is provided obliquely with respect to the axis A of the filter portion 15.
  • the opening 17 extends in a direction away from the axis A as it approaches the suction port 22. Further, when the angle ⁇ is larger than 90 °, the opening portion 17 is assumed to extend in a direction approaching the axis A as it approaches the suction port 22.
  • the manufacturing method of the first portion 17A and the second portion 17B of the opening portion 17 is not limited to the one by laser processing.
  • a mechanical method of press opening with a needle-like tooth mold (punch) or corona discharge An electrical method may be used.
  • the opening 17 has a circular shape, but the shape of the opening 17 is not limited.
  • the opening portion 17 is, for example, a circular shape such as a circle or an ellipse, a polygonal shape such as a triangle, a quadrangle, a rhombus, a parallelogram, a trapezoid, a cross shape, or a combination of these shapes, or Those shapes may extend to the inlet 22.
  • the shape of the opening portion 17 may be in any direction, or a plurality of opening portions 17 may be arranged in combination by changing the angle (direction) between adjacent opening portions 17. Also good.
  • the manufacturing process of the cigarette 11 of this embodiment is demonstrated.
  • the cigarette part 12 (winding) and the filter part 15 of two lengths are manufactured by a general method.
  • a filter portion 15 having a length of two is inserted between the two tobacco portions 12.
  • a rod-shaped thing which connected the tobacco part 12 and the filter part 15 is formed by winding up these with the chip paper 16 which has a length for 2 pieces collectively.
  • a continuous output beam output from a laser oscillator such as a CO 2 laser is distributed in pulses from the outer peripheral direction of the rod using a rotating chopper while running the connected rod-shaped object at a predetermined speed. Irradiate.
  • a ventilation 18 is formed on the chip paper 16 by the pulsed laser beam.
  • the first portion 17A of the opening portion 17 is formed in the chip paper 16 and the web 14 by the pulsed laser light, and at the same time, the second portion 17B having a predetermined depth is formed in the filter body 13. . And the filter part 15 and the chip
  • the opening portion 17 may be provided after the ventilation hole 18 is provided using a CO 2 laser, and conversely, the ventilation hole 18 may be provided after the opening portion 17 is provided with a CO 2 laser. It may be provided.
  • the opening portion 17 may be formed with a CO 2 laser when the cigarette 11 is manufactured using the chip paper 16 in which the ventilation holes 18 are provided in advance.
  • the ventilation hole 18 may be formed with a CO 2 laser (in this case, the opening portion 17 is formed of the chip paper 16.
  • the hole 17 may be provided with a CO 2 laser after manufacturing a normal cigarette. In any case, the laser irradiated to form the aperture 17 is irradiated so as to form an angle ⁇ with respect to the axis A.
  • Cigarette 11 as an example of a smoking article was manufactured under the conditions of Comparative Example 201 and Examples 201 to 213 shown in FIG.
  • laser was irradiated at an angle ⁇ with respect to the axis A, and an aperture portion 17 having an angle ⁇ with respect to the axis A was formed on the outer peripheral portion of the filter portion 15 (implementation) Examples 201-207).
  • cigarettes 11 having different depths with a constant opening angle were produced by changing the intensity of the irradiated laser (Examples 208 to 213).
  • the opening area, the opening depth, and the opening angle of the produced cigarette 11 are shown in the table of FIG.
  • the opening angle indicates a set value of the irradiation angle set in the laser processing machine.
  • 37 apertures 17 are provided in one cigarette 11, and are provided in a line at a position of about 1.5 mm from the suction port.
  • the opening depth and opening angle of the created opening 17 were measured as follows. First, a razor is inserted from the suction port 22 (suction end surface) of the filter unit 15, the filter unit 15 is separated into two parts (so as to break the ridge), and the defect portion is enlarged with an optical microscope or a magnifying glass. The depth of the part 17 is measured. As for the opening depth, ten opening portions 17 were arbitrarily measured, and the arithmetic average thereof was defined as the opening depth. By arbitrarily setting the laser irradiation angle, the filter unit 15 could be perforated at that angle. It was also found that when the laser irradiation angle was changed, the opening area was small and the opening depth tended to be deeper as it approached 90 °.
  • the opening area and depth can be operated independently.
  • the opening area of the opening 17 was measured as follows. After the opening portion 17 is formed on the outer peripheral portion of the filter portion 15 of the cigarette, the winding portion (the tobacco portion 12) and the filter portion 15 are separated. The filter unit 15 wound with the winding paper 14 and the chip paper 16 is impregnated with a 30% by volume ethanol aqueous solution to separate only the chip paper 16 from the filter body 13. The separated chip paper 16 is spread on a slide, pasted and dried. The aperture 17 was enlarged with an optical microscope, and the area of the aperture 17 was measured using area measurement software. For the area of the apertures 17 (aperture area), 30 apertures 17 were arbitrarily measured, and the arithmetic average thereof was used.
  • the lightness is a numerical value from white to black, for example, white is 255, black is 0, and gray is a value between them depending on the darkness.
  • the numerical value is high in areas where smoke is dark, and 0 in areas where there is no smoke.
  • a graph is created by taking the position in the direction perpendicular to the axis A of the filter unit 15 on the horizontal axis and the brightness on the vertical axis.
  • the position in the direction perpendicular to the axis A of the filter unit 15 is standardized so that the upper end of the filter unit 15 of the corresponding image is 1 and the lower end of the filter unit 15 is ⁇ 1, and the brightness is the highest for each corresponding image.
  • 1 is a high numerical value.
  • the above-described method is an example of an image analysis method, and other image analysis methods can be employed.
  • a comparative example 201 shown in FIG. 19 is a state of the mainstream smoke 71 (air) of the normal cigarette 11, and smoke (mainstream smoke 71) flows out from the end face 22A of the filter unit 15 in the horizontal direction as indicated by a broken line. .
  • the mainstream smoke 71 is between the upper end and the lower end of the filter unit 15, that is, within a range larger than ⁇ 1 and smaller than +1 on the horizontal axis. For this reason, in the comparative example 201, it is understood that smoke is not diffusing.
  • FIG. 23 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 202.
  • Example 202 in addition to the outflow of smoke (mainstream smoke 71) in the horizontal direction as seen in Comparative Example 201 and Example 201, the axis A A large amount of diffused smoke 72 (air) flowing out to the downstream side in the flow direction of the mainstream smoke 71 was confirmed.
  • the diffusion smoke 72 flowing obliquely out of the opening portion 17 is diffused prior to the outflow of the mainstream smoke 71. This phenomenon is considered to be caused by the fact that the flow path resistance of the portion where the opening portion 17 is present is smaller than the flow passage resistance of the portion through which the mainstream smoke 71 passes (near the suction port 22 of the filter portion 15).
  • Example 202 In the image analysis result of Example 202 shown in FIG. 24, a certain amount of smoke was detected in a portion larger than +1 and a portion smaller than ⁇ 1 on the horizontal axis. According to the analysis result of FIG. 24, it can be seen that the smoke diffuses about twice the diameter of the cigarette 11.
  • FIG. 25 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 203.
  • FIG. 25 along with the smoke in the horizontal direction (mainstream smoke 71), a large amount of diffused smoke 72 that flows obliquely from the aperture 17 to the downstream side in the flow direction of the mainstream smoke 71 was observed. .
  • the amount of diffused smoke 72 flowing out from the aperture 17 was greater than in Example 202.
  • the angle formed between the diffusion smoke 72 flowing out from the aperture 17 and the axis A was larger than that in Example 202.
  • the diffusion smoke 72 is diffused prior to the outflow of the mainstream smoke 71.
  • Example 203 In the image analysis result of Example 203 shown in FIG. 26, a large amount of smoke diffused into a portion larger than +1 and a portion smaller than ⁇ 1 on the horizontal axis was detected. According to the analysis result of FIG. 26, it was detected that smoke was diffused in a range of about 2 to about 4 times the diameter of the cigarette 11.
  • FIG. 27 is a schematic diagram of an image showing the degree of smoke diffusion in Example 204.
  • FIG. 27 along with the smoke in the horizontal direction (mainstream smoke 71), a large amount of diffused smoke 72 flowing from the aperture 17 to the downstream side in the flow direction of the mainstream smoke 71 was observed from the opening 17. .
  • the angle formed between the diffusion smoke 72 flowing out from the opening 17 and the axis A was larger than that in Example 203.
  • the diffusion smoke 72 is diffused prior to the outflow of the mainstream smoke 71.
  • Example 204 smoke diffused into a portion larger than +1 and a portion smaller than ⁇ 1 on the horizontal axis was detected. According to the analysis result of FIG. 28, it was detected that smoke was diffused in a range about three times the diameter of the cigarette 11.
  • FIG. 29 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 205.
  • FIG. 29 along with the smoke in the horizontal direction (mainstream smoke 71), a large amount of diffused smoke 72 flowing from the aperture 17 to the downstream side in the flow direction of the mainstream smoke 71 was observed from the opening 17. .
  • the angle formed between the diffusion smoke 72 flowing out from the opening 17 and the axis A was larger than that in Example 204.
  • the diffusion smoke 72 is diffused prior to the outflow of the mainstream smoke 71.
  • Example 205 In the image analysis result of Example 205 shown in FIG. 30, smoke diffused into a portion larger than +1 and a portion smaller than ⁇ 1 on the horizontal axis was detected. In the analysis result of FIG. 30, it was detected that a large amount of smoke was diffused in the range of about 2.5 times to about 3.5 times the diameter of the cigarette 11.
  • FIG. 31 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 206.
  • FIG. 31 along with the smoke in the horizontal direction (mainstream smoke 71), a large amount of diffused smoke 72 flowing out in the direction substantially perpendicular to the axis A from the aperture 17 was observed. Similar to the embodiments 202 to 205, in the embodiment 206, the diffusion smoke 72 flowing out from the opening portion 17 is diffused prior to the outflow of the mainstream smoke 71.
  • FIG. 33 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 207.
  • the smoke in the horizontal direction mainstream smoke 71
  • it is inclined with respect to the axis A from the opening portion 17, upstream in the flow direction of the mainstream smoke 71 (in the direction from the suction port 22 toward the tobacco portion 12).
  • a large amount of diffused smoke 72 flowing out was observed.
  • the diffused smoke 72 that flows out obliquely from the opening portion 17 is diffused before the mainstream smoke 71 flows out.
  • Example 207 In the image analysis result of Example 207 shown in FIG. 34, smoke diffused into a portion larger than +1 and a portion smaller than ⁇ 1 on the horizontal axis was detected. In the analysis result of FIG. 34, it was detected that a large amount of smoke was diffused in the range of about 2 to about 3 times the diameter of the cigarette 11. As described above, according to the smoke observation and the smoke image analysis of Examples 201 to 207, the angle ⁇ formed between the aperture 17 and the axis A of the filter unit 15 is 20 ° or more and 110 ° or less. If so, it can be said that the diffusion of smoke in the oral cavity is generally improved.
  • the angle ⁇ between the opening 17 and the axis A of the filter unit 15 is set to 45 °, and the depth (opening) of the opening 17 between each Example is set.
  • the hole depth is different.
  • FIG. 35 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 208.
  • the opening portion 17 is provided only in the chip paper 16, and the depth of the opening portion is 0.04 mm.
  • smoke mainstream smoke 71
  • the diffused smoke 72 which flows out slightly from the opening part 17 is confirmed.
  • FIG. 36 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 209.
  • the chip paper 16 and the winding paper 14 are provided with an opening portion 17, and the depth of the opening portion 17 is 0.11 mm.
  • the depth of the opening portion 17 is 0.11 mm.
  • most of the smoke (mainstream smoke 71) flows out in the horizontal direction, but is inclined with respect to the axis A from the opening 17 and the mainstream smoke 71 Diffusion smoke 72 (air flow) flowing out downstream in the flow direction was confirmed.
  • the diffused smoke 72 flowing out from the aperture 17 diffuses at an angle smaller than the desired angle ⁇ (45 °).
  • FIG. 37 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 210.
  • the depth of the opening 17 is 0.82 mm.
  • most of the smoke (mainstream smoke 71) flows out in the horizontal direction, but is inclined with respect to the axis A from the opening 17 and the mainstream smoke 71 A large amount of diffused smoke 72 (air flow) flowing out downstream in the flow direction was confirmed.
  • FIG. 38 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 211.
  • the depth of the opening 17 is 1.11 mm.
  • the mainstream smoke 71 flowing out in the horizontal direction it is inclined with respect to the axis A from the opening portion 17 and on the downstream side in the flow direction of the mainstream smoke 71.
  • a large amount of diffused smoke 72 (air flow) flowing out was confirmed.
  • the diffused smoke 72 flowing out from the opening portion 17 is diffused at a desired angle ⁇ (45 °) with respect to the axis A.
  • FIG. 39 shows a schematic diagram of an image showing the degree of smoke diffusion in Example 212.
  • the depth of the opening 17 is 1.71 mm.
  • 39 in the embodiment 212, in addition to the mainstream smoke 71 flowing out in the horizontal direction, in addition to the mainstream smoke 71 flowing out in the horizontal direction, it is inclined with respect to the axis A from the opening portion 17 and on the downstream side in the flow direction of the mainstream smoke 71.
  • a large amount of diffused smoke 72 (air flow) flowing out was confirmed.
  • the diffusion smoke 72 is diffused at an angle of approximately the desired angle ⁇ (45 °) or more with respect to the axis A.
  • FIG. 40 is a schematic diagram of an image showing the degree of smoke diffusion in Example 213.
  • the depth of the opening 17 is 1.76 mm.
  • smoke diffusion similar to that in Example 212 was confirmed in Example 213.
  • the diffused smoke 72 flowing out from the opening portion 17 diffuses at an angle of approximately the desired angle ⁇ (45 °) or more with respect to the axis A. From the above observation results of smoke, smoke can be sufficiently diffused if the depth of the aperture 17 is 0.82 mm or more, and more preferably, the depth of the aperture 17 is 1.11 mm or more.
  • the upper limit of the depth of the opening portion 17 is a depth such that the bottom of the opening portion 17 reaches the center of the filter portion 15.
  • strength of the cigarette 11 which provided the opening part 17 in the suction inlet 22 vicinity was made by making the cigarette 11 which has not provided the opening part 17 into the reference
  • the cigarette 11 used for this evaluation is the cigarette 11 of Examples 201 to 207 shown in FIG. 18, and the cigarette part 12 and the filter part 15 are given a “mint-like flavor” in advance.
  • the strength of the “mint-like flavor” of the evaluation paper is very weak, fairly weak, slightly weak, unchanged, slightly strong, quite strong compared to the control product.
  • the evaluation was carried out in 7 levels: very strong. These words are written on the evaluation sheet, and a scale is written adjacent to these words. Each subject evaluated the strength of the “mint-like flavor” by checking an arbitrary position on the scale. There are 19 subjects.
  • the check results of the subjects were digitized. Specifically, the intensity was quantified by measuring the distance from the end of the scale. As a second process, these values were standardized (standardized) for each subject. As the third process, an analysis of variance was performed on the numerical values normalized for each subject. As a result, the evaluation results shown in FIG. 41 were obtained. In the evaluation result of FIG. 41, when the value is +, it means that the “mint-like flavor” is felt more strongly, and when the value is ⁇ , it means that the “mint-like flavor” is felt weaker. .
  • the angle formed by the aperture 17 with respect to the axis A is 30 ° or more and 90 ° or less, more preferably 45 ° or more and 70 ° or less. Is understood.
  • the smoking article has a cylindrical shape that covers the cigarette part 12, the filter part 15 having the suction port 22, and the cigarette part 12 and the filter part 15.
  • the cover portion and a plurality of aperture portions 17 provided at a predetermined angle with respect to the axis A of the filter portion 15 are provided in the cover portion in the vicinity of the suction port 22.
  • the opening portion 17 is provided in the vicinity of the suction port 22, not only the end surface 22A of the filter portion 15 but also the opening portion 17 can cause smoke to flow out. Thereby, smoke becomes easy to spread in the oral cavity during smoking, and the taste can be further improved.
  • the special filter cutting process is not required at the time of manufacture, but the cigarette 11 with the opening part 17 can be manufactured with a general tobacco winding machine, and a manufacturing process is simplified. And an increase in cost can be prevented.
  • the cigarette 11 having the above-described configuration is partially covered with the tip paper 16 and the web 14 as in the case of a normal cigarette, the quality of the filter fiber such as fluffing is reduced when smoking. Can be prevented.
  • the angle between the opening 17 and the axis A is 20 ° or more and 110 ° or less. According to this configuration, smoke can be sufficiently diffused in the oral cavity. Thereby, the taste can be further improved. In addition, it is supported by the observation of smoke and the image analysis results of Examples 201 to 207 that the smoke is sufficiently diffused in the oral cavity by providing the opening portion 17 within the range of the angle.
  • the angle formed by the opening 17 and the axis A is more preferably 30 ° or more and 90 ° or less. More preferably, it is 45 degrees or more and 70 degrees or less. According to this structure, smoke can be more suitably diffused in the oral cavity. In this range, the sufficient diffusion of smoke in the oral cavity is supported by the smoke observation and image analysis results for Examples 201 to 207 and the taste evaluation results for Examples 201 to 207.
  • the opening 17 penetrates the cover and reaches the filter 15. According to this structure, the outflow of smoke from the opening portion 17 can be further promoted. Thereby, the spread of smoke during smoking can be improved and the taste can be further improved.
  • the depth of the opening 17 is 0.82 mm or more. According to this configuration, smoke can be further diffused in the oral cavity. In this range, the sufficient diffusion of smoke in the oral cavity is supported by smoke observation for Examples 208-213.
  • FIG. 43 the upper half of the smoking device 53 is shown cut by a plane passing through the axis A.
  • the smoking tool 53 includes a cigarette part 12 composed of cut leaves (cigarettes), a cylindrical first filter part 15A and a second filter part 15B adjacent to the cigarette part 12, A cylindrical resin covering portion 52 that covers the cigarette portion 12, the first filter portion 15A, and the second filter portion 15B, and an opening portion 17 provided so as to penetrate the covering portion 52.
  • the first filter portion 15 ⁇ / b> A has a suction port 22.
  • the cover 52 has the suction port 21 at one end.
  • the opening portion 17 is provided in the vicinity of the suction port 22 of the cover portion 52, and the suction port 22 (suction port 21) is located at a position 8 mm from the suction port 22 (suction port 21) in the axial direction A of the first filter portion 15A. ).
  • the plurality of apertures 17 are arranged, for example, in a single row of ring shapes (or radially), but may be arranged in a plurality of rows of ring shapes.
  • the opening portion 17 includes a first portion 17A provided so as to penetrate the cover portion 52, and a second portion 17B provided so as to stop in the middle of the first filter portion 15A.
  • the opening portion 17 is provided so as to form an angle ⁇ with the axis A passing through the center of the filter portion 15.
  • the angle at which the opening 17 is provided is the same as in the fifth embodiment.
  • the basic structure of the smoking device 53 of the sixth embodiment is the same as the cigarette 11 of the fifth embodiment shown in FIG. Therefore, for the smoking tool 53 of the sixth embodiment, smoke is observed and image analysis is performed in the same conditions as in the examples 201 to 213 of the fifth embodiment, and the same conditions as in the examples 201 to 207. When the taste evaluation is performed in this example, the same result as in the fifth embodiment is obtained. In addition, since the smoke (mainstream smoke, airflow) of the smoking tool 53 of this embodiment is colorless, colored smoke was used for observation and image analysis of smoke.
  • FIG. 44 illustrates embodiment of the filter used by attaching to a smoking article.
  • the filter 81 is different from the smoking article itself, the structure of the aperture 17 to be applied is the same as that of the embodiment of the smoking article. For this reason, parts different from the structure of the smoking article of the fifth embodiment will be mainly described, and parts common to the fifth embodiment are denoted by common reference numerals.
  • the upper half of the filter 81 is shown cut by a plane passing through the axis A.
  • the filter 81 is configured to be attachable to and detachable from a smoking article, for example, the above-described general cigarette 11 (cigarette not provided with the opening 17).
  • the filter 81 has a resin-made cylinder part 82 attached to one end of the smoking article (cigarette 11), a columnar filter part 15 provided inside the cylinder part 82 and the inlet part 22.
  • a plurality of apertures 17 provided in the cylindrical portion 82 in the vicinity.
  • the plurality of apertures 17 are provided in the vicinity of the suction port 22 of the filter unit 15. More specifically, the opening portion 17 is provided closer to the suction port 22 (suction port 21) than the position of 8 mm from the suction port 22 (suction port 21) in the axial direction A of the filter unit 15. However, the plurality of apertures 17 are preferably located closer to the suction port 22 (suction port 21) than the position of 4 mm from the suction port 22 (suction port 21), or more preferably, more than the position of 2 mm. It may be a position close to the mouth 21).
  • the plurality of apertures 17 are arranged, for example, in a single row of ring shapes (or radially), but may be arranged in a plurality of rows of ring shapes.
  • the opening portion 17 includes a first portion 17A provided so as to penetrate the cylinder portion 82 and a second portion 17B provided so as to stop in the middle of the filter portion 15.
  • the opening portion 17 is provided so as to form an angle ⁇ with the axis A passing through the center of the filter portion 15.
  • the angle at which the opening 17 is provided is the same as in the fifth embodiment.
  • the basic structure of the filter 81 of the embodiment is a structure around the filter of the cigarette 11 of the fifth embodiment shown in FIG. 16 (structure including the filter unit 15, chip paper 16 and the like). It is the same. Therefore, for the filter 81 of the embodiment, smoke is observed and image analysis is performed under the same conditions as the examples 201 to 213 of the fifth embodiment, and the same conditions as the examples 201 to 207 are performed. When the taste evaluation is performed, the same result as in the fifth embodiment is obtained. In these observation / analysis / evaluation, a general cigarette 11 is attached to the filter 81. Smoking conditions are the same as in the fifth embodiment.
  • the effect of diffusing air including smoke in the oral cavity or the flavor of tobacco emitted from the filter unit 15 can be expected, and the taste is further improved. Can be improved.
  • the smoking article (cigarette 11, smoking tool 53) and the filter 81 are not limited to the above-described embodiment and each example, and can be embodied by modifying the constituent elements without departing from the scope in the implementation stage. .
  • some constituent elements may be deleted from all the constituent elements shown in the embodiments and examples, or constituent elements in different embodiments and examples may be appropriately combined.
  • a cigarette that is an example of a smoking article will be described.
  • a cigarette 11 which is an example of a smoking article includes a cigarette portion 12 in which the periphery of a cut leaf (cigarette) is wrapped with a wrapping paper into a cylindrical shape, and the periphery of the filter body 13 and the filter body 13 A cylindrical filter unit 15 including a web 14 covering the paper, a chip paper 16 provided across the cigarette unit 12 and the filter unit 15, and an opening 17 provided so as to penetrate the web 14 and the chip paper 16.
  • the air intake unit 19 provided in the chip paper 16 and the mixing unit 20 provided in the filter unit 15 are provided at a position outside the vicinity of the suction port 22.
  • the “position away from the vicinity of the suction port 22” where the air intake portion 19 is provided is a position corresponding to the vicinity of the intermediate portion in the axis A direction of the filter portion 15 and a position corresponding to the tobacco portion 12 side of the filter portion 15. It can also be said that at least one of the positions.
  • the chip paper 16 is connected to the tobacco part 12 and the filter part 15.
  • the chip paper 16 has a suction port 21 at one end, and overlaps the cigarette portion 12 at the other end opposite to the one end.
  • the chip paper 16 is an example of a cylindrical cover portion that covers the tobacco portion 12 and the filter portion 15.
  • the filter unit 15 is provided adjacent to the tobacco unit 12 at the end opposite to the end surface 22A of the suction port 22.
  • the diameter of the filter unit 15 is, for example, 5 mm to 9 mm, for example, 8 mm.
  • the circumferential length of the filter unit 15 is, for example, 16 mm to 28 mm, for example, 25 mm.
  • the air intake unit 19 includes a plurality of ventilations 18 (ventilation holes, holes) penetrating the chip paper 16.
  • the air intake portions 19 are, for example, arranged in one or a plurality of rows (one or a plurality of rings), for example, arranged at equal intervals, and each row (each ring) includes a plurality of ventilations 18. Yes.
  • a plurality of ventilations (ventilation holes, holes) 18 are provided within a predetermined length (width) in the direction of the axis A of the chip paper 16. This predetermined length differs depending on the number of columns of the ventilation 18 of each embodiment. As shown in FIG. 59, when the number of columns (the number of rings) of the ventilation 18 is 4, the predetermined length (width) is, for example, about 2.3 mm. As shown in FIG. 60, when the number of columns (the number of rings) of the ventilation 18 is 1, the predetermined length (width) is larger than the diameter of the hole of the ventilation 18, for example, (The reason why the position of the ventilation 18 varies within the predetermined length when the number of rows of the ventilation 18 is 1 is due to manufacturing reasons).
  • the ventilation 18 is, for example, a hole provided so as to penetrate the chip paper 16 or a hole that penetrates the chip paper 16 and the web 14 and reaches the filter unit 15.
  • the ventilation 18 plays a role of supplying air from the outside into the filter unit 15 and thinning mainly smoke (mainstream smoke) flowing through the filter unit 15.
  • the shape of the ventilation 18 can take various shapes such as a circle and a square.
  • the mixing unit 20 is formed as a cavity provided in the filter unit 15. That is, the filter main body 13 (plug) does not exist in this part, and only the chip paper 16 and the web 14 exist.
  • the mixing unit 20 can mix the smoke from the tobacco unit 12 and the air flowing in from the ventilation 18.
  • the plurality of apertures 17 are, for example, arranged in a single row of ring shapes (or radial shapes), but may be arranged in a plurality of rows of ring shapes. In each row, for example, a plurality of circular apertures 17 are arranged at regular intervals, for example.
  • the plurality of apertures 17 are provided in the vicinity of the suction port 22 of the filter unit 15. More specifically, the plurality of apertures 17 are arranged in the direction of the axis A of the cigarette 11 (filter portion 15) from the suction port 22 (suction port 21) of the filter unit 15 at, for example, 8 mm from the suction port 22 (suction port).
  • the plurality of apertures 17 are preferably located closer to the suction port 22 (suction port 21) than the position of 4 mm from the suction port 22 (suction port 21), or more preferably, more than the position of 2 mm. It may be a position close to the mouth 21).
  • a plurality of the opening portions 17 are provided in a ring shape in one row.
  • the opening portion 17 includes a first portion 17A provided so as to penetrate the chip paper 16, and a second portion 17B provided in the filter portion 15 (the web 14 and the filter body 13).
  • the manufacturing method of the opening portion 17 is not limited to laser processing, and may be, for example, a mechanical method of press opening with a needle-like tooth mold (punch) or an electrical method using corona discharge. .
  • the opening 17 has a circular shape, but the shape of the opening 17 is not limited.
  • the opening portion 17 is, for example, a circular shape such as a circle or an ellipse, a polygonal shape such as a triangle, a quadrangle, a rhombus, a parallelogram, a trapezoid, a cross shape, or a combination of these shapes, or Those shapes may extend to the inlet 22.
  • the shape of the opening portion 17 may be in any direction, or a plurality of opening portions 17 may be arranged in combination by changing the angle (direction) between adjacent opening portions 17. Also good.
  • the manufacturing process of the cigarette 11 of this embodiment is demonstrated.
  • the cigarette part 12 (winding) and the filter part 15 of two lengths are manufactured by a general method.
  • a filter portion 15 having a length of two is inserted between the two tobacco portions 12.
  • a rod-shaped thing which connected the tobacco part 12 and the filter part 15 is formed by winding up these with the chip paper 16 which has a length for 2 pieces collectively.
  • a continuous output beam output from a laser oscillator such as a CO 2 laser is distributed in pulses from the outer peripheral direction of the rod using a rotating chopper while running the connected rod-shaped object at a predetermined speed. Irradiate.
  • a ventilation 18 is formed on the chip paper 16 by the pulsed laser beam.
  • the first portion 17A of the opening portion 17 is formed in the chip paper 16 and the web 14 by the pulsed laser light, and at the same time, the second portion 17B having a predetermined depth is formed in the filter body 13. . And the filter part 15 and the chip
  • the opening part 17 it is not limited above.
  • it may be provided with openings 17 after the ventilation 18 is provided using a CO 2 laser, and the ventilation 18 after providing the opening 17 in the CO 2 laser Conversely provided to this Also good.
  • the opening portion 17 may be formed with a CO 2 laser when the cigarette 11 is manufactured using the chip paper 16 provided with the ventilation 18 in advance.
  • the ventilation 18 may be produced with a CO 2 laser (in this case, the opening portion 17 is only the chip paper 16.
  • the hole 17 may be provided by a CO 2 laser after manufacturing a normal cigarette.
  • a chip paper 16 in which a plurality of rows of ventilations 18 have been created in advance with a punch or the like may be used (see FIG. 49).
  • the depth of the opening portion 17 was measured as follows. A razor is inserted visually from directly above the aperture 17 in the suction port 22 of the filter portion 15, and the filter is cut off at the deepest portion of the aperture 17. When the tow of the cut cross section is colored with a highlighter, the periphery of the opened portion is colored. Therefore, the part which is not colored becomes the opening part 17.
  • the aperture 17 is enlarged with an optical microscope or a magnifying glass, and the depth is measured.
  • the depth of the apertures 17 was determined by arbitrarily measuring 10 apertures 17 and using the arithmetic average thereof. The depth of the opening 17 was in the range of 1.8 mm to 2.1 mm.
  • the opening area of the opening 17 was measured as follows. After the opening part 17 is produced, the tobacco part 12 and the filter part 15 are separated. The filter unit 15 wound with the web 14 or the chip paper 16 is impregnated with a 30% by volume ethanol aqueous solution to separate only the chip paper 16 from the filter unit 15. The separated chip paper 16 is spread on a slide, pasted and dried. The aperture is enlarged with an optical microscope, and the area of the aperture is measured using the area measurement software of the same device. The area of one aperture 17 was determined by arbitrarily measuring 10 apertures 17 and using the arithmetic average thereof. The area of the opening 17 was 0.08 to 0.11 mm 2 .
  • Example 301 to Example 309 Example 315, 317, 319, 321, 338, 339 of smoking article 47 and 48 show the cigarette 11 of the embodiment 301.
  • FIG. The cigarette 11 of Example 301 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is 4, and the mixing unit 20 is provided immediately below the ventilation 18. That is, in Example 301, the mixing part 20 is provided in the position which overlaps with the air intake part 19 (ventilation 18) in the axis A direction.
  • Examples 302 to 304 have substantially the same structure as the cigarette 11 of Example 301, individual illustration is omitted.
  • the cigarettes 11 of Examples 302 to 304 were created under the conditions shown in FIG.
  • the number of columns of the ventilation 18 is 4, and the mixing unit 20 is provided immediately below the ventilation 18.
  • the length of the mixing unit 20 in the axis A direction is as follows: Example 301 ⁇ Example 302 ⁇ Example 303 ⁇ Example 304.
  • the mixing unit 20 is provided at a position overlapping the air intake unit 19 (ventilation 18) in the axis A direction.
  • FIG. 49 shows the cigarette 11 of Example 305.
  • the cigarette 11 of Example 305 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is four.
  • the mixing unit 20 is provided downstream of the ventilation 18 (air intake unit 19), that is, downstream of the ventilation 18 (on the suction port 22 side).
  • the position of the mixing unit 20 can be restated as a position between the ventilation 18 and the suction port 22.
  • Examples 319 and 321 have substantially the same structure as the cigarette 11 of Example 305, individual illustrations are omitted.
  • the cigarettes 11 of Examples 319 and 321 were created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is 1 or 4
  • the mixing unit 20 is provided at the rear stage of the ventilation 18 (air intake unit 19), that is, downstream of the ventilation 18 (on the suction port 22 side).
  • the length of the mixing unit 20 in the direction of the axis A is Example 319 ⁇ Example 305 ⁇ Example 321.
  • the length in the axis A direction of the mixing part 20 can be suitably set in the range of 2 mm or more and 20 mm or less.
  • FIG. 50 shows the cigarette 11 of Example 306.
  • the cigarette 11 of Example 306 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is 1, and a mixing unit 20 is provided immediately below the ventilation 18. That is, in Example 306, the mixing unit 20 is provided at a position overlapping the air intake unit 19 (ventilation 18) in the direction of the axis A.
  • Examples 307 to 309 have substantially the same structure as the cigarette 11 of Example 306, individual illustration is omitted.
  • the cigarettes 11 of Examples 307 to 309 were created under the conditions shown in FIG.
  • the number of columns of the ventilation 18 is 1, and the mixing unit 20 is provided immediately below the ventilation 18.
  • the length of the mixing unit 20 in the direction of the axis A is Example 306 ⁇ Example 307 ⁇ Example 308 ⁇ Example 309.
  • the mixing unit 20 is provided at a position overlapping the air intake unit 19 (ventilation 18) in the axis A direction.
  • Examples 315, 338, 317, and 339 have substantially the same structure as the cigarette 11 of Examples 307 to 309, individual illustrations are omitted.
  • the cigarettes 11 of Examples 315, 338, 317, and 339 were created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is 1 or 2, and the mixing unit 20 is provided immediately below the ventilation 18.
  • the ventilation rate of Examples 315 and 317 is 50% or less, for example, and the ventilation rate of Examples 338 and 339 is 20% or less, for example.
  • the mixing unit 20 is provided at a position that overlaps with the air intake unit 19 (ventilation 18) in the axis A direction.
  • a cigarette 11 which is an example of a smoking article includes a cigarette portion 12 in which the periphery of a cut leaf (cigarette) is wrapped in a wrapping paper and formed into a cylindrical shape, and a web covering the periphery of the filter body 13 and the filter body 13 14, a cylindrical filter portion 15 including chip paper 16 provided between the cigarette portion 12 and the filter portion 15, an opening portion 17 provided so as to penetrate the winding paper 14 and the chip paper 16, and a suction port 22.
  • the air intake part 19 provided in the chip paper 16 at a position deviating from the vicinity of the filter part 15, and the resistance applying part 61 provided, for example, near the center of the filter part 15 to provide airflow resistance.
  • the center of the filter unit 15 refers to the center in a direction (so-called radial direction) intersecting the axis A direction, for example.
  • the chip paper 16 is an example of a cylindrical cover portion that covers the tobacco portion 12 and the filter portion 15.
  • the chip paper 16 is connected to the tobacco part 12 and the filter part 15.
  • the chip paper 16 has a suction port 21 at one end, and overlaps the cigarette portion 12 at the other end opposite to the one end.
  • the air intake unit 19 includes a plurality of ventilations 18 (ventilation holes, holes) penetrating the chip paper 16.
  • the air intake portions are arranged, for example, in one or a plurality of rows (one or a plurality of rings), for example, at equal intervals, and each row (each ring) includes a plurality of ventilations 18. .
  • the filter unit 15 is provided adjacent to the tobacco unit 12 at the end opposite to the end surface 22A of the suction port 22.
  • the diameter of the filter part 15 is 8 mm, for example.
  • surroundings (outside) of the resistance provision part 61 among the filter parts 15 mixes the smoke from the tobacco part 12, and the air from the air intake part 19 (ventilation 18). Therefore, the mixing unit 20 is provided.
  • the configuration of the mixing unit 20 is a normal filter similar to the configuration of the other parts of the filter unit 15.
  • the plurality of ventilations 18 are provided within a predetermined length (width) in the axial direction of the chip paper 16. This predetermined length differs depending on the number of columns of the ventilation 18 of each embodiment. In the present embodiment, the number of columns (the number of rings) of the ventilation 18 is 1, and as shown in FIG. 60, the predetermined length (width) is, for example, 0.5 mm.
  • the ventilation 18 is, for example, a hole provided so as to penetrate the chip paper 16 or a hole that penetrates the chip paper 16 and the winding paper 14 and reaches the filter unit 15.
  • the plurality of apertures 17 are, for example, arranged in a single row of ring shapes (or radial shapes), but may be arranged in a plurality of rows of ring shapes. In each row, for example, a plurality of circular apertures 17 are arranged at regular intervals, for example.
  • the plurality of apertures 17 are provided in the vicinity of the suction port 22 of the filter unit 15. More specifically, the plurality of apertures 17 are arranged in the direction of the axis A of the cigarette 11 (filter portion 15) from the suction port 22 (suction port 21) of the filter unit 15 at, for example, 8 mm from the suction port 22 (suction port).
  • the plurality of apertures 17 are preferably located closer to the suction port 22 (suction port 21) than the position of 4 mm from the suction port 22 (suction port 21), or more preferably, more than the position of 2 mm. It may be a position close to the mouth 21).
  • a plurality of the opening portions 17 are provided in a ring shape of one row.
  • the resistance applying unit 61 is made of, for example, a cotton string passed through the filter unit 15.
  • the resistance applying unit 61 is not limited to a cotton string.
  • the resistance imparting unit 61 is made denser or compressed by a filler such as acetate (cellulosic semi-synthetic fiber), so that the flow resistance is higher than that of the normal filter unit 15. (See Example 336). That is, the material for the resistance applying portion 61 is not limited.
  • the diameter of the filter portion 15 is 8 mm
  • the diameter of the resistance applying portion 61 is set in the range of 1 mm to 5 mm as in Examples 310 to 314 and Example 336 as described later.
  • smoke from cigarette part 12 and air from air intake part 19 mainly flow through mixing part 20 around resistance imparting part 61.
  • FIG. 51 shows a cigarette 11 according to the example 310.
  • the cigarette 11 of Example 310 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is one.
  • a string as the resistance applying unit 61 is provided in the center of the filter unit 15, a string as the resistance applying unit 61 is provided.
  • the string has a diameter of 1 mm.
  • the string as the resistance applying unit 61 is provided so as to extend from the position overlapping the air intake unit 19 (ventilation 18) to the suction port 22 in the direction of the axis A.
  • the mixing unit 20 is provided around (outside) the resistance applying unit 61.
  • the ventilation resistance of the resistance applying unit 61 is several to several tens of times higher than the ventilation resistance of the mixing unit 20.
  • the notation of FTF in FIG. 45 is an FTF filter and is a filter in which a string is arranged in the core portion.
  • Example 311 has substantially the same structure as the cigarette 11 of Example 310, illustration is omitted.
  • the cigarette 11 of Example 311 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is one.
  • the string has a diameter of 3.1 mm.
  • the string as the resistance applying unit 61 extends from the position overlapping the air intake unit 19 (ventilation 18) to the inlet 22 in the axis A direction.
  • the mixing unit 20 is provided around (outside) the resistance applying unit 61.
  • the ventilation resistance of the resistance applying unit 61 is several to several tens of times higher than the ventilation resistance of the mixing unit 20.
  • FIG. 52 shows a cigarette of Example 312.
  • the cigarette 11 of Example 312 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is one.
  • the string has a diameter of 5 mm.
  • the string as the resistance applying unit 61 extends from the position overlapping the air intake unit 19 (ventilation 18) to the inlet 22 in the axis A direction.
  • the mixing unit 20 is provided around (outside) the resistance applying unit 61.
  • the ventilation resistance of the resistance applying unit 61 is several to several tens of times higher than the ventilation resistance of the mixing unit 20.
  • the bottom of the opening portion 17 reaches the string that is the resistance applying portion 61.
  • Example 336 has substantially the same structure as the cigarette 11 of Example 312, individual illustration is omitted.
  • the cigarette 11 of Example 336 was created under the conditions shown in FIG.
  • the number of columns of the ventilation 18 is one.
  • the core part (resistor part) as the resistance applying part 61 is composed of a filler (acetate or the like) having a higher density than the part around the filter part 15 (mixing part 20).
  • the number of filler fibers in the resistance applying portion 61 is larger than the number of filler fibers in the mixing portion 20, and the thickness of the filler fibers in the resistance applying portion 61 is the same as that of the filler fibers in the mixing portion 20. Greater than thickness.
  • the ventilation resistance of the resistance applying unit 61 is several to several tens of times higher than the ventilation resistance of the mixing unit 20.
  • the diameter of the resistance applying portion 61 is 4 mm.
  • the resistance applying unit 61 extends from the position overlapping the air intake unit 19 (ventilation 18) to the inlet 22 in the direction of the axis A.
  • FIG. 53 shows a cigarette of Example 313.
  • the cigarette 11 of Example 313 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is one.
  • the string has a diameter of 3.1 mm.
  • the string as the resistance applying portion 61 is located upstream of the suction port 22 from the position overlapping the air intake portion 19 (ventilation 18) in the axis A direction (substantially intermediate position between the ventilation 18 and the suction port 22). It extends to.
  • the mixing unit 20 is provided around (outside) the resistance applying unit 61.
  • FIG. 54 shows the cigarette 11 of Example 314.
  • the cigarette 11 of Example 314 was created under the conditions of the table shown in FIG.
  • the number of columns of the ventilation 18 is one.
  • the string has a diameter of 3.1 mm.
  • the string as the resistance applying portion 61 extends from a position upstream of the suction port 22 (a position approximately in the middle of the ventilation 18 and the suction port 22) to the suction port 22.
  • the mixing unit 20 is provided around (outside) the resistance applying unit 61.
  • FIG. 55 shows the cigarette 11 of the comparative example 301.
  • the number of columns of the ventilation 18 is four.
  • FIG. 56 shows the cigarette 11 of the comparative example 302.
  • the number of columns of the ventilation 18 is one.
  • Comparative examples 303 to 305 and comparative examples 306 and 308 are not shown because they have similar configurations to comparative examples 301 and 302.
  • the number of columns of the ventilation 18 is two.
  • the number of columns of the ventilation 18 is 1.
  • the ventilation 18 is not provided.
  • the 1st measuring apparatus 24 which measures the ratio of the air which passes the opening part 17 and the air which passes the suction inlet 22 of the filter part 15 is demonstrated.
  • the first measuring device 24 includes an air flow path separation jig 25, a first membrane flow meter 26, a second membrane flow meter 27, and a first valve adjacent to the first membrane flow meter 26. 31, a second valve 32 adjacent to the second membrane flow meter 27, a pump 33 (suction pump) for sucking air from the air flow path separation jig 25, and exhaust from the pump 33 are discharged.
  • the exhaust part 34 is provided.
  • a buffer for preventing pulsation of the pump 33 is provided at a position upstream of the pump 33.
  • the suction flow rate of the pump 33 is controlled by a mass flow controller at a flow rate of 1050 ml / min.
  • the air flow path separating jig 25 includes a first portion 35 (cell) provided at a position far from the cigarette 11 so that smoke (air) flowing out from the end surface 22A of the filter portion 15 is discharged, and the filter portion.
  • a second portion 36 (cell) provided near the cigarette 11 so that smoke flowing out from the 15 second portions 17B and the apertures 17 is discharged, a first portion 35 and a second portion 36 And a second seal 38 provided so as to contact the chip paper 16 of the cigarette 11.
  • the pipes extending from the first portion 35 and the second portion 36 are joined downstream and connected to the pump 33.
  • the first measuring device 24 is adjusted so that the values of the first membrane flow meter 26 and the second membrane flow meter 27 are each 525 ml / min without the measurement cigarette being inserted. .
  • the cigarettes 11 of Examples 301 to 314 and Comparative Examples 301 to 305 are inserted, and the flow rate that passes through the end face 22A of the filter unit 15 and the flow rate that passes through the opening 17 are determined by the first membrane flow meter 26 and the second flow rate meter 26. It is measured by the membrane flow meter 27.
  • the cigarette 11 of Examples 301 to 314 and Comparative Examples 301 to 305 is provided with an extended cylinder part 41 that is created by sticking a tape having an adhesive layer on one side to the suction port 21 in a cylindrical shape.
  • the extension cylinder part 41 guides the air passing through the end face 22 ⁇ / b> A of the filter part 15 to the first part 35.
  • the ratio F air of the air flow rate that has passed through the opening portion 17 defined by the following formula (1) is calculated.
  • Q air1 is an air flow rate passing through the end face 22A of the filter suction port 22
  • Q air2 is an air flow rate passing through the opening portion 17.
  • the measured value used the arithmetic average of ten cigarettes 11.
  • FIG. The measurement results of F air are shown in the tables of FIGS.
  • the second measuring device 62 includes a smoke flow path separating jig 63 and a linear smoker 64.
  • the smoke flow path separating jig 63 includes a first cell 65 provided at a position far from the cigarette 11 and a second cell provided near the cigarette 11 so that the smoke flowing out from the opening 17 is discharged.
  • Each cell is connected to a separate smoke inlet port on the linear smoker.
  • the total suction flow rate for the two cells is set at 35.0 mL / 2.0 seconds, and the suction capacity of the smoke absorption port connected to the second cell 66 is the air flow rate ratio F air passing through the opening 17. Is set to be equal to
  • the cigarette 11 of each example and each comparative example is inserted, and the rough tar flowing out from the end face 22A of the filter portion 15 and the rough tar flowing out from the opening portion 17 are collected by a Cambridge pad connected to each cell. Each is measured with an electronic balance.
  • the cigarette 11 is provided with an extension cylinder portion 41 similar to the above.
  • the amount of the recovered crude tar is calculated by subtracting the total weight of the Cambridge pad and the Cambridge holder before the smoking test from the total weight of the Cambridge pad after the smoking test and the Cambridge holder holding the same.
  • the ratio F smoke of the crude tar amount flowing out from the opening portion 17 defined by the equation (2) is calculated from each measured value.
  • Q smoke1 is the coarse tar weight flowing out from the end face 22A of the suction port 22 of the filter portion 15
  • Q smoke2 is the coarse tar weight flowing out from the aperture portion 17.
  • R defined by the formula (3) was used as an index of the density of smoke flowing out from the opening portion 17.
  • the measurement results of F smoke and R are shown in the tables of FIGS. When R is a number in the vicinity of 0.5 to 1, it is considered that smoke having a normal density is flowing out from the aperture portion 17.
  • Comparative Example 304 it can be seen that the crude tar outflow from the aperture 17 is suppressed and the smoke is slightly thinner. Furthermore, in Comparative Example 303, the ventilation rate is 52.3%, F smoke is 22.8%, and R is 0.39. In Comparative Example 303, it can be seen that the smoke density R flowing out of the aperture 17 is 1 ⁇ 2 or less compared to the case where the ventilation 18 is not provided. In Comparative Examples 301 and 302 in which the ventilation rate is increased, the value of R further decreases (see FIG. 63).
  • L (length of mixing unit 20 (cavity)) ⁇ (width of ventilation 18 (Vf width))
  • the length of the mixing unit 20 (cavity) is the length in the direction of the axis A.
  • the width of the ventilation 18 is a predetermined length in which the plurality of ventilations 18 in the direction of the axis A are provided.
  • FIG. 66, FIG. 67, and FIG. FIG. 67 is an enlarged view of a position where L in FIG. 66 is around 0 mm to 2 mm.
  • the smoke density R increases rapidly when L is between 0 mm and 1 mm.
  • L becomes substantially flat at 1.5 mm or more. This is because (1) air and smoke are not sufficiently mixed immediately after air flows in from the ventilation 18, and a mixing section is required in addition to the width of the ventilation 18, (2)
  • This mixing section requires a length of about 1 mm (preferably R is 0.5 or more, more preferably R is 0.8 or more, see FIG. 67), and does not depend on the number of columns of the ventilation 18. Show.
  • FIG. 70 shows the relationship between L and smoke density R for each ventilation rate.
  • the dashed approximate curve corresponds to a ventilation rate (Vf) of 80%
  • the dashed-dotted approximate curve corresponds to a ventilation rate (Vf) of approximately 50%
  • the two-dot chain line represents a ventilation rate (Vf).
  • Vf ventilation rate
  • the resistance applying unit 61 is not provided (that is, the value on the approximate straight line created with the values of Comparative Examples 301 to 305 shown in FIG. 68) and has a higher R value. It is understood that the R value has been improved by the installation of the resistance applying portion 61.
  • Example 310 where the diameter of the resistance applying portion 61 (string) is 1.0 mm, R is 0.145, and the value of R is located in the vicinity of the approximate straight line created by the values of Comparative Examples 301 to 305. Is done.
  • Example 311 in which the diameter of the resistance applying portion 61 (string) is increased to 3.1 mm, the smoke density R is 0.397, and it is understood that the R value is increased by the resistance applying portion 61. Furthermore, when the diameter of the resistance imparting part 61 (string) is increased to 5.0 mm (Example 312), it is found that R is 0.862 and increases remarkably. Even when the diameter of the resistance applying portion 61 is 4.0 mm (Example 336), R is 0.757, and the R value is sufficiently improved.
  • Example 312 the bottom of the opening 17 is provided in a string that is the resistance applying unit 61. It is considered that the remarkable increase in R in Example 312 is also due to the fact that the flow of smoke and air in the direction of the axis A is suppressed by the opening portion 17 penetrating the mixing portion 20.
  • the diameter of the resistance applying portion 61 is preferably 4 mm or more.
  • the ratio of the diameter of the resistance applying portion 61 to the diameter (8 mm) of the filter portion 15 is preferably 50% or more.
  • the smoking article preferably adopts the following configuration.
  • the smoking article includes a cigarette portion 12, a filter portion 15 having a suction port 22, a cylindrical cover portion that covers the cigarette portion 12 and the filter portion 15, and a plurality of opening portions provided in the cover portion in the vicinity of the suction port 22. 17 and the air intake part 19 provided in the cover part and the filter part 15 at a position away from the vicinity of the suction port 22, and the smoke from the cigarette part 12 and the air from the air intake part 19 are mixed. And a mixing unit 20.
  • the mixing unit 20 by providing the mixing unit 20, the air flowing from the air intake unit 19 and the smoke from the tobacco unit 12 can be mixed well. Thereby, for example, it is possible to prevent the concentration of smoke flowing out from the aperture portion 17 created for the purpose of efficiently diffusing smoke in the oral cavity from becoming extremely thin. Thereby, a desired smoke diffusion effect can be obtained in the oral cavity.
  • the mixing unit 20 is a cavity provided in the filter unit 15. According to this configuration, the configuration of the mixing unit 20 can be realized easily and inexpensively. Moreover, continuous production is possible using a general cigarette hoist, which is industrially advantageous. For this reason, the fall of the density
  • the mixing unit 20 is provided at a position overlapping the air intake unit 19 in the direction of the axis A. According to this structure, the smoke from the tobacco part 12 and the air flowing in from the air intake part 19 can be mixed efficiently. Thereby, it is possible to prevent the concentration of smoke flowing out from the opening 17 from being lowered.
  • the air intake portion 19 includes a plurality of holes penetrating the cover portion, and the plurality of holes are provided within a predetermined length range in the axis A direction of the cover portion, and from the length of the mixing portion 20 in the axis A direction.
  • a value obtained by subtracting the predetermined length is 1.0 mm or more. From the above examination results, it is understood that a certain distance is required until smoke and air are mixed and mixed.
  • the mixing unit 20 can secure a distance where the smoke from the tobacco unit 12 and the air from the hole of the air intake unit 19 are sufficiently mixed (R is about 0.8). Thereby, it is possible to effectively prevent a decrease in the concentration of smoke flowing out from the opening portion 17.
  • a value obtained by subtracting the predetermined length from the length of the mixing unit 20 in the direction of the axis A is substantially smaller than the total length of the filter unit 15.
  • the value obtained by subtracting the predetermined length from the length of the mixing unit 20 in the axis A direction is 1.5 mm or more. According to this configuration, the mixing unit 20 can secure a distance where the smoke from the tobacco unit 12 and the air from the hole of the air intake unit 19 are sufficiently mixed (R is approximately 0.9 or more). Thereby, it is possible to effectively prevent a decrease in the concentration of smoke flowing out from the opening portion 17.
  • the mixing unit 20 is provided closer to the suction port 22 than the air intake unit 19. According to this structure, the freedom degree of the installation position of the mixing part 20 can be improved. Moreover, the length of the mixing part 20 in the axis A direction of the filter part 15 is 2 mm or more and 20 mm or less. According to this configuration, a slight improvement in the R value was seen compared to a smoking article (for example, Comparative Example 306) that does not include the mixing unit 20. For this reason, in order to improve R value, it is useful to provide the mixing part 20 in the inlet 22 side rather than the air intake part 19 within said range.
  • the smoking article includes a resistance imparting portion 61 that imparts airflow resistance near the center of the filter portion 15, and the mixing portion 20 is located outside the resistance imparting portion 61 of the filter portion 15. According to this configuration, it is possible to prevent the smoke from the tobacco unit 12 from being biased toward the center of the filter unit 15 by the resistance applying unit 61. Thereby, the smoke from the tobacco part 12 and the air from the hole of the air intake part 19 can be efficiently mixed in the mixing part 20 around the resistance applying part 61.
  • the resistance applying unit 61 extends from the position overlapping the air intake unit 19 in the direction of the axis A to the inlet 22. According to this configuration, smoke from the cigarette part 12 is not biased toward the center of the filter part 15 in any part from the position overlapping with the air intake part 19 to the inlet 22, and from the opening part 17. It can prevent that the density
  • the diameter of the resistance applying portion 61 is 50% or more of the diameter of the filter portion 15. According to this configuration, the smoke from the tobacco unit 12 and the air from the hole of the air intake unit 19 can be efficiently mixed in the mixing unit 20 (R is approximately 0.75 or more). Thereby, it can prevent that the density
  • the ratio of the flow rate of air flowing from the air intake portion 19 to the total flow rate obtained by adding the flow rate of smoke from the tobacco portion 12 and the flow rate of air flowing from the air intake portion 19 at the suction port 22 is 50% or more. According to this configuration, in a so-called high Vf (high ventilation) product, it is possible to prevent the concentration of smoke flowing out from the opening portion 17 from becoming thin.
  • the ventilation 18 is a main means for reducing the cigarette 11 in tar, and is used in many low tar products.
  • Smoking articles are not limited to the above-described embodiments and examples, and can be embodied by modifying constituent elements without departing from the scope of the invention in the implementation stage.
  • particulate substances such as charcoal and various capsules (for example, capsules containing menthol, mint flavor, etc.) are arranged inside the mixing unit 20 constituted by cavities. Also good.
  • some constituent elements may be deleted from all the constituent elements shown in the embodiments and examples, or constituent elements in different embodiments and examples may be appropriately combined.
PCT/JP2012/080905 2011-12-09 2012-11-29 喫煙物品、フィルター WO2013084786A1 (ja)

Priority Applications (7)

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EP12854784.1A EP2789248B1 (en) 2011-12-09 2012-11-29 Smoking article and filter
CA2857227A CA2857227C (en) 2011-12-09 2012-11-29 Smoking article and filter
UAA201407701A UA112567C2 (uk) 2011-12-09 2012-11-29 Курильний виріб і фільтр
JP2013548199A JP5816702B2 (ja) 2011-12-09 2012-11-29 喫煙物品、フィルター
KR1020147018471A KR101722303B1 (ko) 2011-12-09 2012-11-29 끽연 물품, 필터
CN201280060691.3A CN103974636B (zh) 2011-12-09 2012-11-29 吸烟物品、过滤嘴
EP18198912.0A EP3446576B1 (en) 2011-12-09 2012-11-29 Smoking article and filter

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JP2011269995 2011-12-09
JP2011-269995 2011-12-09
JP2012132374 2012-06-11
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WO2015152072A1 (ja) * 2014-03-31 2015-10-08 日本たばこ産業株式会社 たばこ製品用のフィルタ及びたばこ製品
JP2019531098A (ja) * 2016-10-25 2019-10-31 テヨン インダストリー コーポレーションTaeyoung Industry Corporation タバコ用フィルターとその製造装置及び製造方法
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AU2019320617A1 (en) * 2019-08-23 2021-03-11 Kt&G Corporation Smoking product to which triple care technology for reducing tobacco smell is applied
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CA2857227C (en) 2016-10-11
CN103974636A (zh) 2014-08-06
MY168741A (en) 2018-11-29
JP5816702B2 (ja) 2015-11-18
TWI478672B (zh) 2015-04-01
JPWO2013084786A1 (ja) 2015-04-27
EP3446576A1 (en) 2019-02-27
EP3446576B1 (en) 2020-07-29
EP2789248B1 (en) 2020-01-08
EP2789248A1 (en) 2014-10-15
KR101722303B1 (ko) 2017-03-31
KR20140107372A (ko) 2014-09-04
EP2789248A4 (en) 2015-07-08
CA2857227A1 (en) 2013-06-13
CN103974636B (zh) 2017-06-23
UA118460C2 (uk) 2019-01-25
TW201330785A (zh) 2013-08-01

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