Cigarette with adsorbent at tip end thereof

Description

BACKGROUND OF THE INVENTION

[0001] The present invention relates a cigarette with an adsorbent material at the tip end thereof, and more particularly to selective filtration of cigarette smoke by providing a zone or plug of porous adsorbent material at the lighting tip end of the cigarette.

[0002] The concentration of mainstream smoke constituents changes on a puff-by-puff basis starting with the lighting puff and progressing down the tobacco rod. It is desirable to selectively reduce certain compounds which occur at significantly higher concentrations in the first one or two puffs of a cigarette.

SUMMARY OF THE INVENTION

[0003] Accordingly, it is an object of the present invention to reduce the level of volatile smoke constituents in mainstream cigarette smoke.

[0004] Another object of the invention is the adsorption of volatile smoke constituents close to the burning coal of a cigarette where such constituents are formed.

[0005] In accordance with the present invention, a cigarette comprises a tobacco rod and an adjoining filter, such as a cellulose acetate tow. A zone or plug of porous adsorbent material is positioned in the tobacco rod a short distance from the lighting end thereof. The amount of adsorbent material is sufficient for effective removal of volatile smoke constituents while allowing the cigarette to burn continuously. The adsorbent material traps volatile smoke constituents in close proximity to the burning coal during the first puffs of the cigarette. As the cigarette continues to burn, the burning coal consumes the adsorbent material, and the adsorbed smoke constituents are thereby effectively removed without releasing them back into the mainstream smoke.

[0006] The zone or plug of porous adsorbent material may be activated carbon, and one or more spaced apart zones or plugs may be utilized. The activated carbon material may comprise a zone of carbon granules or a carbon plug in the form of a wafer. Preferably, the zones or plugs of absorbent material are spaced approximately 4 to 8 mm from the lighting end of the cigarette.

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] Novel features and advantages of the present invention in addition to those mentioned above will become apparent to persons of ordinary skill in the art from a reading of the following detailed description in conjunction with the accompanying drawings wherein similar reference characters refer to similar parts and in which:

[0008]
FIG. 1 is a side elevational view of cigarette with a zone or plug of adsorbent material at the tip end of the cigarette, according to the present invention, with portions broken away to illustrate interior details; and

[0009]
FIG. 2 is a side elevational view of another cigarette with several spaced apart zones or plugs of adsorbent material at the tip end of the cigarette, according to the present invention, with portions broken away to illustrate interior details.

DETAILED DESCRIPTION OF THE INVENTION

[0010] Referring in more particularity to the drawings, FIG. 1 illustrates a cigarette 10 comprising a tobacco rod 12 and an adjoining filter 14. As shown, the filter is a cellulose acetate tow although alternative filter arrangements may also be utilized, if desired. Cigarette 10 includes a zone or plug of porous adsorbent material 16 at the lighting end 18 of the tobacco rod. The porous adsorbent material may be activated carbon, either in the form of granules or carbon wafers and the material may be positioned a short distance from the lighting end 18, preferably about 4 to 8 mm.

[0011] The amount of adsorbent material 16 (about 20 to 50 mg, preferably 25 to 40 mg) is sufficient for the effective removal of volatile smoke constituents while allowing the cigarette 10 to burn continuously. The adsorbent material 16 traps volatile smoke constituents in close proximity to the burning coal in the first few puffs of the cigarette. As the cigarette 10 continues to burn, the burning coal consumes the adsorbent material to thereby effectively remove the adsorbed smoke constituents without releasing them back into the mainstream smoke. Following the consumption of the adsorbent material in the tobacco rod, cigarette 10 is unchanged from a cigarette of conventional design.

[0012]
FIG. 2 shows an alternate cigarette 10A comprising a tobacco rod 12 with an adjoining filter 14. Cigarette 10A includes two spaced apart zones or plugs of porous adsorbent material 16A at the lighting end 18 of tobacco rod 12. The porous adsorbent material 16A may be activated carbon, either carbon granules or carbon wafers, and the material may be positioned a short distance from the lighting end 18, preferably about 4 to 8 mm. Also the spacing between the plugs or zones of porous adsorbent material 16A may be about 4 to 8 mm. Each plug or zone 16A may comprise 20 to 50 mg of activated carbon, preferably about 25 to 40 mg. Otherwise cigarette 10A is the same as cigarette 10 and functions in the same manner as cigarette 10, as explained above.

[0013] Adding the adsorbent material 16, 16A to the tobacco rod in a discrete zone or plug provides for the adsorption of the volatile smoke constituents close to the burning coal where they are formed. Being heated due to the closeness of the hot coal, the adsorbent material is also more effective at adsorption of gases. After adsorption of the volatiles during the first two puffs, the adsorbent material is consumed with the surrounding tobacco through normal cigarette burning as the cigarette coal progresses through the adsorbent zones or plugs.

[0014] Another advantage is that the filter design and construction are unaffected. Also, following consumption of the adsorbent material, the cigarette is the same as a conventional cigarette, and there is a lower impact on smoke flavor when compared to a cigarette design that incorporates the adsorbent material in the filter.

[0015] The adsorbent zone or plug can also be used to affect the cigarette burn rate so the cigarette would self extinguish if not puffed thereby producing a cigarette of reduced ignition propensity.

[0016] Also, some aldehydes and dienes are produced in disproportionally high amounts in the first puff (lighting puff). By placing the adsorbent material so that it removes these compounds from the first few puffs after which the adsorbent is consumed, the overall subjectives of the cigarette are only minimally affected. At the same time, the total deliveries of target compounds such as 1, 3-butadiene and formaldehyde are significantly reduced.

[0017] After passing through the adsorption zone, the tobacco smoke and hot gases still sweep across the remaining tobacco rod where its flavors are added to the smoke. In a conventional carbon-filtered cigarette this would not be possible.

[0018] Experimental data is attached showing the effectiveness of cigarettes 10, 10A in adsorbing reducing volatile constituents from tobacco smoke.

[0019] The following test data in Table 1 compares a control cigarette (IR4F) with cigarettes A through D each of which comprises a tobacco rod 12 and cellulose acetate filter 14. The individual readings comprise percentages of the total smoke constituents delivered for each of cigarette puffs 1-8. Reduced amounts occur during the first few puffs of cigarettes B, C and D, each of which is an embodiment of the present invention. Cigarette A is not an embodiment of the present invention and simply comprises carbon granules dispersed amongst the tobacco over 4 mm from the lighting end. As indicated, the removal percentages with cigarette A are not as good as cigarettes B, C and D.

1Cigarette BTobaccoCigarette CCigarette ARod &TobaccoCigarette DTobaccoFilterRod &TobaccoRod &(FIG. 1)FilterRod &Filter(25 mg(FIG. 1)Filter(25 mgactivated(40 mg(FIG. 2)activatedcarbonactivated(two 25 mgcarbonzone orcarbonzones orgranulesplug 1 tozone orplugs eachmixed with1.5 mmplug 2 mm1 to 1.5 mmControltobaccowide @wide @wide @ 4Cigaretteover 4 mm4 mm from4 mm fromand 8 mmIR4Ffrom end)endend)from end)Formaldehyde65.473.216.14.03.7puff 1Formaldehyde18.721.08.64.63.3puff 2Formaldehyde5.86.45.13.53.6puff 3Formaldehyde2.63.43.81.92.8puff 4Formaldehyde2.52.72.31.82.8puff 5Formaldehyde1.81.22.22.11.9puff 6Formaldehyde1.71.31.41.62.3puff 7Formaldehyde1.31.21.51.62.8puff 8Totals99.8110.441.221.123.1Acetaldehyde10.17.24.20.60.7puff 1Acetaldehyde12.210.77.22.12.8puff 2Acetaldehyde11.59.39.25.25.1puff 3Acetaldehyde12.710.011.57.68.0puff 4Acetaldehyde13.611.011.710.311.3puff 5Acetaldehyde11.814.110.914.210.7puff 6Acetaldehyde13.615.910.513.612.7puff 7Acetaldehyde14.613.69.610.915.2puff 8Totals100.091.974.864.466.2Acrolein puff 110.88.82.51.00.4Acrolein puff 213.312.64.5141.6Acrolein puff 312.210.56.12.81.3Acrolein puff 412.69.69.15.35.2Acrolein puff 514.49.89.28.08.6Acrolein puff 612.714.39.814.210.4Acrolein puff 711.814.28.711.810.0Acrolein puff 812.412.68.910.213.5Totals100.292.358.854.851.2Acetone puff6.34.42.00.20.31Acetone puff10.99.55.71.41.12Acetone puff11.610.07.85.23.63Acetone puff12.611.69.87.46.34Acetone puff15.013.410.810.110.55Acetone puff13.415.610.513.410.56Acetone puff14.217.510.512.912.57Acetone puff16.215.810.612.114.68Totals100.297.867.762.759.4Hydrogen2.41.10.70.50.5cyanide puff 1Hydrogen7.73.63.50.70.8cyanide puff 2Hydrogen11.57.18.72.23.6cyanide puff 3Hydrogen13.510.414.27.67.1cyanide puff 4Hydrogen16.012.418.513.513.4cyanide puff 5Hydrogen15.914.317.815.716.8cyanide puff 6Hydrogen15.819.117.217.621.7cyanide puff 7Hydrogen17.215.716.615.824.2cyanide puff 8Totals100.183.697.173.688.21.3-16.914.56.20.21.0butadiene puff11.3-13.011.79.52.12.5butadiene puff21.3-9.88.08.25.04.8butadiene puff31.3-10.98.210.57.77.8butadiene puff41.3-11.99.210.88.99.5butadiene puff51.3-10.912.39.212.29.2butadiene puff61.3-12.913.09.1013.010.9butadiene puff71.3-13.710.88.210.113.2butadiene puff8Totals100.087.971.659.258.8Isoprene puff4.84.22.70.21.11Isoprene puff5.84.35.31.12.22Isoprene puff5.53.65.03.25.13Isoprene puff16.513.617.010.611.04Isoprene puff17.113.216.315.515.45Isoprene puff14.916.813.619.416.16Isoprene puff17.717.814.115.418.57Isoprene puff18.315.313.013.321.48Totals100.688.887.078.890.7Benzene puff10.16.42.30.30.61Benzene puff11.79.78.72.91.32Benzene puff11.69.810.88.86.43Benzene puff12.710.411.910.810.34Benzene puff14.011.712.512.712.95Benzene puff12.712.810.813.211.96Benzene puff13.014.510.813.013.17Benzene puff14.313.310.713.014.38Totals99.988.578.574.870.8Toluene puff 13.41.81.10.30.4Toluene puff 28.76.54.92.10.7Toluene puff 310.99.79.27.53.9Toluene puff 413.012.111.710.87.8Toluene puff 515.013.312.412.510.8Toluene puff 615.613.712.413.411.5Toluene puff 715.216.312.515.113.9Toluene puff 817.517.113.816.415.5Totals99.390.578.078.064.6

Claims

1. A cigarette comprising of tobacco rod and an adjoining filter, a zone or plug of porous adsorbent material in the tobacco rod at a lighting end thereof spaced inwardly therefrom,
2. A cigarette as in claim 1 wherein the porous adsorbent material is activated carbon.
3. A cigarette as in claim 1 wherein the zone or plug of porous adsorbent material is spaced 4 to 8 mm from the lighting end of the cigarette.
4. A cigarette as in claim 1 wherein the zone or plug of porous adsorbent material comprises about 20 to 50 mg of activated carbon.
5. A cigarette as in claim 1 including a plurality of spaced apart one or plugs of porous adsorbent material in the tobacco rod at a lighting end thereof spaced inwardly therefrom.
6. A cigarette as in claim 5 wherein the porous adsorbent material of each zone or plug comprises activated carbon.
7. A cigarette as in claim 5 wherein the zones or plug of adsorbent material are spaced apart 4 to 8 mm, and wherein the zone or plug of adsorbent material closest to the lighting end of the cigarette is spaced 4 to 8 mm therefrom.
8. A cigarette as in claim 5 wherein each zone or plug of porous adsorbent material comprises 20 to 50 mg of activated carbon

Cigarette with adsorbent at tip end thereof

Information

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CPC

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Abstract

Description

Claims