This relates to an apparatus for delivering a metered amount of liquid additive to a porous plug, such as a cigarette filter attached to a tobacco column.
It is known to provide cigarettes with additives such as flavors or sensory stimulants, such as menthol for example, at the time of cigarette manufacture. A shortcoming of such a practice is that the intensity of the additive can fade over time, whereby the benefits to the consumer are diminished and not consistent from cigarette pack to cigarette pack. Also, in the case of additives applied directly to the tobacco, the additive may be burned or pyrolyzed as the cigarette is smoked, whereby its effect is minimized.
Moreover, cigarette filters may contain adsorbents for the removal of gas-phase constituents produced from the burning end of the cigarette. For instance, if menthol is used as the additive in a carbon laden filter, it is possible for the carbon to adsorb the menthol, thus reducing the availability of menthol to the mainstream smoke and also reducing the capacity of the carbon to adsorb the gas phase constituents in the smoke.
Thus, there is a need to maximize the effect of cigarette additives without reducing the capacity of adsorbents to adsorb gas-phase constituents from mainstream smoke.
There is also a need to ensure that the effect of the additive is not diminished before the cigarette is smoked, and be consistent from one cigarette pack to another.
There is provided a dispenser for dispensing a metered amount of liquid additive into a porous plug, comprising a casing including an inlet passage adapted to receive a manually insertable porous plug. A reservoir is disposed in the cavity for containing a liquid, the reservoir having an outlet communicable with the inlet passage. A discharge mechanism is disposed in the casing and is actuable in response to the insertion of a porous plug into the inlet passage for discharging a metered amount of the liquid from the reservoir and into the porous plug.
A method of dispensing liquid additive into a porous plug comprises the steps of:
A. inserting a porous plug into an inlet passage of a casing which contains a liquid; and
B. causing the force of inserting the plug to pressurize air; and
C. directing the air to displace liquid from the reservoir into the porous plug.
A dispenser is provided for introducing a metered amount of liquid additive into a porous plug to be inhaled by a consumer. For example, a liquid additive such as a flavor, a tobacco extract or an agent to remove smoke constituents can be introduced into a cigarette filter just before the cigarette is smoked. This ensures that: (i) a fresh, consistent flavor or agent is delivered by the cigarette, (ii) there is safeguard against the liquid being pyrolyzed, and (iii) there will be insufficient opportunity for adsorbents in the filter to adsorb the flavor or agent prior to the cigarette being smoked.
Depicted in
The casing 12 is generally cylindrical, and the inlet passage 14 includes an open end 18. Disposed in the passage 14 is a plunger 20 which has front and rear sides 22, 24 and is biased toward the open end 18 by a suitable spring, such as a coil compression spring 26. A chamber 23 is formed between a rear surface 24 of the plunger and an end wall 31 of the reservoir. A duct 30 communicates that chamber with a pressurizing end 32 of the reservoir. It will be appreciated that when a porous plug, such as a cigarette filter for example, is inserted into the inlet passage and against the front side 22 of the plunger, the plunger will be displaced rearwardly, (i.e., to the right as shown in
Preferably, the cylindrical wall of the reservoir includes annular notches 36 spaced equidistantly apart in a direction of piston travel, and the piston 34 includes an annular radially outward projection 38 adapted to fit into the notches. The force of pressurized air from the duct 30 bearing against the rear side of the piston will be sufficient to displace the projection 38 from one notch to the next. Each time that the piston travels to the next notch, a metered amount of liquid is discharged from the nozzle. Thus, the piston traverses the reservoir in stepwise fashion, with the annular projection 38 snapping sequentially into the notches 36 to cause predetermined metered amounts of liquid to be discharged, and to prevent return travel of the piston when the transmission of pressurized air from the plunger 20 ceases.
The reservoir 16 includes a discharge passage formed by a fixed hollow pin such as a hollow needle 35 mounted in the end wall 31. The needle extends through a bore 33 in the plunger, and the plunger is slidable relative to the needle, so that when the plunger is displaced (to the right in
In operation, a porous plug 40 is inserted into the inlet passage 14 and against the plunger 20 (as shown in
Thus, the step of inserting the porous plug serves to communicate the plug with the reservoir, and the force of such insertion is transmitted via pressurized air to displace liquid from the reservoir.
Once liquid has been inserted into the porous plug, the porous plug is removed, whereupon the compressed spring 26 expands to push the plunger 20 back to its initial position. Such return movement of the plunger 20 is facilitated since air can enter the chamber 23 e.g., through play between the plunger and the wall of the passage 14, or through a very narrow vent 41 formed at an appropriate place in the casing.
The piston 34 stays in its new position in the reservoir because it is held by the engagement of the annular projection 38 within a respective annular notch 36.
If the porous plug is a cigarette filter attached to a tobacco column of a cigarette 46, the liquid may comprise a flavorant such as menthol, or a liquid formulation or agent which acts to selectively remove smoke constituents from main stream smoke.
The dispenser 10 could comprise part of a larger case 50 which contains a supply of porous plugs, such as filtered cigarettes 46, as shown in
The dispenser 10 may be utilized without lighting the cigarette or in cooperation solely with a filter plug without the presence of any combustible tobacco.
Although the present invention has been described in connection with a preferred embodiment thereof, it will be appreciated by those skilled in the art that additions, deletions, modifications, and substitutions not specifically described may be made without departing from the spirit and scope of the invention as defined in the appended claims.
This application claims priority under 35 USC §119 to U.S. Provisional Application No. 60/935,813 entitled METHOD AND APPARATUS FOR DISPENSING A METERED AMOUNT OF LIQUID TO A POROUS PLUG and filed on Aug. 31, 2007, the entire content of which is hereby incorporated by reference.
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Number | Date | Country | |
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20090165809 A1 | Jul 2009 | US |
Number | Date | Country | |
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60935813 | Aug 2007 | US |