TW201225862A - Smoking object having carbon heat source - Google Patents

Abstract

Smoking object (1) having carbon heat source comprises paper pipe (20) that is constituted in a multiple layered tube structure and each tube is formed by a laminated sheet having at least one layer of aluminum layer (26) and one layer of paper layer (24), carbon heat source (4) held in a front tip of paper pipe (20), and flavor generating source (6) disposed within paper pipe (20), in which paper pipe (20) has at least heat insulating layer (30) surrounding carbon heat source (4), and heat insulating layer (30) is formed by air pockets (34, 36) distributed between mutually adjacent tubes.

Description

201225862 VI. Description of the Invention: [Technical Field of the Invention] - The present invention relates to a smoking article having a carbon heat source, particularly a paper tube for maintaining a carbon heat source. [Prior Art] One of the smoking articles is known to be a smoking article disclosed in Patent Document 1. The smoking article of Patent Document 1 includes a paper tube composed of a metal layer and a paper layer, a slave heat source 'held in the paper tube, and burned by ignition; and a flavor generating source disposed adjacent to the carbon heat source. The inside of the paper tube is heated by receiving the heat of combustion of the carbon heat source to release the astringency. Further, the smoking article of Patent Document 1 is provided with a glass mat. This glass felt is wound around the outer surface of the carbon heat source and has a function as a heat insulating material for heat insulating the paper tube. Therefore, the glass felt suppresses the heat of combustion of the carbon heat source from being radiated to the outside of the paper tube through the paper tube. As a result, the heat of combustion of the carbon heat source is effectively transmitted to the source of the flavor generation, and the flavor source is effective to release the flavor. On the other hand, the smoking article disclosed in Patent Document 2 includes: a lip-shaped inner sleeve which is directly in close contact with the carbon heat source to replace the glass mat; and an outer sleeve disposed on the outer side of the inner sleeve; A predetermined interval is ensured between the outer sleeve and the carbon heat source. The inner layer and the outer sleeve are also effective in conveying the heat of combustion of the carbon heat source to the source of the fragrance. (Previous Technical Literature) (Patent Literature) (Patent Document 1) W0 2007— 119678 A1 3 322674 201225862

(Patent Document 2) JP 2 - 84165 A [Problem to be Solved by the Invention] In the case of the smoking article of Patent Document 1, since the glass felt is wound around the entire outer peripheral surface of the carbon heat source, the species The glass felt deteriorates the ignitability of the carbon heat source. Further, the use of the glass mat not only increases the number of parts of the smoking article, but additionally requires the winding step of the glass drum for the manufacture of the smoking article, thereby increasing the manufacturing cost of the smoking article. Further, in the case of the smoking article of Patent Document 2, the inner layer and the outer sleeve are disposed in a paper tube composed of a roll of paper, and the carbon heat source is complicated, but the structure of the smoking article is complicated. Therefore, the smoking article of Patent Document 2 is difficult to manufacture and its productivity is poor. It is an object of the present invention to provide a smoking article having a carbon heat source which can efficiently conduct the heat of combustion of a carbon heat source to a flavor generating source and can reduce the number of parts and improve productivity. (Means for Solving the Problem) In order to achieve the above object, a smoking article provided with a carbon heat source according to the present invention includes a paper tube which is a paper tube constituting a multi-layered tube structure, and each tube is composed of 13 to: > a laminated layer of a metal layer and a paper layer; the carbon heat source is a combustible carbon heat source held at the front end of the paper tube, which is ventilating, and at least a portion of the outer peripheral surface thereof is directly adhered to the paper tube a peripheral wall of the fragrance; and a source of aroma generated in the paper tube and extending from the carbon heat source toward the base end of the paper tube in the paper tube, receiving the combustion heat of the carbon heat source to release the fragrance; It has a heat insulation layer disposed between at least one group of tubes adjacent to each other 322674 4 201225862 and surrounding at least a carbon heat source, which is formed by air bags distributed between the tubes. _ The paper tube system contains a thermal insulation layer that exerts a high degree of thermal insulation effect and inhibits the combustion heat of the carbon heat source from escaping outside the paper tube. Therefore, the source of the flavor generation is efficiently heated by the heat of combustion of the carbon heat source. Therefore, the fragrance is well released from the source of the fragrance, and the user can taste the fragrance. Further, the heat insulating layer retains the carbon heat source in the paper tube in addition to the above-described heat insulating function, and imparts an elastic force to the outer diameter of the paper tube to alleviate the force applied from the outside of the paper tube. Therefore, the paper tube system can reliably maintain the carbon heat source by the elastic force without causing the carbon heat source to fall off. Further, even when the user drops a smoking article having a carbon heat source which is relatively easy to be broken, the paper tube can prevent the carbon heat source from being damaged by the elastic force. Specifically, one of the laminated sheets of one of the laminated sheets has an embossed surface which forms a heat insulating layer with the other laminated sheet. Therefore, the manufacture of the smoking article does not require a heat insulating material such as a glass mat or a winding step with respect to the heat insulating layer of the carbon heat source, so that the smoking article can be easily and inexpensively manufactured. Specifically, the paper tube system comprises: an inner tube forming an inner peripheral surface of the paper tube; an outer tube forming an outer peripheral surface of the paper tube; and a middle tube disposed between the inner tube and the outer tube. Preferably, the heat insulating layer is disposed between the inner tube and the middle tube and between the inner tube and the outer tube. The heat insulating layer may also be disposed between the carbon heat source and the inner tube and between the inner tube and the middle tube. Further, the heat insulating layer preferably extends from the front end to the base end of the paper tube. At 5 322674 201225862, the insulating layer extends over the entire paper tube for the axial direction of the paper tube, thereby suppressing the temperature rise of the entire outer surface of the paper tube. Further, the flavor generating source is preferably disposed adjacent to the carbon heat source. Further, the 'smoking article' may include a nozzle connected to the base end of the paper tube through a tip paper. (Effects of the Invention) According to the smoking article with a carbon heat source of the present invention, since the paper tube has a heat insulating layer, the heat of combustion of the carbon heat source can be efficiently transmitted to the flavor generating source' and can be easily and inexpensively manufactured. [Embodiment] Referring to Fig. 1, a smoking article 1 of the first embodiment is provided with a tobacco rod 2. The tobacco rod 2 includes a hollow cylindrical paper tube 2, and a cylindrical carbon heat source 4 and a flavor generating source 6 are disposed inside the paper tube 2, and the carbon heat source 4 and the flavor generating source 6 respectively have Ventilation. More specifically, the 'carbon heat source 4' has a plurality of axial direction holes (not shown) which are formed by passing through the carbon heat source 4. Therefore, the carbon heat source 4 is relatively easy to break. The carbon heat source 4 is disposed in the front end portion of one end portion of the paper tube 20, and is held in contact with the inner peripheral wall of the paper tube 20. That is, the outer diameter of the carbon heat source 4 is substantially equal to the inner diameter of the paper tube 20. Further, in the case of the present embodiment, the front end of the carbon heat source 4 protrudes from the front end of the paper tube 2〇. Therefore, the user can easily burn the carbon heat source 20 by igniting at the protruding end of the carbon heat source 2〇. On the other hand, the flavor generating source 6 is arranged side by side in the longitudinal direction of the paper tube 20 under the contact with the carbon heat source 4. That is, the flavor generating source 322674 6 201225862 is positioned on the proximal end side of the paper tube 20, that is, the suction side. The flavor generating source 6 releases the flavor when it is heated while receiving the heat of combustion of the carbon heat source 4. Specifically, the flavor generating source 6 is formed of tobacco yarn filled in the paper e 20 in order to secure a predetermined air permeability, and the tobacco yarn is obtained by, for example, cutting a tobacco leaf. Just as the paper tube 20 is formed into a multi-layered tube structure, each tube is formed of a spiral laminated sheet and adhered to each other through an adhesive. Specifically, as shown in Fig. 2, the paper tube 20 includes three layers of tubes 22, and the laminated sheets forming the respective tubes 22 each include at least one layer of the aluminum layer 26 and the paper layer 24. Specifically, the inner tube 22i includes one layer of the aluminum layer 26 and the paper layer 24'. The aluminum layer 26 here surrounds the outer side of the paper layer 24. Therefore, the aluminum layer 26 of the inner tube 22i forms the inner peripheral surface of the paper tube 20, and is in direct contact with the carbon heat source 4 and the flavor generating source 6. Further, the middle tube 22m and the outer tube 22 are respectively provided with two layers of paper 24 and one layer of layers 26', and each of the aluminum layers 26 is held by the paper layer 24, respectively. Therefore, when the inner tube 22i, the middle tube 22m, and the outer tube 22 are bonded together, the tubes adjacent to the diameter direction of the paper tube 2' in the tubes 22i, 22m, and 22 are attached to each other by the paper layers 24, respectively. . Therefore, the tubes 22i, 22m, 22 are firmly bonded to each other to provide a stable paper tube 2'. Further, the middle tube 22m may be formed of a laminated sheet subjected to embossing. Specifically, in the inner circumferential surface of the middle pipe 22m, a plurality of convex portions 32 are distributed in a regular or irregular manner, and on the other hand, a plurality of corresponding convex portions 32 are distributed on the outer circumferential surface of the middle pipe 22m. Concave. Therefore, in this case, when the intermediate tube 22m is formed on the outer peripheral surface of the inner tube 22i, the middle tube 22m is in contact with the outer peripheral surface of the inner tube 22i by the convex portion 322674201225862 portion 32. Also printed, the 22m of the inner tube of the inner tube is partially in contact. As a result, between the inner tube 22i and the middle tube 22m, the adjacent convex portion 32 cooperates with the outer peripheral surface of the inner tube 22i to be formed into an air bag 34, and the pocket 34 is distributed over the entire inner circumference of the middle tube 22m. surface. Similarly, when the outer tube 22 is formed on the outer circumferential surface of the middle tube 22R, since the middle tube 22m is in partial contact with the outer tube 22, a gas corresponding to the concave portion is distributed between the middle tube and the 22 〇. f, rolling 36. That is, in the inner and outer portions of the tube in the paper tube 20, air bags 34 and 36 which are intermittently continuous in the circumferential direction of the paper f2 () and in the axial direction are disposed, and the air bags % and 36 are substantially 2 The thermal layer 30 is formed inside and outside the middle tube 22, and the heat insulating layer is composed of the core 34 or 36 and extends from the front end of the paper tube 2 to the base end: the base end of the outer straw rod 2, A rod-shaped filter 1 is connected to the outer paper 18. The nozzle 10 is formed by wrapping the packet material 14 into the nozzle fiber 12. The coffin 1G may be a carbon filter containing activated carbon inside. It can also be a tandem filter combined with a plain filter and a carbon filter. Therefore, when the carbon heat source 4 is ignited, and the user sucks the smoking article with the mouthpiece of the smoking article (ie, 'the mouth 1G') At the time of the combustion heat of the carbon heat source 4, the air flowing through the axial direction holes in the carbon heat source 4 is heated by the user's suction. The heated air is passed through the fragrance generating source 6 via the smoking article. The mouthpiece of 1 is sucked into the mouth of the user. At this time, the flavor generating source 6 is heated by the heated air, and the flavor of the tobacco wire (ie, smoke) The silky fragrance is not added to the heated air. As a result, the user can taste the flavor of the tobacco silk. However, since the heat insulation layer 30 exerts a heat insulating effect, it is transmitted from the 322674 8 201225862 carbon heat source 4 to the paper. The heat of combustion of the tube 20 is suppressed. The 'combustion heat system can effectively heat the air passing through the carbon heat source 4', that is, the flavor generating source 6 is effectively heated. The present invention is not limited to the smoking article of the first embodiment described above. The various changes can be made. For example, the smoking article 1 of the second embodiment shown in Fig. 3 is embossed in the inner tube 20i and has only the heat insulating layer 30 on the outer side of the inner tube i. The heat insulating layer 30' can also exhibit sufficient heat insulating effect. Fig. 4 shows a third embodiment. The smoking article of the third embodiment corresponds to the addition of the cavity 40 to the smoking of the first or second embodiment. Specifically, the cavity 40 is secured between the carbon heat source 4 and the flavor generating source 6 in the paper tube 20. In order to verify the heat insulating effect of the heat insulating layer 30 of the smoking article of the above embodiment, Preparation of the third embodiment of each of the ten The smoking articles of Examples 1 and 2, the smoking articles of Comparative Example 1 without the heat insulating layer, and the smoking articles of Comparative Example 2 having the glass felt instead of the heat insulating layer. In detail, the paper tube of Example 1 The specifications of embossing and carbon heat source are as follows: Paper tube length: 30 colors, inner diameter: 6.4 mm, thickness of paper layer: 2 〇 / zm, thickness of each aluminum layer · 20 / zm, heat insulation layer: The inner and outer ink lines are embossed in the inner tube 22m: the circular shape is observed in the cross section, the depth is: 〇6mm, the carbon heat source is 9 322674 201225862, the length is 10mm (the protruding length is 5mm), the paper tube and embossing of the example 2 are The specification of the carbon heat source embosses the laminated sheet forming the inner tube 22i. At this time, the point where the heat insulating layer 30 exists between the inner tube 22i and the middle tube 22m and between the inner tube 22i and the carbon heat source 4 It is different from the case of Example 1. Regarding the paper tube and the carbon heat source of Comparative Example 1, only the point that the paper tube did not have the heat insulating layer 30 was different from the case of Examples 1 and 2. Regarding the paper tube and the carbon heat source of Comparative Example 2, only the inner diameter of the paper tube was 6.7 mm, and the point at which the carbon heat source was wound with the glass felt was different from that of Examples 1 and 2. Further, regarding the smoking articles of Examples 1, 2 and Comparative Examples 1, 2, the other specifications were the same. In order to verify the above-mentioned heat insulation effect, the smoking articles of the examples and comparative examples were subjected to a smoking test according to Canadian smoking conditions (CIR conditions), and the outer circumference of the paper tube was measured by a radiation thermometer at a position 15 Å from the front end of the paper tube. The maximum temperature was obtained, and the average value of each of the highest temperatures of the examples and comparative examples was determined. Table 1 below shows the measurement results. [Table 1] Example 1 Example 2 Comparative Example 1 Comparative Example 2 The specification of the paper tube has a heat insulating layer inside and outside the middle tube. There is a heat insulating layer inside and outside the inner tube. No insulating layer has an average maximum temperature of glass felt rc] 97.98 99 54 118. 56 104.25 As shown in Table 1, the average maximum temperature of the outer surface of the paper tube of Comparative Example 1 is 322674 10 201225862 degrees is 11.8. In contrast, the average maximum temperature of Record 2 is 104.251. As a result, the slope of the carbon heat source is reduced to lower the average maximum temperature of the outer surface of the paper tube, thereby exerting a heat insulating effect. On the other hand, the average outer surface temperature of the outer surface of the paper tube 2 of Example 1 and Example 2 was 97.98. (:, 99.54t. The average maximum temperature of these is lower than the average maximum temperature of the comparative example 2. It is understood that the thermal insulation layer 3 formed in the paper tube 20 is a comparative example. 2, the better thermal insulation effect of the glass. In addition, if the average maximum temperature of the examples 1, 2 is compared, the insulation effect of the insulation layer of the example 1 is better than that of the insulation layer of the example 2. The heat insulating layer 3 of the tube 20 exerts a high heat insulating effect, and the combustion of the t-carbon heat source 4 escapes to the outside of the paper tube 20. Therefore, the combustion heat source of the carbon heat is effective. The ground is heated. Therefore, the flavor is well discharged from the taste generating source 6, and the user can pour the scented heat insulating layer 30 by applying embossing to the laminated sheet of the intermediate tube 22m or the inner tube 22i. Therefore, the system of the smoking articles of the examples 1 and 2 does not require the winding step of the carbon heat source 4 such as the glass mat or the heat insulating material, and can be easily and僧 僧 α 僧 地 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 制造 僧 制造 僧 僧 僧 僧 僧 僧 僧 僧 僧 僧 僧 僧 僧 僧 僧The 'extends to the entire area of the paper s 20, so the degree rises. The warm insulating layer 30 of the outer surface of the tobacco rod 2 is not only the top name but also the surname - from the weeping Λ Ν heat function 4 is surely held in the paper tube 20, and the diameter direction of _纟20 is given to the elastic force from the outside for the application of the 322674 201225862 and the paper tube 20. In order to verify the elastic force of the paper tube 20, Paper tubes 20 of Examples 1 and 2, and paper tubes of Comparative Example 1 were prepared. Further, the paper tubes of Examples 1, 2 and Comparative Example 1 were subjected to confirmation of cracking or buckling in the paper tube. The test of the diameter of the pin gauge. Specifically, first insert a needle of 6.4 mm in diameter from the front end of the paper tube into the paper tube up to 5 mm. By inserting here, if the paper tube does not occur If the rupture or buckling is carried out, the needle gauge with a larger diameter than the previous needle gauge is replaced, and the needle gauge is inserted repeatedly until the rupture or buckling occurs. Here, the diameter of the previous needle gauge and this time The difference between the diameters of the needle gauges is 0.01 mm. Table 2 below The results of the above-mentioned confirmation test, that is, the average maximum diameter of the needle gauge which is broken or bucked in the paper tube of Comparative Example 1, Example 1, 2 (i.e., the maximum allowable internal diameter of the paper tube) is shown. The paper tube of Example 1 is the maximum allowable inner diameter of the paper tube of Example 1 of the paper tube of Example 1 of the paper tube of Example 1. [6] 6.55 6.65 6.67 As shown in Table 2, the maximum allowable inner diameter of the paper tube of Comparative Example 1 is 6. 5 5 mm, relative Here, the allowable maximum inner diameters of the paper tubes of Examples 1 and 2 were 6.65 mm and 6.67 mm, respectively, thereby confirming that the paper tubes 20 of Examples 1 and 2 were compared with the paper tubes of Comparative Example 1. Its diameter direction has greater elasticity. This means that as long as the carbon heat source 4 having an outer diameter larger than the inner diameter (6.40 mm) of the paper tube 20 of Examples 1 and 2 is pressed into the paper tube 20, the paper tube 20 can be no longer 12 322674 201225862 In the case where the carbon heat source 4 is detached, the carbon heat source 4 is surely held by the elastic force. Further, even if the user drops the smoking article 1 having the carbon heat source 4 which is relatively easily broken, the paper tube 20 can prevent the carbon heat source 4 from being broken by the elastic force. The present invention is not limited to the above embodiments, and various modifications can be made. For example, the heat insulating layer 30 may be formed between the middle tube 22m and the outer tube 22'' by embossing the laminated sheet forming the tube 22's outside the paper tube 20. Further, the heat insulating layer 30 may be disposed in a part of the axial direction of the paper tube 20, or may be disposed in the entire area. Further, the shape of the air pockets 34 and 36 forming the heat insulating layer 30, that is, the embossing formed on the laminated sheet is not limited to the illustrated example, and may have a cross-sectional liquid shape such as a triangular wave or a trapezoidal wave, and The shape of the top view is also any. Further, the aluminum layer 26 in the paper tube 20 can be replaced with a metal layer composed of other metals having a low thermal conductivity. Further, the paper tube 20 may have a multilayer structure including four or more tubes. Further, as shown in Fig. 5, the carbon heat source 4 may have an end face that is flush with the front end surface of the paper tube 20. At this time, there is no direct application of force from the outside to the carbon heat source 4, and the removal of the carbon heat source 4 from the paper tube 20 can be further prevented, and the appearance of the smoking article 1 can be improved. Further, since the paper tube 20 surrounds the entire outer peripheral surface of the carbon heat source 4, even if the user drops the smoking article 1, the damage of the carbon heat source 4 can be more reliably prevented. 13 322674 201225862 Further, the source of the flavor generation may be in addition to the tobacco yarn described above, as long as it is subjected to heat from the carbon heat source 4 to emit flavor. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a smoking article having a carbon heat source according to a first embodiment of the present invention. Fig. 2 is a cross-sectional view showing the paper tube of the portion A of Fig. 1. Fig. 3 is an enlarged cross-sectional view showing a portion of a smoking article having a carbon heat source according to a second embodiment of the present invention. 4 is a cross-sectional view of a smoking article having a carbon heat source according to a third embodiment of the present invention. FIG. 5 is a cross-sectional view showing a smoking article having a carbon heat source according to a fourth embodiment of the present invention. [Description of main components] 1 smoking article 2 Tobacco rod 4 Carbon heat source 6 Fragrance source 10 Filter 12 Filter fiber 14 Pack material 18 Outer paper 20 Paper tube 22i Inner tube 22m Middle tube 22 Outer tube 24 Paper layer 26 Aluminum layer 30 Insulation layer 32 Convex 34 &gt ; 36 air bag 40 cavity 322674

Claims (1)

201225862 VII. Scope of application for patents·· h A smoking article with a carbon heat source is provided with: A paper 1 tube, which is a paper tube constituting a multi-layered tube structure, each tube is composed of a metal layer and paper containing each layer a layered sheet of the layer is formed; the heat source is a combustible anodic source that is held at the front end of the paper tube, and has a gas permeable property, and at least a portion of the outer peripheral surface thereof is directly adhered to the paper tube. The peripheral wall; and the ', the source of the flavor generation' is disposed in the paper tube and is pumped from the carbon heat source toward the base wall of the paper tube. ♦ 1, +, & The ventilating source of the enthusiasm emits the scent of the burning heat of the carbon heat source of the party; ^the paper system has at least one group disposed adjacent to each other: at least a heat insulating layer surrounding the carbon heat source, The insulating layer is formed by an air bag distributed between the tubes. The smoking article having a carbon heat source according to the first aspect of the invention, wherein the laminated sheet of the one of the laminated sheets has an embossed surface in which the heat insulating layer is formed between the laminated sheets of 3 Λ ^ . • The smoking article having a carbon heat source according to item 2 of the patent scope, wherein the paper tube system comprises: an inner tube forming an inner circumferential surface of the paper tube; and an outer tube forming an outer circumferential surface of the paper tube; And Zhongguan, disposed between the inner tube and the outer tube. 322674 1 1 吸烟 , , , 吸烟 吸烟 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The smoking article provided with the carbon heat source according to claim 3, wherein the heat insulating layer is disposed between the carbon heat source and the inner tube and between the inner tube and the middle tube. 6. The smoking article provided with a carbon heat source according to claim 2, wherein the heat insulating layer extends from a front end of the paper tube to the base end. 7. The smoking article provided with a carbon heat source according to claim 1, wherein the flavor generating source is disposed adjacent to the carbon heat source. 8. The smoking article having a carbon heat source according to claim 1 of the patent application, further comprising a filter connected to the base end of the paper tube through the outer paper. 2 322674