AU2015238913A1 - System and capsule having sealing means - Google Patents

System and capsule having sealing means Download PDF

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Publication number
AU2015238913A1
AU2015238913A1 AU2015238913A AU2015238913A AU2015238913A1 AU 2015238913 A1 AU2015238913 A1 AU 2015238913A1 AU 2015238913 A AU2015238913 A AU 2015238913A AU 2015238913 A AU2015238913 A AU 2015238913A AU 2015238913 A1 AU2015238913 A1 AU 2015238913A1
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AU
Australia
Prior art keywords
capsule
sealing member
sealing
beverage
enclosing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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AU2015238913A
Inventor
Jean-Paul Denisart
Gilles Gavillet
Alfred Yoakim
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Nestec SA
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Nestec SA
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Priority to AU2015238913A priority Critical patent/AU2015238913A1/en
Publication of AU2015238913A1 publication Critical patent/AU2015238913A1/en
Withdrawn legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47JKITCHEN EQUIPMENT; COFFEE MILLS; SPICE MILLS; APPARATUS FOR MAKING BEVERAGES
    • A47J31/00Apparatus for making beverages
    • A47J31/24Coffee-making apparatus in which hot water is passed through the filter under pressure, i.e. in which the coffee grounds are extracted under pressure
    • A47J31/34Coffee-making apparatus in which hot water is passed through the filter under pressure, i.e. in which the coffee grounds are extracted under pressure with hot water under liquid pressure
    • A47J31/36Coffee-making apparatus in which hot water is passed through the filter under pressure, i.e. in which the coffee grounds are extracted under pressure with hot water under liquid pressure with mechanical pressure-producing means
    • A47J31/3666Coffee-making apparatus in which hot water is passed through the filter under pressure, i.e. in which the coffee grounds are extracted under pressure with hot water under liquid pressure with mechanical pressure-producing means whereby the loading of the brewing chamber with the brewing material is performed by the user
    • A47J31/3676Cartridges being employed
    • A47J31/369Impermeable cartridges being employed
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D85/00Containers, packaging elements or packages, specially adapted for particular articles or materials
    • B65D85/70Containers, packaging elements or packages, specially adapted for particular articles or materials for materials not otherwise provided for
    • B65D85/804Disposable containers or packages with contents which are mixed, infused or dissolved in situ, i.e. without having been previously removed from the package
    • B65D85/8043Packages adapted to allow liquid to pass through the contents
    • B65D85/8064Sealing means for the interface with the processing machine

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Food Science & Technology (AREA)
  • Apparatus For Making Beverages (AREA)

Abstract

Abstract The invention provides a beverage comprising a capsule-based beverage producing device and a capsule for containing beverage ingredients. The device and the capsule form a system for producing a beverage. The beverage production device (2) is provided with means for injecting a liquid into the capsule (1), means for draining a beverage from the capsule (1), and an enclosing member (9) transferable from an opened state to a defined closed state, in which the enclosing member (9) encloses the outer surface of the capsule (1). The capsule includes a sealing member (8, 11, 26), the sealing member (8, 11, 26) being compressible when engaged by the enclosing member (9) in the closed state and the sealing member being effective to compensate for the clearance between the enclosing member and the capsule (1); which clearance would exist without the sealing member of the capsule (1), when the enclosing member (9) is in its defined closed position. Figure 10 Fig. 10

Description

- 1 System and capsule having sealing means [0001] The present invention generally relates to capsules for containing beverage ingredients, to a beverage producing system for use in connection with such capsules as well as to methods for producing beverages on the basis of ingredients contained in such capsules. [0002] Any discussion of the prior art throughout the specification should in no way be considered as an admission that such prior art is widely known or forms part of common general knowledge in the field. [0003] The background of the present invention is the field of sealed capsules which contain beverage or other comestible (e.g. soup) ingredients. By means of an interaction of these ingredients with an injected liquid, a beverage or other comestibles, such as for example soups, can be produced. The interaction can be for example a process of extraction, brewing or dissolution. Such a capsule is particularly adapted to contain ground coffee in order to produce a coffee beverage by injecting hot water under pressure into the interior of the capsule and draining a coffee beverage from the capsule. [0004] A capsule as shown in FR 2160634 relates to an apparatus for making coffee beverage from a cartridge in which a water injection device is placed hermetically against the upper side of the cartridge. The water injection device includes a seal which is applied on the upper rim of the capsule. [0005] EP 0361569 Al does not show a sealed capsule, but a coffee filter unit which is not sealed when placed into the coffee machine but simply press fitted in a cartridge casing, such that water can be poured on a filter paper provided at the open upper side of the coffee filter unit. To avoid spilling of water outside the filter unit's upper rim, the peripheral portion of a filter paper is clamped between the outer rim of the coffee filter unit wall and the surrounding wall of the machine. Such a design is an device filtering a beverage at atmospheric pressure which is not adapted to withstand the typical water injection pressure of e.g. more than 3 bars or even much higher pressure which reigns in the capsule when e.g. an espresso-style coffee is to be produced. [0006] FR 2617389 describes a capsule-based coffee machine in which a capsule to be extracted is placed on a capsule holder. The capsule holder is then rotated bayonet-like, -2 wherein the final rotational position depends on the torque which the user applies on a handle for rotating the capsule holder. The machine itself does therefore not have a defined closure position since the final closure position depends on the amount of torque applied by the user. The sealing between the capsule and the machine is therefore not defined by the design of the machine, but arbitrarily depends on the user's handling of the machine. Typically, the higher the rotational force exerted, the more clearance can be compensated. However, such system provides several drawbacks. First of all, it requires the closing device to remain purely tightened by hand and it cannot be otherwise mechanically, electrically or hydraulically assisted. It requires a certain strength to screw the capsule holder on the machine from the user and the user may have difficulties to unscrew the capsule holder afterwards. Furthermore, the sealing is difficult to control and it may be that the capsule holder is insufficiently tightened so that pressure leakage can occur. [0007] In contrast to the rotational bayonet-style closing according to FR 2617389, the present invention relates to machines in which the closure of the parts of the machine which surround the capsule and thus also the sealing is not an arbitrary function of the user's force, but a defined state which depends on the arrangement of the capsule in the machine. [0008] This is, for example, the case in machines in which the final phase of the closure movement is essentially an axial (i.e., translational or a curvilinear) but non-rotational movement. [0009] Prior art systems and methods for obtaining fluid comestibles from substances containing capsules- are, for example, known from EP-A-512470 (counterpart of US 5,402,707). The machine of EP-A-512470 takes an example from a bayonet-style closure device. [0010] The capsule 101 as shown in Fig. 1 has a frustroconically-shaped cup 102 which may be filled e.g. with roasted and ground coffee 103 and which is closed by a foil-like tear face cover 104 welded and/or crimped to a flange-like rim which extends laterally from the side-wall of cup 102. A capsule holder 111 comprises a flow grill 112 with relief surface element members 113. [0011] The capsule holder 111 is accommodated in its support 115 which has a lateral wall 124 and a bore 127 for the passage of extracted coffee beverage.
-3 [0012] As can be seen from fig. 1 the extraction system further comprises a water injector 107 having a water inlet channel 120 and a capsule cage 108 with an internal recess of which the shape substantially corresponds to the outer shape of the capsule. On its outer part, the capsule cage 108 comprises a spring 122 holding a ring 123 for releasing the capsule on completion of extraction. [0013] In operation, a capsule 101 is placed in the capsule holder 111. The water injector 107 perforates the upper face of the cup 102. The lower tear face 104 of the capsule rests on the radially arranged members 113 of the capsule holder 111. [0014] The water is injected through the channel 120 of the water injector 107 and impinges on the bed 103 of coffee. The pressure in the capsule 101 increases and the tear face 104 increasingly follows the shape of the radial opening relief members 113. Such radial opening relief members could be replaced by pyramid-shaped reliefs or other shapes of relief. When the constituent material of the tear face reaches its breaking stress, the tear face tears along the relief members. The extracted coffee flows through the orifices of the flow grill 112 and is recovered in a container (not shown) beneath the bore 127. [0015] The principles of this extraction process as far as it can be maintained in connection with the present invention can be summarized as follows: - An initially sealed capsule is inserted in capsule holder means; - The capsule holder means is then associated to the water injection means of the machine such that a capsule cage (108 in Fig. 4) overlaps the sealed capsule; In a first wall of the capsule at least one opening is generated for introducing water under pressure; Water being injected under pressure into the capsule through the opening in the first wall is interacting with the ingredients contained in the capsule while traversing the interior of the capsule and is then made to leave the capsule through at least one opening/perforation created in the second wall. [0016] The ingredients in the capsule constitute the "bottleneck" of the flow path of the water and will therefore cause a pressure drop between the upstream and the downstream side of the liquid flow through the capsule, which pressure drop will even increase during the interaction between the liquid and the ingredients for example due to a swelling of the ingredients. Correspondingly it has to be assured that the only water flow is actually taking place through the interior of the capsule (arrow Al) and that no water can flow from the water -4 injector into the interstice between the capsule cage 108 and the exterior of the capsule 101 and then to the draining bore 127 of the device. The arrow A2 illustrates this undesired water flow path. In other words, any water flow exterior to the capsule 101 has to be stopped by a sealing engagement being positioned in the interstice between the capsule cage 108 and the capsule 101 and in the flow path between the water injector and the beverage-draining bore. In the embodiment as shown in Fig. 1 such sealing engagement can be achieved at least to a certain degree by the pinching engagement between the capsule cage 108, the flange-like rim of the side wall of the capsule 101 and the capsule holder 111, 115. [0017] In case the sealing engagement is not working properly and water is flowing outside the capsule, no pressure sufficient to cause the tearing of the tear face will be built up inside the capsule or, alternatively, the pressure will be causing no complete tearing of the tear face and therefore resulting in a poor extraction of the substance. In such a scenario water will be drained from the beverage production device without having interacted or fully interacted under sufficient pressure conditions, with the ingredients contained in the capsule. [0018] New machines are now commercially available which are based on an axial closure movement and no longer on a bayonet-style closure. These machines provides more user convenience, they can be mechanically, electrically or hydraulically assisted for an easier closing and they can be made of less expensive materials (such as plastic). For instance, a few patents describe different closure principles such as in EP 0604615, EP 1090574; EP 1327407; WO 2004/071259 or WO 2005/004683. [0019] Therefore, there is no possibility for the user to control the degree of tightening of the closure about the capsule. As long as the intrinsically defined closed state, of the devices working on an axial closure movement, is working properly, this leads to satisfying results. If, however, the seal has been damaged or its efficiency has decreased overtime for different reasons (due to wear, ageing, obstruction by solid residue, etc.) or also, in the event, the closed position is misaligned (e.g., horizontally offset vis-a-vis the ideal closure position due to wear, fatigue or manufacturing tolerances), there is the risk of having no tight sealing or even a clearance between the enclosing member and the capsule. [0020] According to the prior art, sealing engagement is done by lining the inner wall and/or pressing edge of the capsule cage with a rubber-elastic joint. In other words, according to said prior art approach the sealing engagement is assured by a permanent structure which is fixed to or attached to the beverage-producing device. This has the disadvantage that after -5 intensive use (i.e., over a high number of extraction cycles), a wearing off of the permanent sealing means can take place such that the extraction conditions of the beverage may deteriorate and quality of the beverage accordingly negatively affected. [0021] In particular, any "leak" at the exterior of the capsule reduces the pressure inside the capsule. On the other hand, a sufficient extraction pressure is a key factor for the quality of espresso-style coffee. [0022] The present invention correspondingly aims at an improvement of a system which comprises: - an enclosing member of the beverage production device which can receive the capsule and is transferable from an open state to a preset defined closed state, - a capsule configured with a seal that provides, each time a capsule is engaged by the enclosing member an effective fluidly sealed configuration of the capsule, so that water enters into the capsule through a controlled fluid path through the capsule when the enclosing member has been closed in said defined closed state about the capsule, and - the beverage production device having means for injecting pressurized water into the interior of the capsule. [0023] It is an object of the present invention to overcome or ameliorate at least one of the disadvantages of the prior art, or to provide a useful alternative. [0024] Advantageously the invention, at least in a preferred form provides an improvement of a compensatory sealing engagement between the enclosing member and the outer surface of the capsule. [0025] Note that the present invention thus especially aims at an improvement of the capsules, such that state-of-the-art beverage production devices with built-in sealing means as for example shown in EP-A-512470 can also be used in connection with a capsule according to the present invention. [0026] The object is achieved by means of the features of the independent claims. The depending claims develop further the central idea of the present invention. [0027] Accordingly the present invention a system comprises: - a capsule-based beverage producing device, and -6 - a capsule for containing beverage ingredients [0028] In another aspect the invention provides a system comprising the device and capsule. [0029] The beverage production device is provided with: - means for injecting a liquid under pressure into the capsule, - means for draining a beverage from the capsule, and - an enclosing member transferable from an opened state to a defined closed state, in which the enclosing member encloses the outer surface of the capsule. [0030] A sealing member associated to the capsule; the sealing member being compressible when engaged by the enclosing member in the closed state and the sealing member being effective to compensate for the clearance between the enclosing member and the capsule ; which clearance would exist without the sealing member of the capsule, when the enclosing member is in its defined closed position. [0031] The sealing member can be resilient under compression and be engaged by the enclosing member in the closed state. [0032] The enclosing member can be arranged such that in the final phase of its transfer movement from its opened state to its closed state, it carries out an essentially axial (e.g., linear or curvilinear but non-rotational) relative movement with regard to the capsule without a relative rotation of the capsule. [0033] The enclosing member is arranged with regard to the capsule such that during the transfer movement from the opened state to the closed state, the capsule essentially stays in place. [0034] The sealing member is arranged to exert a biasing force against a matching pressing surface of the beverage production device. [0035] The sealing member is of sufficient thickness to compensate within a certain range of variation of clearance. Preferably, the sealing member has a thickness (at rest), as measured in the main direction of the compressive forces of from 0.5 and 5 mm, preferably of from 1 and 3 mm.
-7 [0036] The pressing surface is comprised has a linear and/or frustroconical contour when seen in a radial section view. [0037] The pressing surface can present a non-linear contour when seen in a side view. [0038] The contour of the pressing surface can be provided with corrugations. [0039] The sealing engagement thereby can be designed to be only effective as long as the enclosing member exerts a minimum compressive force on the capsule, but is automatically released as soon as the compressive force falls below said minimum compressive force. [0040] Grooves can be provided in the circumference of the enclosing member, which grooves act as air inlet passages for feeding air through these grooves and through the released sealing engagement between the capsule and the enclosing member. [0041] The sealing member can be made of a rubber-elastic material. [0042] The sealing member can be made from the constituent material of the capsule such as a polymeric material. [0043] The capsule can comprise a first and a second wall element being connected with each other in an airtight fashion in a flange-like rim area in order to create a sealed interior for the ingredients. [0044] The sealing member can be provided at least in the transition area of the flange-like rim and one of the wall elements. [0045] The sealing member is provided on a wall between the flange-like rim and the location on the capsule where the water injector is introduced. [0046] The capsule can be comprised of a cup-like base body and an enclosing member. [0047] The sealing member can be present both on the flange-like rim and a portion of a side wall of the base body. [0048] The sealing member can be an integral part of one of the wall elements.
-8 [0049] The sealing member can be separate to the wall elements. [0050] The sealing member has the shape of an O-ring or a ring having a L-shaped cross section. [0051] The sealing member can be attached to one of the wall elements using an adhesive or by welding or by pinching or crimping or a combination thereof. [0052] The enclosing member can comprise additional sealing means adapted to assist to the sealing engagement between the enclosing member and the capsule. [0053] The sealing pressure acting at the sealing engagement can have a radial an/or axial component relative to the center axis of the capsule. [0054] Another aspect of the invention relates to a method for producing a beverage, the method comprising the following steps: - positioning a capsule in a beverage production device while closure means of the beverage production device are in an opened state, the capsule being provided with sealing means at its outer surface, the sealing means being resilient under compression, - transferring the closure means from the opened state to a defined closed state, while in the final phase of the transfer movement the closure means engage and bias the sealing means of the capsule, -having a liquid under pressure enter the capsule at the least one opening in the first wall member and having the liquid leave the capsule through at least one opening in the second wall member. [0055] The sealing member of the capsule can compensate any clearance between the enclosing member and the capsule when the enclosing member is in its defined closed state, which clearance would exist without the compensatory effect of the sealing member of the capsule. [0056] In the final phase of the transfer movement the closure means can at least partially compress the sealing means of the capsule.
-9 [0057] The sealing engagement of the closure means and the sealing means of the capsule withstands an internal pressure in the range of 2 to 20 bars, preferably 4 to 15 bars. [0058] The term "matching pressing surface" as used herein is typically a portion of the beverage production device. This can be a surface of the enclosing member which is typically one part of the device which covers at least one side of the capsule upon closing of the device to encompass the capsule. The term "internal pressure" refers to the relative pressure above ambient atmospheric pressure that can be measured in the fluid conduit of the fluid injection device just before the fluid inlet in capsule (but downstream of any non-return valve) during extraction. [0059] Further advantages, features and objects of the present invention will become evident for the man skilled in the art when reading the following detailed description of embodiments of the present invention taking in conjunction with the figures of the enclosed drawings. [0060] Fig.1 shows an extraction capsule known from EP-A-512470, [0061] Fig. 2 shows a first embodiment of the present invention in which a capsule is placed on the capsule holder but has not yet reached its closing position in the beverage production device, [0062] Fig. 3 shows an enlarged in view of Fig. 2, [0063] Fig. 4 shows the first embodiment in a state, in which a capsule has reached its closing position between a bell member and the capsule holder, [0064] Fig. 5 shows a perspective view of a capsule holder, a bell member and a capsule according to the first embodiment in a position in which the capsule has not yet reached its closing position, [0065] Fig. 6 shows a second embodiment of the present invention, [0066] Fig. 7 is an enlarged view of a detail of Fig. 6, [0067] Fig. 8 is a perspective view of the second embodiment, - 10 [0068] Fig. 9 shows the second embodiment in a state in which the capsule has reached its closing position, [0069] Fig. 10 shows a third embodiment in which the sealing member of the capsule is part of the side wall of the capsule, [0070] Fig. 11 is a detailed view of Fig. 10, [0071] Fig. 12 shows the sealing engagement according to the third embodiment, [0072] Fig. 13 shows a fourth embodiment in which the sealing member is part of the top wall member of the capsule, and [0073] Fig. 14 shows the fourth embodiment in the final state. [0074] With reference to Fig. 2 now a first detailed embodiment will be explained. [0075] Note that in the following the invention will be explained referring to a certain design of a capsule, i.e. a design according to which the capsule comprises a cup-like base body and a closing foil member. However, it is to be understood than other designs of the capsule are viable, such as e.g. capsules having a lenticular form with two essentially matching and opposing walls (e.g. foils) being sealed at the e.g. ring-shaped edge. Generally a capsule according to the present invention comprises at least two opposing wall members which are connected to each other at the edges to form a sealed flange-like rim area, thus enclosing a sealed interior. [0076] The capsules are inserted into the beverage production device while still being sealed. [0077] Comparable to the prior art also this embodiment shows a capsule holder 13 having relief elements 12 which are designed to tear and perforate a foil member 5 closing off a cup like base body 4 of the capsule 1. Note that other tearing elements than the relief elements can be thought of. [0078] This tearing of the foil member can e.g. occur as soon as the pressure inside the capsule exceeds a threshold value. Note that the relief elements can have any protruding - 11 shape able to cause a (partial) tearing of the foil member. As an example only pyramids, needles, bumps, cylinders, elongated ribs are cited. [0079] In an alternative, the foil member 5 could be replaced by a wall that can be pierced against at least one relief element before water is injected in the capsule, for instance, as resulting of the closure of the machine about the capsule. [0080] Within the capsule 1 ingredients 3 are contained, wherein the ingredients 3 are selected such that a beverage can be produced when having a liquid entering the capsule in the region of the top wall 17 of the capsule 1 and then interact which such ingredients 3. Preferred ingredients are e.g. ground coffee, tea or any other ingredients from which a beverage or other liquid or viscous comestible (e.g. soup) can be produced. [0081] Fig. 2 shows a state in which such a capsule has been placed (while still being sealed) on a capsule holder 13, the foil member 5 resting on the relief element 12 side of the capsule holder 13 and the cup-like base body 4 of the capsule 1 being already partly surrounded by the circumferential wall 25 of an enclosing member 9 of the beverage production device. The shown enclosing member has the shape of a bell. Other shapes are viable, wherein the design of the interior contours (recess) of the enclosing member is generally adapted to substantially match the contours of the capsule 1. [0082] Note that the foil member 5 as shown is not exactly flat due to a defined over pressure inside the capsule, which over pressure is generated by introducing e.g. a protective gas when producing the filled capsule. [0083] The enclosing (bell) member 9 furthermore comprises an annular support skirt 18, the function of which will be explained later, an external thread 19 for mounting the bell member in a beverage production device and a water inlet opening 20 for feeding a liquid such as for example hot water under pressure to a water injector 14 which is releasable mounted (screwed) to the bell member 9. [0084] Note that the thread 19 is just an example for connection means, be it releasable or permanent connection means.
- 12 [0085] The other components of the beverage production device, such as e.g. the mechanism for displacing the bell member and eventually also the capsule holder are known from the prior art in the field of capsule-based espresso machines. [0086] The water injector comprises at least one perforation element (blade, pin, etc.) 24 designed to produce at least one opening in the top wall 17 of the capsule 1 when the capsule holder 13 and the bell member 9 are moved close together e.g. by a manually operated or a automatic mechanism. A channel (not shown in the drawings) traverses the perforation element 14 such that water can be fed to the interior of the capsule 1 once the perforation element 14 protrudes into the interior of the capsule 1 (see figure 4). [0087] The capsule 1 comprises said top wall 17, a sidewall 7 and a flange-like rim 6, wherein the foil member 5 is sealed to said flange-like rim 6 to close-off hermetically the cup like base body 4 of the capsule 1. Again, other designs for the capsule are possible as long as the capsule can be sealed and contain the mentioned ingredients. For instance, the capsule can include one of more filters. A bottom filter can be placed in contact with the inner surface of the foil 5 and/or a top filter can be placed at least partially in contact with the inner surface of the body 4. [0088] According to the present invention the outer surface of the capsule 1 presents a dedicated sealing member 8. The sealing member 8 can be resilient due to the material used and/or due to the geometrical shape of the sealing member 8. [0089] Further on, the sealing member 8 can be integral to the capsule 1 or a separate piece. In the latter case the sealing member can be mounted releasably to the base body 4 or fixed thereto e.g. by welding or by means of an adhesive. [0090] In case the sealing member 8 is a separate piece attached to the capsule 1, it can be mounted to the capsule as one integral piece. Alternatively it can be applied in fluid or viscous form and then can be cured (e.g. polymerize) once applied onto the outer surface of the capsule, which is the case e.g. when applying silicone. [0091] If a resilient material is used for the sealing member 8, preferably rubber-elastic materials are used. The term "rubber-elastic" means any suitable material having rubber elasticity including but not limited to elastomers, silicones, plastics, latex, balata or others. Particularly suitable materials are: EPDM (Ethylene Propylene Diene Monomer), NBR (Acrylic - 13 Nitrile Rubber), TPE (thermoplastic elastomer) or silicone rubber. These materials have particular good flex, compressive properties and can resist high temperatures without cracking. [0092] In case the material of the sealing member is the same as the one used for the capsule (e.g. a metal such as aluminum or plastics), preferably the resilient nature of the sealing member is procured by the geometrical shape of the sealing member. [0093] In the embodiment according to Fig. 2 the sealing member 8 is resiliently deflectable due to the lip-shaped form. It is made from the same material as the capsule, preferably plastics. It can be an integral piece of the base body 4 of the capsule 1. [0094] The flexible free lip 8 extends from the outer edge of the flange-like rim 6 and is inclined outwards. In the shown embodiment the flexible lip is the edge of the side walls of the base body of the capsule, which edge is bent by an angle of more than about 90 degrees, preferably comprised between 95 and 175 degrees. [0095] Note that such deflectable sealing member 8 can be placed at any position onto the capsule 1 as long as the position is adapted for an exterior sealing engagement of the sealing member 8 and the enclosing member 9 between the water injector 14 and the perforations in the foil member 5. The sealing member 8 can also be provided on the region of the top wall 17 of the capsule 1 surrounding the water injector 14 when the water injector 14 is in a position protruding into the interior of the capsule 1. The sealing member 8 can also be arranged to cover different portions (bottom, side wall, flange-like rim) of the capsule. [0096] As can be seen in detail in Fig. 3, the bell member 9 according to this embodiment does not comprise any dedicated resilient sealing member. However, the bell member optionally can also comprise an (additional) resilient sealing member. [0097] A divergently inclined sealing surface 15 of the bell member 9 is designed to cooperate with the resiliently deflectable sealing member 8 of the capsule 1. The inclination of the sealing surface is opposite to the inclination of the free flexible lip constituting the sealing member.
-14 [0098] Depending on the form and material of the sealing member 8 of the capsule 1, the cooperating surface of the bell member 9 can have any shape, position and orientation which is adapted for a sealing engagement with the sealing member 8 of the capsule 1. [0099] Fig. 4 shows the state in which the bell member 9 and the capsule holder 13 are brought in closing pressure engagement and due to the water entering the interior of the capsule and building up a pressure there the pyramidal relief members 12 of the capsule holder 13 have already produced openings in the foil member 5 of the capsule 1. [00100] The closed state shown in Figure 4 is an intrinsically set state defined by the machine design and not by the user's manipulation. [00101] In order to be transferred from the opened state of the enclosing member 9 shown in Figure 2 to the closed state shown in Figure 4, the enclosing member has undergone an essentially linear relative displacement with regard to the capsule 1. In the present embodiment it is assumed that the capsule 1 is not carrying out any displacement and stays in place during the closing process. However, alternatively or additionally to the displacement of the enclosing member 9 also the capsule 1 can carry out an essentially linear movement. [00102] In the shown example the capsule 1 does not rotate relative to the enclosing member 9. [0100] Upon insertion of the capsule the blade element 24 of the water injector 14 has created a perforation 16 in the top wall 17 of the capsule 1. When a sufficient pressure of fluid has been built inside the capsule, the beverage produced from the ingredients contained in the capsule can be drained in small interstices between the relief members 12 and the surrounding foil member 5. [0101] In the state shown in Fig. 4 the resiliently deflectable sealing member 8 of the capsule 1, i.e. the flexible lip, is biased against the corresponding inclined sealing surface 15 of the enclosing member 9. The annular support skirt 18 now covers the end of the flange-like rim 6 of the capsule 1 to ensure that the sealing member 8 and the capsule as such remain in position when the sealing surface 15 of the bell member exerts a certain pressure force of the sealing member 8.
-15 [0102] Actually, the lip-shaped sealing member 8 represents an example of a construction for providing a self-reinforcing sealing engagement. Water coming from the water injector will be pressurized within the interstice between the exterior of the capsule and the enclosing member and will eventually arrive at the lip-shaped sealing member. The lip-shaped sealing member will block the water flow as it is biased against the sealing surface of the annular member. This blocking effect will lead to the pressure raising at the upstream-side of the sealing member which in turn will lead to the sealing member being pressed even stronger against the sealing surface and thus to a sealing engagement which is the stronger the higher the pressure at the sealing engagement. [0103] In the embodiment of Fig. 5 grooves 22 are provided in the circumference of capsule holder 13, which grooves 22 act to evacuate water which could settle or accumulate on the upper surface of the capsule holder 13 or dripping out of the capsule before the capsule has been removed. [0104] Thus, when seen in a side view as e.g. in Figure 5, the enclosing member 9 can present circumferential corrugations, the grooves being just an example. [0105] The sealing member is designed to compensate/fill such corrugations in the closed state of the enclosing member 9. However, e.g. due to manufacturing tolerances, misalignments, wear or fatigue of the parts of the beverage production device, even without expressively foreseen corrugations there is always a risk of a clearance and/or insufficient tightness of the sealing engagement between the capsule 1 and the enclosing member 9. According to the present invention, the sealing member is compressed sufficiently in order to compensate for any foreseen and/or unforeseen clearance which could exist otherwise. [0106] When seen in a radially sectioned view as e.g. in Figure 4, the contour of the rim of the enclosing member 9, i.e. the pressing surface, does not present radial corrugations. The radial section of the pressing surface rather presents linear and/or frustroconical sections or a combination thereof. Thus the pressing surface according to the present invention is designed to compress or slightly displace the sealing member. [0107] Fig. 6 shows an embodiment essentially corresponding to a variant of the first embodiment of Fig. 2. The sealing member 8 according to this embodiment is compressible and/or displaceable (i.e. it can slightly "flow" when pressurized by the enclosing member). It covers both a portion of the side wall 7 and the area between the outer end of the flange-like -16 rim 6 of the capsule 1 and said side wall 7. (The sealing member can also cover only a portion of the side wall 7 of the base body 4 of the capsule 1.) The sealing member 8 according to this embodiment has a non-symmetrical, i.e. L-shaped cross-section. [0108] Alternatively, the sealing member 8 can have other shapes such as e.g. a film applied to the capsule, an O-ring, etc. [0109] When the capsule 1 is in a position as shown in Fig. 4 and then, after having finished the beverage production process, the holder 13 is opened, there is a risk that the capsule 1, instead of falling down, remains sucked into the bell member 9 due a "vacuum effect". As shown in Fig. 8 the invention proposes to provide for a mechanism which-assures that the type sealing engagement between the capsule 1 and the bell member 9 is only present as long as the bell member 9 is engaged against the capsule holder 13, but automatically released such that air can get into the space between the top wall 17 and the side walls 7 of the capsule 1 and the inner wall of the bell member 9, respectively. [0110] As can be seen from Fig. 8, especially in case the sealing member 8 covers a portion of the side walls 7 of the capsule 1, the annular front surface of the bell member 9 can be provided with grooves 21 which, act as air inlet passage for feeding air. The grooves allow the intake of air once the biasing force between the bell member 9 and the capsule holder 13 is released. Air is thus flowing into this space and it will be easier for the user to take out the capsule 1. Eventually, the capsule 1 will even automatically fall down from the bell element 9. [0111] Fig. 9 shows the state of the second embodiment in which the front surface 23 of the bell member 9 is in sealing engagement with the sealing member 8 of the capsule 1. [0112] Figures 10 to 12 show a third embodiment of the present invention in which the resilient nature of the sealing member is due to the geometrical shape of the capsule itself. In the depicted embodiment the sealing member has the shape of a step 26, i.e. a sudden increase of the diameter of the side wall 7 of the capsule 1. Note that the geometrical form is not limited to the shown step and other forms are viable as long as they procure a resilient or at least deformable nature of the sealing member. [0113] The step-like sealing member 26 according to this embodiment is only one example for a hollow sealing member (in contrast e.g. to the "filled" sealing member 8 according to the second embodiment, figures 6 to 9). When the resiliency of the sealing member is procured by -17 the geometrical shape, usually a deflection of the sealing member occurs (here: inwards and downwards deformation of the step). On the other hand, when the resilient nature is due to the material used and a "filled" sealing member is used, usually a compression and/or displacement of the material occurs. [0114] The sealing surface 15 according to this embodiment is inclined. Thus the sealing pressure has a first component being directed radially inside and another component being directed axially (downwards in figure 12). [0115] As can be seen especially from figure 12, the foil member 5 can be wrapped (see reference 27) over the rim of the capsule. [0116] Fig. 13 and Fig. 14 show a fourth embodiment in which the sealing member is an 0 ring 11. The O-ring is geometrically arranged and, preferably fixed, on the top wall 17 of the capsule 1. This is just an example of providing a sealing member at the exterior of the capsule 1 at the side which faces the water injector and which will be perforated in order to create the water inlets to the capsule 1. [0117] The O-ring 11 is positioned to peripherally surround the area in which the water injector 14 perforates the top wall 17 of the capsule 1. The sealing member 11 is thus compressed by the bottom 28 of the enclosing member 9 and (see figure 14) secured in place by the upper end of the circumferential side wall 25 of the enclosing member 9. [0118] Note that the bottom 28 can be substantially flat or inclined to ensure a sufficiently water-tight interface with the sealing member 11 when the capsule is fully engaged in the enclosing member 9 at closing of the device. [0119] As an alternative to the O-ring 11, also a deflectable lip-like sealing member (e.g. comparable to the lip 8 according to the first embodiment, see figure 2) can be placed protruding from the top wall 17 of the capsule 1, i.e. the wall facing the water injector 14. [0120] In any case, the bottom 28 will exert an axial compression force on the sealing member 11. [0121] In case e.g. an O-ring is placed on the side wall 7 of the capsule 1, the radial component of the compression force will prevail.
-18 List of reference numeral: 1 capsule 2 beverage production device (,,coffee machine,,) 3 ingredients 4 First wall element (e.g. cup-like base body of the capsule) 5 Second wall element (e.g. foil member) 6 flange-like rim 7 side wall of the base body 8 sealing member 9 enclosing member (e.g. bell-shaped member) 10 transition area 11 O-ring 12 relief elements 13 capsule holder 14 water injector 15 sealing surface of the enclosing (bell-shaped) member 16 perforation in the first (e.g. bottom) wall of the capsule 17 Top wall of the capsule 18 annular support ring of the enclosing (bell) member 19 thread for mounting the enclosing (bell) member 20 water inlet opening of the enclosing (bell) member 21 grooves in the annular front surface of the enclosing (bell) member 22 grooves in a support ring of the capsule holder 23 annular front surface of the enclosing (bell) member 24 perforation element (blade) of the water injector 25 circumferential wall of the enclosing (bell) member 26 stepped sealing member 27 Wrapping of the foil member 28 Bottom wall of the enclosing member [0122] This application is a divisional application of Australian patent application number AU2012200422 which is a divisional application of Australian patent application number AU2005298933 claiming priority from European Application EP 04025320.5. Australian patent application number AU2005298854, and divisional applications AU2010201295, and - 19 AU2014202444 also claim priority from European Application EP 04025320.5. The specifications of AU2005298933, AU2012200422, AU2005298854, AU2010201295, and AU2014202444as originally filed are hereby incorporated by reference in their entirety with the specification of AU2005298933 as filed reproduced herein as Appendix A.
- 20 Appendix A [0123] The present invention generally relates to capsules for containing beverage ingredients, to a beverage producing system for use in connection with such capsules as well as to methods for producing beverages on the basis of ingredients contained in such capsules. [0124] The background of the present invention is the field of capsules which contain beverage or other comestible (e.g. soup) ingredients. By means of an interaction of these ingredients with a liquid, a beverage or other comestibles, such as for example soups, can be produced. The interaction can be for example an extraction, brewing, dissolution, etc. process. Such a capsule is particularly adapted to contain ground coffee in order to produce a coffee beverage by having hot water under pressure enter the capsule and draining a coffee beverage from the capsule. [0125] A capsule as shown in FR 2160634 relates to an apparatus for making coffee beverage from a cartridge in which a water injection device is placed hermetically against the upper side of the cartridge. The water injection device includes a seal which is applied on the upper rim of the capsule. However, the seal is part of the apparatus. [0126] EP 0361569 Al does not show a sealed capsule, but a coffee filter unit which is not sealed when placed into the coffee machine but simply press fitted in a cartridge casing, such that water can be poured on a filter paper provided at the open upper side of the coffee filter unit. To avoid spilling of water outside the filter unit's upper rim, the peripheral portion of a filter paper is clamped between the outer rim of the coffee filter unit wall and the surrounding wall of the machine. Such a design is a device which filters a beverage at atmospheric pressure and which is so not adapted to withstand the typical water injection pressure of e.g. more than 3 bars or even much higher pressure which reigns in the capsule when an espresso-style coffee is produced. [0127] FR 2617389 describes a low cost filter cartridge adapted to be brewed at relatively low pressure in a beverage device. The body of the capsule is entirely made from injection moulded plastic, preferably polypropylene as the main constituent of the capsule. The capsule has a flange like-rim made of the same material as the main constituent of the capsule which is thus crushed during closure of the device about the capsule. The capsule is combined to a brewing device which is a bayonet-like closure system which applies closure forces on the capsule's rim which depends on the tightening torque applied by the user. Therefore, the - 21 capsule's rim is crushed up to a point at which a certain seal effect can be obtained. One problem is that it is not possible with a simple flange-like rim, even with an increase of thickness, made of the same plastic material as the body of the capsule that normally requires a sufficient rigidity, to provide a seal effect which is sufficient to stop water or maintain a controlled internal pressure level, at the elevated relative pressure of extraction; i.e., within a pressure range sufficient to deliver an espresso-like coffee with crema. Furthermore, most modern beverage machines have closure devices that close at a predefined closure force and do not depend on the user's force therefore requiring an adaptation of the seal to the machine and not the opposite. [0128] Systems and methods for obtaining fluid comestibles from substances containing capsules are for example known from EP-A-512470 (counterpart of US 5,402,707). [0129] The capsule 101 as shown in Fig. 1 has a frustroconically-shaped cup 102 which may be filled e.g. with roasted and ground coffee 103 and which is closed by a foil-like tear face cover 104 welded and/or crimped to a flange-like rim which extends laterally from the side-wall of cup 102. A capsule holder 111 comprises a flow grill 112 with relief surface element members 113. [0130] The capsule holder 111 is accommodated in its support 115 which has a lateral wall 124 and a bore 127 for the passage of extracted coffee beverage. [0131] As can be seen from fig. 1 the extraction system further comprises a water injector 107 having a water inlet channel 120 and an annular element 108 with an internal recess of which the shape substantially corresponds to the outer shape of the capsule. On its outer part, the annular member 108 comprises a spring 122 holding a ring 123 for releasing the capsule on completion of extraction. [0132] In operation, a capsule 101 is placed in the capsule holder 111. The water injector 107 perforates the upper face of the cup 102. The lower tear face 104 of the capsule rests on the radially arranged members 113 of the capsule holder 111. [0133] The water is injected through the channel 120 of the water injector 107 and impinges on the bed 103 of coffee. The pressure in the capsule 101 increases and the tear face 104 increasingly follows the shape of the radial opening relief members 113. Such radial opening relief members could be replaced by pyramid-shaped reliefs or other shapes of relief. When - 22 the constituent material of the tear face reaches its breaking stress, the tear face tears along the relief members. The extracted coffee flows through the orifices of the flow grill 112 and is recovered in a container (not shown) beneath the bore 127. [0134] The principles of this extraction process as far as it can be maintained in connection with the present invention can be summarized as follows: - An initially sealed capsule is inserted in capsule holder means; - The capsule holder means is then introduced associated to the water injection means of the machine such that an annular element (108 in Fig. 4) surrounds the sealed capsule. [0135] D In a first wall of the capsule at least one opening is generated. [0136] H Water entering the capsule through the opening in the first wall is interacting with the ingredients contained in the capsule while traversing the interior of the capsule and is then made to leave the capsule through at least one opening/perforation created in the second wall. [0137] The ingredients in the capsule constitute the "bottleneck" of the flow path of the water and will therefore cause a pressure drop between the upstream and the downstream side of the liquid flow through the capsule, which pressure drop will even increase during the interaction between the liquid and the ingredients for example due to a swelling of the ingredients. Correspondingly it has to be assured that the only water flow is actually taking place through the interior of the capsule (arrow Al) and that no water can flow from the water injector into the interstice between the annular enclosing member 108 and the exterior of the capsule 101 and then to the draining bore 127 of the device. The arrow A2 illustrates this undesired water flow path. With other words, any water flow exterior to the capsule 101 has to be stopped by a sealing engagement being positioned in the interstice between the annular member 108 and the capsule 101 and in the flow path between the water injector and the beverage-draining bore. In the embodiment as shown in Fig. 1 such sealing engagement can be achieved at least to a certain degree by the pinching engagement between the annular member 108, the flange-like rim of the side wall of the capsule 101 and the capsule holder. [0138] In case the sealing engagement is not working properly and water is flowing outside the capsule, no pressure sufficient to cause the tearing of the tear face will be built up inside the capsule or, alternatively, the pressure will be causing no complete tearing of the tear face - 23 and therefore a poor extraction of the substance. In such a scenario water will be drained from the beverage production device without having interacted or fully interacted under sufficient pressure conditions, with the ingredients contained in the capsule. [0139] An improvement could be thought of according to which this sealing engagement is further improved by lining the inner wall of the annular member with a rubber-elastic material. With other words, according to said approach the sealing engagement is assured by structures fixed to or attached with the beverage-producing device. This has disadvantages in that after the use of a substantial number of capsules a wearing off of the fixed sealing means can take place such that the quality of the produced beverage is increasingly deteriorated by water passing the no longer properly efficient sealing. [0140] Any ,,leak,, at the exterior of the capsule reduces the pressure build-up inside the capsule. On the other hand, it is well known that a sufficient extraction pressure is a key factor for the quality of espresso-style coffee. [0141] The present invention correspondingly aims at an improvement of the sealing engagement positioned between the liquid inlet and the beverage draining side of such a beverage production system. [0142] It is thereby the central idea of the present invention to transfer a resilient part of the sealing engagement from the beverage production device to the capsule. The advantage is that any resilient sealing member is only used once (i.e. only with the associated capsule) such that a proper functioning of the sealing can be assured and no hygienic problems can occur at the sealing member. [0143] Note that the present invention thus especially aims at an improvement of the capsules, such that state-of-the-art beverage production devices with built-in sealing means as for example shown in EP-A-512470 can also be used in connection with a capsule according to the present invention. [0144] The object is achieved by means of the features of the independent claims. The depending claims develop further the central idea of the present invention. [0145] According to a first aspect of the present invention a capsule for containing beverage (or other liquid comestibles) ingredients is proposed. The capsule is designed for - 24 insertion in a beverage production device in order to have a liquid under pressure have enter the capsule and to interact with the ingredients in the capsule. According to the invention the outer surface of the capsule comprises a resilient sealing member being structurally arranged to be in a sealing engagement with at least a matching pressing surface of the beverage production device. [0146] The resilient sealing member of the capsule is deformed when the capsule is put in sealing engagement with the enclosing member of the beverage production device. The deformation leads to an initial biasing of the sealing member against the enclosing member. [0147] The sealing member can thereby be resilient due to its shape and/or the material used. [0148] The sealing member can be bendable so that it can exert a biasing force against the matching pressing surface of the beverage production device. [0149] The sealing member can also be compressible so that the sealing engagement is obtained by the pressing surface of the beverage production device exerting a positive pressure force on the sealing member, from a first uncompressed thickness of the capsule to a second compressed thickness of the member. [0150] The sealing member can be made integral to the capsule or be associated as a separate piece to the capsule. In the latter case the sealing member can be removable or, alternatively, can be fixedly connected to the capsule. [0151] The sealing member can for example have the shape of an 0 or L-shaped ring. [0152] The sealing member can be attached to the capsule using an adhesive or by (thermal or ultrasonic) welding. Alternatively the sealing member can be held in position surrounding the capsule due to its inherent material tension or stretching characteristics. In another possible embodiment, the sealing member may be pinched by the capsule material. [0153] The capsule can be made of plastics or a metal such as e.g. aluminum.
- 25 [0154] According to another aspect of the present invention a capsule is proposed having a base body and/or foil member made of plastics material, wherein at least a portion of the base body is designed to be perforated when properly placed in the beverage production device. [0155] According to another aspect a beverage producing system is proposed comprising such capsule and a beverage production device. [0156] According to a further aspect of the present invention the method for producing a beverage is proposed in which a pressure-tight sealing engagement of an element of the beverage production device and a sealing member of the capsule assures that the only liquid medium flow path between the perforated opening in the top wall of the cup-like base and the opening in the foil member traverses the interior of the capsule. [0157] Another aspect of the present invention relates to a beverage producing method according to which both in the base body and the foil member of such capsule, both being made of plastics, perforations are generated. [0158] The term "matching pressing surface" as used herein is typically a portion of the beverage production device. This can be a surface of the enclosing member which is typically one part of the device which covers at least one side of the capsule upon closing of the device to encompass the capsule. [0159] Further advantages, features and objects of the present invention will become evident for the man skilled in the art when reading the following detailed description of embodiments of the present invention taking in conjunction with the figures of the enclosed drawings. [0160] Fig.1 shows an extraction capsule known from EP-A-512470, [0161] Fig. 2 shows a first embodiment of the present invention in which a capsule is placed on the capsule holder but has not yet reached its closing position in the beverage production device, [0162] Fig. 3 shows an enlarged in view of Fig. 2 - 26 [0163] Fig. 4 shows the first embodiment in a state, in which a capsule has reached its closing position between a bell member and the capsule holder, [0164] Fig. 5 shows a perspective view of a capsule holder, a bell member and a capsule according to the first embodiment in a position in which the capsule has not yet reached its closing position, [0165] Fig. 6 shows a second embodiment of the present invention, [0166] Fig. 7 is an enlarged view of a detail of Fig. 6, [0167] Fig. 8 is a perspective view of the second embodiment, [0168] Fig. 9 shows the second embodiment in a state in which the capsule has reached its closing position, [0169] Fig. 10 shows a third embodiment in which the sealing member of the capsule is part of the side wall of the capsule [0170] Fig. 11 is a detailed view of Fig. 10, [0171] Fig. 12 shows the sealing engagement according to the third embodiment, [0172] Fig. 13 shows a fourth embodiment in which the sealing member is part of the top wall member of the capsule, and [0173] Fig. 14 shows the fourth embodiment in the final state. [0174] With reference to Fig. 2 now a first detailed embodiment will be explained. [0175] Note that in the following the invention will be explained referring to a certain design of a capsule, i.e. a design according to which the capsule comprises a cup-like base body and a closing foil member. However, it is to be understood than other designs of the capsule are viable, such as e.g. capsules having an inverted cone or a lenticular form with two essentially matching and opposing walls (e.g. foils) being sealed at the e.g. ring-shaped edge. Generally a capsule according to the present invention comprises at least two opposing wall members - 27 which are connected to each other at the edges to form a sealed flange-like rim area, thus enclosing a sealed interior. [0176] Comparable to the prior art also this embodiment shows a capsule holder 13 having relief elements 12 which are designed to tear and perforate a foil member 5 closing off a cup like base body 4 of the capsule 1. This tearing of the foil member can e.g. occur as soon as the pressure inside the capsule exceeds a threshold value. The word "tearing" includes actions such as breaking, cutting or puncturing as well as typical tearing by stretching the material beyond its tensile strength. Note that the relief elements can have any protruding shape able to cause a (partial) tearing of the foil member. As an example only pyramids, needles, blades, bumps, cylinders, elongated ribs are cited. [0177] Within the capsule 1 ingredients 3 are contained, wherein the ingredients 3 are selected such that a beverage can be produced when having a liquid entering the capsule in the region of the top wall 17 of the capsule 1 and then interact which such ingredients 3. Preferred ingredients are e.g. ground coffee, tea or any other ingredients from which a beverage or other liquid or viscous comestible (e.g. soup) can be produced. [0178] Fig. 2 shows a state in which such a capsule has been placed on a capsule holder 13, the foil member 5 resting on the relief element 12 side of the capsule holder 13 and the cup-like base body 4 of the capsule 1 being already partly surrounded by the circumferential wall 25 of an enclosing member 9 of the beverage production device. The shown enclosing member has the shape of a bell. Other shapes are viable, wherein the design of the interior contours (recess) of the enclosing member is generally adapted to substantially match the contours of the capsule 1. [0179] Note that the foil member 5 as shown is not exactly flat due to a defined over pressure inside the capsule, which over pressure is generated by introducing e.g. a protective gas when producing the filled capsule. [0180] The capsule can also include one of more inner filters. A bottom filter can be placed in contact with the inner surface of the foil 5 and/or a top filter can be placed at least partially in contact with the inner surface of the body 4.
- 28 [0181] In another mode, the capsule can also have foil member 5 which is flat or even curved inwardly toward the interior of the chamber and that deforms at a certain amplitude as a response to the pressure exerted inside the chamber during the extraction process. [0182] The enclosing (bell) member 9 furthermore comprises an annular support skirt 18, the function of which will be explained later, an external thread 19 for mounting the bell member in a beverage production device and a water inlet opening 20 for feeding a liquid such as for example hot water under pressure to a water injector 14 which is releasable mounted (screwed) to the bell member 9. [0183] Note that the thread 19 is just an example for connection means, be it releasable or permanent connection means. [0184] The other components of the beverage production device, such as e.g. the mechanism for displacing the bell member and eventually also the capsule holder are known from the prior art in the field of capsule-based espresso machines. [0185] The water injector comprises a perforation element (blade, pin, etc.) 24 designed to produce an opening in the top wall 17 of the capsule 1 when the capsule holder 13 and the bell member 9 are moved close together e.g. by a manually operated or an automatic mechanism. A channel (not shown in the drawings) traverses the perforation element 14 such that water can be fed to the interior of the capsule 1 once the perforation element 14 protrudes into the interior of the capsule 1. [0186] The capsule 1 comprises said top wall 17, a sidewall 7 and a flange-like rim 6 with a clamping portion 29, wherein the foil member 5 is sealed to said flange-like rim 6 to close-off hermetically the cup-like base body 4 of the capsule 1. Again, other designs for the capsule are possible as long as the capsule can be sealed and contain the mentioned ingredients. [0187] According to the present invention the outer surface of the capsule 1 presents a dedicated sealing member 8. The sealing member 8 can be resilient due to the material used and/or due to the geometrical shape of the sealing member 8. [0188] Further on, the sealing member 8 can be integral to the capsule 1 or a separate piece. In the latter case the sealing member can be mounted releasably to the base body 4 or fixed thereto e.g. by welding or by means of an adhesive.
- 29 [0189] In case the sealing member 8 is a separate piece attached to the capsule 1, it can be mounted to the capsule as one integral piece. Alternatively it can be applied in fluid or viscous form and then can harden (e.g. polymerize) once applied onto the outer surface of the capsule, which is the case e.g. when applying silicone. [0190] If a resilient material is used for the sealing member 8, preferably rubber-elastic materials are used. The term "rubber-elastic" means any suitable material having rubber elasticity including but not limited to elastomers, silicones, plastics, latex, balata or others. [0191] Particularly suitable materials for the seal member 8 are: EPDM (Ethylene Propylene Diene Monomer), NBR (Acrylic Nitrile Rubber), TPE (thermoplastic elastomer) or silicone rubber. These materials have particular good flex, compressive properties and can resist high temperatures without cracking. [0192] In case the material of the sealing member is the same as the one used for the capsule (e.g. a metal such as aluminum or plastics), preferably the resilient nature of the sealing member is procured by the geometrical shape of the sealing member. [0193] In the embodiment according to Fig. 2 the sealing member 8 is resiliently deflectable due to the lip-shaped form. It prolongs the clamping portion 29 of the flange-like rim but it is not supposed to be clamped so as to be able to deflect freely under pressure. It is made from the same material as the capsule, preferably plastics. It can be an integral piece of the base body 4 of the capsule 1. [0194] The clamping portion 29 of the flange-like rim is configured to form an annular surface that is clamped at least partially by the matching surfaces of the beverage production device. As a result, the sealing member 8 is released from the forces or stresses that can apply as a result of the tearing of the foil member 5 onto the relief elements 12. [0195] The flexible free lip 8 extends from the outer edge of the flange-like rim 6 and is inclined outwards. In the shown embodiment the flexible lip is the edge of the side walls of the base body of the capsule, which edge is bent by an angle A (relative to the flat clamping portion of the flange-like rim or sealing plane P) of more than about 90 degrees, preferably comprised between 95 and 175 degrees.
- 30 [0196] Note that such deflectable sealing member 8 can be placed at any position onto the capsule 1 as long as the position is adapted for an exterior sealing engagement of the sealing member 8 and the enclosing member 9 between the water injector 14 and the perforations in the foil member 5. The sealing member 8 can also be provided on the region of the top wall 17 of the capsule 1 surrounding the water injector 14 when the water injector 14 is in a position protruding into the interior of the capsule 1. The sealing member 8 can also be arranged to cover different portions (bottom, side wall, flange-like rim) of the capsule. [0197] As can be seen in detail in Fig. 3, the bell member 9 according to this embodiment does not comprise any dedicated resilient sealing member. However, the bell member optionally can also comprise a resilient sealing member. [0198] An inclined sealing surface 15 of the bell member 9 is designed to cooperate with the resiliently deflectable sealing member 8 of the capsule 1. The sealing surface 15 is inclined toward the free flexible lip constituting the sealing member. In particular, the sealing surface 15 forms preferably an angle B relative to the sealing or closure plane P, when measured in the inward direction of the capsule, of 90 degrees or less. Preferably, the angle B is of from 85 to 50 degrees. [0199] Depending on the form and material of the sealing member 8 of the capsule 1, the cooperating surface of the bell member 9 can have any shape, position and orientation which are adapted for a sealing engagement with the sealing member 8 of the capsule 1. [0200] Upon closing of the device about the capsule, as shown in Fig. 4, the bell member 9 and capsule holder 13 clamp together the capsule along the clamping portion 29 of the flange like rim. For this the bell member 9 can include one or more annular raising portions that firmly pinch or clamp the clamping portion 29 of the capsule onto a receiving portion surface 31 of the capsule holder. The clamping portion can further form an indent that is complementary an indentation of the surface 31. Therefore, an annular chamber 32 is formed as resulting from the assembly in closure of the bell member 9 and capsule holder 13 that encloses the sealing member 8. As a result the capsule is firmly held in place and tensile forces are released at the free lip that can deflect freely in the chamber toward the inclined surface 15 whereby a perfect watertight sealing can be obtained. [0201] Fig. 4 shows the state in which the bell member 9 and the capsule holder 13 are brought in closing pressure engagement and due to the water entering the interior of the - 31 capsule and building up a pressure there the pyramidal relief members 12 of the capsule holder 13 have already produced openings in the foil member 5 of the capsule 1. Upon insertion of the capsule the blade element 24 of the water injector 14 creates a perforation 16 in the top wall 17 of the capsule 1. When a sufficient pressure of fluid has been built inside the capsule, the beverage produced from the ingredients contained in the capsule can be drained in small interstices between the relief members 12 and the surrounding foil member 5. [0202] In the state shown in Fig. 4 the resiliently deflectable sealing member 8 of the capsule 1, i.e. the flexible lip, is biased against the corresponding inclined sealing surface 15 of the enclosing member 9. The annular support skirt 18 now covers the end of the flange-like rim 6 of the capsule 1 while the clamping portion 29 is clamped between surfaces 30, 31 of the device to ensure that the sealing member 8 and the capsule as such remain in position when the sealing surface 15 of the bell member exerts a certain pressure force of the sealing member 8. [0203] Actually, the lip-shaped sealing member 8 represents an example of a construction for providing a self-reinforcing sealing engagement. Water coming from the water injector will be pressurized within the interstice between the exterior of the capsule and the enclosing member and will eventually arrive at the lip-shaped sealing member. The lip-shaped sealing member will block the water flow as it is biased against the sealing surface of the annular member. This blocking effect will lead to the pressure raising at the upstream-side of the sealing member which in turn will lead to the sealing member being pressed even stronger against the sealing surface and thus to a sealing engagement which is the stronger the higher the pressure at the sealing engagement. [0204] In the embodiment of Fig. 5 grooves 22 are provided in the circumference of capsule holder 13, which grooves 22 act to evacuate water which could settle or accumulate on the upper surface of the capsule holder 13 or dripping out of the capsule before the capsule has been removed. [0205] Fig. 6 shows an embodiment essentially corresponding to a variant of the first embodiment of Fig. 2. The sealing member 8 according to this embodiment is compressible. It covers both a portion of the side wall 7 and the area between the outer end of the flange-like rim 6 of the capsule 1 and said side wall 7. (The sealing member can also cover only a portion of the side wall 7 of the base body 4 of the capsule 1.) The sealing member 8 according to this embodiment has a non-symmetrical, i.e. L-shaped cross-section. The sealing member can be - 32 made of a material that is more resilient than the material of the base body. In particular, the sealing member can have a hardness that is lower than the hardness of the material of the base body 4 of the capsule. [0206] The sealing member is preferably a rubber-like material. Particularly suitable materials are: EPDM (Ethylene Propylene Diene Monomer), NBR (Acrylic Nitrile Rubber), TPE (thermoplastic elastomer) or silicone rubber. These materials have particular good flex, compressive properties and can resist high temperatures without cracking. [0207] Alternatively, the sealing member 8 can have other shapes such as e.g. a film applied to the capsule, an O-ring, etc. [0208] When the capsule 1 is in a position as shown in Fig. 4 and then, after having finished the beverage production process, the holder 13 is opened, there is a risk that the capsule 1, instead of falling down, remains sucked into the bell member 9 due a "vacuum effect". As shown in Fig. 8 the invention proposes to provide for a mechanism which assures that the type sealing engagement between the capsule 1 and the bell member 9 is only present as long as the bell member 9 is engaged against the capsule holder 13, but automatically released such that air can get into the space between the top wall 17 and the side walls 7 of the capsule 1 and the inner wall of the bell member 9, respectively. [0209] As can be seen from Fig. 8, especially in case the sealing member 8 covers a portion of the side walls 7 of the capsule 1, the annular front surface of the bell member 9 can be provided with grooves 21 which, act as air inlet passage for feeding air. The grooves allow the intake of air once the biasing force between the bell member 9 and the capsule holder 13 is released. Air is thus flowing into this space and it will be easier for the user to take out the capsule 1. Eventually, the capsule 1 will even automatically fall down from the bell element 9. [0210] Fig. 9 shows the state of the second embodiment in which the front surface 23 of the bell member 9 is in sealing engagement with the sealing member 8 of the capsule 1. [0211] Figures 10 to 12 show a third embodiment of the present invention in which the resilient nature of the sealing member is due to the geometrical hollow shape of the capsule itself. In the depicted embodiment the sealing member has the shape of a step 26, i.e. a sudden increase of the diameter of the side wall 7 of the capsule 1. Therefore, the sealing member forms a hollow deflectable and compressible structure sufficient to deforms under the - 33 closure forces applied by the bell-shaped member onto the capsule holder 13. Note that the geometrical form is not limited to the shown step and other forms are viable as long as they procure a resilient or at least deformable nature of the sealing member. [0212] The step-like sealing member 26 according to this embodiment is only one example for a hollow sealing member (in contrast e.g. to the "filled" sealing member 8 according to the second embodiment, figures 6 to 9). When the resiliency of the sealing member is procured by the geometrical hollow shape, usually a deflection of the sealing member occurs (here: inwards and downwards deformation of the step). On the other hand, when the resilient nature is due to the material used and a "filled" sealing member is used, usually a compression and/or displacement of the material occurs. Preferably, the material for the capsule will be chosen amongst polymeric materials having deflectable and resilient properties. [0213] The sealing surface 15 according to this embodiment is inclined. Thus the sealing pressure has a first component being directed radially inside and another component being directed axially (downwards in figure 12). [0214] As can be seen especially from figure 12, the foil member 5 can be wrapped (see reference 27) over the rim of the capsule. [0215] Fig. 13 and Fig. 14 show a fourth embodiment in which the sealing member is an 0 ring 11. The O-ring is geometrically arranged and, preferably fixed, on the top wall 17 of the capsule 1. This is just an example of providing a sealing member at the exterior of the capsule 1 at the side which faces the water injector and which will be perforated in order to create the water inlets to the capsule 1. [0216] The O-ring 11 is positioned to peripherally surround the area in which the water injector 14 perforates the top wall 17 of the capsule 1. The sealing member 11 is thus compressed by the bottom 28 of the enclosing member 9 and (see figure 14) secured in place by the upper end of the circumferential side wall 25 of the enclosing member 9. [0217] Note that the bottom 28 can be substantially flat or inclined to ensure a sufficiently water-tight interface with the sealing member 11 when the capsule is fully engaged in the enclosing member 9 at closing of the device.
- 34 [0218] As an alternative to the O-ring 11, also a deflectable lip-like sealing member (e.g. comparable to the lip 8 according to the first embodiment, see figure 2) can be placed protruding from the top wall 17 of the capsule 1, i.e. the wall facing the water injector 14. [0219] In any case, the bottom 28 will exert an axial compression force on the sealing member 11. [0220] In case e.g. an O-ring is placed on the side wall 7 of the capsule 1, the radial component of the compression force will prevail. [0221] In an alternative, the foil member 5 could be replaced by a wall that can be pierced against at least one relief element before water is injected in the capsule, for instance, as resulting of the closure of the machine about the capsule. [0222] In one aspect, the invention provides a capsule for containing beverage ingredients, the capsule (1) being designed for insertion in a beverage production device (2) in which a liquid under pressure enters the capsule (1) in order to interact with the ingredients (3) in the capsule (1) and to drain a beverage from the capsule (1), the capsule has a sealing member (8, 11, 26) on the outer surface of the capsule (1) characterized in that the sealing member (8) is configured to be compressible in sealing engagement with at least a matching pressing surface of the beverage production device (2) and wherein the sealing member (8) is resilient. [0223] Preferably, the sealing member (8,26) is resilient due to its shape. [0224] Preferably, the sealing member is arranged to exert a biasing force against the matching pressing surface of the beverage production device. [0225] Preferably, the sealing member (8, 11, 26) is compressible and resilient due to the constituent material. [0226] Preferably, the sealing member (26) has a hollow deflectable structure. [0227] Preferably, the sealing member (8, 11, 26) is designed to compress from a first uncompressed thickness to a second compressed thickness. [0228] Preferably, the sealing member (8, 11) is made of a material other than the material of the rest of the capsule (4, 5).
- 35 [0229] Preferably, the sealing member (8) is made of a material having a lower hardness than the material of the rest of the capsule (4, 5). [0230] Preferably, the sealing member (8, 11) is made of a rubber-elastic material. [0231] Preferably, the rest of the capsule (4, 5) is made of non-rubber elastic material and/or metal such as aluminium. [0232] Preferably, the sealing member (8, 26) is made from at least one of the constituent material(s) of the rest of the capsule (4, 5). [0233] Preferably, the capsule is comprised of a first and a second wall element being connected with each other in an gas-tight fashion in a flange-like rim area in order to create a sealed interior for the ingredients. [0234] Preferably, the sealing member (8) is provided at least in the transition area (10) of the flange-like rim (6) and one of the wall elements. [0235] Preferably, the sealing member (8,11) is provided on a wall between the flange-like rim and the location on the capsule where the water injector is introduced. [0236] Preferably, the capsule (1) comprises a cup-like base body (4) and a closure member (5). [0237] Preferably the sealing member (8) is present both on the flange-like rim (6) and a portion of a side wall (7) of the base body (4). [0238] Preferably, the sealing member (8, 26) is an integral part of one of the wall elements (4,5). [0239] Preferably, the sealing member (8, 11) is a piece different from the wall elements (4, 5) of the capsule. [0240] Preferably, the sealing member (8, 11) has the shape of an O-ring (11). [0241] Preferably, the sealing member has a L-shaped cross-section.
- 36 [0242] Preferably, the sealing member (8, 11) is attached to one of the wall elements (4, 5) using an adhesive or by welding or by pinching or crimping or a combination thereof. [0243] The invention also provides a beverage producing system, comprising a capsule (1) as described above and a beverage production device, the beverage production device having an enclosing member (9) adapted to be selectively in sealing engagement with the sealing member (8, 11, 26) of the capsule (1). [0244] Preferably, the sealing engagement is only effective as long as the enclosing member (9) exerts a minimum pressure on the capsule (1), but is automatically released as soon as the pressure falls below said minimum pressure. [0245] Preferably, grooves (21) are provided in the circumference of the enclosing member (9), which grooves (21) act as air inlet passages for feeding air through these grooves (21) and through the released sealing engagement between the capsule (1) and the enclosing member (9). [0246] Preferably, the enclosing member (9) comprises additional sealing means adapted to assist to the sealing engagement between the enclosing member (9) and the capsule (1). [0247] Preferably, the sealing pressure acting at the sealing engagement has a radial an/or axial component relative to the center axis of the capsule (1). [0248] The invention also provides a method for producing a beverage, the method comprising the following steps: - providing a capsule containing ingredients and comprising a first wall member (4) and a second wall member (5) sealed to each other by a flange-like rim (6), - positioning the capsule (1) in a beverage production device and producing at least one opening both in the first and the second wall member (4, 5), - having a liquid enter the capsule (1) at the least one opening in the first wall member (4) and having the liquid leave the capsule (1) through at least one opening in the second wall member (5), wherein the opening in the first wall member (4) is separated from the opening in the second wall member (5) by a pressure-tight sealing engagement of an element of the beverage production device and a sealing member (8, 11, 26) of the capsule (1), such that the liquid can only flow through the capsule (1), but not at the exterior of the capsule (1)..

Claims (90)

1. A system comprising: - a capsule-based beverage producing device, and - a capsule for containing beverage ingredients, wherein the beverage production device is provided with: - means for injecting a liquid under pressure into the capsule - means for draining a beverage from the capsule, and - an enclosing member transferable from an opened state to a defined closed state, in which the enclosing member enclose the outer surface of the capsule, a sealing member associated to the capsule, the sealing member being compressible when engaged by the enclosing member in the closed state and the sealing member being effective to compensate for the clearance between the enclosing member and the capsule; which clearance would exist without the sealing member of the capsule, when the enclosing member is in its defined closed position.
2. The system according to claim 1, wherein the sealing member is resilient under compression when it is engaged by the enclosing member in the closed state.
3. The system according to claim 2, wherein the sealing member is effective to resist to an internal pressure of at least 5 bar.
4. 4. The system according to claim 1 or 2, wherein the sealing member is effective to resist to an internal pressure of at least 10 bar.
5. The system according to any of the preceding claims, wherein the enclosing member is arranged such that in the final phase of its transfer movement from its opened state to its closed state, it carries out an essentially axial relative movement with regard to the capsule without a relative rotation of the capsule.
6. The system according to any of the preceding claims, wherein the enclosing member is arranged with regard to the capsule such that during the transfer movement from the opened state to the closed state, the capsule essentially stays in place.
7. The system according to any of the preceding claims, wherein the sealing member is arranged to exert a biasing force against a matching pressing surface of the beverage production device. - 38
8. The system according to claim 6 or 7, wherein the pressing surface is comprised has a linear and/or frustroconical contour when seen in a radial section view (Fig. 6).
9. The system according to claim 6 or 7, wherein the pressing surface has a non-linear contour when seen in a side view.
10. The system according to claim 9, wherein the contour of the pressing surface is provided with corrugations.
11. The system according to any of the preceding claims, wherein the sealing member is made of a rubber-elastic material.
12. The system according to any of the preceding claims, wherein the sealing member is made from the constituent material of the capsule.
13. The system according to any one of the preceding claims, wherein it is comprised of a first and a second wall element being connected with each other in an airtight fashion in a flange-like rim area in order to create a sealed interior for the ingredients.
14. The system according to claim 13, wherein the sealing member is provided at least in the transition area of the flange-like rim and one of the wall elements.
15. The system according to claim 13, wherein the sealing member is provided on a wall between the flange-like rim and the location on the capsule where the water injector is introduced.
16. The system according to claim 13, wherein the sealing member is present both on the flange-like rim and a portion of a side wall of the base body.
17. The system according to claim 13, wherein the sealing member is an integral part of one of the wall elements.
18. The system according to claim 13, wherein the sealing member is separate to the wall elements.
19. The system according to claim any one of the preceding claims, wherein the sealing member has the shape of an O-ring or a ring having a L-shaped cross-section. - 39
20. The system according to any one of claims 18 or 19, wherein the sealing member is attached to one of the wall elements using an adhesive or by welding or by pinching or crimping or a combination thereof.
21. The system according to any one of the preceding claims, wherein the sealing engagement is only effective as long as the enclosing member exerts a minimum pressure on the capsule, but is automatically released as soon as the pressure falls below said minimum pressure.
22. The system according to any one of the preceding claims, wherein grooves are provided in the circumference of the enclosing member, which grooves act as air inlet passages for feeding air through these groovesand through the released sealing engagement between the capsule and the enclosing member.
23. The system according to any one of the preceding claims, wherein the enclosing member comprises additional sealing means adapted to assist to the sealing engagement between the enclosing member and the capsule.
24. The system according to any one of the preceding claims, wherein the sealing pressure acting at the sealing engagement has a radial an/or axial component relative to the center axis of the capsule.
25. A method for producing a beverage, the method comprising the following steps: - positioning a capsule in a beverage production device while closure means of the beverage production device are in an opened state, wherein the capsule is associated with a sealing means, the sealing means being compressible, and in that the method further comprises: - transferring the closure means from the opened state to a defined closed state, while in the final phase of the transfer movement the closure means engage and bias the sealing means of the capsule, wherein the sealing member of the capsule compensates any clearance between the enclosing member and the capsule when the enclosing member is in its defined closed state, which clearance would exist without the compensatory effect of the sealing member of the capsule, - having a liquid under pressure enter the capsule at the least one opening in the - 40 first wall member and having the liquid leave the capsule through at least one opening in the second wall member.
26. The method according to claim 25, wherein the sealing member is resilient under compression when it is engaged by the enclosing member in the closed state.
27. The method according to claim 25 or 26, wherein the opening in the first wall member is separated from the opening in the second wall member by a pressure-tight sealing engagement of an element of the beverage production device and a sealing member of the capsule, such that the liquid can only flow through the capsule, but not at the exterior of the capsule.
28. The method according to any one of claims 25 to 27, wherein in the final phase of the transfer movement the enclosing member compress the sealing means of the capsule at least partially.
29. The method according to any one of claims 25 to 28, wherein the sealing engagement of the enclosing member and the sealing means of the capsule withstands a pressure in the range of 2 to 20 bars, preferably 4 to 15 bars.
30. The method according to any of claims 25 to 29, wherein the pressure-tight sealing engagement is caused by the sealing member of the capsule and that such sealing engagement is not present when using a capsule without such sealing member.
31. A beverage or other comestible, produced according to a method according to any one of claims 25 to 30.
32. A beverage production system comprising a capsule-based beverage producing device, for use with a capsule for containing beverage ingredients, the capsule comprising: a first wall element in the form of a cup-like base body; a second wall element in the form of a foil member; a flange-like rim area at which the foil member is sealingly connected to the cup-like base body in an airtight fashion thereby to seal the ingredients within the interior of the capsule; and a sealing member; wherein the beverage production device is provided with: - 41 means for injecting a liquid under pressure into the capsule; means for draining a beverage from the capsule; and an enclosing member transferable from an opened state to a defined closed state, in which the enclosing member encloses the outer surface of the capsule, a capsule holder having relief elements which tear and perforate the foil member wherein the sealing member is compressed when engaged by the enclosing member in the closed state; the sealing member is effective to compensate for the clearance between the enclosing member and the capsule; which clearance would exist without the sealing member of the capsule, when the enclosing member is in its defined closed position; and wherein the sealing member is provided on a wall of the capsule between the flange-like rim and a location on the capsule where liquid is introduced into the capsule by the means for injecting a liquid under pressure.
33. A system according to claim 32, wherein the sealing member is resilient under compression when it is engaged by the enclosing member in the closed state.
34. A system according to claim 33, wherein the sealing member is effective to resist to an internal pressure of at least 5 bar.
35. A system according to claim 32 or 33, wherein the sealing member is effective to resist to an internal pressure of at least 10 bar.
36. A system according to any one of the preceding claims 32 - 35, wherein the enclosing member is arranged such that in the final phase of its transfer movement from its opened state to its closed state, it carries out an essentially axial relative movement with regard to the capsule without a relative rotation of the capsule.
37. A system according to any one of the preceding claims 32 -36, wherein the enclosing member is arranged with regard to the capsule such that during the transfer movement from the opened state to the closed state, the capsule essentially stays in place.
38. A system according to any one of the preceding claims 32 - 37, wherein the sealing member is arranged to exert a biasing force against a matching pressing surface of the beverage production device. - 42
39. A system according to claim 37 or 38, wherein the pressing surface is comprised has a linear and/or frustroconical contour when seen in a radial section view.
40. A system according to claim 37 or 38, wherein the pressing surface has a non-linear contour when seen in a side view.
41. A system according to claim 40, wherein the contour of the pressing surface is provided with corrugations.
42. A system according to any one of the preceding claims 32 - 41, wherein the sealing member is made of a rubber-elastic material.
43. A system according to any one of the preceding claims 32 - 42, wherein the sealing member is made from the constituent material of the capsule.
44. A system according to claim 32, wherein the sealing member is provided at least partially in the transition area of the flange-like rim and one of the wall elements.
45. A system according to claim 32, wherein the sealing member is an integral part of one of the wall elements.
46. A system according to claim 32, wherein the sealing member is separate to the wall elements.
47. A system according to any one of the preceding claims 32 -046, wherein the sealing member has the shape of an O-ring or a ring having a L-shaped cross-section.
48. A system according to anyone of claims 46 or 47, wherein the sealing member is attached to one of the wall elements using an adhesive or by welding or by pinching or crimping or a combination thereof.
49. A system according to any one of the preceding claims 32 - 48, wherein the sealing engagement is only effective as long as the enclosing member exerts a minimum pressure on the capsule, but is automatically released as soon as the pressure falls below said minimum pressure. - 43
50. A system according to any one of the preceding claims 32 - 49, wherein grooves are provided in the circumference of the enclosing member, which grooves act as air inlet passages for feeding air through these grooves and through the released sealing engagement between the capsule and the enclosing member.
51. A system according to any one of the preceding claims 32 - 50, wherein the enclosing member comprises additional sealing means adapted to assist to the sealing engagement between the enclosing member and the capsule.
52. A system according to any one of the preceding claims 32 - 51, wherein the sealing pressure acting at the sealing engagement has a radial an/or axial component relative to the center axis of the capsule.
53. A method for producing a beverage, the method comprising the following steps: - positioning a capsule in a beverage production device while closure means of the beverage production device are in an opened state, said capsule comprising: a first wall element in the form of a cup-like base body; a second wall element in the form of a foil member; a flange-like rim area at which the foil member is sealingly connected to the cup-like base body in an airtight fashion thereby to seal beverage ingredients within the interior of the capsule; and a sealing member; wherein the beverage production device further includes a capsule holder having relief elements designed to tear and perforate the foil member, - the method further comprising: - transferring the closure means from the opened state to a defined closed state, while in the final phase of the transfer movement the closure means engage and bias the sealing member of the capsule, wherein the sealing member of the capsule compensates any clearance between the enclosing member and the capsule when the enclosing member is in its defined closed state, which clearance would exist without the compensatory effect of the sealing member of the capsule, - injecting a liquid under pressure into the capsule through an opening in the first wall element; - tearing the foil member by the relief elements, thereby providing a outlet in the foil member for the liquid to leave the capsule; - 44 and wherein the sealing member is provided on a wall of the capsule between the flange-like rim and the opening in the first wall element.
54. A method according to claim 53, wherein the sealing member is resilient under compression when it is engaged by the enclosing member in the closed state.
55. A method according to claim 53 or 54, wherein the opening in the first wall element is separated from the opening in the second wall element by a pressure-tight sealing engagement of an element of the beverage production device and a sealing member of the capsule, such that the liquid can only flow through the capsule, but not at the exterior of the capsule.
56. A method according to any one of claims 53 to 55, wherein in the final phase of the transfer movement the enclosing member compress the sealing member of the capsule at least partially.
57. A method according to any one of claims 53 to 56, wherein the sealing engagement of the enclosing member and the sealing member of the capsule withstands a pressure in the range of 2 to 20 bars.
58. A method according to any one of claims 53 to 57, wherein the sealing engagement of the enclosing member and the sealing member of the capsule withstands a pressure in the range of 4 to 15 bars.
59. A method according to any one of claims 53 to 58 wherein the pressure-tight sealing engagement is caused by the sealing member of the capsule and that such sealing engagement is not present when using a capsule without such sealing member.
60. A beverage or other comestible, produced according to a method according to any one of claims 53 to 59.
61. A capsule containing beverage ingredients for use with a beverage production device, the capsule comprising: - a capsule for containing beverage ingredients, and a sealing member associated to the capsule, wherein the beverage production device is provided with: - 45 - means for injecting a liquid under pressure into the capsule - means for draining a beverage from the capsule, and - an enclosing member transferable from an opened state to a defined closed state, in which the enclosing member enclose the outer surface of the capsule, the sealing member being compressible when engaged by the enclosing member in the closed state and the sealing member being effective to compensate for the clearance between the enclosing member and the capsule; which clearance would exist without the sealing member of the capsule, when the enclosing member is in its defined closed position.
62. A capsule containing beverage ingredients for use with a beverage production device, the capsule comprising: a first wall element in the form of a cup-like base body; a second wall element in the form of a foil member; a flange-like rim area at which the foil member is connected to the cup-like base body to retain the beverage ingredients within the interior of the capsule; and a sealing member; wherein the beverage production device is provided with: means for injecting a liquid under pressure into the capsule; means for draining a beverage from the capsule; and an enclosing member transferable from an opened state to a defined closed state, in which the enclosing member substantially encloses the cup-like base body of the capsule, wherein the sealing member of the capsule is compressed when engaged by the enclosing member in the closed state; the sealing member is effective to compensate for the clearance between the enclosing member and the capsule; which clearance would exist without the sealing member of the capsule, when the enclosing member is in its defined closed position.
63. A capsule according to claim 62, wherein the sealing member is resilient under compression when it is engaged by the enclosing member in the closed state.
64. A capsule according to claim 63, wherein the sealing member is effective to resist to an internal pressure of at least 5 bar.
65. A capsule according to claim 62 or 63, wherein the sealing member is effective to resist to an internal pressure of at least 10 bar. - 46
66. A capsule according to any one of the preceding claims 62 - 65, wherein the enclosing member is arranged such that in the final phase of its transfer movement from its opened state to its closed state, it carries out an essentially axial relative movement with regard to the capsule without a relative rotation of the capsule.
67. A capsule according to any one of the preceding claims 62 - 65, wherein the enclosing member is arranged with regard to the capsule such that during the transfer movement from the opened state to the closed state, the capsule essentially stays in place.
68. A capsule according to any one of the preceding claims 62 - 66, wherein the sealing member is arranged to exert a biasing force against a matching pressing surface of the beverage production device.
69. A capsule according to claim 67 or 68, wherein the pressing surface is comprised has a linear and/or frustroconical contour when seen in a radial section view.
70. A capsule according to claim 67 or 68, wherein the pressing surface has a non-linear contour when seen in a side view.
71. A capsule according to claim 70, wherein the contour of the pressing surface is provided with corrugations.
72. A capsule according to any one of the preceding claims 62 - 71, wherein the sealing member is made of a rubber-elastic material.
73. A capsule according to any one of the preceding claims 62 - 72, wherein the sealing member is made from the constituent material of the capsule.
74. A capsule according to claim 62, wherein the sealing member is provided at least partially in the transition area of the flange-like rim and one of the wall elements.
75. A capsule according to claim 62, wherein the sealing member is an integral part of one of the wall elements.
76. A capsule according to claim 62, wherein the sealing member is separate to the wall elements. - 47
77. A capsule according to claim any one of the preceding claims 62 - 76, wherein the sealing member has the shape of an O-ring or a ring having a L-shaped cross-section.
78. A capsule according to anyone of claims 76 or 77, wherein the sealing member is attached to one of the wall elements using an adhesive or by welding or by pinching or crimping or a combination thereof.
79. A capsule according to any one of the preceding claims 62 - 78, wherein the sealing engagement is only effective as long as the enclosing member exerts a minimum pressure on the capsule, but is automatically released as soon as the pressure falls below said minimum pressure.
80. A capsule according to any one of the preceding claims 62 - 79, wherein grooves are provided in the circumference of the enclosing member, which grooves act as air inlet passages for feeding air through these grooves and through the released sealing engagement between the capsule and the enclosing member.
81. A capsule according to any one of the preceding claims 62 - 80, wherein the enclosing member comprises additional sealing means adapted to assist to the sealing engagement between the enclosing member and the capsule.
82. A capsule according to any one of the preceding claims 62 - 81, wherein the sealing pressure acting at the sealing engagement has a radial an/or axial component relative to the center axis of the capsule.
83. A capsule according to claim 62 wherein the sealing member is provided on a wall of the capsule between the flange-like rim and a location on the capsule where liquid is introduced into the capsule by the means for injecting a liquid under pressure.
84. A capsule according to claim 62 wherein the sealing member is present both on the flange-like rim and a portion of a side wall of the base body.
85. A capsule according to claim 62 wherein the sealing member is present on the flange-like rim of the base body. - 48
86. A capsule according to claim 63 wherein the sealing member is present on a side of the flange-like rim of the base body opposite the foil member.
87. A capsule according to claim 62 wherein the foil member is sealingly connected to the cup-like base body in an airtight fashion thereby to seal beverage ingredients within the interior of the capsule.
88. A capsule for containing beverage ingredients, said capsule designed for insertion in a beverage production device in which a liquid under pressure enters the capsule in order to interact with the ingredients in the capsule and to produce a beverage from the capsule, the capsule including: a cup-shaped body comprising a top wall and a sidewall having an outer surface, said top wall and said sidewall configured to define a cavity that contains beverage forming ingredients therein; a rim-like flange forming a periphery of the sidewall; and a foil member sealed to the flange of the body to retain the beverage forming ingredients in the cavity; a dedicated sealing member which is not part of the foil member and which is present on the flange opposite the foil member to form part of the capsule; wherein the capsule-based beverage producing device includes: a member for injecting a liquid under pressure into the capsule, a member for draining a beverage from the capsule, and an enclosing member that is moveable from an opened state to a defined closed state, in which the enclosing member encloses the outer surface of the capsule; and wherein the dedicated sealing member is compressible when engaged by the enclosing member in the closed state such that said sealing member provides a sealing engagement that compensates for clearances between the enclosing member and the capsule which would otherwise exist when the enclosing member is in the closed state such that the sealing member ensures that the liquid can only flow through the capsule and in contact with the beverage ingredients to form a liquid beverage.
89. The capsule according to claim 88 wherein the rim-like flange extends generally transversely from the base body. - 49
90. A capsule for containing beverage ingredients, the capsule (1) being designed for insertion in a beverage production device (2) in which a liquid under pressure enters the capsule (1) in order to interact with the ingredients (3) in the capsule (1) and to drain a beverage from the capsule (1), the capsule has a sealing member (8, 11, 26) on the outer surface of the capsule (1) characterized in that the sealing member (8) is configured to be compressible in sealing engagement with at least a matching pressing surface of the beverage production device (2) and wherein the sealing member (8) is resilient.
AU2015238913A 2004-10-25 2015-10-09 System and capsule having sealing means Withdrawn AU2015238913A1 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
IT201800007760A1 (en) * 2018-08-02 2020-02-02 Capitani Srl CAPSULE FOR MACHINES FOR THE PREPARATION OF INFUSED BEVERAGES

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
IT201800007760A1 (en) * 2018-08-02 2020-02-02 Capitani Srl CAPSULE FOR MACHINES FOR THE PREPARATION OF INFUSED BEVERAGES
EP3604175A1 (en) * 2018-08-02 2020-02-05 Capitani S.r.l. Capsule for machines for preparing infused beverages and process for making a capsule

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