EA008885B1

EA008885B1 - Filter cigarette

Info

Publication number: EA008885B1
Application number: EA200501915A
Authority: EA
Inventors: Марсиль Робертович Ахметшин; Ринат Робертович Ахметшин; Сергей Александрович Егоров; Георгий Викторович Заремба; Александр Дмитриевич Леженин; Владимир Антонович Подольский
Original assignee: Марсиль Робертович Ахметшин; Ринат Робертович Ахметшин; Сергей Александрович Егоров; Георгий Викторович Заремба; Александр Дмитриевич Леженин; Владимир Антонович Подольский
Priority date: 2005-11-29
Filing date: 2005-11-29
Publication date: 2007-08-31
Also published as: CN1973703A; US20070119467A1; EA200501915A1

Abstract

A filter cigarette comprises a tobacco core enclosed in a jacket, and a filter having a first filtering element connected to one ends of the tobacco core and made as a fiber strand of the filtering material, and a second filtering element arranged within the first filtering element and having at least one sealed wrapper with liquid core. The second filtering element represents a distributed system of water-resistant jackets made as tubular and/or ampule capsule adapted to break capsules when applying external mechanical effort, the volume of the second filtering element makes up from 3 to 75 % of the first filtering element volume.The filter cigarette embodied according to the present invention provides high-quality purification of tobacco smoke and enhance a smoker a chance to change the efficiency of tobacco smoke purification.

Description

The present invention relates to the field of the tobacco industry and can be used in the manufacture of filter cigarettes with a reduced content of harmful substances to human health in tobacco smoke.

Prior art

It is known that tobacco smoke contains toxic and mutagenic compounds that lead to various diseases of smokers. One of the possible ways to reduce the content of harmful substances in tobacco smoke entering the smoker's respiratory tract is to use filters that are part of a cigarette and are located between the burning tobacco rod and the smoker's mouth.

As a rule, cigarette filters are made of cellulose acetate with the addition of activated charcoal. However, such filters provide only a partial effect of reducing the amount of toxic and mutagenic compounds that enter the smoker’s body. In addition, a negative point is that conventional filters lead to the removal of flavoring compounds, reducing their attractiveness to smokers.

Therefore, there is a need for an improved filter for a smoking article that more completely removes toxic and mutagenic compounds from tobacco smoke. In addition, there is a need for an improved filter that would allow the passage of flavoring compounds while simultaneously removing substantially toxic and mutagenic compounds from tobacco smoke.

One of the possible ways to reduce the content of harmful substances in tobacco smoke, inhaled by a smoker, is to moisturize tobacco smoke. As a rule, a humidifier is dispersed in a porous filter base, while the humidifier absorbs moisture contaminated from harmful tobacco from tobacco smoke, resulting in wet filtration of tobacco smoke.

In other versions of the cigarette filter, liquid intended for moistening tobacco is contained in a waterproof case placed inside the filter. In this case, the liquid is released by the user from the waterproof shell during smoking.

In addition, an important problem is the creation of a filter capable of letting in the flavoring substances contained in tobacco, or generate such substances directly in the filter itself.

Famous cigarette filter containing microcapsules (VI 2156099 C2), which contains a porous substrate, including microcapsules dispersed in it, which contain a hygroscopic substance, such as sodium pyroglumate.

A hygroscopic substance is able to absorb the moisture contaminated with harmful substances from tobacco smoke and release it into the porous substrate in such a way that this will filter out the moisture of tobacco smoke passing through the filter.

A known filter for a tobacco product (I8 6,631,722 B2 and I8 2004/0074507 A1), comprising a filtering material and a capsule with a deodorizing substance that improves the smell of smoke; the capsule is made of a material that is resistant to destruction when a cigarette is removed from a pack and is destroyed when a certain force is applied while releasing a deodorizing substance. Said capsule has a spherical or cylindrical shape, oriented along the axis of the filter, and is located essentially in the central part of the filter.

The tobacco filter described above has limited functionality, since the degree of purification of tobacco smoke remains almost at the same level as when using a regular cigarette filter.

Famous filter cigarette (I8 2004/0261807 A1), which contains at least one bursting capsule located in the filter and containing a liquid core. The rupture capsule is made of gelatin, and the liquid core contains at least one diluent and a flavoring substance that can change the smell of smoke inhaled by the smoker.

The prior art cigarette with a water filter (ϋδ 5,549,124), adopted for the prototype, containing a tobacco rod enclosed in a wrapper, and a filter having a first filter element connected to one of the ends of the tobacco rod and made in the form of a tow of filter material fibers, and the second filter element, located in the first filter element and having at least one hermetic enclosure with a liquid core. Distilled water is used as a liquid core.

When smoking a cigarette with the filter described above, the smoker destroys the capsule by pressing his fingers on the filter in the designated place. At the same time, water flows out of the core, wetting and softening a portion of tobacco located in the immediate vicinity of the filter, which results in wet filtration of tobacco smoke.

Due to the fact that in the filter design described above, one capsule with water is used, it is not possible to vary the degree of purification of tobacco smoke, as well as to aromatize tobacco smoke.

- 1 008885

DISCLOSURE OF INVENTION

The basis of the invention is to create a cigarette with a filter that has such a constructive implementation of the second filter element that would provide high-quality cleaning of tobacco smoke from harmful substances contained in tobacco smoke, and at the same time provide the user with the ability to vary the degree of purification of tobacco smoke.

The problem is solved in that in a patent filter cigarette containing a tobacco rod enclosed in a wrapper, and a filter having a first filter element connected to one of the ends of the tobacco rod and made in the form of a bundle of filter material, and a second filter element located in the first filtering element and having at least one hermetic casing with a liquid core, according to the invention, the second filtering element is a distributed system of waterproof casings made Contained in the form of tubular and / or ampoule capsules made with the possibility of breaking the capsules upon application of an external mechanical force, the volume of the second filter element lies in the range from 3 to 75% of the volume of the first filter element.

It is advisable that, as a liquid core, the tubular and / or ampoule capsules contain water and / or an aromatic substance.

Preferably, the aromatic content of the capsules is in the range from 40 to 98% by volume, and the water content in the capsules is in the range from 32 to 98% by volume.

It is useful for the second filter element to be at least one ampulne and at least one tubular capsule, with the tubular capsule placed along the longitudinal axis of the filter, and inside it coaxially placed the ampoule capsule.

Conveniently, the second filter element is at least one ampulne and at least one tubular capsule that are displaced one relative to another along the axis of the filter so that one of these capsules is located near the end of the filter connected to the tobacco rod, and the other capsule near the opposite end of the filter.

From a constructive point of view, it is beneficial that the length of the tubular capsule is 11-89% of the length of the filter.

It is advisable that the second filter element is a system of ampoule capsules that have a different volume and are located along the axis of the filter so that the volumes of the ampoule capsules change from larger to smaller from the end of the filter connected to the tobacco rod to the opposite end of the filter.

Preferably, the second filter element is a system of tubular capsules that have a different flow area and are located along the axis of the filter so that the size of the flow section of the tubular capsule varies from larger to smaller from the end of the filter connected to the tobacco rod to the opposite end of the filter.

Advantageously, the ratio of the number of tubular and ampoule capsules lies in the range from 1: 1 to 1:10.

It is useful that the ratio of the total volume of tubular capsules to the total volume of ampoule capsules lies in the range from 0.05 to 14.

Preferably, at least part of the ampoule or tubular capsules are filled with water, and the other part of the capsules is filled with an aromatic substance.

Advantageously, the discreteness of the change in the volume of tubular capsules or ampoule capsules lies in the range from 5 to 25%.

Structurally, it is beneficial that on the outer and / or inner side of each ampoule and / or tubular capsule there is at least one notch, made with the possibility of depressurization of the shell when an external mechanical force is applied in the range from 20 to 95 g.

Conveniently, there is at least one mark on the outer surface of the filter to indicate the location of the ampoule and / or tubular capsules.

It is useful for the oral end of the filter to be coupled with a mouthpiece embedded in it that contains a catalyst, preferably comprising a platinum group metal, and / or at least one cast, sintered or composite magnet.

Preferably, metal, polymer or ceramics are used as the material of ampoule and / or tubular capsules.

It is desirable that the metal be selected from the group comprising aluminum, tantalum, silver, gold, platinum.

It is useful that the polymer is selected from the group including polypropylene, polystyrene, low-pressure polyethylene.

It is desirable that ceramics be selected from the group including earthenware, porcelain, glass ceramics.

It is possible that the flavoring contains water and a fragrant substance, in which natural and / or identical natural flavors are used in the following ratio, wt.%: Natural and / or natural flavors - 3-78, water - 22-97.

- 2 008885

It is useful that identical natural flavors were synthesized based on alk-42-ene-1-ols of the general formula

The filter cigarette made in accordance with the present invention provides high-quality cleaning of tobacco smoke from harmful substances contained in tobacco smoke, and at the same time provides the smoker with the opportunity to vary the degree of purification of tobacco smoke.

In the case when it is necessary to vary the degree of purification of tobacco smoke, and, consequently, the degree of humidification of the filter, water is used as the liquid core.

In the event that the smoker prefers to consume cigarettes with a bouquet of aromas that he can choose, at least one aromatic substance is used as a liquid core.

In most cases, smokers, which is especially characteristic of women, care about reducing the amount of toxic and mutagenic compounds that enter the body, and also prefer to inhale flavored tobacco smoke. In such cases, part of the capsules (tubular or ampoule) as the liquid core contains water, and the other part of the capsules contains an aromatic substance, which allows combining the aromas and obtaining the desired result, simultaneously aimed at improving the degree of purification of tobacco smoke.

Brief Description of the Drawings

FIG. 1 shows a filter cigarette with one ampoule and one tubular capsule, variant 1 (partial tearing), according to the invention;

FIG. 2 - filter cigarette, option 2, according to the invention;

FIG. 3 - filter cigarette, option 3, according to the invention;

FIG. 4 is a cross section-Ι in FIG. 12;

FIG. 5 is a cross section-ΙΙ in FIG. 12;

FIG. 6 - a fragment of the cross section ΙΙ-ΙΙ (enlarged scale);

FIG. 7 is a cross section-ΙΙΙ in FIG. 3;

FIG. 8 is a filter cigarette with four tubular capsules according to the invention;

FIG. 9 is a filter cigarette with two ampoule capsules and one tubular capsule according to the invention;

FIG. 10 - a fragment of the filter element in a dry state (enlarged scale);

FIG. 11 - a fragment of the filter element in the wetted state (enlarged scale).

The best embodiment of the invention

A filter cigarette made in accordance with the present invention contains a tobacco rod 1 (FIG. 1) and a filter 2 enclosed in a shell 3 and having a first filter element 4 connected to one of the ends of the tobacco rod 1 and made in the form of a tow of filter material fibers, and the second filter element located in the first filter element 4. The second filter element is a distributed system of sealed shells with a liquid core 5, made in the form of tubular and / or ampoule capsules 6, 7, respectively, and with the possibility of destruction of the capsules 6, 7 by the application of an external mechanical force. The volume of the second filter element is in the range from 3 to 75% of the volume of the first filter element 4. Water and / or an aromatic substance is used as the liquid core 5.

In the zone of connection of the filter 2 with the tobacco rod 1, perforations 8 are made for the purpose of air ventilation, which provides the accepted range of dilution of tobacco smoke absorbed by the smoker during inhalation with a portion of fresh air that does not contain tobacco smoke components.

The tobacco rod 1 is made of pressed tobacco, enclosed in a tubular wrapper, which gives the cigarette the necessary strength, prevents arbitrary sprinkling of tobacco and ensures the stabilization of the rate of its thermal fusion. As a wrapper, smoking paper is used, preferably containing in a mass ratio of 10-45% magnesium oxide and / or magnesium hydroxide, as well as flax, cellulose fiber and anti-inflammatory additives.

In FIG. 1, 2 versions of the cigarettes, the second filter element includes one ampoule capsule 7 and one tubular capsule 6, which are displaced one relative to another along the axis 9 of the filter 3 so that one of these capsules 6 (Fig. 1) or 7 (Fig. 2) located near the end of the filter 3 connected to the tobacco rod 1, and the other capsule, respectively, the capsule 7 (Fig. 1) or 8 (Fig. 2) - near the opposite end of the filter 3. The capsules 6, 7 contain 5 as the liquid core deionized or distilled water or aromatic substance. The casing 3 of the filter 2 is made of waterproof material, for example, it is impregnated on the inside with a thin layer of purified paraffin.

The tubular and ampoule capsules 7, 6, respectively, are made of waterproof material, which can be used as a metal, polymer or ceramics. Of metals, the use of aluminum, tantalum, silver, gold, or platinum is preferred; from polymers it is desirable to use

- 3 008885 polypropylene, polystyrene or low-pressure polyethylene; Ceramics is most preferable to use earthenware, porcelain or glass ceramics.

The shape of the ampoule capsule 7 can be arbitrary, however, it is preferable to use ampoules with a maximum ratio of volume to surface area, for example, in the form of a ball or cylinder, in particular a cylinder with convex ends, as shown in FIG. 1-3.

The tubular capsule 6 may have a cross section of various shapes, in particular round, rectangular, oval or square.

In accordance with the present invention, the length of the tubular capsule is 11-89% of the length of the filter, which is determined by the amount of fluid needed to solve a specific task.

The ratio of the number of tubular and ampoule capsules lies in the range from 1: 1 to 1:10, which is determined by the design features of the filter and the material from which the capsules are made.

In the case when it is necessary to vary the degree of purification of tobacco smoke, and, consequently, the degree of humidification of the filter, water is used as the liquid core. In the event that the smoker prefers to consume cigarettes with a bouquet of aromas that he can choose, at least one aromatic substance is used as a liquid core. In most cases, smokers, which is especially characteristic of women, care about reducing the amount of toxic and mutagenic compounds that enter the body, and also prefer to inhale flavored tobacco smoke. In such cases, part of the capsules (tubular or ampoule) as the liquid core contains water, and the other part of the capsules contains an aromatic substance, which allows combining the aromas and obtaining the desired result, simultaneously aimed at improving the degree of purification of tobacco smoke.

In the embodiment shown in FIG. 3 embodiment of the invention, the second filter element includes one ampoule and one tubular capsule 7, 6, respectively, while the tubular capsule 6 is placed along the longitudinal axis 9 of the filter 2, and inside it coaxially placed the ampoule capsule 7.

FIG. 4, 5, 7 are cross-sections Ι-Ι, ΙΙ-ΙΙ and ΙΙΙ-ΙΙΙ, respectively, illustrating embodiments of the invention made in accordance with FIG. 1-3. In the presented embodiments, the shell 3 of the filter 2 is made waterproof and for this purpose is impregnated from the inside with a thin layer of purified paraffin.

For positioning the zone of depressurization of capsules 6, 7 on the outer and / or inner side of each tubular and / or ampoule capsule 7, 6 there is at least one notch 10 (Fig. 6) made with the possibility of depressurization of the capsule 7, 6 upon the application of an external mechanical efforts in the range of values from 20 to 95 g

The shape of the notches 10 may be different, for example, rectangular on the outer and inner sides of the capsule 7, spherical on the inner side of the capsule 7, trapezoidal on the outer side of the capsule 7, triangular on the outer and inner sides of the capsule 7. The parameters of the notches 10, mainly depth and area, are selected , based on the shape of the notch 10 adopted for technological reasons, its location and the properties of the material from which the capsule 7 is made. At the same time, when efforts are applied to the capsule in the range from 20 to 95 g, it should provide the capsule controlled leakage in the notch area.

In accordance with an embodiment of the invention shown in FIG. 8, the second filter element is a system of ampoule capsules 7, which have a different volume and are located along the axis 9 of the filter 2 so that the volumes of the ampoule capsules 7 change from larger to smaller from the end of the filter 2 connected to the tobacco rod 1 to the opposite end of the filter 2. In the described embodiment, one ampoule capsule 7, having a larger volume, has a lenticular shape, and the other ampoule capsule 7 has the shape of a cylinder with spherical ends. In this case, the discreteness of the change in the volume of ampoule capsules 7 lies in the range from 5 to 25%.

In the described embodiment, the tubular capsule 6 has the shape of a torus.

Such a variety of forms for carrying out ampoule and tubular capsules 7, 6, respectively, makes it possible to use the most technological form acceptable for a particular manufacturer.

In the described embodiment of the invention, one of the ampoule capsules 7 and the tubular capsule 6 may contain water as the liquid core 5, and an aromatic substance in the other ampoule capsule 7. However, this implementation is not the only possible and can be changed in accordance with specific requirements.

FIG. 9 shows an embodiment of the invention in which the second filter element is a system of tubular capsules 6 that have a different flow area and are located along the axis 9 of the filter 2 so that the size of the flow section of the tubular capsule 6 varies from larger to smaller than the end face of the filter 2 connected with a tobacco rod 1, to the opposite end of the filter 2. In this case, the discreteness of the change in the volume of the tubular capsules 6 lies in the range from 5 to 25%.

For the convenience of the user, there is at least one mark 11 on the outer surface of the filter to indicate the location of the ampoule and / or tubular capsules 7, 6.

In the described versions of the cigarette to avoid direct contact of the oral cavity of the smoker with a wet filter 2 from the oral end of the filter 2 is provided

- 4 008885 by mouthpiece 12.

The mouthpiece 12 contains a catalyst, preferably containing a platinum group metal, or at least one cast, sintered, or composite magnet.

FIG. 10, 11, fragments of the first filter element 4 are presented in the “dry” and “wet” state formed after depressurization of at least one of the capsules 6, 7. From the drawings it can be seen that in the interfiber space 13 between the fibers 14 of the filter element 4, the characteristic diameter which is from 0.25 to 4 microns, a thin film of water 15 is formed, extending from the liquid core 5 of the capsule 6, 7. In this case, the film 15 of water envelops in the interfiber space 13 the fibers 14 of the filter element 4, thereby increasing the filtering properties of ednego.

According to the present invention, at least part of the capsules 6, 7 contains an aromatic substance based on water and fragrant substances, in which natural and / or natural flavors are used, in particular, in the following ratio of ingredients: natural and / or identical natural flavors - 3-78 wt.%, Water - 22-97.

As natural flavoring substances known sources of natural taste and aroma are used, for example, made from extracts of immortelle, linden, lavender, sage and others; buds of birch, black currant, lemon balm, peppermint, wormwood, rosemary and others; from the roots of valerian medicinal, ginger, pink radioli, Eleutherococcus spiny; from the bark and peels of orange, cinnamon, lemon, tangerine; from dried fruits, seeds, nuts or berries of apricots, cocoa, cardamom, raspberry, bitter almond, cocoa, coriander, nutmeg, odorous, fennel ordinary; from fruit or berry wort, such as apricot, quince, orange, cherry, strawberry, cranberry, rowan, plum, apple and others.

As one of the possible embodiments of the invention, flavors identical to natural ones are synthesized based on alk-42-ene-1-ols of the general formula

Patented filter cigarette is used as a regular cigarette habitual for a smoker. At the same time, in order to increase the degree of purification of tobacco smoke by the smoker himself, at his request, at least one ampoule or one tubular capsule is destroyed immediately before the start of smoking or during its process. At the same time, the liquid flows out of the capsule, wetting and softening the fibers of the first filter element and, as a result, increasing the filtering properties of the cigarette filter.

These and other advantages of the present invention are illustrated by the examples below. Example 1

Used 40 cigarettes, manufactured in accordance with the standard Ι8Θ 3402 (weight of cigarette 874 20 mg). 20 cigarettes were left as a reference lot, and in each of the other 20 cigarettes, two ampoule capsules were placed in a ball shape filled with distilled water. After that, each cigarette was weighed again. The shell of the first ampoule capsule is made of aluminum foil, and the second is made of silver foil. There is a double-sided incision on the inside and outside of both ampoule capsules. On the first capsule, the notch has a rectangular shape, and its area is 1 mm, and on the second capsule, the notch is M-shaped, and its area is 1.5 mm. In the filter thus modified, the first filter element retains approximately 29% of its original volume, which is established as a result of the individual weighing of the filter material fibers that were removed by mechanical micro-milling from 56 to 60 mg.

Then, an automatic smoking machine was used to set a cigarette smoking regime with parameters in accordance with the standard Ι887 4387 (the volume of inhalation was 35 ml, the inhalation time was 2 s, the pause between breaths was 58 s). Then the ampoule capsules were unsealed by applying a 50-g force to the tobacco filter. The water released from the ampoule capsules entered the air space between the fibers of the first filter element and filled it, thereby improving the filtering properties of the cigarette filter. After that they started an automatic smoking machine. After the termination process (“smoking”) of the tobacco rod was completed, the used filters were weighed. As a result of quantitative analysis of tobacco smoke filtrate, it was found that when smoking a cigarette with a filter on an automatic smoking machine, the weight of the first filter element increased by an amount not exceeding the range of values from 22 to 25 mg. In relation to the initial weight of the first filter element, amounting to an average of 210 mg, the weight gain was about 11.2%.

In order to qualitatively analyze the composition of the filtrate, the combined filters used by “smoking” on an automatic smoking machine were placed in 135 ml of ethanol for 24 hours, the extract of which was then subjected to spectral analysis. The result of spectral analysis of ethanol extract of tobacco smoke filtrate in accordance with this example is summarized as before

- 5 008885 placed below.

The results of the spectral analysis of the ethanol extract of the tobacco smoke filter made it possible to establish that this extract contains a wide range of the following components of tobacco smoke: carbon monoxide, tobacco pyrolysis gums, carcinogenic trace elements, tobacco-specific Ν-nitro compounds, volatile Ν-nitro compounds, nicotine, 3,4-benzopyrene , acetic acid, polyaromatic hydrocarbons, radionuclides, heavy metals, halogens, nitrazoamine esters, ketones, aldehydes, amines and amides.

Example 2

30 cigarettes were selected, of which 10 were left as a control lot.

The remaining 20 cigarettes were broken into two equal batches and structurally aligned with the declared filter design shown in FIG. one.

In the first batch from the end of the filter, adjacent to the tobacco rod, a tubular capsule containing 40% by volume of liquid flavoring in the form of an extract based on 60% ethyl alcohol containing fennel oil was installed in the porous filter element. An ampoule capsule containing 98% by volume of deionized water was placed in the porous filter element on the mouth side. A paper filter casing was made waterproof, impregnated from the inside with a thin layer of purified paraffin.

In the second batch, on the side of the end, adjacent to the tobacco rod in a porous filter element, an ampule capsule containing 98% by volume of a liquid flavoring in the form of an extract based on 15% ethyl alcohol containing mint oil was axially mounted. Next, a tubular capsule containing 32% by volume of distilled water was placed on the porous filter element on the oral side of the filter. A paper filter casing was made of a waterproof fluoroplastic film clad from the inside.

Next, under the filter casing, the mouthpiece was installed, after having applied and fixed about 0.05-0.07 mg of catalyst in the form of platinum microparticles on its central holder.

Further, a group of five experts with a smoking experience of at least 18 years, smoked all cigarettes.

First, we smoked 5 cigarettes of the control lot.

Before starting smoking the first batch of cigarettes, five ampoule capsules were depressurized, applying a force of 95 g to the filters at their locations. At the same time, only 3 cigarettes of this batch produced depressurization of tubular capsules, applying an effort in a filter shell of 25 g. Having smoked the tobacco core of each cigarette 1/2 of its length, depressurization of the remaining tubular capsules was made, applying a force of 25 g in its positioning position. Then the experts finished these 5 cigarettes.

Each of the remaining 5 cigarettes of the first batch, before smoking, made a depressurization of the tubular capsule and then smoked a tobacco rod to 1/2 of its length, after which it stopped the smoking process and depressurized the ampoule capsule, applying a force of 95 g in its placement zone. The experts then smoked the 5 remaining cigarettes.

Starting to smoke cigarettes of the second batch, five tubular capsules were depressurized, applying force to the filters at their locations of 60 g. However, only 3 cigarettes of the second batch made depressurization of the ampoule capsules, applying a force of 60 g. Sparked the tobacco core of each cigarette on 1/2 of its length, depressurization of the remaining ampoule capsules was made by applying a force of 60 g at the place of its positioning. Then the experts finished out these 5 cigarettes.

Each of the remaining 5 cigarettes of the second batch before smoking the cigarette produced a depressurization of the tubular capsule by applying an effort at its positioning position of 30 g and then smoked the tobacco rod 1/2 of its length. After that, the smoking process was stopped and the ampoule capsules were depressurized by applying a force of 60 g in the area of their placement. The experts then smoked the 5 remaining cigarettes.

In conclusion, the remaining 5 cigarettes of the control lot were smoked.

Expert assessment of taste and sensory sensations from the first, second and control batches of cigarettes from the standpoint of the level of aromatization showed that compared with the control batch of cigarettes, both the first and second groups of cigarettes had a significant change in aroma and an increase in the degree of purification of tobacco smoke.

Example 3

Selected 70 cigarettes with a filter formed of a porous filter element in the form of a bundle of acetate fibers, equipped with a plastic mouthpiece. Then 10 cigarettes of the selected quantity were left as a control lot.

The ratio of tubular capsules to ampoule forms was set equal to 1: 3. The remaining 60 cigarettes were divided into the first (30 cigarettes) and second (30 cigarettes) batches.

In the first batch from the end, adjacent to the tobacco rod on the porous filter element, a tubular capsule was installed containing the flavoring in the form of a vapor-gas composition

- 6 008885 VA, formed by 40% of eucalyptus ether in freon. Next, in the porous filter element, from the mouthpiece side, an axial sampling of the material was performed and three ampoule capsules were successively placed in it. The relative change between the volumes of these capsules among themselves was set from the following ratio: 70% -25% -5%, starting with the first ampoule capsule. The first ampoule capsule contains 70% by volume of distilled water, the second - 45% by volume of deionized water, and the third - 32% by volume of distilled water. The filter casing was waterproof, impregnated from the inside with a thin layer of low-pressure polyethylene.

In the second batch, on the side of the butt adjacent to the tobacco rod, the first ampoule capsule was axially installed in the porous filter element, containing the flavoring in the form of a vapor-gas composition formed of 50% by volume of chamomile ether in freon, then the second ampoule capsule containing 40% was sequentially installed .% mint curly ether in freon, and a third ampoule capsule containing 80% vol. rosemary ether in freon. Then, on a porous filter element on the oral side of the filter, a tubular capsule containing 32% by volume of distilled water was placed in a pre-formed recess. The filter shell was made waterproof, internally clad with fluoroplastic film.

Next, smokers smoked 10 cigarettes from the control batch.

Before smoking, 15 cigarettes of the first batch were depressurized tubular capsules, applying force to the filters at their locations of 40 g. At that, only 5 cigarettes of this batch made depressurization of the first ampoule capsules, applying a force in the filter casing of 20 g. Smoked a tobacco rod each cigarette 1/3 of its length, produced a depressurization of the second ampoule capsules, applying force in the place of its positioning of 30 g. Having smoked a tobacco rod 2/3 of its length, produced a depressurization uw third of sealed capsules, and the first 10 of sealed capsules in those cigarettes, where it had not been done in the beginning of the process of smoking, was finishing after which all 15 cigarettes.

In the other 15 cigarettes of the first batch, before smoking the cigarettes, the tubular capsule was depressurized and 10 first ampoule capsules were depressurized, then the tobacco rod was smoked 1/3 of its length, then the smoking process was stopped and the third 5 ampoule capsules were depressurized and added effort 95 g in the area of their placement. Then the experts smoked cigarettes to 2/3 of the length of his tobacco rod and unsealed all the second ampoule capsules, after which they completed the smoking of the remaining cigarettes of the first batch.

Starting to smoke the second batch of cigarettes, the tubular capsule was depressurized, applying force to the filters at their locations of 50 g. At the same time, only 5 cigarettes of the second batch produced depressurization of the ampoule capsules by applying a filter sheath of 30 g. He smoked a tobacco rod of each cigarettes to 1/2 of its length, another 5 ampoule capsules were depressurized, making an effort in the place of its positioning of 30 g. Having smoked cigarettes 2/3 the length of a tobacco rod, unsealed the remaining I have 5 ampoule capsules, after which the experts smoked cigarettes.

In the remaining 15 cigarettes of the second batch, before smoking the cigarettes, the first tubular capsule was depressurized, applying force at its positioning position of 30 g, and then smoking the tobacco rod 1/2 of its length. After this, the smoking process was stopped and the second ampoule capsule was depressurized, applying a force of 45 g in its placement zone. Having smoked 2/3 of the length of the tobacco rod, the third ampoule capsule and the tubular capsule were depressurized. Then the experts smoked these cigarettes.

In conclusion, the remaining 5 cigarettes of the control batch were smoked.

Expert assessment of taste and sensory sensations from smoked cigarettes of the first, second and control batches from the standpoint of the level of aromatization showed that compared with the control batch of cigarettes, both the first and second groups of cigarettes had a significant change in aroma and an increase in the degree of purification of tobacco smoke.

Thus, in addition to a wide range of toxic, toxic, mutagenic and carcinogenic components of tobacco smoke that are extracted and bound in a cigarette filter, this technical solution is characterized by the ability to choose the degree of filtration by the smoker himself, while the possibility of flavoring tobacco smoke is possible.

Claims

CLAIM

1. A filter cigarette comprising a tobacco rod enclosed in a wrapper and a filter having a first filter element connected to one of the ends of the tobacco rod and made in the form of a bundle of fibers of filter material, and a second filter element located in the first filter element and having at least one hermetic shell with a liquid core, characterized in that the second filter element is a distributed system of waterproof shells made in the form of tubular and / or ampoule capsules flax with the possibility of destruction of the capsules when external mechanical force is applied, while the volume of the second

- 7 008885 filter element lies in the range from 3 to 75% of the volume of the first filter element.

2. The cigarette according to claim 1, characterized in that the tubular and / or ampoule capsules contain water and / or aromatic substance as a liquid core.

3. The cigarette according to claim 2, characterized in that the content of aromatic substances in the capsules lies in the range from 40 to 98 vol.%, And the water content in the capsules lies in the range from 32 to 98 vol.%.

4. The cigarette according to claim 1, characterized in that the second filter element is at least one ampoule and at least one tubular capsule, while the tubular capsule is placed along the longitudinal axis of the filter, and the ampoule capsule is coaxially placed inside it.

5. Cigarette according to claim 1, characterized in that the second filter element is at least one ampoule and at least one tubular capsule, which are offset one relative to the other along the axis of the filter so that one of these capsules is located near the end of the filter connected to tobacco rod, and the other capsule is near the opposite end of the filter.

6. A cigarette according to claim 3 or 4, characterized in that the length of the tubular capsule is 11-89% of the length of the filter.

7. The cigarette according to claim 1, characterized in that the second filter element is a system of ampoule capsules, which have a different volume and are located along the axis of the filter so that the volumes of ampoule capsules change from larger to smaller from the end of the filter connected to the tobacco rod, to the opposite end of the filter.

8. The cigarette according to claim 1, characterized in that the second filter element is a system of tubular capsules, which have a different passage section and are located along the axis of the filter so that the size of the passage section of the tube capsule changes from larger to smaller from the end of the filter connected to tobacco rod to the opposite end of the filter.

9. The cigarette according to claim 1, characterized in that the ratio of the number of tubular and ampoule capsules lies in the range from 1: 1 to 1:10.

10. The cigarette according to claim 1, characterized in that the ratio of the total volume of tubular capsules to the total volume of ampoule capsules lies in the range from 0.05 to 14.

11. The cigarette according to claim 1, characterized in that at least part of the ampoule or tubular capsule is filled with water, and the other part of the capsule is filled with aromatic substance.

12. A cigarette according to claim 7 or 8, characterized in that the discreteness of the change in the volume of tubular capsules or ampoule capsules lies in the range from 5 to 25%.

13. The cigarette according to claim 1, characterized in that on the outer and / or inner side of each ampoule and / or tubular capsule there is at least one notch configured to depressurize the shell when an external mechanical force is applied in the range of values from 20 to 95 g.

14. The cigarette according to claim 1, characterized in that on the outer surface of the filter there is at least one mark to indicate the location of the ampoule and / or tubular capsules.

15. The cigarette according to claim 1, characterized in that from the side of the oral end the filter is connected to the mouthpiece integrated therein.

16. The cigarette according to item 15, wherein the mouthpiece contains a catalyst, preferably containing a platinum group metal.

17. A cigarette according to claim 15, characterized in that the mouthpiece contains at least one cast, sintered or composite magnet.

18. The cigarette according to claim 1, characterized in that the material of the ampoule and / or tubular capsules used metal, polymer or ceramic.

19. A cigarette according to claim 18, wherein the metal is selected from the group consisting of aluminum, tantalum, silver, gold, platinum.

20. A cigarette according to claim 18, wherein the polymer is selected from the group consisting of polypropylene, polystyrene, low pressure polyethylene.

21. A cigarette according to claim 18, wherein the ceramic is selected from the group comprising earthenware, porcelain, glass ceramics.

22. The cigarette according to claim 1, characterized in that the flavoring contains water and an aromatic substance, which are used natural and / or identical to natural flavoring substances in the following ratio of components, wt.%: Natural and / or identical to natural flavoring substances - 3 -78, water - 22-97.

23. The cigarette according to item 22, wherein the identical natural flavoring substances are synthesized based on alk-42-en-1-ol of the General formula