CAPSULE AND MANUFACTURING PROCESS FOR PRODUCING SAID CAPSULE

Abstract

The invention related to a capsule for preparing a beverage comprisinga substantially rigid capsule body having a circumferential sidewall extending around an inner space of the capsule, said inner space being at least partially filled with a beverage ingredient suitable for preparing the beverage, a base wall covering the inner space at a first end of the sidewall, a flange arranged circumferentially around an open side of the capsule at a second end of the sidewall of the base body opposite the base wall, a lid covering the inner space and the open side of the capsule at the second end of the sidewall opposite the base wall and tightly closing the capsule, the lid being removably attached to the flange of the capsule, a filter element positioned in the inner space of the capsule between the beverage ingredient and the lid; anda carrier disk provided in the inner space of the capsule between the lid and the filter, said carrier disk comprising multiple preformed outlet openings suitable for draining the prepared beverage from the inner space outside of the capsule when the capsule is used in the beverage preparation device. According to the invention, the capsule comprises at least one mechanical deformation at the junction or in the vicinity of the junction of the flange and side wall of the capsule, said mechanical deformation retaining the carrier disk inside the inner space of the capsule. The invention also relates to a manufacturing method for manufacturing said capsule and to the use of said capsule.

Claims

1. Capsule for preparing a beverage comprising a substantially rigid capsule body having a circumferential sidewall extending around an inner space of the capsule, said inner space being at least partially filled with a beverage ingredient suitable for preparing the beverage, a base wall covering the inner space at a first end of the sidewall, a flange arranged circumferentially around an open side of the capsule at a second end of the sidewall of the base body opposite the base wall, a lid covering the inner space and the open side of the capsule at the second end of the sidewall opposite the base wall and tightly closing the capsule, the lid being removably attached to the flange of the capsule, a filter element positioned in the inner space of the capsule between the beverage ingredient and the lid; a carrier disk provided in the inner space of the capsule between the lid and the filter, said carrier disk comprising multiple preformed outlet openings suitable for draining the prepared beverage from the inner space outside of the capsule when the capsule is used in the beverage preparation device, and the capsule comprises at least one mechanical deformation at the junction or in the vicinity of the junction of the flange and side wall of the capsule, said mechanical deformation retaining the carrier disk inside the inner space of the capsule.

2. Capsule for preparing a beverage according to claim 1 wherein the at least one mechanical deformation at the junction of the flange and side wall of the capsule is located on the side of the open side of the capsule, opposite the base wall.

3. Capsule for preparing a beverage according to claim 1 wherein the at least one mechanical deformation at the junction of the flange and side wall of the capsule is located on the side of the capsule opposite the open side of the capsule.

4. Capsule for preparing a beverage according to claim 1 wherein the at least one mechanical deformation at the junction of the flange and side wall of the capsule is a deformation by crimping.

5. Capsule for preparing a beverage according to claim 1 wherein the number of mechanical deformations is at least 2.

6. Capsule for preparing a beverage according to claim 1 wherein the mechanical deformations are angularly distributed at the junction of the flange and side wall of the capsule.

7. Capsule for preparing a beverage according to claim 6 wherein the mechanical deformations are equally distributed at the junction of the flange and side wall of the capsule.

8. Capsule for preparing a beverage according to claim 1 wherein the mechanical deformations have rounded crimping imprints.

9. Capsule for preparing a beverage according to claim 1 wherein the capsule body, the lid, and the carrier disk are each mainly made from aluminum.

10. Capsule for preparing a beverage according to claim 1, wherein the lid comprises a free pull tab protruding from the lid.

11. A Method of manufacturing a capsule suitable for preparing a beverage, the method comprises: providing a substantially rigid capsule body having a circumferential sidewall extending around an inner space to be at least partially filled with a beverage ingredient suitable for preparing the beverage, a base wall covering the inner space at a first end of the circumferential well-sidewall and a flange arranged circumferentially around an open side of the capsule at a second end of the sidewall of the base body opposite the base wall, filling the inner space with an amount of the beverage ingredient through the open side of the capsule body opposite the base wall, inserting through the open side of the capsule body a filter in the inner space after filling of the inner space with the beverage ingredient inserting through the open side of the capsule body a carrier disk over the filter in the inner space, optionally the filter and carrier disk being inserted in the inner space of the capsule at the same time, the carrier disk comprising multiple outlet openings through which in use a prepared beverage may flow out of the capsule, closing the open side of the capsule by attaching a lid comprising a pull tab to the capsule flange extending over the open side, the lid closing tightly the capsule; and mechanically deforming the capsule at the junction or in the vicinity of the junction of the flange and side wall of the capsule, said mechanical deformation retaining the carrier disk inside the inner space the capsule.

12. Method of manufacturing a capsule according to claim 11 wherein the step of mechanically deforming the capsule at the junction of the flange and side wall is performed before the step of closing the open side of the capsule with a lid.

13. Method of manufacturing a capsule according to claim 11 wherein the step of mechanically deforming the capsule at the junction of the flange and side wall is performed after the step of closing the open side of the capsule with a lid.

14. Method of manufacturing a capsule according to claim 1 wherein the step of mechanically deforming the capsule at the junction of the flange and side wall is performed on the side of the open side of the capsule, opposite the base wall.

15. Method of manufacturing a capsule according to claim 11 wherein the step of mechanically deforming the capsule at the junction of the flange and side wall is performed on the side of the capsule opposite the open side of the capsule.

16. Method of manufacturing a capsule according to claim 1 wherein the step of mechanically deforming the capsule at the junction of the flange and side wall is performed using a crimping method.

17. Method of manufacturing a capsule according to claim 1 wherein the step of mechanically deforming the capsule at the junction of the flange and side wall is performed using at least one crimping pin.

18. (canceled)

19. Method of manufacturing a capsule according to claim 1 wherein during the step of mechanically deforming the capsule at the junction of the flange and side wall of the capsule, the capsule is deformed in at least 2 points.

20. Method of manufacturing a capsule according to claim 19 wherein the mechanical deformations are angularly distributed.

21. (canceled)

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0063] The invention is further described with reference to the following examples and drawings, which form part of the present invention. The drawings are not in any way meant to reflect a limitation of the scope of the invention, unless this is clearly and explicitly indicated. It will be appreciated that the invention as claimed is not intended to be limited in any way by these exemplary embodiments and illustrations.

[0064] It is noted that the figures are only schematic representations of embodiments of the invention that are given by way of non-limiting example.

[0065] Embodiments of the present invention will now be described, by way of examples, with reference to the accompanying figures in which:

[0066] FIG. 1a is a perspective side view of a capsule tightly closed before use in a beverage preparation device, according to the invention;

[0067] FIG. 1b is a perspective side view of a capsule in which the lid is partially removed, according to the invention;

[0068] FIG. 1c is a perspective side view of a capsule in which the lid has been removed and ready to be used in a beverage preparation device, according to the invention;

[0069] FIG. 2a is a schematic cross-sectional view of a capsule according to a first embodiment of the invention;

[0070] FIG. 2b is an enlarged view of an identified bottom portion of the capsule of FIG. 2a;

[0071] FIG. 2c is a view of the carrier disk of the capsule of FIG. 2a before being assembled in the capsule;

[0072] FIG. 3a is a schematic cross-sectional view of a capsule according to a second embodiment of the invention;

[0073] FIG. 3b is an enlarged view of an identified bottom portion of the capsule of FIG. 3a;

[0074] FIG. 4a is a schematic view of the carrier disk of the capsule of FIG. 2a once assembled in the capsule with 4 crimping points according to the first proposed embodiment;

[0075] FIG. 4b is a schematic view of the carrier disk of the capsule of FIG. 2a once assembled in the capsule with 8 crimping points according to the first proposed embodiment;

[0076] FIGS. 5a and 5b are schematic view of a proposed process for assembling carrier disk in a capsule according to the first and second proposed embodiments;

[0077] FIG. 6a is an enlarged view of an identified bottom portion of a capsule according to a third embodiment of the invention;

[0078] FIG. 6b is a schematic view of a proposed process for assembling carrier disk in a capsule according to a third proposed embodiment; and

[0079] FIG. 7 is a schematic view of a proposed process for assembling carrier disk in a capsule according to an additional proposed embodiment.

DETAILED DESCRIPTION

[0080] As used in this specification, the words comprise, comprising, and similar words, are not to be interpreted in an exclusive or exhaustive sense. In other words, they are intended to mean including, but not limited to.

[0081] Any reference to prior art documents in this specification is not to be considered as an admission that such prior art is widely known or forms part of the common general knowledge in the field.

[0082] FIG. 1a shows a capsule 1 according to the invention before use in a beverage preparation device, defined as storage state. Using the reference of FIG. 2, the capsule 1 of FIG. 1a, comprises a rigid capsule body 2. The body 2 comprises a frusto-conical sidewall 2a extending circumferentially around an inner space of the body. The capsule further comprises a base wall 3 integral with the capsule body 2 closing off the inner space at a first end of the side wall of the capsule body 2. A flange 4 extends radially outwardly from a second end of the side wall of the capsule body 2a. At the second end of the side wall the capsule body 2 has an open filling side.

[0083] As usual, the capsule body 2 is processed to be food grade and in most of the cases comprises a lacquer layer or a polymer film layer (identified as 2b in FIG. 9b) applied on the inside of the capsule body.

[0084] The capsule further includes a lid 5 that is attached to the flange 4 of the capsule body thereby closing hermetically the capsule. The lid 5 may be manually removed from the capsule by pulling on a pull tab 6. In the present case, the pull tab 6 is integral with the lid 5 but alternative solutions are available.

[0085] The lid 5 is a flexible sheet-like foil made of aluminum with an optional lacquer layer or a polymer layer on the sealing side.

[0086] In case the lid 5 comprises a lacquer layer on its sealing side, the thickness of the lacquer layer may be from 0.003 mm to 0.03 mm. In case the lid 5 comprises a polymer layer on the sealing side, the thickness of the polymer layer may be from 0.01 mm to 0.05 mm.

[0087] The lid 5 which is intended to be removed using the pull tab is attached to the flange 4 using an adhesive layer. The adhesive material is applied in the form of a layer of adhesive material and may be, for example, a layer of heat-seal lacquer or a polymer film layer.

[0088] As an example, the sealing layer forming the adhesive material may be a layer between 0.003 mm and 0.03 mm.

[0089] The layer of adhesive material allows removal of the lid 5 to the flange 4 of the capsule without any damage to the capsule 1.

[0090] The inner space of the capsule is filled with a beverage ingredient before the capsule is closed. In the present case, the capsule is filled with a coffee bed of roast and ground coffee before the capsule is tightly closed with the lid 5 to maintain freshness of the roast and ground coffee. The weight of the coffee is in the range of 4 g to 15 g depending on the size of the capsule. However, tea, milk or chocolate ingredients may be envisaged.

[0091] The capsule of FIG. 1b shows the capsule of FIG. 1a in which the lid 5 is partially removed by tearing the pull tab 6 and in FIG. 1c the same capsule in which the lid 5 is fully removed. As can be seen, the second end of the capsule (filling side) is no longer closed and presents on the inside of the capsule a membrane, defined as a carrier disk 7. The carrier disk 7 comprises multiple preformed outlet openings 8 for the beverage (here coffee) prepared in the beverage preparation device. The capsule also comprises mechanical deformations 11a, 11b, 11c . . . , performed at the junction between the sidewall 2a and the flange 4 that retain the carrier disk 7 inside the inner space of the capsule. Four mechanical deformations 11 are visible in FIG. 1b. These mechanical deformations 11a, 11b, 11c . . . are also visible on the capsule of FIG. 1c, indeed eight mechanical deformations can be observed. Their function and the way they are done will be explained in connection with FIG. 2a and followings.

[0092] The preformed outlet openings 8 of the carrier disk 7 are covered by the lid 5 of the capsule thereby closing the capsule to keep hermetic sealing of the inner space of the capsule for ensuring freshness of the beverage ingredient inside the capsule during storage.

[0093] As will be seen in the cross-sectional views of the various embodiment of the capsule of the invention (see for example FIG. 2a), the capsule further comprises in its inner space a filter element 9 positioned between the coffee bed and the carrier disk 7. The filter element 9 prevent solid particles of the beverage ingredient, for example coffee particles or tea leaves, to flow out of the capsule inside the end-consumer cup during extraction.

[0094] In the proposed invention, the capsule body 2 and the lid 5 are each mainly made from aluminum.

[0095] However, other material may be envisaged for the capsule body and the lid.

[0096] For example, the capsule body and the lid may be made of plastic polymer material, or the capsule body and the lid may be made of paper-based material.

[0097] As is understood, the capsule of the invention is extracted using a conventional high-pressure beverage preparation device compatible with conventional Nespresso? coffee capsules. The beverage preparation device comprises a fluid dispensing device capable of feeding an amount of a fluid, such as water, with a pressure between 0.1 bar and 20 bar to the capsule, and a brewing chamber, comprising a first part for holding the capsule and a second part for closing the brew chamber, the second part of the brewing chamber comprising an extraction plate presenting a tearing surface for engaging with the capsule at its second end opposite its base wall.

[0098] Summarizing a conventional extraction process of a closed capsule in the beverage preparation device: the capsule is inserted in the brewing chamber of the beverage preparation device. The fluid dispensing device feeds an amount of a fluid, such as water, to the capsule through the base wall 3 inside the capsule to make the coffee infused and then extracted. As pressure increases inside the capsule, the lid of the capsule comes into contact with the tearing surface of the extraction plate and the lid is altered by said tearing surface leading to the formation of opening which allows the coffee to flow out of the capsule.

[0099] The formation of the outlet openings at the surface of the lid by interaction of the lid with the tearing surface for the flow out of the coffee participates to the formation of foam and cream in the preparation process.

[0100] The use of conventional capsule (closed capsule) with the above-mentioned process leads ta coffee extraction at a pressure between 8 bar and 20 bar.

[0101] In the extraction process of a capsule of the invention, the lid of the capsule is removed before insertion of the capsule inside the brewing chamber of the beverage preparation device. The fluid dispensing device feeds an amount of a fluid, such as water, to the capsule through the base wall 3 inside the capsule to make the coffee infused and then extracted. The extracted coffee goes through the filter element 9 and then flows out through the outlet openings of the carrier disk 7. During extraction, the carrier disk 7 (which is at a distance from the flange of the capsule) does not come into contact with the tearing surface of the extraction plate of the beverage preparation device so that the carrier disk 7 is not altered by the tearing during extraction of the capsule.

[0102] The use of a capsule of the invention (in a conventional beverage preparation device) leads to a coffee extraction at a pressure between 0.1 bar and 8 bar, depending on the quantity of coffee inside the capsule and on the filter element structure.

[0103] Due to the fact that the lid is removed from the capsule before its use in the beverage preparation device and as the carrier disk is located inside the capsule (see FIG. 2a for example), there is no interaction between the carrier disk 7 and the tearing surface of the extraction plate.

[0104] In more details, when preparing a coffee using a capsule 1 of the invention in a beverage preparation device, the user removes the lid 5 by tearing on the pull tab 6 before inserting the capsule in a beverage preparation machine. The base wall 3 of the capsule body 2 is further pierced and opened by piercing means of a beverage preparation device for supplying water under pressure into the capsule for the preparation of a coffee beverage.

[0105] Due to the fact that the capsule is not closed (lid 5 removed and outlet openings accessible) when used in the beverage preparation device, the extraction pressure building up inside the capsule is limited (0.1 to 6 bar) and there is limited formation of foam and cream during extraction.

[0106] Hence, because the pressure built up and the sudden pressure drop are not occurring (as with the use of conventional capsule) at the interaction between the coffee/the lid/the opening element(s) with the tearing surface of the extraction plate of the beverage preparation device, the resulting coffee in cup is with little or no crema.

[0107] The capsule of the invention allows preparing crema-free coffee, tea, milk or chocolate depending on the beverage ingredient inside the capsule.

[0108] FIG. 2a shows a first embodiment of the capsule of the invention. As disclosed, the capsule comprises inside the inner space a carrier disk 7 comprising multiple preformed outlet openings 8.

[0109] As presented on FIG. 2b, which is an enlarged and cross-sectional view of the identified bottom part portion of FIG. 2a, the carrier disk 7 is positioned inside the capsule at a distance from the lid 5 comprised between 0.1 mm to 2 mm, the lid 5 being sealed on the flange 4.

[0110] This gap between the capsule lid 5 (and so the flange 4 once the lid is removed for extraction) and the carrier disk 7 provides a recess for the tearing surface of the extraction plate of the beverage preparation device to protrude inside the capsule without contacting the carrier disk 7 and hence the coffee in the capsule.

[0111] The carrier disk 7 is a substantially round piece of material as shown in FIG. 2c, and its diameter is approximately the inner diameter of capsule at the location where the carrier disk 7 is positioned/inserted/maintained depending on the assembling process.

[0112] Hence, in the proposed embodiment, the diameter of the carrier disk 7 is around 29.5 and 30.5 mm.

[0113] In the proposed embodiment, the carrier disk is made of Aluminum. Its thickness is about 0.3 mm but may vary between 0.1 mm and 1 mm.

[0114] In the presented solution, the carrier disk 7 is maintained inside the capsule thanks to local mechanical deformations 11 made on the capsule at the junction between the side wall 2a and the flange 4 of the capsule 1. In the detailed cross section of FIG. 2b, one mechanical deformation 11 is visible. The mechanical deformation is in the form of a crimping point 11 and is located on the side of the open side of the capsule, opposite the base wall 3.

[0115] As the capsule is made of a ductile material, preferably aluminum, the mechanical deformation by crimping allows reducing the diameter and thereby holding the carrier disk 7 (and filter) inside the capsule. The carrier disk is then retained inside the capsule 1.

[0116] Here, during the manufacturing process, the step of mechanically deforming the capsule at the junction of the flange 4 and sidewall 2a leading to the crimping points 11 is made on the capsule before closing the capsule with the lid 5.

[0117] The crimping points 11 (also visible on FIG. 1c), which are between 2 and 10 crimping points are angularly distributed on the perimeter of the open side of the capsule at the junction of the flange and sidewall of the capsule.

[0118] In view of the tooling that is used to make the crimping points, the crimping points 11 will preferably be equally distributed on the perimeter of the open side of the capsule.

[0119] Additionally, the crimping points 11 may have rounded crimping imprints according to the used crimping tool.

[0120] In an alternative way, the carrier disk 7 may be made of plastic or of a laminated membrane comprising for example, in polyolefins such as polypropylene, polyethylene or any other semi crystalline polymer. The carrier disk 7 may also be made of paper-based material, like a coated paper, a laminated paper or molded paper.

[0121] As can be seen on the FIG. 2c, the preformed outlet openings 9 are circular openings homogeneously distributed on the surface of the carrier disk. This homogeneous distribution of the outlet openings with ensure a homogeneous flux of the coffee flowing out of the capsule 1. This also helps to avoid creation of channel with the beverage (coffee bed) inside the capsule.

[0122] The openings have a diameter set around 0.75 mm to 1 mm, but the diameter may vary between 0.4 mm and 3 mm, most preferably between 0.5 mm and 1.3 mm.

[0123] The number of preformed outlet openings may vary depending on the size of the capsule and on how fast the delivery of coffee is wished. In the disclosed embodiment, the carrier disk 7 comprises between 50 to 150 openings, preferably around 90 and in the presented embodiment 92.

[0124] In an alternative embodiment, the preformed outlet openings may be of oblong shape.

[0125] As presented, the capsule further comprises a filter element 9 that during a possible assembling process is positioned on the ingredient bed (coffee bed for example) after the filling of the capsule, and the carrier disk 7 is positioned between the filter element and the lid 5.

[0126] When the capsule is turned up-side down and as presented in the enlarged view of FIG. 2b, the filter element 9 lies on the carrier disk 7. The filter element is then supported by the carrier disk 7 inside the capsule. The filter is maintained flat inside the capsule and is not contacted by the tearing surface of the extraction plate of the beverage preparation device during extraction.

[0127] The use of a two-piece design may enable the use of none-sealable filter materials which could be an advantage for sustainability.

[0128] As proposed in this embodiment, the filter element 9 is circular (disk-shaped) with a smaller diameter than the diameter of the carrier disk 7, i.e. between 28 mm and 30.5 mm, and in general with 0.1 mmn less than the disk carrier.

[0129] However, in an alternative embodiment, the diameter of the filter element 9 could be similar to the one of the carrier disk 7.

[0130] The filter element 9 is made of non-woven material adapted to prevent/refrain coffee drains to go through too slowly or too quickly during extraction of the beverage with the aim to avoid creation of a crema layer and with the aim to avoid coffee drain going directly through the disk carrier to the cup.

[0131] The filter is preferably made of a compostable and/or biodegradable material and may be made of cellulose-based material with the below technical features. It may for example be a paper-based filter element.

[0132] The filter element 9 of the proposed embodiment comprises a thickness between 20 to 300 microns, an air permeability in the range of 100 to 5000 l/m2/s according to ISO 9237, and a weight in the range of 5 to 600 g/m2. It may for example be a paper-based filter element.

[0133] The filter elements may comprise a layer of non-woven material connected by any known means to another filtering layer.

[0134] In the proposed embodiment of FIGS. 2a to 2c, the filter element 9 and carrier disk 7 are independent elements positioned on one another. However, they may be assembled together, for example by gluing. This will then change the assembling process in the capsule as the insertion of the filter and carrier disk will be made in one step.

[0135] The proposed circular carrier disk 7 may have a tapered shape on its perimeter so as to fit (force fit) into capsules having truncated cone shape. However, other alternative shape and arrangement of the carrier disk inside the capsule may be envisaged.

[0136] It is important that the carrier disk 7 and filter element 9 remains in place inside the capsule when the lid 5 is removed and the capsule 1 extracted in the beverage preparation machine. Several assembling process may be considered and will be later on disclosed in connection with the proposed embodiments of the capsule according to the invention.

[0137] In a further developed solution of the first embodiment of the invention presented in FIGS. 3a and 3b (detail of FIG. 3a), a second filter, made for example of non-woven material is added inside the capsule. The second filter element is positioned onto and may be fixed to the carrier disk on the side facing the lid (coffee opposing side-facing directly the pyramid plate of the beverage preparation device) without contacting the lid.

[0138] The purpose of this second filter 10 is to allow transversal flow of coffee in case the perforations match the flat top surface of the truncated pyramids.

[0139] As mentioned, the second filter element is made of non-woven material, however, it can be made of any suitable element compatible with the required function.

[0140] The second filter element may have the following dimensions from 28 mm to 30.5 mm.

[0141] In the proposed embodiment the second filter element is substantially circular with a diameter slightly smaller than the carrier disk 7.

[0142] The assembling process and configuration proposed in connection with FIG. 2a to 2c may still apply to this further developed solution.

[0143] FIGS. 4a and 4b are representing the capsule of FIG. 2a (view from the open side of the capsule) with a carrier disk 7 inserted into the capsule of FIG. 2a once assembled in the capsule with, respectively, 4 and 8 crimping points before closing the open side of the capsule by attaching a lid.

[0144] The number of crimping points (mechanical deformation) may vary between 2 and 10 to allow sufficient and efficient retention of the carrier disk 7 (and filter element 9 supported by the carrier disk) inside the capsule 1.

[0145] The crimping points 11 are angularly distributed around the open side perimeter of the capsule at the junction between the sidewall 2a and the flange 4 of the capsule. Preferably as here presented the crimping points are equally distributed along the perimeter of the open side of the capsule.

[0146] The currently used tooling during the step of mechanically deforming the capsule has a round end shape allowing to have crimping points with substantially rounded crimping imprints.

[0147] FIG. 5a and 5b schematically show how the mechanical deformation of a capsule according to FIG. 2a may be performed.

[0148] FIG. 5a presents a capsule 1 (in cross section) into which the carrier disk 7 has been inserted. A crimping tool (also called clamping tool) 18 comprising two crimping pins 18a each having a rounded end shape 19 is visible and in position ready to press, from the open side of the capsule, onto the capsule at the junction between the sidewall 2a and the flange 4 to induce a local deformation of the capsule body.

[0149] FIG. 5b presents the same capsule after mechanical deformation of the junction between the sidewall 2a and the flange 4 by the crimping tool 18. As can be seen, the mechanical deformation on the capsule at this specific location has induced crimping points 11 and has generated a bead 20 (due to physical transfer of material) for each mechanical deformation.

[0150] As the beverage ingredient, filter element 9 and carrier disk 7 should remain in the capsule during the step of mechanical deformation of the capsule, this step is performed while the capsule has its open side located upward.

[0151] In this configuration, the bead 20 (that could also be named burr) that is formed is located above the carrier disk 7.

[0152] When considering the capsule of FIGS. 2a and 2b, the bead 20 is located below the carrier disk 7 and therefore allows retaining it inside the capsule.

[0153] Depending on the number of crimping points 11 to be done on the capsule, the crimping tool 18 will comprise between 2 and 10 crimping pins 18a. Hence, the crimping tool will have angularly distributed crimping pins 18a.

[0154] In FIGS. 5a and 5b, sealing means 21 are present on the capsule. These sealing means provide a fluid sealing engagement with a sealing profile of a capsule engagement member of the beverage preparation machine as for example disclosed in EP 1 654 966 B1.

[0155] As clearly visible on the figures, the sealing means 21 are not damaged during the mechanical deformation of the capsule and the sealing function provided by the sealing means is maintained.

[0156] Sealing function of sealing means made by protrusions on and/or deformation of the flange of the capsule, as for example disclosed in EP 2 303 077 B1 or EP 2 387 922 B1, are preserved thanks to the specific location of the mechanical deformation.

[0157] For a better understanding of the full manufacturing process, the steps of this process ending to a capsule according to FIG. 2a are below presented.

[0158] First of all, a substantially rigid capsule body 2 having a circumferential sidewall 2a extending around an inner space to be at least partially filled with a beverage ingredient suitable for preparing the beverage is provided. Manufacturing of this capsule body may be made by deep-drawing of an aluminum foil but other technologies exist depending on the material of the capsule body.

[0159] As previously describe the capsule body 2 comprises sidewall 2a, base wall 3, flange 4 at the open side of the capsule opposite the base wall.

[0160] The inner space is then after filled with an amount of the beverage ingredient through the open side of the capsule. The amount of beverage ingredient is depending on the type of beverage, coffee, tea . . . but also on the range of the beverage do be done (lungo, . . . ).

[0161] Once the capsule is filled with the beverage ingredient, the filter element 9 is inserted through the open side of the capsule body in the inner space. Hence in the configuration of FIG. 5a (open side of the capsule being directed upward), the filter element is inserted inside the capsule on top of the beverage ingredient.

[0162] The carrier disk 7 is subsequently inserted through the open side of the capsule body over the filter element 9 in the inner space.

[0163] As already detailed, the carrier disk 7 comprising multiple outlet openings 8 through which in use the prepared beverage may flow out of the capsule.

[0164] As an option, the filter element 9 and carrier disk 7 may be inserted in the inner space of the capsule at the same time. Both elements may be attached together or not when being inserted together.

[0165] The step of mechanically deforming (also defined as crimping) the capsule at the junction or in the vicinity of the junction of the flange and side wall is then performed in order to provide retention of the carrier disk inside the inner space of the capsule as previously explained. The crimping may be done on several points at the same time: between 2 to 10 crimping points thanks to the specific crimping tool 18 above disclosed. Preferably, the crimping points are equally distributed, along the perimeter of the open side of the capsule, at the junction of the flange and side wall of the capsule.

[0166] The open side of the capsule is further closed by attaching the lid 5. Depending on the material of the lid, various technics may be used. In case of an aluminum lead (comprising a laker), heat sealing may be used.

[0167] According to the proposed capsule, the lid 5 comprises a pull tab 6.

[0168] The lid performing a tight closing of the capsules may be removed from the capsule prior to the use of the capsule in a beverage preparation device.

[0169] The capsule is then be removed from the manufacturing line and is ready to be used.

[0170] It is to be noted that the sealing means 21 are not damaged during the crimping step and therefore their related sealing function fully kept.

[0171] In the above disclosure, the step of mechanically deforming the capsule is performed before the step of closing the open side of the capsule with a lid, however, it may be envisaged that the deformation step is made after closing the open side of the capsule with a lid.

[0172] As represented in FIGS. 6a and 6b the at least one local mechanical deformation with the aim to maintain the carrier disk 7 inside the capsule body is made at the location of the edge of the flange, i.e. at the junction between the sidewall 2a and the flange 4, from the side of the capsule opposite the open side of the capsule. Here the mechanical deformation is applied directly on the side of the sidewall 2a of the capsule body 2.

[0173] Similarly, as in the description of FIGS. 5a and 5b, a crimping tool 18 comprising at least one crimping pin 18a is used to provide mechanical deformation at a specific location of the capsule in order to retain the carrier disk 7 inside the capsule.

[0174] This variant can be done before or after the lid 5 is positioned and/or sealed on the capsule. In case this variant is used the distance between the carrier disk 7 and the flange of the capsule body will be smaller (but enough to avoid interaction of the carrier disk with the pyramid place of the beverage device during extraction) than the one when the local deformation is made on the sidewall of the capsule body (FIG. 6b).

[0175] FIG. 7 proposes a view of the mechanically deforming the capsule during the assembling processes in which the carrier disk 7 of the capsule is clamped inside the capsule body through local deformation of the capsule from the outside of the capsule.

[0176] In the assembling process of FIG. 7, once the carrier disk 7 (or carrier disk 7 plus filter element 9) is inserted inside the capsule body 2, a crimping tool 18 presses the capsule body, from the outside in the vicinity of the junction of the flange and side wall of the capsule, just above the level of the carrier disk 7 when it is positioned inside the inner space of the capsule, to induce a local deformation 11 of the capsule body. Thanks to this local deformation, the carrier disk 7 is maintained in position inside the capsule.

[0177] The local deformation of the outside of the capsule body from the outside is made on its circumference, for example, at every 90?. This is enough to ensure efficient holding of the carrier disk 7.

[0178] As presented, the step of mechanically deforming the capsule locally at the junction of the flange and side wall is performed using a crimping method, however, other method for mechanically deforming the capsule at this specific location may be used such as stamping, metal drawing, embossing.

[0179] The presented embodiments for the carrier disk as well as for the manufacturing and assembling process may be combined whenever needed and possible to improve the holding of the carrier disk 7 (with or without the filter element 9) inside the capsule body 2.

[0180] The presented capsule may be associated with sealing means located on the flange of the capsule ensuring liquid tightness between the capsule and the injection part of the beverage production machine. For instance, the sealing means may be a silicon ring applied on the base of the flange and sidewall of the capsule body, or one or more protrusions, or bridges formed on the flange (and integral with the flange). Such sealing means (not represented) participates to the liquid-tight arrangement with the beverage production machine.

[0181] Although the invention has been described by way of example, it should be appreciated that variations and modifications may be made without departing from the scope of the invention as defined in the claims. Furthermore, where known equivalents exist to specific features, such equivalents are incorporated as if specifically referred in this specification.