Smoking stuffing material containing fruit substance

FIELD: material for smoking articles.

SUBSTANCE: claimed material contains fruit substance as basic organic smoke-forming material, incombustible inorganic filler and binder. Such smoking stuffing material may be used with or without tobacco additive.

EFFECT: additive selection to produce smoke with specific taste and fragrance.

49 cl, 4 tbl, 4 ex

 

The invention relates to Smoking acinacea material and primarily, but not exclusively, to crack acinacea material for cigarettes.

Naconecinii materials suitable for use in Smoking articles as a substitute of tobacco were proposed a long time ago. However, the use of received from different types of fruit material as a substitute for tobacco was devoted only a small number of studies. Usually fruit material in use for these purposes is a minor ingredient to be added to the core material in small quantities as a source of sugar and amino acids, or used as a structural component, as described, for example, in the patent GB 1412878. In addition, in patent US 4083371 it was proposed to use similar materials containing husks together with fruit concentrate and optional flour made from carob. In both of these publications basic organic smoke-generating material, i.e. the main combustible material, selected from the group including chaff, straw, bran, husk and shell, i.e. waste processing cereals or nuts.

In the present invention serves crack naconechny material, in which the fruit material is the key is whether one of the main combustible materials.

Proposed in the invention of the Smoking material can also be used in conjunction with additionally added thereto tobacco material, which can serve as cut leaf tobacco or homogenized tobacco in leaves obtained from reconstituted tobacco, or non-tobacco material.

In addition, we offer in the invention of crack naconechny material has such Smoking qualities that allow a manufacturer of tobacco products or engaged in the preparation of Smoking mixtures, choose the desired flavoring and dosiruyushaya supplements to give produced when Smoking smoke a special taste and aroma.

In addition, the smoke generated by the combustion of the proposed invention in Smoking acinacea material and inhaled by the smoker, contains a much smaller number of some of its components.

Thus, in the present invention serves crack naconechny material containing non-combustible inorganic filler, a binder and fruit material as the main organic smoke-combustible material.

The content of the inorganic filler is preferably from 30 to 90 wt.% in terms of dry substance.

The content of the inorganic filler in Curitel the m Nachinaem material, produced by casting, is preferably from 50 to 80 wt.%, more preferably more than 60 wt.%, most preferably more than 70 wt.%, in terms of dry substance.

In another embodiment, the amount of inorganic filler in the crack Nachinaem material obtained by extrusion is preferably from 30 to 70 wt.% in very rare on dry substance. More preferably, the content of inorganic material ranges from 35 to 60 wt.%, most preferably 45 to 55 wt.%, first of all, about 50 wt.% in terms of dry substance.

The content of the binder is preferably from 3 to 25 wt.% in terms of dry substance. More preferably the content of the binder is from 5 to 15 wt.%, most preferably less than 12 wt.%, first of all, less than 10 wt.% in terms of dry substance. Most preferably the binder content is about 7.5 wt.% in terms of dry substance.

The contents of the fruit material is preferably from 2 to 50 wt.% in terms of dry substance. Content of fruit material in the Smoking Nachinaem material obtained by casting, is preferably from 5 to 15 wt.%, more preferably 10 wt.%, most preferably about 12.5 wt.%. Content of fruit material in the Smoking nazinon the m material obtained by extrusion, preferably ranges from 2 to 50 wt.% in terms of dry substance. In the latter case, more preferably, the content of fruit material ranged from 10 to 30 wt.%, most preferably about 20 wt.% in terms of dry substance.

Preferably, crack naconechny material obtained by casting, contained from 10 to 20% fruit material, 10% of sodium alginate, 70% of chalk, and 10% glycerol. In one embodiment, the acceptable crack naconechny material can be obtained with the use of 7.5% of sodium alginate with a corresponding increase in the content of fruit material.

Preferably next to Smoking naconechny material obtained by extrusion, contained from 10 to 20% fruit material, 20% starch, 50% of chalk, 10% hydroxypropylcellulose and from 0 to 10% glycerin.

As a non-combustible inorganic filler, it is preferable to use an inorganic filler selected from the group comprising silicates or aluminosilicates, such as perlite, vermiculite, diatomaceous earth, talc or colloidal silicon dioxide, or including oxides, salts or metal hydroxides, such as magnesium oxide, magnesium sulfate, calcium carbonate or magnesium, or aluminum oxide. As the inorganic filler preferably use the material with low density, component preferably less than 5 g/cm3more preferably less than 4 g/cm3most preferably less than 3 g/cm3. You can also use mixtures of such fillers.

Part of Smoking acinacea material may also include an organic filler. As such an organic filler, it is preferable to use a material, which in itself is inert or relatively inert, i.e. not capable enough to support combustion, but in a mixture with other components becomes more fuel, i.e. able to support combustion. As an example, suitable for use in this purpose, organic fillers can be called insoluble alginates, such as alginate calcium or magnesium, pectinate calcium or alginic acid, as well as unmodified cellulose, such as processed or unprocessed wood pulp or alpha cellulose. You can also use a mixture of inert organic fillers and inorganic fillers.

The content of the organic filler is preferably from 0 to 40%. Organic filler can improve the properties of the ash generated by the combustion of the Smoking acinacea material. Part of Smoking acinacea material may be appropriate in order to enable the combustible organic material with natural low nitrogen content, i.e. with a total nitrogen content of less than 0.25 wt.%, more preferably less than 0,20 wt.%, most preferably less than 0.1 wt.% in terms of dry substance.

As a binder, it is preferable to use an organic binder, such as alginate, gum, cellulose (modified or natural), pectin or actinopodidae binder or a salt of such a binder with metals of group I or II of the Periodic system, such as sodium carboxymethyl cellulose or sodium alginate.

More preferably used as a binder alginate binder, which include soluble alginates such as ammonium alginate, sodium alginate, calcium alginate is sodium alginate calcium-ammonium, potassium alginate, triethanolamine alginate and propylene glycol alginate. Such alginate binder can improve the dynamics of smoke when tightening, and give proposed in the invention of crack acinacea material specific taste and aromatic properties.

As an example, cellulose binder can be called cellulose derivatives such as sodium carboxymethyl cellulose, methylcellulose, hydroxypropylcellulose, hydroxyethylcellulose or ethers of cellulose. Such a binder is preferably used to obtain crack n chinchero material by extrusion.

Other organic binders include gums, such as gum Arabic, gum Gatti, tragacanth gum, gum karaya, carob bean gum, Arabic gum, guar gum, gum seeds of quince or xanthan gum, or gels, such as agar, agarose, carrageenan, fucoidan and furcellaran. As a binder can also be used pectins and actinopodidae materials. As the organic binder can also be applied starches. Other usable for these purposes, the gums can be found in the corresponding references, such as Industrial Gums, edited by Whistler (published by Academic Press). As a non-combustible binder can also use some types of cement, such as Portland cement. The above components can also be used in various combinations.

When using alginate as a binder and first of all the monovalent alginates pH value of the suspension at the appropriate stages of its processing must be maintained below 5 and above 3, i.e. in the interval from 3 to 5, to improve the binding properties of alginate. Such a condition can be observed by varying the quantitative relationships between fruit material and inorganic filler by neutralizing the suspension by adding an acidic material, such as citric acid is one or basic material such as sodium carbonate.

As a fruit of the material offered in the invention of crack naconechny material may contain one or more fruit and berry products and/or products of processing fruits of a large variety, such as whole fruits, dried fruits, fruit pulp, fruit concentrate, i.e. the remains of the fruit, resulting in production of fruit juices, fruit paste, fruit puree, powder or liquid fruit extract. When using a liquid extract, it is preferable that he was not a pure extract sugars from the fruit. It is also possible to use mixtures of components relating to each of the above classes of fruit products. Some fruit products in order to simplify subsequent processing may be appropriate to expose the fruit material granulating, for example a mixture containing fruit material or fluid containing fruit syrup material with inorganic filler, drying the mixture and granulating.

For use provided by the invention purposes it is preferable to choose fruits with low sugar content in them, i.e., with sugar content of about 70% or less. It was found that h what about if you want to use fruits with high sugar content it is advisable to remove from such fruits, so after adding the fruit material in the Smoking naconechny material content constituted preferably less than 20%.

Fruit material is preferably selected from the group including fruit shrub fruit crops, fruits, citrus, berries or processed fruit material such as dried powdered fruits or dietary fiber. As fruit material preferably next to choose a material with a low content of nitrogen, comprising preferably less than 1.8 wt.%, more preferably less than 1.0 wt.%, most preferably less than 0.6 wt.% in terms of dry substance. More preferably the fruits to choose among one or more types of groups, including pineapple, mango, raisins, Apple, banana, apricot, lemon, peach, kiwi and grapes. The first three fruits of the above are the most preferred. It should be noted that the presence or absence of such fruit pits or seeds at this stage is not essential for the present invention.

Dried powdered fruit or fruit concentrate can be mixed with water until full dissolution. Fruit pulp is preferably powder fine grinding on appropriate technology, allowing almost fully preserve the integral is the outer coat of the fiber. Fiber can optionally be separated from the fluid to change the ratio between them. If using dried fruit, they are preferably subjected to boiling water. When using fruits with a high content of sugar-preferably subjected to boiling and percolation (extraction while pouring) to reduce them, for example, the content of organic acids and sugars, and then subjecting the mixture before formation of a homogeneous mixture or paste.

As a source of aerosol is preferable to use aerosol forming agent, such as glycerin and/or other aerosol forming compounds that are considered in the application WO 96/07336. Among such compounds include, in particular, polyhydric alcohols, propylene glycol and triethylene glycol, esters, such as triethylcitrate, triacetin or dietilenglikoluretan (TEGDA), or high-boiling hydrocarbons. Other aerosol forming means, suitable for use according to the invention, well-known experts in this field.

The contents of the aerosol forming means in the Smoking Nachinaem material is preferably from 0 to 30%. The contents of the aerosol forming means in the Smoking Nachinaem material obtained by drum casting, preferably should be from 5 to 15 wt.%, b is more preferably about 10 wt.% in terms of dry substance. The contents of the aerosol forming means in the Smoking Nachinaem material obtained by extrusion, preferably should be from 1 to 10 wt.%, more preferably from 3 to 5 wt.% or less in terms of dry substance. Forming an aerosol of the tool into the cylinder of the extruder. Thus it is advisable to use plasticizers. If such a plasticizer is one of the above is suitable for use in the proposed in the invention of crack Nachinaem the material forming the spray means, such plasticizer should be used in the amount in which he is not the main source of aerosol. Other additional components, i.e. components that do not involve filling, fruit material and a binder selected depending on the desired properties of the final product.

To crack acinacea material you can also add other flavoring and aroma additives, such as coffee, cocoa, burnt sugar, aromatic substances from roots such as ginger or licorice, tobacco dust or tobacco extracts, at less than 10 wt.%, preferably less than 5 wt.% in terms of dry substance.

Smoking naconechny material preferably be obtained by mixing all powder materials (for which the conclusion of the binder), the addition of water and subsequent gradual addition of a binder, simultaneously subjecting the mixture to high shear forces. Then additional water is added in an amount necessary to bring the viscosity of the resulting suspension to the desired level.

The viscosity of the finally prepared suspension is preferably from about 60,000 to 400,000 JV, more preferably from 150,000 to 250,000 CP. The final viscosity depends on the specific method used casting (drum casting or casting tape), extrusion method or process of making paper.

From the obtained above by the suspension can be further cast sheets, which you can then put in storage, be sweating (conditioning) and then subjected to cutting with getting cut Smoking acinacea material.

In another embodiment, a Smoking naconechny material can be obtained by extrusion obtained in which the extruded material may be foamed or nesperennub. Suitable for use in these purposes expandirse (which increases the amount of processed material) funds, also known as leavening agents or blowing agents are described in the application WO 96/07336, which is incorporated into this description by reference in part, on ekspediruemyh funds. In the quality of the ve example suitable ekspediruemyh funds can be called starch, pullulan or other polysaccharides, including cellulose derivatives, solid blowing agents, inorganic salts and organic acids, forming in situ gaseous agents, organic gaseous agents, inorganic gaseous agents and volatile liquid blowing agents. Expandirse tool can partially replace the inorganic filler. Content expandimage funds ranges from 0 to 40 wt.% in terms of dry substance, preferably less than 30 wt.%, more preferably is about 20 wt.%. The most preferred volatile expandirem tool, typically used in such systems expansion (opening) Smoking material is water, water vapor, respectively. Other expandirse agents are well known in this field. In the manufacture of Smoking acinacea material by extrusion, it is preferable to first mix between all the powder components, including a binder, and then to inject water and glycerin in the cylinder of the extruder. The extruded material may be in the form of rods, bundles, filaments or sheets, which are then subjected to cutting with getting cut Smoking acinacea material. If the extruded material has too high a density, not allowing for tightening to pull cher the C it air or smoke, in this case, it may be appropriate to bind or twist together strands or fibers to create channels for the passage of air. If the extrudate is in the form of a rod, to minimize the pressure drop along the length of the rod if necessary, you can also use other methods of post-processing, allowing to reduce its resistance to the flow of air or smoke when tightening. Extrudates of various forms described in the above international application, which is incorporated into this description by reference.

Part of Smoking acinacea material to improve its Smoking qualities can also include a fuel additive (affecting the rate of decay additive). This fuel additive depending on the properties acinacea material can be either accelerating or slowing down the burning material. As such combustible additives you can use one or more salts of metals of group I or II of the Periodic system, such as acetates, citrates and other accelerating the combustion of the materials known to specialists in this field of technology. Suitable for use in listed order slow-burning materials are, for example, magnesium hydroxide, phosphate or magnesium chloride.

Part of Smoking acinacea material can also on the part of the tool to improve slidenote ash in amounts of preferably from 0 to 5%. The Smoking material may contain one or more of these tools to improve slidenote ash, as an example, which can be called mica, perlite, clays such as vermiculite, kaolinites, only, saponite, bentonites, as well as a tool to improve slidenote ash, as the disodium salt of orthophosphoric acid, sodium carbonate or diammonium phosphate.

The present invention relates to a Smoking product, containing enclosed in a wrapper of the rod is provided in the invention of crack acinacea material.

In this Smoking product of his Smoking stuffing can 100% consist of core crack acinacea the material enclosed in the wrapper. In another embodiment of the proposed invention in Smoking naconechny material can be mixed with shredded tobacco or manufactured in sheets containing tobacco material, such as restored or homogenized tobacco leaves. The content of tobacco material in the mixture is preferably not more than 40 wt.%, more preferably not more than 30 wt.% in terms of the weight of the final mixture.

As a wrapper, you can use a paper wrapper (cigarette paper) or practically non-combustible wrapper type as that described in the application WO 96/07336. This application is since it applies to almost non-combustible wrapping material, included in this description by reference. Described in the application wrapping material preferably contains at least 65% inorganic carrier in the form of microparticles of the type described above inorganic materials.

As a wrapper, you can use the traditional pulp and paper, the permeability of which varies from 2 to 300 units of Coresta (CU), preferably less than 100 CU. As such wrappers can also use a paper with a low total content of filler, such as that described in the application EP 0404580 and content in which the oxide or hydroxide of magnesium is less than 14%.

Below the invention is illustrated in the examples.

Example 1

In this example, the General technology of obtaining crack acinacea material.

In the first stage, thoroughly mix the water, glycerin and chalk using a mixer, Silverson (Silverson) to obtain a homogeneous suspension. Dried powdered fruit or fruit concentrate separately mixed with a small amount of water and mix until dissolved. When using dried fruit to boil them in water for 20-30 minutes and pulverized in a kitchen machine food processor) to obtain a homogeneous paste. Depending on the sugar content in the fruit, you may need percolate to remove organic acids and Sugars.

Received fruit pasta or fruit solution is added to a suspension of chalk and mix. However, depending on specifically used alginate binders important to control pH value as low pH value was found to negatively affect the binding properties of the binder such as sodium alginate or ammonium alginate, which degrades the quality of the sheet material, which due to the reduced strength becomes essentially not usable after it is cut for further processing on the cigarette machine.

At the final stage gradually add to the mixture a binder and optionally an additional amount of water. The final viscosity of the suspension in the optimal case should be between 150,000 to 250,000 SP.

Of the suspensions described in the following examples, cast homogeneous sheets using a drum casting machine. The resulting sheet is first incubated for 24 hours at about 60%relative humidity, and then subjected to cutting using tebuconazole Hauni machines or Schrader, working on the type of shredder for paper.

After conditioning harness within 48 hours get ready for its processing into cigarettes on cigarette machine material.

Example 2

To obtain crack acinacea mother is La used three types of fruits as representative samples. Each of these samples, namely pineapple concentrate (with a density of 75 degrees Brix), obtained from the company GROIN Limited, London, powdered mango extract derived from the firm's Key Ingredients Limited, Cheltenham, and raisins (whole fruit), purchased in the supermarket Tesco, separately processed by casting sheet material, which is subjected to cutting. Each of the thus obtained Smoking nekinoshnyh materials contained 7.5% of the fruit material, 12.5% of sodium alginate as a binder, 70% chalk coarse as inorganic filler and 10% glycerin as aerosol forming means.

Then cut from the material of each type were made cigarettes in diameter 24,70 mm and 64 mm long with a filter of cellulose acetate with a length of 20 mm and with a paper wrapper has a permeability of 5 CU containing 0.55% potassium citrate as a fuel additive. Cigarette such structure allows us to directly compare it with a control, a commercially available full aromatic properties of cigarette King Size bed stuffed with tobacco Virginia type.

Cigarettes were tested using a special machine for testing cigarettes on the quality produced when Smoking smoke in the standard conditions under which in the moment is one puff volume of 35 ml and a duration of 2 In these tests smoked a statistically significant number of cigarettes (see Proctor S., etc.. The Analyst, October 1988, T. 113, S. 1509-1513). In the example used group 5 of cigarettes on one hole, and calculated average values for 4 holes.

The following table 1 presents data on the content of the various components in the main stream smoke, while table 2 presents data on the achievable reduction of the content of these components in the smoke as compared to the control cigarette.

Table 1

Influence of the type of fruit on the content of the various components in the main stream smoke
Legend cigarettesThe dry weight of the combustible component (g)The number of puffsOFS

(mg/cigarette)
Water (mg/cigarette)WITH

(mg/cigarette)
Nicotine (mg/cigarette)SCBN (mg/cigarette)Glycerol (mg/cigarette)SOBNGWI (mg/cigarette)
Pineapple1,11the 5.711,234,744,40-of 6.49of 5.890,6
Mango1,176,310,423,96of 5.40-6,476,350,12
Raisins1,216,39,833,034,80-to 6.80of 5.751,05
Control0,788,021,634,8115,001,4215,40-15,40
Note:

OFS means the total content of particles

SCBN means the content of dry particles without nicotine [OFS - SCBN=water + nicotine],

SOBNGWI means the content of dry particles without nicotine and hygroscopic substances (SCBN - SOBNGWI=glycerol).

Table 2

The achieved reduction of the content of the various components in the smoke (%)
Legend cigarettesDecline the following components (%)The degree of dilution (In+G/OFS) (%)
OFSWaterSCBNCOSOBNGWI
Pineapple48161719795
Mango521862649999
Raisins553760688989
238 SE555-----22
Note:

In denotes the water,

G denotes the glycerin.

Example 3

This example presents experimental mixture, obtained using the following examples.

Table 3
 Combustible component (%)Sodium alginate (%)Glycerol (%)Chalk (%)
Tomato spray drying207,51062,5
Black currant vacuum drying207,51062,5
Pineapple vacuum drying (I)207,51062,5
Pineapple concentrate, 75 degrees Brix (II)207,51062,5
Apple concentrate, 75 degrees Brix207,51062,5
Strawberry concentrate, 75 degrees Brix, the 207,51062,5
Banana concentrate, 68 degrees Brix207,51062,5
Dry powdered rosemary207,51062,5
Pineapple concentrate, 75 degrees Brix (III)7,512,51070
Mango vacuum drying7,512,51070
Dried raisins7,512,51070

As it follows from all the above examples, by using the proposed invention in Smoking acinacea material achieved a significant improvement in the content in the smoke of the various components.

From the table it follows, in particular, that by using the proposed invention in Smoking acinacea material provides significant dilution of the various components coming from the main and side streams of smoke.

Moreover, proposed in the invention of crack naconechny material allows its processing in the conventional manufacturing process the manufacture of cigarettes, thereby not required to make the AC is their any changes in already existing equipment.

The smoke produced when Smoking Smoking products containing proposed in the invention of crack naconechny material, characterized by a low content of nitrogen-containing compounds. Unexpectedly it was found that the content of dry particles in the smoke produced when Smoking Smoking products containing proposed in the invention of crack naconechny material is low. Despite the high content of non-combustible inorganic filler in the smoke forms a stable aerosol, which mainly contains glycerin and water.

In addition, the final product is characterized by a low nitrogen content and low average content of ammonia nitrogen (see table. 4).

Table 4

The total nitrogen content and the average content of ammonia nitrogen in leaf materials obtained by drum casting
Designation sampleThe total nitrogen content (wt.% in terms of dry substance)The average content of ammonia nitrogen (wt.% in terms of dry substance)
Tobacco SE5552,000,016
Pineapple I0,060,00
Tomato0,300,00
H the RNA currant 0,040,00
Strawberry0,020,00
Pineapple II0,020,00
Apple0,010,00

Designation sampleThe total nitrogen content (wt.% in terms of dry substance)The average content of ammonia nitrogen (wt.% in terms of dry substance)
Banana0,050,00
Rosemary0,180,00
Mango0,070,00
Pineapple III0,020,00
Raisins0,090,00
Extract raisins0,020,00

Example 4

In this example, the General extrusion technology.

The dry mixture is obtained from chalk (50%), dried fruit or dried powdered fruits (20%), swollen starch (20%) and hydroxypropylcellulose (10%). After that, the mixture was fed into the extruder, which is also pumped water and glycerin (3-5%). The cylinder of the extruder is heated in several distributed along the length of its cylinder points in such a way as to provide heating of certain zones of the extruder suitable to the temperature, which usually account for 70, 100, 110, 120 and 130°C. the pressure in the cylinder of the extruder is typically about 30 bar, and in any case must be less than 100 bar. The screw of the extruder should have such a profile, in order to push the mixture with high effort and to receive output from the head of the extruder, the extrudate formed by blowing. Obtained in this way, the extrudate is in the form of a tube or foam sheet. The optimal shape of the extrudate tube is located with its center longitudinal hole of extremely small diameter. Produced by the head of the extruder, the extrudate is given by the corresponding diverter system.

1. Smoking naconechny material containing non-combustible inorganic filler, a binder and fruit material as the main organic smoke-combustible material, and the contents of the specified inorganic filler is from 30 to 90 wt.% in terms of dry substance, and the content of fruit material is from 10 to 30 wt.% in terms of dry substance.

2. Smoking naconechny material according to claim 1, in which the content of inorganic filler is from 50 to 80 wt.% in terms of dry substance.

3. Smoking naconechny material according to claim 2, in which the content of inorganic filler with the hat more than 60 wt.% in terms of dry substance.

4. Smoking naconechny material according to claim 3, in which the content of inorganic filler is more than 70 wt.% in terms of dry substance.

5. Smoking naconechny material according to claim 1, in which the content of inorganic filler is from 30 to 70 wt.% in terms of dry substance.

6. Smoking naconechny material according to claim 5, in which the content of inorganic filler is from 35 to 60 wt.% in terms of dry substance.

7. Smoking naconechny material according to claim 6, in which the content of inorganic filler is from 45 to 55 wt.% in terms of dry substance.

8. Smoking naconechny material according to claim 7, in which the content of inorganic filler is about 50 wt.% in terms of dry substance.

9. Smoking naconechny material according to any one of the preceding paragraphs, in which the binder content is from 3 to 25 wt.% in terms of dry substance.

10. Smoking naconechny material according to claim 9, in which the content of the binder is from 5 to 15 wt.% in terms of dry substance.

11. Smoking naconechny material of claim 10 in which the binder content is less than 12 wt.% in terms of dry substance.

12. Smoking naconechny material according to claim 11, in which the content of the binder is less than 10 wt.% in terms of dry emesto.

13. Smoking naconechny material indicated in paragraph 12, in which the binder content is about 7.5 wt.% in terms of dry substance.

14. Smoking naconechny material according to any one of the preceding paragraphs, in which the content of fruit material is from 10 to 15 wt.% in terms of dry substance.

15. Smoking naconechny material 14, in which the content of fruit material is approximately 12.5 wt.% in terms of dry substance.

16. Smoking naconechny material according to any one of claims 1 to 13, in which the content of fruit material is about 20 wt.% in terms of dry substance.

17. Smoking naconechny material according to any one of the preceding paragraphs, in which non-combustible inorganic filler selected from the group comprising silicates and aluminium silicates, metal oxides, metal salts and metal hydroxides.

18. Smoking naconechny material according to any one of the preceding paragraphs, in which the inorganic filler is a material of low density.

19. Smoking naconechny material on p, in which the density of the inorganic filler is less than 5 g/cm3.

20. Smoking naconechny material according to claim 19, in which the density of the inorganic filler is less than 3 g/cm3.

21. Smoking naconechny material according to any one of the previous paragraph is nktob, which also contains an organic filler.

22. Smoking naconechny material according to item 21, in which the organic filler selected from the group comprising insoluble alginates, pectines calcium, alginic acid and unmodified cellulose.

23. Smoking naconechny material according to item 21 or 22, in which the content of the organic filler is from 0 to 40% in terms of dry substance.

24. Smoking naconechny material according to any one of the preceding paragraphs, which contains combustible organic material with natural low nitrogen content.

25. Smoking naconechny material according to any one of the preceding paragraphs, in which the binder is an organic binder.

26. Smoking naconechny material on A.25, in which the organic binder selected from the group comprising alginate, gum, cellulose (modified or natural), pectin or actinopodidae binder, and salts of such binding with metals of groups I and II of the Periodic system.

27. Smoking naconechny material according to any one of the preceding paragraphs, in which the fruit material is one or more of fruit products and/or products of processing fruits.

28. Smoking naconechny material according to item 27, in which the fruit material is one or more materials from the group, enabling the th whole fruit, dried fruits, fruit pulp, fruit concentrate, fruit paste, fruit puree and dried powdered fruits.

29. Smoking naconechny material according to item 27 or 28, in which the fruit material is characterized by a low content of sugar, amounting to about 70% in terms of dry matter or less.

30. Smoking naconechny material according to any one of the preceding paragraphs, in which fruit material selected from the group including fruit shrub fruit crops, fruits, citrus, berries and processed fruit material.

31. Smoking naconechny material according to item 30, in which the fruit material is characterized by a low nitrogen content.

32. Smoking naconechny material according to any one of the preceding paragraphs, in which fruit material selected from one or more materials from the group including pineapple, mango, raisins, Apple, banana, apricot, lemon, peach, kiwi and grapes.

33. Smoking naconechny material according to any one of the preceding paragraphs, which contains the aerosol forming agent.

34. Smoking naconechny material on p, in which the contents of the aerosol forming means is from 0 to 30% in terms of dry substance.

35. Smoking naconechny material 34, in which the contents of the aerosol forming means is 5 to 15% in re the couple of dry substance.

36. Smoking naconechny material on p, in which the contents of the aerosol forming means is about 10 wt.% in terms of dry substance.

37. Smoking naconechny material 34, in which the contents of the aerosol forming means is from 0 to 10% calculated on the dry substance.

38. Smoking naconechny material according to clause 37, in which the contents of the aerosol forming means is from 3 to 5% in terms of dry substance.

39. Smoking naconechny material according to any one of the preceding paragraphs, which is obtained by casting.

40. Smoking naconechny material according to any one of claims 1 to 38, which is obtained by extrusion.

41. Smoking naconechny material on p, which contains expandirse tool.

42. Smoking naconechny material according to paragraph 41, in which the content expandimage funds ranges from 0 to 40 wt.% in terms of dry substance.

43. Smoking naconechny material in 42, in which the content expandimage means is less than 30 wt.% in terms of dry substance.

44. Smoking naconechny material according to item 43, in which the content expandimage funds amounts to about 20 wt.% in terms of dry substance.

45. Smoking article containing enclosed in a wrapper rod of Smoking acinacea material on any from the previous paragraphs.

46. A Smoking article according to item 45, in which Smoking naconechny material is mixed with a fine-cut tobacco or manufactured in sheets containing tobacco material.

47. A Smoking article according to item 46, in which the content of cut tobacco or manufactured in sheets containing tobacco material is not more than 40 wt.% in terms of the weight of the final mixture.

48. A Smoking article according to item 45, in which the wrapper is a paper wrap or substantially non-combustible wrapper.

49. Smoking naconechny material containing non-combustible inorganic filler, a binder and fruit material as the main organic smoke of combustible material, the content of the inorganic filler is from 30 to 90 wt.% in terms of dry substance, and the content of fruit material is from 10 to 50 wt.% in terms of dry substance.



 

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The invention relates to a device for regulating the moisture content of the carbonaceous fuel component used in the manufacture of products for Smoking and containing carbonaceous fuel rod having a moisture content, and the paper that wrapped the specified terminal

The invention relates to Smoking articles, in particular to Smoking products that use tobacco, such as cigarettes, cigars and pipes, using various forms of tobacco

The invention relates to products for Smoking, such as cigarettes, and in particular, to fuel components for products for Smoking, it products for Smoking, such as cigarettes, which include flammable components made in accordance with the invention, and to methods and apparatus for the manufacture of such components and products

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Product is manufactured by mixing, in prescribed proportion, powder of leaf vegetables, supercritical CO2 extract of makhorka, NH3 extract of licorice roots, CO2 extract of holy grass, sugar syrup, pectin, calcium and/or magnesium citrate extract, and water. Resulting mixture is finally molded.

EFFECT: reduced losses of valuable makhorka components and prolonged shelf time.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Product is manufactured by mixing, in prescribed proportion, powder of leaf vegetables, supercritical CO2 extract of makhorka, NH3 extract of licorice roots, CO2 extract of valerian, sugar syrup, carraginan, calcium and/or magnesium citrate extract, and water. Resulting mixture is finally molded.

EFFECT: reduced losses of valuable makhorka components and prolonged shelf time.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Product is manufactured by mixing, in prescribed proportion, powder of leaf vegetables, supercritical CO2 extract of makhorka, NH3 extract of licorice roots, CO2 extract of coriander, sugar syrup, pectin, calcium and/or magnesium citrate extract, and water. Resulting mixture is finally molded.

EFFECT: reduced losses of valuable makhorka components and prolonged shelf time.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Product is manufactured by mixing, in prescribed proportion, powder of leaf vegetables, supercritical CO2 extract of makhorka, NH3 extract of licorice roots, sugar syrup, pear juice concentrate, pectin, calcium and/or magnesium citrate extract, and water. Resulting mixture is finally molded.

EFFECT: reduced losses of valuable makhorka components and prolonged shelf time.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Product is manufactured by mixing, in prescribed proportion, powder of leaf vegetables, supercritical CO2 extract of makhorka, NH3 extract of licorice roots, sugar syrup, quince juice concentrate, carraginan, calcium and/or magnesium citrate extract, and water. Resulting mixture is finally molded.

EFFECT: reduced losses of valuable makhorka components and prolonged shelf time.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Product is manufactured by mixing, in prescribed proportion, powder of leaf vegetables, supercritical CO2 extract of makhorka, NH3 extract of licorice roots, sugar syrup, grape juice concentrate, carraginan, calcium and/or magnesium extract, and water. Resulting mixture is finally molded.

EFFECT: reduced losses of valuable makhorka components and prolonged shelf time.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Method comprises extracting tobacco with a nonpolar extractant in supercritical state and then with water followed by concentration of aqueous extract. Resulting extract and concentrate are mixed with ashes, lime, vegetable oil, pectin, and two fractions isolated from biomass of micromycet Mortierella sepedonioises according to prescribed technology. Resulting mixture is finally molded.

EFFECT: reduced losses of nicotine and odorants and enabled manufacture of product with balanced composition and organoleptic properties analogous to those of conventional oil nasvai.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Method comprises extracting tobacco with a nonpolar extractant in supercritical state and then with water followed by concentration of aqueous extract. Resulting extract and concentrate are mixed with ashes, lime, vegetable oil, pectin, and two fractions isolated from biomass of micromycet Mortierella lignicola according to prescribed technology. Resulting mixture is finally molded.

EFFECT: reduced losses of nicotine and odorants and enabled manufacture of product with balanced composition and organoleptic properties analogous to those of conventional oil nasvai.

Tobacco filter // 2254790

FIELD: tobacco industry.

SUBSTANCE: manufacture of first segment comprises following steps: providing one or more copper-containing porphyrins; preparing mixture of cellulose fiber, sodium sulfate, aqueous chlorine solution, and copper-containing porphyrin; heating mixture during appropriate time at the same or more than one temperature allowing copper-containing porphyrin to be covalently bound to cellulose fiber; and molding cellulose fiber with covalently bound copper-containing porphyrin into the first segment of tobacco filter. Tobacco filter may contain iron-containing analog of copper-containing porphyrin, C.I.Reactive Blue 21.

EFFECT: increased efficacy in removal of toxic and mutagenic compounds from tobacco smoke.

28 cl

FIELD: production of non-smoking product from shag.

SUBSTANCE: claimed product is prepared by mixing of vegetable leave powder, shag above-critical CO2-extract, liquorice root NH3-extract, sugar syrup, mango juice concentrate, carrageenan, calcium and/or magnesium citrate and water. Mixture is prepared in predetermined component ratio and formed.

EFFECT: decreased losses of value shag components; product with increased storage time.

FIELD: tobacco industry.

SUBSTANCE: invention relates to technology of manufacture of non-smoking nicotine-containing products. Product is manufactured by mixing, in prescribed proportion, powder of leaf vegetables, supercritical CO2 extract of makhorka, NH3 extract of licorice roots, CO2 extract of holy grass, sugar syrup, pectin, calcium and/or magnesium citrate extract, and water. Resulting mixture is finally molded.

EFFECT: reduced losses of valuable makhorka components and prolonged shelf time.

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