TUBULAR BODY

Abstract

This tubular body comprises a first sheet-shaped material with a circular or elliptical cross-section, and a second sheet-shaped material positioned around the first, also with a circular or elliptical cross-section. An adhesive layer between the two materials bonds them together. The structure features multiple vent holes along the circumference, some of which expose the adhesive layer to the inner surface of the hole, while others do not. The design allows for controlled venting through these holes, optimizing performance by balancing adhesion and airflow.

Claims

1. A tubular body comprising: a first sheet material that has a circular or elliptical cross-sectional shape perpendicular to an axial direction, a second sheet material that is provided on an outer circumference of the first sheet material and that has a circular or elliptical cross-sectional shape perpendicular to the axial direction, an adhesive layer that is provided between the first sheet material and the second sheet material and that bonds the first sheet material and the second sheet material to each other, and a plurality of vent holes formed in a circumferential direction of the tubular body through the first sheet material and the second sheet material, wherein the plurality of vent holes including at least one first vent hole in which the adhesive layer is exposed to a hole inner surface of the vent hole, and at least one second vent hole in which the adhesive layer is not exposed to the hole inner surface of the vent hole.

2. The tubular body according to claim 1, wherein the first sheet material and the second sheet material are shifted from each other and stacked such that ends of the first and second sheet materials in the circumferential direction do not overlap each other, the first sheet material includes a first body portion, and a first extending portion extending from the first body portion in the circumferential direction with respect to the opposing second sheet material, the second sheet material includes a second body portion, and a second extending portion extending from the second body portion in the circumferential direction with respect to the opposing first sheet material, the adhesive layer includes a positioning adhesive layer that bonds the first body portion and the second body portion to each other, and a joint adhesive layer that bonds the first extending portion and the second extending portion to each other, and the positioning adhesive layer has an adhesive pattern of a positioning glue applied linearly.

3. The tubular body according to claim 2, wherein the positioning glue is applied linearly in two or more lines.

4. The tubular body according to claim 3, wherein the positioning glue is applied in a straight line.

5. The tubular body according to claim 4, wherein the positioning glue is applied in a straight line parallel to the axial direction.

6. The tubular body according to claim 4, wherein the positioning glue is applied in a straight line perpendicular to the axial direction.

7. The tubular body according to claim 2, wherein the positioning glue is applied spirally along the axial direction.

8. The tubular body according to claim 1, wherein each of the first sheet material and the second sheet material is paper.

9. The tubular body according to claim 1, wherein the number of vent holes in the plurality of vent holes is 12 or more and 30 or less.

10. The tubular body according to claim 9, wherein the number of vent holes in the plurality of vent holes is 21 or less.

11. The tubular body according to claim 1, wherein the number of vent holes in the first vent holes is 6 or less.

12. The tubular body according to claim 1, wherein a ratio of the number of vent holes in the first vent holes to the total number of vent holes in the plurality of vent holes is less than .

13. The tubular body according to claim 1, wherein the plurality of vent holes is formed in two or more rows along the axial direction.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0039] FIG. 1 is a cross-sectional view showing a flavor generating article to which a tubular body according to one embodiment of the present invention is applied.

[0040] FIG. 2 is a perspective view showing a tubular body according to one embodiment of the present invention.

[0041] FIG. 3 is a cross-sectional view of the tubular body along arrows I-I shown in FIG. 2.

[0042] FIG. 4 is a cross-sectional view showing the tubular body of FIG. 3 developed in a circumferential direction.

[0043] FIG. 5 is a developed view showing a second sheet material of a tubular body according to one embodiment of the present invention.

[0044] FIG. 6 is another developed view showing a second sheet material of a tubular body according to one embodiment of the present invention.

[0045] FIG. 7 is still another developed view showing a second sheet material of a tubular body according to one embodiment of the present invention.

[0046] FIG. 8 is a further developed view showing a second sheet material of a tubular body according to one embodiment of the present invention.

[0047] FIG. 9 is a configuration diagram showing a tubular body manufacturing apparatus according to one embodiment of the present invention.

[0048] FIG. 10 is an explanatory diagram showing experimental results of humidification conditions in a tubular body manufacturing apparatus according to one embodiment of the present invention.

[0049] FIG. 11 is an explanatory diagram showing humidification conditions for each adhesive pattern in a tubular body manufacturing apparatus according to one embodiment of the present invention.

[0050] FIG. 12 is an explanatory diagram showing an amount of adhesive applied in a tubular body according to one embodiment of the present invention in comparison with a conventional product.

[0051] FIG. 13 is an explanatory diagram showing various physical properties of a tubular body according to one embodiment of the present invention in comparison of a standard product with the conventional product.

DESCRIPTION OF EMBODIMENTS

[0052] Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings described below, identical, or corresponding components are denoted with the same signs and duplicate descriptions are omitted. A tubular body according to the present invention may be applied, for example, to a flavor generating article for use in a non-combustible flavor inhaler for inhaling flavor or the like without combusting any material. The tubular body according to the present invention may be applied to a combustible smoking article.

[0053] FIG. 1 is a cross-sectional view showing a flavor generating article to which a tubular body according to one embodiment of the present invention is applied. As shown in FIG. 1, a flavor generating article 10 includes a tobacco-containing segment 11 and a mouthpiece segment 12. The mouthpiece segment 12 includes a cooling segment 13, a center hole segment 14, and a filter segment 15.

[0054] In use, the tobacco-containing segment 11 is heated and inhaled from an end of the filter segment 15. Note that a position of the center hole segment 14 is not limited to a position shown in FIG. 1 and, for example, the position of the center hole segment 14 may be replaced with that of the filter segment 15. Furthermore, in the flavor generating article 10 shown in FIG. 1, the center hole segment 14 may be omitted.

[0055] The tobacco-containing segment 11 includes a tobacco filler 210 containing tobacco and an aerosol source, and a tubular wrapper 220 wrapping the tobacco filler 210. The tobacco filler 210 may further contain a volatile flavoring ingredient, water, and the like. A size of tobacco for use as a filler or a method of preparing the tobacco is not particularly limited.

[0056] The cooling segment 13 includes a tubular body 100. In the tubular body 100 and mouthpiece lining paper 400 described later, a plurality of vent holes 140 extending through walls of both the tubular body and the mouthpiece lining paper is formed concentrically in a circumferential direction of the tubular body 100. Each vent hole 140 is a hole for promoting inflow of air from outside by user's inhalation, and the inflow of air cools aerosol generated in the tobacco filler 210 and reduces aerosol concentration. A diameter (delivery length) of the vent hole 140 is not particularly limited, but may be, for example, from 0.5 mm to 1.5 mm.

[0057] The center hole segment 14 includes a filling layer 310 having a hollow portion and a first inner plug wrapper 320 wrapping the filling layer 310. The filling layer 310 can be, for example, a rod into which cellulose acetate fibers are highly densely filled and a plasticizer containing triacetin is added and cured.

[0058] The hollow portion has a diameter that is not particularly limited and that may be, for example, from 1.0 mm to 5.0 mm. Since the filling layer 310 has a high fiber filling density, air, and aerosol flow only through the hollow portion during inhaling, and barely flow in the filling layer 310. Since the filling layer 310 includes the hollow portion, an amount of aerosol to be filtered can be reduced, the aerosol containing flavor ingredients generated by heating the flavor generating article 10.

[0059] The filter segment 15 includes a filter medium 330, and a tubular second inner plug wrapper 340 wrapping the filter medium 330. The filter medium 330 may be a solid plug filled with a porous material. Since the filter segment 15 includes the solid plug, a delivery amount of aerosol can be appropriately adjusted by filtering the aerosol containing the flavor ingredients generated by heating the flavor generating article 10.

[0060] The center hole segment 14 and the filter segment 15 are connected to each other with an outer plug wrapper 350. The outer plug wrapper 350 may be, for example, cylindrical paper. Furthermore, the tobacco-containing segment 11, the cooling segment 13, and the connected center hole segment 14 and filter segment 15 are wrapped in the mouthpiece lining paper 400 and mutually connected, the mouthpiece lining paper having an inner surface with a glue such as vinyl acetate glue applied thereto.

[0061] Hereinafter, the tubular body 100 shown in FIG. 1 will be described in detail. FIG. 2 is a perspective view showing a tubular body according to one embodiment of the present invention. FIG. 3 is a cross-sectional view of the tubular body along arrows I-I shown in FIG. 2. FIG. 4 is a cross-sectional view of the tubular body of FIG. 3 developed in the circumferential direction.

[0062] As shown in FIGS. 2 to 4, the tubular body 100 includes a first sheet material 110, a second sheet material 120, an adhesive layer 130, and vent holes 140. The first sheet material 110 and the second sheet material 120 have a circular cross-sectional shape perpendicular to an axial direction. The second sheet material 120 is provided on an outer circumference of the first sheet material 110. The adhesive layer 130 is provided between the first sheet material 110 and the second sheet material 120, to bond the first sheet material 110 and the second sheet material 120 to each other.

[0063] Each of the first sheet material 110 and the second sheet material 120 may be made of paper or cardboard. Therefore, processability of the tubular body 100 can be improved. Note that the first sheet material 110 and the second sheet material 120 may have an elliptical cross-sectional shape perpendicular to the axial direction.

[0064] Here, the first sheet material 110 and the second sheet material 120 are positioned to be shifted from each other and stacked such that ends of the materials in the circumferential direction do not overlap each other. The first sheet material 110 includes a first body portion 111, and a first extending portion 112 extending from the first body portion 111 in the circumferential direction with respect to the opposing second sheet material 120. The first body portion 111 is a portion opposing the second sheet material 120 in FIG. 4.

[0065] The second sheet material 120 includes a second body portion 121 and a second extending portion 122 extending from the second body portion 121 in the circumferential direction to the opposing first sheet material 110. The second body portion 121 is a portion opposing the first sheet material 110 in FIG. 4.

[0066] The adhesive layer 130 includes a positioning adhesive layer 131 and a first joint adhesive layer 132 that bond the first body portion 111 and the second body portion 121 to each other, and a second joint adhesive layer 133 (joint adhesive layer) that bonds the first extending portion 112 and the second extending portion 122 to each other. The first joint adhesive layer 132 does not necessarily need to be provided, and the positioning adhesive layer 131 may function as the first joint adhesive layer 132.

[0067] The positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133 may be made of a kneaded material of modified starch, vinyl acetate or ethylene vinyl acetate, which is an organic polymer, alcohols, and water. The positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133 are not limited to the above and may be made of another adhesive.

[0068] The tubular body 100 is formed by applying the positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133 onto the second sheet material 120, stacking the first sheet material 110 and molding a tubular shape. Here, the positioning adhesive layer 131 applied to the second sheet material 120 has an adhesive pattern of a positioning glue (adhesive) applied linearly. Additionally, the positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133 may be applied to the first sheet material 110 in place of the second sheet material 120.

[0069] A plurality of vent holes 140 is formed in the circumferential direction of the tubular body 100 through the first sheet material 110 and the second sheet material 120. Here, since the positioning adhesive layer 131 applied to the second sheet material 120 has an adhesive pattern of the positioning glue (adhesive) applied linearly, the plurality of vent holes 140 includes a first vent hole 141 in which the adhesive layer 130 is exposed to a hole inner surface of a vent hole 140, and a second vent hole 142 in which the adhesive layer 130 is not exposed to the hole inner surface of the vent hole 140.

[0070] Specifically, the first vent hole 141 is formed through the first sheet material 110 and the second sheet material 120, together with any of the positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133. Furthermore, the second vent hole 142 is formed through the first sheet material 110 and the second sheet material 120 at a spot that is not provided with any of the positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133.

[0071] As described above, the plurality of vent holes 140 includes at least one first vent hole 141 in which the adhesive layer 130 is exposed to the hole inner surface of the vent hole 140, and at least one second vent hole 142 in which the adhesive layer 130 is not exposed to the hole inner surface of the vent hole 140, so that probability of forming the vent hole 140 at a spot provided with the adhesive layer 130 can be reduced, and combustion ash of an adhesive can be inhibited from closing the vent hole 140. As a result, the flavor generating article 10 to which the tubular body 100 is applied can be inhibited from deteriorating in quality.

[0072] FIG. 5 is a developed view showing a second sheet material of a tubular body according to one embodiment of the present invention. As shown in FIG. 5, the second sheet material 120 includes a positioning adhesive layer 131 to which a positioning glue is applied in two straight lines parallel to the axial direction.

[0073] Thus, since the positioning adhesive layer 131 has an adhesive pattern of the positioning glue applied in two straight lines parallel to the axial direction, an amount of adhesive applied can be reduced as compared with a case where the positioning adhesive layer is provided on the entire surface. Furthermore, the probability of forming the vent hole 140 at the spot provided with the adhesive layer 130 can be reduced, and the combustion ash of the adhesive can be inhibited from closing the vent hole 140.

[0074] Note that the adhesive pattern of the positioning adhesive layer 131 is not limited to that shown in FIG. 5. FIG. 6 is another developed view showing a second sheet material of a tubular body according to one embodiment of the present invention. As shown in FIG. 6, a second sheet material 120 includes a positioning adhesive layer 131 of a positioning glue applied spirally along an axial direction.

[0075] Thus, since the positioning adhesive layer 131 has an adhesive pattern of the positioning glue applied spirally along the axial direction, an amount of adhesive applied can be reduced as compared with the case where the positioning adhesive layer is provided on the entire surface. Furthermore, the probability of forming the vent hole 140 at the spot provided with the adhesive layer 130 can be reduced, and the combustion ash of the adhesive can be inhibited from closing the vent hole 140.

[0076] FIG. 7 is another developed view showing a second sheet material of a tubular body according to one embodiment of the present invention. As shown in FIG. 7, a second sheet material 120 includes a positioning adhesive layer 131 to which a positioning glue is applied in three straight lines parallel to an axial direction.

[0077] Thus, since the positioning adhesive layer 131 has an adhesive pattern of the positioning glue applied in three straight lines parallel to the axial direction, the amount of adhesive applied can be reduced as compared with the case where the positioning adhesive layer is provided on the entire surface. Furthermore, the probability of forming the vent hole 140 at the spot provided with the adhesive layer 130 can be reduced, and the combustion ash of the adhesive can be inhibited from closing the vent hole 140.

[0078] FIG. 8 is another developed view showing a second sheet material of a tubular body according to one embodiment of the present invention. As shown in FIG. 8, a second sheet material 120 includes a positioning adhesive layer 131 to which a positioning glue is applied in three straight lines perpendicular to an axial direction. The positioning glue may be applied in two lines, or four or more lines.

[0079] Thus, since the positioning adhesive layer 131 has an adhesive pattern of the positioning glue applied in three straight lines perpendicular to an axial direction, the amount of adhesive applied can be reduced as compared with the case where the positioning adhesive layer is provided on the entire surface. Furthermore, the probability of forming the vent hole 140 at the spot provided with the adhesive layer 130 can be reduced, and the combustion ash of the adhesive can be inhibited from closing the vent hole 140.

[0080] Here, the number of vent holes 140 in a plurality of vent holes 140 is preferably 12 or more and 30 or less, more preferably 21 or less. By setting the number of the vent holes 140 in the plurality of vent holes 140 to 12 or more and 30 or less, more preferably 21 or less, the probability of forming the vent hole 140 at the spot provided with the adhesive layer 130 can be reduced, and the combustion ash of the adhesive can be inhibited from closing the vent hole 140, while introducing sufficient air into an interior.

[0081] It is also preferable that the number of first vent holes 141 is 6 or less. By setting the number of the first vent holes 141 to 6 or less, the probability of forming the vent hole 140 at the spot provided with the adhesive layer 130 can be reduced, and the combustion ash of the adhesive can be inhibited from closing the vent hole 140, while introducing sufficient air into the interior.

[0082] Furthermore, a ratio of the number of the first vent holes 141 to the total number of the plurality of vent holes 140 is preferably less than . By setting the ratio of the number of the first vent holes 141 to the total number of the plurality of vent holes 140 to less than , the probability of forming the vent hole 140 at the spot provided with the adhesive layer 130 can be reduced, and the combustion ash of the adhesive can be inhibited from closing the vent hole 140, while introducing sufficient air into the interior.

[0083] Note that the plurality of vent holes 140 may be formed in two or more rows along the axial direction. By forming the plurality of vent holes 140 in two or more rows along the axial direction, more air can be introduced into the interior as compared with a case where the plurality of vent holes 140 are formed in one row.

[0084] Furthermore, by reducing the amount of adhesive applied by use of the second sheet materials 120 shown in FIGS. 5 to 8, adhesive ingredients generated by heating or combusting from the tubular body 100 applied to a flavor generating article or a smoking article are reduced, and flavor of the flavor generating article or smoking taste of the smoking article is inhibited from deteriorating.

[0085] In addition, reduction in amount of adhesive applied also reduces cost. Furthermore, the reduction in amount of adhesive applied reduces glue residue of the adhesive adhering to a manufacturing apparatus of the tubular body 100 and also reduces risk of stopping the manufacturing apparatus, so that a time for removing the glue residue can be shortened, and productivity of the tubular body 100 can be improved.

[0086] Next, a method for manufacturing the tubular body 100 will be described. FIG. 9 is a configuration diagram showing a tubular body manufacturing apparatus according to one embodiment of the present invention. In a tubular body manufacturing apparatus 1 shown in FIG. 9, a sheet material 24 having an appropriate width is drawn from a bobbin (not shown) of a sheet material feeding device 22 in a conveying direction 34 and conveyed in a longitudinal direction via a plurality of direction changing rollers 41.

[0087] The sheet material 24 is cut out in the longitudinal direction in a cutting-out part 23. Specifically, the sheet material 24 is cut out into the first sheet material 110 having a first width and the second sheet material 120 having a second width. The cut-out first sheet material 110 and second sheet material 120 are conveyed in parallel via the direction changing rollers 41 and separated from each other with a lateral conveying roller 32.

[0088] After the direction changing rollers 41 change a direction of the second sheet material 120, a gluing part 25 applies the positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133 (see FIG. 4) over an entire length in the longitudinal direction (applying step). Here, the positioning adhesive layer 131 has an adhesive pattern of a positioning glue (adhesive) applied linearly (see FIGS. 5 to 8).

[0089] Subsequently, a humidification nozzle 26 humidifies the second sheet material 120 (humidification step). The humidification nozzle 26 injects water onto the surface of the second sheet material 120 with the positioning adhesive layer 131 applied thereto. Note that the humidification nozzle 26 may inject alcohol onto the second sheet material 120 in place of water or spray steam onto the second sheet material 120.

[0090] Thus, spots of the second sheet material 120 with the positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133 applied thereto and the other spots have an equivalent humidity. In a subsequent step of molding the second sheet material 120 into a tubular shape, the material can be uniformly deformed, and the tubular body 100 having a high roundness can therefore be obtained.

[0091] In contrast, the first sheet material 110, separated from the second sheet material 120, is conveyed and positioned to be shifted in a lateral direction with respect to the conveying direction by a position shifting section 29. Afterward, a pair of tensile rollers 28 integrates the first sheet material 110 and the second sheet material 120 (bonding step).

[0092] Consequently, the first sheet material 110 and the second sheet material 120 are shifted from each other and bonded such that ends of the materials in a width direction perpendicular to the longitudinal direction do not overlap each other. Specifically, the positioning adhesive layer 131 and the first joint adhesive layer 132, applied to the second sheet material 120, bond the first body portion 111 and the second body portion 121 to each other (see FIG. 4).

[0093] Note that the tubular body manufacturing apparatus 1 may include a sensor that detects the ends of the first sheet material 110 and second sheet material 120 in the width direction, and a control mechanism for controlling an amount of position shift between the first sheet material 110 and the second sheet material 120.

[0094] Next, the first sheet material 110 and second sheet material 120, shifted from each other and bonded, are conveyed to a molding device 30. In the molding device 30, an endless molding belt 43 is guided endlessly via a plurality of direction changing rollers 41. The first sheet material 110 and the second sheet material 120 conveyed to the molding device 30 are pressed onto the molding belt 43 by a pressing part 44.

[0095] Afterward, the molding device 30 molds the first sheet material 110 and the second sheet material 120 into a tubular continuous body 31, for example, by a known method described in Japanese Patent Laid-Open No. 2018-121628 (molding step). In this step, the second joint adhesive layer 133 applied to the second sheet material 120 bonds the first extending portion 112 and the second extending portion 122 to each other (see FIG. 4).

[0096] Subsequently, the first sheet material 110 and second sheet material 120 molded into the tubular continuous body 31 are heated by a heating part 37, to thereby cure the positioning adhesive layer 131, the first joint adhesive layer 132 and the second joint adhesive layer 133. Furthermore, the second sheet material 120 humidified by the humidification nozzle 26 is also dried in the heating part 37.

[0097] Next, a cutting part 38 cuts, to a predetermined length, the first sheet material 110 and second sheet material 120 molded into the tubular continuous body 31 (cutting step), to form the tubular body 100. In the tubular body manufacturing apparatus 1, the first sheet material 110 and the second sheet material 120 may be replaced with each other.

[0098] Subsequently, the tubular body 100 is incorporated into a semi-finished product of the flavor generating article or the smoking article and then irradiated with laser beams from an outer circumference toward an inner circumference of the tubular body 100, and the materials at irradiated spots are combusted, to form a plurality of vent holes 140 extending through the tubular body 100 intermittently over an entire circumference in the circumferential direction.

[0099] Next, results of various experiments performed by use of the tubular body manufacturing apparatus 1 will be described. First, an experiment was performed to find out appropriate humidification conditions by the humidification nozzle 26. FIG. 10 is an explanatory diagram showing experimental results of humidification conditions in a tubular body manufacturing apparatus according to one embodiment of the present invention. Such an experiment was performed by changing the humidification conditions when the positioning glue was applied, onto the second sheet material 120, in three straight lines parallel to the axial direction (see FIG. 7).

[0100] As shown in FIG. 10, when the tubular body 100 was manufactured while changing the humidification conditions from level 1 to level 9 for a water content, an injection pressure, and a distance from the humidification nozzle 26 to the second sheet material 120 (humidification nozzle distance), it was confirmed that level 6 (water content of 6.34 mg/line, injection pressure of 0.05 MPa, humidification nozzle distance of 17 mm) was appropriate in roundness and circumferential length.

[0101] Subsequently, according to the level 6 shown in FIG. 10, when manufacturing the tubular body 100 (see FIG. 6) with the positioning glue applied, onto the second sheet material 120, spirally along the axial direction, bonding of the first extending portion 112 and the second extending portion 122 by the second joint adhesive layer 133 (see FIG. 4) was not appropriately performed.

[0102] Then, an experiment was performed on the tubular body 100 (see FIG. 6) with a positioning glue applied spirally along the axial direction to the second sheet material 120, while changing the water content. As a result, it was confirmed that a water content of 28.20 mg/line is appropriate for the tubular body 100 with the positioning glue applied spirally. FIG. 11 shows humidification conditions for each adhesive pattern in the tubular body manufacturing apparatus 1.

[0103] Next, an experiment was performed while changing an application amount of the positioning adhesive layer 131, for the tubular body 100 (see FIG. 6) with the positioning glue applied, to the second sheet material 120, spirally along the axial direction, and the tubular body 100 (see FIG. 5) with the positioning glue applied, to the second sheet material 120, in two straight lines parallel to the axial direction.

[0104] As a result, it was confirmed that an application amount of 20 g/500 m (4.8 mg/line) is appropriate for the tubular body 100 with the positioning glue applied spirally, and 25 g/500 m (3.0 mg/line2) is appropriate for the tubular body 100 with the positioning glue applied in two lines. FIG. 12 shows the result of comparison with a conventional product in terms of the application amount of the positioning adhesive layer 131 in the tubular body 100.

[0105] As shown in FIG. 12, in the tubular body 100 to which the positioning glue is applied spirally, the application amount of the positioning adhesive layer 131 can be reduced by 80% as compared with the conventional product (application amount of 100 g/500 m (24 mg/line)). Furthermore, in the tubular body 100 to which the positioning glue is applied in two lines, the application amount of the positioning adhesive layer 131 can be reduced by 75% as compared with the conventional product.

[0106] Subsequently, on the humidification conditions and with the application amount of the positioning adhesive layer 131 as shown in FIGS. 11 and 12, the tubular body 100 (see FIG. 6) with the positioning glue applied, to the second sheet material 120, spirally along the axial direction and a tubular body 100 (see FIG. 5) with the positioning glue applied, to the second sheet material 120, in two straight lines parallel to the axial direction were manufactured and measured for various physical properties. FIG. 13 shows results of comparison of the standard product with the conventional product in terms of various physical properties of the tubular body 100.

[0107] Here, the physical properties of the tubular body 100 immediately after the formation of the tubular body 100 and after 24 hours were measured in consideration of influence of humidification by the humidification nozzle 26, for the tubular body 100 with the positioning glue applied spirally and the tubular body 100 with the positioning glue applied in two lines. In addition, moisture was measured after one week.

[0108] As shown in FIG. 13, it was confirmed that the tubular body 100 has a weight equivalent to that of the conventional product immediately after formed and tends to be lighter in weight due to decrease in moisture with elapse of time. It was also confirmed that a circumference length and hardness have a value varying with the decrease in moisture with elapse of time.

[0109] It was also confirmed that both the tubular body 100 with the positioning glue applied spirally and the tubular body 100 with the positioning glue applied in two lines have roundness equivalent to that of the standard product. Furthermore, both the tubular body 100 with the positioning glue applied spirally and the tubular body 100 with the positioning glue applied in two lines have the same structure of a joint portion between the first extending portion 112 and the second extending portion 122 as in the conventional product and therefore indicate a value of joint peel strength equal to that of the conventional product.

[0110] In addition, by setting an area of the positioning adhesive layer 131 to 10% or more and 50% or less of an area of an overlapping portion between the first body portion and the second body portion, a tubular body capable of suppressing an adhering defect between the first sheet material 110 and the second sheet material 120 and having excellent roundness and less influence on flavor and smoking taste can be obtained.

[0111] As described above, embodiments of the present invention have been described, and the embodiments of the above-described invention are for facilitating understanding of the present invention and are not intended to limit the present invention. The present invention may be modified or improved without departing from its gist, and the present invention includes equivalents thereto. Furthermore, respective components described in the claims and the specification can be combined or omitted to such an extent that at least some of the above-described issues can be solved or at least some of effects are achieved.

REFERENCE SIGNS LIST

[0112] 1 tubular body manufacturing apparatus [0113] 10 flavor generating article [0114] 11 tobacco-containing segment [0115] 12 mouthpiece segment [0116] 13 cooling segment [0117] 14 center hole segment [0118] 15 filter segment [0119] 22 sheet material feeding device [0120] 23 cutting-out part [0121] 24 sheet material [0122] 25 gluing part [0123] 26 humidification nozzle [0124] 28 pair of tensile rollers [0125] 29 position shifting section [0126] 30 molding device [0127] 31 tubular continuous body [0128] 32 lateral conveying roller [0129] 34 conveying direction [0130] 37 heating part [0131] 38 cutting part [0132] 41 direction changing rollers [0133] 43 molding belt [0134] 44 pressing part [0135] 100 tubular body [0136] 110 first sheet material [0137] 111 first body portion [0138] 112 first extending portion [0139] 120 second sheet material [0140] 121 second body portion [0141] 122 second extending portion [0142] 130 adhesive layer [0143] 131 positioning adhesive layer [0144] 132 first joint adhesive layer [0145] 133 second joint adhesive layer [0146] 140 vent hole [0147] 141 first vent hole [0148] 142 second vent hole [0149] 210 tobacco filler [0150] 220 wrapper [0151] 310 filling layer [0152] 320 first inner plug wrapper [0153] 330 filter medium [0154] 340 second inner plug wrapper [0155] 350 outer plug wrapper [0156] 400 mouthpiece lining paper