JP2020065534A - Heated aroma generator composition for heating type volatile matter suction cartridge, heated aroma generator for heating type volatile matter suction cartridge using the composition, heating type volatile matter suction cartridge using the heated aroma generator, and production method of heated aroma generator for heating type volatile matter suction cartridge - Google Patents

Abstract

To provide a composition forming an aerosol former including aerosol formation body for generating an aerosol by heat transmitted by a heat source, and a composition for forming a novel heated aroma generator, including no tobacco component and allowing not only a person who has experience of smoking with flame, but also a smoking beginner to enjoy an aroma and acquire a peace of a mind since the heated aroma generator has the aroma and generates the aroma by heating.SOLUTION: A heated aroma generator composition is formed of kinds of plants, portions of plants and processed plant which are suitable for three elements which are a scent (fragrance) which is afloat from the aerosol formation body itself and a scent (aroma) which is afloat in a space when the aerosol formation body is heated, and a scent (flavor) which is afloat on a mouth of a user when the aerosol formation body is heated and sucked with the aerosol, when the aerosol formation body is attached to a heating type smoking tool.SELECTED DRAWING: Figure 1A

Description

  The present invention relates to a composition that constitutes an aerosol former-containing aerosol forming body that generates an aerosol by heat transmitted by a heat source such as a heater, not by a flame, and in particular, a heated aroma that has an aroma and generates an aroma by heating. It relates to the composition constituting the generator. Further, the present invention relates to a method for producing the heated fragrance generator, and a cartridge having a function required for a heating type smoking device using the heated fragrance generator.

  And, the composition constituting the heated aroma generator of the present invention, tobacco and a plant of the same family belonging to the genus Tobacco, and does not include its components, due to the aroma and heat of the composition itself derived from plants and the like. The generated aroma can be provided, and there is an effect that the heating and smoking of the cartridge using the composition contributes to the relaxation of the mind and body, health and beauty.

  In recent years, smoking cessation has become widespread in workplaces, restaurants, and other places where people gather, and the number of people who smoke by burning a cigarette decreases, while the heat transmitted by a heat source such as a heater decreases. As a result, the number of people who smoke an electronic cigarette tartridge equipped with an aerosol former-containing aerosol forming body that generates an aerosol with a heating type smoking device is rapidly increasing. Along with that, various electronic cigarette products for enjoying heated smoking have come to be sold. The reason for this is rightly that the heated smoking reduces the inhalation of harmful components produced by the conventional thermal decomposition and combustion of tobacco. Therefore, technical developments regarding electronic cigarette products are being actively conducted (for example, Patent Documents 1 to 5).

  The mechanism of such heating type smoking differs depending on the form of the heating type smoking device, the electronic cigarette cartridge, etc., but a typical example is shown below. An electronic cigarette cartridge equipped with an aerosol forming body at one end and a mouthpiece at the other end is attached so that the aerosol forming body comes into contact with the heat source of the heating type smoking device, and when heated, the aerosol former is ejected from the aerosol forming body. At the same time that the volatile matter contained therein is released, the volatile matter is sucked into the mouthpiece side at the other end together with air by the smoker's suction. During this volatile transport process, the volatiles of the aerosol former cool and condense to form smoke-like aerosols, while other volatiles impart aroma to the smoker's mouth and nose, resulting in You can enjoy smoking. Therefore, in the case of heating-type smoking, smoking is performed at a temperature of about 200 to 300 ° C. at which an aerosol former such as glycerin or propylene glycol contained in the aerosol forming body can be volatilized, that is, a temperature at which the thermal decomposition of tobacco leaves starts. It shows that you can do it.

  On the other hand, in the case of flame-type smoking in which a cigarette is burned by a conventional flame, at least a temperature higher than 600 ° C. is required for burning, and a maximum of 900 ° C. may be reached during smoking. Generally, it is said that the amount of harmful substances generated increases as the temperature rises, so it can be seen that the amount of harmful substances generated by heating-type smoking is extremely small.

  In addition, the content of tobacco leaves in the aerosol-forming body is low, and the material design for that purpose is performed. Further, tobacco stems, leaf pieces, tobacco dust and the like produced in the conventional tobacco manufacturing process can be used, and effective use of materials and reduction of material costs are achieved.

  However, the material design of such an aerosol forming body includes factors that hinder the enjoyment of aroma and the comfort of mind and body required for smokers because tobacco is a favorite product. First, a smoker who uses an electronic cigarette product is a person who has experienced conventional flame-type smoking, and therefore seeks the fragrance of the tobacco component, so that the tobacco component of the aerosol forming body cannot be excluded. Secondly, in order to reduce the content of the tobacco component in the aerosol forming body, the non-tobacco fiber is blended in, and the aerosol former is contained in the aerosol forming body to uniformly integrate the tobacco component and the non-tobacco fiber. A binder for is mixed in. Non-tobacco fibers are cellulosic fibers that are mainly extracted from wood, and binders are rubber-based, cellulosic, and polysaccharide-based materials, so the aroma forming body is extremely poor in aroma when heated. . Therefore, the aerosol forming body also contains a flavoring agent. As flavors, a wide variety of substances such as menthol, spearmint, peppermint, eucalyptus, lavender, herbs, cinnamon, cardamom, celery, fenugreek, coriander, chamomile, ginger, tea, vanilla, cocoa, chocolate and coffee can be used. It is disclosed (Patent Documents 1 to 5). Furthermore, a technique of encapsulating a flavorant and blending it is also disclosed (Patent Documents 1 and 4). However, it does not contain tobacco components at all, and it is applied to heating type smoking equipment that can enhance the enjoyment of aroma and the comfort of mind and body, not only for those who have experienced flame-type smoking but also for first-time smokers. No electronic cigarette cartridge with a possible aerosol former has been found.

Japanese Patent Publication No. 2008-518614 Japanese Patent Publication No. 2010-520764 Special table 2013-513384 gazette Japanese Patent Publication No. 2016-538848 Patent No. 6280287

  The present invention is a composition that constitutes an aerosol former-containing aerosol forming body that generates an aerosol by heat transmitted by a heat source such as a heater, not a flame, does not contain any tobacco component, and is a flame-type smoker. Not only experienced people, but also smokers for the first time can enhance the enjoyment of fragrance and comfort of mind and body, and construct a new heated fragrance generator that has fragrance and generates fragrance by heating It is an object of the present invention to provide a composition and a heated aroma generator using the composition. Further, it is an object of the present invention to provide a cartridge having a function required for a heating type smoking device using the heated aroma generator and a method for producing the heated aroma generator.

  And, the composition constituting the heated aroma generator of the present invention, tobacco and a plant of the same family belonging to the genus Tobacco, and does not include its components, while having the aroma of the composition itself derived from plants and the like. Aroma can be generated by being heated, and there is an effect of promoting the comfort of mind and body, health and beauty by heating-type smoking of these cartridges.

  The present inventor has conducted various studies on a wide variety of plants and components contained in the plants as a composition constituting an aerosol former-containing aerosol former applied to a heating type smoking device, resulting in the aroma emitted by the aerosol former. Includes a scent floating from the aerosol forming body itself when the aerosol forming body is attached to the heating type smoking device, that is, a fragrance, and a scent floating in the space when the aerosol forming body is heated, that is, an aroma and the aerosol forming body is heated. When there is a scent that floats in the mouth when it is inhaled with an aerosol, that is, there are three elements of flavor, and when all of these are provided, it brings peace of mind and body, and the type of plant suitable for each of these three elements, the plant And a processed plant and the like, which constitutes the heated aroma generator of the present invention. , A heated aroma generator containing the composition, a cartridge having a function required for a heating type smoking device using the heated aroma generator, and a method for producing the heated aroma generator Came to.

  That is, the present invention is a composition that constitutes an aerosol former-containing aerosol former that generates an aerosol by the heat transmitted by a heat source, wherein "from the aerosol former itself when the aerosol former is attached to a heating type smoking device. As a material that emits a "fragrance" defined as "floating fragrance", flowers of angiosperms, teas, and at least one or more selected from fermented products of grains or beans, and "a space when the aerosol forming body is heated. "Aroma" is defined as "aroma", which is selected from roots of angiosperms, rhizomes, trunk branches, and parts other than acupuncture points of mushrooms, and parts of moss plants other than temporary roots. Emit at least one and a "flavor" that is defined as "the scent that drifts in the mouth when the aerosol-forming body is heated and inhaled together with the aerosol". As material, at least one selected from seeds and / or fruits of angiosperms, above-ground stems and leaves, and germinated vegetables, and parts other than pseudo-roots of seaweed, and leaves of ferns. And a heated aroma generator composition for a heating type volatile matter suction cartridge.

  These fragrance-releasing materials, aroma-releasing materials, and flavor-releasing materials are the fragrance-releasing materials, the aroma-releasing materials, and the flavor-releasing materials, respectively, with respect to their total mass. 9-97.0% by mass, 0.4-1.6% by mass, and 3.2-15.6% by mass have a good balance of fragrances, and smokers have 3 times. It is preferable because it can be enjoyed over a long period of time, and the mind and body of a smoker can be comforted.

  Furthermore, the present invention provides a material for releasing a fragrance, a material for releasing an aroma, and a material for an aerosol former for releasing a flavor, including propylene glycol, 1,3-butanediol, sorbitol, ethylene glycol, diethylene glycol, triethylene glycol, Tetraethylene glycol, glycerin, lactic acid, monoacetin (glycerin monoacetate), diacetin (glycerin diacetate), triacetin (glycerin triacetate), triethylene glycol diacetate, triethyl citrate, isopropyl myristate, methyl stearate And at least one selected from dimethyl dodecanedidioate and dimethyl tetradecanesandioate.

  Further, since the smoke creates an adult atmosphere, the aerosol that looks like smoke formed by the aerosol former is an important element, but considering the environment around smoking, it is preferable that it is too much or too little. I can't say. In particular, smokers are essential elements for smokers who have enjoyed conventional flame smoking. Therefore, from the viewpoint of the balance between aroma and aerosol generation, 35.0 to 65.0 parts by mass of the material of the aerosol former is used for 100 parts by mass of the material that emits the fragrance, the material that emits the aroma, and the material that emits the flavor. It is preferable that the content is 4 to 60.0 parts by mass.

  As materials for releasing fragrances, teas and fermented products of cereals or beans have been mentioned, but the following are particularly preferable.

  Regarding the flowers of angiosperms, among the myriad flowers of angiosperms, Enju, Myoga, Chamomile, Coltsfoot, Asteraceae chrysanthemum genus (Yeegiku / Kikutanigiku / Nojigiku / Anochaete / Temperate, etc.), Udo, Honeysuckle, Dianthus genus Plants (Kawaranadeshiko, Ezokawaranadeshiko, Karanadeshiko, Sekichiku, etc.), plants of the Lamiaceae genus Yamahaka (Hiko-koshi, Kurobana Hiki-Okoshi, Kameba Hiki-Okoshi, etc.), various peppermint plants of the Lamiaceae genus Apple (Peppermint, Minato Minato, Nihonhakka Minato) , Corsica mint, Pennyroyal mint, etc.), various spearmint plants of the mint family Mint genus (spearmint, horse mint, green mint, chili mint, ginger mint, etc.), dog mint, mint minnow (lemon) ), Yellow mint (Savory), Willow mint (Hysop), Hypericum, Nepenthes, patchouli, mugwort, udo, legumes, oysters, perilla, oysters, sekichiku, oysters, safflowers, scorpionaceae, scorpionidae, scorpionaceae Psyllium, Musina, Psyllium psyllium, Plants of the genus Kawaraketsumei genus (Kawaraketsumei Ryukyu Kawaraketsumei, etc.), Daidai, roses, lotus, magnoliaceae magnolia genus (Tamshiba, Kobushi, magnolia, magnolia, sala magnolia, etc.) Asteraceae plants of the genus Oguruma (Oguruma, Hosoba Oguruma, etc.), Iridaceae plants of the iris genus (Ayame, Ehime, Iris, Hiyugiyayamae, Nohanashobu, Hanashobu, Kakitsubata, Kishobu, etc.) Na firefly, Butterflies, Oregano, Clove, Lentilaceae genus Elderberry (Ezo elderberry, Elderflower elderberry, Elderflower elderberry, American elderberry, etc.), Ginkgo biloba, Tousimimi, Scots vulgaris, Prunus vulgaris, Pleurotus vulgaris, Pleurotus vulgaris, Streptomyris vulgaris, Streptomyris vulgaris, Streptomyris vulgaris, P. persica Common time, citrus time, wild time, etc.), Thistle, Asteraceae genus Cercis (Marigold, African Marigold, French Marigold, Mexican Marigold, Lemon Marigold, etc.), Lavender, Purple Valencia, Saffron, and Cattail Family Flowers of plants of the genus Cattail (Himagama, Gama, Kogama, etc.) are preferred. However, in some cases, not only flowers at the time of flowering but also flower buds are preferable. Further, it is not necessary to use all the parts constituting the flower, and it is also possible to use only parts having a particularly strong scent, such as petals, pistils, and stamens.

  There are innumerable teas as well, but Japanese tea, black tea, Chinese tea, tomorrow leaf tea, sweet tea, armchair tea, ginkgo leaf tea, turmeric tea, vladimir tea, eleuthero tea, plantain tea, oyster tea, persimmon leaf tea, Kawahara Kyomei Tea, Mame Tea, Gymnema Tea, Guava Tea, Kuco Tea, Mulberry Leaf Tea, Black Bean Tea, Burdock Tea, Sakura Tea, Perilla Tea, Ginger Tea, Horsetail Tea, Buckwheat Tea, Taranoki Tea, Dandelion Tea, Horse Tea , Dokudami tea, Tochu tea, Natame bean tea, Elderflower tea, Hatomogi tea, Hub tea, Loquat leaf tea, Matsuba tea, Roast mate tea, Barley tea, Megsurinoki tea, Yomogi tea, Rooibos tea, and Goya tea are preferable.

  However, the fermented product of cereals or beans is quite limited, and incense drum (koushi), natto, and Shinkokuku are preferable.

  Examples of the material that gives off an aroma include roots of angiosperms, rhizomes, trunk branches, and parts other than acupoints of mushrooms, and parts other than temporary roots of moss plants, but the following are particularly preferable.

  The roots of angiosperms are innumerable, but the roots of tuberous roots such as dahlia, sweet potato, cassava, Jerusalem artichoke, Yacon, Tsurudokudami, crow cucumber, and plants of the genus Astragalus vulgaris (Higegeno-tsurujinjin, ginseng, baasob etc.) are preferred. The roots of yams and yams, which are root-bearing bodies, are preferred. Usual roots include eleuthero, burdock, plants of thistle genus (Asteraceae, thistle, thistle, Fuji thistle, Nohara thistle, thistle, etc.), carrot, Japanese radish, turnip, ginseng, red rape, tessa, ginseng, saxima buttonweed, ginseng. , Tendaiyaku, Astragalus membranaceus, Astragalus membranaceus, Scutellaria baicalensis, Itohimehagi, Leguminosae plants (Kudzu, Chinak, Taiwankuz, Fusigekuz, Tokiirokuzu, Shirobanakuzoku, etc.) Woods, Clara, Chromophora, wolfberry, plants of the genus Nikkei of the Lauraceae family (Nikkei, Ceylon Nikkei, Java Nikkei, Cinna Nikkei, Marvanikkei, etc.), Sesamenohagusa, Dalbergia, Obage Kitts, Kouhon, Yabu carrots, Kamochi, Murraysenkyu, Ukogi, Hinako no Kochi, Knotweed, Mishima Psycho, Plants of the genus Scutellaria genus (Usubasaishin, Okuzosaishin, Toagokusaishin, Mycunisaicin, etc.) Plants (Usugesaishin, Keirinsaishin, etc.), bats, plants of the dandelion genus (Moukodanpopo, Sinatanpopo, Odasamdanpopo, Keirindanpopo, Kansaidanpopo, dandelion, etc.), Kaikeijiou, Akayajio, Shion, Purple peony, Siberian peonies, pearl oysters, pearl oysters, scutellaria, carrots, plants of Gentian genus of the Gentianaceae (Hosobarindo, Shirobana gentian, Kirishimarindo, Kumagawa gentian, Kebonorindou, Obarindou, Sokei gentian, Tibetan gentian, Ezorindo, etc.), Nodoke, saku, water lily plant (Pseudonium nemurokouhone, euphorbia, etc.), navena, dragonfly, moss, genus Plants (Touki, Hokkaitouki, Karatouki, Oninodake, etc.), Janohige, plants of the genus Yabran genus Yabran (Coyabran, Yabran, Himeyabran, Hosobayabran, etc.), Dutch jellies (parsley), Cascus gaya, Polygonaceae plants Yakuyou rhododendron, pearl millet, etc.), Ryukyuuai, Yogurtaku, Calabash, plants of the genus Byakubu genus (Juniperaceae, Tamabyakubu, Tachibiyakubu, etc.), plants of the genus Asteraceae (Hosobaokera Sina) (Okera / Obana okera / Okera etc.), Chigaya, Boufu, button, akebi, honeywort, plants of the genus Uranosaceae (Euphorbiaceae, Marbaumanocanthaceae, etc.), euglema, spurge, and purple roots are preferred. As for the roots, the whole roots may be used, but for some plants, it is better to use only the root bark or the part where the root bark is removed.

  There are innumerable rhizomes of angiosperms, but they are bulbs such as tulips, hyacinths, garlic, lacquer, plants of the lily genus Liliaceae (Itohayuri / Hakatayuri / Onyuri / Konoyuri / Himeyuri / Kanokoyuri) etc., Aygastha lily, shallot, garlic, onion. , Rhizomes of hemlock, narcissus, and daffodils are preferable, and corms are crocuses, gladiolus, freesia, and plants of the genus Iridaceae (Iris, Ehime, Ieame, Hiougiayame, Nohanashobu, Hanashobu, Kakitsubata, Kishobu, etc.), Konjac. Is more preferred. In addition, there are tubers such as cyclamen, anemone, begonia, chologi, potato, American phoenix, Engosaku, Sartolibara, plants of the genus Michli of the Myricaceae (Mikuli, Ezomicli, Himemiculi, etc.), plants of the genus Tendio of the Araceae family (Mymai). Zulu tennansho, Korai tennansho, ginseng, etc.), Onyonagara, Kusanagizura, and the rhizome of rhododendron are also preferable, and the rhizomes of canna, lotus, ginger, wasabi, horseradish, turmeric, Amadochoridae. Plants (Amadokoro, Narukoyuri, Kurumabanarukoyuri, Kagui Kurumabanarukoyuri, etc.), Coptis, Gautu, Kudzu, Chamomile, Koukoun, Yabuningin, Kasamochi, Muraisenkyu, Knotweed, Zion, Hamabofu, Rashinasho, shobu, sesame, senkyu, asteraceae plants of the genus Okera (Hosobaokera, Shinaokera, Obananaokera, okera, etc.), Polygonaceae plants (Rhododendron, Gypsophila, Gypsophila lanceolata, etc.), Panax notoginseng, Prunus vulgaris, Pleurotus cordata Plants of the genus Taisei (Brassica oleracea), Ryukyuai, plants of the genus Tsudurafuji (Pleurotus vulgaris, Scutellaria serrata, etc.), plants of the genus Rhododendron japonicus, Chigaya, Boufu, Ephedra genus (Futamatamaou) -Euphoria japonicus, Pleurotus cornucopiae, etc.), Hyogi, gentian, Rhizophora japonica, and rhizome of Reed are also preferably used.

  Regarding the stem branches of angiosperms, many are preferable for coniferous plants, but in particular, cypress, pine, cedar, asunaro, camellia, aralia, megusurinoki, hagoki, akamegashiwa, ansoukukoju, vajirogashi, kihada, sakura, sendan, Chromophyceae, plants of the genus Nikkei of the camphoraceae family (Nikkei, Ceylon nikkei, Javan kei, cinna nikkei, malvanickey, etc.), psyllium, honoki, calla phoenix, taboki, ashberry, kotonegashiwa, shou, eucommia, and euphorbiaceae, and trunks of euphorbiaceae.

  Mushrooms are spore plants, and in particular, there are many types, but edible mushrooms, and parts other than the acupuncture points of mushrooms are preferable, and matsutake mushrooms, shiitake mushrooms, matsutake mushrooms, ginger, haratake mushrooms, tsukuritake mushrooms, shimeji mushrooms, porcini, red algae mushrooms, and litchi mushrooms. Parts other than acupoints can be used.

  Similarly, there are many types of moss plants, such as moss plants, but also moss, moss, moss, moss, hikarigoke, sphagnum, ginkgo, moss, moss moss, moss moss, moss moss, moss moss, moss moss, moss, moss, moss, moss Sites other than the false roots of Pleurotus cornucopiae, Pleurotus cornucopiae, Pleurotus cornucopiae, Pleurotus cornucopiae, and Pokeweed are preferred.

  Examples of the flavor-releasing material include seeds and / or fruits of angiosperms, ground shoots and leaves, germinated vegetables, and parts of seaweed other than pseudo-roots, and leaves of fern plants. Is preferred.

  The seeds and / or fruits of angiosperms are innumerable, but in particular, American goby, fennel, Neubara, Myrobalan, Goshuyu, Honggoshuyu, Ginseng, Hawthorn, Rubiaceae gardenia genus (Gardenia corinchia var. Etc.), Sansyu, plants of the genus Ibotanoki (Sciurus vulgaris, squirrels, etc.), roses, plants of the Lamiaceae genus (Perilla, Chilimendisso, Madaradiso, Akadiso, Aojizo, etc.), Hamabishi, Hokoki, Yabujimi (fruit) , Palmaceous plants of the genus Palm (Washuro, Tojuro, Aijuro, etc.), Amommu Tsusaoko, Gleditsia sinensis, Onamomi, mulberry, psychedelic, betel nut, Nenoptera philippinaceae plants Candidae, Prunus chinensis, etc.), Konotegashiwa, Plants of the genus Cattail (Himagama, Gama, Kogama, etc.), Asa, Plants of the family Lamiaceae (Hamagou, Mitubahagomyo, etc.), Akeboshi, Apis mellifera, Karin, Anemoneaceae Plants (Rhododendron or Marbaumanocanthus, etc.), longan, plants of the Forsythia genus (Forsythia, Cynaraensis, Gypsophila forsythia, Forsythia biloba, Yamatorenkyo, etc.), Kenponashi, Citrus citrus plants・ Ponkan ・ Hassaku ・ Iyokan ・ Echan Lemon ・ Karachi ・ Orange ・ Mandarin Orange ・ Cabos ・ Kishikankan ・ Kinot ・ Grapefruit ・ Koji ・ Sanboukan ・ Citron ・ Jabala ・ Su Chi-Tachibana-Tangor-Natsumikan-Hanayuzu-Hyuganatsu-Hirami-lemon (Sequencer) -Buntan (Zabong) -Yuzu-Lime-Lemon-Kobumikan etc.), Apricot, Plants of the genus Rosaceae (peach, peach, etc.), Blueberry, Netherlands Strawberries, raspberries, apples, bananas, pineapples, mangoes, grapes, kumquats, melons, oysters, oysters, apricots, olives, pomegranates, socotras, pomegranates, bunsiro, betel nuts, crows, ume, tomatoes, capsicum genus. Various non-spicy capsicums (paprika, peppers, chili peppers, etc.), lakanka, lotus, corn, ginger, burdock, leguminous senna plants (Ebisugusa, Coebisugusa), psyllium psyllium psyllium plant Seiyo Plantain, etc.), Youxhunsha, Shuksha, Anokumatakeran), Bailfish, almonds, walnuts, hazel, hazel, hazelnut, cashew nutberry, macadamia, chestnut, oak, oak, kashiwa, shii, beech, kuko nagakubunako, nabekosuna, nabekona , Horse chestnuts, nutmeg, plants of the family Convolvulaceae sweet potato (such as morning glory, malva morning glory, no morning glory, etc.), sunflower, rice plants (indica rice, japonica rice, jabanica rice, gravelima rice, nerica rice, etc.), Gramineae plants (Oats, oats, etc.), barley, Gramineae plants (wheat, bread wheat, club wheat, durum wheat, etc.), rye, pearl barley, sorghum, corn, millet, millet, finger millet. Kodora, pearl millet, fonio, macaw, teff, buckwheat, tartary buckwheat, quinoa, amaranth, azuki bean, carob, beans of the bean family (green soybeans, safflower, beans, tepalibean, etc.), grasspie, plants of the cowpea family・ Bambara groundnut, Yaenari, etc.), Lentil bean, Zeocalpa bean, Broad bean, Soybean, Takizuki, Legumes Beans genus plants (eg, bean, jack bean, legume, bean, white bean, soybean, bean sprout, soybean, soybean, soybean, soybean, soybean, soybean, soybean , Lima beans, peanuts, peanuts, peas, kumar, Dutch biu, Rutaceae plants of the genus Prunus (Sansho, Asakurasansho, Grape Sansho, Yamaa (Kurazansho, Ryujinzansho, Takaharasansho, etc.), Allspice, Ajowan, Pepper plant of the genus Pepper (Pepper, Hihatu, Hitomodoki, Futochuzura, etc.), Fenugreek, Sesame, Castor, Plant of the Capsicum family Pepper with a certain spiciness (capsicum, habanero, jalapeno, kidachi pepper, trinidad scorpion, trinidad scorpion butch, tailor boot, etc.), cumin, anise, cardamom, spruce syrup, sardine, sardine ), Cilantro (Coriander), plants of the genus Scutellaria of the family Ranunculaceae (Scutellaria japonica, Scutellaria japonica, etc.), poppies, Aframomum melegueta, and ya Cuticle seeds and / or fruits are preferred. Again, it is possible to use both seeds and fruits, seeds alone, and fruits only.

  Above-ground stems and leaves of angiosperms, in particular, are generally called herbs, tarragon, allspice, kobumikan, red sea bream, fenugreek, mint (various peppermint plants of the genus Mintaceae and spearmint plants (peppermint: peppermint). , Nihon mint, apple mint, water mint, corsica mint, penny royal mint, etc .; Spearmint: spearmint, horsemint, green mint, chili mint, ginger mint, etc. (Hissop), curry plant, oregano, psyllium (curry leaf), plant of the citrus family salamander (sansho, asakuranzansho, grapes salmon, yamaasakurazansho)・ Ryujinzansho ・ Takaharasansho, etc.), Toukimi, Sesame, Pear tree, Lemongrass, Cactus japonicus, Bay, Rosemary, Purple clover, Achillea millefolium, Celery, Perennial citrus genus plant (common time citrus time) Wild thyme etc.), Cherville, Asatsuki, Inondo (Dill), Cilantro (Coriander), Meboki (Basil), Dutch jellies (parsley), Marjoram, Asteraceae plants of the genus Gypsophila (Marigold, African marigold, French marigold) -Mexican marigold, lemon marigold, etc.) and lavender ground foliage can be used particularly preferably, but is not limited to this, and the ground foliage of various plants as described below is used. Among them, loquat, oyster mushroom, red pine, palm (Pamelidae) plants (Washuro, Tojuro, Aijuro, etc.), Konotegashiwa, legumes (Kawara-ketsumei, Ryukyu-kawaraketsumei, etc.), Megusurinoki, plantain Plants of the genus (Plantains, Musina, Plantains, Plantains, etc.), Akane, Akamegashiwa, Gambiroki, Kawamoyogi, Wagara, Rhododendronaceae, plants of the genus Yamabaka (Henokoshi, Kurobanahikio-shikoshi, Himekoshi-boshi, Otogiko-sugi, Otogi-goshi, Otogi-gori, Otogi-goshi, Otogi-gori, Otogi-goshi, Otogi-gori, Otogi-goshi Family oysterfish, perilla family oysterfish, kuromoji, dianthus family dianthus genus plants (kawaranadeshiko, ezokawaranadeshiko, karanadeshiko, sekichiku, etc.), kayiga, phosphagia japonicus, naginatako Uju, honoki, okogi, plants of the genus Kanaooi (Usubasaishin, Oquezosaicin, Toukokusaishin, Mikunisaicin, etc.), plants of the genus Usubasaicin (Umesousaishin, Keirinsaishin, etc.), Lamiaceae plants (Perilla, Chili Menjiso, Madarajiso, Akajiso, Aojizo, etc.), Swordfish, Ginkgo, Plants of the elderberry genus Ellenaceae (Ezo-iwatoko, Seiko elderberry, Elderflower elderberry, American elderberry, etc.), Mistletoe, Prickly-peckered squirrel, Tokagika, Tokagika, Tokagika, Tokagi. Eucommia ulmoides, honeysuckle, honeysuckle, skullcap, firefly, staghorn mud, plants of the genus Tsuduraji (Pleurotus vulgaris, Shimahasouhazura, etc.), Atsutsuruji, Akkebi, honeysuckle, Kami Starfish, Yellow-tailed Gourd, Periwinkle, Burdock, Purple Valencia, Carrot, White-breasted Gourd (Gymnema sylvesta), Army Cucumber, Wolfberry, Ginkgo, Wolverine, Starfish, Watermelon, Watermelon, Watermelon, Watermelon, Watermelon. Above ground foliage is preferred. As for the above-ground stems and leaves, only the stems or only the leaves may be used.

  The germinated vegetables are legume type bean sprouts, soybeans, mung beans, and germinated vegetables of fenugreek fenugreek, and crucifer type kaiware, radish, broccoli, cabbage, mustard, white mustard, watercress, and buckwheat. Germinated vegetables are preferred.

  For plants that release flavor, seaweeds of spore plants are preferable, and Aonori, Aedes aegypti, Susabinori, Asakusanori, Bouaonori, Iwanori, Chishimakuronori, Habanori, Egonori, Ogonori, Akamoku, Konbu, Konabaku, Konbubu, Rhikonburi, Rhiboma scutellariae, Rhizobium scutellariae, Rhizoma scutellariae, Rhizoma sp. Pellets other than sea roots of seaweeds of Pleurotus cornucopiae, Pleurotus chinensis), sea bream, vine sprouts, Kajime, Kurome, wakame, Hirome, Kubirezta, dulce, hijiki, funori, kakusa, and mozuku are preferred.

  Similarly, as leaves of fern plants of spore plants, horsetail, horsetail, pine balun, horse mackerel, horsetail, mainspring, vase, bracken, horasinob, tatishinobu, inomotosu, tranooshida, shishigashira, yabusotetsu, benshida, ryomenashida, hidashi, hodashi, hodashi, hodashi, hodashi, hodashi, hodashi. It is preferably used.

  Further, the material that gives off a fragrance, the material that gives off an aroma, and the material that gives off a flavor are more preferably the following processed plants and various parts of plants.

  The fragrance-releasing material is preferably teas obtained by subjecting the foliage of a plant to heat-drying and then subjecting it to processes such as kneading, roasting, steaming, and fermentation, and particularly Japanese tea, Chinese tea, and black tea. Japanese tea includes sencha, deep-steamed sencha, gyokuro, kabusecha, matcha tea, tencha, tamagreen tea, green tea, pot roasted tamacha tea, stem tea, bud tea, powdered tea, brown rice tea, hojicha, and bancha (one Bancha, autumn and winter bancha, and head willow).

  Among teas, fermented teas such as Chinese tea and black tea (black tea) are more preferable than non-fermented teas such as Japanese teas. Examples of Chinese tea include Oolong tea (Iron Kannon, Golden Katsura, Narcissus, color variety), Pu'er tea, and Jasmine tea. Black tea is most preferable, and Darjeeling, Assam, Uva, Nuwara area and Keamon are preferably used.

  Also as a material that gives off aroma, tulips, hyacinths, garlic, lacquer, plants of the lily genus Lily (Itohayuri, Hakatayuri, Oniyuri, Kouniyuri, Himeyuri, Kanokoyuri, etc.), Migasayuri, shallot, garlic, onion, hemlock, narcissus, konjac. Rhizome is even more preferred. Among them, konjac is most preferable. It is considered that this is due to trimethylamine generated when konjak is heated.

  In addition, as a material that gives off flavor, it contains a large amount of menthol and xylitol that are used as a mouthwash such as food additives and toothpaste such as gum and caramel, apricot, blueberry, strawberry, raspberry, banana, And grape fruits and / or seeds, and mint (various peppermint plants and spearmint plants of the Mint genus Lamiaceae (peppermint: peppermint, two-mint, applemint, watermint, corsicamint, pennyroyalmint, etc .; Spearmint series: Spearmint, horsemint, green mint, chili mint, ginger mint, etc.), ground mint, mint minnow, koi mint (lemon balm), yellow mint (savory), and willow mint (hyssop) are particularly preferred. It is needed.

  As described above, it is preferable to use various parts of various plants as materials for releasing fragrance, aroma and flavor, and to dry and use the components because the plant-derived component can be smoked. However, it is particularly preferable to use commercially available menthol and xylitol as the flavor-releasing material from the viewpoint of productivity. Since those derived from plants are sold as health foods and herbal medicines, smokers can be given a sense of security in the same way as when plants are used as flavor-releasing materials.

  In addition, materials that release fragrances, aromas, and flavors are commercially available as crude drugs, teas, spices, powders, and the like that have been previously subjected to processing such as drying, and thus they can be used as they are.

  In such a material that emits a fragrance, a material that emits an aroma, and a material that also emits a flavor, as a material of an aerosol former that forms an aerosol, propylene glycol, ethylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, glycerin is used. , Monoacetin (glycerin monoacetate), and diacetin (glycerin diacetate) are preferably used from the viewpoint of aerosol forming ability and boiling point.

  And, even when a material that emits a fragrance, a material that emits an aroma, or a material that emits a flavor is used, even if a particularly limited material is used, there is no change in the mixing ratio of these materials. 83.9-97.0 mass of fragrance-releasing material, aroma-releasing material, and flavor-releasing material relative to the total mass of the fragrance-releasing material, aroma-releasing material, and flavor-releasing material, respectively. %, 0.4 to 1.6% by mass, and 3.2 to 15.6% by mass are preferable. 35.0 to 65.0 parts by mass of the material of the aerosol former may be included with respect to 100 parts by mass in total of the material emitting fragrance, the material emitting aroma, and the material emitting flavor. More preferably, 40.0 to 60.0 parts by mass may be included.

  Although the essential materials constituting the heated aroma generation object for the heating type volatile suction cartridge of the present invention have been described above, the heating aroma generation object for the heating type volatile suction cartridge is a constituent material thereof as described later. By molding and processing, the aerosol former is uniformly dispersed and held stably, and in order to quickly generate volatile substances in contact with the heat source, the packing is chopped into prismatic or cylindrical shapes. It is often wrapped as a packaging material. Then, a cigarette-like thing wrapped with the packaging member is cut into a desired length. Therefore, even in these shredding and cutting, the lump state must be firmly maintained so that the shape is not destroyed. Therefore, in the conventional aerosol forming body, hydrophilic polysaccharide polymers and cellulosic polymers have been used as binders together with tobacco components, non-tobacco fibers, aerosol formers and the like. However, with such a binder alone, in the case of using the fragrance-releasing material, the aroma-releasing material, and the flavor-releasing material of the present invention, the uniform dispersion stability and shape-maintaining ability of the aerosol former are insufficient. In other words, it was not possible to sufficiently retain each material and the fragrant components of each material.

  Therefore, in the present invention, as a result of examining various hydrophilic cross-linking polymers, the hydrophilic cross-linking polymer is added to 100 parts by mass of the total amount of the fragrance-releasing material, the aroma-releasing material, and the flavor-releasing material. It was found that the above problem can be solved by including 0.0 to 25.0 parts by mass. The blending amount of this hydrophilic cross-linked polymer is 35.0 to 65.0 parts by mass based on 100 parts by mass of the material emitting a fragrance, the material emitting an aroma, and the material releasing a flavor. It is also applicable when it is included.

  The cause of the effect of this hydrophilic cross-linked polymer is not clear, but the hydrophilic cross-linked polymer has a strong interaction with the hydrophilic aerosol former and the aromatic component, and can strongly adsorb the aerosol former and the aromatic component. Regardless, it is considered that this is because the hydrophilic polymer is crosslinked, so that the lump state can be sufficiently maintained.

  The hydrophilic cross-linking polymer that can be used is not particularly limited, and an epoxy cross-linking type, an ester cross-linking type, an ether cross-linking type, a radical cross-linking type or the like obtained by cross-linking a water-soluble polysaccharide polymer by various methods is used. However, crosslinked polyvinylpyrrolidone having a chemical structure different from that of such a polysaccharide polymer is most preferable. This is considered to be due to the special chemical property that 2-pyrrolidone, which is the side chain of the crosslinked polyvinylpyrrolidone, has excellent compatibility with any solvent as an aprotic solvent.

  In particular, as described above, preferable as the flavor-releasing material of the present invention, apricot, blueberry, Dutch strawberry, raspberry, banana, and grape fruits and / or seeds, and mint (various peppermint family of Lamiaceae genus) Plants and spearmint plants (peppermint: peppermint, nihon mint, apple mint, water mint, corsica mint, penny royal mint, etc .; spearmint series: spearmint, horse mint, green mint, chili mint, ginger mint, etc. (Lemon balm), yellow mint (savory), and willow mint (hyssop) above ground leaves contain a large amount of menthol and xylitol, including β-cyclodextrin that strongly interacts with them. And β are preferable from the viewpoint of retaining an aromatic component.In particular, β-cyclodextrin, which is a cyclic compound of dextrin, has a menthol as a guest molecule and β-cyclodextrin not only due to the hydrogen bond due to the hydroxyl group but also due to the peculiarity of the cyclic structure. It is known that dextrin is used as a host molecule to form an inclusion compound with menthol.

  Such β-cyclodextrin does not need to be used in a large amount, and has a fragrance emitting material, an aroma emitting material, and a flavor emitting material with respect to a total mass of 100 parts by mass of 0.2 to 1.0 mass. It is preferable to include a part. If it is less than this, the ability to retain the fragrance component is not expressed, and if it is more than this, it becomes difficult to maintain the lump state as the fragrance generator to be heated. The blending amount of this β-cyclodextrin is 35.0 to 65.0 parts by mass of the material of the aerosol former with respect to 100 parts by mass of the material emitting a fragrance, the material emitting an aroma, and the material emitting a flavor. It can also be applied to the case where the hydrophilic crosslinked polymer is contained in an amount of 7.0 to 25.0 parts by mass.

  In order to produce a heated aroma generator, the composition is required to have more conflicting properties. As described above, the aroma-generating substance to be heated is wrapped with a packaging member as a filling material that is shredded into a prismatic shape, a cylindrical shape, or a granular shape, as described above. The heated aroma generator does not necessarily have to be molded, but in order that aroma and aerosol are preferably sucked, a prismatic shape, a cylindrical shape, or the like is suitable, and normally, a molded sheet is used. Shred. As the forming method, a method such as roll forming or press forming is used, but in any case, a large compressive force is applied to the composition from a metal such as stainless steel. At this time, the compressive force causes cohesive failure of the composition, adhesion to a metal, and the like, which causes a situation where molding is difficult.

  Therefore, in the present invention, as a method for solving such a problem, as a result of various studies, microcrystalline cellulose was adopted. Microcrystalline cellulose is a high-purity microcrystalline cellulose obtained by hydrolyzing and purifying pulp with acid.It is a free-flowing powder that does not dissolve in organic solvents such as water and ethanol, and is used as a tableting agent for pharmaceuticals. Used as a shaping agent. This is because the flowability of the microcrystalline cellulose and the high compressibility with which the volume change is large are effective in preventing cohesive failure and tablet adhesion in the tablet molding by the direct compression method. Also in the present invention, by adding the microcrystalline cellulose, for example, in sheet production by roll forming of three rolls, cohesive failure of the sheet and adhesion to the metal roll could be effectively prevented.

  In the case of the composition constituting the heated aroma generator of the present invention, microcrystalline cellulose is added in an amount of 7.0 to 25 with respect to 100 parts by mass of the fragrance emitting material, the aroma emitting material, and the flavor emitting material. It is preferable to contain 0.0 part by mass. If it is less than this, cohesive failure of the sheet and adhesion with the metal roll cannot be effectively prevented, and if it is more than this, the strength of the sheet rapidly decreases and becomes brittle, and chips and dust due to shredding and cutting are generated. It tends to occur. The compounding amount of this microcrystalline cellulose is 35.0 to 65.0 parts by weight of the material of the aerosol former, and 100% by weight of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor. It can also be applied to the case where 7.0 to 25.0 parts by mass of the crosslinkable polymer and 0.2 to 1.0 parts by mass of β-cyclodextrin are contained.

  The above-mentioned effects of such microcrystalline cellulose mainly depend on the particle size and are different depending on the use, the material, etc. used, but in the present invention, as a result of various studies, the average particle size of the microcrystalline cellulose. Is preferably 30 μm or more and 200 μm or less, more preferably 50 μm or more and 150 μm or less, and even more preferably 70 μm or more and 120 μm or less. It is speculated that the narrower the particle size distribution is, the more evenly dispersed the particles are in the composition, and the cohesive failure of the sheet and the adhesion to the metal roll can be effectively prevented without lowering the toughness of the sheet.

  As described above, in order to produce the heated aroma generator, by blending various additives, the problem of the conventional aerosol former forming body has been solved, but also in the present invention, the conventional binder uncrosslinked It has been found that a polysaccharide polymer and a cellulosic polymer are necessary for binding each material. The amount of the binder is less than that of the conventional one, and 2.0 to 5.0 parts by mass of the above binder is used with respect to 100 parts by mass of the total amount of the material emitting a fragrance, the material emitting an aroma, and the material emitting a flavor. 35.0 to 65.0 parts by mass of the material of the aerosol former, hydrophilic cross-linked polymer per 100 parts by mass of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor. It is also applicable to the case of including 7.0 to 25.0 parts by mass, β-cyclodextrin of 0.2 to 1.0 parts by mass, and microcrystalline cellulose of 7.0 to 25.0 parts by mass.

  Uncrosslinked polysaccharide-based polymers and cellulose-based polymers are indispensable as binders, but it is preferable that the blending amount can be reduced in the following points. Since these polymers have water absorption properties, they are used for the purpose of improving water retention, but since they are uncrosslinked, they tend to develop tackiness and reduce storage stability. Therefore, in particular, like the heating type non-heating aroma generator of the present invention, since the aroma is released by heating to form an aerosol, it is required that the composition is the minimum necessary amount that is not easily affected by humidity.

  And, as the polysaccharide-based polymer, konjac mannan (glucomannan), guar gum, pectin, carrageenan, tamarin seed gum, gum arabic, soybean polysaccharide, locust bean gum, karaya gum, xanthan gum, and agar are preferable, and cellulose-based. The polymer is preferably methyl cellulose, ethyl cellulose, carboxymethyl cellulose, carboxyethyl cellulose, hydroxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, and sodium salts, potassium salts and calcium salts of carboxymethyl cellulose and carboxyethyl cellulose.

  Furthermore, the heated aroma generator composition for a heating type volatile matter suction cartridge of the present invention uses a processed plant or a plant as a material that emits a fragrance, a material that emits an aroma, and a material that emits a flavor. It is preferable to include a preservative. The compounding amount may be 0.005 to 0.04 parts by mass of the antibacterial preservative based on 100 parts by mass of the total amount of the fragrance emitting material, the aroma emitting material, and the flavor emitting material. This blending amount is 35.0 to 65.0 parts by mass of the material of the aerosol former, based on 100 parts by mass of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor, and the hydrophilic cross-linked polymer. Of 7.0 to 25.0 parts by mass, and β-cyclodextrin of 0.2 to 1.0 parts by mass, microcrystalline cellulose of 7.0 to 25.0 parts by mass, and a binder of 2.0 to 5 parts by mass. It is also applicable to the case where it contains 0.0 part by mass.

  The antibacterial preservative is not particularly limited, but is preferably potassium sorbate and / or sodium benzoate.

  Finally, an unexpected effect was observed by adding inorganic particles to the heated aroma generator composition of the present invention, which will be described. It was confirmed that the heated aroma generator produced by adding the inorganic particles had less stain attached to the heat source of the heating type smoking device, as compared with the heated aroma generator not adding the inorganic particles. . The blending amount is preferably 0.05 to 10 parts by mass, and more preferably 0.1 to 5 parts by mass, based on 100 parts by mass of the heated aroma generator composition.

  This effect is not largely limited to the material and particle size of the inorganic particles, and includes metal oxides such as magnesium oxide, calcium oxide, titanium oxide, iron oxide and alumina, metal carbonates such as magnesium carbonate and calcium carbonate, calcium phosphate and the like. It was found in metal phosphates, titanates such as potassium titanate and magnesium titanate, and silicon oxides such as zeolite, colloidal silica and fumed silica. Among them, magnesium carbonate, calcium carbonate, silicon oxide, and alumina gave good results. Therefore, although the cause of this is not clear, it is considered that the inorganic particles polish the surface of the heat source at the time of desorption from the heat source, and the contact area between the heat source and the heated aromatic substance decreases at the time of heating.

  As described above, the heated aroma generator composition for a heating type volatile matter suction cartridge of the present invention has at least a material emitting a fragrance as described above, a material emitting an aroma, and a material emitting a flavor, Further, an appropriate amount of hydrophilic cross-linked polymer, β-cyclodextrin, microcrystalline cellulose, a binder, and an antibacterial preservative are added to these to produce a heated aroma generator for a heating type volatile suction cartridge. be able to. That is, the present invention, a material that emits a fragrance, a material that emits an aroma, and a material that emits a flavor, and an appropriate amount of a hydrophilic cross-linked polymer, β-cyclodextrin, microcrystalline cellulose, a binder, and an antibacterial agent. Provided is a heated aroma generator composition for a heated volatile matter suction cartridge containing a heat-preserving agent.

  Further, a heating type volatile matter suction cartridge can be manufactured by using the above-mentioned heated aroma generator and performing ordinary molding processing such as shredding, paper winding, and cutting. That is, the present invention provides a heating type volatile matter suction cartridge using the above-mentioned heated aroma generator.

  Conventional aerosol forming bodies have been formed and processed by various methods such as a method in which a slurry is subjected to a papermaking step, dried and then formed. The heated aroma generator for the heating type volatile matter suction cartridge of the present invention can also be manufactured according to the conventional technique. However, the heated aroma generator for the heating type volatile matter suction cartridge of the present invention is characterized by using a material that emits a fragrance, a material that emits an aroma, and a material that emits a flavor, and a fragrance or an aroma based on these is used. For the purpose of effectively producing flavor and allowing smokers to enjoy, the inventors have found the following method for producing a heated fragrance generator for a heating volatile matter suction cartridge.

  That is, the method for producing a heated fragrance generator for a heating type volatile matter suction cartridge of the present invention includes a first step of drying a fragrance-releasing material, followed by sterilization, crushing and weighing, and a flavor-releasing material. After that, the second step of sterilizing and crushing and weighing, and the third step of drying the material releasing the aroma, sterilizing and crushing, and weighing, and measuring the hydrophilic cross-linking polymer, then deionized water / 4th step of mixing with alcohol mixed solution, 5th step of measuring and mixing β-cyclodextrin in pure water / alcohol mixed solution, and weighing of microcrystalline cellulose, followed by pure water / alcohol mixing After the sixth step of mixing with the solution, the seventh step of weighing the binder, and then dissolving and mixing in a pure / alcohol mixed solvent, the eighth step of weighing the aerosol former, and the wetting of the antimicrobial preservative, Dissolve in pure water 9th step, 10th step of mixing the materials obtained in the 1st, 2nd, 4th, 5th, 6th, 7th, and 8th steps, and 11th of aging the mixture of the 10th step A step, a twelfth step of mixing the materials obtained in the third and ninth steps, a thirteenth step of mixing the materials obtained in the eleventh and twelfth steps, and a material obtained in the thirteenth step. Fourteenth step of molding, fifteenth step of shredding the molded product obtained in the fourteenth step, sixteenth step of paper-wrapping the material obtained in the fifteenth step, and molded article obtained in the sixteenth step It is characterized in that it comprises a seventeenth step of cutting and a eighteenth step of drying the molded product obtained in the seventeenth step.

  Particularly, the feature of the present invention resides in the aging step in the 11th step and the 13th step of mixing the materials obtained in the 11th and 12th steps.

  In the eleventh step, each fragrance component can be sufficiently retained by aging together the fragrance emitting material, the flavor emitting material, the hydrophilic cross-linked polymer retaining the aroma component, and β-cyclodextrin. It has a feature in that it is effective when smoking.

  This aging condition is preferably 15 to 30 ° C. and 3 to 14 days. However, if the temperature is too high or if the aging is too long, mold or spoilage may occur. Also, from the viewpoint of retaining the aroma component, it was more preferable to carry out the treatment at 20 ± 2 ° C. for 4 to 7 days.

  The thirteenth step is to mix the aroma-releasing material at the end to shorten the processing history in which the material that expresses the scent that floats in the space when heated is not soaked in water for a long time. It was possible to effectively make aroma easily generated.

  The other steps do not necessarily have to be performed according to the step numbers as long as each step and the setup between the steps are performed so that the most efficient manufacturing can be performed.

  Further, the above-mentioned manufacturing method is basically a case where a plant is used as a material that emits a fragrance, a material that emits an aroma, and a material that emits a flavor, but as described above, these materials are dried. It is available in the processed state. Typical examples include menthol, xylitol, herbal medicine, teas, spices, and powders. In this case, steps such as drying, sterilization, and pulverization can be omitted. Therefore, the production method of the present invention comprises a first step of weighing a material emitting a fragrance, a second step of weighing a material emitting a flavor, a third step of weighing a material emitting an aroma, and a hydrophilic cross-linked polymer. Was weighed and then mixed with a pure water / alcohol mixed solution in a fourth step, β-cyclodextrin was weighed, then dissolved and mixed in a pure water / alcohol mixed solution in a fifth step, and microcrystalline cellulose was weighed. After that, a sixth step of mixing with a pure water / alcohol mixed solution, a seventh step of weighing the binder, and then dissolving / mixing in a pure / alcohol mixed solvent, an eighth step of weighing the aerosol former, and an antibacterial property The ninth step of weighing the preservative and then dissolving it in pure water, and the tenth step of mixing the materials obtained in the first, second, fourth, fifth, sixth, seventh, and eighth steps Ripe the mixture of process and 10th process 11th step, 12th step of mixing the materials obtained in the 3rd and 9th steps, 13th step of mixing the materials obtained in the 11th and 12th steps, and 13th step Obtained by the fourteenth step of molding the material obtained in the fourteenth step, the fifteenth step of shredding the molded product obtained in the fourteenth step, the sixteenth step of paper-wrapping the material obtained in the fifteenth step, and the sixteenth step It is possible to simplify the method for producing a heated fragrance generator for a heating type volatile matter suction cartridge, which comprises a seventeenth step of cutting the molded article and an eighteenth step of drying the molded article obtained in the seventeenth step. it can.

  The features of the simplified manufacturing method are the same as those of the case where plant materials are used, and they are for heating type volatile suction cartridges that can effectively generate fragrance, aroma, and flavor. Provided is a method for producing a heated aroma generator.

  According to the present invention, not only experienced smokers who have smoked for the first time, but also smokers who are new to smoking can enjoy the fragrance, aroma, and aroma of flavors with a feeling of cigarette, and can obtain peace of mind and body. effective. Furthermore, according to the present invention, tobacco and its homologous plants belonging to the Solanaceae family, and the harmless fragrance derived from plants, which does not contain its components, are not only smokers themselves, but also non-smokers in the vicinity. The effect is that you can enjoy smoking without adversely affecting your health. Therefore, the present invention is not a substitute for a heating type electronic cigarette cartridge, but provides a new smoking device that enjoys aroma, causes α waves in the brain, has a healing effect, and is useful for promoting health and beauty. Is.

It is a manufacturing process schematic of the heating type volatile matter generation object for heating type volatile matter suction cartridges when using a plant as a raw material which concerns on one Embodiment of this invention. It is a manufacturing process schematic diagram of the heating type aroma generator for heating type volatile matter suction cartridges when using the processed plant made into the raw material which concerns on one Embodiment of this invention. It is a perspective schematic diagram which shows the external appearance of the heating type volatile matter suction cartridge which concerns on one Embodiment of this invention. (A) is a non-heated aroma generator, a support member, and a mouthpiece according to an embodiment of the present invention cut along the line AA in FIG. FIG. 3B is a schematic cross-sectional view of the heating type volatile matter suction cartridge, and FIG. 3B is a non-heated aroma generator, a support member, and a cooling member according to an embodiment of the present invention cut along the line AA in FIG. 2. FIG. 4 is a schematic cross-sectional view of a heating type volatile matter suction cartridge in which a member and a mouthpiece are connected in that order and wound with a packaging member. FIG. 3 is a schematic cross-sectional view of a heated aroma generator, which is shredded into prisms, which is filled in the heating type volatile matter suction cartridge according to the embodiment of the present invention. It is a cross-sectional schematic diagram which mounted the heating type volatile matter suction cartridge which concerns on one Embodiment of this invention to the general heating type smoking tool. It is the plane schematic diagram which looked at the supporting member of FIG. 3 (A) attached to the heating type volatile matter suction cartridge which concerns on one Embodiment of this invention from the X direction. It is the side surface schematic diagram which looked at the support member of FIG. 3 (A) attached to the heating type volatile matter suction cartridge which concerns on one Embodiment of this invention from the Y direction.

  Hereinafter, the present invention will be described in more detail using embodiments, but the present invention is not limited to these, and various modifications can be made without departing from the gist of the present invention. The present invention is limited only by the technical idea described in the claims.

<< Example 1 >>
A saffron flower was used as a fragrance-releasing material, konjac as an aroma-releasing material, and peppermint leaves and apricot fruits were used as flavor-releasing materials. Glycerin and propylene glycol were used as the aerosol former, and crosslinked polyvinylpyrrolidone (PVP) was used as the hydrophilic crosslinked polymer. Further, β-cyclodextrin for retaining an aroma component, microcrystalline cellulose functioning as an excipient, and sodium carboxymethyl cellulose (CMC-Na) as a binder are used, and potassium sorbate and benzoin are used as antibacterial preservatives. Sodium acid was used. The manufacturing was performed according to the manufacturing process of FIG. 1A.

Saffron flowers, konjac, leaves of peppermint, and fruits of apricots were dried with hot air until the water content was about 2% by mass, crushed, and passed through an 80-mesh basket. The microcrystalline cellulose used here had an average particle diameter of 90 μm and a mass average molecular weight (Mw) of 36,000. The blending amount is as follows.
Saffron flower (dry ground product) 87 parts by mass Apricot fruit (dry ground product) 6 parts by mass Peppermint leaf (dry ground product) 6 parts by mass Konjac 1 part by mass Glycerin 24 parts by mass Propylene glycol 24 parts by mass Crosslinked PVP 16 parts by mass Parts β-cyclodextrin 1 part by weight microcrystalline cellulose 16 parts by weight CMC-Na 3 parts by weight potassium sorbate 0.005 parts by weight sodium benzoate 0.005 parts by weight

  As shown in FIG. 1A, crosslinked PVP, β-cyclodextrin, microcrystalline cellulose, and CMC-Na use ethanol as an alcohol, and are dissolved and mixed in a predetermined amount of pure water / ethanol to prepare a saffron flower, After mixing with apricot fruit, peppermint leaf, glycerin and propylene glycol, the mixture was aged at 20 ± 2 ° C. for 5 days.

  This aged mixture is mixed with konjak which is previously mixed with pure water in which potassium sorbate and sodium benzoate are dissolved, and then three rolls are used to obtain a sheet thickness of 0.28 ± 0.02 mm. As molded. Then, the sheet thus formed was shredded to have a width of 1.5 ± 0.1 mm, and then wound into a paper having a predetermined filling rate. The paper-wrapped heated aroma generator composition is then cut to a length of 11.5 to 12.0 mm, then dried until the water content is 18 to 20% by mass, and the paper-wrapped product is heated. Manufactured as a heated aroma generator.

  As shown in FIG. 2 and FIG. 3 (A), on the other hand, the produced aroma-generating substance 110 to be heated, the supporting member 120, and the mouthpiece 140 are connected in this order in the X direction to form a packaging member. The heating type volatile matter suction cartridge 100 was manufactured using 150. As shown in FIGS. 2 and 3 (B), on the other side, the manufactured aroma generating body 110 to be heated, the supporting member 120, the cooling member 130, and the mouthpiece 140 are connected in this order in the X direction. Then, the heating type volatile matter suction cartridge 100 was manufactured using the packaging member 150. The supporting member 120 used here is connected so as to support the heated aroma generator 110, and the central portion 121 thereof is located along the central axis in the X direction of the heating type volatile matter suction cartridge 100. It has a plurality of sides 122. The plurality of side portions 122 extend outward from the central portion 121 and are in contact with the packaging member 150 located at the periphery of the heating type volatile matter suction cartridge 100, and are fixed to the inner surface of the packaging member 150 with an adhesive. The strength of the volatile matter suction cartridge 100 is maintained.

  Further, as shown in FIG. 4, since the aroma-generating substance 111 to be heated, which is shredded into a prismatic shape, forms the aroma-generating substance 110 to be heated in a state of being bundled by a predetermined number, volatilization generated by heating is generated. An object can be sucked by a smoker with a stable air flow.

  When used by a smoker, as shown in FIG. 5, when the heating type volatile matter suction cartridge 100 is mounted on the mounting part 210 of the heating type smoking article main body 200, the heating type volatile matter suction cartridge 100 is provided at the center of the bottom of the mounting part 210. The heat source 211 pierces the aroma generator 110 to be heated, and the aroma generator 110 to be heated is heated, so that smoking can be enjoyed.

  Using such a heating type smoking apparatus, 10 subjects evaluated the fragrance floating from the heated fragrance generator of the present invention. As a result, 7 subjects were heated regardless of the presence or absence of the cooling member 130. The scent that drifts from the aerosol forming body itself when the aroma generator is attached to the heating type smoking device, that is, the fragrance, and the scent that floats in the space when the heated aroma generator is heated, that is, the aroma and the heated aroma generator. When heated and inhaled together with an aerosol, the scent that floats in the mouth, that is, the three elements of flavor, can be felt, which brings peace of mind and body.

<< Example 2 >>
Black tea is used as a material to release a fragrance, konjac powder is used as a material to release an aroma, and menthol and xylitol extracted from plants are used as materials to release a flavor, under exactly the same conditions as in Example 1 according to the production process of FIG. 1B. A volatile matter suction cartridge was produced, and 10 subjects evaluated the fragrance drifting from the heated fragrance generator of the present invention using the same heating type smoking device as in Example 1. As a result, regardless of the presence or absence of the cooling member 130, the nine test subjects, when the heated aroma generator is attached to the heating type smoking device, the scent drifting from the aerosol forming body itself, that is, the fragrance and the heated aroma generator. The scent that floats in the space when heated, that is, the aroma, and the scent that drifts in the mouth when the heated aroma generator is heated and inhaled with the aerosol, that is, you can feel the three elements of flavor, and also the peace of mind and body I was taken.

  The present invention, tobacco and its homologous plants belonging to the Solanaceae family, and, because it is a harmless aroma derived from plants, which does not contain its components, not only experienced smokers but also the first smoker. In addition, you can enjoy the fragrance, aroma, and aroma of flavors as if you were smoking, and smoking that does not adversely affect your health not only for the smoker himself but also for the non-smokers around him. It is a new smoking device that has a healing effect that can be enjoyed and produces α waves in the brain, which is useful for promoting health and beauty. Therefore, the technique relating to the heating type non-heating aroma generator of the present invention may be applicable to incense, burning incense, matcha scent, coating aroma, aromatherapy and the like.

100 Heating-type volatile matter suction cartridge 110 Heated fragrance generator 111 Unheated fragrance generator shredded and filled in a prismatic shape 120 Support member 121 Support member central portion 122 Support member peripheral portion 122A First support member peripheral portion 122B Second supporting member peripheral part 130 Cooling member 140 Mouthpiece 150 Packaging member 200 Heating type smoking device 210 Heating type smoking device mounting part 211 Heat source L Length of supporting member D Diameter of supporting member d First supporting member periphery Section and the peripheral part of the second support member

Claims (15)

A composition that constitutes an aerosol former-containing aerosol former that generates an aerosol by the heat transmitted by a heat source,
As a material that emits a fragrance defined as a scent that drifts from the aerosol forming body itself when the aerosol forming body is attached to a heating type smoking device, from Chinese tea and black tea, and rose, quince, lavender, and saffron flowers. At least one selected,
As a material that emits an aroma that is defined as a scent that floats in the space when the aerosol forming body is heated, at least one selected from the rhizome, shallot, garlic, onion, and konjak rhizome,
As a material that emits a flavor defined as a scent that drifts in the mouth when the aerosol forming body is heated and inhaled together with the aerosol, karin, a plant of the citrus family Rutaceae (daidai, unshu mandarin, natsudaidai ponkan, hassaku, yoyokan, echan) Lemon, Karatachi, Orange, Mandarin Orange, Kabos, Kishikan, Kinotto, Grapefruit, Koji, Samboukan, Citron, Jabara, Sudachi, Tachibana, Tangor, Natsumikan, Hanayuzu, Hyuganatsu, Flounder, Lemon (Sequencer), Buntan (Zabong), Yuzu (Lime, Lemon, Kobumikan, etc.), Plants of the genus Rosaceae (peach, peach, etc.), Apple, Pineapple, Mango, Kumquat, Melon, Pomegranate, Ume, Apricot, Blueberry, Dutch strawberry, Rasp. Lee, banana, and grape fruits, and peppermint plants of the Lamiaceae genus (Peppermint, Japanese peppermint, apple mint, water mint, corsica mint, penny royal mint, etc.), Spearmint plants of the Lamiaceae genus (Spearmint) , Horse mint, green mint, minced mint, ginger mint, etc.), at least one selected from the above-mentioned foliage of Inna mint, Kosui mint (lemon balm), Kidachi mint (Savory), and willow mint (Hissop).
As the material of the aerosol former, propylene glycol, ethylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, and, at least one or more selected from glycerin, and composed,
83. The fragrance-releasing material, the aroma-releasing material, and the flavor-releasing material with respect to the total mass of the fragrance-releasing material, the aroma-releasing material, and the flavor-releasing material, respectively. 9-97.0% by mass, 0.4-1.6% by mass, 3.2-15.6% by mass, the total of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor. A heated aroma generator composition for a heating type volatile matter suction cartridge, comprising 35.0 to 65.0 parts by mass of the material of the aerosol former with respect to 100 parts by mass.   The heated aroma generator composition for a heating type volatile matter suction cartridge according to claim 1, wherein menthol and / or xylitol is used as a material for releasing the flavor.   7. The hydrophilic cross-linking polymer is contained in an amount of 7.0 to 25.0 parts by mass with respect to a total mass of 100 parts by mass of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor. Item 3. A heated aroma generator composition for a heating volatile matter suction cartridge according to Item 1 or 2.   The heated aroma generator composition for a heating type volatile matter suction cartridge according to claim 3, wherein the hydrophilic crosslinked polymer is crosslinked polyvinylpyrrolidone.   The β-cyclodextrin is contained in an amount of 0.2 to 1.0 part by mass with respect to 100 parts by mass of the mass of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor. The heated aroma generator composition for a heating type volatile matter suction cartridge according to any one of claims 1 to 4.   7. The microcrystalline cellulose is contained in an amount of 7.0 to 25.0 parts by mass with respect to a total mass of 100 parts by mass of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor. A heated aroma generator composition for a heating type volatile matter suction cartridge according to any one of items 1 to 5.   The heated aroma generator composition for a heating type volatile matter suction cartridge according to claim 6, wherein the average particle diameter of the microcrystalline cellulose is 30 µm or more and 200 µm or less.   At least one or more binders selected from polysaccharide polymers and cellulosic polymers are used for 100 parts by mass of the fragrance-releasing material, the aroma-releasing material, and the flavor-releasing material. The heated aroma generator composition for a heating type volatile matter suction cartridge according to any one of claims 1 to 7, comprising 2.0 to 5.0 parts by mass. The polysaccharide polymer is konjac mannan (glucomannan), guar gum, pectin, carrageenan, tamarin seed gum, locust bean gum, karaya gum, and xanthan gum,
The cellulose-based polymer, carboxymethyl cellulose, carboxyethyl cellulose, hydroxymethyl cellulose, hydroxyethyl cellulose, and hydroxypropyl cellulose, sodium salt of carboxymethyl cellulose, potassium salt, and calcium salt, and sodium salt of carboxyethyl cellulose, potassium salt, And a heated aroma generator composition for a heating type volatile matter suction cartridge according to claim 8.   The antibacterial preservative is contained in an amount of 0.005 to 0.04 parts by mass based on 100 parts by mass of the mass of the material emitting the fragrance, the material emitting the aroma, and the material emitting the flavor. A heated aroma generator composition for a heating type volatile matter suction cartridge according to any one of 1 to 9.   The heated aroma generator composition for a heating type volatile matter suction cartridge according to claim 10, wherein the antibacterial preservative is potassium sorbate and / or sodium benzoate.   A heated aroma generator for a heating type volatile matter suction cartridge, comprising the heated aroma generating composition for a heating type volatile matter suction cartridge according to any one of claims 1 to 11.   A heating type volatile matter suction cartridge comprising the heated fragrance generator according to claim 12. A first step of drying, sterilizing, crushing, and weighing the fragrance-releasing material;
A second step in which the material releasing the flavor is dried, sterilized, crushed, and weighed;
After the material that gives off the aroma is dried, sterilized, crushed, and weighed,
A fourth step in which the hydrophilic crosslinked polymer is weighed and then mixed with pure water / alcohol mixed solution;
A fifth step in which the β-cyclodextrin is weighed and then dissolved and mixed in a pure water / alcohol mixed solution;
A sixth step in which the microcrystalline cellulose is weighed and then mixed with pure water / alcohol mixed solution;
A seventh step of weighing and then dissolving and mixing the binder in a pure / alcohol mixed solvent;
An eighth step of weighing the aerosol former,
A ninth step of dissolving the antibacterial preservative in pure water after weighing
A tenth step of mixing the materials obtained in the first, second, fourth, fifth, sixth, seventh, and eighth steps;
An eleventh step of aging the mixture of the tenth step,
A twelfth step of mixing the materials obtained in the third and ninth steps,
A thirteenth step of mixing the materials obtained in the eleventh and twelfth steps,
A 14th step of molding the material obtained in the 13th step,
A fifteenth step of shredding the molded product obtained in the fourteenth step,
A 16th step of winding the material obtained in the 15th step,
A seventeenth step of cutting the molded product obtained in the sixteenth step,
Heating using the heated fragrance generator composition for a heating type volatile matter suction cartridge according to any one of claims 1 to 11, which comprises an eighteenth step of drying the molded product obtained in the seventeenth step. Method for producing a heated fragrance generator for a volatile matter suction cartridge. A first step of weighing the fragrance emitting material,
A second step of weighing the flavor releasing material,
A third step of weighing the material that gives off the aroma,
A fourth step in which the hydrophilic crosslinked polymer is weighed and then mixed with pure water / alcohol mixed solution;
A fifth step in which the β-cyclodextrin is weighed and then dissolved and mixed in a pure water / alcohol mixed solution;
A sixth step in which the microcrystalline cellulose is weighed and then mixed with pure water / alcohol mixed solution;
A seventh step of weighing and then dissolving and mixing the binder in a pure / alcohol mixed solvent;
An eighth step of weighing the aerosol former,
A ninth step of dissolving the antibacterial preservative in pure water after weighing
A tenth step of mixing the materials obtained in the first, second, fourth, fifth, sixth, seventh, and eighth steps;
An eleventh step of aging the mixture of the tenth step,
A twelfth step of mixing the materials obtained in the third and ninth steps,
A thirteenth step of mixing the materials obtained in the eleventh and twelfth steps,
A 14th step of molding the material obtained in the 13th step,
A fifteenth step of shredding the molded product obtained in the fourteenth step,
A 16th step of winding the material obtained in the 15th step,
A seventeenth step of cutting the molded product obtained in the sixteenth step,
Heating using the heated aroma generator composition for a heating type volatile matter suction cartridge according to any one of claims 1 to 11, which comprises an eighteenth step of drying the molded product obtained in the seventeenth step. Method for producing a heated fragrance generator for a volatile matter suction cartridge.

Images