HK1169928B - Capsule, system and method for preparing a beverage - Google Patents

Abstract

The invention relates to a capsule (2), system and method for preparing a predetermined quantity of beverage suitable for consumption using an extractable product. The capsule comprises a circumferential first wall (14), a second wall (16) closing the circumferential first wall at a first end (18), and a flexible sheet-shaped perforate and/or porous third wall (20) closing the circumferential first wall at a second, open, end (22) opposite the second wall, wherein the first, second and third wall enclose an inner space (24) comprising the extractable product, wherein the third wall forms an outermost boundary of the capsule in an axial direction thereof, and wherein the third wall comprises a woven or nonwoven filtering material, such as filtering paper.

Description

Capsule, system and method for preparing a beverage

Technical Field

The present invention relates to a system for preparing a predetermined quantity of beverage suitable for consumption using an extractable product, comprising: an exchangeable capsule; and an apparatus comprising a fluid dispensing device for providing an amount of fluid (e.g. water) to an exchangeable capsule at a pressure of at least six bar, and a reservoir for holding the exchangeable capsule, wherein the exchangeable capsule comprises: a circumferential first wall, a second wall closing the circumferential first wall at a first end, and a third wall closing the circumferential first wall at a second open end opposite the second wall, wherein the first, second and third walls enclose an inner space containing the extractable product, wherein the fluid dispensing device is arranged to provide fluid to the extractable product through the second wall to form a beverage, and wherein the reservoir comprises a support surface against which the third wall is arranged to abut to drain the prepared beverage from the capsule through the third wall and the support surface. The invention also relates to a capsule and a method for preparing a beverage.

Background

Such a system is known, for example, from WO2007/135136a1 describing a brewing device for brewing capsules containing a beverage ingredient. The known brewing device comprises a main frame and a first and a second capsule holding portion for at least partially holding the capsule. The first capsule holding portion comprises the above-mentioned support surface which is abutted by the third wall of the capsule. The second capsule-holding portion is movable in the frame with respect to the first capsule-holding portion and is coupled to the frame by a closing mechanism comprising toggle joint means (knucklejoint means) or equivalent means to move from an open position, in which the two portions are distanced from each other to insert the capsule between them, to a closed position, in which the first and second holding portions enclose the capsule. The known punching device further comprises a manual grip forming lever for moving the second holding part from the open position to the closed position and vice versa by means of the closing mechanism.

The frame of the known device is provided with an upper channel for inserting a new capsule into the device when the retaining portion has been brought into the open position. The frame further comprises a lower channel for discarding the spent capsule after the punching process performed in the closed position of the holding portion is completed and the holding portion is reopened.

The retaining portion may be brought into a closed position after a new capsule has been inserted into the known device. In this closed position, the punching process can be performed. During this brewing process, the second wall of the capsule is pierced by a piercing unit (e.g., a blade), opening the capsule, allowing pressurized water to enter the capsule. At this time, the third wall of the capsule abuts closely against the support surface of the first holding portion. In fact, said tight abutment causes the capsule to rest against the support surface.

In an initial phase of reopening of the holding portion, the capsule remains engaged with the piercing unit, which is connected to the second holding portion and is movable therewith. Thus, after reopening, the piercing unit disengages the capsule from the support surface of the first holding portion and pulls the capsule away from the support surface. In order for the capsule to fall by gravity through the lower passage in the frame, it must be detached again, this time from the piercing unit. WO2007/135136a1 page 19 lines 1-12 describes one method of releasing the capsule from the piercing unit. This requires the use of a length compensating pipe section of the water supply which is immovable relative to the frame. The tube compensation portion pushes the capsule in such a way that it becomes detached from the piercing unit when the second holding portion is moved away from the first holding portion.

Disclosure of Invention

It is an object of the present invention to provide at least one alternative solution for disengaging a capsule from a support surface. More particularly, it is an object of the present invention to provide an alternative solution with less complexity than the known solutions described above, which can be used even in the case where the above-described piercing unit is not provided in the system or in the case where it is not functional during the punching of a capsule of a specific type.

For this purpose, the invention provides a capsule according to the following. In addition, the invention also provides a system according to the following. Furthermore, the invention provides a method according to the following. Specific embodiments of the invention are defined below.

Since the third wall of the capsule comprises a woven or non-woven filter material, such as filter paper, forming an outermost boundary of the capsule in the axial direction of the capsule and intended to abut against the support surface, the woven or non-woven filter material in said outermost boundary of the capsule abuts against the support surface, thereby preventing the capsule from sticking to the support surface and facilitating the capsule to be detached after use of the capsule. Thus, according to the solution of the invention, the disengagement of the capsule from the support surface does not require the use of active piercing means as described in the known devices, even if additional means for subsequently disengaging the capsule from said piercing means are used. It should be understood that the nonwoven filter material may be a fibrous nonwoven material. It should be understood that the woven filter material may be a fibrous woven material. The fibers of the fibrous material may, for example, comprise synthetic fibers (e.g., Polyethylene (PE) fibers) and/or natural fibers (e.g., cellulosic fibers). The non-woven filter material may prevent sticking phenomena better than woven filter material, possibly due to the randomness of the fibre direction.

Preferably, the exchangeable capsule comprises a quantity of extractable product and is therefore suitable and intended for preparing a single serving, preferably a single cup, of beverage from, for example, 30ml-200ml of prepared beverage. Thus, the exchangeable capsule is a single portion package. In one embodiment, the capsule comprises 4-8 grams, preferably about 7 grams of extractable product, e.g. roast and ground coffee.

Preferably, the exchangeable capsule is disposable after a single use.

In an embodiment, the fluid dispensing device is adapted to provide the fluid to the exchangeable capsule at a pressure of about 4-20 bar, preferably 9-15 bar. The fluid dispensing device may also be used for providing fluid to the exchangeable capsule at a pressure of, for example, at least 6 bar (absolute pressure).

Preferably, the support surface comprises a channel-shaped recess in a side facing the third wall for draining the prepared beverage from the capsule through the recess. Thus, the prepared beverage may drain from the capsule through the third wall into the channel-shaped recess. This provides an improved method of letting out beverage from the capsule.

It should be noted that the device for preparing a beverage has a reservoir for placing a pellet-shaped bag (pill-shaped) made of filter paper and filled with ground coffee, as described in WO03/105644 (cf. EP0904717), wherein the reservoir has a bottom comprising a channel-shaped groove. However, the known apparatus is neither used nor adapted for providing a fluid under high pressure to a capsule according to the invention. In WO03/105644, water is supplied to the capsule at a relatively low pressure of 1.4atm, and it is generally believed that a pellet bag made from filter paper will rupture when water is supplied at a high pressure, for example greater than about six bar.

However, the inventors of the present invention have found that, contrary to the general idea, it is technically highly feasible to provide a sheet-like third wall having a sufficiently high tear strength and/or forming a sufficiently low flow resistance, such that the third wall does not tear and/or rupture and remains intact during use.

Preferably, the support surface comprises a ridge between the channel-shaped grooves which in use abuts the third wall. Preferably, the ridge forms at least 10%, preferably at least 25%, most preferably at least 50% of the portion of the support surface which in use coincides with the portion of the surface area of the third wall which overlies the second open end. Preferably, in use, the third wall is supported by the ridge over at least 10%, preferably at least 25%, most preferably at least 50% of its surface area covering the second open end. The third wall is thus well supported in use by the ridge of the support surface, so that the third wall can easily be used without tearing and/or breaking and remains intact.

Preferably, the ridge comprises an edge, wherein the edge is non-sharp. Preferably, the radius of curvature of the edge is at least 50 μm, preferably at least 100 μm. Thus, the third wall can be easily made to tear and/or break and remain intact during use.

In one embodiment, the ridges have a convex top. Thus, when the third wall presses the ridge in use, the surface area in which the third wall is supported by the ridge increases, thus reducing the local pressure exerted by the ridge on the third wall. Thus, the third wall can be easily made to tear and/or break and remain intact during use.

The abutment region of the support face for abutment with the third wall (in addition to the local recess and/or the local projection therein) also has a substantially rectilinear shape. Alternatively, however, the abutment region may have a substantially non-linear shape (in addition to the local recesses and/or local protrusions therein), for example a substantially convex shape.

In one embodiment, the third wall is constructed from sheet-like filter paper. The filter paper provided a low cost third wall. In addition, the parameters of the filter paper (e.g., density, thickness, and/or PE content) can be readily selected to provide a third wall with sufficiently high tear strength and/or to provide sufficiently low flow resistance.

In addition, the porous third wall can achieve the following advantages: the beverage may drain from the capsule via substantially the entire cross-section of the inner space. Thus, the beverage can flow out of the inner space very uniformly. This prevents the occurrence of highly permeable fluid flow channels (permeable flow channels) in the inner space. It is known that highly osmotic fluid flow channels reduce the repeatability of the beverage preparation process.

Further, if the extractable product is roast and ground coffee, providing a perforated and/or porous third wall made of, for example, filter paper has the following advantages: the third wall may filter oil from the beverage (i.e., coffee) prior to providing coffee to the container (e.g., cup). This facilitates the removal of oil from the coffee, which may adversely affect the taste and/or quality of the coffee. In particular, it is advantageous to filter cafestol from coffee, since cafestol is known to increase blood cholesterol levels. Thus, from a consumer health point of view, providing a flexible perforated and/or porous third wall may improve the coffee quality.

In an alternative preferred embodiment, the third wall is provided with a plurality of outlet openings. The parameters of the third wall (e.g. density, thickness, number of outlet openings, size and/or shape of the outlet openings) can be easily selected such that the third wall has a sufficiently high tear strength and/or forms a sufficiently low flow resistance.

Preferably, the plurality of outlet openings are distributed over substantially the entire surface of the third wall. This achieves the following advantages: the beverage may drain from the capsule via substantially the entire cross-section of the inner space. Thus, the beverage can flow out of the inner space very uniformly. This prevents the occurrence of highly osmotic fluid flow channels. However, it is also possible to distribute the outlet openings over part of the surface of the third wall, the remaining part of the surface of the third wall being provided with no outlet openings. For example, no outlet opening may be provided on a circumferential region of the third wall surface.

According to a second aspect of the invention, said second wall is perforated and/or porous. Preferably, the second wall has a sufficiently high tear strength and/or forms a sufficiently low flow resistance that the second wall does not tear and/or rupture during use and remains intact. This has the following advantages: preventing, for example, the second wall from rupturing and causing an abrupt pressure impact to the third wall.

Preferably, the second wall is formed from a flexible porous sheet (e.g. a sheet of filter paper), a flexible foil (e.g. a polymeric film) provided with a plurality of inlet openings, or the second wall is substantially rigid and comprises a plurality of inlet openings. Thus, the inlet filter can be provided in a simple manner.

In one embodiment, the plurality of inlet openings are distributed over substantially the entire surface of the lamella or the second wall, respectively. This achieves the following advantages: the fluid may be provided substantially via the entire cross-section of the inner space. Thus, the extractable product is wetted very uniformly. This further achieves the following advantages: the risk of high osmotic flow paths of the extractable product in the capsule is reduced and the reproducibility of the strength of the beverage is even more enhanced. It is also possible to distribute the inlet openings over part of the surface of the lamellae or second wall, the remaining part of the surface of the lamellae or second wall being provided with no inlet openings. It will be appreciated that the porous second wall has the same advantages.

In a further embodiment, the capsule is provided with a plurality of side entrance openings arranged in the circumferential first wall. This has the following advantages: the extractable product is also at least partly wetted from the side. This has the following advantages: the fluid can be supplied to the extractable product very uniformly and in a controlled manner.

According to a further aspect of the invention, the entire inner space is occupied by the extractable product. Thus, the inner volume of the capsule may be optimally utilized. This further has the following advantages: when the fluid flows through the capsule, the extractable product cannot be displaced within the inner space and therefore a highly permeable flow path is not formed.

Generally, the second wall may be integral with the circumferential first wall. This has the following advantages: the capsule may simply consist of a generally cup-shaped structure forming a circumferential first wall and a second wall (in combination with a flexible sheet-like third wall). The third wall may be connected to the circumferential first wall, for example by gluing, welding, folding or the like.

In one embodiment, the capsule comprises an inwardly extending rim, wherein the second or third wall is attached to the inwardly extending rim. Thus, for example, a sheet-like second or third wall can be connected to the rim. Thus, a simple and robust construction of the capsule is obtained.

In one embodiment, the capsule comprises an outwardly extending rim, wherein the second or third wall is attached to the outwardly extending rim. Thus, for example, a sheet-like second or third wall can be connected to the rim. Thus, a simple and robust construction of the capsule is obtained.

More generally, it applies that the third wall may extend, for example, to a circumferential edge of the circumferential first wall. Furthermore, it is more generally applicable that the second wall may extend, for example, to a circumferential edge of the circumferential first wall.

In a particular embodiment, the capsule further comprises a bottom seal at least partially detachably connected to the second wall (for sealing, e.g., a porous or perforated second wall before use). Thus, air is prevented from entering the inner space through, for example, the porous or perforated second wall before use of the capsule, extending the shelf life of the product inside the capsule.

In a particular embodiment, the capsule further comprises a cover seal at least partially detachably connected to the third wall (for sealing the third wall before use). Thus, air is prevented from entering the inner space through the third wall before use of the capsule, extending the shelf life of the product in the capsule.

According to a further aspect of the invention, the cover seal is arranged to be partially detached from the third wall by fluid pressure within the inner space while remaining attached to the third wall in at least one position. Thus, the cover seal does not need to be removed from the capsule by a user of the capsule. When the fluid enters the inner space, the pressure increases until the closure is partly detached from the third wall, after which the beverage can flow out through the third wall. The releasable connection may for example consist of a so-called peelable type seal. Since the cover seal is permanently attached to the third wall in at least one position, the cover seal cannot be completely detached from the capsule. This has the following advantages: when discarding the used capsule, the cover seal is automatically discarded from the apparatus.

Preferably, the capsule comprises reinforcing ribs integrally formed with the circumferential first wall and/or the second wall for increasing the rigidity of the capsule.

In general, the circumferential first wall may be any shape, such as cylindrical, hemispherical, truncated conical, or polygonal, such as hexagonal or octagonal.

Preferably, the extractable product comprises roast and ground coffee. The capsule is thus suitable for preparing a predetermined quantity of coffee by supplying a predetermined quantity of hot water to the capsule under high pressure.

According to a further aspect of the invention, the extractable product is pressed into tablets. This has the following advantages: the risk of high permeation flux paths in the pressed extractable product pieces is reduced. It will be appreciated that when using pressed tablets, the second wall may be omitted from the capsule, since the risk of spillage of the extractable product is substantially reduced.

Preferably, the small block comprises at least one hole extending from the small block towards a side of the second wall in the direction of the third wall. Thus, the holes provide a soaking method that wets out the pieces in a uniform manner.

The extractable product may also be pressed into a plurality of pieces, preferably having a compaction density different from each other. For example, the extractable product may be provided as a stack of pieces having different degrees of compaction from each other. For example, the compaction of each nub increases in the direction from the second wall to the third wall. In this way, the effort required to completely wet the tablets also increases in the direction from the second wall to the third wall, ensuring that each upstream tablet is completely wetted when wetting another downstream tablet, thus providing a means for very uniform wetting of the total volume of extractable product.

Drawings

The invention will now be further illustrated, by way of non-limiting example, with reference to the schematic drawings in the accompanying drawings, in which:

fig. 1a shows an example of a first embodiment of a system for preparing a beverage according to the present invention;

figure 1b shows an example of a second embodiment of a system for preparing a beverage according to the present invention;

figures 2a and 2b show a possible embodiment of the support surface of the system according to the invention;

figures 3a-3d show an embodiment of a capsule according to the invention;

figures 4a, 4b and 4c show examples of further embodiments of a capsule according to the invention; and

fig. 5a and 5b show examples of further embodiments of the capsule according to the invention.

Detailed Description

Fig. 1a shows an example of a first embodiment of a system 1 for preparing a predetermined quantity of beverage suitable for consumption using an extractable product according to the invention. The system 1 comprises an exchangeable capsule 2 and an apparatus 4. The apparatus 4 comprises a reservoir 6 for holding exchangeable capsules 2. In fig. 1a, a gap is drawn between the capsule 2 and the reservoir 6 for clarity. It will be appreciated that, in use, the capsule 2 may be in contact with the reservoir 6. In this example, the reservoir 6 has a shape complementary to the shape of the capsule 2. In this example, the reservoir 6 comprises an upper part 8 and a support surface 10.

The apparatus 4 further comprises fluid dispensing means 12 for supplying an amount of fluid, such as hot water, to the exchangeable capsule 2 at a high pressure, such as greater than about six bar (absolute).

In the system 1 shown in fig. 1a, the exchangeable capsule 2 comprises a substantially rigid circumferential first wall 14, a second wall 16 closing the circumferential first wall 14 at a first end 18, and a third wall 20 closing the circumferential first wall 14 at a second open end 22 opposite the second wall 16. The circumferential first, second and third walls 14, 16, 20 enclose an inner space 24 containing the extractable product, which in this example is roast and ground coffee. In this example, the exchangeable capsule 2 comprises a quantity of extractable product, for example about 7 grams of roast and ground coffee, which is suitable for preparing a single serving, preferably a single cup, of beverage with, for example, 30ml-200ml of prepared beverage. Thus, the exchangeable capsule is a single portion package.

In the example shown in fig. 1a, the circumferential first wall 14 is substantially rigid. The circumferential first wall 14 may, for example, comprise a plastic material, and may be formed by, for example, injection molding, vacuum forming, thermoforming, or the like.

In this example, the second wall 16 is formed integrally with the circumferential first wall 14. In this example, the second wall 16 is substantially rigid. Thus, the second wall 16 comprises a plurality of inlet openings 26 for fluid to enter the capsule 2.

In this example, the third wall 20 is a flexible sheet. Further, in this example, the third wall is porous. In this example, the third wall 20 is made of a woven or non-woven filter material, such as filter paper. In this example, the woven or non-woven filter material (e.g., filter paper) comprises Polyethylene (PE) fibers. Thus, the woven or non-woven filter material is a fibrous material. In this example, the third wall 20 is connected to the circumferential first wall 14 by heat sealing. In this example, the third wall 20 forms the outermost boundary of the capsule 2 in the axial direction of the capsule 2. As shown in fig. 1a, said third wall 20 abuts against the support surface 10 of the reservoir 6.

The operation of the system 1 for preparing a cup of coffee shown in fig. 1a is as follows.

The capsule 2 is placed in a reservoir 6. So that said third wall 20 abuts against the support surface 10. Said fluid under pressure, here hot water, is supplied to the extractable product in the inner space 24 through the inlet opening 26. The water will wet the coffee grounds and extract the desired substances to form a coffee beverage. The prepared coffee will drain from the capsule 2 through the porous third wall 20. The coffee beverage is further drained from the reservoir 6 via a plurality of outlets 28 and may be provided to a container 30, such as a cup.

In the example shown in fig. 1a, the plurality of inlet openings 26 is distributed over substantially the entire second wall 16. Thus, the fluid is provided to the extractable product through the plurality of inlet openings 26, wetting the extractable product over substantially the entire cross-section of the capsule 2. Hereby, a very uniform supply of fluid to the extractable product is achieved. Thus, the risk of the occurrence of highly permeable flow channels through which the fluid flows through the extractable product is greatly reduced.

In the example shown in fig. 1a, the third wall 20 forming the exit area of the capsule 2 through which beverage (here coffee) may exit the capsule is constituted by a porous sheet (in the form of a woven or non-woven filter material, e.g. filter paper). In this example, the entire third wall 20 is composed of a porous sheet. In this example, the third wall 20 forms a substantially continuous fluid permeable sheet spanning substantially the entire second open end 22 of the capsule 2. Thus, the fluid may be drained from the capsule 2 over a large area. Hereby, a very even discharge of the beverage from the extractable product is achieved. Thus, the risk of high permeability flow channels through which the fluid flows through the extractable product is greatly reduced.

Fig. 1b shows an example of a second embodiment of a system 1 for preparing a predetermined quantity of beverage suitable for consumption using an extractable product according to the invention. The system shown in fig. 1b is largely identical to the system shown in fig. 1 a. Like elements are denoted by like reference numerals.

In the example shown in fig. 1b, the support surface 10 comprises a channel-shaped recess 32 in a side facing the third wall 20 for draining the prepared beverage from the capsule 2 through the recess 32. Ridges 34 are provided between the grooves 32. The third wall 20 abuts the support surface 10 and thus the ridge 34. It will be appreciated that in the example shown in fig. 1b, the prepared beverage may drain from the capsule 2 through the third wall 20 into the channel-shaped recess 32. This provides an improved way of outflow of the beverage from the capsule 2.

The third wall 20 is arranged in such a way that it is not torn by the ridges 34, e.g. has a sufficiently high tear strength that it is not torn by the ridges 34 under the influence of the fluid pressure inside the capsule 2. Alternatively, or additionally, the third wall 20 forms a sufficiently low flow resistance to the beverage present in the capsule 2 such that the pressing force of the third wall 20 against the raised ridge 34 is not sufficient to cause it to be torn by the raised ridge 34, whereby the third wall 20 remains intact. It will be appreciated that the third wall may deform against the ridge 34 under the pressure of the fluid and/or beverage within the interior space, but does not rupture or tear.

Fig. 2a and 2b show plan views of embodiments of the support surface 10 of the reservoir 6.

In the example shown in fig. 2a, the support surface 10 comprises a plurality of radial grooves 32 radially separated by ridges 34. Said radial grooves 32 communicate in the centre of the support surface 10. Furthermore, the centre of the support surface is provided with a single outlet 28 for beverage passing through the support surface to a container 30, for example as shown in fig. 1 b.

In the example shown in fig. 2b, the support surface 10 comprises a plurality of grooves 32 oriented perpendicular to each other. The ridges 34 are in this example constituted by "islands" between the grooves 32, which islands are in this example substantially square, but may also have other shapes, such as rectangular, circular, triangular, elongated or drop-shaped. It will be appreciated that in this example the ridge 34 forms about 25% of the portion of the support surface 10 which, in use, coincides with the portion of the surface area of the third wall 20 which overlies the second open end 22. In this example, the third wall 20 is supported by the ridge 34 over a portion of the surface area of the third wall 20 that covers about 25% of the second open end 22. Thus, the third wall 20 is well supported such that it does not tear or rupture when fluid is provided to the capsule 2 under pressure.

In the example shown in fig. 2a and 2b, the ridge 34 comprises an edge which is non-sharp. Thus, the edge of the ridge does not cut the third wall. In these examples the radius of curvature of the edge is about 50 μm, but other radii, such as 100 μm, 200 μm or 500 μm,

in one embodiment, not shown, the ridges 34 are provided with a convex top. Thus, when the third wall 20 is pressed against the ridge 34, the surface area over which the third wall 20 is supported by the ridge 34 increases, thus reducing the local pressure exerted by the ridge 34 on the third wall 20. Thus, the third wall can be easily made to tear and/or break and remain intact during use. In one example of the raised ridges, the islands shown in fig. 2b may be dome-shaped.

In this example, the support surface includes a plurality of outlets 28.

It should be understood that alternative configurations for the channel-shaped groove 32 are possible. The alternative configurations include concentric grooves, parallel grooves, one or more spiral grooves, combinations of these and/or the illustrated grooves, and the like. It should also be understood that, in general, the support surface 10 may include one or more outlets 28.

Fig. 3a-3d show an embodiment of a capsule 2 according to the invention.

In fig. 3a, the second wall 16 is formed integrally with the circumferential first wall 14, similar to that shown in fig. 1a and 1 b. The second wall 16 includes a plurality of inlet openings 26 in the second wall 16. The third wall 20 is constituted by a flexible foil 36 provided with a plurality of outlet openings 38. In fig. 3a, the capsule 2 comprises an outwardly extending rim 40 at the second end 22 of the circumferential first wall 14. The third wall 20 is attached to the outwardly extending rim 40 by, for example, gluing, welding, heat sealing, etc. Thus, the third wall may be securely attached to the rim. It will be appreciated that the outwardly extending rim 40 may extend between the upper portion 8 of the reservoir 6 and the support surface 10 of the reservoir 6, with the rim 40 sandwiched between the upper portion 8 and the support surface 10. Thus, in use, i.e. when fluid pressure is applied, the third wall 20 is clamped with the rim 40, thereby reducing the risk of the third wall 20 separating from the rim 40.

In fig. 3b, the third wall 20 is constructed of a woven or non-woven filter material (e.g., filter paper), similar to that shown in fig. 1a and 1 b. In fig. 3b, the second wall 16 is also made of a flexible porous sheet (e.g. filter paper). In this example, the second wall 16 is attached to the inwardly extending flange 42, and in this example, the second wall 16 is attached to the inside of the inwardly extending flange 42.

In fig. 3c, the third wall 20 is constructed of a woven or non-woven filter material (e.g., filter paper), similar to that shown in fig. 1a, 1b and 3 b. In fig. 3c, the second wall 16 is also formed by a porous sheet, such as filter paper. In this example, the second wall 16 is attached to the outside of the inwardly extending flange 42. Thus, the risk of fluid under pressure tearing the second wall 16 from the inwardly extending flange 42 is reduced. The second wall 16 may also extend beyond the circumferential edge of the capsule 2. Thus, a larger surface area may be used to attach the second wall 16 to the inwardly extending flange 42 and the circumferential first wall 10, thereby making the bond stronger.

In fig. 3d, the third wall 20 is provided with a plurality of outlet openings 30, as shown in fig. 3 a. In fig. 3d, said second wall 16 is also constituted by a foil 44 provided with a plurality of inlet openings 26.

In all embodiments shown in fig. 3a-3d, the third wall 20 is constructed of a woven or non-woven filter material (e.g., filter paper). More particularly, in all of the embodiments shown in fig. 3a-3d, the entire third wall 20 is constructed solely of woven or non-woven filter material (e.g., filter paper). As is known, in general, since the capsule is arranged such that said third wall 20 abuts against the support surface 10 of the reservoir 6 of the apparatus 4 of the system 1, it is not required to support the third wall 20 with, for example, a support structure (e.g. a substantially rigid grid) downstream of the third wall in order to prevent the third wall from tearing and/or breaking. It is obvious that all embodiments of the capsule 2 shown in fig. 3a-3d may use a support surface 10 having channel-shaped recesses 32. It will be appreciated that parameters of the third wall, e.g. material, thickness, whether or not the third wall has exit openings, size of the exit openings, number of exit openings, etc., which parameters result in the third wall 20 of the capsule 2 having a sufficiently high tear strength and/or forming a sufficiently low flow resistance such that the third wall does not tear and/or rupture during use and remains intact may be shown by simple tests.

In all of the embodiments shown in fig. 3b-3d, the second wall 16 is constructed of a flexible sheet material. More particularly, in all of the embodiments shown in fig. 3b-3d, the second wall is constructed solely of a flexible sheet material. It is known that, in general, it is not required to support the second wall using, for example, a support structure (e.g., a substantially rigid grid) downstream of the second wall to prevent tearing and/or breakage of the second wall 16.

In all embodiments shown in fig. 3a-3d, the third wall forms the outermost boundary of the capsule in the axial direction of the capsule.

It is to be understood that the capsule 2 may comprise any second wall 16 according to any of the embodiments shown, and any third wall 20 according to any of the embodiments shown.

In fig. 3a-3d (and 4a, 5a and 5b), the rim near the second end 22 extends outwardly. It will be appreciated that the capsule 2 may alternatively, or additionally, comprise an inwardly extending rim near the second end 22 for attaching the third wall 20 thereto. In fig. 3b-3d (and 5a and 5b), the rim near the first end 18 extends inwardly. It will be appreciated that the capsule 2 may alternatively, or additionally, comprise an outwardly extending rim near the first end 18 for attaching the second wall 16 thereto.

Generally, the size of the exit openings 38 of the sheet or the pores of the porous sheet is arranged such that the size of the openings 38 or pores is small enough for the extractable product (e.g. ground coffee) to remain within the capsule 2. Also, generally speaking, the size of the entrance openings 26 of the second wall or the pores of the porous sheet is arranged such that the size of the openings 26 or pores is small enough to retain the extractable product (e.g. ground coffee) within the capsule 2.

In general, the inlet openings 26 are preferably distributed over substantially the entire surface of the second wall 16, at least substantially the entire surface of the opening defined by the inwardly extending lip 42, respectively. Optionally, an inlet opening 26 is also provided in the circumferential first wall 14, e.g. in a portion of the circumferential first wall 14 near the first end 18. This enables a uniform supply of fluid to the extractable product inside the capsule 2.

In general, the outlet openings 38 are preferably distributed over substantially the entire surface of the third wall, respectively, at least substantially the entire surface of the opening defined by the outwardly extending rim 40. This enables a uniform draining of the beverage from the extractable product inside the capsule 2.

In the example shown in fig. 1a, 1b and 3a-3d, the inlet opening 26 and the outlet opening 38 have a circular cross-section. The holes 26, 38 having a circular cross-section are easy to manufacture. Optionally, the cross-section of the inlet opening 26 tapers towards the inner space 24. This has the following advantages: the inlet opening acts as a nozzle for the fluid jet into the inner space 24.

It should be understood that the inlet opening 26 and/or the outlet opening 38 may also have alternative shapes. For example, the apertures 26, 38 may have the shape of elongated slits. Preferably, the small size of the slit is small enough to retain the extractable product in the capsule 2.

In a particular embodiment, the slit may have a shape that defines a tongue in the plane of the second wall 16. The slit may be substantially U-shaped, for example semi-circular, horseshoe, rectangular or V-shaped. This has the following advantages: the flap may be bent out of the plane of the second wall 16 under the influence of the flow of fluid through the opening defined by the flap. Thus, a greater volumetric flow of fluid may be achieved. If the second wall is made of an elastic material, the tongue will bend back into the plane of the second wall after the fluid has stopped flowing, thereby preventing spilling the extractable product after (before and after) the preparation of the beverage.

Fig. 4a shows an example of a further embodiment of a capsule 2 according to the invention. Fig. 4a shows a modification of the capsule shown in fig. 3 a. It is to be understood that the adaptation may be applied to any of the capsules 2 described above. In the example shown in fig. 4a, the capsule 2 further comprises a bottom seal 46. The bottom seal 46 closes the inlet opening 26 (or porous sheet) prior to use. The bottom seal 46 is at least partially removably attached to the second wall 16. In this example, the bottom seal 46 comprises a lip 48 which allows a user of the capsule 2 to easily remove the bottom seal 46. In fig. 4a, the capsule 2 further comprises a lid seal 50. The cap seal 50 closes the outlet opening 38 (or porous sheet) prior to use. The cap seal 50 is at least partially removably connected to the third wall 20. In this example, the cover seal 50 includes a lip 52 to facilitate removal of the cover seal 50 by a user of the capsule 2. The bottom seal 46 and the lid seal 50 prevent air from entering the capsule via the holes 26, 38 or perforated sheet, thereby extending the shelf life of the product within the capsule.

In one particular embodiment (not shown), the lip 46 of the bottom seal 46 is coupled to the lip 52 of the cap seal 50. Thus, the bottom seal 46 and the cap seal 50 may be integrally formed. Thus, the user is prevented from accidentally forgetting to remove one of the base seal and the cap seal.

Fig. 4b and 4c show examples of plan views of a further embodiment of the capsule 2 when viewed from the third wall side. In fig. 4b and 4c, the capsule comprises a cover seal 50. The cap seal 50 is attached to the third wall 20 with a removable seal 54. In this example, the removable seal forms a circumferential seal adjacent a circumferential edge of the third wall 20. The removable seal 54 is adapted to disengage from the third wall 20 under the pressure of the fluid in the interior space 24. The removable seal may be, for example, a peel seal having a predetermined removal strength. Thus, the user is not required to remove the lid seal 50 from the capsule 2, since the seal is automatically opened when preparing the beverage.

In fig. 4b and 4c, the cap seal 50 is further attached to the third wall 20 with a permanent joint 56. The permanent joint may be, for example, an adhesive or welded connection. In fig. 4b, the permanent joint is adjacent to the center of the third wall 20. In fig. 4c, the permanent joint 56 is adjacent to a circumferential edge of the third wall 20. This has the following advantages: the detachable seal may be detached under pressure to allow beverage to drain from the capsule while the cover seal 50 remains attached to the third wall 20 in at least one position. Thus, the cap seal 50 does not need to be discarded separately, improving ease of use, and is not lost.

It should be understood that the cap seal 50 may alternatively, or additionally, be attached to a rim located near the second end 22 and/or to the circumferential first wall in addition to being attached to the third wall 20.

It will be appreciated that the capsule 2 may alternatively, or additionally, be provided with a bottom seal 46 in a similar manner, for example, on the inside of the second wall 16, for disengagement from the second wall 16 under the pressure of the fluid supplied to the capsule 2, and optionally at least one permanent joint between the second wall and the bottom seal 46. It should be understood that the bottom seal 46 may alternatively, or additionally, be attached to a rim located near the first end 18 and/or to the circumferential first wall in addition to being attached to the second wall 16.

It will be appreciated that the cover seal 50 and/or the base seal 46 may also be used in conjunction with alternative capsules wherein the third wall forms the outermost periphery of the package in the axial direction of the capsule, e.g. a capsule having an axially extending rim extending beyond the third wall.

Preferably, the circumferential first wall 14 is substantially rigid. Thus, the capsule is not deformed by shipping and/or handling, so that the capsule 2 is always fitted inside the reservoir 6. In addition, the circumferential first wall 14 is preferably resilient, so that any possible deformation of the circumferential first wall is restored after the force for generating the deformation is removed. In order to increase the rigidity of the capsule 2, the capsule 2 may comprise reinforcing ribs integrally formed with the circumferential first wall 14. The reinforcing ribs may extend from the first end 18 to the second end 22. Alternatively, or additionally, the reinforcing ribs may extend in the circumferential direction. When the second wall 16 is formed integrally with the circumferential first wall 14, the reinforcing ribs may also be formed integrally with the second wall 16.

However, the circumferential first wall may be constituted by a flexible sheet, preferably integral with the second wall. Thus, the entire capsule may be substantially made of flexible sheet, reducing the amount of material needed to provide the capsule. Optionally, at least one rim 40, 42 may be substantially rigid to enhance ease of handling of the capsule.

In an example, the circumferential first wall is substantially cylindrical. It is to be understood that the capsule according to the invention is not limited to this shape. The circumferential first wall may be, for example, frustoconical, hemispherical, or polygonal, such as hexagonal, octagonal, etc.

According to a further aspect of the invention, the extractable product in the inner space 24 is pressed. Fig. 5a shows an example in which the extractable product is pressed into a plurality of (in this example four) pieces 58, 60, 62, 64. In fig. 5a, the tablets are stacked within the interior space 24. In fig. 5a, each nub 58, 60, 62, 64 spans substantially the entire cross-section of the inner space 24 of the capsule 2. In this example, the density (i.e., the degree of compaction) of each nub is different from each other. The density of the nubs 58, 60, 62, 64 increases in a direction from the second wall 16 to the third wall 20. This has the following advantages: the fluid wets the low density pieces more readily than the high density pieces, so that each upstream piece is sufficiently wetted when the water wets a subsequent downstream piece. Thus, a highly uniform wetting of the extractable product is achieved. This example shows four stacked tiles, but it should be understood that any number of tiles may be employed. In a modified embodiment, a separator can be inserted between two adjacent small blocks. The separator sheet may be porous and/or perforated. The separator can be, for example, a plastic foil provided with openings. The separator sheet may also be a sheet of woven or non-woven sheet filter material (e.g., filter paper).

Fig. 5b shows an example of a capsule 2 of compressed extractable product comprising a single piece 66. In the example shown in fig. 5b, the nub 66 includes an aperture 68 extending into the nub 6 in the direction of the third wall 20 from the side of the nub 66 toward the second wall 16. The length of the hole 68 is less than the thickness of the nub 66 in the direction of the hole 68. Thus, the pores 68 do not form a shortcut for fluid to pass through the nubs 66, but provide a passage for fluid to flow to the core of the nubs 66.

These holes 68 allow the fluid to penetrate the tablet to a predetermined degree of penetration. Thus, a preferred wetting of the pressed extractable product can be achieved.

In the example shown in fig. 5a and 5b, the second wall 16 and the third wall 20 of the capsule are substantially as shown in fig. 3 c. It will be appreciated that the block 66 or blocks 58, 60, 62, 64 may be used with any of the capsules 2 described above. It will also be appreciated that if the extractable product is pressed into small pieces, there are no strict requirements on the second wall 16 of the capsule, since the extractable product is unlikely to spill out of the capsule 2 before use.

In the foregoing specification, the invention has been described with reference to specific examples of embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention as set forth in the appended claims.

For example, the capsule 2 may be contained in an airtight package before use to extend shelf life.

For example, the capsule 2 may be made of a biodegradable material.

In an example, the third wall is a substantially uniform porous and/or perforated sheet. The porosity and/or perforation distribution can also be non-uniform. For example, only a part of the third wall may be made porous. Additionally, the porous sheet may be covered, coated or impregnated, for example, with a non-porous material. It is also possible to provide only a part of the third wall with perforations. Such a porous and/or perforated portion may, for example, be a central portion or an annular portion of the third wall. It is also possible to provide the first part of the third wall with a porous shape and the second part of the third wall with a perforated shape.

In an example, the second wall has a substantially uniform porosity and/or perforations. The porosity and/or perforation distribution can also be non-uniform. For example, only a part of the second wall may be made porous. Additionally, the porous material may be covered, coated or impregnated, for example, with a non-porous material. It is also possible to provide only a part of the second wall with perforations. Such a porous and/or perforated portion may, for example, be a central portion or an annular portion of the second wall. It is also possible to provide the first portion of the second wall with a porous shape and the second portion of the second wall with a perforated shape.

As an example of a practical embodiment of the capsule according to the invention, the following features may be applied to the capsule. The circumferential first wall may be substantially frustoconical and sized to: the axial length is about 24 mm, the outer diameter of the first end is about 25 mm, and the outer diameter of the second end is about 30 mm. Whether or not such a truncated cone shape is used, one or both of the circumferential first and second walls may be made of polypropylene with a wall thickness, and furthermore may be locally varied, for example with reinforcing ribs in the range 0.5 mm to 0.9 mm, preferably 0.65 mm to 0.75 mm, more preferably 0.7 mm. The second wall may be integrally formed with the circumferential first wall.

However, other modifications, changes, and substitutions may be made. The specification, drawings and examples are, accordingly, to be regarded in an illustrative rather than a restrictive sense. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word 'comprising' does not exclude the presence of other elements or steps than those listed in a claim. In addition, the words 'a' and 'an' should not be construed as limited to 'only one', but should mean 'at least one', and do not exclude a plurality. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

Claims (45)

1. A system for preparing a predetermined quantity of beverage suitable for consumption using an extractable product, comprising:

an exchangeable capsule; and

an apparatus comprising a fluid dispensing device for supplying an amount of fluid to the exchangeable capsule at a pressure of at least six bar and a reservoir for holding the exchangeable capsule,

wherein the exchangeable capsule comprises:

a circumferential first wall;

a second wall closing the circumferential first wall at a first end; and

a flexible sheet-like perforated and/or porous third wall closing the circumferential first wall at a second open end opposite the second wall,

wherein the circumferential first wall, the second wall and the third wall enclose an inner space containing the extractable product,

wherein the third wall forms an outermost boundary of the exchangeable capsule in an axial direction of the exchangeable capsule, an

Wherein the third wall comprises filter paper or non-woven filter material,

wherein the fluid dispensing device is arranged for providing fluid to the extractable product through the second wall at a pressure of at least 6 bar for forming a beverage; and is

Wherein the reservoir comprises a support surface against which the third wall is arranged to abut such that the prepared beverage is drained from the exchangeable capsule through the third wall and the support surface,

characterized in that the support surface comprises a channel-shaped recess in a side facing the third wall for draining the prepared beverage from the exchangeable capsule through the recess, and in that the support surface comprises a raised ridge between the channel-shaped recesses against which the third wall abuts in use,

the support face comprises an abutment region for abutment with the third wall, which abutment region has a convex shape except for a local depression and/or a local projection therein, and

the second wall is composed of:

a flexible porous sheet;

a flexible foil provided with a plurality of inlet openings, or

Wherein the second wall is substantially rigid and comprises a plurality of inlet openings.

2. The system of claim 1, wherein the fluid is water.

3. The system of claim 1, wherein the flexible porous sheet is a filter paper sheet.

4. The system of claim 1, wherein the flexible foil is a polymer film.

5. The system according to claim 1, wherein the ridge and the third wall are adapted to each other such that the third wall does not tear or rupture in use due to the ridge.

6. System according to at least any one of the claims 1-5, wherein the third wall is adapted to the ridge such that the third wall does not tear or rupture in use due to the ridge.

7. A system according to any of claims 1 to 5, wherein the raised ridge forms at least 10% of a portion of the support face which, in use, coincides with a portion of the surface area of the third wall which overlaps the second open end.

8. The system of claim 7, wherein the ridges form at least 25% of the portion of the support surface.

9. The system according to any one of claims 1 to 5, wherein, in use, at least 10% of a portion of the surface area of the third wall that overlaps the second open end, the third wall is supported by the ridge.

10. The system of claim 9, wherein, in use, the third wall is supported by the ridge over at least 25% of a portion of a surface area of the third wall that overlaps the second open end.

11. The system of any one of claims 1-5, wherein the ridge comprises an edge, wherein the edge is non-sharp.

12. The system of claim 11, wherein the edge has a radius of curvature of at least 50 μ ι η.

13. The system of claim 12, wherein the edge has a radius of curvature of at least 100 μ ι η.

14. The system of any one of claims 1 to 5, wherein the ridges have a convex top.

15. The system according to any one of claims 1 to 5, wherein the third wall has a sufficiently high tear strength and/or forms a sufficiently low flow resistance such that the third wall does not tear and/or rupture in use and remains intact.

16. System according to any one of claims 1-5, wherein the exchangeable capsule is free of a support structure for supporting the third wall downstream of the third wall.

17. System according to any of claims 1-5, wherein the third wall is provided with a plurality of outlet openings.

18. The system of claim 17, wherein the plurality of outlet openings are distributed across an entire surface of the third wall.

19. The system of any one of claims 1 to 5, wherein the second wall is perforated and/or porous.

20. The system of claim 19, wherein the second wall has a sufficiently high tear strength and/or forms a sufficiently low flow resistance that the second wall does not tear and/or rupture and remains intact in use.

21. The system according to claim 20, wherein the plurality of inlet openings are distributed over the entire surface of the flexible foil or the second wall, respectively.

22. System according to any one of claims 1-5, wherein the exchangeable capsule is provided with a plurality of side entrance openings arranged in the circumferential first wall.

23. The system of claim 22, wherein the inlet opening and/or the side inlet opening has a circular cross-section.

24. The system of claim 23, wherein the cross-section of the inlet opening and/or the side inlet opening tapers towards the interior space.

25. The system of claim 22, wherein the inlet opening and/or the side inlet opening is a slit.

26. The system of claim 22, wherein the inlet opening and/or the side inlet opening are arranged to open under fluid pressure.

27. System according to any one of claims 1 to 5, wherein the entire internal space is occupied by the extractable product.

28. The system of any one of claims 1 to 5, wherein the second wall is integrally formed with the circumferential first wall.

29. System according to any of claims 1-5, wherein the exchangeable capsule comprises an inwardly extending rim, wherein the second wall or the third wall is attached to the inwardly extending rim.

30. System according to any of claims 1-5, wherein the exchangeable capsule comprises an outwardly extending rim, wherein the second wall or the third wall is attached to the outwardly extending rim.

31. System according to any one of claims 1 to 5, wherein the second wall and/or the third wall extends to the circumferential first wall.

32. System according to any one of claims 1-5, wherein the exchangeable capsule further comprises a bottom seal at least partly detachably connected to the second wall for sealing the entrance filter before use.

33. System according to any of claims 1-5, wherein the exchangeable capsule further comprises a cover seal at least partly detachably connected to the third wall for sealing the third wall before use.

34. The system of claim 33, wherein the cap seal is configured to partially detach from the third wall under fluid pressure in the interior space while remaining attached to the third wall in at least one position.

35. System according to any one of claims 1-5, wherein the exchangeable capsule comprises reinforcing ribs integrally formed with the circumferential first wall.

36. The system of any of claims 1-5, wherein the circumferential first wall is cylindrical, hemispherical, frustoconical, or polygonal.

37. The system of claim 36, the polygon being a hexagon or an octagon.

38. System according to any one of claims 1 to 5, wherein the extractable product comprises roast and ground coffee.

39. System according to any one of claims 1 to 5, wherein the extractable product is pressed into a tablet.

40. The system of claim 39, wherein the nub includes at least one aperture extending from a side of the nub toward the second wall in a direction of the third wall.

41. System according to any one of claims 1 to 5, wherein the extractable product is pressed into a plurality of pieces.

42. The system of claim 41, wherein the plurality of nubs differ from each other in compaction density.

43. The system of any of claims 1-5, wherein the circumferential first wall is rigid.

44. Method for preparing a predetermined quantity of beverage suitable for consumption using a system according to any one of the preceding claims, comprising:

providing the exchangeable capsule of the system;

providing the device of the system;

arranging the exchangeable capsule such that the third wall abuts the support face of the reservoir; and

providing the fluid to the extractable product at a pressure of at least 6 bar to prepare the beverage.

45. The method of claim 44, wherein:

the reservoir comprises second wall piercing means for piercing a second wall of a replaceable capsule for forming at least one entrance opening for supplying the fluid to the extractable product through the at least one entrance opening; and is

The second wall of the exchangeable capsule comprises an entrance filter for supplying the fluid to the extractable product therethrough, the entrance filter being positioned, in use, at a distance from the second wall piercing means such that the second wall piercing means does not pierce the exchangeable capsule of the system and leave the second wall intact.