Aroma inhalator of non-heating type and aromatic cartridge manufacture method

FIELD: tobacco industry.

SUBSTANCE: invention relates to an aroma inhalator of non-heating type which contains the following elements: hollow holder having an axis, the holder containing a front end, a back end functioning as a mouthpiece end, an atmosphere air inflow hole and a flow channel limited in the holder and designed with the possibility to direct atmosphere air admitted from the atmosphere air inflow hole to the mouthpiece end; and an aromatic cartridge having air permeability and placed in the holder to continue inside the holder from the front end to the mouthpiece end along the holder axis. The aromatic cartridge divides the flow channel into an outlet area, continuing from the aromatic cartridge to the mouthpiece end, and an inlet area, communicating with the atmosphere air inflow hole and placed adjacent to the aromatic cartridge. The aromatic cartridge contains a frame, granulated aroma-releasing material loaded into the frame and able to release an aromatic component without inflammation. The aroma-releasing material contains granulated tobacco, produced by way of tobacco leaves shredding or milling, and a compressing device designed for keeping the aroma-releasing material in a compressed condition ensuring the aromatic cartridge air permeability.

EFFECT: ensuring aroma without damage to wider public.

13 cl, 44 dwg

 

The technical field

[001] the Present invention relates to an inhaler aroma nenapravilo type that does not need any ignition and, nevertheless, able to deliver to the user an aromatic component, such as tobacco flavor, when the user pulls the air, and method of manufacturing aromatic cartridge.

The level of technology

[002] Cigarettes for a long time was the taste of goods, brought pleasure to many users. In recent years began to pay attention to such a problem that the so-called side smoke and the smell emitted when burning cigarette, creating discomfort for the people around the smoker.

[003] To solve this problem, in the following patent document 1 is proposed inhaler aroma nenapravilo type, for example, smokeless tobacco. In particular, the inhaler fragrance contains breathable tobacco molded product made of tobacco material and binding agent, and the holder containing tobacco molded product, the holder is made in the form of a hollow cylinder with openings on both ends (patent document 1).

[004] on the other hand, in patent document 2, also shown below, the proposed aroma inhaler, containing a hollow cylindrical holder and aromatic cartridge placed in to keep the body. Aromatic cartridge has a hollow cylindrical porous structure, and the nicotine and the flavouring substance contained in the porous structure.

[005] Inhalers fragrance, described in patent documents 1 and 2 do not need to be ignited and, nevertheless, can provide the user aromatic component that is specific to tobacco, when the user inhales the air that passes through the tobacco molded product or aromatic cartridge.

The DOCUMENTS of the prior art

PATENT DOCUMENTS

[006] Patent document 1: Published Japan's bid No. 64-60364

Patent document 2: Published Japan's bid No. 2-171174

The INVENTION

TASKS INVENTIONS

[007] In the aroma inhaler, proposed in patent document 1, a small area of contact between the tobacco material in the tobacco molded product and air, and therefore, the amount of aromatic component extracted from the tobacco material in the air, small.

On the other hand, in the aroma inhaler, proposed in patent document 2, the porous structure has a large area of contact with air. Therefore, in comparison with the aroma inhaler, proposed in patent document 1, the amount of aromatic component emitted from the porous structure in the air is significant./p>

[008] Even in the inhaler aroma of this type, which is described in patent document 2, it is possible to use the tobacco material to highlight the aromatic component, such tobacco. However, if the use of tobacco material in the form of the above-mentioned molded tobacco products, the amount of the aromatic component is small, as in the aroma inhaler, proposed in patent document 1. Therefore, the aromatic component to be extracted from the tobacco material, and the porous structure is necessary to impregnate the extracted aromatic component. However, the process of extraction and impregnation process complicate the production of aroma inhaler.

[009] in Addition, the aroma inhaler, proposed in patent document 2, contains an air channel located behind the move for the porous structure, and this air channel is relatively narrow and long. Accordingly, the flow rate of air flowing through the air channel when the user pulls the air is relatively high, and this high-speed air flow noise of the suction in the air duct. Depending on the configuration of the air channel, the noise of the suction reverberated inside the air channel, which the user feels uncomfortable.

[0010] In particular, when the inner is th channel, through which flows the air passed through the tobacco material is long, as in the above-mentioned aroma inhaler, there are noticeable generation and reverberation noise absorption.

The present invention is to create nenapravilo inhaler aroma, which provides a relatively high efficiency of the allocation of the aromatic components from tobacco material, and which can effectively reduce noise absorption.

MEANS of SOLVING PROBLEMS

[0011] In nagrevaem the aroma inhaler, proposed in patent document 1, the tobacco molded product formed by curing the tobacco material using a binder. Accordingly, the contact area between the tobacco material and air is negligible, and the efficiency of the allocation of the aromatic components from the tobacco material in the air is low.

[0012] on the other hand, in the aroma inhaler, proposed in patent document 2, a porous structure containing flavouring substance has a large area of contact with air. Therefore, the efficiency of the allocation of the aromatic components from the porous structure is high, in comparison with the inhaler flavoring proposed in patent document 1.

[0013] However, in the case of aroma inhaler, proposed is in patent document 2, if to highlight the flavor, similar to tobacco use, the tobacco material, the curing of the tobacco material is necessary to use a large amount of the binder, resulting in efficient allocation of the scent decreases, as in the case of patent document 1. Therefore, additional processes for the extraction of the aromatic components from the tobacco material and impregnating the porous structure of the extracted aromatic component.

[0014] in Addition, after passing through the porous structure, the air is forced to flow through a relatively long and narrow air channel located behind the move for the porous structure. Therefore, the flow rate of air flowing through the air channel, is relatively high. This high-speed air flow in the air duct produces a noise absorption, and, depending on the configuration of the air channel, the noise of the suction reverberated inside the air channel, which the user feels uncomfortable.

[0015] the present invention is to create a nebulizer aroma nenapravilo type, which provides a relatively high efficiency of the allocation of tobacco aromatic component of aromachemicals material and which can effectively reduce noise of the ICA is ivania, and method of manufacturing aromatic cartridge.

[0016] This problem is solved by nenapravilo inhaler fragrance according to the invention, which contains:

a hollow holder having an axis, the holder includes a front end, a rear end, acting double end opening of the inflow of atmospheric air, and a flow channel, limited in the holder and is made with the possibility of the direction of the atmospheric air, the intake of the openings of the inflow of atmospheric air to such an end; and

aromatic cartridge having air permeability and is located in the holder to continue inside the holder from the front end to double the end along the axis of the holder, with aromatic cartridge divides the flow channel in the region of release, continued from aromatic cartridge to such an end, and the region of the inlet chamber connected with the opening of the inflow of atmospheric air and located adjacent to the aromatic cartridge

this aromatic cartridge contains

frame

granulated, anomalopidae material loaded in the frame and is able to allocate aromatic component without ignition, and anomalopidae material contains granulated tobacco received by sbrasyvaniem or grinding the tobacco leaf and stalk is, and

the compressive device designed to maintain aromachemicals material in a compressed state, while providing breathability aromatic cartridge.

[0017] With the above aroma inhaler, when the user draws air through the double end of the holder, the air passes through the aromatic cartridge uniformly throughout its area. When the air gets the ability to satisfactorily communicate with aromachemicals material in aromatic cartridge and, therefore, may contain tobacco aromatic component emitted from aromachemicals material. Since the air drawn by the user, contains tobacco aromatic component, the user can actually enjoy the tobacco flavor.

[0018] Also anomalopidae material is stored in a compressed state, and, therefore, anomalopidae material performs the function of sound-absorbing wall of sound above the noise of the suction and effectively reduces the noise absorption.

In particular, the compressive device comprises a pair of compression elements for compression aromachemicals material in the direction perpendicular to the axis of the holder, each gripping element contains a lot of ventilation holes formed by the given element to ensure the permeability of aromatic cartridge. In a preferred embodiment, in this case, the ventilation holes in one of the gripping elements partially aligned with the ventilation holes in the other of the gripping elements when the form in the direction of compression aromachemicals material.

[0019] in Addition, in the preferred embodiment, anomalopidae material is loaded in such a way that the flow resistance aromachemicals material after compression, expressed by the formula:

((1 - Porosity^2)/Porosity^3)×(Height load/cross-sectional Area), equal to or greater than 0,005.

[0020] the Aromatic cartridge may further comprise a breathable package, which is Packed anomalopidae material or when anomalopidae material is loaded directly into the frame, aromatic cartridge may further comprise a breathable element covering the ventilation openings compressive elements.

In a preferred embodiment, the breathable package and breathable element creating a pressure drop of 0.5 mm H2O or above.

[0021] the Present invention also provides a method of manufacturing the above-mentioned aromatic cartridge. Way, other objectives of the present invention and details of the construction of the inhaler fragrance will be clear from the following detailed description.

The TECHNICAL RESULT IMAGE IS ETENIA

[0022] the Inhaler aroma nenapravilo type according to the invention allows efficient allocation of tobacco aromatic component of the aromatic cartridge and is also able to reduce the generation of noise absorption.

BRIEF DESCRIPTION of DRAWINGS

[0023] Fig. 1 is a view in cross section of aroma inhaler in accordance with a first variant implementation.

Fig. 2 is a view of the inhaler of flavor in section along II-II in Fig. 1.

Fig. 3 is a perspective view aromatic cartridge shown in Fig. 1.

Fig. 4 is a view in cross section of aromatic cartridge.

Fig. 5(a)-5(g) are images illustrating in order the procedure for producing flavor cartridge.

Fig. 6(a)-5(e) are images illustrating in order the procedure for producing flavor cartridge in accordance with a second embodiment of the execution.

Fig. 7 is a view in cross section of the suction tester.

Fig. 8 is a view in plan of the squeeze plate used in the suction tester shown in Fig. 7.

Fig. 9 is a view in plan of another compression plate.

Fig. 10 is a view in plan of one compression plate.

Fig. 11 diagram of the measuring device, used with suction tester shown in Fig. 7.

Fig. 12 is a graph representing the relationship between regarded by the number of puffs and the delivery of nicotine.

Fig. 13 is a view in cross section of another suction tester.

Fig. 14 - the Rafik, representing the dependence between the variable characterizing the flow resistance and noise absorption.

Fig. 15 is a graph representing the relationship between the ratio of aromachemicals material and recovery time.

Fig. 16 is a view in cross section of aroma inhaler in accordance with a modification.

Fig. 17 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 18 is a view of the inhaler of flavor in section along VIII-VIII in Fig. 17.

Fig. 19 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 20 is a view of the inhaler of flavor in section along X-X in Fig. 19.

Fig. 21 is a view in cross section of aroma inhaler in accordance with the additional modification.

Fig. 22 is a view of the inhaler of flavor in section along XII-XII in Fig. 21.

Fig. 23 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 24 is a side view of the inhaler of fragrance in accordance with another modification.

Fig. 25 is a side view of the inhaler of fragrance in accordance with the additional modification.

Fig. 26 is a front view aromatic cartridge, viewed from the direction indicated by the arrow a in Fig. 25.

Fig. 27 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 28 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 29 - the ID section, taken along the line XIX-XIX in Fig. 28.

Fig. 30 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 31 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 32 is a view in cross section of aroma inhaler in accordance with still another modification.

Fig. 33 is a view in cross section of aroma inhaler in accordance with the additional modification.

Fig. 34 is a view in cross section of aroma inhaler, taken along the line XIV-XXIV in Fig. 33.

Fig. 35 is a view in cross section of aroma inhaler in accordance with another modification.

Fig. 36 is a view in plan of aromatic cartridge in accordance with another modification.

Fig. 37 is a view in cross section horizontally inhaler aroma equipped aromatic cartridge shown in Fig. 36.

Fig. 38 is a view in longitudinal section of aroma inhaler shown in Fig. 37.

Fig. 39 is a view in plan of aromatic cartridge in accordance with another modification.

Fig. 40 is a view in plan of aromatic cartridge in accordance with another modification.

Fig. 41 is a front view aromatic cartridge in accordance with still another modification.

Fig. 42 is a view in plan of aromatic cartridge in accordance with the additional modification.

Fig. 43 is a view in cross section of aromatic cartridge in accordance with another additional modyfikacje is.

Fig. 44 is a view in plan of aromatic cartridge in accordance with the additional modification.

The PREFERRED embodiment of the INVENTION

[0024] In Fig. 1 shows the nebulizer 1 flavor nenapravilo type (hereinafter, simply referred to as a nebulizer) in accordance with the first variant complete with holder 2 made of plastic. The holder 2 is made in the form of a hollow cylinder and has a rear open end and a front open end. The rear end forms a double end 4, and the front end is open in its upper half. A semi-circular hole forms the opening 16 of the inflow of atmospheric air. Therefore, inside the holder 2 is formed a flow channel that extends from the hole 16 of the inflow of atmospheric air to the double end 4.

[0025] In a preferred embodiment, the holder 2 has an internal diameter ranging from 4 to 14 mm In an alternative embodiment, the holder 2 may have an elliptic shape in cross-section, and, in this case, the major axis of the ellipse has a length preferably ranging from 4 to 14 mm

Semi-circular partition wall 6 protrudes from the inner circumferential surface of the holder 2 and is positioned to be closer to double end 4 than is the center of the holder 2, when seen in the axial direction of the holder 2. The partition 6 is rivet semicircular region, corresponding to approximately half the cross-section of the holder 2.

[0026] in Addition, as evident from Fig. 2, the inner circumferential surface of the holder 2 is formed a pair of longitudinal grooves 8. Longitudinal grooves 8 spaced from one another in the diametrical direction of the holder 2 so that between them is the axis of the holder 2, and continue from the speaker to the end walls 6 to the front end of the holder 2 parallel to the axis of the holder 2.

[0027] Inside the holder 2 is aromatic cartridge 30. Aromatic cartridge 30 extends from the front end of the holder 2 to the partition 6 exactly at the axis of the holder 2 and has a pair of side edges that are inserted into the respective longitudinal grooves 8. That is, the aromatic cartridge 30 is mounted in a holder 2. In particular, aromatic cartridge 30 is made in the form of a plate and has a width slightly larger than the inner diameter of the holder 2, that is, a width almost equal to the distance between the bases of the two longitudinal grooves 8.

[0028] In this embodiment, the aromatic cartridge 30 and the partition 6 divides the flow passage in the holder 2 at the region 12 of the inlet and the region 14 release. Region 12 intake is located near the front end of the holder 2 and extends from the hole 16 of the inflow of atmospheric air to the walls 6, when seen in axial direction the AI holder 2. Relative to the radial direction of the holder 2, region 12 intake is limited to polukarpovo inner circumferential surface of the holder 2 and aromatic cartridge 30. Accordingly, region 12 has a semicircular inlet flow section.

[0029] on the other hand, the region 14 of the issue continues from the front end to the double end 4 of the holder 2 and has a front flow section 14f and the rear running plot 14r. In particular, the front flow section 14f extends from the front end of the holder 2 to the partition 16 and the opposed region 12 through inlet aromatic cartridge 30 that is located between them. Therefore, the front flow section 14f has a semicircular area of passage, like region 12 intake. As a result, aromatic cartridge 30 has a rectangular blown flow zone, open region 12 of the intake and the front flow section 14f, respectively, and each blown by a flow area substantially greater than the cross-sectional area of the holder 2. Back flow plot 14r has a circular flow cross-section and extends from the partition 16 to double end 4.

[0030] As shown in Fig. 3 and 4, aromatic cartridge 30 includes a rectangular frame 34 and anomalopidae material 32, is loaded directly into the frame 34. Anomalopidae material 32 contains the pellet is consistent tobacco as its main component, and granulated tobacco received by sbrasyvaniem or shredding tobacco leaves and has a grain size of 0.2 to 2.0 mm

[0031] In a preferred embodiment, anomalopidae material 32 further comprises an additive, such as a carbonate or bicarbonate of an alkali metal or alkaline earth metal, and the above-mentioned additive activates the selection of the aromatic component of granulated tobacco. When the additive is potassium carbonate, for example, calcium carbonate is contained preferably in an amount of 1-10 wt.% from the dry weight of granulated tobacco.

[0032] Anomalopidae material 32 does not contain a binder, and, therefore, granulated tobacco in aromachemicals material 32 has a sufficiently large contact area with air. Thus, although the granular tobacco aromachemicals material 32 does not let the heat of granulated tobacco can be allocated a sufficient amount of an aromatic component. Anomalopidae material 32 may contain a different flavor, in addition to granulated tobacco, and this additional flavoring can allocate aromatic component that is different from the aromatic component of granulated tobacco.

[0033] Therefore, the frame 34, which may be made of plastic, General purpose, for example, polypropylene (PP),in the preferred embodiment, made of a material which is less likely captures the aromatic components of granulated tobacco and additional flavoring. A preferred example of the material of the frame 34 is a copolymer of ethylene and vinyl alcohol (trade name: EVOH), but you can also use paper.

[0034] the Aromatic cartridge 30 further comprises a pair of gripping elements, namely compression plate 36. Data compression plates 36 are of the top and bottom of the frame 34, respectively, and serve to support aromachemicals material 32, in a predetermined desired compressed state. The desired compressed condition illustrated in further. Compression plates 36 are also in direct contact with aromachemicals material 32, and therefore the compressive plate 36 is made, preferably, of the same material as the frame 34.

[0035] Through each of the sealing plate 36 is formed with many ventilation holes 37 to provide breathability aromatic cartridge 30, regardless of the compression plates 36. In particular, in the preferred embodiment, the ventilation openings 37 one compression plate 36 is combined at least partially with appropriate ventilation holes 37 of the other compression plate 36 (see Fig. 4).

Ventilation holes 7 provide breathability aromatic cartridge 30, as stated above, but since the main component of aromachemicals material is granulated tobacco, pelletized tobacco may fall through the ventilation holes 37, which makes it difficult to maintain the desired compressed condition. In this respect, the formation of the vent hole 37 is impractical.

[0036] Thus, in the present embodiment, each vent hole 37 is covered with air-permeable sheet 39 as an air-permeable element, and the air-permeable sheet 39 creates a pressure drop of 0.5 mm H2O or above. In particular, the air-permeable sheet 39 is made of non-woven substance, mesh sheet or something similar, and then the air-permeable sheet 39 can be attached to the pressure plate 36 by adhesive. In a preferred embodiment, the air permeable sheet 39 is made of the same material as the pressure plate 36, or covered with this material, while the air-permeable sheet 39 can be attached to the pressure plate 36 by thermal welding or ultrasonic welding.

[0037] In Fig. 5 schematically depicts a technological device for producing flavor cartridge 30 and the procedure of manufacture.

Technological device 40 has a supporting base 42, and the frame 34 and the lower compression plate 36, is already provided in duhapentele sheet 39, placed on the supporting base 42 (Fig. 5(a)). At this point, the frame 34 and the lower compression plate 36 are connected to each other. In Fig. 5 air-permeable sheet 39 is not shown.

[0038] a field device 40 further comprises a guide frame 44 and the plunger 46. Guide frame 44 has an internal shape that matches the shape of the frame 34. Accordingly, when placed on the frame 34, the guide frame 44 forms an extension of the frame 34 (Fig. 5(b)).

On the other hand, the plunger 46 is of such a size to permit its insertion in the guide frame 44, and can move vertically within the guide frame 44 and frame 34 (Fig. 5(e)).

[0039] For the manufacture of aromatic cartridge 30, first, a pre-measured, the specified number of aromachemicals material 32 loaded into the internal space of the frame 34 through the guide frame 44 (Fig. 5(b)). At this stage anomalopidae material 32 load up to such height or the height of the load that the upper surface of this material is above the frame 34, that is, inside the guide frame 44 (Fig. 5(c)). Then the surface aromachemicals material 32, align, if necessary (Fig. 5(d)).

[0040] After anomalopidae material 32 is loaded as described above, the plunger 46 is inserted into the guide frame 44 with the upper side of healthy lifestyles is the fact that the frame 44, in order to seal anomalopidae material 32 within the frame 34 to excessively compressed state, which is a condition, compressed stronger than the above required compressed state. Then the plunger 46 and the guide frame 44 returns to its original position, appointed over the frame 34, and, immediately afterwards, the upper compression plate 36, already has a breathable sheet 39, attached to the upper surface of the frame 34. From this moment the production of aromatic cartridge 30 is completed (Fig. 5(e)).

[0041] the Above-described desired compressed condition aromachemicals material 32 created by the plunger 46, provides a bulk density in the range from 150 to 2500 mg/cm3aromachemicals material 32. In particular, the bulk density of the compressed aromachemicals material 32 1.5-5 times the bulk density of the uncompressed aromachemicals material 32. For example, when the frame 34 has a flow section 100-1000 mm2and the height of 1-6 mm, loading aromachemicals material 32 is 100-1000 mg Loading aromachemicals material 32 in the specified quantity allows aromachemicals material 32 to maintain a given desired compressed condition inside the frame 34, that is, inside of aromatic cartridge 30, and, at the same time having sufficient permeability. As a result, it is possible to reliably prevent the ratite uneven distribution aromachemicals material 32, inside the frame 34.

[0041] When attached pressure plate 36, anomalopidae material 32 is released from compression by the plunger 46. Therefore, although anomalopidae material 32 extends from excessively compressed state, the material 32 saves intermediate compressed state between excessively compressed state and the desired compressed condition, which creates a gap between the surface aromachemicals material 32, and the upper compression plate 36.

[0042] Accordingly, when attached pressure plate 36, the interference from getting aromachemicals material 32 between the upper compression plate 36 and the frame 34 is reliably excluded. Even after attaching the upper compression plate 36 anomalopidae material 32 continues to expand, but the expansion stops when the surface aromachemicals material 32 reaches the upper compression plate 36. As a result, anomalopidae material 32 is supported in the desired compressed state.

[0043] As should be clear from the above explanations technological device 40 with reference to Fig. 5, the lower compression plate 36 may be formed in the form inseparable part of the frame 34.

Technological device 40 shown in Fig. 5, may further comprise a suction mechanism for delay model is aromachemicals material 32, after the material 32 is released from compression. In particular, the suction mechanism includes a lot of suction nozzles (not shown). Suction nozzles are located near the respective vent holes 37 of the lower compression plate 36 and is connected to the vacuum source. Suction nozzle suck air from the inside of the frame 34, and, thanks to the absorption of air, anomalopidae material 32 is extended to the lower compression plate 36, which delays the expansion aromachemicals material 32. In this case, you can save additional time by attaching the upper compression plate 36 to the frame 34.

[0045] When using the flavor inhaler 1 according to the first variant implementation, when the user draws air through the double end 4 of the holder 2, atmospheric air enters the region 12 of the inlet of the holes 16 of the inflow of atmospheric air of the holder 2, and then flows into the aromatic cartridge 30 from the entire area of the inlet in the radial direction of the holder 2 and reaches the region 14 is released, as indicated by the arrows in Fig. 1. That is, the air flows through the aromatic cartridge 30 evenly across a large area of aromatic cartridge 30, continuing in the axial direction of the holder 2.

[0046] Consequently, it is possible to arrange that the air is satisfactorily of contactyou the l with aromachemicals material 32, (granular tobacco) in aromatic cartridge 30 and, indeed, contain an aromatic component, allocated from the granulated tobacco. Then the air containing aromatic component is directed from region 14 to release the double end 4 and reaches the mouth of the user.

Since the air drawn by the user, contains a sufficient concentration of the aromatic component, the user can successfully get pleasure from tobacco aroma.

[0047] When the user draws air through the inhaler 1 aroma, as described above, the flow of air inside the holder 2 can create a suction noise with some probability. When using the inhaler 1 fragrance according to the invention can be effectively weakening of this noise absorption.

In particular, anomalopidae material 32 contained in the aromatic cartridge 30 is supported in the above-mentioned desired compressed state and, therefore, also functions as a sound-absorbing wall for muting of the noise of the suction which is effective attenuation of the noise absorption.

[0048] furthermore, the aromatic cartridge 30 is supported within the holder 2, when firmly inserted in the longitudinal grooves 8. Therefore, the air can not move in the crawl through the gaps between the aromatic cartridge 30 and continue the governmental grooves 8, that also allows you to reliably prevent leakage of the noise attributable to the aforementioned bypass passage of air.

In addition, the flavor inhaler 1 can be performed with a size and shape similar to the size and shape of a regular cigarette, so that the user could use the inhaler 1 flavor, as if the user smokes a regular cigarette.

[0049] In Fig. 6 schematically aromatic cartridge 30 that is used to flavor inhaler 1 according to a second embodiment of the execution and production device for producing the above-mentioned cartridge.

Aromatic cartridge 30 further comprises a breathable package 86, which is Packed anomalopidae material 32 and anomalopidae material 32, and a breathable package 86, form the packaging 87 flavoring. Breathable package 86 is made of nonwoven material, like the aforementioned air-permeable sheet 39, and generates a pressure drop of 0.5 mm H2O or above.

[0050] In the second embodiment, either one of the compression plates 36 is not necessary to provide air-permeable sheet 39.

In accordance with the following procedure, technological device 40 shown in Fig. 6, produces aromatic cartridge 30.

First, the frame 34 is placed on the supporting base 42 (Fig. 6(a)), and cooked packaging 87 is of romatizator put in the frame 34 (Fig. 6(b)). Then, packing 87 flavoring compacted by the plunger 46 to excessively compressed state (Fig. 6(c)). After the liberation of aromatic packing 87 from compression of the plunger 46, the frame 34 is attached to the upper compression plate 36 (Fig. 6(d)). From this moment, the production of aromatic cartridge 30 is completed (Fig. 6(e)), and anomalopidae material 32 in the package 87 flavoring is supported in the desired compressed state.

[0051] Like the compressed aromachemicals material 32 in accordance with the first variant implementation, packing 87 flavoring in accordance with a second embodiment of implementation also provides the effect of sound absorption.

To check the effect of sound absorption packing 87 flavoring, namely, aromachemicals material 32, manufactured suction tester 88, shown in Fig. 7.

[0052] the Suction tester 88 has the following characteristics:

The breathable material package 86: non-woven polyolefin material (HOP-N, issued Hirose Paper Manufacturing Co., Ltd.)

The designation of "HOP-N" indicates the weight, i.e. the weight per unit area (g/mm2).

The size of the breathable package 86: 11 mm×50 mm

Material 32 that produce flavor: granulated tobacco (Burley grown in Japan), sifted using a sieve of 0.2 mm 1,18 mm

Bulk density=142 mg/cm3 theoretical density=550 mg/cm3

The contents of the download aromachemicals material 32: 200 mg, 300 mg

The inner size of the frame 34: 10 mm×50 mm

Effective depth D of the frame 34 (the distance between the upper and lower compression plates 36): 2 mm, 3 mm, 4 mm

The size of the top and bottom compression plates 36a: length L=50 mm, width W=10 mm

The size, number and location of ventilation holes 37 in each compression plate 36a: 4 round holes with a diameter of 7 mm, located in 10 mm

[0053] table 1 below represents the results of tests on the intake manifold conducted by many experts to evaluate noise absorption, using the tester shown in Fig. 7.

Table 1
D2 mm3 mm4 mm
An effective amount of a skeleton1.0 cm31.5 cm32.0 cm3
The contents of the boot 200 mgNot very annoyingAnnoying-
The contents of the boot 300 m the Not very annoyingNot very annoyingSomewhat annoying

[0054] As is clear from the results shown in table 1, with the same content download aromachemicals material 32, the noise of the suction creates less irritation, when the effective volume of the frame (i.e. the volume surrounded by the frame 34 and the two compression plates 36a) is smaller, i.e. when the density of the compressed aromachemicals material 32 above. This assertion means that the compression aromachemicals material 32 effectively reduces the noise absorption.

[0055] Examined the influence of ventilation holes 37 of the compression plates 36 on the impact of tobacco component (nicotine) from aromachemicals material 32 into the air.

To check again prepared compressive plate 36b and 36c, as shown in Fig. 9 and 10, respectively. The pressure plate 36b is different from the compression plate 36a only the fact that the pressure plate 36b contains five vent holes 37. The pressure plate 36c contains elongated vent holes 37 instead of round vents. Elongated vent holes 37 are each, sizes 2.4 mm×14,6 mm and are distributed according to the scheme 2×2 in the Central region of the squeeze plate 36.

[0056] the Suction tester 88, is provided in Fig. 7, applied individually, as the suction testers 88a, 88b and 88c, depending on the combination used compression plates 36. Suction testers 88a, 88b and 88c used with the following combinations of compression plates 36:

Table 2
The suction tester 88aThe suction tester 88bThe suction tester 88c
The upper compression plate36a36a36a
The lower compression plate36a36b36C

[0057] For all suction testers 88a, 88b and 88c used the frame 34 with an effective depth D=2 mm, and the frame 34 has invested packaging 87 flavoring. Anomalopidae material 32 used in packaging 87 flavor was a mixture of granulated tobacco and granular potassium carbonate as an additive, and the weight of the mixture actaulyl 200 mg of Granulated tobacco was obtained by grinding the leaves of tobacco Burley varieties grown in Japan, and sieving the obtained granules using sieves ,5 mm 1,18 mm

[0058] in Addition, to measure the amount given to the tobacco component, namely nicotine, from aromachemicals material 32, in the air, took advantage of the measuring device 89 shown in Fig. 11.

The measuring device 89 is equipped with impingers 91 containing 20 ml of ethanol. In particular, for impinger 91 used getassertion wash bottle type Kinoshita (standard type: 50 ml) from the company Kinoshita Rika Kogyo Kabushiki Kaisha. Impinger 91 contains filtering particles (100-200 μm) and contains a suction tube 93 and the discharge tube 95, continuing from the inside of impinger 91.

[0059] the Suction tube 93 is connected to a mouthpiece end 4 of the holder 2 of the suction tester 88, and injection tube 95 is connected with a suction pump 101 through the electromagnetic valve 97 and the controller 99 flow (MFC). The solenoid valve 97 is electrically connected to the controller 103 of the valve (VC), which controls the operation of the opening/closing of the electromagnetic valve 97.

[0060] In particular, the solenoid valve 97 is opened and closed by the controller 103 of the valve to repeat the cycle of tightening. Cycle torque contains a 4-second period of absorption, for which impinger 91 is connected to the suction pump 101, and 11-second period of incubation, during which impinger 91 opened in Atmos is ERU. The flow controller 99 flow rate was set at 3300 cm3/min

[0061] the suction tube 93 impinger 91 connected to one of the suction testers 88a, 88b and 88c, the tightening cycle was repeated 50 times in ambient conditions at room temperature 22°C and a relative humidity of 60%. Nicotine delivered from the packaging 87 flavoring in the intake air, collected by ethanol contained in impingere 91.

[0062] Then, ethanol, nicotine, poured from impinger 91 in the system gas chromatograph/mass spectrometer for analysis, and measured delivery of nicotine from the suction tester 88 on each cycle of tightening (one puff).

[0063] the Collection, analysis and measurement of nicotine performed repeatedly, and the measuring process for the suction tester 88 was finished, when the number of cycles torque has reached a predetermined number.

The measuring process is performed with each of the suction tester 88. The results of the measurements are presented in Fig. 12.

[0064] As can be seen from Fig. 12, the measurement results of the suction testers 88a, 88b and 88c show a slight difference. In General, the ventilation openings 37 of the upper and lower compression plates 36 are arranged symmetrically with respect to the packing 87 flavoring, located between them, as in the suction tester 88a. However, even if the ventilation openings 37 of the upper and neither is it the compression plates 36 are arranged asymmetrically, as the suction testers 88b and 88c, between the suction tester 88a and aspiration testers 88b and 88c not observed any differences in the delivery of nicotine and change delivery with increasing sochetanogo number of puffs.

[0065] the Asymmetric location of the vent holes 37 means that the compressed region of the surface of the packing 87 flavoring (aromachemicals material 32) compressed upper and lower compression plates 36 are asymmetric, and therefore the pressure applied to aromachemicals material 32, garrisons. This dispersal pressure effectively provides the desired compressed condition aromachemicals material 32.

[0066] However, if we consider the flow of air inside aromachemicals material 32, it is absolutely asymmetric positioning of ventilation holes 37 leads to increase in areas where the air inside aromachemicals material 32 does not move, which reduces the impact of tobacco component in the air. Thus, the preferred option, in which the upper and lower ventilation holes 37 are arranged to partially coincident with one another, as mentioned above.

[0067] To test the effect of sound absorption provided by the compression aromachemicals material 32, has prepared the suction tester 105, shown in Fig. 1.

The suction tester 105 has an axis and contains the element 107 intake, net element 109, the frame 34, the mesh element 111, item 113 release and double element 115, mounted along the axis in the above order and merged into the unit using the set of connecting bolts and nuts 117.

[0068] In particular, each of the elements 107 intake and 113 issue is a sheet of stainless steel 2 mm thick and has a circular opening 119 in the center. Holes 119 are of a size equal to the inner diameter of the frame 34.

Each of the mesh elements 109 and 111 are made of stainless steel wire with a diameter of 0.1 mm and has a hole size or number of cells sieves 100. Accordingly, the pressure drop across the mesh elements 109 and 111 is approaching infinity to zero. Mesh elements 109 and 111 correspond to the compression plates 36 aromatic cartridge 30.

[0069] with regard to the frame 34, the set of frames with different sizes were prepared and filled with a granular tobacco, to provide three different content download. In particular, aromatic cartridge 30 is formed of mesh elements 109 and 111, the frame 34 and granulated tobacco, and prepared three aromatic cartridge 30a, 30b and 30c, containing three different loading granulated tobacco. Aromatic cartridges 30a, 30b and 30c contained load 100 mg, 20 mg and 300 mg, respectively.

[0070] Double element 115 is made of Teflon (registered trade name) and has a double end 4. The inner and outer diameters, such as the end of the 4 were 6 mm and 8 mm, respectively.

With the cartridge 30a flavoring installed in the suction tester 105, suction test was run many test persons, and the noise of the suction from the suction tester 105 was estimated by many experts from a distance of 50 cm from the tester, together with the uniformity of granulated aromatic tobacco in the cartridge 30. The results of the evaluation are presented below in table 3.

[0071] Similarly evaluated also the suction tester 105 is inserted cartridge 30b and 30c of flavor, and the evaluation results are shown in tables 4 and 5, respectively.

Table 3
Load weight 100 mgNoise absorptionThe compression ratio
Height (mm)Height (mm)Height (mm)
244524452445
The inner diameter of the frame (mm)10OO76%67%55%44%
12OOOO68%52%36%20%
14OOΔ OOX56%34%13%
16OΔ*XXOO*X43%14%
18Δ*XOX*28%
20XX11%
22XX
24
26
28
30

[0072]

Table 4
The weight of the load 200 mgNoise absorptionThe compression ratio
Height (mm)Height (mm)Height (mm)
2445244524 45
The inner diameter of the frame (mm)1086%83%78%72%
1284%76%68%60%
14OO78%67%56%45%
16O OOOOO71%57%43%29%
18OOΔ*OOO*64%46%28%10%
20OOΔ*XOO*X55%33%11%
22OX*XOO*X46% 19%
24X*XO*X36%4%
26X*O*25%
28XX13%
30

[0073]

Table 5
The weight of the load 200 mgNoise absorptionThe compression ratio
Height (mm)Height (mm)Height (mm)
244524452445
The inner diameter of the frame (mm)10 93%89%85%81%
1289%84%79%73%
1485%78%71%64%
16OO81%71%62% 52%
18OOOO76%64%52%40%
20OOOOOO70%55%41%26%
22OOΔ*OOO*64%46%28%10%
24OX*X OO*X57%36%14%
26OX*XOX50%25%
28X*XO*X42%13%
30X*XO*X33%

[0074] In Rel is to evaluate noise absorption in tables 3-5, "O", "Δ" and "X"respectively mean "not annoying", "slightly annoying" and "annoying".

The uniformity of granulated tobacco was estimated as follows:

The expert held the suction tester 105 horizontally and ten times knock on the suction tester 105 from 2 cm above the suction tester 105 and, then, tested, created whether or not the free space inside the frame 34, that is, exactly or not located granulated tobacco. In tables 3-5, "O" means "exactly", and "X" means "uneven".

[0075] In the evaluation of noise absorption and irregularities in tables 3-5, available seats mean that the assessment is not produced.

In addition, in tables 3-5, under the heading "ratio" shows the compressed state of granulated tobacco in appropriate conditions. Compressed condition calculated in accordance with the following formula:

Compression ratio (%)=(1 - Capacity load inside the frame/load Volume of granulated tobacco in its natural state)×100,

Load volume of granulated tobacco=load Weight/Bulk density.

In relation to the compression ratio in tables 3-5, available seats mean that the granular tobacco to summarize.

[0076] Tables 3-5 show that the uniformity of granulated tobacco inside the frame 34 can be n is o to prevent regardless of load mass of granulated tobacco, if only granulated tobacco is compacted, and that the higher the ratio, the less annoying is the noise absorption.

In addition, tables 3-5 show that for the same compression ratio, the smaller the inner diameter of the frame 34, that is, the smaller the total area of ventilation openings 37 (square holes 119), the more effectively attenuates noise generation suction.

[0077] In the evaluation of noise absorption and uneven, are shown in tables 3-5, the symbol "*" means that the noise of the suction impossible it was enough to weaken even if the granular tobacco leveled. Therefore, when the real designing aroma inhaler, you need to consider both the suction noise and uneven.

[0078] This question is considered in detail below.

The download layer of granulated tobacco influences resistance to flow, and I think that the download layer with a higher resistance to flow is characterized by a high reflection and absorption of noise absorption. As it turned out, the flow resistance layer load can be expressed by the equation of Kozeny-Pocket, which can be represented as follows:

[0079] the flow Resistance=((1-Porosity^2)/Porosity^3)×(Height load/cross sectional Area)×Constant ... (1)

Porosity=(Capacity load inside the Arkasa-the Volume is filled with granulated tobacco)/Capacity load inside frame

The amount of the granulated tobacco=load Weight/Theoretical density

[0080] For AC member ((1-Porosity^2)/Porosity^3)×(Height load/cross sectional Area) [1/mm] in equation (1) investigated the relationship between variables a member and noise absorption, and the results of the study are presented in Fig. 14. In Fig. 14, "O", "Δ" and "X" means that the suction noise "not annoying", "slightly annoying" and "annoying", respectively. In Fig. 14 shows that, if a variable member is equal to or greater than 0,005, it is possible to reliably reduce noise absorption.

[0081] Then investigated the relationship between the pressure drop on the above-mentioned air-permeable sheet 39 or breathable package 86 and the effect of the weaker suction noise.

For studies used the suction tester 105, shown in Fig. 13, with sheets of non-woven material with different values of pressure drop, placed between the frame 34 and mesh elements 109 and 111 of the suction tester 105. Below, table 6 shows the relationship between the used sheets of nonwoven material and the pressure drop on them.

Table 6
Non-woven material
HOP-6HHOP-10HHOP-15HHOP-30HHOP-45H
The pressure drop (mm, H2O)00,5124

[0082] the Sheet of nonwoven material listed in table 6, all are sheets of polyolefin nonwoven material from Hirose Paper Manufacturing Co., Ltd.

The pressure drop on a non-woven material was evaluated as follows:

[0083] Prepared the suction tester inserted with an empty cartridge shock absorber, with aromatic cartridge contains a frame with an inner diameter of 20 mm and a height of 5 mm and two sheets of non-woven material attached to the upper and lower surfaces of the frame, respectively. Through the suction tester were sucking the air with a flow rate of 1 l/min and measured the pressure drop in mm of water column. Since the result of measurement indicates the total pressure drop on two sheets of nonwoven material, each value of the pressure drop in table 6, is 1/2 of the corresponding measurement result. In particular, each value of the pressure drop in table 6, indicates the pressure in mm of water column (mm,H 2O) on one sheet of nonwoven material, evaluated at the linear velocity of 0.05 m/S.

[0084] the following table 7 shows the results of the evaluation of the effects of attenuation of the noise absorption sheet of nonwoven material obtained using the suction testers, like the suction tester 105, shown in Fig. 15.

Table 7
Load weight 100 mgNo nonwoven materialThe pressure drop (mm, H2O) on a non-woven material
00,5124
16×3 mmΔΔOO
Ø18×2 mmΔΔOO
The weight of the load 200 mgNo non-woven material is The pressure drop (mm, H2O) on a non-woven material
00,5124
Ø18×5 mmΔΔOO
Ø20×4 mmΔΔOO
Ø22 to ø×3 mmXXXO
Ø24×2 mmXXXΔOO
Ø26×2 mmXXXXΔO
Load weight 300 mgNo nonwoven materialThe pressure drop (mm, H2O) on a non-woven material
00,5124
Ø22 to ø×5 mmΔΔOO
Ø24×4 mmXXOO
Ø26×3 mmXXXOO
Ø28×2 mmXXXΔOO
Ø30×2 mmXXXX ΔO

[0085] In table 7, the values "O", "Δ" and "X" are the same as above, and "Ø" means the inner diameter of the frame.

As can be seen from table 7, non-woven material creates a satisfactory effect of the weaker noise absorption, unless the non-woven material does not create a pressure drop of 0.5 mm H2O or above. It should be noted that the material of non-woven material is not specifically limited.

[0086] In connection with the manufacture of the above-mentioned aromatic cartridge 30, checked extremely compressed state aromachemicals material 32, (packing 87 flavoring).

Prepare packing flavor, and each package of flavoring had a size of 11 mm×50 mm, contained 300 mg aromachemicals material 32, and contained a breathable package of HOP-30H.

[0087] Each package of flavoring condensed at a constant speed of 1 mm/s to the desired height and then maintained in a compressed condition within five seconds, and after packaging of the fragrance was released after compression was measured by changing the height of the packing flavoring. In Fig. 15 shows the relationship between the compression ratio of each package of flavoring and recovery time required compressed package of flavor to restore 75% of the original height. To the ratio of compression is determined by the following equation:

Compression ratio (%)=(1-Height of the compressed packing flavoring/Initial height of the packaging, flavouring)×100

[0088] When you take into account the desired compressed condition and the time required for attaching the upper compression plate 36, packaging, flavoring you want to condense sufficient to excessively compressed state. However, attention should be paid to the fact that, if excessive compression is too strong, then the packaging of the fragrance takes a very long recovery time, as is evident from Fig.

[0089] on the other hand, to achieve the effect satisfactory noise attenuation suction through the variable member in the above equation (1), the compression ratio in the desired compressed condition should be approximately 25% or higher. Based on the foregoing, the recovery time is shown in Fig shows the time required package of flavor to restore from excessively compressed state to the desired compressed state.

Thus, taking into account the time required for attaching the upper compression plate 36, the compression ratio in the excessively compressed state shall not be less than 50%, but if the compression ratio exceeds 80%, there is a grinding of granulated tobacco. Therefore, the compression ratio in the excessively compressed state what it should be, preferably, not lower than 50% and should be no higher than 80%.

[0090] the aroma Inhaler according to the invention is not limited to the above-described first and second variants of execution and may be modified in various ways. Further, the description of the modifications inhaler aroma. Aromatic cartridges 30 inhalers scent in accordance with the modifications can refer either to the type of cartridge used in the first embodiment, or to the type of cartridge used in the second embodiment.

[0091] the flavor Inhaler 1 according to the invention, shown in Fig. 16, contains, in General, T-shaped aromatic cartridge 30. In particular, aromatic cartridge 30 includes a protrusion 50, protruding from one end of the said cartridge on both sides. The protrusion 50 is located on the front end of the holder 2 and has a width almost equal to the diameter of the holder 2.

[0092] on the other hand, longitudinal grooves 8 of the holder 2 is curved on the front end of the holder 2, and the curved sections are open on the outer circumferential surface of the holder 2, which allows the protrusion 50 to fit in the curved areas. The user can capture an aromatic cartridge 30 for the ledge 50, and therefore with aromatic cartridge 30 is convenient to operate, which facilitates the matching and separation of aromatic cartridge 30 with the holder 2.

[0093] the Holder 2 inhale the ora 1 flavor shown in Fig and 18, comprises a pair of guide slots 52, instead of a pair of longitudinal grooves 8. Alignment notches 52 spaced from one another in the diametrical direction of the holder 2, with the axis of the holder 2 which is located between the slots extend from the front end wall of the holder 2 to the partition 6 in parallel to each other and allow the inner region of the holder 2 to communicate with the outside party.

[0094] In this case, the aromatic cartridge 30 can have a width almost equal to the diameter of the holder 2. Thus, when the opposite side edges of the aromatic cartridge 30 is inserted into the corresponding guides of the slot 52, the opposite side surfaces of the frame 34 form part of the outer circumferential wall of the holder 2 (see Fig. 18). This aromatic cartridge 30 gives the user the ability to easily verify whether aromatic cartridge 30 into the holder 2.

[0095] In the aroma inhaler shown in Fig and 20, each of the longitudinal groove 8 has front and rear locking surfaces 54 and 55 on the front and rear ends of the grooves, respectively, for fixing aromatic cartridge 30. The front fixing surface 54 formed by the depth of the upper wall of the groove of each of the longitudinal grooves 8, and the rear locking surface 55 formed by the continuation of signigance each longitudinal grooves 8 in the wall 6.

[0096] on the other hand, the frame 34 of aromatic cartridge 30 comprises a pair of protrusions 56 formed on its forward edge and communicating with the respective front locking surfaces 54. The tabs 56 protrude from the frame 34 and spaced from one another in the direction of the width of the frame 34. When aromatic cartridge 30 is inserted into the holder 2 along the longitudinal grooves 8, the rear end of the frame 34 is pressed in the rear locking surface 55, and the protrusions 56 of the frame 34 are forced against the respective front locking surfaces 54. As a result, the frame 34, that is, aromatic cartridge 30, is securely fixed inside the holder 2.

[0097] the inhaler 1 flavor, shown in Fig. 21 and 22, the front fixing surface 54 and the tabs 56 together form klinovuyu design. Wedge design provides a more secure fit of the frame 34, that is, aromatic cartridge 30, the inside of the holder 2.

[0098] the Inhaler 1 flavor, shown in Fig. 23, contains aromatic cartridge 30, which is generally made in the form of a wedge. In particular, the width of the aromatic cartridge 30 is reduced with increasing distance from the front end to the rear end. On the other hand, the distance between the bottom walls of the two longitudinal grooves 8 gradually decreases with increasing distance from the front end the holder 2 to the rear end, namely, the partition wall 6, so that the longitudinal groove 8 can correspond to the shape of the wedge-shaped aromatic cartridge 30.

[0099] the Aromatic cartridge 30 for aroma inhaler shown in Fig. 24, has a thickness gradually decreasing with increasing distance from the front end to the rear end. The width of the groove of each of the longitudinal grooves 8 of the holder 2 also gradually decreases with increasing distance from the front end to the rear end to fit the thickness of aromatic cartridge 30. Therefore, when the aromatic cartridge 30 is fully inserted into the holder 2, both side edges of the aromatic cartridge 30 come into tight contact with the corresponding longitudinal grooves 8, which prevents aromatic cartridge 30 to rattle inside the holder 2.

[00100] the Aromatic cartridge 30 for aroma inhaler shown in Fig. 25 and 26 has a wedge surface 58 formed only on the upper sides of the sections opposite side edges of the cartridge. The thickness of each wedge section 58 gradually decreases with increasing distance from the front end of the aromatic cartridge 30 to the rear end. This configuration allows aromatic cartridge 30 having an upper surface parallel to the axis of the holder 2, in addition to the opposite side edges. Inhale the EOS fragrance in accordance with this modification guarantees, that aromatic cartridge 30 is securely fixed inside the holder 2, there is no reduction in the content load of tobacco material in the aromatic cartridge 30.

[00101] the Inhaler 1 flavor, shown in Fig. 27, further comprises a breathable filter 60, located in the hole 16 of the inflow of atmospheric air. The filter 60 absorbs the noise of the suction created by the air flow in the area 12 of the suction holder 2, when the user pulls the air, and also serves to remove impurities contained in the air. In an alternative embodiment, the filter 60 may be performed with the option to download the entire area 12 of the inlet.

[00102] the Holder 2 of the inhaler 1 flavor, shown in Fig. 28 and 29, further comprises holes 62 and 63 of the inflow of atmospheric air, in addition to the holes 16 of the inflow of atmospheric air. The hole 62 of the inflow of atmospheric air allows region 14 issue directly communicate with the outer side of the holder 2. On the other hand, the holes 63 of the inflow of atmospheric air is distributed over the area of the peripheral wall of the holder 2, the corresponding region 14 release. In particular, the holes 63 of the inflow of atmospheric air are located at a distance from one another in the axial direction of the holder 2 and allow the area 14 issue directly, coolmatic the outer side of the holder 2.

[00103] Thus, when the user pulls the air, atmospheric air flows into the holder 2 through the holes 16, 62 and 63 of the inflow of atmospheric air. The air flow through the holes 62 and 63 of the inflow of atmospheric air reduces the speed of air flowing inside the area 12 of the inlet, and, as a result, generation of noise absorption in the region of 12 intake effectively attenuated.

[00104] the Holder 2 of the inhaler 1 flavor, shown in Fig. 30, contains many holes 64 inflow of atmospheric air, is formed through the plot circumferential wall of the holder, the corresponding region 12 intake. Holes 64 inflow of atmospheric air are located at a distance from one another in the axial direction of the holder 2 and allow the area 14 of the inlet directly to communicate with the outer side of the holder 2. In this case, the flow of air from the holes 64 of the inflow of atmospheric air into the region 12 intake also reduces the speed of air flowing inside the area 12 of the inlet, and therefore it is possible to effectively reduce the generation of noise absorption.

[00105] the Aromatic cartridge 30 flavor inhaler 1 shown in Fig. 31 differs from the cartridge shown in Fig. 30, the fact that aromatic cartridge 30 is located so as to fill the entire area with 12 intake. Aromatic cartridge 30 has a semi-cylindrical shape that meet the General area 12 of the inlet, and is in contact with the area of the inner circumferential surface of the holder 2, the bounding region 12 of the inlet.

[00106] With this aromatic cartridge 30 for aroma inhaler, it is possible to increase the cross-sectional area 14 release. Because, as a result, it is possible to reduce the flow rate of air flowing into the region 14 is released, the suction noise that accompanies the drawing of air by the user, is weakened. In addition, since the aromatic cartridge 30 occupy the entire area 12 of the inlet, the flow rate of air passing through the aromatic cartridge 30, is not increased. Therefore, in the area 12 of the inlet, of course, is not generated noise absorption.

[00107] the Aromatic cartridge 30 flavor inhaler 1 shown in Fig. 32, further comprises a transient opening 66. Transient opening 66 formed around the rear end of the frame 34 and provides communication between the zones 12 intake and 14 release. Transient opening 66 allows air to flow from the zone 12 of the inlet zone 14 issue without passing through aromatic cartridge 30, and therefore you can reduce the amount of air flowing through the region 14 is released, that is, the air flow rate, which enables to reduce the generation of noise absorption in the region of 14 release. Alternatively, transient opening 66 can be the b formed on the front end of the frame 34, that, however, is not shown in the illustrations. In this case, you can reduce the amount of air flowing through the region 12 of the inlet, that is, the air flow rate, resulting in possible to effectively reduce the generation of noise absorption in the region 12 of the inlet.

[00108] the Inhaler 1 aroma shown in Fig and 34, provided with a holder 2 opening/closing type. The holder 2 is composed of an upper polutrube 70 and the lower polutrube 71. Top Polustrovo 70 contains a region 12 of the inlet, the baffle 6, part of the region 14 of the issue and the hole 16 of the inflow of atmospheric air. The lower Polustrovo 71 contains the rest of the field 14 release.

[00109] the Upper and lower polutrube 70 and 71 are, respectively, the lower and upper pair of open edges, continuing along the axis of the holder 2. When the upper open edges impose on the respective lower open edges, the upper and lower open edges together form the above-mentioned longitudinal grooves 8. In particular, each upper open edge includes a cutout forming part of the longitudinal grooves 8, and each of the lower open edge includes a cutout that forms the rest of longitudinal grooves 8.

[00110] in Addition, the front ends of the upper and lower polutropos 70 and 71 are interconnected by a movable hinge 72. The holder 2 is opened and closed when Verhny is polocrosse turn 70 on the movable hinge 72 relative to the lower polutrube 71. On Fig, dash-dotted lines show the upper polocrosse 70 of the holder 2 in the open position.

[00111] On the rear end parts of the open edges of the upper polutrube 70 is formed, for example, the protrusions 74 and the open edges of the lower polutrube 71 formed recesses 73, interacting with the corresponding protrusions 74. When the holder 2 is in the closed position, that is, when the open edges of the upper and lower polutropos 70 and 71 connected between the protrusions 74 fit into corresponding recesses 73. The engagement of the tabs with the slots 74 73 prevents accidental opening of the holder 2 and serves to steady fixing of the holder 2 in the closed state.

[00112] When the holder 2 is in the closed position, as shown in Fig. 34, aromatic cartridge 30 is fixed between the upper and lower polutrube 70 and 71, with the opposite side edges of the frame 34, placed in corresponding longitudinal grooves 8. Therefore, aromatic cartridge 30 is secured in position within the holder 2 and no issues knock on the inside of the holder 2. Since the holder 2 can be opened and closed, if necessary, as mentioned above, replacement of the aromatic cartridge 30 is an easy operation.

[00113] the Holder 2 for flavor inhaler 1 shown in Fig. 35, comprises a pair of support surfaces 76, Westover longitudinal grooves 8. Support surface 76 facing the region 12 of the inlet in the holder and horizontally continue along the axis of the holder 2.

[00114] In particular, the upper poluostrova surface of the holder 2, the forming area 12 of the inlet, has a radius of curvature greater than the radius of curvature of the lower paleokrassas surface of the holder 2, which forms the front flow section 14f. When aromatic cartridge 30 mounted on the supporting surface 76, the opposite side edges of the aromatic cartridge 30 is fixed between the respective support surfaces 76 and upper paleokrassas surface of the holder 2. That is, the upper poluostrova surface of the holder 2 serves to clamp aromatic cartridge 30 against the support surfaces 76, resulting aromatic cartridge 30 is firmly held inside the holder 2.

[00115] the Frame 91 aromatic cartridge 90, shown in Fig. 36, has similarities with the above frame 34, but differs from the latter by the fact that the frame 91 has two ribs 92 in its internal space. Ribs 92 divides the internal space of the frame 91 on three areas. These areas are located in series in the longitudinal direction of aromatic cartridge 90 and contain, respectively, the materials 93a, 93b and 93c, emitting a fragrance. Materials 93a, 93b and 93c, emitting fragrance, not allowed to contact between a and m is able to allocate appropriate different aromatic components. In addition, the materials 93a, 93b and 93c, emitting the fragrance can allocate aromatic components, different from the aromatic components of the tobacco material.

[00116] When the aromatic cartridge 90 is installed in the holder 2, as shown in Fig. 37 and 38, the materials 93a, 93b and 93c, emitting fragrance, are on the same line along the axis of the holder 2. When the user draws air through the double end 4, the air drawn into the area 12 of the suction holder 2, passes through any of the materials 93a, 93b and 93c, emitting fragrance, and mixed inside the front flow section 14f region 14 release. Mixed this way, the air contains a corresponding aromatic components materials 93a, 93b and 93c, emitting fragrance, and proceeds to double the end of the 4 rear-flowing section 14r region 14 release. Consequently, the user can feel the taste of aromatic components from three different types of materials 93a, 93b and 93c, emitting a fragrance. The combination of materials that emit a fragrance, you can change accordingly to the tastes of the user.

[00117] Each frame 95 aromatic cartridge 94, shown in Fig. 39, has a length approximately equal to half the length of the frame 91. Thus, the two aromatic cartridge 94, containing respective different materials 93a and 93b, emitting fragrance, prigotovlu is try and consistently set in the holder 2. In this case, the user can also taste the aromatic components of different materials that emit fragrance.

[00118] the Frame 91 aromatic cartridge 90, shown in Fig. 40, has one edge 92. The rib 92 continues along the center of the frame 91 along the axis of the frame 91 and divides the inner space of the frame 91 into two, upper and lower region. Thus, aromatic cartridge 90 may also contain materials 93a and 93b, emitting the fragrance, and it does not prevent contact between the materials 93a and 93b, emitting a fragrance. In this case, the materials 93a and 93b, emitting fragrance, are parallel to one another along the axis of the frame 91.

[00119] the Aromatic cartridge 96, shown in Fig. 41, comprises a cylindrical sleeve 98 that contains inside edge 92. The rib 92 is going on inside of sleeve 98 along its axis and divides the inner space of the sleeve 98 into two, right and left field. With this aromatic cartridge 96 is also possible to accommodate two pieces 93a and 93b, emitting the fragrance of different types and do not allow them to contact each other.

[00120] be aware that the aromatic component contained in aromachemicals material 32 should be protected from volatilization during storage of aromatic cartridge. Accordingly, as shown in Fig, aromatic cartridge 90 may further content is to be airtight shell 100. Shell 100 seals with autopsy materials 93a, 93b and 93c, emitting fragrance, together with the frame 91. Alternatively, as shown in Fig. 43, only the public, not protected by the frame 91 of the surface materials 93 emitting fragrance, can be closed airtight peel-off sealing film 102.

[00121] In an alternative embodiment, the sealing film 102 can close each of the materials 93a, 93b and 93c, emitting fragrance, separately from one another.

Two aromatic cartridge 94, shown in Fig. 44, can hold the relevant materials that emit fragrance, and Packed each in airtight shell 104 in the form of pillows. Thereby, it is possible to prevent a situation where the aromatic component aromachemicals the material enclosed in the same aromatic cartridge 94, spoils the download aromachemicals material in another aromatic cartridge 94 during storage of aromatic cartridges 94. Aromatic cartridge 94 may be sealed otherwise than in a type a packaging cushion, for example, in blister packaging or packaging using reseal insulation.

DESCRIPTION of ITEMS

[00122]

1: the aroma inhaler

2: holder

4: double end

6: partition

8: longitudinal groove

12: area of inlet

14: area release is

16: opening of the inflow of atmospheric air

30: aromatic cartridge

32: anomalopidae material

34: framework

36: compressive plate

37: vent

39: breathable sheet

40: technological device

42: support Foundation

44: guide frame

46: pusher

50: ledge

52: alignment notches

54, 55: fixing surface (pressing surface)

56: ledge

58: wedge surface

60: filter

62: the opening of the inflow of atmospheric air (intake hole)

63: the opening of the inflow of atmospheric air (intake hole)

64: the opening of the inflow of atmospheric air (intake hole)

66: MTG

70: upper Polustrovo

71: lower Polustrovo

72: movable hinge

73: excavation

74: ledge

76: bearing surface

86: breathable package

87: packaging flavoring

89: measurement unit

90: aromatic cartridge

91: framework

92: rib

93: anomalopidae material

94: aromatic cartridge

95: framework

96: aromatic cartridge

98: sleeve

100: sheath

102: sealing film

104: the shell.

1. The aroma inhaler nenapravilo type, comprising: a hollow holder having an axis, while targetencoding front end, the rear end, acting double end opening of the inflow of atmospheric air, and a flow channel, limited in the holder and is made with the possibility of the direction of the atmospheric air, the intake of the openings of the inflow of atmospheric air to such an end; and aromatic cartridge having air permeability and is located in the holder to continue inside the holder from the front end to double the end along the axis of the holder, with aromatic cartridge divides the flow channel in the region of release, continued from aromatic cartridge to such an end, and the region of the inlet chamber connected with the opening of the inflow of atmospheric air and located adjacent to the aromatic cartridge, and aromatic cartridge includes a frame, granulated anomalopidae material loaded in the frame and is able to allocate aromatic component without ignition, and anomalopidae material contains granulated tobacco received by sbrasyvaniem or shredding tobacco leaves, and the pressure device designed to maintain aromachemicals material in a compressed state, while providing breathability aromatic cartridge.

2. The aroma inhaler nenapravilo type according to claim 1, in which the compressive device the content is it a pair of gripping elements, made to compress aromachemicals material in the direction perpendicular to the axis of the holder, each gripping element contains a lot of ventilation holes formed in this item to provide breathability aromatic cartridge.

3. The aroma inhaler nenapravilo type according to claim 2, in which the ventilation openings in one of the gripping elements partially aligned with the ventilation holes in the other of the gripping elements when the form in the direction of compression aromachemicals material.

4. The aroma inhaler nenapravilo type according to claim 3, in which anomalopidae material is loaded in such a way that the flow resistance aromachemicals material after compression, expressed by the formula: ( ( 1 - Porosity ^2 ) / Porosity ^3 ) × ( Height load / cross-sectional Area ), equal to or greater than 0,005.

5. The aroma inhaler nenapravilo type according to claim 2, in which the aromatic cartridge further comprises a breathable package that Packed anomalopidae material.

6. The aroma inhaler nenapravilo type according to claim 5, in which the breathable package creates a pressure drop of 0.5 mm H2O or above.

7. The aroma inhaler nenapravilo type according to claim 2, in which anomalopidae material is loaded directly into the frame, and aromatic install the j further comprises air-permeable element, covering the ventilation openings compressive elements.

8. The aroma inhaler nenapravilo type according to claim 7, in which the permeable element creates a pressure drop of 0.5 mm H2O or above.

9. The aroma inhaler nenapravilo type according to claim 1, in which the aromatic cartridge further comprises a number of independent areas of the boot are designed to accommodate materials that emit the aroma of different types.

10. The aroma inhaler nenapravilo type according to claim 9, in which the aromatic cartridge further comprises a shell, tightly closing the download area so that the area of the boot can be opened and closed.

11. A method of manufacturing aromatic cartridge inhaler aroma nenapravilo type, with aromatic cartridge contains a frame; granulated anomalopidae material loaded in the frame and is able to allocate aromatic component without ignition, and anomalopidae material contains granulated tobacco received by sbrasyvaniem or shredding tobacco leaves; and the cover is made with the possibility to save aromachemicals material in a predetermined desired compressed state, while ensuring breathability aromatic cartridge, and the method comprises the stage of: download ass the nogo number aromachemicals material in the frame; compression aromachemicals material in the frame pusher; and attaching the cover to the frame to support anomalopidae material in the desired compressed condition, and stage of the compression process includes excessive compression to compress aromachemicals material to excessively compressed state that is a state, compressed to a greater extent than desired compressed condition, the excessive compression process provides intermediate compression state aromachemicals material between the desired compressed condition and excessively compressed condition within a certain period after anomalopidae material released from excessively compressed state, and before attaching the cover, and an intermediate compressed state allows aromachemicals material to expand to the desired compressed state after attaching the lid.

12. The method according to claim 11, in which the excessive compression process includes a step of compression aromachemicals material to excessively compressed state from at least 50% to a maximum of 80%.

13. The method according to claim 11, in which the stages of loading and compression use the guide frame to be able to download anomalopidae material in the frame and guide the introduction of the pusher in the frame, while the guide frame forming element, continue the s frame.



 

Same patents:

FIELD: tobacco industry.

SUBSTANCE: electrically heated smoking system contains the following elements: a smoking product containing identification information printed on the product; a cavity for at least partial reception of the smoking product; at least one heating element; an energy source for energy supply to the said at least one heating element; electrical means connected to the energy source and to the said at least one heating element and a detector able to detect the smoking product presence in the cavity and to differentiate the smoking product from other products designed for usage with the smoking system based on the identification information printed on the smoking product.

EFFECT: method ensures identification of the smoking product heated by the smoking system.

14 cl, 5 dwg

FIELD: chemistry.

SUBSTANCE: invention relates to a method of controlling release of volatile compounds by a heated system, which comprises a power source, a heating element connected to the power source and a base which forms an aerosol, wherein said base releases multiple volatile compounds when heated, each volatile compound having a minimum release temperature above which said volatile compound is released, wherein the method includes: selecting a given maximum operating temperature, controlling temperature of said at least one heating element so that at least one volatile compound is released, said controlling involving: measuring resistivity of said at least one heating element; deducing the value of the real operating temperature of said at least one heating element from the resistivity measurement; comparing the value of real operating temperature with the given maximum operating temperature; and controlling electrical energy fed to said at least one heating element to keep the real operating temperature of said at least one heating element below the given maximum operating temperature.

EFFECT: high efficiency of the method.

22 cl, 2 dwg

FIELD: tobacco industry.

SUBSTANCE: invention relates to an electrically heated smoking system containing a cartridge (101) and a replaceable tip (201); the cartridge (101) contains a source of power supply (103) and an electric circuit (105); the tip contains an area (203) for liquid storage, a capillary wick (207)(having the first end (207a) and the second end (207b), the first end stretching into the liquid storage area for contacting the liquid (205) contained in the area); at least one heating element (209) for heating the second end of the capillary wick, an air outlet (211) and an aerosol generation chamber (213) between the second end of the capillary wick and the air outlet; when the cartridge and the tip are connected; the said at least one heating element (209) is in electric connection with the source of power supply (103) via the said circuit (105); the said circuit (105) is designed for electric current pulse supply to the said at least one heating element when the user begins whiffing; the air flow way is designed from at least one air inlet (115) to the air outlet (211) through the aerosol generation chamber (213); this way directs air flow around the heating element (209) and the second end (207b) of the capillary wick.

EFFECT: design improvement.

23 cl, 3 dwg

FIELD: tobacco industry.

SUBSTANCE: invention relates to a smoking device (10) having the first part (20) and the second part (30). The first part (20) contains an accumulator for accumulation of electric energy and its supply to the heating device (22) in response to the sensor device (24) detecting the consumer sucking/whiffing in through the smoking device (10). The device additionally contains the first hole (25) for inlet of air through which air flow enters the said first part (20), passes through the said heating device (22) and streams outside through the first air outlet hole (26). The second part (30) contains a medium (33), a through hole (35) for inlet of air through which air flow enters the said second part (30), passes through the said second part (30), releases the said medium (33) by means of the output device (37) and streams outside through the said second air outlet hole (36) into the consumer's mouth.

EFFECT: reduction of negative side effects of smoking for the smoker and the people around.

21 cl, 16 dwg

FIELD: food industry.

SUBSTANCE: ensuring a system of flow rate sensors for perception of a fluid medium flow indicative of strain in an aerosol generation system. The sensors system includes a sensitive circuit containing a sensitive resistor and a voltage output. The sensitive resistor is designed so that to enable detection of a fluid medium flow based on resistance measurement. The sensitive circuit is designed so that variation of the sensitive resistor resistance causes that of output voltage. The sensors system also includes a signal; generator designed so that to enable delivery of a control pulse signal to the sensitive circuit for the sensitive circuit power supply. Power is supplied to the sensitive circuit when the control pulse signal is high and is not supplied when the control pulse signal is low. The sensors system is designed so that enable operation in the first mode wherein no strain is expected or has not been detected (with the control pulse signal having the first frequency) and the second mode wherein strain is expected or has been detected (with the control pulse signal having the second frequency exceeding the first one).

EFFECT: ensuring an improved system of flow rate sensors suitable for aerosol generation.

14 cl, 5 dwg

FIELD: tobacco industry.

SUBSTANCE: invention relates to smoke-generating compositions for electronic devices imitating tobacco smoking, to a method for such smoke-generating composition production as well as to the electronic device cartridge and the electronic device proper. The composition contains water and/or ethanol, flavouring agents and/or nicotine, glycerine and/or polypropylene glycol with molecular weight from 425 to 1025. Polypropylene glycol is mixed with the other components of the smoke-generating composition. The cartridge contains the smoke-generating composition. The electronic device (such as an electronic cigarette) includes a cartridge containing the smoke-generating composition.

EFFECT: invention enables reduction of the probability of the smoke-generating compound leakage from the cartridge or electronic device (electronic cigarette) prevention undesired penetration of the smoke-generating compound into the oral cavity.

4 cl, 2 tbl, 2 dwg

FIELD: tobacco industry.

SUBSTANCE: invention relates to a device imitating a cigarette; the device has an essentially cylindrical-shaped cigarette-type form and contains a reservoir with a pressurised composition (containing an inhalable substance and a propellant), a valve for refilling connected to the reservoir refilling whereof is implemented through the said valve, a breath-actuated valve for selective control of flow through the reservoir outlet hole and respectively - through the inhalation outlet hole of the device; the reservoir size, pressure inside the reservoir and the reservoir outlet hole size in its most narrow point are such that, when the breath-actuated valve is completely opened, the reservoir discharges during less than 30 seconds.

EFFECT: nicotine admission into the organism by way of inhalation.

21 cl, 11 dwg

FIELD: tobacco industry.

SUBSTANCE: imitative smoking device (1,51) contains an imitative cigarette having an essentially cylindrical cigarette-like shape and a charging unit (2, 50) having an essentially rectangular body shaped like a cigarette packet. The filling device (2, 50) contains charging gas (32, 59) for the imitative cigarette and a means for elective retention of the imitative cigarette. The imitative cigarette may be completely retained inside the body (3, 52). The cigarette may be retained at a place other than the charging place. A dose counter may be envisaged to give visual indication of doses in the charging device.

EFFECT: technical result achieved using the imitative cigarette device and the charging device for the imitative device according to the invention consists in smoking skill imitation, the imitative cigarette charging and its usage simplification.

7 cl, 15 dwg

FIELD: chemistry.

SUBSTANCE: liquid for forming aerosol which is used as a solution of aromatic substance contains basic components and adipic acid which is added to the basic components. The basic components include a solvent and a lipophilic aromatic substance containing L-menthol dissolved in the solvent. The solvent is propylene glycol.

EFFECT: use of the liquid enables formation of a significant amount of aromatic aerosol, having long life.

4 cl, 2 dwg, 2 tbl, 6 ex

FIELD: tobacco industry.

SUBSTANCE: invention relates to the process of biologically active and/or aromatic substances volatilisation for purposes of inhalable aerosol extraction in the course of the smoker imitating the act of a regular cigarette smoking. Gaseous products of combustion of flammable gas burnt (preferably - under oxygen excess conditions) partly or wholly, are supplied (in case of necessity - mixed with ambient air) through the biologically active and/or aromatic substances depot. The desirable temperature is selected by the gaseous combustion products content, in case of necessity - by the components ratio of the mixture of such gaseous combustion products with ambient air. The device for the method implementation includes a mouthpiece containing the biologically active and/or aromatic substances depot and a heating core. The core contains the body shell, a filling valve for filling a tiny gas reservoir with flammable gas, a regulator valve for controlled discharge of gas from the gas reservoir onto the burner and the substance converter for air heating with thermal energy generated by the burner. The mouthpiece is connected so that to enable its disconnection from the cigarette- or cigar-shaped heating rod for output of inhalable aerosol. Control of the regulator valve is performed by means of depression suction provided for on the mouthpiece and/or by means of air flow.

EFFECT: new smokeless cigarette substitute is proposed.

19 cl, 11 dwg

Smoking article // 2268631

FIELD: production of smoking articles generating aroma upon heating without burning.

SUBSTANCE: smoking article has hollow cylindrical part equipped with heat generating member placed at distal end part, mouth-piece arranged at proximate end part, and aroma generating member adjoining heat generating member within cylindrical part. Aroma generating member contains multiplicity of granules, each of said granules containing from 65% to 93% of non-porous inorganic filler material, from 1% to 3% of binder and from 6% to 32% of aromatic substance by weight of dry substance.

EFFECT: provision for constant amount of aroma at each inhalation.

11 cl, 7 dwg, 5 ex

FIELD: production of artificial smoking article using aroma-creating material, in particular, common cigarette.

SUBSTANCE: artificial smoking article has cylindrical enclosure into which non-disposable heat-releasing member is inserted through one end and aroma-creating material, in particular, cigarette, is inserted through other end so that free space is left between cigarette and heat-releasing member, said space being sufficient for preventing cigarette from igniting and hot gases produced on combustion of heat-releasing liquid being capable of heating tobacco or other identical cigarette component and of evaporating aroma-creating compounds contained therein.

EFFECT: provision for producing of artificial smoking article with the use of heat-releasing member whose heat is needed for evaporation of substance contained in smoking article and designed for creating of certain aroma.

38 cl, 2 dwg

FIELD: artificial smoking articles, in particular, holders for artificial smoking articles.

SUBSTANCE: holder has casing with front part made from low thermal conductivity material, air feeding means for providing inflammation of gaseous fuel, fuel mixture chamber, and rear tubular part made from high thermal conductivity material. There are fuel means provided in front tubular part of casing and adapted for feeding of gaseous fuel. Fuel mixture chamber is communicating with said fuel feeding means and air feeding means. There is chamber in rear portion of tubular part, wherein cigarette is to be inserted. Flame keeping device is positioned behind fuel mixture chamber, before combustion chamber positioned between flame keeping device and chamber where cigarette is to be inserted. Flame is formed in combustion chamber. Spark igniter is also positioned in tubular portion of tubular part, behind flame keeping device, in the vicinity of combustion chamber.

EFFECT: increased efficiency and reliable holding of artificial smoking article.

21 cl, 5 dwg

Inhaler // 2311859

FIELD: medicine.

SUBSTANCE: inhaler has catalytic burner, fuel balloon 6 containing hydrogen, said balloon being connected to burner, reservoir 15 for inhaling additives such as aromatic substances and/or functioning substances, at least one inlet 2 for oxygen-containing gaseous mixture, preferably for air, and at least one outlet 3 for inhaling mixture containing aromatic substances and/or functioning substances.

EFFECT: increased efficiency and convenient usage of inhaler.

13 cl, 1 dwg

FIELD: tobacco products.

SUBSTANCE: pipe for simulation of smoking comprises a shank integral with a bowl and a bit separable from the shank and fitted with a mouthpiece. In the smoke passage between the shank and the bit there is a hollow space intended for placing therein a sealed capsule with a nicotine-containing substance or a flavour. In front of the capsule in the smoke passage there is an electric heater connected to a current source placed into the bowl walls.

EFFECT: invention ensures preservation of the health of a pipe smoker while fully simulating the process of smoking.

17 cl, 8 dwg

Tobacco usage mode // 2329748

FIELD: alimentary products, tobacco.

SUBSTANCE: suggested mode of tobacco usage consists in inhaling its aqueous extract produced when a heated gas mixture comes in contact with liquid extract. The latter fills the cavities and splits formed by the filler granules. Heated gases come in contact with the tobacco extract inside a vertical tube made of a fire-resistant material with its lower butt-end covered with net. The net is used for sucking heated gas mixture inside the tube and discharge of the extract overstock. The tube contains filler that is regularly imbibed with tobacco extract poured inside through the upper butt end. The heated gas mixture becomes sucked inside the pipe due to pressure differential resulting from the user inhaling the end product through the upper butt end.

EFFECT: reduced formation of toxic agents during smoking.

7 cl, 3 dwg

FIELD: tobacco industry.

SUBSTANCE: proposed is a carbon-bearing compound for fabrication of a non-combustible smoking product heating element. The compound contains calcium carbonate in an amount required for maintenance of the combustion temperature within the standard smoking range (1000°C max). Particle diametre of the calcium carbonate used varies from 0.08 mcm to 0.15 mcm. Additionally the compound contains a bonding agent in an amount specified.

EFFECT: reduced carbon monoxide emission during the smoking product heating element combustion.

4 cl, 2 dwg, 2 tbl, 10 ex

FIELD: tobacco industry.

SUBSTANCE: invention relates to devices for smoking simulation. Tobacco pipe for smokeless smoking contains bowl, chibouk, cigarette holder with mouthpiece and air channel inside the pipe, in which it is located carrier of nicotine-bearing substance and/or aromatiser and heating facility, connected to current source. At least, one of heating facility elements is located in cigarette holder and displaced to its mouthpiece.

EFFECT: invention provides ability to smoking unhook for pipers.

30 cl, 7 dwg

FIELD: personal use articles.

SUBSTANCE: carbon-bearing composition is intended for heater of incombustible smoking material. Heater composition contains coal and polyatomic alcohol. Smoking material of incombustible type comprises aerosol-generating section, where aerosol is produced in process of heating, and a heater at the end of aerosol-generating section. Heater is arranged so that it is physically separated from aerosol-generating section for substantial heating of this section without ignition of aerosol-generating section. Heater consists of above-mentioned composition.

EFFECT: increased amount of aerosol with reduction of carbon monoxide amount, and also improved ignition time.

8 cl, 2 dwg, 2 tbl, 4 ex

FIELD: personal use articles.

SUBSTANCE: cigarette substitute comprises hollow tubular element equipped with generator of inhaled substances, inner heating facilities for heating of inhaled air or at least part of inhaled substances generator, and device of inhaled substances generator start-up. Start-up device comprises element, which is sensitive to effect of heat produced by heating facilities arranged outside substitute independently on it. Specified heat-sensitive element is made from material, which is not ignited or does not glow under conditions of normal usage of substitute.

EFFECT: invention provides for harmless usage of device with full imitation of real smoking process.

28 cl, 1 dwg

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