[0001] The present invention relates to a sealed capsule for making a beverage.
[0002] More specifically, the present invention relates to a sealed capsule of the type
comprising a cup-shaped container for a measure of water-soluble material, and a flat
cover fluidtight sealing the cup-shaped container; the container comprising a tubular
lateral wall with a first and a second end, an outer annular flange integral with
the first end; and a bottom wall connected to the second end and comprising an annular
reinforcing rib coaxial with the lateral wall, and defining, on the bottom wall, an
outer annular portion and an inner circular portion; the cover comprising a flat sealing
wall connected in fluidtight manner to the flange.
[0003] Sealed capsules of the above type are known, for example from
US 5242702,
AU 655184 and
DE 10 2004 056317, are commonly used, for example, in percolating machines for making beverages such
as coffee, tea, chocolate, etc., to which the following description specifically refers.
[0004] In percolating machines employing sealed capsules, percolation is normally performed
by gripping the capsule between two half-chambers of a percolating chamber, and feeding
pressurized hot water through the percolating chamber.
[0005] As the capsule is gripped, the sealing wall and bottom wall, which are normally flat,
are pierced substantially simultaneously by two needle piercing devices, each fitted
to a respective half-chamber, to allow pressurized hot water into the capsule on one
side, and outflow of the percolated beverage on the other.
[0006] Though theoretically straightforward, in actual fact, piercing the capsule has been
found to pose serious problems.
[0007] That is, whereas the sealing wall - which is normally made of metal material, such
as aluminium, and therefore fairly rigid - is pierced easily by the dynamic thrust
of the needles, the bottom wall - which is normally made of thermoplastic material,
and necessarily thin for it to be pierced by the needles - tends to be flexed inwards
of the capsule by the needles, without being pierced, and to remain resting on the
needles.
[0008] To solve this drawback, it has been proposed to make the bottom wall inwardly convex,
as opposed to flat, so that it defines a mechanical bistable member, and is pierced
after, as opposed to together with, the sealing wall when gripping the capsule. The
bottom wall, in fact, is not pierced until it is pushed outwards by the pressurized
water flowing into the capsule through the holes formed earlier through the sealing
wall when gripping the capsule.
[0009] Though effective, this solution has several drawbacks, mainly due to the convex shape
of the bottom wall making the capsule more difficult, and therefore more expensive,
to produce, and also reducing the space available inside the capsule for the powdered
material.
[0010] It is an object of the present invention to provide a sealed capsule of the type
described above, designed to eliminate the aforementioned drawbacks, and which at
the same time is cheap and easy to produce.
[0011] According to the present invention, there is provided a sealed capsule for making
a beverage, as claimed in the independent Claim and, preferably, in any one of the
following Claims depending directly or indirectly on the independent Claim.
[0012] A non-limiting embodiment of the invention will be described by way of example with
reference to the accompanying drawings, in which:
Figure 1 shows an axial section of a preferred embodiment of the sealed capsule according
to the present invention;
Figure 2 shows an axial section of a percolating assembly of a percolating machine
employing the Figure 1 capsule;
Figures 3 and 4 show the Figure 2 assembly in respective different operating configurations.
[0013] Number 1 in Figure 1 indicates as a whole a sealed capsule for making a beverage
from a measure of powdered water-soluble material 2 housed inside capsule 1.
[0014] Capsule 1 comprises a cup-shaped container 3 made of thermoplastic material and in
turn comprising a truncated-cone-shaped lateral wall 4, which has an outer annular
flange 5 at its wide end, and is closed at its narrow end by a bottom wall 6 connected
to lateral wall 4 by a rounded edge 7.
[0015] Capsule 1 also comprises a cover 8, which fluidtight seals cup-shaped container 3
and is defined by a flat sheet of metal foil, normally aluminium, the periphery of
which is connected integrally to the outer surface of flange 5.
[0016] As shown in Figure 1, bottom wall 6 has an annular reinforcing rib 9, which is formed
by drawing bottom wall 6, is coaxial with lateral wall 4, and defines, on bottom wall
6, an outer annular portion 10, and a uniformly thick, flat inner circular portion
11 parallel to cover 8.
[0017] More specifically rib 9 is in the form of a cylindrical connecting wall, which is
coaxial with the lateral wall, extends between an inner periphery of annular portion
10 and an outer periphery of circular portion 11, and in height is roughly twice the
thickness of bottom wall 6.
[0018] Close to flange 5, lateral wall 4 has a wider portion 12 connecting lateral wall
4 to the inner periphery of flange 5.
[0019] Flange 5 is thick enough to make it rigid, and, in the example shown, is roughly
0.6 mm thick.
[0020] Lateral wall 4 is thinner than flange 5, and decreases evenly in thickness from a
maximum thickness close to flange 5, to a minimum thickness close to edge 7. In the
example shown, the thickness of lateral wall 4 varies from a maximum of 0.5 mm to
a minimum of 0.3 mm.
[0021] The thickness of bottom wall 6 is roughly the same as or slightly less than the minimum
thickness of lateral wall 4. More specifically, circular portion 11 is of a constant
thickness of about 0.3 mm.
[0022] In a variation not shown, lateral wall 4 is cylindrical, as opposed to truncated-cone-shaped.
[0023] In another variation not shown, edge 7 connecting bottom wall 6 and lateral wall
4 - be it truncated-cone-shaped or cylindrical - is a sharp edge as opposed to rounded.
[0024] As shown in Figure 2, capsule 1 is inserted, in use, into a percolating assembly
13 of a known percolating machine.
[0025] In one known type, percolating assembly 13 comprises a pressurized-hot-water sprinkler
14 aligned along an axis 15 with a piston 16 movable to and from sprinkler 14 and
having a percolated beverage outflow conduit 17.
[0026] More specifically, sprinkler 14 comprises a substantially cylindrical body, the end
of which facing piston 16 has a truncated-cone-shaped, outwardly-flared axial cavity
18 coaxial with axis 15 and for housing, in use, flange 5.
[0027] Sprinkler 14 comprises a piercing device 19, in turn comprising a plate fitted at
the bottom of cavity 18, and a number of hollow needles 20 projecting from the plate
towards piston 16, and which, in use, pierce cover 8 of capsule 1 to feed pressurized
hot water into capsule 1 from an inflow conduit 21.
[0028] Piston 16 comprises a cylindrical end body coaxial with axis 15 and fitted on the
end with a cup 22 for housing cup-shaped container 3 in use. Cup 22 comprises a lateral
wall defined by a number of columns extending axially towards sprinkler 14 and connected
to one another by a ring 23, which is coaxial with axis 15 and, when piston 16 is
gripped against sprinkler 14, presses flange 5 in fluidtight manner against the bottom
surface of cavity 18.
[0029] Piston 16 comprises a piercing device 24 located at the bottom of cup 22 and in turn
comprising a plate coaxial with axis 15, and a number of hollow needles 25 projecting
from the plate towards sprinkler 14, and which, in use, piece bottom wall 6 to allow
the percolated beverage to flow out of capsule 1 into outflow conduit 17.
[0030] Performance of capsule 1 when making the beverage will now be described as of the
Figure 2 operating configuration, in which a fresh capsule 1 has been loaded by the
user into percolating assembly 13, and is positioned, coaxially with axis 15, between
sprinkler 14 and piston 16, with cover 8 facing sprinkler 14.
[0031] When the percolating machine is operated, piston 16 advances towards sprinkler 14,
thus gradually inserting capsule 1 through ring 23 into cup 22.
[0032] As piston 16 advances, the leading end of ring 23 eventually contacts the bottom
surface of flange 5 and, continuing towards sprinkler 14, pushes capsule 1 towards
sprinkler 14 to press flange 5 in fluidtight manner against the bottom surface of
cavity 18 (Figure 3).
[0033] During this last stage, the axial ends of capsule 1 are pierced substantially simultaneously
by piercing device 19, whose needles 20 penetrate capsule 1 through cover 8, and by
piercing device 24, whose needles 25 penetrate capsule 1 through circular portion
11 of bottom wall 6.
[0034] As shown in Figure 3 - which shows the operating configuration just after capsule
1 is pierced and before pressurized hot water is fed into capsule 1 - cover 8, being
made of relatively rigid foil that does not flex under the dynamic thrust of needles
20, remains flat and substantially undeformed when pierced.
[0035] On the other hand, by virtue of reinforcing rib 9, bottom wall 6, despite being made
of thin, relatively flexible thermoplastic material, also performs rigidly, allows
needles 25 to pierce it over the final stage in the travel of piston 16 towards sprinkler
14, and remains substantially flat when pierced, except for a slight inflection inwards
of capsule 1.
[0036] Rib 9, in fact, provides, simply and cheaply, for reducing free inflection of bottom
wall 6, so that circular portion 11 is rigid enough not to flex under the dynamic
axial thrust of needles 25 when pierced, while at the same time being thin enough
to be pierced easily by needles 25.
[0037] As shown in Figure 4, when pressurized hot water is fed along conduit 21 and through
needles 20 into capsule 1, the pressure of the water presses circular portion 11 in
fluidtight manner against the plate of piercing device 24, so that needles 25 penetrate
further into capsule 1 through the holes already formed by needles 25.
[0038] Flow of the pressurized hot water through capsule 1 percolates material 2 to produce
the beverage, which flows out of capsule 1 through needles 25 and out along conduit
17.
1. A sealed capsule (1) for making a beverage, the capsule (1) comprising a cup-shaped
container (3) for a measure of water-soluble material (2), and a flat cover (8) fluidtight
sealing the cup-shaped container (3); the container (3) comprising a tubular lateral
wall (4) with a first and a second end; an outer annular flange (5) integral with
the first end; and a bottom wall (6) connected to the second end and comprising an
annular reinforcing rib (9) coaxial with the lateral wall (4), and defining, on the
bottom wall (6), an outer annular portion (10) and an inner circular portion (11);
the cover (8) comprising a flat sealing wall connected in fluidtight manner to the
flange (5); and the capsule (1) being characterized in that the lateral wall (4) is thinner than the outer annular flange (5) and decreases evenly
in thickness from a maximum thickness close to the outer annular flange (5), to a
minimum thickness close to the second end.
2. A capsule (1) as claimed in Claim 1, wherein the inner circular portion (11) is parallel
to the flat sealing wall.
3. A capsule (1) as claimed in Claim 1 or 2, wherein the outer annular portion (10) is
connected to the second end of the lateral wall (4) by a rounded annular edge (7).
4. A capsule (1) as claimed in one of the foregoing Claims, wherein the annular reinforcing
rib (9) is formed by drawing the bottom wall (6).
5. A capsule (1) as claimed in one of the foregoing Claims, wherein the inner circular
portion (11) of the bottom wall (6) is of constant thickness.
6. A capsule (1) as claimed in one of the foregoing Claims, wherein the annular reinforcing
rib (9) is in the form of a substantially cylindrical connecting wall coaxial with
the lateral wall (4) and extending between an inner periphery of the outer annular
portion (10) and an outer periphery of the inner circular portion (11).
7. A capsule (1) as claimed in Claim 6, wherein the connecting wall, in height, is roughly
twice the thickness of the bottom wall (6).
8. A capsule (1) as claimed in one of the foregoing Claims, wherein the inner circular
portion (11) of the bottom wall (6) is thinner than the flange (5).
9. A capsule (1) as claimed in one of the foregoing Claims, wherein the lateral wall
(4) is thinner than the flange (5).
10. A capsule (1) as claimed in one of the foregoing Claims, wherein the lateral wall
(4) is a truncated-cone-shaped tubular wall having a major end at the first end.
11. A capsule (1) as claimed in any one of the foregoing Claims, wherein the inner circular
portion (11) of the bottom wall (6) is approximately 0.3 mm thick.
12. A capsule (1) as claimed in any one of the foregoing Claims, wherein the container
(3) is made of thermoplastic material.
13. A capsule (1) as claimed in any one of the foregoing Claims, wherein the flat sealing
wall (8) comprises a sheet of metal material.
1. Abgedichtete Kapsel (1) zur Herstellung eines Getränks, wobei die Kapsel (1) einen
napfförmigen Behälter (3) zur Aufnahme eines wasserlöslichen Materials (2) und eine
flache Abdeckung (8) aufweist, die strömungsmitteldicht den napfförmigen Behälter
(3) abdichtet; wobei der Behälter (3) eine rohrförmige Seitenwand (4) mit einem ersten
und einem zweiten Ende aufweist; weiter einen äußeren ringförmigen Flansch (5) integral
mit dem ersten Ende; und eine untere Wand (6), die mit dem zweiten Ende verbunden
ist und eine ringförmige Verstärkungsrippe (9) aufweist, die koaxial mit der Seitenwand
(4) ist, und wobei an der unteren Wand (6) ein äußerer ringförmiger Teil (10) und
ein innerer kreisförmiger Teil (11) definiert sind; wobei die Abdeckung (8) eine flache
Dichtungswand aufweist, die in strömungsmitteldichter Weise mit dem Flansch (5) verbunden
ist; und wobei die Kapsel (1) dadurch gekennzeichnet ist, dass die Seitenwand (4) dünner ist als der äußere ringförmige Flansch (5) und gleichmäßig
bezüglich der Dicke von einer maximalen Dicke nahe am äußeren ringförmigen Flansch
(5) zu einer minimalen Dicke nahe am zweiten Ende abnimmt.
2. Kapsel (1) nach Anspruch 1, wobei der innere kreisförmige Teil (11) parallel zur flachen
Dichtungswand ist.
3. Kapsel (1) nach Anspruch 1 oder 2, wobei der äußere ringförmige Teil (10) mit dem
zweiten Ende der Seitenwand (4) durch eine abgerundete ringförmige Kante (7) verbunden
ist.
4. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei die ringförmige Verstärkungsrippe
(9) durch Ziehen der unteren Wand (6) geformt ist.
5. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei der innere ringförmige Teil
(11) der unteren Wand (6) eine konstante Dicke hat.
6. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei die ringförmige Verstärkungsrippe
(9) die Form einer im Wesentlichen zylindrischen Verbindungswand aufweist, die koaxial
mit der Seitenwand (4) ist, und sich zwischen einem Innenumfang des äußeren ringförmigen
Teils (10) und einem Außenumfang des inneren kreisförmigen Teils (11) erstreckt.
7. Kapsel (1) nach Anspruch (6), wobei die Verbindungswand bezüglich der Höhe ungefähr
zweimal so groß ist wie die Dicke der unteren Wand (6).
8. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei der innere kreisförmige
Teil (11) der unteren Wand (6) dünner ist als der Flansch (5).
9. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei die Seitenwand (4) dünner
ist als der Flansch (5).
10. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei die Seitenwand (4) eine
kegelstumpfförmige rohrförmige Wand ist, die ein Hauptende am ersten Ende hat.
11. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei der innere kreisförmige
Teil (11) der unteren Wand (6) ungefähr 0,3mm dick ist.
12. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei der Behälter (3) aus thermoplastischem
Material gemacht ist.
13. Kapsel (1) nach einem der vorhergehenden Ansprüche, wobei die flache Dichtungswand
(8) ein Flächenelement aus Metallmaterial aufweist.
1. Capsule scellée (1) pour préparer une boisson, la capsule (1) comprenant un contenant
(3) en forme de cuvette pour une mesure d'une matière (2) soluble dans l'eau, et un
couvercle plat (8) étanche scellant le contenant (3) en forme de cuvette ; le contenant
(3) comprenant une paroi (4) latérale tubulaire avec une première et une seconde extrémité
; un rebord (5) annulaire externe formé venu de matière avec la première extrémité
; et une paroi de fond (6) reliée à la seconde extrémité et comprenant une nervure
(9) de renforcement annulaire coaxiale avec la paroi latérale (4), et définissant,
sur la paroi de fond (6), une partie (10) annulaire externe et une partie (11) circulaire
interne ; le couvercle (8) comprenant une paroi de scellement plate reliée de manière
étanche au rebord (5) ; et la capsule (1) étant caractérisée en ce que la paroi latérale (4) est plus mince que le rebord (5) annulaire externe et son épaisseur
se réduit de manière uniforme en partant d'une épaisseur maximale proche du rebord
(5) annulaire externe, jusqu'à une épaisseur minimale proche de la seconde extrémité.
2. Capsule (1) telle que revendiquée dans la revendication 1, dans laquelle la partie
(11) circulaire interne est parallèle à la paroi de scellement plate.
3. Capsule (1) telle que revendiquée dans la revendication 1 ou 2, dans laquelle la partie
(10) annulaire externe est reliée à la seconde extrémité de la paroi latérale (4)
par un bord (7) annulaire arrondi.
4. Capsule (1) telle que revendiquée dans l'une des revendications précédentes, dans
laquelle la nervure (9) de renforcement annulaire est formée par l'emboutissage de
la paroi de fond (6).
5. Capsule (1) telle que revendiquée dans l'une des revendications précédentes, dans
laquelle l'épaisseur de la partie (11) circulaire interne de la paroi de fond (6)
est constante.
6. Capsule (1) telle que revendiquée dans l'une des revendications précédentes, dans
laquelle la nervure (9) de renforcement annulaire est sous la forme d'une paroi de
raccordement essentiellement cylindrique coaxiale avec la paroi latérale (4) et s'étendant
entre une périphérie interne de la partie (10) annulaire externe et une périphérie
externe de la partie (11) circulaire interne.
7. Capsule (1) telle que revendiquée dans la revendication 6, dans laquelle la hauteur
de la paroi de raccordement est approximativement deux fois l'épaisseur de la paroi
de fond (6).
8. Capsule (1) telle que revendiquée dans l'une des revendications précédentes, dans
laquelle la partie (11) circulaire interne de la paroi de fond (6) est plus mince
que le rebord (5).
9. Capsule (1) telle que revendiquée dans l'une des revendications précédentes, dans
laquelle la paroi latérale (4) est plus mince que le rebord (5).
10. Capsule (1) telle que revendiquée dans l'une des revendications précédentes, dans
laquelle la paroi latérale (4) est une paroi tubulaire en forme de cône tronqué ayant
une extrémité majeure au niveau de la première extrémité.
11. Capsule (1) telle que revendiquée dans l'une quelconque des revendications précédentes,
dans laquelle la partie (11) circulaire interne de la paroi de fond (6) a une épaisseur
d'approximativement 0,3 mm.
12. Capsule (1) telle que revendiquée dans l'une quelconque des revendications précédentes,
dans laquelle le contenant (3) est réalisé à partir d'un matériau thermoplastique.
13. Capsule (1) telle que revendiquée dans l'une quelconque des revendications précédentes,
dans laquelle la paroi (8) de scellement plate comprend une feuille de matériau métallique.