The present invention relates to a process, a device and a single serve capsule for the preparation of beverages. More particularly, the invention relates to a method, a device and a single serve capsule for the preparation of beverages such as carried out in machines provided with a dispensing group intended for receiving a capsule of food preparation in order to obtain hot beverages such as coffee, cappuccino, tea or the like. The food preparation can be a soluble preparation or a product to be brewed such as ground coffee, tea and herbal remedies.
Within the known types of machines, the assemblies intended for the preparation and the dispensing of beverages generally comprise a dispensing device having a seat receiving a single serve capsule.
Since the single serve capsules are originally sealed in order to prevent the soluble preparation from contacting the atmosphere and from leaking out during manipulation, the dispensing device is generally provided with a puncturing member or other means that opens one or more holes in at least one wall of the capsule, e.g. outlet holes on its bottom to provide an outlet for the beverage. In some cases an inlet hole for the liquid used to make the beverage (that is usually hot water) is also obtained at this step.
Once the capsule is positioned in the housing of the dispensing device and an exit for the beverage has been provided, hot pressurized water is fed to the capsule, through one or more inlet holes, to form a beverage, consisting of an infusion, dispersion or solution of the ground or soluble preparation in water. The beverage is then dispensed through the bottom outlet opening or hole. WO02/076270 discloses this type of embodiment.
Alternatively, as disclosed e.g. in EP 1243210, the capsule is located in its seat and pressurized hot water is fed inside the capsule to deform outwardly the bottom wall; a piston member pushes inwards a outlet lid provided on the bottom wall to form a permanent outlet for the beverage, the outlet lid being able to remain open also at the end of the dispensing step.
A good dispensing group must ensure complete and uniform solubilisation (or suspension/dispersion) of the whole product or of those parts of the product that upon brewing or infusion are solubilized into the hot water and a good final appearance of the beverage; for coffee and cappuccino, a good final appearance means having a “froth”, i.e. a layer of foam made of small bubbles, which is lasting and in an appreciable amount. This result is difficult to obtain because the shape and size of the capsules are the same for all the dispensable products, whereas the amount of soluble product provided within a capsule changes according to its nature. For example, 1.5 grams of product are provided when the beverage to be dispensed is espresso coffee from a soluble espresso preparation, about 3.0 grams for tea leaves, about 6.5 grams when the product is ground coffee, and 15-16 grams, or more, of product are provided within the same capsule when the beverage is soluble hot-chocolate or cappuccino. This difference in quantities is reflected in the possible difficulty in consistently obtaining the required amount and quality of foam for each beverage.
Another problem with the known dispensing groups, particularly when milk-based soluble products are treated, is to ensure the hygiene of the group; this results into the requirement of avoiding the presence of small-sized cross-sectioned supply conduits and tubes (less than about 2 mm) because films and residues may be formed therein. Unfortunately, it appears that these small-sized conduits may be very useful to provide the required foam.
Previously mentioned patent application WO02/076270 in the name of the same applicant (incorporated herein by reference) describes a dispensing assembly wherein the puncturing member or piston acts as a means of opening a substantially circular portion on the capsule bottom. The diameter ratio of the piston and circular portion on the capsule bottom results in a throttling enabling to achieve good dispensing and production of foam or “froth”.
It has however been observed that variations in the results are obtained depending on the products and the doses used and hence a need exists of having uniform results with the above described dispensing groups.
US Pat. Appl. 2003/00056661 to Hu et. al. and the corresponding application WO 02/080744 (corresponding to above mentioned EP 1243210) to Societé des Produits Nestlé describe a soluble product dispensing method wherein the outlet lid element open by the puncturing member is plastically deformed in such a position as to create a passage having reduced dimensions, i.e. a throttling, for the liquid outflow from the capsule. These dimensions remain constant over time while dispensing the beverage and at the end of the dispensing step the lid is open. In order to improve the formation of foam, the puncturing member is provided with channels having a cross section of less than 2 mm; alternatively, the channels are formed on the capsule, between two adjacent walls and in contact therewith.
This embodiment has drawbacks in that it does not operate in a reproducible and constant way and suffers from the above described problems regarding the blockage of the channels and their possible contamination with bacteria due to the formation of films and accumulations of residues within the channels. Furthermore, the capsule is complex and expensive to manufacture in view of the way the outlet lid is obtained within the bottom wall.
Therefore, a need exists for an improved beverage dispensing system, particularly for soluble beverages, which allows to obtain the required beverage and the required amount of foam, in a simple, hygienic and economical way.
The object of the present invention is to solve the aforementioned problems and to ensure constant and optimal results, from the point of view of the quality of the dispensed beverage.
Another object is to provide a capsule and a capsule-supporting assembly that have no hygiene problems.
This object is achieved by the present invention by means of a method for the preparation of a beverage from food preparations comprising the steps of:
The opening area is corresponding to the flow section of the beverage.
Variation of the dispensing area occurs following the step of forming the dispensing opening, i.e. after an opening has been formed. In order to avoid the use of mechanical means to change the dispensing area, which would once again give rise to the aforementioned problems of blockage, fouling and “cross-contamination” by different products, the invention advantageously provides that said adjustment of the dispensing opening area is obtained by means of the pressure generated within said capsule by the liquid fed into the said capsule. The opening can be formed from outside towards inside or viceversa. In the first case a puncture member faces an outlet lid portion of the bottom of the capsule inside the capsule, in the second case the opening lid portion of the bottom is pushed outwards by the build-up of pressure within the capsule.
In both cases first a passage, i.e. an opening, is obtained in the bottom wall. This opening is then enlarged by the action of pressure exerted by the water pumped into the capsule. Because the opening area has been increased, a greater amount of liquid flows through the opening and the pressure within the capsule decreases. The consequence of the pressure decreasing is that because of the bottom wall material and/or design, the bottom wall moves back to an at least partially closed position, generally towards its initial position, i.e. the opening area becomes smaller (decreases).
This decrease of the opening area will result in a further increase of pressure and the cycle will be repeated until the water is no longer pumped into the capsule. In one preferred embodiment, decreasing and subsequently increasing of said dispensing area is provided.
A further object of the invention is a capsule for implementing the method according to the invention, comprising a capsule body, a dispensing wall and a wall outlet lid portion which is openable to form a dispensing opening for said beverage, characterised by comprising means for varying said dispensing opening area during the step of dispensing the beverage from said capsule.
In a preferred embodiment, the means for varying said dispensing opening comprise hinge means provided on the capsule wall where said opening is formed, and located between said dispensing opening and the capsule body in order to impart an oscillating movement to said wall during said dispensing step.
According to one aspect of the invention, such “hinge” is obtained by having different thicknesses of the dispensing wall: in particular, the thickness in the area surrounding and adjacent to the dispensing opening is greater than the thickness of the same wall adjacent to the side walls i.e. adjacent to the capsule body.
A further object of the invention is a capsule wherein at least part of the dispensing wall has a rigidity within the range of 5 to 60 N/mm measured by compression with a punch and the deflection set to 3 mm; with these values, a wall elasticity is obtained which enables the required movement.
According to another preferred aspect of the invention, in addition or alternatively to the above mentioned characteristics, the capsule of the invention provides that said hinge is located at the portion and that it is elastically deformable, i.e. that such outlet lid portion, is biased by the hinge to return to a substantially closed position as pressure within the capsule has decreased. The outlet lid may be open either inwardly or outwardly to the capsule. Thus, the hinge means acts elastically or visco-elastically to control the flow of the beverage as if a valve means is provided in the capsule: the area of the opening 11 increases and decreases with the increase or decrease of the pressure in the capsule, even if and when there is no direct or proportional correlation between pressure and opening area 11.
It is a further object of the invention a device for preparing beverages characterised according to claim 17.
According to a further aspect of the invention, the capsule is provided with filter means to retain the ground, spent, coffee, tea or other product, within the capsule upon brewing a beverage. In an embodiment of the invention the filter is spaced from the bottom wall by means of a spacer.
Further characteristics and advantages of the present invention will be better understood from the following non-limiting description, with reference to the accompanying drawings, wherein:
In the embodiment disclosed in enclosed
The outlet lid portion 1b is obtained on capsule 1 by defining a fracture line 3 and a hinge 4 on the bottom of the capsule 1.
According to the invention, the capsule has means for varying the dispensing opening area, i.e. for increasing and decreasing the dispensing cross sectional area so as to vary the outflow of beverage from the capsule. Such adjustment is obtained by making use of the pressurising action exerted by the liquid on the capsule wall F after dispensing step is started and the water is pumped into the capsule. During the initial, “closed-capsule” step, for example when the capsule bottom wall is adhering to the piston or the outlet lid portion is still integral with the bottom wall F, the pressure within the capsule increases: once a sufficient pressure value is reached, a dispensing opening is formed through which the product is partially dispensed. The opening area increases to a maximum value. According to the invention, at this point the pressure within the capsule decreases, as well as the beverage dispensing area; this decrease leads to a new increase in pressure which in turn results in a new increase of the opening area.
In the disclosed embodiment both outlet lid part 1b of capsule 1, and fracture line 3 are circular; they may nevertheless have different shapes, for example ellipsoidal or with other kinds of fracture lines 3, depending on the type of piston used, the shape to be obtained for the opening in the bottom of capsule 1 and the type of dispensing opening to be obtained between the piston and the capsule wall F. In particular, according to an embodiment of the invention such opening is only present during dispensing: in this case reference is made to “zero or negative interference” between the piston and opening 1b, i.e. the piston portion which is engaged by the opening has a cross sectional area which is substantially equal to or greater than that of the opening. By “substantially equal cross section” is meant that at most the total air gap between the piston and the bottom of the capsule is about 1.0 mm and is preferably within the range of 0.01 to 0.5 mm.
In accordance with this embodiment, the puncturing member 9 is slightly larger than opening 1b. In particular, with a cylindrical puncturing member and a circular opening 1b the ratio D1/D2, wherein D1 is the diameter of the cylindrical member where it engages the bottom wall F and D2 is the diameter of opening 1b, is within the range of 1.0 to 1.067, preferably within 1.01 to 1.03. In a preferred embodiment the difference between the puncturing member and the dispensing opening diameters is at most 2.0 mm, preferably 1.1 mm and more preferably between 0.05 and 0.8 mm. This means that soon after the puncturing member has been fitted into the dispensing opening there occurs what is shown in
When a liquid is fed into the capsule, generally with a substantially constant flow rate, by means of a dispensing apparatus pump, pressure inside the capsule increases because a dispensing opening is not provided; as the pressure value increases the dispensing wall F deforms outwardly to the capsule, eventually producing (
The additional liquid fed into the capsule causes the pressure therein to increase again until a wider opening area and increased beverage dispensing flow rate are obtained and the condition of the capsule is similar to the previous one, outlined in
It has been found particularly advantageous that at least the dispensing wall of the capsule, i.e. the bottom wall F, has a rigidity within the range of 5 to 60 N/mm measured by compression with a punch and deflection set to 3 mm. Preferred rigidity ranges are 10 to 50 N/mm and 20 to 45 N/mm. The above mentioned rigidity is measured as shown in
Capsule 1, without outlet lid portion 1b, is placed upside down on the rigid plane of a dynamometer; the bottom F is assimilated with a membrane with a central perforation. The measurement of rigidity is carried out by using a metallic punch 6 comprising a lower cylindrical portion 6a having a diameter corresponding to the nominal diameter of the opening obtained by removing the bottom piece 1b, and an upper cylindrical portion 6b with a diameter 2 mm greater than the diameter of portion 6a. Thus, punch 6 is centred on the opening in the capsule bottom wall F and engages this wall F by a circular crown of 1 mm. The measurement is performed on the dynamometer at a test velocity of 2 mm/min at a temperature of 23° C., with deflection set to 3 mm.
As mentioned, the claimed rigidity is within the range of 5 to 60 N/mm, preferably 10 to 50 N/mm and more preferably 20 to 45 N/mm.
Preferably, the dispensing wall F is provided with hinge means.
The hinge means can be implemented in several ways, according to the way the opening in bottom wall F is obtained. In the first embodiment previously disclosed, where a piston opens the outlet lid portion and engages the opening, hinge means are obtained in the bottom wall F.
References 7 and 8 in
This difference in thickness is preferably obtained by increasing or decreasing the thickness value from 7 to 8, but may also be obtained in a discontinuous manner, for example by means of a rib 2 (
It is therefore an object of this invention a capsule as above described, wherein the thickness of said dispensing wall F around said openable outlet lid portion 1b is greater than the thickness of said bottom wall adjacent the capsule side walls.
As above mentioned, the distribution of the thickness values of the bottom is such as to allow, during the beverage dispensing step, an oscillating movement of the wall F without breaking or permanently deforming the bottom wall around opening 1b. Therefore, a further object of this invention is a capsule of the above described type characterised in that it has hinge means allowing alternate inward and outward motion of the dispensing wall, as a function of the pressure within said capsule during beverage dispensing from said capsule.
The position of the hinge substantially corresponds to the point of the bottom F where thickness is lowest, said point, as above specified, is preferably positioned adjacent the side wall L or between said wall and the midpoint between the wall L (
In the embodiment shown, the side wall L of portion 1a connects with the bottom wall of capsule 1, where portion 1b is located, by means of an inner surface 5 shaped according to a curve and preferably, according to a circular arch. The radius of said arch preferably is within the range of 3 to 15 mm and more preferably of 5 to 12 mm.
As mentioned above, a rib 2 is provided outside and close to fracture line 3, with the purpose of having a thicker capsule bottom as described above, and of preventing the bottom of the capsule 1 from being excessively deformed within opening 1b during the opening step of the same by the perforating piston and particularly during the beverage dispensing step. Preferably the rib 2, as in the embodiment shown, completely surrounds fracture line 3; the rib may be more or less wide, but it starts from a position immediately adjacent the edge 3 of the opening 1b to avoid it breaking or deforming during the dispensing step.
In a preferred embodiment, the bottom wall F is entirely concave. Preferably, this concavity is obtained by suitably orienting the wall F to have it converging with side wall L towards the openable lid portion 1b, which is located centrally to the bottom wall.
Angle α0 generally is within the range of 1 to 15 degrees and preferably of 3 to 10 degrees.
Therefore, a further object of this invention is the use of a capsule as above disclosed, with a dispensing group comprising a puncturing member, wherein the size of said puncturing member portion engaging said capsule bottom wall is greater than the size of said openable portion of said bottom wall.
In this embodiment, the dispensing opening is formed by the interaction of the openable outlet lid portion 1b with an opening member 9a located immediately below the capsule, as described in the above mentioned patent application in the name of Societé des Produits Nestlé.
Similarly to the embodiment of
Thus, in this embodiment, the hinge means is the hinge connecting the outlet lid portion 1b to bottom wall F.
As previously mentioned, the capsule of the invention can be used for soluble products or for ground products, i.e. ground coffee, tea, herbal remedies, etc. In this case the capsule is provided with filter means and the openable lid portion can open by sheer pressure from inside to outside or, viceversa, by a puncturing element (piston) from outside to inside the capsule.
The openable lid portion 16 of bottom wall F is defined by breaking lines 18 and hinges 17 that can give the outlet lid any suitable shape; e.g. besides the circular shape of outlet lid 1b above disclosed (shown in phantom lines in
The outlet lid 16 of
This outlet lid (as well as all other outlet lids that are provided in a capsule having a filter unit at its bottom) opens towards the outside, as shown by arrows D in
The filter element is preferably at least slightly spaced from the bottom wall f of the capsule, to provide a volume where the beverage collects before leaving the capsule.
The
The filtering/partition element 13 of
With evident economic advantages, the spacer 24 allows the capsule C to be used both for the preparation of beverages from ground coffee and from soluble products. In the first case (coffee), the capsule C is coupled to the spacer 24 including filter 13, in the second case the capsule C does not comprise the spacer 24 and the internal volume of the capsule may be completely filled with the product 23.
Thus, the spacer 24 including filter 13 may be inserted in the capsule when the capsule C is filled with the product 23. If the amount of product 23 is for example not greater than 10 grams, the spacer 24 is inserted in the capsule and works as a double bottom and filter for the capsule C. If the product is soluble, the container 1 does not contain the spacer.
In this way it is possible to standardize the external dimensions of the capsule C, and vary the internal ones depending on the needs. It has to be noticed that the element for dividing the volume of the capsule may be provided also in the traditional capsules, i.e. independently by the means provided for the opening of the capsule.
Advantageously, spacer 24 allows to encapsulate product 23 according to the most opportune load and/or the compactness grade. In fact the reduction of the convenient volume of the capsule C may be designed to obtain the desired compactness grade for the product 23 in the capsule C.
Number | Date | Country | Kind |
---|---|---|---|
04425042 | Jan 2004 | EP | regional |
PCT/IT2004/000503 | Sep 2004 | WO | international |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/IB2005/000163 | 1/24/2005 | WO | 00 | 8/14/2006 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2005/080223 | 9/1/2005 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5242702 | Fond | Sep 1993 | A |
6810788 | Hale | Nov 2004 | B2 |
20060130664 | Majer Doglioni | Jun 2006 | A1 |
Number | Date | Country |
---|---|---|
1 243 210 | Sep 2002 | EP |
WO 02076270 | Oct 2002 | WO |
Number | Date | Country | |
---|---|---|---|
20090175986 A1 | Jul 2009 | US |