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Publication numberUS3804695 A
Publication typeGrant
Publication dateApr 16, 1974
Filing dateMar 25, 1971
Priority dateJun 17, 1968
Also published asCA944648A, CA944648A2, DE1930435A1, DE1930435B2, DE1930435C3
Publication numberUS 3804695 A, US 3804695A, US-A-3804695, US3804695 A, US3804695A
InventorsKeith C, Randall J
Original AssigneeCelanese Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Apparatus for making tobacco smoke filters
US 3804695 A
Improved aerosol filters, particularly cigarette filters, are prepared by imparting a patterned surface, preferably a plurality of longitudinal grooves, to a web of a synthetic thermoplastic fibrous material, preferably a tow of longitudinally aligned crimped continuous cellulose acetate filaments, and forming the resultant patterned web into a filter of the desired form.
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Description  (OCR text may contain errors)

United States Patent 1191 Randall et al. Apr. 16, 1974 [54] APPARATUS FOR MAKING TOBACCO 3,255,506 6/1966 Fritz 19/66 T SMOKE FILTERS 3,079,663 3/ 1963 Dyer et al.. 131/267 1 3,226,773 1/ 1966 Paliyenko 19/66 T 1 tors: John Courtright Randall; Charles 3,224,453 12/1965 Mahoney et al. 131/267 Herbert Keith, both of Charlotte, 3,180,911 4/1965 Muller 264/119 N C, 3,411,942 11/1968 Fritz et al. 117/68 [73] Assignee: Celanese Corporation, New York,

Primary Examiner-Daniel .l. Fritsch Filed! 1971 Attorney, Agent, or Firm-Thomas J. Morgan; Stephen D. Andrew F. SaykO Related US. Application Data [63] Continuation of Ser. No. 737,519, June 17, 1968,

s7 ABSTRACT [52] US. Cl. 156/441, 131/267, 131/268,

15 130 15 200 15 209 15 4 2 Improved aerosol filters, partlcularly cigarette filters, 51] Int. Cl. D04h 3/08 are P p y imparting a Patterned surface. P 5s 1 Field of Search 156/441, 180, 209, 219, y a plurality of longitudinal grooves, to a web of 9 156/220, 200, 553, 462; 131/267, 265, 266, synthetic thermoplastic fibrous material, preferably a 2 19 T tow of longitudinally aligned crimped continuous cellulose acetate filaments, and forming the resultant pat- 5 R f r n Cited terned web into a filter of the desired form.

UNITED STATES PATENTS 3,156,016 1/1964 Dunlap et a1. 156/166 3 Claim, 6 Drawlng Fi ures PATENTEUAPR 16 I974 SHEET 2 BF 2 F/GURE 6 APPARATUSFORMAKINQTOBACCO, SMOKE FILTERS This application is a continuation of copending application Ser No. 737,519, fi-led June 17, 1968, and now abandoned.

met with any significant commercial acceptance.

' Paper filters'are gei'ierally characterized by higher filtration asfmeasured by smoke removal efficiency, but also adversel'ya ffect taste and' odor of the delivered smokestream. Moreover, their phenol selectivity is significantly lowerthan that available with conventional cellulose acetatetow filters. Further, paper filters are susceptible to collapse during smoking, primarily because of their tendency to absorb moisture from the tobacco smoke stream and smokers mouth. Also, the compressibility of paperfilters at a given pressure drop, i.e., resistance of l the filter to air flow, is generally greater than that of conventional tow filters. I i

"In comparison with paperfilters, conventional cellulose'acetate two filters overcome all of the above disadvantages of paper filters and for this reason, are more commercially acceptable in spite of the fact that the smoke removal efficiency at a given pressure drop is relatively lower than f th at of paper filters.

SUMMABQYQF THE INVENTION The primary object ef the present invention is to provide an aerosol .filterQparticularly a cigarette filter, which will exhibit a: smoke removal efficiency to pressure drop 'relationship up to and even exceeding that normally associated with paper filters, without exhibiting the above ufidesirableproperties ordinarily associated with such aerosol filtersj Another object isto provide an intermediate product suitablefor formationinto filters of the above characteristics. i

FIG. 1 is a diagrammatic view of an apparatus suitable forthe practice of the present invention. FIGS. 2, 3, 4and 5 are illustrations of patterned surfaces which be suitablyemployed in the present invention.

FIG. ,6 is a l5 magnification of the preferred intermediate product of "the present invention.

DETAILED DESCRIPTION OF THE INVENTION The steps of a preferred embodiment of the present invention are set forth in'th following detailed description and should be considered in conjunction with the appended drawings of an apparatus suitablefor use in the practice of the present process.

In the preferred practice of the present invention, which results in a filter of substantially longitudinally aligned filaments with continuous grooves substantially parallel to the filaments, a tow 12 of continuous cellulose acetate filaments, preferably having about five to about 15 transverse crimps per inch, and acetyl value of 38-41 percent, a regular or a non-circular, e.g., 1,.X, orjY cross section, and a total denier of about 45,000 to about 120,000 or more is removed from tow bale l0 and passed over guide means 14 to opener 16. The purpose of opener 16 is to cause deregistration of the crimps of the individual filaments, and thus provide a tow having improved uniformity and bulkiness. In the drawings, opener 16 is a threaded roll opener of the type generally described in U.S. Pat. No. 3,032,829 to Mahoney, et al., and 3,156,016 to Dunlap, et al. Essentially, thethreaded roll opener shown comprises two pairs of rolls, with at least one roll of one pair being driven. Desirably, at least one roll of each pair has a patterned surface preferably composed of circumferential or helical grooves. However, the roll pairs may be different, e.g., only one roll of one pair need be grooved. When the tow passes through the rolls, individual filaments of the tow are differentially restrained causing a longitudinal shifting of the relative location of the crimps of the individual filaments. It is to be understood, of course, that other openers, for example, those producing deregistration by air turbulence or flexing of the tow, may also be suitably employed.

After passing through opener l6, tow 12 is commonly passed through a banding jet 16 which spreads the tow by application of one or more air streams into a flat band of about three to eight times its original width and causes further separation of the individual filaments. A suitable banding jet is shown, for example, in U.S. Pat. No. 3,226,773. However, other means for achieving filament separation such as equipment utilizing electrostatic forces are known in the art and may also be used for this purpose.

The opened tow is then passed through plasticizer applicator 20 which treats the surface of the individual filaments with a plasticizing liquid, preferably an organic ester such as triacetin, to cause bonding of the filaments. Other suitable plasticizers include, for example, triethyl citrate, dimethyl ethyl phthalate, or the dimethyl ether of triethylene or tetraethylene glycol. In the drawings, plasticizer applicator 20 is a centrifugal plasticizer applicator of the type described in U.S. application Ser. No. 555,647, filed June 2, 1966, now US. Pat. No. 3,387,992. Essentially, applicator 20 comprises a housing, a rotating disc located within the housing below the path of the tow and substantially transverse thereto, means for applying a plasticizer to the rotatable disc, and means for recycling plasticizer which does not remain on thetow. Other applicators which are adapted to apply plasticizer to a-continuous web may also be used for this purpose. For example,

such applicators may utilize wicks or spray nozzles in plasticizer application.

After treatment of the tow with pasticizer, the tow may optionally be passed to heating means 22 and/or converging means 24. The purpose of heating means 22 is to raise the temperature of the thermoplastic web, thus rendering it more susceptible to bonding upon compression. Heating means 22 may be used alone or in conjunction with a heating source within patterned rolls 26 later described. Converging means 24 serves to reduce the width of the web, thus rendering the web more readily processable. More uniform distribution of plasticizer is also obtained by passing tow 12 through converging means 24.

Downstream from plasticizer applicator 20, or heating means 22, and/or converging means 24, if employed tow 12 is passed to and through the nip of a pair of rolls 26, at least one of which has a patterned surface. Essentially, these patterned, e.g., grooved rolls 26 are adapted to afford a plurality of permanently depressed areas in the substrate. Said rolls 26 are positioned substantially transverse to the tow path and are arranged with parallel axes. Ordinarily, one roll of the pair will be adjacent the upper surface of the tow path, while the second roll will be mounted opposite said roll and below the tow path. However, the web may also follow a vertical path with a patterned roll mounted of either side of such path. The rolls 26 may be mounted yieldably in contact or slightly separated. The rolls should be of a proximity, however, sufficient to cause at least some permanent depression of the tow as it passes therebetween. Preferably, the separation of the rolls is from to about 0.02 inches, and even more desirably from 0 to about 0.01 inches. The separation, of course, will depend upon a thickness of the tow as determined by the total denier and width thereof. Webs processed through rolls of the above separation will have an overall thickness of from about 0.1 to about 2.5mm.

In order to obtain the advantages of the present invention, a variety of patterns may be imparted to the surface of the web material. Such patterns may comprise continuous depressed areas and/or continuous lands. For example, a waffle or quilted surface as illustrated in FIG. 2 may be imparted to the surface of the web. In this pattern, either the continuous or discontinuous area may be compressed. The waffle or quilted pattern may also be oriented so that the edges of the pattern are at an angle to the longitudinal axis of the web, in effect imparting a diamond-shaped pattern as shown in FIG. 3 to the surface of the web. Generally, it has been found that the preferred patterns of the present invention from the standpoint of the greatest relative reduction in pressure drop comprise grooves defining a path substantially paralle to the longitudinal axis of the web. These longitudinal grooves preferably form a straight line along the web, i.e., accordian pleats; sinusoidal or zigzag grooves (as shown in FIGS. 4 and 5) are also possible, however.

Desirably, the preferred rolls employed in the present invention are circumferentially or helically grooved, and will have from about five to about 80 and preferably from about to about 45 grooves per inch. The lands of the rolls will ordinarily be of about 0.03 to about 0.005 inch and more preferably from about 0.0l5 to about 0.008 inch in width. The grooves will ordinarily be about 0.035 to about 0.005 and preferably from about 0.002 to about 0.001 inch in depth. The lands of a given roll will ordinarily, but not necessarily, be of uniform width. In fact, lands which progressively decrease in width outwardly from the center of the patterned area may aid in the construction of a more uni form filter. Similarly, the depths of the grooves may be of differential dimensions across the web.

Rod firmness can be improved by using rectangular or substantially rectangular grooves, since such grooves tend to yield a material which, upon gathering into rod form, has self-supporting, triangular-shaped, difficulty compressible channels. The term substantially rectangular grooves is intended to define a groove wherein the angle from the vertical of the wall is from 0 to 45 and preferably from 0 to 30. It is, of course, within the scope of the present invention to use other grooved shapes, e.g., semi-circular, trapezoidal, or triangular grooves.

In most instances, the use of heated patterned rolls has been found to be of value in obtaining improved corrugation. In the preferred embodiment of the present invention, therefore, patterned rolls having an internal heat source are employed. In the preferred embodiment, electrical means is used to heat the patterned rolls. It is to be understood, of course, that other heating means such as heated fluids and gases may be employed for this purpose. Roll temperatures are generally from about 25 to about 225C, with 1l0 to about C being preferred. Such treatment may be utilized to reduce the cross sectional dimension of the substrate material or to impart enhanced processability thereto, but conditions are adapted to ensure substantial retention of filamentary character.

Preferably, corrugating rolls 26 are at least about 2 inches in diameter and even more preferably from about 4 to about 8 inches in diameter. The dimensions of the patterned portion of the rolls, will, of course, be determined to some extent by the width of the tow being structured. Generally, a total patterned width of from about 8 to about l6 is sufficient for most operations. As an alternative to or in conjunction with the aforementioned heating means and/or heated patterned rolls, advantageous results may be obtained by applying a heated plasticizer to the tow. Also, desirable results may be obtained by treating the tow with solvation agents such as acetone, methylene chloride or water prior to structuring. Optionally, the patterned web is then passed over forming means 28 which in essence constitutes a curved or other shaped surface which tends to reduce the overall width of the web and produce a more uniform ultimate product.

Thereafter, the tow may then be directed into a rod maker 30, which shapes the patterned web into a filter rod. The rod issuing from the rod maker will ordinarily be of about 8 mm. in diameter, and will be severed into lengths of about 60-180 mm., a length sufficient to yield 6 filter rods of 10-30 mm. each when ultimately severed for attachment to tobacco sections.

While the present patterned webs are particularly adapted for use in cigarette filter form, they may also be advantageously employed in other filter forms, such as air conditioning or industrial gas filters. Also, the patterned webs may be suitably utilized as interliners and the like where a light weight coherent structure is desired.

It has been previously noted that only a limited smoke removal efficiency has been obtained with previous cellulose acetate tow filters. This limited S.R.E. has been due primarily to pressure drop considerations. That is to say, pressure drop limits the amount of material that can be packed into a cigarette filter. A linear relationship exists between smoke removal efficiency and the surface area of the material employed in the filter. Since surface area is related to the weight of material employed, smoke removal efficiency is necessarily limited. In the present invention, it is possible to utilize greater weights of filtration material at acceptable pressure drops than possible by prior art techniques, and thus obtain an increased smoke removal efficiency. To illustrate, prior art filters of conventional dimensions. i.e., mm. in length and 8mm. in diameter, have contained generally from about 0.12 to about 0.14 gram of the tow material when a pressure drop of from about 20 to about 90mm. H O, the normally acceptable level, was obtained. In comparison, pressure drops within this range can be obtained with the present invention while using up to 0.30 gram or more of cellulose acetate tow. Thus, instead of the to 55 percent, S.R.E. observed with prior art filters, an S.R.E. of as high as 65 percent or even higher is possible with the filters of the present invention utilizing tows of conventional denier for this art. Even further improvements are obvious, with, for example, webs of lower individual denier per filament.

In order to obtain the maximum filtration properties of a given filter, falling within the scope of the present invention, essentially four variables should be controlled. These variables are: denier per filament, tip weight, sheet density, and corrugation frequency. In discussing these parameters, the limitations given are those applicable to the preparation of cigarette filters having pressure drop characteristics within the above specified ranges. It is to be realized that certain of these parameters may be expanded somewhat in preparing filters, for example, industrial gas filters, having a pressure drop without the above ranges.

Generally, it has been determined that filtration properties improve in proportion to the reduction in denier per filament. That is to say, a reduction in denier per filament increases the surface area of the filamentary material, and thus improves filtration properties. The preferred denier per filament range in the present invention is from about 0.1 to about 5, with a denier per filament below about 3 being especially preferred. Products may be prepared from fibers having a denier per filament up to 16, however.

Tip weight, of course, is a function of the total denier of the tow being employed in preparing the filter. Generally the. tows employed in the present invention will have a total denier of from about 35,000 to about 200,000 or higher and preferably from about 60,000 to about 120,000. Filters of standard dimension, i.e., 20mm. in lengthand 8mm. in diameter, prepared from tows of this total denier will generally have a weight of from about 0.14 gram to about 0.34 gram and when the preferred total denier is employed, a weight of from about 0.19 gram to about 032 gram.

Sheet density is also a significant factor to be considered in maximizing the filtration properties of the present corrugated filter. While higher densities permit the inclusion into the filter of greater weights of material at a given pressuredrop, this advantage is offset some what by a reduction in total available surface area due to packing at these higher densities. Considering these factors, a sheet density of from about 25 to about 175 g/m is generally employed, with a density of from about 50 to about 125 g/m being preferred. Sheet density is used herein in the sense employed in the paper art and is a measurement of the weight of a portion of a sheet defined by the area of the surface.

Corrugation frequency, that is the number of separate or land areas per square inch of material, also influences the S.R.E. of the filter. Generally, a frequency of about five to 80 is employed. The particular pattern erflpiayea is, of cour se, a considefati onifidetermining the optimum frequency. For the preferred longitudinal grooves of the present invention, the corrugation frequency will correspond to the specifications previously given for preferred rolls. I

After a study of the present disclosure, one skilled in the art will realize that the above parameters are to some extent dependent upon each other. For example, a lower denier per filament will yield improved filtration at a given sheet density. On the other hand, one can hold the denier per filament as a constant and improved filtration performance by increasing the sheet density. The following examples are presented for the purpose of illustration, and are not to be considered as limiting thereof.

EXAMPLES 1-6 A crimped tow of continuous acetate filaments, 3.3 denier per filament, Y cross section, 48,000 total denier, was removed from a tow bale and opened on a threaded roll opener, described above. A sample of this opened tow comprised of approximately a 3 foot length was placed on a table where it was plasticized with triacetin sprayed from a hand held atomizer to a plasticizer level of approximately 7 percent by weight. The plasticized tow sample was folded to produce a tow band with a sheet density of approximately 58 grams per square meter. The band was corrugated by pressing briefly between two heated, grooved plates, 3% X 7 inches which had 10 grooves per inch; the grooves being 0.060 inches wide and 0.060 inches deep. The resulting corrugated sheet was gathered into a rod, wrapped with a conventional filter paper wrap, and cut to 20mm. length. The resulting 20mm. tips weighed 0.197 gram and had a pressure drop of 68mm. 11 0 measured by drawing air through the tip at an air fiow rate of 18 cc/sec. When mounted on standard cigarette columns and smoked on an apparatus which took 35 ml. puffs over a 2 second interval on a 60 second cycle, the filter tips removed 51.9 percent of the smoke particulate matter. Other tips were prepared in a similar manner. The results obtained and comparative data obtained using conventional cellulose acetate tips of comparable pressure drop are shown in the following table.

S.R.E. SHEET NUMBER PLATE TlP T1P CONVENTIONAL S.R.E. EXAMPLE DPF DENSITY GROOVES TEMP WT. AP C. A. TIP SAMPLE EXAMPLE 7 A crimped tow of continuous cellulose acetate filaments, 2.3 denier per filament, Y cross section, 99,000 total denier, was withdrawn from a tow bale and continuously processed on a modified threaded roll processing system. The threaded roll opened tow was passed through a banding jet and passed through a continuous plasticizer application system. The plasticized tow was passed through a driven feed nip and supplied to the nip of a pair of corrugating rolls. The plasticized tow was converted from a loose band of continuous substantially longitudinally aligned fibers substantially free of interfiber bonding to a coherent corrugated sheet by compressing the tow in the nip of a pair of corrugating rolls. The rolls were 4 inches in diameter by 16 inches long and had 30 grooves/inch 0.0152 inches wide by 0.0l65 inches deep with a 30 included angle. The rolls were heated with a surface temperature of l30 and were operated under a pressure of 100 pounds per inch of tow band width in the nip. The continuously corrugated sheet having a density of 75 g/m was fed through a convergence guide to the garniture of a conventional cigarette filter rod maker and rods were prepared. Rods 20mm. in length and 8mm. in diameter weighed 0.257 gram, had a pressure drop of 67mm. H 0, and an S.R.E. of 57.9. A conventional tip of comparable pressure drop had an S.R.E. of 49.9.

While the foregoing description has dealt only with the preparation of a filter from a single material, i.e., a cellulose acetate tow, it is also possible to prepare satisfactory and often improved filters by incorporation of one or more other filtration materials into the web material prior to corrugation. Such materials include carbon, silica gel or other high surface area absorbents, granular polyurethanes, cellulose acetate flake, wood pulp, flock, liquid additives and other gas adsorbents or selective absorbents. Generally, up to about 20 percent of these materials based on the weight of the filter may be employed, with from about percent to about 10 percent being preferably utilized. Obviously, a multiplicity of, and tows comprising the same of different filamentary materials could be combined to form suitable filter structures as described herein.

Filters prepared by the above method may be used as the sole filtration means on a cigarette. It is, of course, possible to use filters prepared by the present invention as part ofa dual or segmented filter. In this context, the present filters are particularly suitable in combination with paper filters and conventional cellulose acetate filters.

While the invention has been described particularly with reference to the processing of cellulose acetate tow, satisfactory filters may also be prepared by imparting a pattern to the surface of webs of other thermoplastic materials prior to corrugation. For example, spray spun polyolefin webs prepared, for example, in accordance with the teachings of commonly assigned application Ser. No. 581,075, filed Sept. 20, 1966 and now abandoned, may also be corrugated in the presently described manner to yield products which may be formed into improved filters. Webs of discontinuous fibers substantially free of interfiber bonding prior to corrugation, e.g., a carded staple roving, are also suitably treated by the present invention. Suitable thermoplastic materials envisaged for conversion into filters in accordance with this invention include the cellulose esters, including the triesters, with organic carboxylic acid having two to four carbon atoms, the polyesters such as polyethylene terephthalate, the polyamides such as nylon 6 and 66, the acrylics and especially those having an acrylonitrile content of at least percent, the polyolefins such as polypropylene, polyethylene, poly 3 methyl butene or poly 4 methyl pentene. The polyacetals, especially those containing at least 75 mol percent of recurring oxymethylene units, and copolymers and mixtures of the foregoing in any suitable coherent fibrous form.

As previously noted, the smoke removal efficiency of a filter at a given pressure drop is directly proportional to the surface area of the filtration material present within the filter. A conventional 20mm. cellulose acetate filter having an acceptable pressure drop, i.e., mm. H O or less, comprises material having a total surface area of below 500 cm. On the other hand, a filter prepared in accordance with the present disclosure contains sufficient material to present a surface area of 550 to 1,000 cm within the acceptable pressure drop range of 20 to 90mm. H O. When using the lower range of fiber denier per filaments disclosed herein, surface areas within the range of 750-l ,000 cm, or up to about l50-200 percent that is obtainable in a conventional filter, are produced.

The distinction of the present filter ofa cellulose acetate tow is also readily apparent in the relationship between smoke removal efficiency and pressure drop. This relationship is illustrated in the foregoing examples and by the following equations describing the relationship of these two factors within a pressure drop range of 40-90mm. in filter tips of 20mm. in length and 24.8mm. in circumference:


It is to be realized that paper filters are conventionally longitudinaly corrugated and that the prior art contains many teachings of this fact. It is significant, however, that such corrugation in the paper filter art has been employed for the purpose of obtaining structural rigidity of the filter. In the filtration art, both in paper technology and in filament technology, it has been felt that channeling within the filter was a most undesirable factor, since such channeling permitted the smoke to flow along an unrestricted path without being subjected to the resistance of the filter. Of course, longitudinal corrugation effectively creates a multitude of channels for the smoke. It is surprising, therefore, that treatment of filamentary material by a procedure heretofore employed with paper for an entirely different purpose will result in a product exhibiting improved filtration properties, particularly in view of the fact that a structure is produced that has always been considered to be disadvantageous in the filtration art. Similarly, one would not have expected that such procedure would.produce a large decrease in pressure drop while producing only a relatively small decrease in S.R.E.

It is to be understood that the foregoing detailed description is given merely by way of illustration and that many variations may be made therein without departing from the spirit and scope of our invention.

What is claimed is:

1. An apparatus for converting a tow of crimped continuous synthetic filaments into improved tobacco smoke filter rods comprising in sequence: v

a. deregistering means for longitudinally shifting the individual filaments of said tow relative to adjacent filaments;

b. opening means for laterally spreading said filaments;

c. plasticizing means for applying a plasticizer to the surface of said tow;

d. patterning means for imparting a patterned configuration to at least one surface of said tow, said patterning means being comprised of a pair of parallel rolls in pressure engagement defining a nip therebetween, atleast one roll having a circumferential pair of rolls have circumferentially or helically grooved surfaces.

3. The apparatus of claim 1 wherein said rolls are yieldably mounted for movement so as to spread and define a nip up to about 0.02 inch.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US3079663 *May 21, 1958Mar 5, 1963Eastman Kodak CoMethod and apparatus for producing tobacco smoke filters
US3156016 *Nov 13, 1961Nov 10, 1964Celanese CorpTow opening
US3180911 *Jan 11, 1960Apr 27, 1965Adolf Muller PaulMethod of making cigarette filter plugs of fibrous material containing thermoplastic fibers
US3224453 *Apr 8, 1963Dec 21, 1965Celanese CorpFilter cigarettes
US3226773 *Sep 26, 1960Jan 4, 1966Celanese CorpMethod and apparatus for opening and applying finishes to multifilament tows
US3255506 *Feb 20, 1963Jun 14, 1966Eastman Kodak CoTow treatment
US3411942 *Dec 21, 1964Nov 19, 1968Eastman Kodak CoMethod of applying liquid addendum to opposite surfaces of a continuous multifilament tow
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US4003684 *Oct 9, 1974Jan 18, 1977Celfil Company EstablishmentApparatus for treating webs of filtering material for tobacco product filters, particularly cigarette filters
US4291711 *Mar 27, 1979Sep 29, 1981American Filtrona CorporationTobacco smoke filter providing tobacco flavor enrichment, and method for producing same
US4324540 *Jul 11, 1980Apr 13, 1982Brown & Williamson Tobacco CorporationApparatus for making grooves in tobacco smoke filters
US4351792 *Mar 23, 1981Sep 28, 1982Brown & Williamson Tobacco CorporationApparatus for making grooves in tobacco smoke filters
US4354889 *Feb 11, 1981Oct 19, 1982American Filtrona CorporationInk reservoir element for use in a marking instrument, and method and apparatus for producing same
US4355995 *Apr 3, 1981Oct 26, 1982American Filtrona CorporationTobacco smoke filter providing tobacco flavor enrichment, and method for producing same
US4357188 *Oct 17, 1980Nov 2, 1982Mitsubishi Rayon Co., Ltd.Method for manufacturing cigarette filters
US4480982 *Feb 7, 1983Nov 6, 1984Brown & Williamson Tobacco CorporationApparatus for making grooves in cigarette filters
US4492238Jan 12, 1982Jan 8, 1985Philip Morris IncorporatedMethod and apparatus for production of smoke filter components
US4632514 *Jan 29, 1985Dec 30, 1986Matsushita Electric Industrial Co., Ltd.Color liquid crystal display apparatus
US4883449 *Jul 18, 1984Nov 28, 1989Brown & Williamson Tobacco CorporationDevice for making grooves in cigarette filters
US5185052 *Jun 6, 1990Feb 9, 1993The Procter & Gamble CompanyHigh speed pleating apparatus
US5732718 *Aug 23, 1994Mar 31, 1998Schweitzer-Mauduit International, Inc.Selective filtration device
US5814390 *Jun 30, 1995Sep 29, 1998Kimberly-Clark Worldwide, Inc.Creased nonwoven web with stretch and recovery
CN101061264BNov 21, 2005Dec 8, 2010三菱丽阳株式会社Process for producing tow band and apparatus for producing tow band
DE3121499A1 *May 29, 1981Mar 25, 1982Brown & Williamson TobaccoVorrichtung zum formen von rillen in tabakrauchfiltern
DE3401954A1 *Jan 20, 1984Aug 9, 1984Brown & Williamson TobaccoVorrichtung zum erzeugen von rillen in zigarettenfiltern
U.S. Classification156/441, 156/200, 156/180, 156/462, 131/343, 156/209
International ClassificationD04H3/14, A24D3/00, B01D39/18, A24D3/02
Cooperative ClassificationA24D3/0204, D04H3/14, B01D39/18
European ClassificationD04H3/14, B01D39/18, A24D3/02D