NO126293B - - Google Patents

Description

Ventilated nozzle filter assembly.

The present invention relates to a ventilated nozzle filter device for smoking articles, consisting of a nozzle in the form of a substantially cylindrical part with a central longitudinal passage and with its outer surface equipped with longitudinal ventilation passages, a cylindrical part of ilter material flush with the nozzle, a covering layer connecting the nozzle to the filter part and covering the longitudinal ventilation passages, and wherein the nozzle is of thermoplastic material and that its inner passage has a smooth cylindrical surface.

It is known that certain advantages are obtained by introducing ventilating air currents into a cigarette to dilute the flow of smoke. The dilution of the smoke has the effect that the amount of smoke particles and gas phase components that are brought into the mouth with each puff of the cigarette is reduced. Furthermore, the ventilation currents act to cool the smoke. Different methods are known for introducing the air flow into the cigarette, such as for example the cover layer on the tobacco cylinder can be in the form of highly porous paper which allows the flow of air into the tobacco cylinder where the air mixes with the smoke. Furthermore, the cover layer of the tobacco cylinder may be perforated at various places in the longitudinal direction, which provides radial inlet openings to the tobacco, through which ventilating air currents enter the cigarette. It is also known to perforate the cover layer in the filter section of a filter cigarette, or otherwise provide this with openings that are connected to the filter medium, so that ventilating air can flow directly to the filter section instead of to the tobacco cylinder.

The previously known ventilation means are effective enough to provide a significant dilution of the smoke stream, but act in such a way that this dilution first takes place inside the cigarette and not in the smoker's mouth. When these means are used in connection with filter cigarettes, they also all have a common disadvantage in that not only the flow of smoke, but also ventilating air currents are led through at least part of the filter section. In this way, the filter medium which is primarily supposed to remove smoke components from the smoke stream is not utilized to its full advantage, due to the fact that the ventilating airflows tend to pass through the filter section at the point where they enter it and channel themselves along certain paths in the filter medium, so that in this way they block the flow of smoke. Thereby, the available flow paths in the filter section are reduced for the smoke stream, and as a result of this, the filtering efficiency in the filter section is reduced, especially as the smoking progresses. If, on the other hand, the ventilation streams were deflected so that they were separated from the smoke stream, it would be possible to utilize the filter medium to maximum effect for filtering smoke components. Creation of separate smoke and air streams would further mean that the first mixing of the smoke flow and the ventilating air currents would take place inside the smoker's mouth and result in improved taste and increased aroma. This phenomenon is no less prominent in connection with cigarettes without a filter.

The present invention achieves the foregoing desirable objects by means of a mouthpiece suitable for use with filter cigarettes as well as non-filter cigarettes. This mouthpiece allows the delivery of the smoke flow to the smoker's mouth through a central passage in the mouthpiece, while at the same time the ventilating air currents are introduced into the cigarette in the flow paths which are completely separate from the smoke flow. In the case of a filter cigarette, only the smoke will thus penetrate through the filter section, and the smoke stream is only mixed with the ventilating air streams after each of these has been delivered to the smoker's mouth.

The mouthpiece filter device according to the invention aims, among other things, to provide maximum filtration for a filter cigarette,

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and at the same time have/means which can take advantage of the effects of cigarette ventilation and also provide a new ventilation device for cigarettes without a filter.

The special feature of the ventilated nozzle filter device according to the invention is that the cover layer is made of air-permeable material, that an outer cover layer of air-impermeable material covers the cover layer and binds together the nozzle and the filter part in axial extension to the smoking article, and that the outer cover layer is circularly equipped with i and known openings for intake of air to the ventilation passages and that the longitudinal central passage is separated from the ventilations in the nozzle..

Another feature of the nozzle filter device according to the invention is that the ventilation passages are designed as grooves placed evenly and circularly around the nozzle, that the separating part between the grooves is in the form of edges and that the air-permeable cover layer closes tightly to the edges.

If the mouthpiece is used in connection with a cigarette without a filter, it can be connected to the tobacco cylinder by means of a tobacco layer, or the mouthpiece can be equipped larger than the two-back cylinder inside, and the latter partially introduced into the mouthpiece.

The mouth piece construction is such that cigarette flavourings, such as menthol, can be arranged in one or more of the ventilation passages and smoke treatment substances arranged in the smoke passage.

The invention will therefore include the construction features, the assembly of elements and arrangement of parts, which are exemplified in the construction described below, while the scope of the invention is indicated in the patent claims.

A more complete understanding of the nature and purpose of the invention will be apparent from the following detailed description i

connection with the accompanying drawings, where:

Fig. 1 shows a longitudinal section through a ventilated cigarette manufactured according to the invention, where the thickness dimensions have been enlarged to make the whole thing clearer. Fig. 1a shows an end view of the cigarette shown in fig. 1 seen from his left side. Fig. 2 shows a diagram corresponding to fig. 1 of a further modified embodiment of the cigarette, where the ventilation passages in the nozzle are formed radially within at a distance from the outer surface of the nozzle. Fig. 3 shows a perspective view of a mouthpiece that can be used together with the cigarettes shown in fig. 1. Fig. 4 shows a cross-section on an enlarged scale of a nozzle of the type illustrated in fig. 2, and shows a modification of this in the form of a central support rib.

Throughout the description, the same reference numerals indicate like parts in the drawings.

Cigarettes with a nozzle filter device according to the invention therefore comprise devices by means of which separate ventilating air streams can be delivered to the smoker's mouth at the same time as the smoke stream, at the point where the first mixing of the individual streams takes place. The cooling, diluting air currents are delivered through a nozzle, representative embodiments of which will be described just below. The present invention ensures that the mouthpiece can be used in connection with a filter cigarette or only together with a tobacco cylinder, making full use of the positive effects of cigarette ventilation.

Initially, a brief explanation of the benefits and effects of cigarette ventilation will be given. The ventilation generally leads to the introduction of air into the stream of smoke which is finally delivered into the smoker's mouth. The air serves, among other things, as a cooling agent and also as a diluent so that the smoke components present in the emitted smoke are reduced. The reduction of dust particles and the gas phase in the smoke is produced by better filtration (in filter types) of the smoke that is inhaled and also because a smaller volume of smoke is inhaled even though the total inhaled volume is essentially the same as would occur if ventilation were not used. In other words, for a given average inhalation volume, the volume of the ventilating fresh air flow will reduce the volume of the smoke flow accordingly. In this way, less real smoke is delivered to the smoker's mouth and thereby also less smoke particles. As those skilled in the art will understand by reading this description, less smoke intake during inhalation will be followed by a reduced speed of the smoke flow, which will give a longer residence time of the smoke in the cigarette filter unit, with the following improvement in the smoke filtering efficiency.

Reference is now made to the filter cigarette 10 shown in fig. 1.

It comprises a tobacco section 12 which consists of a tobacco cylinder H and a cover layer 15 of paper. A filter section 16 is arranged flush with the tobacco cylinder 14, which consists of a suitable filter medium in contact with one end of the tobacco cylinder. The filter medium can consist of various substances, such as a fiber plug of cellulose acetate, a composite structure including a fiber and a granular filter medium such as charcoal, or any other type of filter medium suitable for the intended purposes. As usual in the manufacture of filter cigarettes, the filter section is shaped as a cylindrical body with roughly the same diameter as the tobacco cylinder. A nozzle 18 is arranged flush with the filter section. The latter has an internal passage '20 which extends through the section and forms a scattering path for the smoke which is drawn through the filter section and delivered to the smoker's mouth. The mouthpiece 18 is suitably formed as a largely cylindrical body whose wall thickness is kept as small as possible in order to reduce the area that abuts the end of the filter medium, thereby reducing the area of filter medium that cannot be used for filtering purposes. The outer surface of the mouthpiece 18 is shaped in such a way that a structure with one or more ventilation passages in the mouthpiece is obtained. It can thus be shaped with one or more longitudinal grooves 22, which can best be seen in fig. 1a and 3. The grooves 22 may have the curved shape shown, in which case the nozzle will have a fluted appearance. The number and dimensions of the slots 22 can be varied depending on the degree of ventilation that is desired. It will be understood that the outer shape of the nozzle may comprise grooves, channels, an embossed shape or another surface shape adapted to form one or more open paths along which ventilation air currents can move to the smoker's mouth. The essential condition is that the flow paths of ventilation air can be separated from the flow path of the smoke stream, which is formed by the inner passage 20.

The nozzle 18 is preferably so shaped that its outer diameter is substantially equal to the diameter of the filter section, which facilitates its connection with the filter section by means of a cover layer 24. The latter is usually, by those skilled in the art, referred to as a combination cover layer. The cover layer 24 encloses the outer surface of the mouthpiece and lies firmly against the elevations 17 which are formed by the intersecting surfaces of adjacent grooves 22. Thereby a separate ventilation passage is formed in each groove 22, which passage is delimited from all others and from the inner passage 20. This feature appears more clearly from the reference to fig. 1a. The cover layer 24 is preferably of porous paper which allows the passage of air, preferably one with a Greiner porosity of between 0.0 and 0.1. An outer cover layer 26 overlaps the cover layer 24 and is arranged for the purpose of connecting together the composite structure consisting of nozzle, filter section and tobacco section. The outer cover layer 26 is of the type referred to by professionals in the tobacco industry as "tipping paper" and is impermeable to air, but due to the fact that ventilation air must be supplied through the nozzle's ventilation passages, the outer cover layer is provided with perforated openings 28 in the areas of this which is located branch-side towards the inlet end of the ventilation passages. The perforated openings 28 can be arranged in the form of one or more circles of openings extending around the nozzle. It is in this way that ven-tilas jonspassas jene is put in connection with the atmosphere. It will be understood that the cover layer 24 could also be of a paper type which is largely impermeable to air. In this case, this cover layer must also be provided with perforated openings corresponding to the openings 28.

The flow patterns for the flow of smoke and the ventilating air currents can be seen from fig. 1. When the cigarette is puffed, the stream of smoke, indicated by a single solid line, will be drawn from the tobacco section 12, through the filter section 16

and undisturbed through the inner passage 20 in the mouthpiece and directly delivered to the smoker's mouth at the exit from the channel 20. Along with the drawing in of the smoke stream, the simultaneous drawing in of ventilation air into the smoker's mouth with the pattern that is

shown with broken lines. The ventilation air is thus drawn from the atmosphere through openings 28 in the outer cover layer 26, through the porous cover layer 2'4 and into the inlet ends of each ventilation passage. The ventilation passages are formed by the grooves that have outlets coinciding with the plane in which the outlet end of the inner channel 29 lies, so that the flow of ventilation air comes out of the nozzle inside the smoker's mouth and has not previously been mixed with the smoke flow. The streams of ventilation air can only enter the nozzle's ventilation passages through the openings 28, as the outer cover layer 26 is impermeable to air and no external air intake to the filter section 16 is possible. However, it must be observed that the air intake to the ventilation passages by means of the openings 28, in some cases, depending on the dilution level that is relevant, the ventilation air flow rate as well as other factors, can tend to produce a "venturi effect" at the inlet ends of the ventilation passages, which can cause intake of air for ventilation -passes those from the filter six ion. The tie can be avoided by applying a thin coating of smoke impermeable material to the back surface of the filter media, such as at 31.

The perforated openings 28 in the outer layer 26 can be formed in different ways. A suitable method for carrying this out is to pierce the outer covering layer with needles, so that openings are formed in this before wrapping the cigarette. The size and number of openings in the outer cover layer can be varied depending on the dilution level to be produced. In general, the dilution level can vary from between 0% and 80$ ventilation air in each draft. The actual dilution that occurs depends on factors such as the endpoint of acceptable taste, the cigarette's resistance to drawing, etc. If the dilution is low and the mouthpiece is made with more channels than is required to achieve the necessary dilution, it is clear that it is not openings 28 will be arranged in the outer cover layer for each corresponding passage, but only for as many as are significant for the particular dilution level.

The mouthpiece construction used in cigarette production

. the journeys according to fig. 1 can be made from several different materials and formed in several different ways. The nozzle 18 shown in fig. 3 can, for example, be produced by extruding a tubular body of thermoplastic material of continuous length, after which this is divided into six ions, so that individual nozzles are formed. Suitable material for mouthpieces

may include thermosetting resins such as phenolics. Polyurethane foam can also be used provided an air impermeable film is applied to its outer surface. The nozzles can also be made from an extruded, bonded fiber. The dimensions of the mouthpiece can of course be varied in relation to the length.' Mouthpieces with lengths between 10 and 30 mm and more and with a circumference of 25 mm can, for example, be easily adapted for use on existing machines for the manufacture of cigarettes. It is also possible to make the mouthpiece from paper or, a metal foil such as aluminium, provided that this is sufficiently rigid to be shaped to maintain the structural shape of the mouthpiece. Thus, a web of corrugated paper or metal foil can be rolled, so that a tube-shaped, fluted structure is formed, after which the longitudinal outer edges are joined edge to edge or overlapping in the form of a seam. The rolled web can then be cut to individual nozzle lengths.

The mouthpiece construction according to the invention not only serves as the device which separately leads the smoke stream and ventilating air streams to the smoker's mouth, but it also constitutes an appropriate device for adding flavoring substances to the cigarettes. Thus, as shown in fig. 3, particles 58 of menthol, sprayed on film of anethole or other suitable flavoring for tobacco be placed in the ventilation passages. It is also possible to impregnate the mouthpiece with a solution of the flavoring substances if the mouthpiece material has the properties required for this.

Another type of mouthpiece is used in the cigarette 70 shown in fig. 2. The cigarette 70 is very similar to the cigarette according to fig. 1, except that the mouthpiece 72 itself has a somewhat different construction. The mouthpiece 72 has a largely cylindrical shape with a central smoke passage 74. However, the ventilation passages are not formed at the outer surface of the mouthpiece. Instead, they are formed in the form of a circle of longitudinal conduits or channels 76 in the nozzle itself between its inner and outer surfaces. The channels 76 can run end to end with the nozzle body, where each channel has an inlet opening 78 that runs radially outwards

to the outer surface of the nozzle. A porous cover layer 80 and an outer cover layer 82 can be used where the outer cover layer 82 has perforated openings 84 associated with each ventilation passage, for the purpose of placing the inlet for the ventilation passage in connection with the atmosphere. The smoke flow and ventilation air flow paths have been illustrated for the cigarette 70 in the same manner as described above.

Fig. 4 shows a modification of the mouthpiece 72 on the cigarette 70. The modification ensures that a stiffening rib 90 is included in the construction. The rib 90 is preferably formed integrally with the construction shown, and extends from one end to the other. This rib effectively divides the central smoke passage into two separate smoke passages 92, 94. Although the assembly of the rib with the filter medium serves to reduce the area of the latter available for filtration, the rib no less serves to stiffen the nozzle structure where the shell thickness of this is very small. The rib also has a decorative function and is not limited to a single rib. The rib could, for example, also have a cross-shaped cross-section.-

A number of important advantages are achieved by the ventilated nozzle filter device according to the invention. The obvious primary advantage is that dilution of the smoke by means of ventilating air currents reduces the tobacco substances and the organic gas phase of the smoke delivered to the smoker's mouth. This applies whether the cigarette is of the filter type or has no filter. When it comes to filter cigarettes, the reduction of substance particles is further improved by better filtration during dilution, due to the fact that the smoke remains longer inside the filter medium, which will be evident from the example given below. An unexpected advantage for the smoker is that there is the possibility of improved smoke flavor and aroma. This is believed to be due to the fact that the initial smoke dilution takes place inside the smoker's mouth caused by the separate delivery of the smoke stream and the venting streams. This initial "taste confrontation" was found to produce a better taste response for the smoker than that obtained with vented cigarettes where the initial dilution takes place outside the mouth. A further advantage of the cigarette according to the invention lies in the fact that the passage for the ventilation air flow and the passage for the smoke flow are separated from each other. As the connection between them is missing, it is not possible for smoke to backfire through the ventilation inlets. Thereby the smoker avoids the smoke discolouring or putting an odor on the fingers, which can happen with other types of ventilated cigarettes where the smoke passage communicates with the ventilation Fits Jen.

The effectiveness of the principles for cigarette ventilation according to the invention in connection with a filter cigarette will be apparent from the following example. A number of cigarettes were produced with the construction shown in fig. 1. The tobacco cylinders had a length of 63 mm and alone had an average resistance during drawing (RTD) of 5 cm of water. The Eilter sections were 10 mm long and consisted of cellulose acetate. The eiltren had an average RTD of 7 cm. Several nozzles of the type shown in fig. 3 with 15 mm length and provided with 24 grooves, each groove approximately 0.9 mm wide and 0.28 mm deep. The mouthpiece was attached to the filter section and the tobacco cylinder by means of bonding cover and "tipping" paper. The total RTD of the cigarettes before smoking was measured to be an average of 5.7 cm of water. The dilution measured during smoking averaged 55$. A number of cigarettes were also produced in which the nozzles had 8 grooves each with an average width of 1.2 mm and a depth of 0.28 mm at the center. Before smoking, the cigarettes had an average total RTD of 6.8 cm. The dilution measured during smoking averaged 47$. The tipping paper used for both types of cigarettes was provided with 48 holes with an average base area of 0.030 square millimeters. When smoked on the eh cigarette tester, the cigarettes with 24 slot nozzles emitted an average of 10 mg of TPM (total particulate matter) and 3.1 mg of OGP (organic gas phase). Similarly, non-vented (that is, not fitted with mouthpieces) cigarettes emitted 20 mg TPM and 4.2 mg OGP. It will thus be seen that the ventilation caused a significant reduction in TPM and OGP delivered to the smoker.

The cigarette ventilation principles according to the invention can also be used for cigarettes without a filter. The following example will serve to illustrate the positive advantages of ventilating a cigarette without a filter. 15 mm plastic nozzles of the type shown in fig. 3 was attached to 85 mm tobacco cylinders using conventional "tipping" paper. The "tipping" paper was perforated by means of two circular rows of openings at the entrance of the respective ventilation passages. Furthermore, control cigarettes were produced, each consisting of an 85 mm long tobacco cylinder connected to a paper mouthpiece with a length of 15 mm without ventilating ion passages. The cigarettes were then smoked, and the following representative parameters were found:

From the above it will be seen that the resistance to drag (RTD) of ventilated cigarettes was significantly reduced, which proves that the ventilated cigarette is smoked easily. Most significant was a reduction in total particulate matter (TPM) of over $100 compared to a non-vented cigarette.

As discussed earlier in this description, the ventilation passages in the mouthpiece constitute means for adding flavorings to the cigarette. However, these flavoring substances can also be introduced into the smoke channel. The smoke duct also constitutes a suitable place for placing smoke treatment substances such as charcoal, which are used to reduce the OGP of the smoke. In the latter case, the charcoal can be melted to the surfaces in the passage 20. It is also possible to utilize the smoke passage as the place where flavoring substances as well as tobacco processing substances can be added to the cigarette. For example, a charcoal coating that serves as a flavor transfer agent for a flavoring such as menthol can be arranged in the channel 20.

It will be seen from the preceding description that the ventilated nozzle filter device according to the invention produces important advantages. It is known that a reduction in smoke flow through a filter medium is accompanied by an increase in the efficiency of the filter medium during particle filtration. The introduction of ventilating air currents as prescribed according to the invention produces such a reduction in smoke flow, and does this without the fresh air penetrating the filter medium, which would then reduce the available filtering surface for the smoke. The filter arm's full surface thus serves to filter the smoke, and this is done under conditions of reduced smoke flow with the resulting greater total removal of smoke particles.

It will thus be seen that the purposes stated above, including those that appear from the preceding description, are effectively achieved.

Claims (2)

1. A vented nozzle filter device for smoking articles, consisting of a nozzle in the form of a substantially cylindrical portion having a central longitudinal passage and with its outer surface provided with longitudinal ventilation passages, a cylindrical portion of filter material flush with the nozzle, a cover layer which connects the nozzle to the filter part and covers the longitudinal ventilation passages, and where the nozzle is of thermoplastic material and that its inner passage has a smooth cylindrical surface, characterized in that the cover layer (24, 80) is of air-permeable material, that a outer cover layer (26, 82) of air-impermeable material covers the cover layer (24, 80) and binds together the nozzle (18, 72) and the filter part (16) in axial extension to the smoking article (14), and that the outer cover layer (26, 82) circular is equipped with per se known openings (28, 84) for the intake of air to ventilate ion passages (22, 76) and that the longitudinal central passage (20, 74) is separated from the ventilations in the nozzle (18, 72), 2. Nozzle filter device in accordance with claim 1, characterized in that the ventilation passages are designed as grooves (22) placed evenly and circularly around the nozzle (18), in that the separating part between the grooves (22) is in the form of edges (17) and that the air-permeable cover layer (24, 80) closes to the edges (17).