COFFEE CAPSULE

Abstract

A coffee capsule is configured to receive roasted and ground coffee and is suitable for preparing an espresso beverage using pressurised hot water in an espresso machine. It includes a capsule part and a membrane attached thereto. The capsule part is a frustoconical plastics part with a conical side wall and has a top part with a retaining plate integrally formed on the small frustoconical diameter. The retaining plate has at least one perforation zone with perforations that permit the entry of hot water into the coffee capsule. The retaining plate has a contact surface to which an aroma-protection foil completely covering the at least one perforation zone may be attached.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application claims priority to currently pending Swiss Patent Application Serial No. CH-00246/13, filed Jan. 21, 2013.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable.

FIELD OF THE INVENTION

The invention relates to a coffee capsule that includes a capsule part and a membrane attached thereto, the coffee capsule being configured to receive roasted and ground coffee and being suitable for preparing an espresso beverage using pressurised hot water in an espresso machine.

BACKGROUND

The invention relates, in particular, to a coffee capsule in which the capsule part is a plastic frustoconical part with a conical side wall and in which a top part with a retaining plate integrally formed on the small frustoconical diameter is present. In this case, the retaining plate has at least one perforation zone with perforations which permit the entry of hot water into the coffee capsule. The aforementioned membrane is tearable and is attached to a flange integrally formed on the large frustoconical diameter and covers the capsule part on the outlet side.

For over 20 years, Nestlé SA has successfully sold portion packs by which coffee is able to be extracted under pressure in espresso machines. Said portion packs are known in several shapes but conical capsules have particularly dominated the market. The machines available therefor have a so-called brewing chamber, which substantially corresponds to the shape of the capsule. The capsules are retained in the machine in a clamped and sealed manner, whereupon a plurality of injection needles or tearing spikes on the top part penetrate the capsule and whereby pressurised hot water enters the capsule. The membrane attached to the other end is torn in a grid-like pattern under pressure on puncture teeth on a counterpressure plate in the espresso machine, and thus the espresso beverage is effectively able to flow out through a sieve.

After various patents relating to said capsules have expired in the meantime, rival capsules have now come onto the market. Such rival capsules are designed such that they are able to be used in a compatible manner for espresso machines that already are available.

For ecological reasons and also for economic reasons, the compatible capsules that are currently on the market consist of plastics. This means that the capsules have to be designed so that the injection needles on the machine side do not come into contact with the portion pack made of plastics as the hot injection needles would cause the plastics capsules to be fused thereon, which would lead to the injection needles sticking together and thus would result in the outlet openings of said injection needles becoming blocked. The spikes heated by the hot water would soften the plastics material, and said plastics material would surround the spikes in a sealed manner and prevent the correct inflow of water. The plastics residue remaining on the spikes additionally leads to the spikes becoming blunt which over time would no longer be capable of functioning. Accordingly, said capsules are either generally lower in height than the original capsules from Nestlé SA or they have a suitable annular groove.

A further problem is the aroma preservation in alternative coffee capsules. In the original capsules from Nestlé SA, the ground coffee contained in the coffee capsule is enclosed on all sides by an aluminium wall. This is advantageous for long-term storage and for the preservation of the coffee aroma, but is complex and costly due to the aluminium used. In order to avoid the risk of infringement of protection rights in capsule systems which are closed on all sides, therefore, measures have been taken to market compatible capsules made of plastics material that are no longer closed on all sides but reliably enclose the ground coffee contained in the capsules, albeit not in an airtight manner. Naturally, further measures are required for the long-term storage and for ensuring the aroma preservation in such capsules.

One of the options used for ensuring the quality and the aroma preservation is, therefore, to pack capsules made of plastics, which are compatible but which are no longer closed on all sides, either individually or in small portions additionally in individual airtight and aroma-preserving sachets. Such a solution is, for example, disclosed in EP-0 524 464.

Solutions with removable protective covers also are known in principle, for example from DE-202005021160-U1. This disclosure relates to a multipart portion capsule in which individual capsule components, such as for example a cover to be punctured, consist of a gastight multi-layered composite material with thermoplastic polymer components. On the outlet side, a removable foil also consisting of the gastight multi-layer composite material is provided. Due to the composite material provided, therefore, in principle the above-mentioned problem is also present here with the injection needles, which tend gradually to become blocked. This solution is, therefore, unsuitable for Nespresso-compatible capsules made of plastics material as it is desirable to avoid any puncturing of the plastics parts.

SUMMARY OF EMBODIMENTS OF THE INVENTION

Aspects and advantages of the invention are set forth below in the following description, or may be obvious from the description, or may be learned through practice of embodiments of the invention.

It is, therefore, a principal object of the invention to specify a Nespresso-compatible coffee capsule that includes the largest possible proportion of plastics, in which materials that would impair the water injection function need not be punctured and in which the capacity for long-term storage and the preservation of the coffee aroma are nevertheless ensured. In satisfying this object, the invention is in no way restricted from solving additional problems encountered in the art.

In adapting the solution of the present invention to a generic coffee capsule with a capsule part made of plastics, the solution provides a retaining plate having a contact surface to which an aroma-protection foil, which completely covers the at least one perforation zone that is present in the coffee capsule, is able to be attached on the inlet side of the capsule.

Preferably, in this case the contact surface is an annular surface, which is attached to an annular projection integrally formed on the retaining plate. This facilitates the production due to the simplicity of shape. Although there is no requirement for an annular surface, it must be a contact surface based on an enclosed line.

The object, namely a Nespresso-compatible coffee capsule with the largest possible proportion of plastics material, may be achieved by such a design, i.e. with a capsule part made of plastics with, for example, an aroma-preserving coating sprayed on the inside or outside, a thin tearable (outlet) membrane made of aluminium or similar-acting material and an aroma-protection foil also consisting of coated plastics. Before use, only the aroma-protection foil has to be removed. There is no risk of soiling or blockage of the injection needles. Alternatively, an aroma-protection foil made of aluminium may also be connected fixedly to the contact surface. Thus, there is no longer a requirement for prior removal of the aroma-protection foil, as there is also no risk of soiling or blockage of the injection needles.

BRIEF DESCRIPTION OF THE DRAWINGS

A full and enabling disclosure of the present invention, including the best mode thereof to one skilled in the art, is set forth more particularly in this specification, including reference to the accompanying figures, in which:

FIG. 1 shows a side view of a coffee capsule according to the invention, and

FIG. 2 shows a partial section through the top part of a coffee capsule according to FIG. 1.

DETAILED DESCRIPTION OF THE EMBODIMENTS OF THE INVENTION

Reference will now be made in detail to present embodiments of the invention, one or more examples of which are illustrated in the accompanying drawings. The detailed description uses numerical and letter designations to refer to features in the drawings. Like or similar designations in the drawings and description have been used to refer to like or similar parts of the invention.

Each example is provided by way of explanation of the invention, not limitation of the invention. In fact, it will be apparent to those skilled in the art that modifications and variations can be made in the present invention without departing from the scope or spirit thereof. For instance, features illustrated or described as part of one embodiment may be used on another embodiment to yield a still further embodiment. Thus, it is intended that the present invention covers such modifications and variations as come within the scope of the appended claims and their equivalents.

FIG. 1 shows a side view of a coffee capsule 1 according to the invention. The coffee capsule 1 consists substantially of a capsule part 2 with an annular flange protruding laterally and a membrane 3, which is attached to the flange and seals the coffee capsule 1 but which is tearable. The capsule part 2 is a frustoconical plastics part with a conical side wall 4 and a top part 5 with a retaining plate 6 integrally formed on the small frustoconical diameter, The retaining plate 6 has at least one perforation zone with perforations 7 (see FIG. 2) which permit the entry of hot water into the coffee capsule. An aroma-protection foil 8 completely covering the at least one perforation zone is attached to the retaining plate 6.

FIG. 2 shows a partial section through the top part 5 of the coffee capsule 1 according to FIG. 1. The retaining plate 6 has an internal concentric annular groove 9 into which the aforementioned injection needles of the espresso machine are able to protrude, without coming into contact with the plastics material of the retaining plate 6. The retaining plate 6 also has an integrally formed, annular, external and also concentric projection 10 with a contact surface which is configured as an annular surface 11. The retaining plate 6 also has the aforementioned perforations 7, in this case in a first internal perforation zone in the vicinity of the center and in a second external perforation zone in the vicinity of the projection. The through-holes of the perforations 7 are distributed in a circular manner in both perforation zones. The aroma-protection foil 8 is attached to the annular surface 11 of the projection 10, The aroma-protection foil 8 may, depending on the choice of material, be fixedly or removably attached to the annular surface 11. The aroma-protection foil 8 is attached such that all perforation zones present are covered and thus forms reliable aroma protection in the region of the retaining plate 6.

The retaining plate 6 and the contact surface may, however, also be configured differently. It has already been mentioned in the introduction that the coffee capsule 1 may also have a lower overall height than the original capsules from Nestlé SA. In this case, the annular groove 6 present in the example shown may be either smaller or even be entirely dispensed with. On the other hand, the contact surface 11 itself also may have a different shape. In order to achieve a complete covering of the perforation zone(s) present, only a correspondingly shaped piece is required for the aroma-protection foil 8. This could, for example, also be rectangular with perforations 7 arranged in a rectangular manner.

The aroma-protection foil 8 may be securely attached to the contact surface 11, for example by welding or adhesive. If the aroma-protection foil 8 consists of aluminium or a different material having no negative effect on the injection needles over a long period, this solution may readily be taken into consideration. If the aroma-protection foil 8, however, consists of a plastics material, it may be attached releasably and/or removably to the contact surface 11, for example by adhesive bonding. In this case, a pull tab 12 may be present on the aroma-protection foil 8. If the aroma-protection foil 8 is thus made of plastics material, for improving the aroma preservation it may, for example, be provided with a vapour-deposited aluminium coating.

In order to ensure or to improve the capacity for long-term storage and aroma preservation of the coffee, the remaining components of the coffee capsule 1, namely the frustoconical capsule part 4 and the membrane 3, may also be naturally provided with aroma-preserving properties. In this case, the aroma-preserving properties also may be achieved in a similar manner to the aroma-protection foil 8 by a suitable coating of the frustoconical capsule part 4 and/or the membrane 3. Coatings in this case may applied to the inside or outside of the frustoconical capsule part 4 and/or the membrane 3, for example also by being sprayed on.

Claims

1. A coffee capsule, comprising:

a. a capsule part including a frustoconical plastics part with a conical side wall and a top part with a retaining plate integrally formed on the small frustoconical diameter;

b. a membrane attached to the capsule part, the capsule part and membrane being configured to receive roasted and ground coffee and being suitable for preparing an espresso beverage using pressurised hot water in an espresso machine;

c. wherein the retaining plate having at least one perforation zone defining perforations therethrough, said perforations being configured to permit the entry of hot water into the coffee capsule, wherein the retaining plate having a contact surface; and

d. an aroma-protection foil attached to the contact surface of the retaining plate and configured and disposed to completely cover the at least one perforation zone.

2. The coffee capsule according to claim 1, wherein the contact surface is an annular surface formed on an annular projection integrally formed on the retaining plate.

3. The coffee capsule according to claim 1, wherein the aroma-protection foil is an aluminium foil which is able to be punctured.

4. The coffee capsule according to claim 2, wherein the aroma-protection foil is an aluminium foil which is able to be punctured.

5. The coffee capsule according to claim 1, wherein the aroma-protection foil is removably attached to the contact surface and has an integrally formed pull tab.

6. The coffee capsule according to claim 2, wherein the aroma-protection foil is removably attached to the contact surface and has an integrally formed pull tab.

7. The coffee capsule according to claim 1, wherein the frustoconical capsule part and the membrane have aroma-preserving properties.

8. The coffee capsule according to claim 2, wherein the frustoconical capsule part and the membrane have aroma-preserving properties.

9. The coffee capsule according to claim 3, wherein the frustoconical capsule part and the membrane have aroma-preserving properties.

10. The coffee capsule according to claim 4, wherein the frustoconical capsule part and the membrane have aroma-preserving properties.

11. The coffee capsule according to claim 5, wherein the frustoconical capsule part and the membrane have aroma-preserving properties.

12. The coffee capsule according to claim 6, wherein the frustoconical capsule part and the membrane have aroma-preserving properties.

13. The coffee capsule according to claim 7, further comprising a coating having aroma-preserving properties and applied to the frustoconical capsule part and/or the membrane.

14. The coffee capsule according to claim 8, further comprising a coating having aroma-preserving properties and applied to the frustoconical capsule part and/or the membrane.

15. The coffee capsule according to claim 9, further comprising a coating having aroma-preserving properties and applied to the frustoconical capsule part and/or the membrane.

16. The coffee capsule according to claim 10, further comprising a coating having aroma-preserving properties and applied to the frustoconical capsule part and/or the membrane.

17. The coffee capsule according to claim 11, further comprising a coating having aroma-preserving properties and applied to the frustoconical capsule part and/or the membrane.

18. The coffee capsule according to claim 12, further comprising a coating having aroma-preserving properties and applied to the frustoconical capsule part and/or the membrane.

19. The coffee capsule according to claim 13, wherein the coating is sprayed onto the inside of at least one of the frustoconical capsule part and the membrane.

20. The coffee capsule according to claim 13, wherein the coating is sprayed onto the outside of at least one of the frustoconical capsule part and the membrane.