[0001] A filter cartridge for making coffee typically consists of a mostly plastics housing
comprising a wall having its top and bottom covered with filter paper, the space so
formed containing ground coffee or another extractable material. Also known are cartridges
in which the upper and lower filter papers are joined together at the circumferential
edge.
[0002] When such filter cartridges are used in coffee making, the filter cartridge can optionally
be placed in a filter pan, whereafter hot water is added. During the subsequent extraction,
gases are released from the coffee and the gas or gas mixture in the filter cartridge
heats up, so that a pressure is built up in the filter. Owing to this pressure build-up,
the upper filter bulges, with the result that the brewing water fails to sink through
or sinks through slowly, which prolongs the brewing time to an unacceptable extent.
[0003] Generally, during the packaging of coffee, an inert gas such as nitrogen is added
to prevent the coffee from coming into contact with oxygen, so as to avoid oxidative
ageing and concomitant loss of flavor.
[0004] The above-mentioned problem has been recognized previously and described in European
patent application 361 569. The solution proposed in that publication is to use an
upper filter that is folded in cold condition. During the brewing process, the filter
can move outwards if a pressure build-up occurs. In that event, the pressure in the
space below the upper filter remains limited, enabling percolation of brewing water
within a reasonable period of time. The preamble of claim 1 is based on this prior
art.
[0005] A drawback of this solution is that it requires the use of more paper. Moreover,
the folded design of the upper filter increases the risk of damage to the upper filter
in packages where the filter cartridges are packed in stacks. The bulging of the upper
filter may lead to the brewing water following a preferred route of flow along the
outer edge of the filter cartridge. The water is thus allowed to leak away from the
highest point to the lower edge.
[0006] The object of the invention is to overcome the above-mentioned disadvantages of the
known filter cartridges. This object is attained by a filter cartridge according to
claim 1. The present invention is based on the surprising insight that no or substantially
no build-up of pressure occurs in a filter cartridge that has been packed using CO₂.
[0007] According to claim 5, the present invention is further directed to the use of CO₂
in a filter cartridge having the construction as described above, whereby no or substantially
no pressure build-up occurs owing to the presence of CO₂ . The filter cartridge of
the invention is accordingly characterized in that the gas within the filter cartridge
substantially consists for at least 90% by volume of CO₂ and any gases released from
the coffee after packing.
[0008] It is observed that it is well known to use various protective gases, including CO₂,
during the packaging of coffee in coffee filters. However, heretofore this has been
done only to prevent oxidative ageing of the coffee due to oxygen. In respect of the
use of CO₂, there is not anywhere any evidence of the insight that, instead of the
conventionally used nitrogen, CO₂ in the filter cartridge could have the present advantage.
[0009] The construction of the filter cartridge that is used in accordance with the invention
is not critical. The various known systems can be used without difficulties in respect
of the percolation time. Examples of such filter cartridges are described, e.g., in
European patent applications 338,289; 272,922; 254,446; 211,511; and 224,297.
[0010] NL patent application 90,02072 (published 16.04.92) discloses a filter cartridge
in which a part of the water can freely flow past the cartridge, either via a separate
channel or via an off-centred water feed, so that a part of the upper filter of the
filter cartridge remains dry for some time. Gases can escape via the dry portion,
so that no or substantially no build-up of pressure occurs.
[0011] Generally, as an extractable material, coffee is used, but it is also possible to
use other extractable materials for preparing hot drinks, e.g., tea, maize, and chicory,
as well as mixtures of these, and mixtures of these with coffee.
[0012] In addition to coffee and/or another extractable material, the filter cartridge contains
for at least 90% by volume CO₂ and any gases that have been released from the coffee
after packing.
[0013] The finished filter cartridge is introduced into a still open outer package or container,
whereafter the air can be removed from the whole by evacuation through suction or
in any other suitable manner, such as flushing with CO₂. In the case of evacuation
by suction, the whole is subsequently gassed with CO₂. Finally, the outer package
or container is heat-sealed. According to claim 4, the invention is further directed
to a set of filter cartridges in a container.
[0014] Thus, a filter cartridge is obtained in which the coffee is disposed in a CO₂ atmosphere.
[0015] Preferably, substantially pure CO₂ is used, i.e., the CO₂ content of the gas is at
least 90%, more particularly at least 95% by volume, calculated on the gas that is
supplied during packing. It will be clear that the release of gases from the coffee
after packaging can lead to some degree of dilution of the CO₂.
[0016] The present invention will be explained, by way of example, with reference to the
accompanying drawings showing a filter cartridge comprising a plastics housing. In
said drawings:
Fig. 1 is a cross-section of a conventional filter cartridge during filtration;
Fig. 2 is a similar, schematic cross-section of a more expensive embodiment of a solution
to the problem addressed by the present invention; and
Fig. 3 is a schematic cross-section of an apparatus according to the invention.
[0017] Referring to the drawing figures, there is shown a filter cartridge comprising an
annular wall 1 having a supporting rim 2. The filter cartridge is covered at the top
by means of an upper filter 3 and at the bottom by a lower filter 4. Provided in the
filter are an amount of ground coffee 5 and nitrogen as an inert gas. This filter
cartridge is arranged in a filter pan 6 to which an amount of brewing water 7 has
been added. As will appear from Fig. 1, the upper filter bulges during brewing as
a consequence of the pressure arising in the space above the coffee. As a result,
the water does not percolate or percolates slowly.
[0018] Fig. 2 shows a variant of a filter cartridge as claimed in claim 1, already incorporating
a (more expensive) solution to the problem of the pressure build-up. Incorporated
in this embodiment are pipelets 8 comprising passages so as to permit the gases under
the upper filter to escape in the manner indicated in Fig. 2 by arrows 9.
[0019] In the filter cartridge shown in Fig. 3, constructionally similar to the cartridge
of Fig. 1, the coffee has been packaged using CO₂ gas. The upper filter proves to
bulge only to a very minor extent and in any case to a considerably lesser extent
than in the device of Fig. 1. The brewing water is now permitted to percolate readily
and properly.
[0020] Comparative tests of the filter disclosed in European patent application 361 569
supplied with nitrogen as an inert gas and the same filter cartridge supplied with
CO₂ have been performed using a mild type of coffee, viz., Douwe Egberts Boncafé,
and a high-roasted blend (Rich Roast). Tables 1 and 2 present the respective results
and further indicate the influence of the degree of hardness of the water.

[0021] These Tables clearly show that the use of CO₂ provides a significant improvement
in regard of brewing time without any disadvantages.
1. A filter cartridge having its top and bottom covered with filter paper, the space
so formed containing a granular extractable material characterised in that the gas
in the filter cartridge consists for at least 90 % by volume of CO₂.
2. A filter cartridge according to claim 1, wherein the granular material has been selected
from the group consisting of coffee, tea, maize and chicory, as well as mixtures of
two or more of these materials.
3. A filter cartridge according to claim 1 or 2, wherein the said gas consists for at
least 95% by volume of CO₂ and for the remainder of gases that have been released
from coffee after packing.
4. A set of filter cartridges according to claim 1-3, in a container, wherein the gas
in the filter cartridges consists for at least 90% by volume of CO₂ and the gas in
the container substantially consists of CO₂.
5. Use of CO₂ in an amount of at least 90% by volume in a filter cartridge having its
top and bottom covered with filter paper, the space so formed containing a granular
extractable material, for decreasing the brewing time.
1. Filtereinsatz, der auf seiner Oberseite und auf seiner Unterseite (Boden) mit Filterpapier
bedeckt ist, wobei der so gebildete Raum ein körniges extrahierbares Material enthält,
dadurch gekennzeichnet, daß das Gas in dem Filtereinsatz zu mindestens 90 Vol.-% aus
CO₂ besteht.
2. Filtereinsatz nach Anspruch 1, worin das körnige Material ausgewählt worden ist aus
der Gruppe, die besteht aus Kaffee, Tee, Mais und Zichorie, sowie Gemischen von zwei
oder mehr dieser Materialien.
3. Filtereinsatz nach Anspruch 1 oder 2, worin das genannte Gas zu mindestens 95 Vol.-%
aus CO₂ und zum Rest aus Gasen besteht, die nach der Verpackung aus dem Kaffee freigesetzt
worden sind.
4. Satz von Filtereinsätzen nach den Ansprüchen 1 bis 3 in einem Behälter, wobei das
Gas in den Filtereinsätzen zu mindestens 90 Vol.-% aus CO₂ besteht und das Gas in
dem Behälter im wesentlichen aus CO₂ besteht.
5. Verwendung von CO₂ in einer Menge von mindestens 90 Vol.-% in einem Filtereinsatz,
dessen Oberseite und dessen Unterseite (Boden) mit Filterpapier bedeckt sind, wobei
der so gebildete Raum ein körniges extrahierbares Material enthält, zur Verkürzung
der Brauzeit.
1. Cartouche filtrante dont la partie supérieure et la partie inférieure sont recouvertes
par un papier filtre, l'espace ainsi formé contenant une substance granulaire extractible,
caractérisée en ce que le gaz situé dans la cartouche filtrante est constitué par
au moins 90 % en volume de CO₂.
2. Cartouche filtrante selon la revendication 1, dans laquelle la substance granulaire
a été choisie dans le groupe comprenant le café, le thé, le maïs et la chicorée, ainsi
que des mélanges de deux ou plusieurs de ces substances.
3. Cartouche filtrante selon la revendication 1 ou 2, dans laquelle ledit gaz est constitué
par au moins 95 % en volume de CO₂ et pour le reste, par des gaz qui ont été libérés
par le café après son emballage.
4. Ensemble de cartouches filtrantes selon la revendication 1-3, dans un récipient, dans
lequel le gaz situé dans les cartouches filtrantes est constitué par au moins 90 %
en volume de CO₂ et le gaz situé dans le récipient est constitué essentiellement par
du CO₂.
5. Utilisation de CO₂ en une quantité d'au moins 90 % en volume dans une cartouche filtrante
dont la partie supérieure et la partie inférieure sont recouvertes par un papier filtre,
l'espace ainsi formé contenant une substance granulaire extractible, pour réduire
la durée d'infusion.