AUTOMATIC BEVERAGE MACHINE

Abstract

The invention pertains to the field of the beverage preparation machines having an ingredient processing module for preparing a beverage with at least one ingredient supplied with a capsule. The machine comprises a positioner arranged to hold at least one capsule out of the ingredient processing module. It further comprises a sensing arrangement adapted to detect an event related to the insertion by a user of a capsule and/or the presence of the capsule on or into the positioner. The machine is configured, upon detection of the event, to transfer the capsule to the ingredient processing module by using transfer means, and then to start the preparation of the beverage. More particularly, the invention relates to a machine providing a convenient and safe solution to fully automate the preparation of a beverage.

Claims

1. A beverage preparation machine comprising: an ingredient processing member configured to prepare at least one beverage with at least one ingredient in at least one capsule; a positioner arranged to hold the at least one capsule out of the ingredient processing member; a sensing member adapted to detect an event selected from the group consisting of insertion of the at least one capsule by a user into the positioner, presence of the at least one capsule in the positioner, and combinations thereof; and a transfer member configured, upon detection of the event, to transfer the at least one capsule to the ingredient processing member for the ingredient processing member to start preparation of the at least one beverage, the beverage preparation machine is configured to, during preparation of a first beverage with a first capsule, allow insertion of a second capsule into the positioner and detection of the second capsule by the sensing member, and the beverage preparation machine is configured to open the positioner, feed the ingredient processing member with the second capsule, and close the ingredient processing member automatically when the preparation of the first beverage is completed.

2. The beverage preparation machine of claim 1, wherein the sensing member is adapted to detect the event by receiving or reading information from the at least one capsule, and/or by measuring a characteristic of the at least one capsule selected from the group consisting of spectral property, color, electrical property, resistivity, capacitance, electromagnetic property, magnetic induced field, mechanical property, geometry, weight, identifying information, code bar, emitted signal, reflected signal, and combinations thereof.

3. The beverage preparation machine of claim 1, wherein the beverage preparation machine is configured to start the preparation of the at least one beverage according to default parameters.

4. The beverage preparation machine of claim 1, wherein the sensing member is adapted to identify a type of the at least one capsule, and the beverage preparation machine is configured to start the preparation of the at least one beverage according to parameters adapted to or dependent on the identified type of the at least one capsule.

5. The beverage preparation machine of claim 1, wherein the beverage preparation machine is configured to transfer the at least one capsule to the ingredient processing member upon detection of the event when the beverage preparation machine is ready to start the preparation of the at least one beverage with the at least one capsule.

6. The beverage preparation machine of claim 1, wherein the ingredient processing member comprises a first part and a second part which are movable relative to one another, the processing member configured to open to form a passage between the first part and the second part for the insertion of the at least one capsule, and the beverage preparation machine further comprises a closing member arranged to close at least partially the passage, the beverage preparation machine configured to operate the closing member to open the passage upon the detection of the event.

7. The beverage preparation machine of claim 6, wherein the positioner is positioned relatively to the passage to allow the transfer, upon the detection of the event, of the at least one capsule into the ingredient processing member, at least partially under the gravity force.

8. The beverage preparation machine of claim 6, wherein the beverage preparation machine is configured to operate the closing member to open the passage upon the detection of the event when the beverage preparation machine is ready to prepare the at least one beverage.

9. The beverage preparation machine of claim 6 further comprising a motorized member configured to drive the closing member for opening the passage upon the detection of the event.

10. The beverage preparation machine of claim 6 further comprising a mechanical coupling member configured to mechanically link the closing member with the first part and/or the second part of the ingredient processing member for opening the passage upon the detection of the event.

11. The beverage preparation machine of claim 6, wherein the closing member is part of the positioner.

12. The beverage preparation machine of claim 11, wherein the positioner comprises a seat adapted to hold the at least one capsule, the closing member comprising a sliding cover forming part of the seat, the beverage preparation machine is configured to operate the closing member for opening the passage upon the detection of the event by translating the sliding cover.

13. The beverage preparation machine of claim 11, wherein the positioner comprises a rotating body comprising a seat adapted to hold the at least one capsule, the closing member comprising a closing part, the beverage preparation machine is configured to, upon detection of the event, transfer the at least one capsule to the ingredient processing member by rotating the rotating body into a position in which the closing part closes at least partially the passage.

14. The beverage preparation machine of claim 1, wherein the beverage preparation machine is configured to feed the ingredient processing member with the second capsule after ejection or removal of the first capsule from the ingredient processing member and to automatically prepare the second beverage.

15. A method for preparing a beverage with at least one ingredient in at least one capsule in a beverage preparation machine comprising an ingredient processing member and a positioner arranged to hold the at least one capsule out of the ingredient processing member, the method comprising: detecting, by a sensing member, an event selected from the group consisting of insertion of a first capsule into the positioner by a user, presence of the first capsule in the positioner, and combinations thereof; upon detection of the event, transferring, by transfer means, the first capsule to the ingredient processing member and then starting preparation of a first beverage; during the preparation of the first beverage, inserting a second capsule into the positioner; recognizing, by the sensing member, the second capsule; and when the preparation of the first beverage is completed, opening the positioner, feeding the ingredient processing member with the second capsule, closing the ingredient processing member automatically, and starting preparation of a second beverage.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0027] The invention will now be described with reference to the schematic drawings, wherein:

[0028] FIG. 1 is a schematic view of a beverage machine according to an embodiment;

[0029] FIG. 2 is a cross section of a capsule adapted to be used by the beverage machine to prepare a beverage;

[0030] FIG. 3a is a partial cross section perspective representation of a brewing unit of the beverage machine of FIG. 1 in open position;

[0031] FIG. 3b shows a partial cross section perspective representation of a closed brewing unit of the beverage machine of FIG. 1 in an empty closure mode;

[0032] FIG. 3c shows a partial cross section perspective representation of a closed brewing unit of the beverage machine of FIG. 1 in a capsule closure mode;

[0033] FIG. 4a is a detailed view of a capsule positioner of the beverage machine of FIG. 1, in a closed position, according to a first embodiment;

[0034] FIG. 4b is a detailed view of a capsule positioner of the beverage machine of FIG. 1, in an open position, according to a first embodiment;

[0035] FIGS. 5a, 5b, 5c and 5d show a typical sequence leading to the introduction of a capsule into the brewing unit;

[0036] FIGS. 6a, 6b, 6c, 6d, 6e and 6f show detailed views of a capsule positioner of the beverage machine of FIG. 1, according to a second embodiment and a typical sequence leading to the introduction of a capsule into the brewing unit, according to the invention;

[0037] FIG. 7 is a block diagram illustrating a method according to an embodiment for automatically handling the start of the preparation of a beverage, according to an embodiment.

DETAILED DESCRIPTION

[0038] A beverage machine 1 according to an embodiment is illustrated schematically on FIG. 1. The beverage machine comprises a brewing unit 2 which is coupled with an electrical motor 3 driving transmission means 4 for moving the brewing unit between an opened and a closed position. The brewing unit is represented in the opened position on FIG. 1. The brewing unit allows the preparation of a beverage from a capsule 5 containing at least one ingredient, e.g. ground coffee or tea or chocolate.

[0039] As shown in FIG. 2, the capsule has a generally cup-shaped body 51 and a covering membrane 52. Membrane is assembled to cup along a peripheral rim 54 of cup. The rim may be covered with a seal 54, e.g. made of elastomeric or plastic material. Furthermore, the capsule in particular the rim and/or the membrane may bear a ring or toroid 53, e.g. for assisting manufacturing and/or handling of the capsule. Such capsule forms a packaging for containing an ingredient 50, e.g. ground coffee, of a beverage to be prepared with the beverage preparation machine. In an embodiment, the capsule forms a gastight packaging, e.g. made of aluminium or an aluminium-alloy. Alternatively, the capsule may be more or less pervious, e.g. perforated and/or made of organic, in particular plastic material, e.g. biodegradable material. The capsule's cup and/or the capsule's membrane may be made of a monolithic material, e.g. a metallic material or a conductive ceramic and/or conducive organic material, or may be made of a structure covered or containing a conductive material, e.g. a conductive coating or track, e.g. an aluminium, iron and/or copper coating or track.

[0040] As represented on FIG. 1, water supply means are also provided as a part of the machine, such means including a water reservoir 6, a water pump 7 and a water heater 8. Water circulates in a water circuit 9 which is linked to the brewing unit. Controller is also provided in the machine. The controller includes typically a control unit 11, sensors 12 and a user interface 13. The control unit includes processor(s), memories and programs enabling to provide appropriate inputs to and receive outputs from the different activation means of the machine in particular, the pump, heater, motor and user interface.

[0041] Referring now to FIGS. 3a, 3b, and 3c, there is shown therein an exemplary motorized embodiment of the brewing unit. The brewing unit more particularly comprises a first assembly 23 and a second assembly 24 which are movable relatively one another. In this particular mode, the rear injection assembly 23 represents the capsule cage including injection blades 25. The front assembly 24 represents the beverage delivery assembly and includes a capsule delivery plate 26. The front assembly is associated to an outer casing 27 and the whole is movable relatively to the rear injection assembly 23 which remains fixed to a frame 28. The front delivery assembly 24 comprises a beverage outlet 29. The front delivery assembly 24 is moved relatively to the rear injection assembly 23 by means of the motor 3 which drives the transmission means 4. In the opened position (FIG. 3b), a passage 31 is provided between the first and second assemblies 23, 24 for allowing the insertion of a capsule. In the closed position (FIG. 3c), a brewing chamber 39 is provided.

[0042] The beverage machine further comprises a capsule positioner 40 having a seat adapted to store at least one first capsule out of the brewing chamber, and preferably outside the brewing unit. In an embodiment, the positioner is arranged to store at least a second capsule, out of the brewing chamber, and preferably outside the brewing unit. The capsule positioner may comprise a closing apparatus operable for switching the capsule holder between at least an opened position and a closed position. In the closed position, the capsule holder is configured to store the capsule in the seat. In the opened position, the capsule holder is configured to allow a capsule, pre-positioned into the capsule seat, entering the brewing unit chamber. More particularly, the capsule positioner is arranged so as to allow a capsule entering and passing through the passage of the brewing unit before reaching the capsule chamber, when the capsule positioner is set in its opened position. The capsule may be transferred from the capsule positioner in the opened position to the brewing unit by transfer means such guiding means, motorized elements, moving parts, actuators and/or any other means adapted to move the capsule out of the seat to the brewing unit, and in particular to the brewing unit chamber. Advantageously, the closing apparatus is arranged to close at least partially the passage when the capsule positioner is in its closed position, notably in order to prevent the unsafe entry of an unexpected object into the brewing unit.

[0043] In a first embodiment, as shown in FIGS. 4a and 4b, the capsule seat 44 is formed in a housing 42 that may be integrated to the housing of the beverage machine as shown on FIGS. 4, 5. Alternatively, the capsule seat may be a separate part mounted on the housing of the beverage machine (not represented on the drawings). The capsule seat may comprise guides 48 formed into the housing 42 and surrounding the capsule seat, in particular to ease the positioning of a capsule by a user when the capsule positioner is in the closed position, and/or to improve the holding of a capsule in the seat. Moreover, the guides may be arranged to guide the movement of the capsule when the capsule positioner is switched to its opened position, and to prevent a capsule inserted into the seat to be translated with the closing apparatus, for example when the capsule holder is switched from the closed to the opened position.

[0044] In the first embodiment, for switching the capsule positioner between the opened and closed positions, the closing apparatus 46 may be driven by a motorized arrangement, controlled for example by the control unit 11 or by an additional controller. Alternatively, the closing apparatus may be mechanically linked by a mechanical coupling means with the brewing unit, and in particular with the first assembly 23 and/or the second assembly 24, so as to switch between the opened and closed positions depending on whether the brewing unit is opened or closed. For instance, the mechanical coupling means may be arranged to open the closing apparatus when the brewing unit is in the opened position, and to close the closing apparatus otherwise. In an embodiment, the closing apparatus may be rigidly fixed to a part of the brewing unit or be formed by a part of the brewing unit, in particular by the first assembly 23 and/or the second assembly 24. The capsule holder housing comprises an opening large enough to let a capsule pass through it. In particular the outlines of said opening may reproduce sensibly the outlines of a longitudinal cross section profile of a capsule. When the capsule positioner is closed, as illustrated on FIG. 4a, the base of the capsule seat is formed by the closing apparatus. When the capsule positioner is opened, as illustrated on FIG. 4b, the closing apparatus is configured to authorize a capsule positioned onto the capsule seat 44 to leave the capsule seat. In particular, the capsule positioner 40 is positioned on the upper part of the housing of the beverage machine to let a capsule falling into the passage 31 under the action of the gravity force, when the capsule positioner is opened.

[0045] In the first embodiment, the closing apparatus 46 may be included in the capsule seat and forms part of it. More particularly, the closing apparatus may comprise a sliding cover inserted into lateral guides of the housing. The shape of the sliding cover may comprise an area with a recess having sensibly the outside shape of a part of the capsule. The sliding cover may be translated, along one longitudinal axis defined by the configuration of the lateral guides, to switch the positioner between its opened and closed positions. The translation of the sliding cover may be performed using a motorized arrangement (not represented), and/or with the help of mechanical coupling means (not represented) linked with the first and/or the second assembly of the brewing unit (not represented), and/or may be part of the first or the second assembly of the brewing unit itself (not represented).

[0046] In a second embodiment, shown in FIG. 6, the capsule positioner comprises a rotating body 83 in which the capsule seat is formed. The rotating body is rotatably mounted relatively to the housing of the machine, for example around a pivot Oy. The rotating body 83 is operable, for switching the capsule holder from its closed position to its opened position, by applying a movement of rotation of an angle a around its pivot Oy. A movement of rotation of an angle-a may be applied to the rotating body around its pivot Oy to switch the capsule holder from the opened position to the closed position. In the closed position of the capsule holder, as represented on FIGS. 6a and 6b, the rotating body may receive and hold a capsule into its seat. In the opened position of the capsule holder, as represented on FIGS. 6e and 6f, the rotating body is configured to release a capsule, pre-positioned in the capsule seat, into the brewing unit chamber through the passage 31. For instance, as represented in particular on FIG. 6f, the release of the capsule may result of its sliding out the base part of the seat where the capsule is held to an opened area of the rotating body. The sliding of the capsule is caused by the rotation of the rotating body and the action of the gravity. Other means for releasing the capsule when the capsule holder is in its opened position may be used, for instance, movable hooks, actuated traps, moving parts, or any means suitable for extracting the capsule out of the seat. Intermediate positions of the rotating body from the opened position to the closed position are represented on FIGS. 6c and 6d. The rotation of the rotating body 83 for switching the capsule positioner between the opened and closed positions may be driven by a motorized arrangement driven by the control unit 11 or an additional control unit. Alternatively, as shown on FIGS. 6a, 6c and 6e, the rotating body 83 may be mechanically linked by mechanical coupling means 85 with the brewing unit, and in particular the first assembly 23 and/or the second assembly 24, so as to switch between the opened and closed positions depending on whether the brewing unit is opened or closed. For instance, the mechanical coupling means 85 may be arranged to open the closing apparatus when the brewing unit is configured in its opened position, and to close the closing apparatus otherwise. The housing of the machine comprises an opening 82 large enough to let a capsule pass through it. In particular the outlines of said opening may be sensibly circular. When the capsule positioner is closed, as illustrated on FIGS. 6a and 6b, the base of the capsule seat is formed by a base part 84 of the rotating body 83. When the capsule positioner is opened, as illustrated on FIGS. 6e and 6c, the rotating body is arranged to let a capsule positioned into the capsule seat leaving the capsule seat. Moreover, in an embodiment, the closing arrangement is formed notably by a closing part 86 of the rotating body which closes at least partially the opening in the housing of the machine.

[0047] As illustrated on FIG. 1, the beverage machine comprises a capsule detector 50 and, optionally, a recognition unit 60. The capsule detector is adapted to detect a presence of a capsule onto the capsule seat and/or passing through the capsule seat. The optional recognition unit is adapted to determine a type for a detected capsule positioned onto the capsule positioner or passing through the capsule seat. The detection of a capsule and optionally the recognition of its type can be obtain by receiving or reading information from a capsule, for example identification data emitted by a radiofrequency component embedded in the detected capsule. It can also be realized by measuring at least one characteristic of the capsule, for example: spectral property, electrical property, electromagnetic property, emitted or reflected signal, color, resistivity, capacitance, variation of the magnetic field, magnetic induced field, geometry, code bar, identifier, signal, electromagnetic echo, weight, and mechanical parameter. Some characteristics may be obtained passively by a sensor without interacting with the detected capsule. For instance, it is possible to recognize an outside color of a part of the capsule. Other characteristics may be obtained actively by the sensor in interacting with the detected capsule. For example the sensor may apply an alternative current to the detected capsule and then may measure parameters of the inductive field generated this way and/or resistivity and/or capacitance of the detected capsule.

[0048] The capsule detector and the recognition unit are represented as two separated functional units on FIG. 1. However, the capsule detector and the recognition unit may be implemented on a single device configured to detect the presence of a capsule in the capsule positioner and to recognize a type associated to said capsule. Moreover, in the perspective views of FIGS. 4, 5 and 6, the capsule detector and the recognition unit are not visible, hidden by the housings of the beverage machine and of the capsule positioner. The capsule detector and the recognition unit may be positioned in the vicinity of the capsule positioner, and more particularly, near, around and/or in the capsule seat.

[0049] Referring now to FIGS. 5, 6 and 7, there is shown therein the steps of a method for automatically handling the start of the preparation of a beverage, according to an embodiment.

[0050] As illustrated on FIGS. 5a, 6a and 7, the machine is initially in a state S.sub.1 in which the capsule positioner is closed. In this state S.sub.1, a capsule cannot enter the brewing chamber through the capsule positioner. In the state S.sub.1, the machine is running in an operating mode in which at least the capsule detector is fully functional.

[0051] Referring to FIGS. 5b, 6b and 7, during a first step 110, the capsule detector is used to watch over the capsule seat, so as to detect a presence of a capsule onto the capsule seat. The capsule detector may be operated continuously. Alternatively, the capsule detector may be used during discrete time periods: for example the capsule detector is activated every second during the time needed to detect an eventual presence of a capsule onto the insertion area. The first step is carried out repeatedly, until a capsule is actually detected. For example, the first step may terminate after the detection of a capsule inserted by a user onto the capsule seat, as shown on FIGS. 5b, 6b.

[0052] Optionally, upon detection of a capsule, the machine switches to a second state S.sub.2, wherein the recognition unit is active and fully functional. In an embodiment, the recognition unit may be always active and fully functional, and in particular when the machine is in the first state S.sub.1. Consequently the first and the second state may be considered as equivalent in this embodiment.

[0053] During an optional second step 120, the recognition unit is used to measure a set of characteristics of the capsule detected during the first step.

[0054] A profile Pr.sub.c of the detected capsule can then be drawn up from the measured characteristics. The profile Pr.sub.c comprises at least one minimal set of information necessary to identify the belonging of the detected capsule to a reference group. A corresponding reference profile Pr.sub.REF is defined for each reference group, defining a set of reference profiles Pr.sub.REF[ ]. The reference groups are used to divide capsules into different sets. Each reference profile Pr.sub.REF comprises at least a minimal set of characteristics that a capsule should reproduce to be identified as belonging to at least one corresponding reference group. Each reference profile Pr.sub.REF may comprise, for at least each characteristic of the minimal set, a target value, a range, and/or a list of acceptable target values that a capsule should reproduce to be identified as belonging to the corresponding reference group.

[0055] During the optional second step, the controller 10 compares the profile Pr.sub.c of the detected capsule with the reference profiles Pr.sub.REF[ ]. The reference profiles Pr.sub.REF[ ] may be stored permanently or temporarily within the memories of the controller 10. The reference profiles Pr.sub.REF[ ] may be entered on the machine at a setup step or being downloaded on demand. The reference profiles Pr.sub.REF[ ] may be obtained from a remote location or from a removable memory device, like an USB key or from a portable digital device, connected temporarily to the machine. The reference profiles Pr.sub.REF[ ] may be updated or parameterized, for example, to take into consideration particular characteristics of the machine, such as calibration data or actual characterization performances of the recognition unit. In particular, it is determined whether the capsule's profile Pr.sub.c matches one of the reference profiles Pr.sub.REF[ ]. If the profile Pr.sub.c of the capsule does not match any reference profiles Pr.sub.REF[ ], information I1_UNIDENTIFIED is generated by the controller 10. By contrast, if the profile Pr.sub.c of the capsule matches one of the reference profiles the reference profiles Pr.sub.REF[ ], information I1_IDENTIFIED is generated by the controller 10. The information I1_IDENTIFIED includes at least information to identify the corresponding reference profile, for example a unique identifier corresponding to a given reference profile Pr.sub.REF.

[0056] Several criteria may be applied to determine if a profile matches one of the reference profiles.

[0057] For example, a given capsule may belong to one of four groups: aluminium capsules, capsules adapted to prepare a short espresso (ristretto, 25 ml), capsules adapted to prepare an espresso (40 ml), capsules adapted to prepare a long espresso (lungo, 110 ml). The reference profile Pr.sub.REF corresponding to the aluminium capsules contains for example a resistivity range centered around 100 ohms more or less 10%. The reference profile Pr.sub.REF corresponding to the short espresso group may contain a color range covering green tones (between 520 and 570 nm, for example). In this last example, the profile of a capsule having a light green outside membrane and a measured resistivity of 97 ohms would match the reference profile of the short espresso group and those of the aluminium capsules group. Consequently, the capsule would be considered as belonging to the short espresso group and to the aluminium capsules group. A capsule having a red outside membrane would not be considered as a member of the short espresso group.

[0058] In an embodiment, a reference profile may also comprise a plurality of minimal sets of information necessary to identify the belonging of the detected capsule to one reference group. In particular, a reference profile may comprise, for at least one characteristic of the minimal set, a plurality of target value, and/or range, and/or list of acceptable target values, that a capsule should reproduce to be identified as belonging to the corresponding reference group. For example, the reference profile Pr.sub.REF corresponding to the short espresso group may contain a plurality of color ranges covering green tones (between 520 nm and 570 nm, for example) and red tones (between 630 nm and 740 nm, for example). In this last example, the profile of a capsule having a light green outside membrane would match the reference profile of the short espresso group. The profile of a capsule having a red outside membrane would also match the reference profile of the short espresso group.

[0059] In another example, the reference profile Pr.sub.REF corresponding to the aluminium capsule may contain a plurality of couples of target resistance and capacitance values. A profile of a capsule will match a reference profile of the aluminium capsule if: [0060] the capsule has a resistance of 100 ohms +/5% and a capacitance of 100 nF +/2%; or, [0061] the capsule has a resistance of 1000 ohms +/5% and a capacitance of 50 nF +/2%.

[0062] In this last example, the profile of a capsule having a resistance of 101 ohms and a capacitance of 50 nF will not be considered to belong to the aluminium capsules group.

[0063] Other approach may be applied to determine if a profile matches one of the reference profiles, for example using Bayesian networks, self-learning neural networks, and, generally speaking, probabilistic methods.

[0064] In a third optional step 130, a current status S of the machine is determined, read or accessed by the controller 10. In particular, the current status S may include at least one or a combination of parameters related to items included in the following non exhaustive list: the presence of a capsule into the brewing chamber or in the cage of the brewing chamber, the completion state of a beverage preparation process, the current availability of the different components of the machine, the level of water into the water tank, the readiness of the thermoblock.

[0065] In a fourth step 140, a sequence SEQ of actions is determined or chosen. If a capsule has been detected during the first step 110, whether said capsule has been recognized or not, the sequence SEQ comprises at least an action to set the capsule holder into its opened position, and an action to start automatically the preparation of the beverage when the detected capsule has reached the brewing unit chamber. However, the sequence SEQ may be determined or adapted, for example to adapt the preparation process, according to the result of the comparison between the capsule's profile Pr.sub.c and the reference profiles Pr.sub.REF[ ], and more generally whether the capsule has been recognized or not.

[0066] In a fifth step 150, each action of the sequence SEQ is actually performed by the beverage preparation machine.

[0067] In an exemplary embodiment, if a capsule has been detected, the sequence SEQ comprises an action to open the brewing unit if necessary, an action to switch the capsule holder to its opened position, an action to close the brewing unit if necessary as soon as the capsule has entered the brewing chamber, and an action to start the beverage preparation process. The user has consequently only to put a capsule into the capsule holder to start automatically the preparation of a beverage. No other user interaction, like pressing a button for example, is needed anymore. Moreover, only the detection of a capsule may trigger the execution of this sequence SEQ, enhancing both the safety level and the ergonomic of the beverage machine.

[0068] In another exemplary embodiment, if the profile Pr.sub.c does not match any reference profiles Pr.sub.REF[ ], then the sequence SEQ comprises an action to inform the user via the User Interface, for example by a visual and/or sound message, that the capsule has not been recognized. The sequence SEQ comprises also actions to prepare the beverage according to default parameters. By contrast, if the profile Pr.sub.c matches one of the reference profiles Pr.sub.REF[ ], an action to inform the user via the User Interface, for example by a visual and/or sound message, that the capsule has been effectively recognized can be inserted into the sequence SEQ. More precisely, specific information related to the recognized reference profiles may be displayed, for example the name of the corresponding reference group. Hence, it is possible to display a message to the user indicating that the capsule is intended to prepare a short espresso. Of course, other information may be given to the user, for example, vocal and/or visual instructions, a visual representation of the capsule, commercials information, recipes, other kind of capsules that the user could be interested in, etc. The sequence SEQ comprises actions to prepare the beverage using parameters, customized according to the type of the capsule, for example a customized volume of water.

[0069] The sequence SEQ may also be determined by taking into consideration the current status S of the machine. The current status S may be analyzed to determine whether the machine is ready and/or capable of preparing a beverage with the detected capsule. A set of rules R may be defined to determine which actions should be undertaken according to the belonging of the detected capsule to a set of groups, and the current status S of the machine.

[0070] For example, a rule R1 indicates that a capsule should be detected. Another rule R2 indicates that the preparation of a beverage is only possible if the brewing chamber is empty. A rule R3 states that the actions necessary to prepare a beverage with the detected capsule are introduced into the sequence SEQ, if the rule R1 and the rule R2 are both verified. A rule R4 states that if the rule R2 is not verified, the actions necessary to wait until the rule R2 is verified and to prepare then a beverage with said capsule are introduced into the sequence SEQ. Thus, if a capsule has been detected, then the rule R1 is verified. However, supposing that another beverage is already in hand, the rule R2 is not satisfied. According to rule R3, a beverage can't be prepared with the capsule disposed by the user into the capsule positioner, since rule R1 and rule R2 are not both verified. However, as stated by the rule R4, the machine will wait the end of the preparation of the previous beverage, and just after the end, will prepare the beverage with the detected capsule. This example might be advantageous to prepare long coffee with at least two capsules, the user being able to prepare its beverage only by putting an adequate number of capsules into the capsule holder, the operation being fully automated.

[0071] In another example, a rule R1 indicates that a capsule should be detected. The rule R2 also adapts the actions to prepare different volumes of the beverage, according to the belonging of the detected capsule to one of the three groups ristretto, lungo, normal. Thus, if a capsule has been detected, then the rule R1 is verified. Moreover, if the capsule belongs to the lungo group, the actions are adapted to prepare a beverage having a volume corresponding to the lungo group, typically 120 ml. If the capsule has not been recognized, the actions are adapted to prepare a volume of beverage corresponding to a default value.

[0072] A series of typical use cases of the machine according to the embodiments will now be discussed.

Example 1

[0073] The machine is powered on. The capsule positioner is closed, no capsule being inserted into the capsule seat. The brewing unit is opened. A user puts into the capsule positioner a capsule. Since the capsule positioner is closed, the capsule is hold into the capsule seat, and cannot enter the brewing chamber. The detector then detects the presence of said capsule. The capsule positioner is opened, allowing the capsule to enter the chamber of the brewing unit, the brewing unit is closed, and the beverage is prepared.

Example 2

[0074] The machine is powered on. The capsule positioner is closed, no capsule being inserted into the capsule seat. The brewing unit is closed. A user puts into the capsule positioner a capsule. Since the capsule positioner is closed, the capsule is held into the capsule seat. The detector then detects the presence of said capsule, and the recognition unit does not recognize the pre-positioned capsule. A visual message is brought to the intention of the user indicating that the capsule has not been recognized or that default parameters will be used for the preparation of the beverage. The brewing unit and the capsule positioner are opened, allowing the capsule to enter the chamber of the brewing unit. Then, the brewing unit is closed, and the beverage is prepared, according to default parameters.

Example 3

[0075] The machine is powered on. The capsule positioner is closed, no capsule being inserted into the capsule seat. The brewing unit is closed and the preparation of a first beverage is in hand. A user put into the capsule positioner a capsule. The detector then detects the presence of said capsule, and the recognition unit determines the type of the pre-positioned capsule. The capsule positioner being closed and the machine being not ready to prepare another beverage since the preparation of the first beverage is not already finished, the capsule positioner is kept closed until the brewing unit is ready to prepare a new beverage. During this period, a visual message, for instance a blinking light, is brought to the intention of the user indicating that the capsule has been recognized, the machine is not ready to prepare another beverage but the beverage will be prepared as soon as possible after the end of the preparation of the first beverage. Then the capsule positioner is opened, the brewing unit is fed with the detected capsule and is closed automatically, and a beverage is then prepared.

Example 4

[0076] The machine is powered on. The capsule positioner is closed, no capsule being inserted into the capsule seat. The brewing unit is closed and the preparation of a first beverage is in hand. A user puts into the capsule positioner a capsule. The detector then detects the presence of said capsule, and the recognition unit determines that the pre-positioned capsule can be used to prepare a beverage and that capsule is adapted to prepare a long espresso with 120 ml of water. The water tank of machine contains 78 ml of water, and a sensor has sent this information to the controller. The capsule positioner being closed and the machine being not ready to prepare a long espresso since there is not enough water available, the capsule positioner is kept closed until the water tank is filled with enough water. During this period, a visual message, for instance a blinking light, is brought to the intention of the user indicating that the capsule has been recognized as a suitable capsule to prepare a long espresso, that the water tank of the machine should be filled with water, and that a long espresso will be prepared as soon as possible when enough water will be provided. Then the user fills the tank with water up to 500 ml. The capsule positioner is opened, the brewing unit is fed with the detected capsule and is closed automatically, and a lungo espresso beverage is then prepared.