Technical Field
[0001] The present invention relates to a filter that is equipped with a capsule having
a liquid encapsulated therein and is suited for use with a smoking article such as
a filter-tipped cigarette, and a smoking article provided with the filter.
Background Art
[0002] By allowing a liquid, such as water or an aqueous solution having a flavor-emitting
additive dissolved in water, to permeate into the filter of a smoking article such
as a filter-tipped cigarette when the smoking article is smoked, it is possible to
improve the flavor characteristics of mainstream smoke or to add a flavor different
from that of the mainstream smoke. In such cases, the liquid is previously encapsulated
into a capsule to be incorporated into a filter body, and a user breaks the capsule
before smoking the smoking article, to allow the liquid to gush out from the capsule
and permeate into the filter. Specifically, the user applies force externally to the
capsule by holding, between his/her fingers, the capsule from outside the filter,
to break the capsule. A breakable plastic capsule is known, for example, from
US Patent No. 4,865,056 A.
[0003] Capsules made of polysaccharide such as gelatin are, however, soluble in water and
are not suited for encapsulating hydrophilic liquids, and the use of such water-soluble
capsules is generally restricted to encapsulation of hydrophobic flavorings. On the
other hand, capsules made of synthetic resin are insoluble in water, are suited for
encapsulating hydrophilic liquids and have excellent shape stability. However, since
capsules made of synthetic resin are hard, compared with water-soluble capsules, various
means stated below have been contrived to facilitate breaking of the capsules.
[0004] In the case of a capsule having a cylindrical shape, for example, a plurality of
long radial grooves are formed in one end wall of the capsule, and when the capsule
is applied externally with a crushing force, the grooves split off and allow the liquid
contained in the capsule to gush out (Patent Document 1).
[0005] Also, a capsule may be provided with a seal so that when the capsule is applied with
external force, the seal may be broken to allow the liquid contained in the capsule
to gush out (Patent Document 2).
[0006] Further, a capsule has been known which is obtained by fitting two capsule halves
together via an annular seal, and when the capsule is squeezed, the seal is broken
and allows the liquid contained in the capsule to gush out (Patent Document 3).
Prior Art Document
Patent Document
[0007]
Patent Document 1: Japanese Examined Patent Publication No. H06-2164
Patent Document 2: Japanese Patent No. 2515794
Patent Document 3: National Publication of International Patent Application No. 2008-528053
Summary of the Invention
Problems to be solved by the Invention
[0008] However, it is the case that a great force (external force) is still required to
break a capsule made of synthetic resin, and it is not easy for a user to crush such
a capsule by picking the capsule with his/her fingers. That is to say, the aforementioned
conventional techniques facilitate breaking of the capsules to some extent, but a
considerable force is still required to tear the grooves apart or to break the seals.
Thus, there has been a demand for capsules that are easier to break.
[0009] An object of the present invention is to provide a filter equipped with a capsule
improved in crushability (easy-to-break property), and a smoking article provided
with the filter, such as a filter-tipped cigarette.
Means for Solving the Problems
[0010] The above object is achieved by a filter of the invention, which includes: a capsule
having a tubular shape and including a peripheral wall constituting a peripheral surface
of the tubular shape and a pair of end walls closing front and rear openings of the
tubular shape, respectively, the capsule having a liquid encapsulated therein, at
least the peripheral wall being elastically deformable, and the peripheral wall being
provided with at least one ring-shaped main thin-walled region extending in a peripheral
direction of the peripheral wall or with at least one straight main thin-walled region
extending in an axial direction perpendicular to the peripheral direction; and
a generally cylindrical filter body having an accommodation space in which the capsule
is accommodated,
wherein the capsule is disposed within the accommodation space such that the ring-shaped
main thin-walled region or the straight main thin-walled region is directed parallel
to a radial direction of the filter body.
[0011] The capsule may be provided with the ring-shaped main thin-walled region plus a straight
sub thin-walled region extending perpendicularly to the main thin-walled region, or
with the straight main thin-walled region plus a ring-shaped sub thin-walled region
extending perpendicularly to the main thin-walled region.
[0012] The ring-shaped main thin-walled region, the straight sub thin-walled region, the
straight main thin-walled region and the ring-shaped sub thin-walled region may each
be a continuous region or a non-continuous region including a discontinuity.
[0013] Also, the ring-shaped main thin-walled region, the straight sub thin-walled region,
the straight main thin-walled region and the ring-shaped sub thin-walled region may
each be a grooved region having a wall thickness smaller than that of the other region.
[0014] Preferably, a casing surrounding the filter body has water resistance.
[0015] Where the capsule is provided with the straight main thin-walled region, the casing
surrounding the filter body is preferably made of a transparent sheet material so
that the accommodation space can be viewed from outside.
[0016] Any of the aforementioned filters equipped with the capsule may be incorporated into
smoking articles such as filter-tipped cigarettes.
Advantageous Effects of the Invention
[0017] With the filter equipped with the capsule according to the present invention, a user
can break the capsule easily, so that the liquid released from the capsule can efficiently
infiltrate into the filter or tobacco.
[0018] Thus, where the filter with the capsule is incorporated into a smoking article such
as a filter-tipped cigarette, a user can enjoy improved taste by breaking the capsule
with ease.
Brief Description of the Drawings
[0019]
FIG. 1A illustrates a filter equipped with a capsule according to a first embodiment
of the present invention, wherein the filter is used with a cigarette as a smoking
article.
FIG. 1B illustrates the capsule taken out of the filter shown in FIG. 1A.
FIG. 2 is a schematic illustration of the filter in FIG. 1A applied with external
forces.
FIG. 3 illustrates an improvement example of the filter shown in FIG. 1A.
FIG. 4 illustrates an exemplary case where thin-walled regions of the filter shown
in FIG. 1A have discontinuities.
FIG. 5A illustrates a filter equipped with a capsule according to a second embodiment
of the present invention, wherein the filter is used with a cigarette as a smoking
article.
FIG. 5B illustrates the capsule taken out of the filter shown in FIG. 5A.
FIG. 6 is a schematic illustration of the filter in FIG. 5A applied with external
forces.
FIG. 7 illustrates an improvement example of the filter shown in FIG. 5A.
FIG. 8 illustrates evaluation results of actually produced filters shown in FIG. 5A.
FIG. 9 illustrates a modification of the filter shown in FIG. 5A.
Mode for Carrying out the Invention
[0020] Preferred embodiments of the present invention will be described below with reference
to the drawings.
[0021] FIG. 1A illustrates a filter equipped with a capsule according to a first embodiment
of the present invention, wherein the filter is used with a cigarette CG as a smoking
article. FIG. 1B illustrates the capsule CA-1 taken out of the filter FL-1 of the
cigarette CG.
[0022] The cigarette CG, which is a filter-tipped cigarette as shown in FIG. 1A, is constituted
by a cigarette body 100 obtained by rolling shredded tobacco in thin paper into a
rod shape, and the filter FL-1 disposed at one end of the cigarette body 100. The
filter FL-1 has a filter body constituted by a flexible casing 201 and two rod-shaped
filter elements 202 and 203 accommodated in the interior of the casing 201. The casing
201 is obtained, for example, by rolling a sheet material into a tubular shape and
gluing overlapping edges of the rolled sheet material together. The cigarette body
100 and the filter LF-1 are connected together by tip paper 101 wound around both
of the filter FL-1 and a part of the cigarette body 100, to obtain a single filter-tipped
cigarette CG.
[0023] A first filter section 202 serving as a first filter element and a second filter
section 203 serving as a second filter element are disposed within the casing 201
and set apart from each other so as to be located at the opposite ends of the casing
201. The filter sections 202 and 203 may be made of the same filter material as that
ordinarily used in filter-tipped cigarettes, namely, acetate fiber, and may further
contain charcoal. Alternatively, paper filter may be used for that purpose. The filter
sections 202 and 203 may be made of the same material or of different materials.
[0024] The first filter section 202 located at one end of the casing 201 adjoins the cigarette,
and the second filter section 203 located at the other end of the casing 201 constitutes
a mouth end. The first filter section 202 and the second filter section 203 are spaced
from each other, as stated above, to define an accommodation space 204 therebetween.
Thus, strictly speaking, the filter body is constituted by the first filter section
202, the second filter section 203, and the accommodation space 204 located between
the first and second filter sections. The capsule CA-1 is disposed in the interior
of the accommodation space 204.
[0025] Referring also to FIG. 1B which is an enlarged view of the capsule CA-1, the capsule
CA-1 has a hollow, generally tubular (columnar) shape, and a liquid is encapsulated
in the capsule CA-1.
[0026] More specifically, the capsule CA-1 has a side wall, or peripheral wall 10 forming
the side surface, or peripheral surface, of the tubular shape and a pair of end walls
11 and 12 closing the opposite, front and rear openings of the tubular shape, respectively,
and a liquid is contained in the capsule CA-1. The peripheral wall 10 is made of a
synthetic material that is at least elastically deformable. The end walls 11 and 12
may be made of the same material as that of the peripheral wall 10, but the material
to be used is not particularly limited insofar as it is able to securely close the
openings of the tubular peripheral wall 10.
[0027] Synthetic materials preferred to constitute the peripheral wall 10 include plastic
materials used for food packaging and may be selected from the group comprising polyethylene,
polypropylene, polyvinyl chloride, polystyrene, polyethylene terephthalate, polyvinyl
alcohol and polyamide, by way of example.
[0028] Although the end walls 11 and 12 may be made of the same material as the peripheral
wall 10, a film material such as laminated film may be used to close the openings
of the tubular peripheral wall 10 by heat sealing. In the case of using such a heat-sealing
film, the film may be bonded to the opening edges of the peripheral wall 10 by a thermoplastic
adhesive. As such adhesive, hot-melt adhesive containing, as its main agents, an adhesive
polyolefin resin, a low-molecular-weight polyethylene and EVA (ethylene vinyl alcohol)
may be used, for example.
[0029] The liquid to be encapsulated in the capsule CA-1 is not particularly limited and
a suitable liquid capable of improving the taste and flavor of cigarettes may be selected.
For example, any of water, hydrophilic flavorings and hydrophobic flavorings may be
used. In the case of a hydrophobic flavoring, it may be used in the form of emulsion
or be used in combination with a solvent such as propylene glycol or ethanol. More
specifically, the liquid to be used may be a solution prepared by dissolving sugar,
tobacco extract, fragrance and the like in water, or a water-based solution such as
brandy, by way of example. The liquid may be mixed with a chemical solution for preventing
deterioration, where necessary. Further, minute solids such as microcapsules (perfume
capsules) having perfume encapsulated therein may be used as the liquid, and such
perfume capsules may be suspended in water to be used as the liquid.
[0030] Preferably, a water-resistant sheet material is used for at least one of the casing
201 and the tip paper 101 so that the liquid may be prevented from leaking to the
outside.
[0031] The filter FL-1 for use with the cigarette CG is equipped with the capsule CA-1 that
breaks easily when applied with external force by a user (the force with which the
filter is picked between the user's fingers).
[0032] As mentioned above, the filter FL-1 has a rod-like (generally cylindrical) shape
corresponding to the shape of the cigarette body 100, and the capsule CA-1 is disposed
within the accommodation space 204 between the filter sections 202 and 203. When the
filter is picked between the user's fingers, it is acted upon by radial external forces,
as indicated by arrows F in FIG. 1A. The peripheral wall 10 of the capsule CA-1 has
an easy-to-break structure such that the capsule CA-1 easily breaks when applied with
such external forces. Specifically, the peripheral wall 10 has a thin-walled region,
as described below. The thin-walled region is a region of which the wall thickness
is smaller than the other region so that the thin-walled region may be easier to break
than the other region applied with stress. For example, the thin-walled region is
a grooved region having a V-shaped groove.
[0033] In the capsule CA-1 exemplified in FIGS. 1A and 1B, the peripheral wall 10 has at
least one ring-shaped main thin-walled region 10a (in FIGS. 1A and 1B, four thin-walled
regions) extending in a peripheral direction, or circumferential direction, of the
capsule CA-1 and having a linear shape. As shown in FIG. 1A, the tubular capsule CA-1
is disposed within the space 204 such that the axis of the capsule CA-1 lies along
the axis of the filter.
[0034] Thus, the ring-shaped thin-walled regions 10a extend in such a direction that when
the filter FL-1 is picked and applied with radial external forces F, the thin-walled
regions 10a are parallel with the direction in which the external forces F are applied.
[0035] FIG. 2 is a schematic illustration of the capsule CA-1 applied with such external
forces F.
[0036] The peripheral wall 10 of the capsule CA-1 has the main thin-walled region 10a (in
the figure, four thin-walled regions) directed parallel to the direction of application
of the external forces F. Since the main thin-walled regions 10a are provided, the
capsule CA-1 is deformed progressively as the external forces are applied, and when
the stress acting in bent portions 13 where stress is concentrated due to the bending
exceeds a certain value, the capsule CA-1 breaks as illustrated. The pressure in the
capsule CA-1 rises with the application of the external forces F, and therefore, forces
directed perpendicularly to the direction of application of the external forces F
are generated in the capsule CA-1. Consequently, the main thin-walled regions 10a
directed parallel to the direction of application of the external forces F are broken
easily.
[0037] FIG. 3 illustrates an improvement example of the capsule, wherein the capsule is
provided not only with the ring-shaped main thin-walled regions 10a but also with
straight sub thin-walled regions 10b perpendicular to the main thin-walled regions
10a. The main thin-walled regions 10a are each in the form of a ring; on the other
hand, the sub thin-walled regions 10b are each in the form of a straight line extending
along the axis CL of the capsule perpendicularly to the peripheral direction in which
the main thin-walled regions 10a extend. With the sub (auxiliary) thin-walled regions
10b formed in this manner, the capsule CA-1 can be broken more easily.
[0038] The main thin-walled regions 10a and the straight sub thin-walled regions 10b need
not be continuous regions. That is, the thin-walled regions may be non-continuous
regions having discontinuities in part thereof (where the wall thickness is not reduced).
FIG. 4 illustrates an exemplary capsule of which the ring-shaped main thin-walled
regions 10a have discontinuities 14.
[0039] The capsule illustrated in FIG. 3 may also be configured such that the main thin-walled
regions 10a and the sub thin-walled regions 10b each have similar discontinuities.
In this case, either the main thin-walled regions 10a or the sub thin-walled regions
10b or both of them may be provided with the discontinuities.
[0040] Further, the form of discontinuities is not particularly limited, and each thin-walled
region may be in the form of a broken line having regularly spaced breaks or irregularly
spaced breaks.
[0041] A filter FL-2 equipped with a capsule CA-2 according to a second embodiment, for
use with the cigarette CG, will be described below with reference to the drawings.
In the drawings and the following description, like reference signs refer to like
elements, and description of the elements already explained above will be omitted.
The following description is focused on the differences between the first and second
embodiments.
[0042] FIG. 5A illustrates an exemplary case where the filter FL-2 equipped with the capsule
according to the invention is used with a cigarette CG. FIG. 5B illustrates the capsule
CA-2 taken out of the filter FL-2.
[0043] The exemplary capsule CA-2 illustrated in FIGS. 5A and 5B has at least one straight
main thin-walled region 10c extending along the axis CL of the tubular peripheral
wall 10 (in a direction perpendicular to the peripheral direction of the peripheral
wall). As shown in FIG. 5A, the tubular capsule CA-2 is disposed within the space
204 such that the axis of the capsule CA-2 is directed perpendicularly to the axis
of the filter.
[0044] Thus, the straight thin-walled regions 10c extend in such a direction that when the
filter FL-2 is picked and applied with radial external forces F, the thin-walled regions
10c are parallel with the direction in which the external forces F are applied.
[0045] FIG. 6 is a schematic illustration of the capsule CA-2 applied with such external
forces F.
[0046] As stated above, the peripheral wall 10 of the capsule CA-2 has the main thin-walled
regions 10c that are directed parallel to the direction of application of the external
forces F. Since the main thin-walled regions 10c are provided, the capsule CA-2 is
deformed progressively as the external forces are applied, and when the stress acting
in the most bent portions 13 where stress is concentrated due to the bending exceeds
a certain value, the capsule CA-2 breaks at the bent portions 13, as illustrated.
The pressure in the capsule CA-2 rises with the application of the external forces
F, and therefore, forces directed perpendicularly to the direction of application
of the external forces F are generated in the capsule CA-2. Consequently, the main
thin-walled regions 10c parallel to the direction of application of the external forces
F are broken easily.
[0047] In the case of this embodiment, it is preferable that the location of the capsule
CA-2 in the accommodation space 204 be visually identifiable. For example, the casing
201 of the filter body surrounding the accommodation space 204 is made of a transparent
sheet material so that the accommodation space 204 can be viewed from outside. Further,
the tip paper 101 surrounding the filter body is similarly made of a transparent sheet
material. This allows a user to squeeze the capsule CA-2 while confirming the location
of the capsule CA-2.
[0048] Preferably, the surfaces of the capsule to be pushed are marked with letters, for
example, "PUSH" as shown in FIG. 6, or if the surfaces to be pushed are too small
to carry readable letters, other mark may be affixed to the push surfaces (e.g., the
push surfaces may be colored in red or blue), so that a user can readily locate the
capsule to be pushed.
[0049] FIG. 7 illustrates an improvement example of the capsule, wherein the capsule is
provided not only with the straight main thin-walled regions 10c but also with ring-shaped
sub thin-walled regions 10d perpendicular to the main thin-walled regions 10c. In
this embodiment, the main thin-walled regions 10c extend straight along the axis CL
of the capsule, and the sub thin-walled regions 10d are each in the form of a ring.
With the sub (auxiliary) thin-walled regions 10d formed in this manner, the capsule
CA-2 can be broken more easily.
[0050] Also in the second embodiment, the main thin-walled regions 10c and the ring-shaped
sub thin-walled regions 10d need not be continuous regions. That is to say, the thin-walled
regions may be non-continuous regions having discontinuities in part thereof, as stated
above.
(Production and Evaluation)
[0051] The aforementioned capsule CA-2 of the second embodiment was actually produced and
evaluated, as described below.
[0052] The capsule CA-2 was produced using distilled water as the liquid to be encapsulated
in the capsule, and breaking strength of the produced capsule CA-2 was measured. Specifically,
using low-density polystyrene, which is a plastic material used for food packaging,
the capsule CA-2 was formed by injection molding. Then, 90% (v/v) distilled water
was poured into the space within the capsule CA-2, and the open end of the capsule
CA-2 was completely heat sealed with a polyamide/low-density polyethylene laminated
film (KIMURA-TEC, NY/LDPE, 60 µm), to obtain a capsule containing distilled water.
[0053] The breaking strength of the capsule was measured by a creep meter (RHEOMETER II,
from YAMADEN CO., LTD.). FIG. 8 illustrates the manner of how the breaking strength
was measured and the measurement results.
[0054] Using identical capsules CA-2 fabricated in the same manner, external force was applied
to the capsules CA-2 in different directions. Test A shows the case where the external
force was applied to the peripheral wall provided with the thin-walled regions 10c,
and Test B shows the case where the external force was applied to the capsule in a
direction parallel to the thin-walled regions 10c, as in the present invention.
[0055] In Test A, the breaking load required to break the capsule was 95.6 N, and in Test
B, the breaking load required was 29.6 N, proving that a very small force is sufficient
to break the capsule.
[0056] A preferred modification of the second embodiment will be described with reference
to FIG. 9.
[0057] The capsule CA-2 exemplified in FIGS. 5A and 5B is columnar in shape and has thin-walled
regions formed in the peripheral wall 10, and the capsule CA-2 is disposed within
the filter such that the axis of the capsule CA-2 is directed perpendicularly to the
axis of the filter.
[0058] The shape of the capsule CA-2 is, however, not limited to cylinder, and as shown
in FIG. 9 by ways of example, the capsule CA-3 may be in the form of a prism (in the
figure, quadrangular prism (rectangular parallelepiped)). Where the capsule has a
prismatic shape, its posture inside the accommodation space 204 can be stabilized.
In this case, the thin-walled regions 10c are formed in the four side walls constituting
the peripheral wall of the capsule. The capsule CA-3 may be disposed within the accommodation
space 204 such that the side walls of the capsule CA-3 are directed parallel with
the axis of the filter, in which case the four side walls face frontward, rearward
and to the right and left, respectively, with respect to the filter. Alternatively,
the capsule CA-3 may be disposed within the accommodation space 204 such that one
corner of the capsule CA-3 projects frontward, as shown in FIG. 9.
[0059] To stabilize the position of each capsule CA (CA-1, CA-2, CA-3) more reliably, fiber
that is used to form the filter elements may be filled in the gap of the accommodation
space 204, if necessary, to prevent positional shift of the capsule. Also, protrusions
for positioning the capsule CA may be formed on the inner surface of the casing 201
so that the capsule CA may be pressed radially inward by the protrusions to be set
in position. Where the capsule CA can be stably positioned in this manner, either
one or both of the first and second filter sections may be omitted as the case may
be. In this regard, in the foregoing embodiments explained above, the space defined
between the first and second filter sections is used as the accommodation space of
the filter body. This configuration is, however, just a preferred example and the
accommodation space may be configured in a different way.
[0060] The manner of how a user (smoker) handles the filter-tipped cigarette CG to smoke
the same will now be explained. The user holds the middle portion of the filter FL
with his/her fingers and applies force externally to squeeze the filter FL, as indicated
by the arrows F in FIG. 1A, with the result that the casing 201 of the filter FL and
the capsule CA-1 disposed within the casing 201 are elastically deformed. Since the
capsule CA-1 has an easy-to-break structure, it breaks easily and allows the liquid
to flow out of the capsule CA-1 to be absorbed in the filter.
[0061] Subsequently, the user lights the filter-tipped cigarette CG to smoke the same. The
liquid absorbed in the filter serves to reduce the water-soluble components contained
in the smoke flow from the cigarette, and the flavoring added to the liquid improves
the taste of the cigarette.
[0062] The present invention is not limited to the foregoing embodiments.
[0063] In the embodiments described above, the filter equipped with the capsule according
to the present invention is applied to filter-tipped cigarette. However, the application
of the present invention is not limited to filters attached to cigarettes. That is,
the invention may be embodied as independent filter products.
Explanation of Reference Signs
[0064]
- FL (FL-1, FL-2):
- Filter
- CA (CA-1, CA-2, CA-3):
- Capsule
- CG:
- Cigarette
- 10:
- Peripheral wall
- 10a, 10b, 10c, 10d:
- Thin-walled region
- 10a:
- Ring-shaped main thin-walled region
- 10b:
- Straight sub thin-walled region
- 10c:
- Straight main thin-walled region
- 10d:
- Ring-shaped sub thin-walled region
- 11:
- Front wall
- 12:
- Rear wall
- 100:
- Cigarette body
- 101:
- Tip paper
- 201:
- Casing
- 202, 203, 204:
- Filter body
- 202:
- First filter section
- 203:
- Second filter section
- 204:
- Accommodation space
1. Filter, umfassend:
eine Kapsel (CA), die eine Röhrenform aufweist und eine Umfangswand (10), die eine
Umfangsfläche der Röhrenform bildet, und ein Paar von Endwänden (11, 12), die jeweils
eine vordere und hintere Öffnung der Röhrenform schließen, aufweist, wobei die Kapsel
(CA) eine Flüssigkeit darin eingekapselt aufweist, wobei mindestens die Umfangswand
(10) elastisch verformbar ist und die Umfangswand (10) mit mindestens einem ringförmigen
dünnwandigen Hauptbereich (10a), der sich in eine Umfangsrichtung der Umfangswand
(10) erstreckt, oder mit mindestens einem geraden dünnwandigen Hauptbereich (10c),
der sich in eine axiale Richtung senkrecht zu der Umfangsrichtung erstreckt, bereitgestellt
ist; und
einen im Allgemeinen zylindrischen Filterkörper (202, 203, 204), der einen Aufnahmeraum
(204) aufweist, in dem die Kapsel (CA) aufgenommen ist,
wobei die Kapsel (CA) innerhalb des Aufnahmeraums derart angeordnet ist, dass der
ringförmige dünnwandige Hauptbereich oder der gerade dünnwandige Hauptbereich (10c)
parallel zu einer radialen Richtung des Filterkörpers (202, 203, 204) ausgerichtet
ist.
2. Filter nach Anspruch 1, wobei die Kapsel (CA) mit dem ringförmigen dünnwandigen Hauptbereich
(10a) plus einem geraden dünnwandigen Unterbereich (10b), der sich senkrecht zu dem
dünnwandigen Hauptbereich erstreckt, oder mit dem geraden dünnwandigen Hauptbereich
(10c) plus einem ringförmigen dünnwandigen Unterbereich (10d), der sich senkrecht
zu dem dünnwandigen Hauptbereich erstreckt, bereitgestellt ist.
3. Filter nach Anspruch 2, wobei der ringförmige dünnwandige Hauptbereich (10a), der
gerade dünnwandige Unterbereich, der gerade dünnwandige Hauptbereich (10c) und der
ringförmige dünnwandige Unterbereich (10d) jeweils ein kontinuierlicher Bereich oder
ein nicht kontinuierlicher Bereich, der eine Diskontinuität aufweist, sind.
4. Filter nach einem der Ansprüche 2 oder 3, wobei der ringförmige dünnwandige Hauptbereich
(10a), der gerade dünnwandige Unterbereich, der gerade dünnwandige Hauptbereich (10c)
und der ringförmige dünnwandige Unterbereich (10d) jeweils ein genuteter Bereich sind,
der eine Wanddicke aufweist, die kleiner ist als die des anderen Bereichs.
5. Filter nach einem der Ansprüche 1 bis 4, wobei ein Gehäuse (201), das den Filterkörper
(202, 203, 204) umgibt, Wasserfestigkeit aufweist.
6. Filter nach einem der Ansprüche 1 bis 5, wobei die Kapsel (CA) mit dem geraden dünnwandigen
Hauptbereich (10c) bereitgestellt ist und ein Gehäuse (201), das den Filterkörper
(202, 203, 204) umgibt, aus einem transparenten Bahnmaterial hergestellt ist, so dass
der Aufnahmeraum von außen betrachtet werden kann.
7. Rauchartikel, der den Filter aufweist, der mit der Kapsel (CA) nach einem der Ansprüche
1 bis 6 versehen ist.
1. Filtre comprenant :
une capsule (CA) ayant une forme tubulaire et présentant une paroi périphérique (10)
constituant une surface périphérique de la forme tubulaire et une paire de parois
d'extrémité (11, 12) fermant des ouvertures avant et arrière de la forme tubulaire,
respectivement, un liquide étant encapsulé à l'intérieur de la capsule (CA), au moins
la paroi périphérique (10) étant élastiquement déformable, et la paroi périphérique
(10) étant pourvue d'au moins une région principale annulaire à paroi mince (10a)
s'étendant dans une direction périphérique de la paroi périphérique (10) ou d'au moins
une région principale droite à paroi mince (10c) s'étendant dans une direction axiale
perpendiculairement à la direction périphérique ; et
un corps de filtre généralement cylindrique (202, 203, 204) comportant un espace de
réception (204) dans lequel est reçue la capsule (CA),
dans lequel la capsule (CA) est disposée au sein de l'espace de réception, de manière
que la région principale annulaire à paroi mince ou la région principale droite à
paroi mince (10c) soit dirigée parallèlement à une direction radiale de corps de filtre
(202, 203, 204).
2. Filtre selon la revendication 1, dans lequel la capsule (CA) est pourvue de la région
principale annulaire à paroi mince (10a) ainsi que d'une région secondaire droite
à paroi mince (10b) s'étendant perpendiculairement à la région principale à paroi
mince, ou de la région principale droite à paroi mince (10c) ainsi que d'une région
secondaire annulaire à paroi mince (10d) s'étendant perpendiculairement à la région
principale à paroi mince.
3. Filtre selon la revendication 2, dans lequel la région principale annulaire à paroi
mince (10a), la région secondaire droite à paroi mince, la région principale droite
à paroi mince (10c) et la région secondaire annulaire à paroi mince (10d) sont chacune
une région continue ou une région non continue comportant une discontinuité.
4. Filtre selon l'une quelconque des revendications 2 et 3, dans lequel la région principale
annulaire à paroi mince (10a), la région secondaire droite à paroi mince, la région
principale droite à paroi mince (10c) et la région secondaire annulaire à paroi mince
(10d) sont chacune une région rainurée présentant une épaisseur de paroi inférieure
à celle de l'autre région.
5. Filtre selon l'une quelconque des revendications 1 à 4, dans lequel une enveloppe
(201) entourant le corps de filtre (202, 203, 204) possède une résistance à l'eau.
6. Filtre selon l'une quelconque des revendications 1 à 5, dans lequel la capsule (CA)
est pourvue de la région principale droite à paroi mince (10c), et une enveloppe (201)
entourant le corps de filtre (202, 203, 204) est constituée d'une matière de feuille
transparente, de manière que l'espace de réception puisse être vu depuis l'extérieur.
7. Article à fumer comportant le filtre équipé de la capsule (CA) selon l'une quelconque
des revendications 1 à 6.