KR20230087804A - Non-combustible heated products with internal spiral structure - Google Patents

Abstract

The present invention relates to a non-combustible heated product with an internal spiral structure. That is, a fuming part (6) and an internal spiral structure member (4), and the like are wrapped with molding paper and diagonally connected or inserted into a preformed tubular material, and the internal spiral structure member (4) has at least one protruding spiral belt (1) on the inner wall thereof. The non-combustible heated product of the present invention has a clear effect of lowering the smoke temperature, and since the non-combustible heated product has no filter blocking function, the non-combustible heated product is relatively less likely to block scent, so the haze concentration can be increased by lowering the smoke temperature. On the other hand, the non-combustible heated product has a spiral path, and the spiral path plays a role in blocking powder that falls from the fuming part, so a binary structure lowers the risk of inhalation of the powder and improves an inhalation experience.

Description

Non-combustible heated products with internal spiral structure {NON-COMBUSTIBLE HEATED PRODUCTS WITH INTERNAL SPIRAL STRUCTURE}

The present invention belongs to the field of tobacco processing technology, and more specifically, the present invention relates to non-burning heated products having an internal spiral structure.

The non-combustion heated product uses an external heat source to heat the fragrance material and the heat generating material of the smoke part, and provides fragrance and mist amount when inhaled to satisfy the desired satisfaction of the consumer during inhalation. Therefore, in contrast to traditional cigarettes that do not burn, product safety can be greatly improved by lowering the amount of product harmful components emitted. The non-combustible heated product was recognized in the market for its rich taste, no smoke measurement, no cigarette ash contamination, etc., and received excellent market evaluation.

The inhalation of the non-combustible heated product is carried out in a way in which tobacco solids and heating are mutually matched, and a technical plan is adopted in which smoke is released by heating and roasting. There are relatively few substances in the smoke part in the tobacco solids, and at present this product has a certain filter part and cooling part, so when this product is inhaled, the fragrance texture and smoke concentration are lacking, and the smoke temperature is high. There is a problem with Therefore, some consumers feel apprehensive when purchasing this type of product. Currently, non-combustible heating products often use multi-layer composite filter rods to control smoke concentration and temperature, but it is still difficult to solve technical problems because there is a filter part, and the process of manufacturing multi-element composite filter rods is complicated and Manufacturing cost is high. For example, US 20140305448A1 entitled "Aerosol-generating products for use with aerosol-generating devices" discloses non-combustible heated tobacco solids having a quaternary structure. This four-membered structure is divided into a smoke part, a support part, a cooling part, and a filter part, respectively. There are disadvantages of high temperature; CN110680018A, titled "Incense chips using supporting members and insense chips equipped with the same", discloses a non-combustible heated tobacco solid structure having a ternary structure in an embodiment, and consists of a smoke part, a heat-resistant smoke passage part, and a filter part, respectively. It simplifies the production process of tobacco solids and lowers the smoke temperature to a certain level, but the smoke amount of the filter part is low and the smoke concentration is high. The utility model of CN211153800U, entitled "Non-combustion heating cigarette and inhalation product", discloses a heating non-combustion cigarette and inhalation product, and this non-combustion heating cigarette includes a substrate part, a distribution element of an aerosol collection part and an external package element, The substrate portion includes an aerosol generating portion and an aerosol passing portion, and when the smoke passes through the aerosol passing portion, some fragrance and mist are adsorbed, resulting in obstruction in releasing the fragrance and lowering the mist concentration. The aerosol collecting part is composed of one or more of a cellulose acetate fiber tube, a polylactic acid tube, and a paper tube, and the material used in the aerosol collecting part does not have a clear cooling effect in actual applications. As can be seen from the data measured in this embodiment of the invention, the inconsistency between the amount of smoke and the concentration of smoke cannot be specifically resolved, and the debris in the smoke part falls off and the smoke condensate falls and is easily absorbed by the human body; CN210581038U's utility model name "composite aerosol distribution rod, aerosol distribution product and aerosol distribution system" discloses a non-combustible heating type product of the composite aerosol distribution part, consisting of a complex aerosol distribution part and a fuming part, among which the composite of the composite aerosol The part is a cylinder made of two cellulose acetate tows or polylactic acid tows with through holes. Through the effect of the embodiment, even though the smoke concentration was improved to a certain level, the smoke temperature was solved at 42 ° C or higher, but the problem of excessively high smoke temperature was not solved, and this structure was not blocked in a direct type, The debris and condensate from the fuming part are easily absorbed by the human body.

Therefore, the present inventors have completed the present invention by focusing on many technical deficiencies revealed in the prior art, synthesizing prior art analyzes, and conducting a large amount of experiments and analyzes.

The present invention provides a non-combustion heating type product having an internal spiral structure.

The present invention is realized through the following technical solutions.

The present invention relates to a non-combustion heated product having an internal spiral structure.

In the non-combustible heating type product with internal spiral structure of the present invention, the smoke portion 6 and the internal spiral structure member 4 and the like are wrapped with shaping paper to form an oblique connection; The inner spiral structure member 4 has a cylindrical structure, and at least one protruding spiral belt 1 is installed on an inner wall of the cylindrical structure, and the protruding spiral belts are disposed symmetrically about the central axis of the cylindrical structure thereof.

In a preferred embodiment of the present invention, the non-combustible heated product comprises the fuming part (6), the internal spiral structure member (4), the filter part (3) and/or the hollow tube support part (5). It is made by filling in a preformed tubular material or wrapped with the forming paper to make a diagonal connection.

In another preferred embodiment of the present invention, the cross section of the protruding spiral belt is circular, square, rectangular, parallelogram or trapezoidal, and the belt plane of the central axis of the cylindrical structure is parallel to the direction of the side of the cylindrical structure.

In another preferred embodiment of the present invention, when there is more than one protruding spiral belt, the shape of the cross section of the protruding spiral belts is the same or different, and the width and thickness thereof are the same or different.

In another preferred embodiment of the present invention, the ratio between the distance between the protruding spiral belts and the length of the cylindrical structure is 1:2 to 8.

In another preferred embodiment of the present invention, the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1: 3.14 to 25.12; The ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:6 to 16.

In another preferred embodiment of the present invention, the number of the protruding spiral belts of the internal spiral structure member 4 is 1 to 4.

In another preferred embodiment of the present invention, when the protruding spiral belt is one, the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:3.14 to 6.28; A ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:6 to 10.

In another preferred embodiment of the present invention, when there are two protruding spiral belts, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:6.28 to 12.56; A ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:8 to 12.

In another preferred embodiment of the present invention, when the number of the protruding spiral belts is three, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1: 9.42 to 18.84; The ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:10 to 14.

In another preferred embodiment of the present invention, when the number of the protruding spiral belts is four, the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:12.56 to 25.12; The ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:12 to 16.

In another preferred embodiment of the present invention, the internal spiral structure member 4 is made of a heat-resistant material such as silicone rubber, engineering plastic, polyurethane or polypropylene by selecting a common compression molding or extrusion molding method.

In another preferred embodiment of the present invention, the forming paper is aluminum foil forming paper, oil-proof forming paper or PE coated forming paper.

In another preferred embodiment of the present invention, the preformed tubular material is a paper tube, a silicone tube or a nylon tube.

In another preferred embodiment of the present invention, the smoking portion 6 is made of powdered, particulate, paste or flake tobacco material.

In another preferred embodiment of the present invention, the filter portion 3 is a structural member having a function of filtering and adsorbing smoke for inhalation.

In another preferred embodiment of the present invention, the hollow tube supporting portion 5 means a structural member that is punched in the middle of a wall with a certain thickness to provide smoke circulation.

In another preferred embodiment of the present invention, the non-combustion heated cigarette product is a cylindrical non-combustion heated cigarette product with a length of 20 to 100 mm and a diameter of 3 to 12 mm.

The following describes the present invention in more detail.

The present invention relates to a non-combustion heated product having an internal spiral structure.

)가 알루미늄 성형 페이퍼를 제품명에 포함시켜 판매하는 알루미늄박 성형 페이퍼가 있다.In the non-combustion heating type product having an internal spiral structure, the smoke portion 6 and the internal spiral structure member 4 are wrapped with the molding paper to form an oblique connection, which is a non-combustion heating type with a binary structure. It is a cigarette product, the specific structure see Figure 1A; The shaping paper is the aluminum foil shaping paper, the oil-proof shaping paper, or the PE-coated shaping paper, and this paper has an effect of preventing permeation, and the tobacco of the smoking part contains a smoker, so that leakage occurs when inhaled for a long time This occurs, which hinders the appearance quality of the product and degrades the inhalation experience. The anti-penetration paper used in the present invention can effectively solve the risk of product quality deterioration due to external leakage of the flame retardant. The papers used in the present invention are currently commercially available cigarette products.

) has aluminum foil molding paper sold by including aluminum molding paper in the product name.

)는 실리콘 고무로 만든 연성 튜브를 제품명에 포함시켜 판매하는 실리콘 튜브가 있다.Alternatively, in the non-combustible heating type product with an internal spiral structure, the fuming portion 6, the internal spiral structure member 4, the filter portion 3 and/or the empty tube supporting portion 5 are the preliminary It is made by filling in a molded tubular material or wrapped with molding paper to make a diagonal connection. These are non-combustion heated cigarette products equipped with a binary structure or a quaternary structure, and their specific structures refer to FIGS. 1B and 1C, respectively. The preformed tubular material is a paper tube, a silicone tube or a nylon tube, which are commercially available cigarette products. For example, Dongwan City Guansheng Silicone Products Co., Ltd. (

) has a silicone tube sold by including a flexible tube made of silicone rubber in the product name.

The inner spiral structure member 4 has the cylindrical structure, and at least one protruding spiral belt 1 is installed on an inner wall of the cylindrical structure, and the protruding spiral belts are disposed symmetrically with the central axis of the cylindrical structure. and their longitudinal cross-sectional structural diagram and transverse cross-sectional structural diagram are included in FIGS. 2 and 3, respectively.

In the present invention, the main purpose of installing the protruding spiral belt in the non-combustion heating product of the present invention is to effectively lower the temperature of the smoke inlet by extending the smoke circulation path, on the other hand, in the smoke part during inhalation. It is to prevent debris from falling and condensate from directly entering the oral cavity or other structural members and interfering with the inhalation experience.

In the present invention, the cross section of the protruding spiral belt is circular, square, rectangular, parallelogram or trapezoidal, and the belt surface of the central axis of the cylindrical structure is parallel to the direction of the side of the cylindrical structure. Of course, in the present invention, the cross section of the protruding spiral belt may take other prescribed or non-prescribed forms, and these forms do not adversely affect the processing and production of the product of the present invention and its performance, thus protecting the present invention. fall within the range

In the present invention, when there is more than one protruding spiral belt, the shape of the cross section of the protruding spiral belts is the same or different, and their belt width and thickness are the same or different. Here, the cross section of the protruding spiral belt is one cross section perpendicular to the central axis of the protruding spiral belt; The width of the protruding spiral belt (belt width) is the width of the side facing the central axis of the cylindrical structure; It should be understood that the thickness of the protruding spiral belt is the width of the surface intersecting the wall of the cylindrical structure.

In the present invention, the ratio between the distance between the protruding spiral belts and the length of the cylindrical structure is 1:2 to 8. Here, the spacing is to be understood as the shortest distance between the side edges of two mutually adjacent protruding spiral belts. If the ratio between the distance between the protruding spiral belt and the length of the cylindrical structure is less than 1: 2, the enclosed angle is less than 360 ° C, and the protruding spiral belt does not form a cutoff, so that a through hole appears in the middle, The smoke passes directly, reducing the path through which the smoke passes, and the debris in the smoked part can fall and pass directly, if the distance between the protruding spiral belt and the length ratio of the cylindrical structure is greater than 1:8, the internal spiral The number of the protruding spiral belts of is relatively large, making it more difficult to manufacture in a spiral structure, increasing the waste of raw materials, so that the ratio of the distance between the protruding spiral belts and the length of the cylindrical structure is 1: 2 to 8 is reasonable, Preferably, it is 1:3 to 6.

In the present invention, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure (the circumferential length of the cylindrical inner wall) is 1: 3.14 to 25.12; The ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:6 to 16.

Since there are one to four protruding spiral belts of the internal spiral structure member 4, when a person inhales, smoke can smoothly flow along the spiral passage made of the protruding spiral belts, and in a non-burning heated cigarette product. By increasing the distribution path of smoke, it lowers the smoke temperature and improves comfort when inhaling.

In the present invention, when the protruding spiral belt is one, the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:3.14 to 6.28; When the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is less than 1: 3.14, the width of the protruding spiral belt becomes excessively long and is formed round the inner circumference, affecting the quality of the overall appearance. As a result, the processing difficulty can be increased; When the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is greater than 1: 6.28, the belt width of the protruding spiral belt is excessively shortened, the spiral path is excessively widened, and smoke passes through. The path is reduced and the effect of blocking debris is lowered, preferably 1: 3.5 to 5.5.

A ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:6 to 10. If the ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is greater than 1:6, the thickness of the protruding spiral belt is increased, the cross-sectional area of the smoke passage is reduced, and the volume of the spiral path is reduced; When the ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is less than 1:10, the thickness of the protruding spiral belt becomes thin, so that the spiral belt is easily deformed, causing problems in product quality, preferably 1:7 to 9.

In the present invention, when there are two protruding spiral belts, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:6.28 to 12.56; A ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:8 to 12.

When there are three protruding spiral belts, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1: 9.42 to 18.84; The ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:10 to 14.

When there are four protruding spiral belts, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:12.56 to 25.12; The ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1:12 to 16.

)에서 폴리카보네이트를 상품명에 포함시켜 판매하는 엔지니어링 플라스틱, 소주시가화폴리우레탄제품 유한공사(

)에서 카바메이트를 상품명에 포함시키는 폴리우레탄이 있다. In the present invention, the internal spiral structure member 4 is made of a heat-resistant material such as silicone rubber, engineering plastic, polyurethane or polypropylene by selecting a common compression molding or extrusion molding method. The non-combustion heating product heats the fuming part through an external heat source, the temperature of the fuming part reaches 150 ° C or higher when heated, and uses heat-resistant materials to prevent structural members from sinking due to heat or harmful when heated. substances can be prevented from being released. Since these heat-resistant materials used in the present invention can withstand temperatures of 150° C. or higher, physical or chemical changes do not occur. The above materials are products currently sold on the market, for example, silicone rubber sold by Dongguan City Guansheng Silicone Products Co., Ltd. with silicone included in the product name, and Dongguan Xirakye Plastics Co., Ltd. (

), an engineering plastic that includes polycarbonate in the product name and sells it, Suzhou City Gahua Polyurethane Products Co., Ltd. (

), there are polyurethanes that include carbamates in their trade names.

)에서 생산된 제품을 말한다.The compression molding method adopted in the present invention is a skilled prior art, and specifically refers to the compression molding apparatus for processing silicone products in reference CN214082453U, and the extrusion molding method used in the present invention is a processing method extruded through a conventional extruder And, the extruder used in the present invention is a product currently sold on the market, as an example, Yunnan Paju Biotech Co., Ltd. (

) refers to products produced by

In the present invention, since the outer diameters of the smoked portion 6 and the inner spiral structure member 4 coincide, the appearance quality of the non-combustion heated product is consistently guaranteed.

The fuming portion 6 is made of powdered, granular, paste or flake plant material. The plant materials used in the present invention include, for example, materials such as tea leaves, mint, coffee or dried cigarettes that are currently sold on the market;

Powdered, particulate, paste or flake tobacco materials are the types of tobacco materials commonly used in the present technology.

In the present invention, the filter portion 3 is made of a filter material such as cellulose acetate, polyurethane fiber or polylactic acid fiber.

In the present invention, the hollow tube support portion 5 is a hollow paper tube, a hollow acetic acid tube or a hollow silicone tube.

In the present invention, the non-burning heated cigarette product is a cylindrical non-burning heated product having a length of 20 to 100 mm and a diameter of 3 to 12 mm.

The following details the measurement methods for smoke temperature, haze concentration, and sensory evaluation.

)에서 연무 농도 측정기를 생산하여 각각 흡입하는 테스트를 수행하여, 각각 연기 온도와 연무 농도를 측정한다.Non-combustible heated HEETs original flavor tobacco solids produced by Philip Morris International were taken as control sample 1, and the binary structure of direct silicon (non-combustible heated product with flaky binary structure in document CN112515247A) was control sample 2, and GBT 19609-2004 <Measurement of Total Particulate Matter and Tar in General Analysis for Cigarettes Using Smoker> and GB/T 16447-2004 <Tobacco and Tobacco Product Control and Tested Atmospheric Environment> as standard, used Dongwanbihong Equipment Co., Ltd. (

) produces a smoke concentration meter and performs an inhalation test to measure the smoke temperature and smoke concentration, respectively.

With this equipment, the haze concentration index is measured using the optical projection method under the condition that the laser light source wavelength λ=630μm and the measured optical distance is 4cm.

)에서 생산된 MYUZ 흡연 도구를 선택하고, 흡입 순서는 가열기에서 예열을 완성한 후 설비는 흡입 상태로 진입한다. 각 흡입 용량 35ml, 흡입 시간 2s, 흡입 기류의 속도 17.5ml/s, 흡입 간격 13s, 총 흡입 수 16번, 총 흡입 작업 시간은 240s이다.Inhalation sequence: Dongguan Heo Electronics Co., Ltd. (

), select the MYUZ smoking tool produced, and in the suction sequence, after completing the preheating in the heater, the equipment enters the suction state. Each suction volume is 35 ml, the suction time is 2 s, the suction air flow rate is 17.5 ml/s, the suction interval is 13 s, the total number of suctions is 16, and the total suction operation time is 240 s.

Temperature measurement: Measure the mainstream smoke temperature and lip temperature of tobacco solids using a K-type thermocouple temperature meter according to the measurement method described in the user manual of this device.

Haze concentration index measurement: Measuring the haze concentration by the light projection method is a non-contact measurement method. In the process of the light source passing through the aerosol medium, scattering, refraction, and absorption of the particles focus on the luminous flux and the aerosol particle spherical surface occur. Therefore, the intensity of the projected light transmitted from the laser light source to the aerosol mist is weakened. The greater the concentration of the aerosol, the more pronounced the effect of reducing the intensity of the projected light, and the smaller the concentration of the aerosol, the weaker the effect of reducing the intensity of the projected light. Under specific measurement conditions, the ratio of the incident light intensity to the absorbed light intensity is called the light extinction rate, and the measured light extinction rate is expressed as a percentage as the measured haze concentration index.

Sensory evaluation method: The non-combustible heating products of different examples were sent to the intake evaluation committee of Yunnan Fajul Biotech Co., Ltd. 7 committee experts evaluated the intake, and the example samples were evaluated using a smoking tool to be calibrated, mainly oral Check the foreign body sensation and observe the cleanliness of the spiral passage after suction is completed.

Beneficial effects of the present invention are as follows.

Since the non-combustible heating product of the present invention has a longer smoke passage through the spiral passage than the through-type passage, the effect of lowering the smoke temperature is evident, and there is relatively little case of blocking the fragrance due to the lack of a filter blocking function, so the smoke temperature can be lowered to increase the mist concentration. On the other hand, since there is a spiral path, it serves to block the powder that has fallen from the fuming part, so the binary structure can lower the risk of being inhaled and improve the inhalation experience.

1 is a schematic diagram of a non-combustible heated product structure having an internal spiral structure of the present invention.
Figure 1A: binary structure; Figure 1B: ternary structure; Figure 1C: Quaternary structure
Fig. 2 is a schematic view of a longitudinal section of an internally helical structure member of the present invention.
2A: single helix; 2B: double helix; 2C: triple helix; Figure 2D: quadruple helix
Fig. 3 is a schematic view of a transverse section of an internally helical structure member of the present invention.
3A: single helix; Figure 3B: double helix; 3C: triple helix; Figure 3D: Quadruple Spiral

The present invention may be better understood by the following examples.

Example 1: The present invention is a non-combustible heated product having an internal spiral structure.

The implementation plan of this embodiment is as follows.

The non-combustible heating type product having an internal spiral structure is formed by extruding a smoking portion (6), which is a dried tobacco plant material in the form of thin slices, and a silicone rubber type internal spiral structure member (4) obtained by extrusion molding, wrapped with aluminum foil molding paper to form an oblique line It is a non-combustible heating type product with a binary structure made of connections, and this product is cylindrical with a length of 45mm and a diameter of 7mm. The inner spiral structure member 4 has a cylindrical structure, and two protruding spiral belts 1 are installed on the inner wall of the cylindrical structure. The ratio between the belt width and the inner circumferential length of the cylindrical structure is 1: 8.88, the ratio between their thickness and the inner diameter of the cylindrical structure is 1: 9, and the gap between the protruding spiral belts and the length of the cylindrical structure The length ratio is 1:8.

The temperature of the mainstream smoke, the lip temperature, and the haze concentration index of the non-burning heated tobacco solids of the example were measured by the method described in the specification of the present invention, and the measurement results are listed in Tables 1, 2, and 3, respectively, The results of sensory intake evaluation are shown in Table 4.

In addition, at the same time, the mainstream smoke temperature, lip temperature and haze concentration index were measured for the non-combustible heated HEETs original taste tobacco solids and silicon direct type binary structure produced by Philip Morris International as control samples, and the measurement results are shown in Table 1 , listed in Table 2, Table 3, and Table 4.

Example 2: The present invention is a non-combustible heated product having an internal spiral structure.

The implementation plan of this embodiment is as follows.

The non-combustible heating type product having an internal spiral structure is a paste-type tea leaf plant material, a fuming portion (6), a hollow acetic acid tube in the support portion (5), and a polypropylene type internal spiral structure member (4) obtained by a compression molding method. ) and the cellulose acetate filter part (3) are sequentially composed of composite rods wrapped with oil-proof molding paper and aluminum foil molding paper to form a non-combustible heating product with a 4-member structure consisting of a diagonal connection. This product has a length of 50 mm and a diameter of 7 mm. it is circular The inner spiral structure member 4 has a cylindrical structure, and a protruding spiral belt 1 is installed on the inner wall of the cylindrical structure. The ratio of is 1:5.53, and the ratio of its thickness to the inner diameter of the cylindrical structure is 1:7.

The temperature of the mainstream smoke, the lip temperature, and the haze concentration index of the non-burning heated tobacco solids of the example were measured by the method described in the specification of the present invention, and the measurement results are listed in Tables 1, 2, and 3, respectively, The results of sensory intake evaluation are shown in Table 4.

Example 3: The present invention is a non-combustible heated product having an internal spiral structure.

The implementation plan of this embodiment is as follows.

The non-combustible heating type product having an internal spiral structure is composed of a fuming part (6), which is a particulate mint plant material, an engineering plastic type internal spiral structure member (4) obtained by extrusion by extrusion molding, and a cellulose acetate filter part (3) in turn. It is a non-combustible heated product with a ternary structure formed by filling the prepared diagonally connected composite rods with the preformed tubular material, and this product has a cylindrical shape with a length of 40 mm and a diameter of 6.5 mm. The internal spiral structure member 4 has a cylindrical structure, and three projection spiral belts 1 are installed on the inner wall of the cylindrical structure, and the cross sections of the three projection spiral belts 1 are circular, square, and parallelogram respectively, and these have different belt widths, the ratios of their belt width to the inner circumferential length of the cylindrical structure are 1: 9.47, 1: 13.83, and 1: 15.88, respectively, and their thicknesses are the same, and the thickness and the inner diameter of the cylindrical structure are The ratio is 1:12, and the ratio of the distance between protruding spiral belts to the length of the cylindrical structure is 1:4.

The temperature of the mainstream smoke, the lip temperature, and the haze concentration index of the non-burning heated tobacco solids of the example were measured by the method described in the specification of the present invention, and the measurement results are listed in Tables 1, 2, and 3, respectively, The results of sensory intake evaluation are shown in Table 4.

Example 4: The present invention is a non-combustible heated product having an internal spiral structure.

The implementation plan of this embodiment is as follows.

The non-combustible heating type product with an internal spiral structure is a powdered coffee plant material, the fuming part (6), the polyurethane internal spiral structure member (4) obtained by the compression molding method, and the cellulose acetate filter part (3) are made of PE-coated molding paper. It is a non-combustible heating type product with a 3-member structure that is wrapped and connected diagonally, and this product is cylindrical with a length of 60mm and a diameter of 4.5mm. The inner spiral structure member 4 has a cylindrical structure, and four protruding spiral belts 1 are installed on the inner wall of the cylindrical structure, and their transverse cut surfaces are equally spaced in pairs, respectively trapezoidal and rectangular, and their belts The ratios of the width and the inner circumferential length of the cylindrical structure are respectively 1: 13.65, 1: 15.79, 1: 20.10, and 1: 23.34 in order, and the ratios of the thickness and the inner diameter of the cylindrical structure are respectively 1: 12, 1:13, 1:14, and 1:16, and the ratio of the distance between the protruding spiral belts to the length of the cylindrical structure is 1:6.

The temperature of the mainstream smoke, the lip temperature, and the haze concentration index of the non-burning heated tobacco solids of the example were measured by the method described in the specification of the present invention, and the measurement results are listed in Tables 1, 2, and 3, respectively, The results of sensory intake evaluation are shown in Table 4.

Table 1: Measurement results of the mainstream smoke temperature of the non-combustion heating product of the present invention, unit: ℃

Table 2: Measurement results of the lip temperature of the non-combustible heated product of the present invention, unit: ℃

Table 3: Measurement results of the haze concentration index of the non-combustion heated product of the present invention, unit: ℃

Table 4: sensory evaluation results of non-combustible heated products of the present invention

Through the results listed in Table 1, Table 2 and Table 3, the present invention showed that the mainstream smoke temperature and lip temperature of the non-combustible heated control sample HEETs having an internal spiral structure and the binary structure sample having a direct silicon pass through were about 5 to 10 ℃ lower, the highest smoke concentration difference is 20.4%. The samples prepared in Examples 1 to 4 are overall lower than when Control Samples 1 and 2 are at smoke temperature, lip temperature, the smoke concentration index is high, and in the internal spiral structure, condensate and dispersion of smoke parts can be seen. can't

1: turning spiral belt
2: smoke passage
3: filter part
4: internal spiral structure member
5: hollow tube support part
6: fuming part

Claims (18)

In the non-combustible heating type product having an internal spiral structure,
The non-combustible heating type product has a smoked portion 6 and an internal spiral structure member 4 wrapped with molding paper to form an oblique connection; The internal spiral structure member (4) has a cylindrical structure, and at least one protruding spiral belt (1) is installed on an inner wall of the cylindrical structure, and the protruding spiral belts are disposed symmetrically about the central axis of the cylindrical structure. A non-combustion heating type product having an internal spiral structure to be. According to claim 1,
The non-combustible heated product is made by filling a preformed tubular material with the fuming part (6), the internal spiral structure member (4), the filter part (3) and/or the hollow tube support part (5). A non-combustible heating type product, characterized in that it is wrapped with forming paper and made of a diagonal connection. According to claim 1,
A non-combustion heating type cigarette product, characterized in that the cross section of the protruding spiral belt is circular, square, rectangular, parallelogram or trapezoidal, and parallel to the belt surface of the central axis of the cylindrical structure in the direction of the side of the cylindrical structure. According to claim 1,
When there is one or more protruding spiral belts, the shape of the cross section of the protruding spiral belts is the same or different, and their width and thickness are the same or different. According to claim 1,
A non-combustion heated cigarette product, characterized in that the ratio of the distance between the protruding spiral belts and the length of the cylindrical structure is 1: 2 to 8. According to claim 1,
the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:3.14 to 25.12; A non-combustion heated cigarette product, characterized in that the ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1: 6 to 16. According to claim 1,
A non-combustion heated cigarette product, characterized in that the number of the protruding spiral belts of the internal spiral structure member (4) is 1 to 4. According to claim 7,
When the protruding spiral belt is one, the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1: 3.14 to 6.28; A non-combustion heated cigarette product, characterized in that the ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1: 6 to 10. According to claim 7,
When there are two protruding spiral belts, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:6.28 to 12.56; A non-combustion heated cigarette product, characterized in that the ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1: 8 to 12. According to claim 7,
When there are three protruding spiral belts, the ratio of the width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1: 9.42 to 18.84; A non-combustion heated cigarette product, characterized in that the ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1: 10 to 14. According to claim 7,
When there are four protruding spiral belts, the ratio of the belt width of the protruding spiral belt to the inner circumferential length of the cylindrical structure is 1:12.56 to 25.12; A non-combustion heated cigarette product, characterized in that the ratio of the thickness of the protruding spiral belt to the inner diameter of the cylindrical structure is 1: 12 to 16. According to claim 1,
The internal spiral structure member (4) is a non-combustion heated cigarette product, characterized in that a heat-resistant material such as silicone rubber, engineering plastics, polyurethane or polypropylene is produced by selecting a general compression molding or extrusion molding method. According to claim 1,
The molding paper is a non-combustion heated cigarette product, characterized in that aluminum foil molding paper, oil-proof molding paper or PE coated molding paper. According to claim 1,
The preformed tubular material is a non-combustion heated cigarette product, characterized in that the paper tube, silicone tube or nylon tube. According to claim 1,
A non-combustion heated cigarette product, characterized in that the smoking portion (6) is made of powdered, granular, paste or flake tobacco material. According to claim 2,
The non-combustion heated cigarette product, characterized in that the filter portion (3) is a structural member having a filter and adsorption function for smoke during inhalation. According to claim 2,
The non-combustion heating type cigarette product, characterized in that the empty tube support portion (5) is a structural member for providing smoke to flow by punching the middle of the wall having a certain thickness. According to claim 1,
The non-combustible heated cigarette product is a non-combusted heated cigarette product, characterized in that the cylindrical non-combusted heated cigarette product having a length of 20 to 100mm and a diameter of 3 to 12mm.

Images