巴西专利BR112015001039B1 system for preparing a drink

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专利摘要:
SYSTEM FOR PREPARING A DRINK AND CAPSULE. In a system for preparing a drink including a capsule (1) comprising a flange-like rim (4) and a sealing protrusion (5) spaced from the side wall (2) of the capsule and extending out of said rim flange, and an infusion device (20) comprising a receptacle (21) movable with respect to a receiving plate (22) to provide a closed chamber for housing at least part of the capsule, the projection of the capsule has at least one side (7), preferably the inner side, which is inclined by an angle (Alpha) within a range of 80 to 40 degrees with respect to the plane of said flange rim (4) to have the projection (5) contacting the outer portion ( 10a) of the edge (10) of said receptacle (21) at least at a location selected from the top (8) and side of the projection.
公开号:BR112015001039B1
申请号:R112015001039-3
申请日:2013-07-01
公开日:2021-01-26
发明作者:Luca Doglioni Majer
申请人:Tuttoespresso S.R.L.；
IPC主号:

专利说明:

Technical field
[0001] The present invention relates to a capsule system and an infusion system with an adaptable sealing element. More particularly, the invention relates to a single use, ie, disposable, capsule, or cartridge, for preparing beverage, such as coffee, from a dose of one or more products contained in the capsule, and for a dispensing system. beverage production comprising a beverage production device (infusion device) for interacting with the capsule. With the adaptive wording, it means that the sealing element is suitable to provide a sealing effect with different models of infusion devices. History of the invention
[0002] Drink capsules, especially disposable coffee capsules, have been known since 1930. Drink capsules comprise a portion of a container that holds a dose of at least one extractable or reconstitutable product, usually ground coffee, but also herbal extracts. instant tea, eg powdered concentrates, beverages and liquids. The capsules also comprise a portion that interacts with an infusion device to prepare the required beverage. The typical infusion device comprises water heating means (eg, a boiler), a closed member, or receptacle, intended to cooperate with the capsule to define a preparation chamber and a pump or similar means so that the infusion liquid, preferably hot water under pressure, can be supplied to the capsule for the extraction or reconstitution of the drink from the dose of the product contained therein.
[0003] Typically, the infusion device includes a first part with a receptacle to house at least part of the capsule and a second part that cooperates with the first part in infusing the drink from the capsule, the first part and / or the second part they are movable with each other and the receptacle has an edge, normally positioned at the lower or upper end of the second part, which contacts the capsule sealing element to compress it against the second part of the infusion device to provide a coupling airtight with the capsule during the beverage preparation process.
[0004] In a known beverage preparation process, a capsule is fed into the infusion device's receptacle and is injected with the infusion liquid, typically hot water. The injected hot water passes through it and extracts the drink from the closed ingredient. The drink leaves the capsule to reach a drink collector and finally a glass or container.
[0005] The receptacle closes at least part of the capsule and cooperates with it and the second part in an airtight coupling in order to direct the hot water in the capsule to extract the drink without any or with limited leakage. The leakage of the infusion liquid can negatively affect the process of extracting the drink, and impair the taste and quality of the drink.
[0006] A known type of capsule has a substantially frustro-conical body and a flange portion extending from one of the two capsule bases. The infusion device comprises the means for compressing the receptacle against the flange in order to achieve the required seal during the infusion step. There are known capsules provided with a flange which is located at the side of the capsule where the beverage outlet is located. The drink leaves the capsule from the base where the flange is located. A seal between the flange and the receptacle is required to prevent water leakage from the receptacle.
[0007] In known infusion devices, the hermetic coupling between the capsule and the receptacle is generally obtained by exerting pressure on the flange of the flange; in other words, the cup-shaped receptacle for the purpose of closing the capsule is pressed against the flange-like rim of the capsule, ie, a rim extending from the lateral surface of the capsule, along its perimeter and against a receiving plate where the means for piercing the capsule outlet wall is located. The flange is thus compressed between the receptacle and the receiving plate of said second part: the seal is required between the parts.
[0008] There is a problem with ensuring a hermetic coupling between the capsule, especially the capsule flange, and the infusion device receptacle. In fact, a leak of the infusion liquid outside the capsule can reduce the pressure inside the capsule and, therefore, reduce the extraction of coffee flavors; in addition, the water discharged into the drip tray of the dispensing machine or fed into the cup will be unpleasant to see. Any water that reaches the glass due to a lower sealing element will dilute the drink extracted from the capsule, delivering a drink with less organoleptic characteristics and an inferior taste.
[0009] Additionally, there is the problem of having a capsule that can be used with different types of known infusion machines: often, one type of capsule may not work, or work with difficulty, with different models of infusion machines, even if based on the same technology. That is, on different types of machines, due to inaccurate engineering or due to careful evaluation of the side effects of deliberate engineering choices, for example, the length of movement of the first and second parts is not exactly identical and, therefore, the element of sealing can result, when the two parts are closed together and the flange is compressed, either too large on a machine (causing difficulty in closing the machine) or too small for the machine (causing a water leak).
[0010] WO 2009/115474 discloses an infusion device where the press portion of the receptacle, ie, the part of the receptacle that is placed in contact with the capsule, has two circular crowns (inner and outer edges) connected by a recess annular, each edge is provided with irregularities, indentations and / or gaps (see figure 2A). According to WO'474, gaps are obtained at the receptacle margins in order to provide it with a means of directing flow to control leakage if the device is operated without inserting a capsule. However, and perhaps predictably, using this device with certain capsules compatible with such a receptacle, results in water leaks from the receptacle in the cup where the coffee is being collected, providing a negative effect both visually and as far as taste is concerned. in question, not to mention the disadvantage of quickly filling excess water into the drip tray container.
[0011] Likewise, on some machines, repeated use can result in wear causing slight changes in travel distance or improper alignment of the first and second portions of the machine resulting, over time, in possible water leaks from the chamber infusion.
[0012] EP1654966 discloses the capsules supplied with a resilient material, acting as a gasket or sealing member, which is added in correspondence with the flange-like rim, in order to fit the press portion of the receptacle and interact with the receptacle for provide the desired hermetic coupling. This material is added to the capsule, with an undesired increased cost of the capsule.
[0013] The capsules are already known to have one or more projection elements, made of the same material as the capsule, and extending from its external surface, and in the particular shape, of the flange-like rim, with the purpose of providing the sealing fitting with the receptacle, when compressed.
[0014] WO2010 / 084475, on behalf of the Ethical Coffee Company, describes several embodiments of a capsule having projection elements on its external surface, and particularly on the upper surface of the flange-like rim. The projection element can be one or more.
[0015] WO2010 / 137946, for Sara Lee, discloses a capsule having at least one projection to provide a sealing fit with the receptacle, located on the flange. If the projection is integral with the flange, it comprises a plurality of elements, so that the seal is guaranteed; in one embodiment, shown in figure 1, an additional element, superior to the others, is present and is willing to contact the outer surface of the receptacle when the receptacle is insisting on the shorter remaining elements.
[0016] EP 2289820 teaches how to use a plurality of "lips" projecting substantially vertically from the flange rim, some of the lips are compressed by the edge of the receptacle and some are not; in particular, the outer or inner lips could not be compressed to provide additional sealing under the pressure exerted by the water. Figure 2 shows this realization.
[0017] The above mentioned embodiments do not solve the problem of having a sealing element completely adaptable for different machines.
[0018] It is an objective of the present invention to solve the above problems and to provide a capsule that can be used with different shapes and profiles of the press portion of the receptacle, and with different closing mechanisms without negatively affecting the operation of the dispensing unit, ie , do not create any problem in closing the machine or inserting / extracting the capsule to / from the receptacle. Another objective of the present invention is to provide a capsule that is easy to produce and in which the sealing element is made integral with the capsule body, without the need to add resilient sealing material to its outer surface to provide sealing compensation for irregularities provided in the receptacle due to wear, inaccurate engineering or, in general, different closing mechanisms. Summary of the invention
[0019] These and other objectives are achieved by the system for the preparation of a drink according to claim 1.
[0020] The present beverage production system comprises an infusion device having a receptacle for closing at least part of the capsule, and a capsule that is provided with a side wall, an upper wall and a lower wall forming a hollow body where the said product is contained. The capsule is made of thermoplastic materials, eg, polypropylene or polyethylene polymers and / or copolymers.
[0021] The infusion device comprises two portions that are movable with respect to each other: one is the aforementioned receptacle, the other is a receiving plate on which the capsule is pressed during the infusion step, in a manner known in the art. technique (eg, from the state of the art previously mentioned). The capsule further comprises a flange-like rim laterally extending from the capsule and at least one sealing element in the form of a protrusion or projection extending from the flange-like rim, to provide a hermetic coupling with the portion of press (or press edge) of the receptacle when the beverage production device is in use, ie, when the receptacle is moved towards the flange rim of the capsule to press it against the receiving flange. In this way, the projection portion is extending from the flange-like rim towards the receptacle, i.e., towards the entrance wall of the capsule; this direction will be referred to as "up". The term "protrusion" is used here to indicate a sealing element projecting from the flange-like rim of the capsule, in other words, the sealing protrusion forms a portion having an increased thickness of the flange-like rim with respect to a flange-like portion of the flange outside the sealing projection. In particular, the sealing protrusion forms an increased thickness portion of the flange-like rim with respect to the thickness of the flange-like rim portion adjacent the side wall of the capsule. As previously mentioned, the sealing protrusion is spaced from the side wall of the capsule so that the edge (or part of the edge of the receptacle, if there are two crowns) of the receptacle can be accommodated between the side wall and the protrusion sealing.
[0022] In accordance with an aspect of the present invention, the sealing protrusion, forming a thicker portion of the flange, is extending towards the peripheral edge (peripheral end) of the flange-like rim. The capsule also comprises a cap that forms the outlet wall of the capsule and which is partially attached to the flange rim of the capsule body. The cover is typically selected from a plastic cover and a foil element, but it could be made from other metals; a typical sheet metal element comprising the aluminum layer (s) coupled to the plastic layer to provide flexibility and gas barrier properties, however other materials can be used, such layer (s) plastic, normally tri-laminated including an oxygen barrier, metal foil or layer (s) of an appropriate biomaterial, or again a metal sheet suitably pre-perforated for the purpose of being used on machines that do not include opening means for the water outlet from the capsule, all of which are readily available to the technician in the subject.
[0023] In another embodiment, the cap, preferably made of thermoplastic material, can also be provided with a plurality of holes for the passage of the drink.
[0024] Particularly in the case of a plastic cover, the flange wall and cover are welded together at a location that is between the edge of the flange rim and the sealing element. When the cap is made of a sheet metal member, the sheet metal can also be welded to a corresponding portion of the flange, usually between the sealing element and the side wall of the capsule. An example of a preferred embodiment of the plastic cap with self-drilling outlets is disclosed in copending EP application EP 06821023.6.
[0025] According to the invention, the protrusion of the capsule has at least one side, preferably the inner side, which is inclined by an angle α (Figure 4) with respect to the plane of the flange rim; angle α is the angle inside the protrusion, i.e., the angle looking at the edge of the flange. The value of angle α (i.e., the inclination on the inner side of the protrusion), is within the range of 80 to 40 degrees. In addition to this value, the position (and possibly also the height) of the protrusion is arranged to have the protrusion contact the outer edge of the infusion machine receptacle at least at a location selected from the top and inner side of the protrusion, or both. With both, it means that on one portion of the ledge, the outer portion of the edge of the receptacle is in contact with the upper portion of the ledge and on another portion of the ledge, the edge is in contact with the side of the ledge. This compensates for the improper alignment of the capsule in the infusion device.
[0026] It should be noted that the angle of inclination α of said at least one side of the sealing projection is measured, as shown in the figures, between said inclined side and the plane passing through the upper surface of the flange-like edge outside the said sealing protrusion. In other words, the angle of inclination α is measured from the flange-like surface (plane) of the flange outside at least one said sealing protrusion. As shown in the figures, the angle of inclination α is preferably measured from the upper (flat) surface of the flange-like portion of the flange adjacent to the side wall of the capsule. According to one aspect of the invention, in the closed condition or in the infusion step, the edge of said receptacle is in contact with both the protrusion extending from the flange-like rim of the capsule and the side wall of the capsule. Upon reaching this position, a good seal fit between the capsule and the infusion device can be obtained.
[0027] Furthermore, according to another possible realization, in the closed condition or in the infusion stage, the edge of the receptacle is in contact with the protrusion and, particularly, at least one point on its inclined side, the lateral wall of the capsule and at least a portion of the flange-like rim of the capsule between the side wall and the inclined side of the protrusion. The contact between the edge of the receptacle and three different surfaces of the capsule allows to increase the sealing effect, thus preventing any leakage of the infusion liquid injected into the capsule. According to an aspect of the present invention, in the closed position, or at the beginning of the infusion step, the edge of the receptacle is initially in contact with the sealing protrusion, and then the pressure and temperature conditions determine the movement of the contact point. between the edge of the infusion device with the sealing protrusion during beverage preparation. It has been observed that in all of the aforementioned closed conditions, the top and / or sloping side of the protrusion is in contact with the outer portion of the receptacle edge, i.e., the edge portion facing away from the side wall of the capsule.
[0028] It should be noted that the infusion device receptacle could be supplied in different formats. As shown on the left side of figure 3, the receptacle can also be provided with two or more crowns (margins) 10 and 19. Likewise in these cases, an outer portion (10a) of one of the margins, preferably the outer portion of the rim internal 10, said receptacle comes into contact with the sealing projection in at least one location selected from the top and side of the projection, preferably the side of the projection. In the following description, reference 10 is used to identify an edge of the receptacle that may be the only edge visible in figure 3 on the right side or the inner edge of the double-crowned receptacle (comprising edge 19 and edge 10) shown in figure 3 on the left side. In general, the portion of the edge facing away from the side wall (i.e., the outer portion of the edge - internal or external in the case of two or more crowns) is pressed against the sloping side of the sealing projection. The invention also relates to a capsule for preparing drinks according to claim 24. The capsule is comprised of a hollow body including a side wall, an inlet wall, a flange-like rim and a protrusion extending out of said flange flange; the protrusion is spaced from the side wall of the capsule and has an inner side (ie, a side facing the side wall of the capsule) that is inclined by an angle α with respect to the plane of the flange rim, the angle α is inside range from 80 to 40 degrees.
[0029] The inclination of the side of the sealing ledge allows to obtain an effective hermetic coupling with the receptacle of the infusion device and, at the same time, to reduce the force that must be applied in order to close the capsule inside the said receptacle. In particular, an angle of inclination greater than 80 degrees cannot be contacted effectively by the receptacle because the inclined side of the sealing overhang is very “vertical”. On the other hand, an inclination angle of less than 40 degrees is not able to provide an effective barrier for the infusion liquid when contacted by the receptacle edge.
[0030] According to an aspect of the present invention, the inclination angle α is comprised in the range of 80 to 60 degrees, preferably 75 to 60 degrees, and more preferably 70 to 65 degrees. A tilt angle in the preferred range of 75 to 60 degrees is particularly advantageous, as it allows a tight contact of effective seal with the infusion device receptacle and, at the same time, does not need the high compression forces to be applied with the purpose of closing the capsule inside the receptacle during the brewing process. In addition, the claimed range of 75 to 60 results in the adaptability of the capsule sealing system to a vast majority of infusion devices, operating with a receptacle that closes the capsule and compresses the capsule flange rim to obtain a sealing effect during the infusion process. A more preferred range is 70 to 65 degrees, where the advantages of the inventions are most evident.
[0031] Preferred embodiments are listed in the dependent claims. According to an exemplary embodiment, the inner side of the protrusion is irregular or curved; in this embodiment, the slope of the side, and angle α, is identified by a plane that extends from the upper part to the base of the inner side, as shown in figure 6. According to another aspect, the upper part of the projection is at least less partially plastically deformable and, when deformed by the device receptacle, the height of said projection can be reduced by 20-30%.
[0032] According to an exemplary embodiment, the projection is in the shape of a triangle in which the angle β of the upper vertices of said triangle (s) is in the range of 10 to 60 degrees, preferably 10 to 44 or 45, more preferably 10 to 40 degrees and more preferably 15 to 35 degrees; when the protrusion is an isosceles triangle, the angle α is preferably in the range of 60 to 45 degrees. Other possible triangles are selected from right and scalene triangles. The combination of the values above provides that the upper and / or inclined side of the protrusion is deformable to compensate for different travel paths of the receptacles in the different infusion devices. In this way, an infusion device of the system of the invention can be selected from a plurality of infusion devices having different receptacles: the protrusion from the capsule flange is located and is shaped so as to be compressed by each of said receptacles when used with each of the devices.
[0033] In accordance with an aspect of the present invention, the sealing protrusion has an inclined side facing the side wall of the capsule (ie, an internal inclined side) as discussed above and forms at least a portion of the increased thickness of said rim flange-like. In an exemplary embodiment, said portion of the increased thickness is extending from said at least one side of the projection towards the peripheral edge of the flange-like rim.
[0034] The sealing projection forming an increased thickness of the flange-like portion of the capsule can extend over the entire space between the inclined side and the peripheral edge of the flange, or the thicker portion formed by the sealing projection can represent only part of the flange-like rim between the inclined side of the sealing projection and the peripheral edge of the flange-like rim.
[0035] In accordance with an aspect of the present invention, the sealing protrusion is arranged spaced from the side surface of the capsule, and the sealing protrusion forms an enlarged portion of the flange-like rim with respect to the flange-like rim portion adjacent to the side wall of the capsule. According to an aspect of the present invention, the increased thickness portion of the flange-like rim comprises a flat surface extending from said side angled to the edge of said flange-like rim. Preferably, the flat surface of the thickest portion is extending from the top of the inclined side of the sealing projection.
[0036] It should be noted that, according to one possible embodiment, if the protrusion is not in the shape of a complete triangle and is provided with a flat surface extending from the inclined side of the protrusion towards the edge of the similar edge the flange, the angle β of the vertices of the upper part of the projection, ie, between the inclined side and the substantially flat surface extending from the inclined side, is greater than 60 degrees, preferably greater than 90 degrees and more preferably greater than 100 degrees.
[0037] According to one aspect of the present invention, the capsule comprises at least one cavity which is located below the sealing protrusion and / or below the flange-like rim. According to another aspect of the invention, at least one cavity is arranged on the flange-like surface of the flange facing away from the capsule inlet wall.
[0038] The flange-like edge of the flange can be substantially L-shaped if seen in a cross-sectional view. Preferably, the L-shaped edge end portion is directed away from the capsule inlet wall. Therefore, the L-shaped edge of the flange-like rim forms a cavity arranged on the bottom surface of the flange-like rim. In an exemplary embodiment as shown in figures 12 and 12B, the L-shaped portion of the flange is shorter than the total height of the flange 4, ie, the lower end of the L-shaped portion of the flange stops at a distance from the plane of the underside of the flange; the bottom side of the flange means the side of the flange facing away from the water inlet wall.
[0039] According to another aspect of the invention, a cavity is located between the flange and the cap of the capsule, in correspondence with the sealing projection to increase its sealing performance by compression.
[0040] According to another aspect of the invention, the capsule comprises the sealing elements extending radially, or grooves, which are located on the flange of the capsule and project from it. In an exemplary embodiment, said radially arranged elements extend from the side wall of the capsule and sealing projection which is circumferential to the side wall of the capsule.
[0041] It is, therefore, another object of the invention, a capsule that comprises a plurality of sealing elements that are projecting from the flange rim of the capsule and that extend radially with respect to the axis of the capsule. With the use of suitable radial sealing elements, the presence of the sealing protrusion could no longer be required.
[0042] The combination of the only aspects mentioned above is now disclosed when referring to this and said combination is within the scope of the invention.
[0043] The invention provides several advantages with respect to the state of the art. As mentioned above, the capsule can be used with different infusion devices and provides all of them with a very good seal between the press edge of the receptacle and the flange; the seal is in effect from the first moments of the infusion process. The capsule of the invention is also compensating for possible small changes in the length of the receptacle path (and thus the compression force required to close the infusion device) or improper alignments that can occur over time within the same device.
[0044] The above advantages apply both to systems including sealed capsules and devices that have a piercing element for injecting water into the capsule and to systems including open capsules and devices that do not have blades or other piercing devices. Similarly, the advantages of sealing apply to capsules having a rigid cap and capsules having a cap made of a foil or membrane. Furthermore, they apply to capsules formed by a plastic body made from injection molding technology, as well as capsules made from the stamping or thermoforming process. The latter process may produce a protrusion with a smoother edge, and - under the protrusion - the opposite face of the flange may have a corresponding recess to the protrusion, although the effect is the same.
[0045] These and other advantages will be discussed in greater detail with reference to the accompanying drawings, which are provided by way of example only and should not be construed as limiting the scope of the invention. In the drawings: Figures 1, Figure 2 and Figure 2A are exemplary embodiments of the state of the art; Figure 3 is a schematic cross-section of an exemplary embodiment of the system; Figure 4 is an enlarged sectional view of an exemplary sealing element according to the invention; Figures 5 and 6 are seen in section of other exemplary embodiments of the sealing element; Figures 7A and 7B show two possible positions of the infusion device receptacle with respect to the sealing protrusion of the invention; Figures 8 and 9 are two cross sections showing another embodiment of the invention and the interaction of the press portion of the receptacle and sealing protrusion; Figures 10 and 11 show another possible embodiment of the invention; and Figures 12, 12A and 12B are enlarged section views of other possible embodiments of the capsule sealing protrusion according to the invention.
[0046] With initial reference to figures 1 - 2A, these figures refer to the state of the art and exemplify how the system is working only if the position and dimensions of the components of the system are within the precise ranges. Figure 2A is an example of the difficulty in obtaining a good seal of the capsule on the flange in some commercially available infusion devices using that type of receptacle. In this embodiment, the receptacle is mentioned to have a press portion formed by two circular crowns (inner edge and outer edge) connected by an annular recess, each edge is provided with irregularities, indentations and / or gaps.
[0047] Figure 3 shows a combination of the capsule and part of the infusion device according to the invention. In more detail, the system for preparing a drink comprises a capsule 1 and an infusion device. The capsule is comprising a hollow body 6 including a side wall 2, an inlet wall 3, a flange-like rim 4 and a projection 5 extending out of said flange rim. In general, the projection 5 extends along a circumference that has a center corresponding to the axis of the capsule (or symmetrically rotating); the bottom or bottom part of the side wall 2 is preferably curved to help center the capsule in the receptacle.
[0048] The infusion device 20 comprises a movable receptacle 21 with respect to a receiving plate 22 of the infusion device from an open position to a closed position to accommodate at least part of the hollow body of the capsule in the closure receptacle 21 and to provide a closed chamber around the capsule when the heated and pressurized water is fed into said capsule during the infusion step. The plate 22 is provided with simply one or a few or even a plurality of holes 14 for letting the beverage flow into its final container. The receptacle 21 is provided with a press edge 10 having an outer portion 10a, i.e., the outer portion facing away from the side wall 2 of the capsule. The receptacle shown on the left side of figure 3 is of the type having a double crown, similar to that shown in figure 2A, and has two circular crowns (inner edge 10 and outer edge 19) connected by an annular recess 18, each edge is provided with irregularities, setbacks and / or gaps. The outer edge 19 is shorter than the inner edge 10. According to the invention, only the inner edge 10 is used to drive the required seal, possibly with the annular recess 18, and the outer edge 19 is not compressing the flange. or part of it. The receptacle shown on the right side of figure 3 is of the single crown type, with a single press edge 10 provided with an outer edge 10a, which is the part of the edge that will contact the sealing projection 5.
[0049] In the remaining attached figures, receptacle 21 is always schematically shown having a substantially rectangular cross shape and only the press edge 10 is shown, this being the portion of the receptacle where the sealing action is conducted. Notwithstanding this, the infusion device receptacle 21 could be provided in different shapes, for example, with rounded or discontinuous edges, and also, in these cases, an external portion 10a of the press edge 10 can be identified, for example, in correspondence of the portion connecting the outer lateral surface with the bottom press surface (ie, edge 10) of the receptacle and with the edge area 10 immediately adjacent to said connecting portion.
[0050] In an exemplary embodiment of the invention, the maximum outer diameter of the side wall 2 of the capsule, ie, the diameter measured at the intersection with the flange 4, is equal to the inner diameter of the receptacle 21, and the outer diameter of the receptacle 21 is equal to the diameter of the circle defined by the sealing boss 5 (as previously mentioned, the boss is in the form of a concentric circumference with the side wall 2 of the capsule).
[0051] The capsule also comprises a cap 13 that forms the outlet wall of the capsule and which is partially attached to the flange rim 4 of the capsule body. The cap 13 shown in figure 3 is a plastic cap provided with projection portions that act as self-drilling outlets as soon as they are compressed against the plate 22, optionally with the aid of pressure inside the capsule. The flange wall and cover are welded together in a location that is preferably between the edge of the flange flange and the sealing protrusion 5. The cover is not shown in figures 4-11, for the sake of simplicity of the drawings.
[0052] As mentioned, the cover can also be made with different technology than the one described above. For example, a sheet metal element, in laminated plastics or from other materials, such as, biomaterial, plastic derived from renewable energy or alloy materials including a metallic base; a typical sheet metal element is comprising the aluminum layer (s) coupled with the plastic layer to provide mechanical and gas barrier properties, welded to a corresponding portion of the flange. Other solutions available to the person skilled in the art include pre-punched plastic sheets, plastic lids with pre-cut holes, or filter paper.
[0053] In the exemplary embodiment of figure 3, capsule 2 is a sealed capsule that receives the required water from channel 15 at the base of receptacle 21. Blades 16 pierce the inlet wall 3 to provide the passages for entering water in the capsule. As previously mentioned, other designs of receptacles and water supply systems can also be used, eg, for a capsule that is not sealed and where the inlet wall 3 has a plurality of passages or water inlets can be created. in the water inlet wall of the capsule when drilling a metal sheet using piles constructed in said water inlet wall (such as in WO2006 / 030461 by the Depositor), no blade 16 is required.
[0054] The flange 4 is divided by the sealing projection 5 into two portions that are preferably coplanar; however, the two portions could be on different planes. The protrusion, or sealing element, 5 has any suitable cross-sectional shape, such as the exemplary shape of a triangle shown in figures 4, 7, or as in the shapes in figures 5 and 6, or as the format shown in figures 12 and 12A. Truncated triangles, ie, trapezoids, or other cross-sectional shapes of the protrusion, can also be used, provided that the upper part is plastic deformable and the side on which the outer edge 10a will insist in a closed condition, has the slope required. Regardless, in the shape of the cross-section of the projection 5, the sealing element 5 has at least one side 7 which is inclined by an internal angle α with respect to the plane of the flange rim 4, said angle α, the position of the projection in the flange and height H of the projection (measured from the P plane, see figure 4), are arranged to have the projection 5 contacting the outer portion 10a of the edge 10 of the receptacle 21 at least at a location selected from the top 8 and side 7 of the ledge, or both.
[0055] The angle of inclination α of said at least one side 7 of the sealing projection 5 is measured, as shown in the figures, between the inclined side and the plane P passing through the upper surface of the flange-like rim outside the projection of seal 5.
[0056] As shown in the figure, the angle of inclination α is preferably measured from the plane P of the flange-like portion of the flange 4 that is adjacent to the side wall 2 of the capsule. The angle α is within the range of 80 to 40 degrees, preferably in the range of 80 to 60 degrees, more preferably in the range of 75 to 60 degrees, and most preferably in the range of 70 to 65 degrees, and is measured with reference to the plane where side 7 is; if said side is irregular or concave / convex, or has a shape that is not flat, for the purpose of measuring angle α, a virtual plane is defined for side 7 by drawing a line 11 between the upper part 8 and the point 7a, where flange 4 meets side 7, as shown in figure 6. In the preferred embodiment, the inclined side 7 is the inner side, ie, the side that faces the side wall 2 of the capsule 1. As previously mentioned, side 7, ie, the side that should, or could, contact the outer portion of the edge 10 of the receptacle 21, may be irregular, as shown in figure 5, or concave, as shown in figure 6, or have other shapes, eg ., in step. In all cases, side 7 is inclined with respect to the plane P of the flange and defines an internal angle α. By "internal angle" means the angle that is internal to the projection 5, i.e., the angle facing away from the side wall 2 of the capsule.
[0057] The shape of the cross sections of the projection 5 in general is in the form of a triangle or a truncated triangle and the triangle can be selected from right and scalene triangles, or from isosceles triangles; when the protrusion is in the form of an isosceles triangle, the angle α is preferably in the range of 80 to 70 degrees. Preferably, the angle β of the vertices of the upper part of said triangles is in the range of 10 to 44 degrees, preferably 15 to 35 degrees; the same values apply to the other formats, for these formats, the angle β is defined by identifying a plane for the sides of the projection in a similar way to that shown in figures 5 and 6 with the virtual planes 11 and 12. Thus , it can be guaranteed that the upper part of the protrusion is sufficiently thin to be at least partially deformed in a plastic way when compressed by the edge of the receptacle in order to compensate for different end positions of the receptacles of different infusion devices, still allowing the ideal means of seal.
[0058] According to different possible embodiments, the shape of the sealing projection 5 between the inclined side 7 and the peripheral edge 4a of the flange-like rim 4 can be different.
[0059] As mentioned above, the sealing projection 5 forms at least a portion of the increased thickness of the flange-like rim 4, and according to a possible embodiment, the portion of the increased thickness of the sealing projection is extending from of said at least one side 7 towards the peripheral edge 4a of the flange-like rim 4.
[0060] It should be noted that the sealing protrusion 5 forming an increased thickness portion of the flange-like rim 4 of the capsule can extend across the entire space between at least one inclined side 7 and the peripheral edge 4a of the flange, as revealed in the embodiment shown in the section view of figure 12A.
[0061] In more detail, in the embodiment shown in figure 12A, the sealing projection 5 comprises an inclined side 7, that is, an internal side, facing the side wall 2 of the capsule, having the required angle of inclination α; the projection 5 forms an increased thickness portion of the flange-like rim 4 extending completely between said side 7 and the edge 4a of the flange-like rim 4. In other words, in the embodiment shown in figure 12A, the sealing projection 5 forms an increased thickness of the flange-like rim 4 with respect to the thickness of the flange-like rim outside the sealing projection, and particularly with respect to the portion of the flange-like rim adjacent to the side wall 2 of the capsule.
[0062] As shown in figure 12A, the increased thickness portion of the flange-like lip comprises a flat surface 12 extending from the top 8 of the sealing ledge 5 to the edge of said flange-like lip 4. In the embodiment shown, the flat surface is parallel to the lower surface of the flange-like rim 4, thus, a portion having a constant increased thickness is formed between side 7 and the edge 4a of the flange-like rim 4.
[0063] However, according to different possible embodiments not shown in the figures, the flat surface may not extend from the top of the sealing overhang, but at a distance from the top. Preferably, the sealing projection 5 forms between the side 7 and the edge 4a of the flange 4 a constant increased thickness, ie, the sealing projection is provided with one side 7 and extends towards the edge 4a of the flange 4 with a substantially flat top surface 12.
[0064] However, according to different possible embodiments, a variation in the thickness of the sealing protrusion between side 7 and the edge 4a of flange 4 can be provided.
[0065] Additionally, it should be noted that even if only a sectional view, obtained along a radial plane passing through a central axis of the capsule is shown in figure 12A, the sealing projection 5 extends continuously throughout the circumference of flange 4, in other words, the entire section obtained along the circumference of flange 4 is preferably equal to each other. According to another possible embodiment of the capsule according to the invention, see, for example, figure 12, the sealing projection 5 forming an increased thickness of the flange-like rim 4 is extending only for a part of the space between the inclined side 7 and the peripheral edge 4a of the flange-like rim 4.
[0066] In the embodiment shown in figure 12, the sealing protrusion 5 comprises at least one side 7 which is inclined by an internal angle α with respect to the plane of the flange flange 4. The inclined side 7 is the internal side of the projection of the flange. seal 5 facing the side wall 2 of the capsule.
[0067] As mentioned above, the angle α is within the range of 80 to 40 degrees, preferably in the range of 80 to 60 degrees, more preferably in the range of 75 to 60 degrees, and most preferably in the range of 70 to 65 degrees , and is measured between the plane on which side 7 is and the plane P passing through the surface of the flange-like rim 4 from which the sealing projection 5 is protruding, ie, the surface of the flange-like rim 4 from which the sealing protrusion 5 defines a portion having an increased thickness.
[0068] As shown in figure 12, the angle of inclination α is measured from the upper surface of the flange-like edge portion 4 adjacent to the side wall 2.
[0069] In the shown embodiment, the angle α is substantially 67 degrees.
[0070] In the embodiment shown in figure 12, the sealing projection 5 forms an increased thickness of the flange-like rim with respect to the portion of said flange adjacent to the side wall 2 of the capsule.
[0071] Likewise in this embodiment, side 7 can be irregular or concave / convex, or in general it can be provided with a shape that is not flat. In these cases, in order to measure angle α, a virtual plane is defined for side 7 by drawing a line 11 between the top 8 and point 7a, where flange 4 meets side 7, as shown in figure 12.
[0072] It should be noted that even if, in the embodiment shown in figure 12, side 7 has a round point of incidence with the upper surface (plane P) of the flange-like edge 4, it is possible to identify an imaginary point where the projection on side 7 and the projection of the surface (plane P) of the flange-like rim are incident. Additionally, the upper portion 8 of the side 7 can be identified in the embodiment shown in figure 12 due to the change in the inclination towards the peripheral edge 4a of the flange rim 4.
[0073] In the realization of figure 12B, the part of the projection adjacent to side 7 has a vertex or upper part 8 that is in the shape of a triangle, the remaining external part of the rim being identical to that of the realization of figure 12.
[0074] As will be revealed later, the distance L between the upper part 8 of the projection 5 and the side wall 2 of the capsule is comprised in the range of 0.6 mm to 1.0 mm, and in the embodiment shown in figure 12 it is preferably 0 , 7 mm. In this embodiment, the distance L1 is preferably 0.5 to 0.6 mm.
[0075] As shown in figure 12, the increased thickness portion of the flange-like rim 4 formed by the sealing projection 5 comprises a flat surface extending from said angled side 7 to the edge 4a of the flange-like rim. Preferably, the flat surface of the thickest portion is extending from the upper part 8 of the inclined side 7 of the sealing projection 5.
[0076] In the shown embodiment, the angle β of the vertices of the upper part of the projection 5, ie, the angle measured between the inclined side 7 and the substantially flat surface extending from the inclined side 7, is greater than 90 degrees, preferably greater than 100 degrees. In the embodiment shown in figure 12, the angle β is substantially 110 degrees.
[0077] As already mentioned, according to a possible embodiment, as shown in figures 12 and 12B, the sealing projection 5 forms a thicker portion of the flange-like edge extending only for a part of the space between the inclined side 7 of the sealing protrusion 5 and the peripheral edge of the flange-like rim 4.
[0078] In other words, as shown in figure 12, the sealing projection 5 is extending towards the peripheral edge 4a of the flange-like rim 4, but not to the full extension of the flange-like rim 4.
[0079] In more detail, in the embodiment shown in figures 12 and 12B, the flange-like rim 4 ends with a substantially L-shaped edge (in a radial section view). The end portion of the L-shaped edge is directed away from the entry wall 3 of the capsule. This configuration makes it possible to form a cavity 17 in correspondence with the lower flange-like surface of the flange 4.
[0080] In fact, the flange-like rim 4 is modeled to comprise a cavity 17 which is located below the flange 4, ie, in correspondence of the surface of the flange 4 which faces away from the inlet wall 3 of the capsule . The cavity 17 is arranged, in the embodiment shown in Figure 12, in correspondence with the edge 4a of the flange 4, and particularly adjacent to the sealing projection 5. The cavity is preferably extending the entire circumferential extension of the flange-like rim 4. can be stopped.
[0081] However, according to different possible embodiments, as shown in figure 8 which will be revealed in more detail later, the cavity 17 can also be arranged in correspondence of the sealing projection 5.
[0082] The substantially L-shape of the edge 4a of the flange-like rim 4 makes the edge of the flange-like rim 4 more flexible, thereby, it can be adapted for different infusion devices, thus reducing difficulties in removing the capsule from the device infusion at the end of the drink preparation process.
[0083] In the exemplary embodiment as shown in figures 12 and 12B, the L-shaped portion of the flange is shorter than the total height of the flange 4, ie, the lower end of the L-shaped portion of the flange stops at a distance a from the plane P 'on the underside of the flange; the bottom side of the flange means the side of the flange facing away from the water inlet wall. A step 13 is preferably provided where the cavity 17 reaches the plane P 'on the underside of the flange 4.
[0084] Additionally, as valid for all figures and as already mentioned above with respect to figure 12A, the sealing overhang 5 is circular, ie, it extends continuously across the circumference of flange 4, in other words, all sections obtained along the circumference of the flange 4 are preferably equal to each other.
[0085] As a general rule, the height H (figure 4) of the projection 5, which is measured from the plane P of the upper side of the flange 4, ie, the side facing the entrance wall 3, is within a range of 0.3 to 1.3 mm, preferably 0.6 to 1.0, most preferably it is 0.8 or 0.9 mm. The distance L between the top 8 of the ledge and wall 2 of the capsule is preferably equal to or greater than the width W of the edge 10 of the receptacle 21. In the case where the distance L is greater than the width W of the edge 10 of the receptacle, the distance L is preferably up to 1.5 times greater than the width W of the edge 10 (see, eg, Figure 4), ie, 1.0W ^ L ^ 1.5W. In an exemplary embodiment, L is in the range of 0.6 mm to 1.0 mm, preferably 0.7 mm; L1 is 0.4 mm to 0.7 mm, preferably 0.5 mm to 0.7 mm. In addition, the preferred values of the distance L1 are comprised in the range of 0.63mm to 0.67mm, and in the range of 0.5mm to 0.55mm. According to a possible embodiment, L1 is 0.65 mm and H is 0.8. In any case, L1 is always shorter than L.
[0086] In the present description, the width W of the edge is referred to the part of the receptacle that is effectively involved in the sealing action.
[0087] According to a possible embodiment, the distance L1 (see Figure 4) between the side wall 2 of the capsule and the bottom end 7a of the inclined side 7 of said protrusion 5 is shorter than the width W of the edge 10 of said receptacle, ie, L1 <W. 7a is the point defined by the crossing of the inclined side 7 of the projection 5 and the upper surface of the flange-like rim 4.
[0088] In this case, the outer portion 10a of the press edge 10 of the receptacle 21 is generally located at least partially between the upper part 8 of the projection 5 and the side wall 2 of the capsule 1, but it could also be totally located between the part upper 8 and capsule wall 2. Two possible positions of the edge 10 are shown in figures 7A and 7B to show how the projection of the invention can compensate for differences in compression paths (and also differences in width W); in figure 7A, the compression path of the receptacle 21 is shorter than in figure 7B and the distance from the compression edge 10 from the flange 4 is greater in 7A than in 7B. However, thanks to the design of the sealing ledge, a seal is obtained in both cases: in figure 7A, the outer portion 10a of the edge 10 of the receptacle 21 is insisting on the sloping side 7 of the projection 5. In figure 7B, where the distance edge 10 - flange 4 is smaller, edge 10 is insisting on side 7 (inner side) of projection 5 with its outer portion 10a and at least a portion of the press edge 10, here, its inner portion 10b, is also insisting on the side wall 2 of the capsule. The inner side 7 of the projection 5 will be partially deformed to accommodate the extra compression path, additionally, some degree of lateral movement of the projection 5, due to the fact that it is made of thermoplastic material, it will help to accommodate the receptacle 21 in the position of the figure 7B.
[0089] During the infusion step, this will result in a type of closed chamber below the edge of the receptacle 10. Furthermore, according to another possible embodiment, not shown in the figures, in the closed condition or in the infusion step, the edge 10 of receptacle 21 is in contact with the projection 5, and particularly at least one point on its sloping side 7, the side wall 2 of the capsule and at least a portion of the flange-like rim 4 of the capsule between the side wall 2 and the inclined side 7 of the protrusion.
[0090] Figure 8 shows another embodiment of the invention. In this embodiment, the projection 5 is provided with a cavity 17 which is located below the projection 5 and / or below the flange 4. In figure 8, part of the cavity 17 is obtained in the left part of the flange 4, however it can also extend in the left side, or inner side, of the flange with respect to the projection 5. The function of this cavity is to provide additional flexibility of the sealing projection and to increase its deformation capacity to adapt to different types of receptacles 21.
[0091] Figure 9 schematically shows a possible compressed condition of the sealing overhang of figure 8 that tilted according to the direction of the arrow F in figure 8. In the case of a compression at the top 8, the overhang will also shrink vertically. Additional details on this realization can be found in copying order EP 12005215.4 "CAPSULE WITH IMPROVED SEALING ELEMENT" deposited by the same depositor on the same day as the present order. Said document is incorporated herein by reference.
[0092] Figs. 10 and 11 show another embodiment of the invention, where a plurality of grooves or projection elements 24 are extending radially from the side wall of the capsule 2 to the sealing projection 5. The function of the elements 24 is to adapt the irregularities or indentations of the press edge 10 and improve the seal: for this purpose, the shape of the elements 24 is, in one embodiment, substantially corresponding to that of the press edge 10, e.g., as elements 24 (figure 10) that have a round / elliptical shape. Figure 10 also shows alternative elements extending radially 23: these elements have the same function as elements 24, however they are in the form of thin walls extending radially from the side wall 2 of the capsule or from the protrusion 5. Elements 23 and 24 do not necessarily extend along the entire length from the protrusion to the capsule. These walls are modeled, dimensioned and positioned so as to deform under the press edge 10 and adapt to their recesses (if present).
[0093] In summary, the sealing means, or protrusion, 5 of the invention combines a portion of the upper part that is plastic deformable with a side 7 of the protrusion 5 that is inclined with respect to the flange plane P by an internal angle α within the range of 80 to 40 degrees, preferably within the range of 80 to 60 degrees, more preferably 75 to 60 degrees, and most preferably 70 to 65 degrees.
[0094] The upper portion can be defined with an angle of 15 to 45 degrees, if the sealing projection is substantially modeled as a triangle or with an upper angle greater than 60 degrees, preferably greater than 90 degrees, and in most preferably greater than 100 degrees, if the sealing protrusion comprises a portion of the increased thickness extending from the inclined side 7, as, for example, shown in figures 12 and 12A. The distance L of the upper part 8 of the projection 5 from the side wall 2 of the capsule is equal to or greater than the width W of the edge 10 of the receptacle (s) 21 and is such that it has the receptacle 21 of the device infusion to insist on the top of the ledge or, preferably, on the side of the ledge. In a preferred embodiment, the rim of the receptacle insists on both the side of the protrusion and the side wall of the capsule.
[0095] The disclosed combination is suitable to compensate for different compression paths of the receptacle and, therefore, to provide an adaptable sealing element that can be used in different models of infusion devices that include a receptacle 21 and a receiving plate 22. In addition, the above combination reduces the overall force required to seal the receptacle on the capsule flange.
[0096] The additional elements extending radially 23, 24 provide an improved seal of the receptacle 21 on the flange 4 of the capsule, per se or in combination with the sealing protrusion.

权利要求:
Claims (27)
[0001]
1. System for preparing a drink, said system including: - a capsule (1) comprising a hollow body (6) including a side wall (2), an inlet wall (3), a flange-like rim (4) and a sealing protrusion (5) extending out of said flange rim and spaced from said side wall (2), - an infusion device (20) comprising a movable receptacle (21) with respect to a pressure plate receiving (22) the infusion device from an open position to a closed position to provide a closed chamber for housing at least part of the hollow body of the capsule, said receptacle (21) being provided with a pressing edge (10) having an external portion (10a) facing away from the side wall (2) of said capsule (1), said protrusion (5) of the capsule (1) having at least one internal side (7) which is inclined by an internal angle α within a range of 80 to 40 degrees with respect to the flange plane (P) passing o through the upper surface of said flange rim (4) outside the sealing projection (5), said system being characterized by the fact that the distance (L) between the upper part (8) of said projection (5) ) and said side wall (2) of the capsule is equal to or greater than the width (W) of the pressing edge (10) of said receptacle (21), and said angle α and the spacing (L) a from said side wall (2) of said projection (5) being arranged to have said projection (5) in contact with the outer portion (10a) of the pressing edge (10) of said receptacle (21) on said side ( 7) of the projection, or on both of said side (7) of the projection and an upper part (8) of the projection.
[0002]
System according to claim 1, characterized in that said edge (10) of said receptacle (21) is housed between said inclined side (7) and said side wall (2) of the capsule (1) .
[0003]
System according to either of claims 1 or 2, characterized in that said angle α is within the range of 80 to 60 degrees.
[0004]
4. System, according to claim 3, characterized by the fact that said angle α is within the range of 75 to 60 degrees.
[0005]
5. System, according to claim 4, characterized by the fact that said angle α is within the range of 70 to 65 degrees.
[0006]
System according to any one of claims 1 to 5, characterized in that said upper part (8) of the projection is at least partly plastically deformable.
[0007]
System according to claim 6, characterized in that the external diameter of the side wall (2) on the flange rim (4) of said capsule (1) is equal to the internal diameter of said receptacle (21).
[0008]
System according to any one of claims 1 to 7, characterized in that said protrusion (5) is in the shape of a triangle.
[0009]
9. System, according to claim 8, characterized by the fact that said triangle is selected from rectangular and scalene triangles.
[0010]
10. System, according to claim 8, characterized by the fact that the angle β of the vortices of the upper part of the said protrusion in the form of triangles is in the range of 10 to 45 degrees.
[0011]
11. System, according to claim 10, characterized by the fact that the angle β of the vortices of the upper part of the said projection in the form of triangles is in the range of 15 to 35 degrees.
[0012]
System according to any one of claims 1 to 11, characterized in that said protrusion (5) forms at least a portion of increased thickness of said flange-like rim (4), said portion of increased thickness extending from said at least one side (7) of said protrusion (5) towards the edge (4a) of said flange-like rim (4).
[0013]
13. System according to claim 12, characterized in that the said sealing protrusion (5) forming an increased thickness of the flange-like rim (4) is extending over the entire space, or only for a part of the space, between at least one inclined side (7) and the peripheral edge (4a) of said flange-like rim (4).
[0014]
System according to claim 12 or 13, characterized in that said portion of the increased thickness of the flange-like rim (4) comprises a flat surface extending from the upper part (8) of said inclined side (7) to said edge (4a) of said flange-like rim (4).
[0015]
15. System according to any one of claims 1 to 14, characterized in that the edge (4a) of the flange-like rim (4) is L-shaped in a radial cross-sectional view.
[0016]
16. System according to any one of claims 1 to 15, characterized in that said flange-like rim (4) comprises at least one cavity (17) arranged on the surface of said flange-like rim (4) facing away from said entry wall (3).
[0017]
17. System according to claim 16, characterized in that at least one said cavity (17) is arranged in correspondence of said edge (4a) of said flange-like rim (4) of the capsule (1).
[0018]
18. System according to any one of claims 1 to 17, characterized in that in the closed condition or in the infusion stage, the edge (10) of said receptacle is in contact with both said protrusion (5) and the said side wall (2) of the capsule (1).
[0019]
19. System according to any one of claims 1 to 18, characterized in that in the closed condition or in the infusion stage, the edge (10) of said receptacle is in contact with said protrusion (5), said side wall (2) and at least a portion of the flange-like rim (4) of the capsule (1) between said side wall (2) and said inclined side (7) of said protrusion (5).
[0020]
20. System according to any one of claims 1 to 19, characterized in that the distance (L1) between the side wall (2) of the capsule (1) and the bottom end (7a) of the inclined side (7 ) of said projection (5) is in the range of 0.4 mm to 0.7 mm.
[0021]
21. System, according to claim 20, characterized by the fact that the distance (L1) is in the range of 0.5 mm to 0.7 mm.
[0022]
22. System according to any one of claims 1 to 21, characterized in that the distance (L) between the upper part (8) of said protrusion (5) and said side wall (2) of the capsule is comprised in the 0.6 mm to 1.0 mm range.
[0023]
23. System, according to claim 22, characterized by the fact that said distance (L) is 0.7 mm.
[0024]
24. System according to any one of claims 1 to 23, characterized in that the distance (L1) between the side wall (2) of the capsule (1) and the bottom end (7a) of the inclined side (7 ) of said protrusion (5) is shorter than the width (W) of the edge (10) of said receptacle.
[0025]
25. System according to any one of claims 1 to 24, characterized in that the distance (L) between the upper part (8) of said protrusion (5) and said side wall (2) of the capsule (1) be equal to or greater than the width (W) of the edge (10) of the receptacle.
[0026]
26. System according to any one of claims 1 to 25, characterized in that the capsule (1) comprises a plurality of sealing elements (24, 23) projecting from the capsule flange rim (4) and extending radially between said side wall (2) and said sealing protrusion (5).
[0027]
27. System according to claim 26, characterized in that said sealing elements are selected from round elements (24) and thin walls (23).

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同族专利:

公开号 | 公开日

JP6364407B2|2018-07-25|

CN105164025A|2015-12-16|

RU2015104965A|2016-09-10|

BR112015001039A2|2017-06-27|

ES2633171T3|2017-09-19|

JP2015526146A|2015-09-10|

CA2878896A1|2014-01-23|

HK1214803A1|2016-08-05|

ES2837416T3|2021-06-30|

CN105164025B|2019-06-21|

RU2633241C2|2017-10-11|

KR20210091816A|2021-07-22|

WO2014012783A2|2014-01-23|

KR102271739B1|2021-07-02|

AU2013292241A1|2015-02-19|

AU2018201780A1|2018-04-05|

PL2872421T3|2017-10-31|

DK2872421T3|2017-07-10|

EP2872421A2|2015-05-20|

WO2014012783A3|2014-04-10|

US20150208852A1|2015-07-30|

KR20150042193A|2015-04-20|

EP3199473A1|2017-08-02|

EP3199473B1|2020-09-23|

EP2872421B1|2017-03-22|

AU2013292241B2|2017-12-14|

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法律状态:
2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-10-29| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-07-28| B07A| Application suspended after technical examination (opinion) [chapter 7.1 patent gazette]|

2020-11-17| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-01-26| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 01/07/2013, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

EP12005216|2012-07-16|

EP12005216.2|2012-07-16|

PCT/EP2013/063873|WO2014012783A2|2012-07-16|2013-07-01|Capsule and brewing system with adaptable sealing element|

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