PREPARATION UNIT TO PREPARE DRINKS FROM PREPACKED CAPSULES AND DRINK PRODUCTION MACHINE

专利摘要:
preparation unit with horizontal movement the preparation unit comprises: - a preparation chamber (13, 16) with a first part of the preparation chamber (13) and a second part of the preparation chamber (16), movable together to open and close the preparation chamber; - a channel (81) for inserting said capsules (c) towards said preparation chamber; - a movable diverter (63) interposed between said first part of the preparation chamber (13) and said second part of the preparation chamber (16) to deflect said capsules (c) towards the inside of one of said parts of the preparation chamber (13, 16).
公开号:BR112013007997A2
申请号:R112013007997-5
申请日:2011-10-05
公开日:2020-01-07
发明作者:Baldo Massimo
申请人:Koninklijke Philips Electronics N.V；
IPC主号:

专利说明:

PREPARATION UNIT TO PREPARE DRINKS FROM
OF PREPACKED CAPSULES AND DRINK PRODUCTION MACHINE
TECHNICAL FIELD
The present invention relates to a preparation unit for producing beverages from prepackaged capsules, for example, but not exclusively for producing coffee.
PREVIOUS TECHNIQUE
To produce hot beverages, such as coffee, tea, herbal infusions and the like, single dose packs, called capsules, are generally used, containing the ingredients to produce the drink, in which hot water is made to flow in an appropriate pressure to extract the flavors from the ingredients contained in the capsule. There are several types of devices for handling the capsules and for infusion, which is for the phase to extract the flavors from the capsules through the passage of water.
In US-2010101428 and US-2010037779, preparation units are described using single dose capsules, in which the capsules are inserted vertically by falling into an insertion channel towards a preparation chamber consisting of the two moving parts between itself, one open to receive a capsule and one closed to follow the infusion cycle. In these known devices, a system is provided to hold the capsule inserted in the preparation unit before closing the preparation chamber. More in particular, a pair of elastic arms placed on the sides of the opening and closing route of the two parts of the preparation chamber engages the capsule on its flange when inserted into a position between the two open parts of the preparation chamber. The arms follow the movement of the mobile part of the preparation chamber and accompanies the capsule inside the fixed part. Once the phase for extracting the drink is finished, the
2/53 preparation opens and the arms contribute to the removal of the capsule from the preparation chamber to cause gravity to fall below the collection container.
This preparation unit, even if reliable, has a higher number of parts and is not particularly compact.
WO-A-2010/103044 discloses a preparation unit with a fixed part of the preparation chamber and a movable part of the preparation chamber. A lever controls the opening and closing of the preparation chamber. An inclined side is arranged between the fixed part of the preparation chamber and the movable part of the preparation chamber to insert the capsule into the fixed part of the preparation chamber. When the mobile part of the preparation chamber is moved towards the closed position by means of the actuation lever, the mobile part of the preparation chamber interacts with the slide to push said slide upwards, so that the capsule enters completely in the part of the fixed chamber and the preparation chamber can be closed. When opening the preparation chamber, the slide returns to the direction of the lower position by gravity.
SUMMARY OF THE INVENTION
The present invention relates to a preparation unit with a preparation chamber formed by at least two moving parts with vertical insertion of the capsules, which completely or partially overcomes at least some of the disadvantages of the known units. The purpose of the preferred embodiments of the invention is to provide a preparation unit that is particularly compact and simple to manufacture and reliable in use.
Substantially, the preparation unit according to the invention comprises at least: a preparation chamber with a first part of the preparation chamber and a second part of the preparation chamber, movable together to open and close the preparation chamber; a channel to insert the capsules
3/53 towards the preparation chamber; a movable diverter interposed between the first part of the preparation chamber and the second part
gives chamber of preparation to deflect at capsules inside a of said first and second part gives chamber in preparation. In some achievements, O channel to insert the
capsules are generally directed in a vertical direction to insert said capsules by gravity. Usually in the vertical direction an orientation means allowing the insertion of the capsules by gravity. Preferably, the two parts of the preparation chamber are movable with each other in a generally horizontal direction, which is generally orthogonal to the direction of the insertion channel.
In some embodiments, the mobile diverter is arranged and controlled to interpose between the first part of the preparation chamber and the second part of the preparation chamber when said first and second part of the preparation chamber are open and leave a path of mutual movement said first and second part of the preparation chamber during the closing movement of the preparation chamber. The movement of the diverter to clean the area of the preparation chamber is controlled by a drive mechanism, for example, an electric motor or a hand lever. The same drive mechanism preferably also controls the closing and opening movement of the preparation chamber.
The movement of the movable diverter can be a bidirectional pivoting movement at angles less than 360 °, which is essentially a pivoting motion. A particularly simple and reliable structure is obtained if the movable diverter rotates in the opposite directions around an axis substantially at 90 ° with respect to the direction of the closing and opening movement of the two parts of the preparation chamber. The axis of rotation of the movable diverter is preferably directed at approximately 90 ° with
4/53 with respect to the direction of insertion of the capsules, which is the channel for inserting the capsules towards the preparation chamber. Preferably, the axis of rotation or oscillation of the movable diverter is arranged above the parts of the preparation chamber. More generally, the axis of rotation and the shape of the movable diverter are for placing the movable diverter above the area in which the parts of the preparation chamber move.
In other, but more complicated embodiments, the movable diverter may oscillate or rotate around a substantially vertical lateral axis, that is, a lateral axis that is substantially parallel to the direction of insertion of the capsule. In other embodiments, the movable diverter may comprise two parts that cooperate with each other, oscillating or rotating around the two distinct axes placed on the sides of the preparation chamber. In this case, the two parts of the movable diverter can be arranged between the two parts of the preparation chamber when it is open, to deflect the capsule, during its fall in the insertion channel, towards the inner part of one of the two parts of the preparation chamber. When the preparation chamber is to be closed, the two parts of the diverter can open by rotating each one around its own axis of rotation and oscillation, to free the coupling area of the two parts of the preparation chamber.
The rotation or oscillation movement around a single substantially horizontal axis is advantageous for the structural simplicity of the preparation unit that is then obtained, but also because in this form the movable diverter can constitute an auxiliary member that causes or facilitates the separation of the capsules exhausted from one of the parts of the preparation chamber in the event that said capsule must accidentally remain adhered to such part.
In some advantageous embodiments, the mobile diverter comprises a ramp, that is, a wall capable of assuming a
5/53 inclined position, which (when the preparation chamber is open) can position between the first and the second part of the preparation chamber. In this position, the ramp is advantageously inclined from top to bottom and towards one of said first and second part of the preparation chamber, in which a capsule that arrives from the insertion channel is guided by said ramp.
In general, both parts of the preparation chamber can be movable with respect to a fixed bearing frame or frame. However, preferably only one of said first and second part of the preparation chamber is movable and the other is fixed with respect to a fixed bearing frame or frame, in which it is advantageously associated and with respect to the channel for inserting the capsules is fixed. Preferably, the movable part of the preparation chamber has the preparation recess in the direction in which the capsule is directed and in which the capsule is inserted with the aid of the mobile diverter. In some embodiments, the part of the preparation chamber in the direction in which the mobile diverter directs the capsule is the part of the fixed chamber and is, in turn, provided with a preparation recess.
During loading of the capsule, the mobile diverter can advantageously be directed so that the capsule, inserted by gravity, reaches the diverter and is pushed towards the inner part of the concave part of the preparation chamber. The subsequent closing movement completes the insertion of the capsule and causes the mobile diverter to exit to clean the movement and closing area of the two parts of the preparation chamber.
The preparation unit can be equipped with a mechanism for manual or motor drive. In the first case, for example, a drive mechanism in the form of a control lever can be provided. In the second case, an electric drive, preferably an electric motor, or
6/53 an electromagnetic actuator, or pneumatic or hydraulic or an actuator of another type, may be provided. The drive mechanism controls the closing and opening movement of the preparation chamber. In the preferred embodiments of the invention, the drive mechanism directly or indirectly controls the movement of the movable diverter, that is, the movement with which the movable diverter moves from the area where the preparation chamber part (s) move to close the preparation chamber. For this purpose, if the drive is manual, for example, a kinematic connection between a control lever, the part (s) of the mobile preparation chamber and the mobile diverter can be provided. Similarly, if a different driver is provided, for example, a motor, a mechanical connection can be provided between the driver and at least one of the parts of the preparation chamber on the one hand and between the driver and the mobile diverter on the other hand, for move the movable diverter in sync with the closing movement of the preparation chamber.
Preferably, the movable diverter is controlled by the drive mechanism also during the reverse movement, that is, the movement that brings the movable diverter back between the first and the second part of the preparation chamber. In a less preferred embodiment, this return movement is controlled by an elastic member, for example, one or more springs. In both cases, the mobile diverter advantageously acts on the spent capsule to assist or facilitate its ejection.
In some embodiments, the mobile diverter is arranged so that when the preparation chamber is open, the capsule is in the mobile diverter and in one part of the preparation chamber, and preferably in the part of the preparation chamber that forms a preparation recess. into which the capsule is inserted. In other embodiments, the mobile derailleur
7/53 drives with a movable capsule support member that supports the capsule underneath before the preparation chamber is closed. In these embodiments, when the preparation chamber is open, the capsule is inserted into the preparation unit and occupies a resting position, in which it is supported by the movable diverter on the other side (for example, on the flat top of this) and the movable capsule that supports the mechanism and the other (for example, in the lower area of the flange). The movable diverter moves the capsule towards one of the parts of the preparation chamber, but the capsule reaches the rest position without coming into contact with the part of the preparation chamber. When the preparation chamber is closed, the drive mechanism (for example, a control lever) used to control the closing movement of the preparation chamber, causes the movement of the movable diverter and the movable support member of the capsule as well, to clean the preparation chamber area. The capsule is pushed by the movable diverter into the part of the preparation chamber opposite the movable diverter and the movable support member of the capsule is cleaned to allow the preparation chamber to be closed. The movements of the part (s) of the preparation chamber, the movable diverter and the movable support member of the capsule can be properly coordinated and synchronized using a single actuation member.
Using the mobile support member of the capsule to support the capsule underneath, instead of positioning it to be directly on the part of the preparation chamber opposite the mobile diverter increases the reliability of the preparation unit. In fact, if the side wall of the capsule is damaged, for example, deformed or jagged, placing it directly on the edge of the preparation chamber would cause the capsule to assume the wrong resting position. The staging unit would then tend to malfunction. On the other hand, place the capsule with its flange against the furniture that supports the
The 8/53 member guarantees the correct operation of the preparation unit even if the side wall of the capsule is deformed, as the flange or rim of the capsule generally maintains its correct shape.
The invention also relates to a machine for producing beverages, for example, a coffee machine, which comprises a brewing unit as described above.
Additional features and realizations of the invention are described below with reference to an implementation example and in the appended claims, which form an integral part of the present description.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention will be better understood following the description and the attached drawing, which shows the exemplary embodiments of the invention. In more detail, in the drawing:
Figure 1 shows a side view of the preparation unit according to the invention in the stage for receiving a new capsule;
Figure 1A shows a side view of the preparation unit without the side flanks to show the cinematics to transmit the lever movement to the preparation unit;
Figure 1B is an axonometric view of the preparation unit without the side flanks;
Figure 2 shows a plan view according to IIII of figure 1;
Figures 3 and 4 show the sections according to III-III and IV-IV of figure 2;
Figures 5, 6 and 7 show views and sections similar to those in Figures 1, 3 and 4 in a subsequent phase, in which the capsule was inserted in an intermediate position between the two parts of the preparation chamber in the closed position;
Figures 8, 9 and 10 show sections and views similar to those in Figures 5, 6 and 7 in a phase of closing the preparation chamber;
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Figures 11, 12 and 13 show sections and views similar to those in Figures 8, 9 and 10 with the preparation unit closed and the capsule inserted in the preparation chamber;
Figures 14, 15 and 16 show sections and views similar to those in Figures 11, 12 and 13 in an opening phase of the preparation chamber after the preparation cycle;
Figures 17, 18 and 19 show sections and views similar to those in Figures 14, 15 and 16 in the phase of dropping the exhausted capsule of the preparation unit;
Figure 20 shows a schematic external view of a machine in which the preparation unit according to the invention can be incorporated;
Figures 21 and 22 show a perspective view of the preparation unit according to a first embodiment in the open and closed position, respectively;
Figure 23 shows a plan view of the preparation unit of Figure 21 in an open position during the insertion of a capsule;
Figure 24 shows a side view according to line XXIV-XXIV in figure 23;
Figures 25 and 26 show cross sections according to lines XXV-XXV and XXVI-XXVI in figure 23;
Figures 27 and 28 show a plan view and a side view according to line XXVIII-XXVIII in figure 27, respectively, of the preparation unit before closing the preparation chamber;
Figures 29 and 30 show cross sections according to lines XXIX-XXIX and XXX-XXX in figure 27;
Figures 31 and 32 show a plan view and a side view according to line XXXII-XXXII in figure 31, respectively, of the preparation unit during the closing of the preparation chamber;
Figures 33 and 34 show cross sections of
10/53 according to lines XXXIII-XXXIII and XXXIV-XXXIV in figure 31;
Figures 35 and 36 show a plan view and a side view according to line XXXVI-XXXVI in figure 35, respectively, of the preparation unit in the preparation position;
Figures 37 and 38 show cross sections according to lines XXXVII-XXXVII and XXXVIII-XXXVIII in figure 35;
Figures 39 and 40 show a plan view and a side view according to line XL-XL in figure 39, respectively, of the preparation unit during the opening of the preparation and discharge chamber of the spent capsule;
Figures 41 and 42 show cross sections according to lines XLI-XLI and XLII-XLII of figure 39, respectively;
Figure 43 shows a perspective view of a preparation unit according to another embodiment;
Figure 44 shows a section of the preparation unit of figure 43 according to a vertical longitudinal plane;
Fig. 45 shows a perspective view similar to Fig. 43 with the preparation unit in a closed position;
Figure 46 shows a section of the preparation unit in a closed position;
Figures 47-50 show sections according to a vertical plane of a preparation unit according to the invention in yet another embodiment, the figures showing the closing sequence of the preparation chamber;
Figures 51 and 52 show a side view of the preparation unit according to figures 47-50 in the open and closed position of the preparation chamber, respectively;
Fig. 53 shows a perspective view of a preparation unit in another embodiment of the invention;
11/53
Figures 54-57 show longitudinal cross-sectional views according to a central median plane of the preparation unit of figure 53 in different positions during the closing movement of the preparation chamber.
DETAILED DESCRIPTION OF THE ACCOMPLISHMENTS OF THE INVENTION
The following detailed description of the exemplary achievements refers to the attached drawings. The same reference numbers in different drawings identify the same or similar elements. Additionally, drawings are not necessarily drawn to scale. In addition, the following detailed description does not limit the invention. In addition, the scope of the invention is defined by the appended claims.
The reference throughout the specification to a (number) realization or an (indefinite article) realization or some realizations means that the particular function, structure or characteristic described in connection with an realization is included in at least one realization of the disclosed subject. Thus, the appearance of the phrase in one embodiment or in one embodiment or in some embodiments in various locations throughout the specification is not necessarily with reference to the same embodiment (s). Furthermore, the particular functions, structures or characteristics can be combined appropriately in one or more realizations.
Below, reference will be made specifically to the preparation units using pre-packaged capsules for the preparation of coffee-based drinks. However, it should be understood that the invention can also be incorporated in the preparation units using loose ingredients, such as coffee powder, as well as in the units for the preparation of different types of edible products by means of extraction with pressurized hot water.
REALIZATION OF FIGURES IA TO 20
12/53
In the following, the production of coffee will be specifically described, but it should be understood that the object of the preparation unit of the present invention can be used even to manipulate the capsules containing ingredients intended for the production of other types of liquid food products, that is, beverages .
Figure 20 generically shows a manual coffee machine that uses capsules, in which a preparation unit is installed having the structure that will be described below with reference to figures 1 to 19. Machine 1 comprises a rest plane 3 for cups T placed in the filling unit 5 with two nozzles 5A that supply the drink produced by the brewing unit 2.
The preparation unit 2 comprises a fixed structure or frame formed by flanks 11 and an upper block 12 restricted to each other and mounted in a fixed position within the machine 1. The two parts of a preparation chamber are arranged between the flanks 11. As can be seen in particular in the section of figure 3, the preparation unit comprises at least a first movable part of the preparation chamber 13 and a second fixed part of the preparation chamber 16. In the illustrated example, the mobile part 13 forms within this a preparation recess 13A in which preparation capsule C is inserted with a movement described below.
A substantially cylindrical concave member 15 is housed within the preparation recess 13A, with an inner wall 15A having a shape that reproduces the shape of the outer side surface of the capsule C, in the illustrated example, an approximately truncated conical shape. The conical member 15 is elastically inclined by a spring 17 interposed between the conical member and the bottom 13B of the preparation chamber part 13 and forms an ejector to eject the capsule from within the preparation chamber part 13.
13/53
In some embodiments, a perforator 19 is attached to the bottom 13B of the movable part of the preparation chamber 13, whose perforator, in the illustrated example, has a plurality of conical projections with aperture or concave, where through the drink produced inside the preparation chamber it is distributed, which is then collected in a beverage distribution channel 21 (figure 2) at the flow connection with the supply unit 5.
In some embodiments, the fixed part of the preparation chamber 16 substantially comprises a small plate 23 on which a perforator 25 is fixed with a plurality of projections with sharp edges opposite the projections with sharp edges of perforator 19. A channel for supplying hot water under pressure towards the preparation chamber is designated with
27. Water flows through the perforator 25 to penetrate inside the capsule C since it was locked inside the preparation chamber and perforated by the perforators 19 and 25.
The use of the two perforators to pierce the bottom and the upper surface of the C capsule allows the use of sealed capsules, made of plastic, metal foil or other suitable material. The possibility of omitting one or the other, or both perforators, is not excluded, for example, when the capsules are used, which open, for example, by the effect of water pressure outside and / or the pressure of the drink inside the capsule or when the capsules are used, they have one or both opposite surfaces provided with a water-permeable area, for example, closed with false fabrics or a filter made of paper or other permeable material.
In the illustrated example, the closing and opening movement of the preparation chamber is obtained by moving the movable part of the preparation chamber 13 according to a double arrow fl3 by means of a manually operated control lever 29. In other embodiments, the possibility of use a different
14/53 manual mechanism or even a driver, for example, an electric motor, or a pneumatic or hydraulic system or any other control driver is not excluded.
In the illustrated example, the control lever 29 is hinged 31 to the pair of flanks 11 forming a part of the bearing structure of the preparation unit 2. The control lever 29 has (in particular also figure 12) a pair of arms 33 rigidly retracted on the control lever 29 and articulated on a pin 35 on a pair of rods 37, in turn, articulated by means of a pin 39 on a pair of cranks 41. The latter are articulated with a pin 43 on the bearing formed by the flanks 11. Two additional rods 47, articulated by means of a pin 49 in the movable part of the preparation chamber 13, are articulated by means of a pin 45 in the cranks 41 in the opposite position in relation to the pin 43. Cinematism is visible in particular in figures ΙΑ, 1B, in which the flanks of the fixed structure have been removed to show these details of the device more clearly.
With this cinematics, the rotation according to the double arrow f29 of the control lever 2 9 around the pin 31 causes the moving part of the preparation chamber 13 to slide. The sliding movement of the moving part of the preparation chamber 13 is guided by middle of the pin 49 on the guides 51 provided on the flanks 11 of the fixed bearing structure. An additional cross pin 53, parallel to pins 31, 35, 39, 43, 45 and 49, is still integral with the movable part of the preparation chamber 13, the transverse pin of which forms a guide member of the movable part of the preparation chamber 13 , which engages an additional pair of guides 55 formed on the flanks 11 parallel to the guides 51, to keep the movable part of the preparation chamber 13 in a horizontal position during the closing and opening movement of the preparation chamber.
A member of the mobile diverter 63 is articulated in a
15/53 pin 61 in the upper block 12 of the bearing structure 11, 12, whose member has a wall or ramp 64 supported by the swivel arms 65 articulated to pin 61. Pin 61 is parallel to the articulation pins of the camera control cinema preparation method described above and orthogonal to the direction fl3 of the closing and opening movement of the preparation chamber. As will be explained below, the mobile diverter 63 aims to guide and deflect a capsule through the ramp 64 towards the inside of the mobile part of the preparation chamber 13 and to favor the discharge, that is, the ejection of the capsule depleted C after the preparation cycle.
The rotational movement of the movable diverter 63 around the pin 61 is obtained by means of a kinematic connector member 67 between the control lever 29 and the movable diverter 63. In the illustrated embodiment, the member of the kinematic connection 67 consists of a pair of bars formed articulated in 69 to the respective arms 33 and each provided with a projection 70 facing towards the inner side of the flanks of the preparation unit 2, sliding on the guides 71 implemented in block 12. Through the interaction between the projections 70 and the guides 71, the position of the formed bars 67 is maintained throughout the opening and closing movement of the preparation chamber 13, 16. Furthermore, the projections 70 of the formed bars 67 cooperate with the cam profiles 65A provided on the two arms oscillation 65 of the mobile diverter 63 and in substance they act as felts for the meat formed by said profiles 65A.
The operation of the preparation unit described so far is as follows.
In figures 1 to 4 the preparation unit is open. A channel 81 for inserting the C capsules, implemented inside the fixed block 12 of the bearing structure, can be accessed by the user from the top of the machine,
16/53 advantageously close to the control lever 29. The user can then insert a capsule C into the insertion channel 81. The capsule falls by gravity towards the inside of the preparation unit 2, reaching the position illustrated in particular in the section of figure 6. During the fall through the insertion channel 81 the capsule C reaches the ramp 64 supported by the swivel arms 65.
In this position of the preparation unit 2, the mobile diverter 63 is in a position so that the capsule C, which reaches the ramp 64, is deflected with its own bottom towards the preparation recess 13A defined inside the mobile part of the preparation chamber. preparation 13, as shown in figure 6. Before the preparation unit is closed by operating the control lever 29, the capsule is then held in this position by resting on one side on the ramp 64 of the mobile diverter 63 and on the other side on the edge of the conical member 15 housed within the recess 13A of the movable part of the preparation chamber 13 (figure 6).
By operating the control lever 29 downwards, the preparation unit 2 closes by moving from the position shown in figures 5 to 7 until reaching the closing and the preparation position in figures 11 to 13. Figures 8 to 10 show an intermediate position during the closing movement.
During the closing movement, the movable diverter 63 is gradually raised and moved out of the area in which there is the movable part of the preparation chamber 13 and the fixed part of the preparation chamber 16. This lifting movement by means of rotation around of the pin 61 is obtained by the projections 70 by pressing the profile of the cam 65A of the arms 65 of the mobile diverter 63. By moving the mobile diverter 63 upwards, it is then possible to free the entire area of the preparation chamber that can be closed by placing the mobile part of the preparation 13
17/53 leaning against the fixed part of the preparation chamber 16. Moving the moving part of the chamber 13 towards the mobile diverter 63 and towards the part of the fixed chamber 16 causes the capsule C to penetrate into the preparation recess 13A , as shown in particular in figure 9. The mobile diverter 63 does not loosen the contact with the capsule C before the capsule penetrates sufficiently into the mobile part of the preparation chamber 13 and the latter has sufficiently addressed the fixed part of the preparation chamber 16, so that when removing the movable diverter 63 from the space between the two parts of the preparation chamber 13, 16 the capsule is safely retained between the two parts of the preparation chamber 13, 16 and engaged in a sealed way between them. When the preparation chamber is closed, the flange F of the capsule C is locked between the margin 15B of the tapered member 15 housed in the movable part of the preparation chamber 13 and a margin 16A of the fixed part of the preparation chamber 16. The projections of the perforators 25 and 19 penetrate the front surface and bottom of the capsule C respectively, thus communicating the internal volume of the capsule with the pressurized hot water of the channel that feeds the channel 27 and with the beverage distribution channel 21.
The perforation of the bottom of the capsule C can occur due to the mechanical closing effect of the preparation chamber or it can occur in a delayed manner providing that the capsule has a concave bottom as illustrated in the drawing, which deforms under the effect of the pressure exerted by the water under pressure supplied through channel 27, until the drilling is completed by deformation of the bottom against the projections of the perforator 19 of the mobile part of the preparation chamber 13.
Once the preparation cycle is completed, with a reverse rotation movement of the control lever 29, the preparation unit is opened as shown in figures 14 to 16. The mobile diverter 63 is pushed down by a
18/53 elastic member, not shown, so that the ramp 64 of the mobile diverter 63 pushes against the capsule C. The latter is ejected or at least partially removed from the preparation recess 13A of the mobile part of the preparation chamber 13 by the effect of the elastic impulse of the springs 17 on the conical member 15, thus preventing the capsule from remaining inside the movable part of the preparation chamber 13. The impulse exerted on the upper side in the capsule C by the movable diverter 63 prevents the capsule from adhering to the fixed part of the preparation chamber preparation 16 and more in particular to the projections of the perforator 25, thus ensuring that the exhausted capsule falls by gravity (figures 17 to 19).
Instead of an elastic member pushing downward, the movable diverter 63 so that the cam profiles 65A remain in contact with the projections 70, a bidirectional restriction between the projections 70 and the movable diverter 63 can be provided, for example, the projections 70 can be engaged in a formed slot implemented in the arms 65.
The exhausted capsule C passes through an opening 85 provided in the bearing structure and reaches a collection tray from which it is then removed by the user.
REALIZATION OF FIGURES 21-42
Another embodiment of a preparation unit according to the invention and its operation is illustrated in figures 21-42.
The preparation unit, identified 102 as a whole, comprises a fixed guard 110 and a block 112 arranged on top of said fixed guard 110 and restricted therein. Guard 110 and block 112 are mounted in a fixed position within machine 1. Guard 110 includes a structural frame in which the two parts of a preparation chamber are retracted. The structural frame surrounds the preparation chamber and the forces generated inside the preparation chamber during the preparation process are discharged into said
19/53 structural frame.
More specifically, in some embodiments the structural frame comprises two side threaded bars
111. In some embodiments, each threaded bar is made of a metal blade or other suitable material. The threaded bars 111 form the structural components of the structural frame that supports the preparation chamber, that is, the components in which the forces generated by the preparation pressure are applied.
The first ends 111A of the two threaded bars 111 are connected together by a transverse axis 113. The second opposite ends 111B of the threaded bars 111 are formed to form a connector member for connection to a water heater 115. In some embodiments, the ends 111B of the threaded bars are provided through a hole, for example, square in shape. The margin through the holes can be formed to provide a mechanical connection by means of mechanical interference with the corresponding protrusions 115A provided on the outer surface of the water heater 115. In other embodiments, different restraining members can be provided, for example, threads or similar.
The two threaded bars 111, the shaft 113 and the water heater 115 structurally cooperate with each other and form said structural frame that supports the forces generated in the preparation chamber during preparation. The water heater 115 then forms a structural component of said frame.
In some embodiments, the water heater 115 comprises a main body 115B, for example, formed of a block made of metal, for example, aluminum or an aluminum alloy or other heat-conducting material. The 115A protrusions are preferably formed on the lateral surface
20/53 external of main body 115B. In some embodiments, ο block that forms the main body of the water heater 114 made by water casting. The protrusions 115A can be integrally formed with the main body 115B during its casting.
In some embodiments, the main body 115B includes an electrical resistor 115C and a water channel 115D. Both the electric resistor 115C and the water channel 115D can be helically wound around an axis of the body 115B of the water heater 115. The connectors of the electric resistor 115D in an electrical line are identified 116, and a water connection in one water pump that takes water to the water heater 115 is shown at 118.
Such a water heater is generally called a flow or instantaneous water heater, that is, one in which a very small amount of water is contained in the helically formed water channel 115D and where the electric resistor 115C is sufficiently energetic to heat the water as it flows through the water heater 115 during use. A different water heater can be used, such as a boiler with an accumulation container, in which a larger amount of hot water is kept at the required temperature by a smaller resistor. In this embodiment, the water heater forms a structural component of the frame that supports the preparation chamber. In addition, a flow-through water heater offers better mechanical strength and other advantages in terms of energy consumption.
In some embodiments, the preparation chamber comprises two parts. In the shown embodiment, the preparation chamber includes a first part of the preparation chamber 121 and a second part of the preparation chamber 123. In some embodiments the first part of the preparation chamber 121 is
21/53 fixedly mounted with respect to the frame formed by the threaded bars 111, the shaft 113 and the boiler 115. Preferably, the first part of the preparation chamber 121 is attached to the water heater 115 or in contact with heat with the body of this.
In the embodiment shown in the drawings, the first part of the preparation chamber 121 is connected to the water heater 115 with the interposition of an intermediate formed plate 122. The water heater 115 is then in heat contact with the part of the water chamber. preparation 121 through said intermediate formed plate 122. Heat contact means that heat can be transmitted from the main body 115B of the water heater to the part of the preparation chamber 121 by conduction, so that the water heater 115 can maintain the part preparation chamber 121 at a higher temperature than the ambient temperature due to heat conduction.
The second part of the preparation chamber 123 is movable with respect to the first part of the preparation chamber 121 according to the double arrow fl23 along a direction substantially parallel to the axis A-A of the preparation chamber.
In some embodiments, at least one of said parts of the preparation chamber or both said parts of the preparation chamber are provided with perforation means to pierce a capsule C containing the ingredients for preparing the coffee-based drink. In the embodiment shown in the drawings, the fixed part of the preparation chamber 121 is provided with perforators 125 that extend through the holes in a member of the disc 127 slidably disposed in the fixed part of the preparation chamber 121. The member of the disc 127 is provided with a sealing ring 129 co-actuating with an annular margin of the opposite mobile part of the preparation chamber 123. When the preparation chamber is closed and the preparation cycle begins, the water
22/53 hot water flowing from the water heater 115 enters the preparation chamber through a channel 124, flows through the holes provided in the disc member 127 and enters the capsule C through the holes drilled in the upper surface of the capsule by the perforators 125.
When the preparation chamber opens after a preparation cycle is complete, the springs (not shown) push the disc member 127 from the bottom of the housing formed by the substantially cylindrical outer wall of the fixed part of the preparation chamber 121, to function as an extractor from the housing. capsule C after preparation has taken place.
As can be seen in the drawings, the fixed part of the preparation chamber 121 is disposed adjacent to the water heater 115, so that water flows along a very short path from the water heater 115 into the preparation chamber and substantially no heat is wasted. In addition, the beverage dispensed during the first brewing cycle that follows a machine waiting period is sufficiently hot, since substantially no chilled water remains between the water heater 115 and the brewing chamber.
The movable part of the preparation chamber 123 is in the form of a cup and near the bottom of it a plate 131 can be arranged, which is advantageously provided with the drilling protrusions 133. In some embodiments, the protrusions 133 are open so that the drink extracted from the ingredients contained in the preparation chamber leaves the preparation chamber through the passages that extend through the protrusions 133.
A substantially concave cylindrical member 135 can be housed within the recess of the movable part of chamber 123. The conical cylindrical member 135 is provided with an inner wall 135A which may have a shape corresponding to the shape of the
23/53 outer side surface of capsule C, in the example shown, a conical shape approximately truncated. The tapered member 135 is elastically inclined by a spring 137 disposed between the tapered cylindrical member and the bottom of the moving part of the preparation chamber 123. Said tapered cylindrical member 135 acts as an ejector to eject the capsule C from within the moving part of the preparation chamber 123 after preparation. In the drawings, for the sake of simplicity, the spring 137 is always shown in its compressed condition, even when the preparation unit is open.
Two piercing means for piercing the lower surface and the upper surface of a C capsule as described here, allow the use of sealed capsules, made of plastic, foil or other suitable material. The possibility of omitting one or the other, or both means of drilling, is not excluded, as mentioned above with respect to the previously described realization of figures 1 to 19.
While the fixed part of the preparation chamber 121 is fixedly supported on the water heater 115, the movable part 123 of the preparation chamber is slidably supported within the frame formed by the water heater 115, the threaded bars 111 and the shaft 113. More specifically , in the example shown, the movable part 123 of the preparation chamber is provided with two pairs of pins projecting laterally 123A, 123B. Pins 123A are slidably engaged in slots 110A of external protection 110, while pins 123B are slidably engaged in slits 110B of external protection 110 and corresponding slits 111A of the two opposing threaded bars 111. A different guide mechanism for slidingly guiding the part of the preparation chamber with respect to the frame, for example, a single pair of pins having an elongated cross-section.
A suitable servo drive or manual is provided
24/53 to control the movement of the moving part of the preparation chamber 123. In the example shown in the drawings, the movement of the moving part of the preparation chamber 123 is controlled by a crank 141 turned at 143 on a corresponding pair of rods 147. The rods are, in turn, articulated at 148 in the mobile part of preparation chamber 123. Crank 141 is articulated on axis 113 and is integral with appendages 145. Said appendices are, in turn, articulated at 146 on threaded bars 149 articulated at 151 on a control lever 156. The control lever 156 is in turn pivotally engaged at 157 in a solid protrusion 159 in the fixed part of the preparation chamber 121 or in any part rigidly connected to the frame around the preparation chamber.
The rotation of the control lever 156 on the hinge 157 according to the double arrow fl56 causes the crank 141 to rotate on the axis 113. The rotary movement of the crank 141 is transformed by the crank-stem connection 141147 into a translation movement of the part preparation chamber 123.
Other types of drive mechanisms can be used to control the closing and opening movement of the preparation chamber. For example, an electric motor or a hydraulic or pneumatic actuator can be used, which acts, for example, on an axis that controls the movement of the crank 141.
According to the embodiment shown in figures 2142 the capsule C is introduced to the preparation chamber by gravity. For this purpose, an opening 160 is provided in an upper surface 112A of the block 112.
When the preparation chamber is in the open position (figures 23-26) a movable bypass member 163, articulated by means of a pin 161 to the upper block 112, is arranged
25/53 under said opening 160.
The movable bypass member 163 can be comprised of a wall or ramp 164 supported by the swing arms 165. The rotating pin 161 is parallel to the axis 113 and to the rotary axes of the transmission members 156, 149, 147, 141 described above and orthogonal to the direction fl23 of the closing and opening movement of the preparation chamber.
As will be explained in more detail below, the mobile diverter 163 aims to guide and deflect a capsule C towards the inner part of the mobile part of the preparation chamber 123 and favor the discharge, that is, the ejection of the exhausted capsule C after preparation .
The rotation movement according to the double arrow fl63 of the movable diverter 163 around pin 161 can preferably be transmitted by the control lever 156. In the illustrated embodiment, this movement is achieved by means of a kinematic connector member between the control lever 156 and the movable diverter 163. In the illustrated embodiment, the kinematic connection member comprises a pair of sliders 168, each provided with a slotted cam profile 168A in which the corresponding pins 156A engage, said pins 156A being disposed at the ends from projections 156B integral to lever 156. Rotation of lever 156 then causes sliding movement of slides 168. Each slide 168 has a final projection 168B opposite the respective profile of the slotted cam 168A. Each final projection 168B engages in a groove 165A of the corresponding arm 165 of the mobile diverter 163. With this arrangement, the reciprocal movement of the slides 168 transmits a rotary movement to the mobile diverter 163. The control lever 156 then synchronously controls the pivoting movement of the mobile diverter 163 and the translational movement of the part of the preparation chamber 123.
26/53
The operation of the preparation unit described so far is as follows. In figures 23 to 26, preparation unit 102 is open. Opening 160 can be accessed by the user from the top of the machine. The user can insert a capsule C into the insertion opening 160. The capsule C falls by gravity in the preparation unit 102, reaching the position shown in particular in the section of figure 29. The capsule C arrives at the ramp 164 supported by the rotating arms 165 and is stopped.
At this stage, the mobile diverter 163 is in such a position that the capsule C, reaching the ramp 164, is deflected with the bottom of it towards the preparation recess 123R formed inside the mobile part of the preparation chamber 123, as shown in the figure 29. Before closing the preparation unit 102 by operating lever 156, capsule C is held in this position by resting with its upper surface against the ramp 164 of the mobile diverter 163 and its side wall against the edge of the part preparation chamber 123.
By moving the control lever 156 downwards, the preparation chamber is closed. Figures 31 to 34 show the preparation chamber 121, 123 approaching its closed position, while figures 35-38 show the preparation unit with the preparation chamber in the closed position ready to start the preparation cycle. During the closing movement, the movable diverter 163 is gradually raised and cleans the area where the movable part of the preparation chamber 123 moves while approaching the fixed part of the preparation chamber 121. The rotary lifting movement around the pin 161 is controlled by the slides 168 engaging the movable diverter 163 in the projections 168B, acting as followers in the grooves 165A, which act as cam profiles.
In the closed position (figures 35-38) the flange F of the
27/53 capsule C is sealed between the edge of the movable part of the preparation chamber 123 and the seal 129 of the fixed part of the preparation chamber 121. The projections of the perforators 125 and 133 penetrate the front surface and the bottom surface respectively capsule C allowing pressurized hot water to flow through the capsule and the ingredients contained in it to extract flavors for the production of the drink.
Since the brewing cycle has ended, a reverse rotary movement of the control lever 156 opens the brewing chamber 121, 123 as shown in figures 39-42. The mobile diverter 163 is pushed downwards by the slides 168 so that the ramp 164 of the mobile diverter 163 pushes against the capsule C. The last one is ejected or at least partially removed from the preparation recess 123R of the mobile part of the preparation chamber 123 by elastic impulse exerted by spring 137 on conical member 135, thus preventing the C capsule from remaining inside the movable part of the preparation chamber 123. The impulse exerted on the upper side of the capsule C by the mobile diverter 163 prevents the capsule C from remaining adherent to the fixed part of the preparation chamber 121. The depleted capsule C is then reliably discharged by gravity. The exhausted capsule C passes through an opening 185 provided in the external protection 111 and is discharged into a collection department from which it is then removed by the user.
REALIZATION OF FIGURES 43 ~ 46
Figures 43-46 show another embodiment of a preparation unit according to the invention.
The preparation unit, identified 302 as a whole, comprises a fixed guard 310 and a block 312 arranged on top of said fixed guard 310 and restricted thereto. The fixed guard 310 and the block 312 are mounted in a fixed position inside a coffee machine, such as coffee machine 1 in
28/53 figure 20. The protection 310 includes two parts of a preparation chamber and houses a structural frame that surrounds the preparation chamber and into which the forces generated inside the preparation chamber during the preparation process are discharged.
In some embodiments, the structural frame includes two side threaded bars 311. Each threaded bar 311 can be made of a metal foil or any other suitable material.
The first ends 311A of the two threaded bars 311 are connected together by a transverse axis 313. The second opposite ends 311B of the threaded bars 311 are formed to form a connector member for connection to a water heater 315. In some embodiments, the ends 311B of the threaded bars are provided with a through hole, to provide a mechanical connection to the corresponding protrusions 315A provided on the external surface of the water heater 315.
The two threaded bars 311, the shaft 313 and the water heater 315 are structurally connected to form said structural frame that receives the forces generated in the preparation chamber during preparation. The water heater 315 then forms a structural component of said frame.
In some embodiments, the water heater 315 comprises a main body 315B, for example, formed by a block made of metal, such as aluminum or an aluminum alloy or other heat conductive material. The protrusions 315A are preferably formed on the outer lateral surface of the main body 315B. The main body 315B can be made by water casting. The 315A protrusions can be formed integrally with the main body 315B in a single casting manufacturing step.
In some embodiments, in the main body 315B an electrical resistor 315C and a water channel 315D are included.
29/53
Both the 315C electric resistor and the 315D water channel can be helically wound around an axis of the 315B water heater body 315. The 315D electric resistor connectors on an electrical line are identified 316. The inlet end of the water channel 315D water is connected via a connecting tube to a water pump (not shown). The outlet end of the water channel 315D has a connector 318 from which the pressurized hot water is inserted into the preparation chamber, as will be revealed later.
Such a water heater is called a flow or instantaneous water heater, that is, a very small amount of water is contained in the helically formed water channel 315D and where the electrical resistor 315C is sufficiently energetic to heat the water while it is inserted through the water heater 115 during use. In less advantageous embodiments, a different water heater can be used, such as a boiler with an accumulation container in which a greater amount of hot water is kept at the temperature required by a smaller resistor.
Still in this embodiment, the water heater forms a structural component of the frame that supports the preparation chamber. Different designs are possible, for example, in which the water heater is not part of the structural frame that supports the preparation chamber.
In some embodiments, the preparation chamber comprises two parts. In the embodiment shown in figures 43-46, the preparation chamber includes a first part of the preparation chamber 321 and a second part of the preparation chamber 323. In some embodiments, the first part of the preparation chamber 321 is mounted fixed with respect to the frame including the threaded bars 311, the shaft 313 and the
30/53 water 315. Preferably, the first part of the preparation chamber 321 is in heat contact with the body of the water heater 315, for example, attached or supported by the water heater 315. The first part of the preparation chamber forms a preparation recess in which capsule C is inserted as disclosed here below.
In the embodiment shown in figures 43-46, the first part of the preparation chamber 321 is housed in a base 322 rigidly retracted to the body of the water heater 315. The base 322 can be formed integrally with the body 315B of the water heater 315, for example, it can be manufactured with the remaining part of the body 315B and protrusions 315A in a single molding or casting step. The water heater 315 is then in contact with the preparation chamber part 321 through said base 322. Heat contact means that heat can be transmitted from the main body 315B of the water heater 315 to the part of the heating chamber preparation 321 by conduction, so that the water heater 315 can maintain the part of the preparation chamber 321 at a temperature above room temperature due to the conduction of heat.
The second part of the preparation chamber 323 is movable with respect to the first part of the preparation chamber 321 according to the double arrow f323 along a direction substantially parallel to the axis A-A of the preparation chamber.
One or both of said parts of the preparation chamber may be provided with a means of perforation for piercing a capsule C containing the ingredients for producing the beverage based on coffee or any other edible product by infusion.
In the embodiment shown in the drawings, the movable part of the preparation chamber 323 is provided with perforators 325 that extend through the holes provided in a member of the disc
31/53
327 slidably arranged in the movable part of the preparation chamber 323. The disk member 327 is provided with a sealing ring 329 co-acting with an annular margin of the opposite fixed part of the preparation chamber 321. When the preparation chamber is closed, the capsule C is housed in the preparation recess formed in the part of the preparation chamber 321 and the preparation cycle begins, the hot water that flows from the water heater 315 and exits the connector 318 enters the preparation chamber through a channel 32 4 on the side of the movable part of the preparation chamber 323. A flexible tube 318A connects channel 324 and connector 318, allowing the closing and opening movement of the two parts of the preparation chamber. Pressurized hot water flows through the holes provided in the disk member 327 and enters the capsule C through the openings pierced in the upper surface of the capsule by the perforators 325.
The springs (not shown) push the disk member 327 from the bottom of the housing formed by the substantially external cylindrical wall of the movable part of the preparation chamber 323, to remove the capsule C from the perforators 325 after preparation takes place.
The fixed part of the preparation chamber 321 is shaped like a cup and near the bottom of it a plate 331 is arranged, and is provided with drilling protrusions 333. The protrusions 333 are open so that the drink extracted from the ingredients contained in the preparation chamber leaves the preparation chamber through the passages that extend through the protrusions 333 and is distributed through a distribution channel 334.
A substantially concave cylindrical member 335 can be housed within the preparation recess of the movable part of chamber 323. Conical cylindrical member 335 can be provided with an inner wall 335A having a shape that reproduces the shape of the outer side surface of capsule C,
32/53 in the illustrated example an approximately frusto-conical shape. The conical member 335 is elastically inclined by a spring 337 disposed between the conical cylindrical member 335 and the bottom of the fixed part of the preparation chamber 321. Said conical cylindrical member 335 acts as an ejector to eject the capsule C from within the fixed part preparation chamber 321 after preparation.
The dispensing channel 334, from which the beverage is dispensed, extends through the water heater body 315B 315. Preferably, the water heater body 315B is axially concave as shown in 315E and has a front through hole 315F so that the dispensing channel 334 can be connected to a beverage dispensing nozzle 5A of the machine on which the brewing unit is arranged.
This special arrangement ensures that the distribution channel 334 is heated and is placed at a temperature above room before the first preparation cycle is carried out. The heating of the distribution channel 334 is achieved by the heat convection of the water heater 315. The close contact between the fixed part of the preparation chamber 321 and the body 315B of the water heater 315 is such that the more one of the two parts the preparation chamber is heated by the same resistor that heats the preparation water before the preparation cycle begins. Both measures result in a hot drink being distributed from the first part of the drink distributed by the brewing unit 302.
The use of two perforators to pierce the bottom and top surfaces of a C capsule is not mandatory. However, providing two perforators allows the use of sealed capsules, made of plastic, metal foil or other suitable material. The possibility of omitting one or the other, or both punches, is not excluded.
While the fixed part of the preparation chamber 321 is
33/53 fixedly supported on the water heater 315, the movable part of the preparation chamber 323 is slidably supported within the frame formed by the water heater 315, the threaded bars 311 and the shaft 313. More specifically, the movable part 323 of the chamber can be provided with pairs of laterally projecting pins 323A which are slidably engaged in slots 310A of the outer guard 310. Pins 323A have an elongated cross-section so that a pair of these pins is sufficient to conveniently guide the moving part of the chamber preparation 323 avoiding its inclination.
The movement of the movable part of the preparation chamber 323 is controlled by a crank 341 articulated on the axis 313 and rotated 343 on a corresponding pair of rods 347. The rods are, in turn, articulated at 348 on the movable part of the preparation 323. The movement of the part of the preparation chamber 323 can be controlled by means of a threaded rod 349 articulated at 343 in the pivot that connects the crank 341 and the rods 347. The threaded rod 349 is, in turn, rotated by 350 on a 356 control lever rotatably engaged 357 on guard 310.
The rotation of the control lever 356 on the hinge 357 according to the double arrow f356 causes the crank 341 to rotate on the shaft 313. The rotary movement of the crank 341 is transformed by the crank-stem connection 341347 into a translation movement of the part preparation chamber 323.
Other types of drive mechanisms can be used to control the closing and opening of the preparation chamber. For example, an electric motor or a hydraulic or pneumatic actuator can be used, which acts, for example, on an axis that controls the movement of the crank 341.
According to the embodiment shown in figures 4334/53
6, capsule C is introduced into the preparation chamber by gravity. For this purpose, an opening or slot 360 is provided in an upper surface 312A of block 312. The capsule C will fall according to the arrow F1 (figure 44) through the opening or slot 360.
When the preparation chamber is in its open position (figures 43, 44), a movable bypass member 363 articulated by means of a pin 361 to the upper block 312 is disposed under said opening 360. The rotating pin 361 is preferably parallel to the axis 313 and the rotary axes of the transmission members 356, 349, 347, 341 described above and orthogonal to the direction f323 of the closing and opening movement of the preparation chamber.
As explained in more detail below, the mobile diverter 363 aims to guide and deflect a capsule C towards the inner part of the fixed part of the preparation chamber 321 and to favor the discharge, that is, the ejection of the exhausted capsule C after preparation.
The rotation movement according to the double arrow f363 of the movable diverter 363 around the pin 361 can preferably be transmitted by lever 356. In the illustrated embodiment, this movement is achieved by means of a connecting member between the control lever 356 and the movable diverter 363. The connecting member may comprise a pair of connecting rods 368 rotated at 368A on the control lever 356 and 368B in an appendix 363A of the movable diverter 363. The pivoting motion of the control lever 356 then causes a movement movable diverter rotary 363. The latter can have up to two end positions, shown in figures 44 and 46, respectively, corresponding to the open and closed position of the preparation chamber, respectively.
In the first position, the mobile diverter 363 is arranged under the opening or slot 360 so that the capsule C
35/53 introduced through the slot 360 is deflected by the movable diverter 363 towards the fixed part 321 of the preparation chamber. In the second position (figure 46) the movable diverter 363 is placed above the preparation chamber. The movement of the movable diverter 363 controlled by lever 356 is in phase, so that the movable diverter is moved from the passage of the movable part of the preparation chamber 323 before the closing of the preparation chamber, so as not to interfere with the closing movement.
The operation of the preparation unit 302 described so far is as follows. In figures 43 and 44, preparation unit 302 is open. The 360 opening is accessible for inserting a C capsule into the preparation unit. Capsule C falls by gravity in preparation unit 302, which reaches the position shown in the solid line in the cross section of figure 44. During its downward movement, capsule C arrives at the mobile diverter ramp 363 and is then stopped. The movable diverter 363 is in a position such that the capsule C, which arrives at the movable diverter 363, is deflected with its bottom towards the preparation recess 321R formed inside the fixed part of the preparation chamber 321. The capsule C then it is on its lateral surface against the margin of the tapered member 335 or against the margin of the movable part of the preparation chamber 321. The capsule C is held in this position by the diverter member 363 until the preparation unit is closed by pressing the control lever 356 .
By operating the control lever 356 downwards, the preparation chamber is closed (figures 45, 46). During the closing movement, the movable diverter 363 is gradually raised and cleans the area where the movable part of the preparation chamber 323 moves, approaching the fixed part of the preparation chamber 321. The rotating lifting movement around pin 361 is controlled by the control lever 356 through the rods 368. Before cleaning the space between the
36/53 parts of the preparation chamber 321, 323 the movable diverter 363 pushes the capsule C into the preparation recess 321 R.
In the closed position, the flange F of the capsule C is sealed between the margin of the fixed part of the preparation chamber 321 and the seal 32 9 of the movable part of the preparation chamber 323. The projections of the perforators 325 and 333 penetrate the front surface and bottom surface of capsule C allowing pressurized hot water to flow through the capsule and the ingredients contained in it extract the flavors for the production of the drink.
Since the preparation cycle has ended, with a reverse rotary movement of the control lever 356, the preparation chamber 321, 323 is opened again. The movable diverter 363 is pushed downward by the arms 368 to push against the capsule C. The latter is ejected or at least partially removed from the recess 321R of the fixed part of the preparation chamber 321 by the elastic impulse exerted by the springs 337 on the conical member 335, thus preventing the capsule C from remaining inside the fixed part of the preparation chamber 321. The downward push on the upper side of the capsule C by the movable diverter 363 prevents the capsule C from remaining stuck in the mobile part of the preparation chamber 323 or in the fixed from the preparation chamber 321. The depleted capsule C is then reliably discharged by gravity.
ACCOMPLISHMENTS OF FIGURES 47 TO 52
Another embodiment of a preparation unit according to the invention is shown in figures 47-52. In these figures, only the parts of the preparation chamber, the mechanical components for controlling the opening and closing of the preparation chamber and the devices for handling the capsule are shown. The external frame, guides and other auxiliary parts of the preparation unit are omitted to clarify the drawings. Members, components or
37/53 elements corresponding to the realization shown in figures 43 to 46 are identified with the same reference numbers increased by 100. Thus, for example, the actuation lever shown in figures 47 to 52 is identified 456 and corresponds to the actuation lever 356 of the embodiment shown in figures 43 to 46.
The preparation unit, identified 402 as a whole, comprises a fixed frame (not shown) that supports a preparation chamber. The frame can be designed as revealed in connection with the previously described achievements. In addition, the preparation unit may include a water heater, which may, for example, be arranged on the left in figures 47-50. The water heater can be an instantaneous water heater, that is, a water heater through the flow as mentioned above.
In the embodiment shown in figures 47-52, the preparation chamber includes a first part of the preparation chamber 421 and a second part of the preparation chamber 423. The first part of the preparation chamber 421 forms a preparation recess 421A, in which a capsule C containing beverage ingredients is introduced. In these embodiments, the first part of the preparation chamber 421 is fixedly supported by the frame. Preferably, the first part of the preparation chamber 421 is in heat contact with the water heater body, for example, attached or supported by the water heater.
The second part of the preparation chamber 423 is movable with respect to the first part of the preparation chamber 421 according to the double arrow f423 along a direction substantially parallel to the axis A-A of the preparation chamber. One or both of said parts of the preparation chamber 421, 423 can be provided with piercing means for piercing a capsule C.
The movable part of the preparation chamber 423 is provided
38/53 with perforators 425 that extend through the holes provided in a member of the disc 427 slidably disposed in the movable part of the preparation chamber 423. The sealing ring 429 surrounds the member of the disc 427 and is arranged to coerce with an annular margin from the fixed opposite part of the preparation chamber 421. When the preparation chamber is closed and the preparation cycle begins, the hot water flowing from the water heater enters the preparation chamber through a channel 424 on the side of the moving part of the chamber preparation 423. Pressurized hot water flows through the holes provided in the disc member 427 and enters the capsule C through the openings drilled in the upper surface of the capsule by the perforators 425.
Springs (not shown) push the disk member 427 from the bottom of the housing formed by the substantially external cylindrical wall of the movable part of the preparation chamber 423, to remove the capsule C from the perforators 425 after preparation takes place.
The fixed part of the preparation chamber 421 is cup-shaped and near the bottom a plate 431 is disposed, and is provided with perforation protrusions 433. The protrusions 433 are with openings so that the drink leaves the preparation chamber through the passages that extend along protrusions 433 and are distributed through a distribution channel 434.
A substantially concave cylindrical member 435 can be housed within the preparation recess of the movable part of chamber 423. Conical cylindrical member 435 can be provided with an inner wall 435A having a shape that reproduces the shape of the outer side surface of capsule C, in the illustrated example an approximately frusto-conical shape. The conical member 435 is elastically inclined by a spring 437 disposed between the conical cylindrical member 435 and the bottom
39/53 of the fixed part of the preparation chamber 421. Said conical cylindrical member 435 acts as an ejector to eject the capsule C from within the fixed part of the preparation chamber 421 after preparation.
The movement of the movable part of the preparation chamber 423 is controlled by a crank 441 articulated on an axis 413 and rotated 443 on a pair of corresponding rods 447. The rods are in turn articulated at 448 on the movable part of the preparation 423. The movement of the part of the preparation chamber 423 can be controlled by means of a threaded bar 449 articulated at 443 to the pivot connecting the crank 441 and the rods 447. The threaded bar 449 is, in turn, rotated by 450 on a 456 control lever rotatably engaged 457 on the immovable frame.
The rotation of the control lever 456 on the hinge 457 according to the double arrow f456 causes the crank 441 to rotate on the axis 413. The rotary movement of the crank 441 is transformed by the crank-stem connection 441447 into a translation movement (f423 ) of the movable part of the preparation chamber 423.
Other types of drive mechanisms can be used to control the closing and opening of the preparation chamber. For example, an electric motor or a hydraulic or pneumatic actuator can be used, which acts, for example, on an axis that controls the movement of the 441 crank.
According to the embodiment shown in figures 4752, capsule C is introduced into the preparation chamber by gravity. For this purpose, an opening or slot is provided in an upper surface of the coffee machine on which the brewing unit 402 is arranged. Capsule C will fall according to arrow F1 (figure 47) towards preparation unit 402.
When the preparation chamber is in position
40/53 open (figures 47, 51), a movable diverter 463 articulated by means of a pin 4 61 in the immobile frame of the preparation unit (not shown) is disposed under the entrance opening in which the capsule C will fall by gravity. The rotating pin 461 is preferably parallel to the axis 413 and the rotary axes of the transmission members 456, 449, 447, 441 described above and orthogonal to the direction f423 of the closing and opening movement of the preparation chamber.
As explained in more detail below, the mobile diverter 463 aims to guide and deflect a capsule C towards the fixed part of the preparation chamber 421 and favor the discharge, that is, the ejection of the exhausted capsule C after preparation.
The rotation movement, according to the double arrow f463 of the movable diverter 463 around the pin 461, can preferably be transmitted by the control lever 456. In the illustrated embodiment, this movement is obtained by means of a connecting member between the lever control 456 and movable diverter 463. The connecting member may comprise a pair of connecting rods 4 68 rotated at 4 68A on control lever 456 and 468B in an appendix 463A of movable diverter 463. The rotating movement of the control 456 then causes a rotating movement of the mobile diverter 463. The latter can have up to two end positions, shown in figures 47, 51 and figures 50, 52, corresponding to the open and closed position of the preparation chamber, respectively.
In the first position, the mobile diverter 463 is disposed under the entrance opening or slot into which the capsule C is inserted in the preparation unit, the preparation chamber being opened, so that the capsule C is deflected by the mobile diverter 463 in the direction to the fixed part of the preparation chamber 421. In the second position (figures 50, 52) the mobile diverter 463 is placed above the preparation chamber, the last
41/53 being closed. The movement of the movable diverter 463 controlled by the control lever 456 is in phases, so that the movable diverter is moved from the passage of the movable part of the preparation chamber 423 before closing the preparation chamber, so as not to interfere with the closing movement .
The mobile diverter 463 co-drives with a mobile support member of the capsule 471 associated with the fixed part of the preparation chamber 421. As best shown in figures 51 and 52, in this embodiment the mobile support member of the capsule 471 is provided with two arms approximately formed in L 472 (only one of them is visible in figures 51 and 52). Both arms formed in L 472 are centrally rotated in 473 about an axis common to the fixed part of the preparation chamber 421. The respective first ends of the arms formed in L 472 are integral with a base 471S. The 471S base is designed to receive and retain the lower part of the flange F of a capsule C at the insertion of the capsule and before the preparation chamber closes. As best shown in figures 47 and 51, when the preparation chamber is open, the capsule C is supported by the mobile diverter 463 and the mobile support member of the capsule 471. More specifically, the upper surface of the capsule C, surrounded by the flange F , is against the movable diverter 463. The lower part of the flange F is at the base 471S of the mobile support member of the capsule 471. In this embodiment, then the capsule C does not come into contact with the preparation chamber until the closing movement of the preparation unit start.
The movement of the mobile support member of the capsule 471 is synchronized with the closing movement of the preparation chamber and thus of the mobile diverter 463 as follows. The mobile support member of the 471 capsule is connected by means of a mechanical connection to the drive mechanism, which closes and opens the preparation chamber. In this realization, said mechanism
42/53 of actuation is formed by the control lever 456. More specifically, in the embodiment shown in the drawings, the second end of each of the arms formed in L 472 is articulated in 475 to a respective stem 477. Each stem 477 is provided in a first end thereof with a first eyelet 477A engaged at 475 with the respective arm formed in L 472. The second opposite end of each stem 477 is provided with an elongated eyelet 477B slidably and rotatably engaged with a pin 47 9 integral with the connecting rod correspondent 468. The latter is in turn connected to the control lever 456. Then, the rotation of the control lever 456 causes, through connecting rods 468 and rods 477, a rotating movement of the mobile support member of the capsule 471 around pivots 473. The elongated eyelet 477B of the two rods 477 allows for a difference in the phase of the movement of the rods 477 with respect to the movement of the control lever 456.
The operation of the preparation unit 402 described so far is as follows. In figure 47, the preparation unit 402 is opened. A capsule C was introduced by gravity into the preparation unit 402 and is supported by the mobile diverter 463 and the mobile support member of the capsule 471, cleans the parts of the preparation chamber 421, 423. The mobile diverter 463 and the mobile support member capsule 471 are arranged in such a way that the capsule C, which reaches the mobile diverter 463, is deflected with the bottom of it towards the recess
of preparation formed in inside of part fixed gives chamber in preparation 421, without entering in contact with the part gives chamber in preparation 421. The capsule C is retained in this position until The unity in I'm ready closed acting on lever in control 456
By operating the control lever 456 downwards (arrow f456, figure 48), the preparation chamber is closed.
43/53
The closing movement is shown in figures 47, 48 and 49. During the closing movement, the mobile diverter 463 is gradually raised and cleans the area where the mobile part of the preparation chamber 423 moves close to the fixed part of the preparation chamber 421 The lifting movement around pin 461 is controlled by the control lever 456 through the rods 468. At the same time, the rods 477 cause the movable support member of the capsule 471 to rotate around the hinge 473. Due to the shape elongated of the eyelets 477B, the pivoting movement of the furniture supporting the member 471 is delayed with respect to the movement of the control lever 456, so that the cap C is correctly supported with the flange F retained in the base 471S until the mobile diverter 463 push the capsule into engagement with the fixed part of the preparation chamber 421. This is best shown in figure 48, where the capsule C was pushed by the mobile diverter 463 partially in the fixed part d the preparation chamber 421, while the mobile support member of the capsule 471 is still in its initial position.
As shown in figures 49 and 50, the mobile support member of the capsule 471 is then cleaned, thus allowing the preparation chamber to be closed.
In the closed position, the flange F of the capsule C is sealed between the margin of the fixed part of the preparation chamber 423 and the seal 42 9 of the movable part of the preparation chamber 423. The projections of the perforators 425 and 433 penetrate, respectively , on the front surface and the bottom surface of capsule C allowing pressurized hot water to flow through the capsule to extract the flavors from the ingredients contained in the capsule.
Since the preparation cycle has ended, with a reverse rotary movement of the control lever 456, preparation chamber 421, 423 is opened again. The diverter
44/53 mobile 463 is pushed down by connecting rods 468 to push from the top against the capsule C. The latter is ejected or at least partially removed from the preparation recess formed in the fixed part of the preparation chamber 421 by the elastic force exerted by the springs 437 on the tapered member 435, thereby preventing the capsule C from remaining inside the fixed part of the preparation chamber 421. The impulse exerted on the upper side in the capsule C by the movable diverter 463 prevents the capsule C from remaining attached to the mobile part of the preparation chamber preparation 423 or to the fixed part of the preparation chamber 421. The depleted capsule C is then reliably discharged by gravity. The mobile support member of the capsule 471 is also moved again towards the starting position shown in figure 47 by the control lever 456 through the rods 477. The elongated shape of the eyelets 477B allows a delay in the return movement of the mobile support member of the capsule 471 with respect to the opening movement of the preparation chamber, to facilitate the ejection of the worn capsule C towards a collection tray or the like, disposed under the preparation chamber 421, 423.
In this embodiment, the control lever is used to trigger the closing movement of the preparation chamber as well as the movement of the mobile diverter and the mobile capsule that supports the member. Preferably, as mentioned above, the movement of the mobile diverter and the mobile support member of the capsule is actively controlled by the control lever or by another actuator used to control the closing and opening movement of the preparation chamber, even in the reverse phase, when the preparation chamber is open and the movable diverter is returned to the capsule's holding and deflecting position.
REALIZATION OF FIGURES 53 ~ 57
Another realization of a food preparation unit
45/53 according to the invention is shown in figures 53 to 57. The components corresponding to the embodiment shown in figures 47 to 52 are identified with the same reference numbers above 100.
The preparation unit 502 comprises a fixed frame 504, which houses and supports a preparation chamber. In addition, the preparation unit includes a water heater 515. Preferably, the water heater is a flow heater, including a water heater body where an electrical heating resistor 515C and a water channel 515D are incorporated.
In the embodiment shown in figures 53-57, the preparation chamber includes a first part of the preparation chamber 521 and a second part of the preparation chamber 523. A preparation recess 521A is formed in the first part of the preparation chamber 521. In these embodiments , the first part of the preparation chamber 521 is fixed with respect to the frame 504. Preferably, the first part of the preparation chamber 521 is in heat contact with the body of the water heater 515, for example, the first part of the preparation chamber preparation 521 is arranged on a base 522 integrally formed with the water heater body 515. The second part of the preparation chamber 523 is movable with respect to the first part of the preparation chamber 521 according to the double arrow f523 along a direction substantially parallel to the AA axis of the preparation chamber.
One or both of said parts of the preparation chamber 521, 523 can be provided with piercing means for piercing a capsule C containing the ingredients for producing the beverage based on coffee, or any other edible product, by infusion. In the embodiment shown in the drawings, the movable part of the preparation chamber 523 is provided with a single perforator 525 that extends through an opening of a
46/53 disk member 527 slidably arranged in the movable part of the preparation chamber 523. The disk member 527 is provided with a sealing ring 529 co-acting with an annular margin of the fixed opposite part of the preparation chamber 521. When the preparation chamber is closed and the preparation cycle begins, the hot water flowing from the water heater enters the preparation chamber through a channel 524 on the side of the movable part of the preparation chamber 523. Pressurized hot water flows through the perforator 525 and enters the capsule C through the perforated openings in the upper surface of the capsule by the perforator 525. A spring 527A pushes the disk member 527 from the bottom of the housing formed by the substantially external cylindrical wall of the movable part of the preparation chamber 523, to remove the capsule C of perforator 525 after completing the preparation cycle and opening the preparation chamber.
The fixed part of the preparation chamber 521 is cup-shaped and near the bottom of it a plate 531 is arranged through which a perforator 533 extends. The perforator 533 has an opening in which the drink extracted from the ingredients contained in the preparation chamber leaves the preparation chamber and flows into a distribution channel 534. Preferably, the distribution channel 534 extends through a cavity 515E of the heater body water and is in fluid communication with a drink dispensing nozzle (not shown).
A substantially cylindrical concave member 535 can be housed within the preparation recess of the moving part of the chamber 523. The conical cylindrical member 535 can be provided with an inner wall 535A having a shape that reproduces the shape of the outer side surface of the capsule C, in the illustrated example an approximately frusto-conical shape. The conical member 535 is elastically inclined by a spring 537 disposed between the conical cylindrical member 535 and the bottom
47/53 of the fixed part of the preparation chamber 521. Said conical cylindrical member 535 acts as an ejector to push the capsule C from the bottom of the fixed part of the preparation chamber 521 after preparation.
The movable part of the preparation chamber 523 is slidably supported within the frame 504. The movement of the movable part of the preparation chamber 523 is controlled by a crank 541 articulated on an axis 513 and rotated at 543 on a pair of corresponding rods 547. The rods are, in turn, articulated at 548 in the movable part of the preparation chamber 523. The movement of the part of the preparation chamber 523 can be controlled by means of a threaded bar 549 articulated at one end thereof to the point of articulation 543 between the crank 541 and rods 547 and at the opposite end 550 to a control lever 556. The control lever 556 is in turn pivoted at 557 in the immovable frame 504.
The rotation of the control lever 556 on the hinge 557 according to arrow f556 causes the crank 541 to rotate on the axis 513. The rotary movement of the crank 541 is transformed by the crank-stem connection 541547 into a translational movement (see arrow f523) of the movable part of the preparation chamber 523.
Still in this embodiment, other types of drive mechanisms can be used to control the closing and opening of the preparation chamber, such as an electric motor, a pneumatic or hydraulic actuator or the like.
Capsule C is introduced to the preparation unit by gravity. For this purpose, an opening or slot 560 is provided in frame 504.
When the preparation chamber is in its open position (figures 53, 54), a movable bypass member 563 articulated by means of a pin 561 in the immovable frame 504 is
48/53 disposed under the inlet opening 506 through which the capsule C is inserted. The rotating pin 561 is preferably parallel to the axis 513 and the rotary axes of the transmission members 556, 549, 547, 541 and orthogonal to the direction f523 of the closing and opening movement of the preparation chamber.
As explained in more detail below, the mobile diverter 563 aims to guide and deflect a capsule C towards the fixed part of the preparation chamber 521 and to facilitate or assist the discharge, that is, the ejection of the exhausted capsule C after preparation.
In this embodiment, the rotation movement according to the double arrow f563 of the mobile diverter 563 around the pin 561 is transmitted by the control lever 556. In the illustrated embodiment, this movement is achieved by means of a connecting member between the lever control 556 and the mobile diverter 563. The connecting member comprises a pair of connecting rods 568 rotated at 568A on the control lever 556 and 568B in an appendix 563A of the mobile diverter 563.
The rotating movement of the control lever 556 causes the preparation chamber to close on one side and the movable diverter 563 to rotate on the other side. The latter can have up to two final positions, shown in figures 53, 54 (when the the preparation chamber is completely open) and in figure 57 (when the preparation chamber is completely closed). In the first position, the mobile diverter 563 is arranged in the inlet opening 560, so that the capsule C that falls by gravity in the preparation unit is deflected by the mobile diverter 563 towards the fixed part of the preparation chamber 521. In the second position (figure 57) the mobile diverter 563 is placed above the preparation chamber. The movement of the mobile diverter 563, controlled by the lever 556, has phases so that the mobile diverter is moved from the passage of the part
49/53 mobile of the preparation chamber 523 before closing the preparation chamber, so as not to obstruct the closing movement.
The mobile diverter 563 co-drives with a mobile support member of the capsule 571 associated with the fixed part of the preparation chamber 521 or the fixed frame. Said mobile support member of the capsule 571 is provided with two arms approximately formed in L 572 which are centrally rotated in the fixed part of the preparation chamber 521 or in the frame 504. The respective first ends of the arms formed in L 572 are integral with a base 571S. The 571S base is designed to receive and retain the lower part of the flange F of a capsule C at the insertion of the capsule and before the preparation chamber closes. As best shown in figure 54, when the preparation chamber is open, the capsule C is supported by the movable diverter 563 and the movable support member of the capsule 571. The lower part of the flange F is at the base 571S of the movable support member of the 571 capsule.
Similarly, as in figures 4752, also in figures 53-57, once inserted into the preparation unit, capsule C has a resting position in which it does not come into contact with the preparation chamber until the unit closes. of preparation start. The capsule comes into contact with the preparation chamber part 521 only after the closing movement is initiated, that is, only after the capsule leaves its resting position.
The movement of the mobile support member of the capsule 571 is synchronized with the closing movement of the preparation chamber and the mobile diverter 563 as follows. The second end of each L-shaped arm 572, opposite the base 571S is hinged to a first end of a respective rod 577. The second opposite end of each rod 577 is, in turn, engaged with a pin 579 integral with
50/53 the corresponding connecting rod 568. The latter is, in turn, connected to the control lever 556, as mentioned above. Then, through connecting rods 568 and rods 577, rotation of the control lever 556 causes a rotary movement of the movable support member of the cap 571. An elongated eyelet (not shown) can be provided at the second end of each rod 577 to delay the movement of the rods 577 in relation to the movement of the lever 556, for the purposes described in relation to the realization of figures 47-52.
The operation of the preparation unit 502 described so far is as follows. In figures 53, 54 the preparation unit 502 is open. A capsule C was introduced by gravity into the preparation unit 502 through opening 560 and reached the resting position shown in figure 54, where the capsule is supported by the mobile diverter 563 and the mobile support member of the capsule 571, away from the parts of the preparation chamber 521, 523. The mobile diverter 563 and the mobile support member of the capsule 571 are arranged in a position so that the capsule C, which arrives at the mobile diverter 563, is deflected with its bottom towards the recess of preparation formed inside the fixed part of the preparation chamber 521, without coming into contact with it. Capsule C is held in this resting position until the preparation unit is closed by acting on the control lever 556.
By operating the control lever 556 downwards (arrow f556, figure 55), the preparation chamber is closed. The closing movement is shown in the sequence of figures 55-57. During the closing movement, the mobile diverter 563 is gradually raised and cleans the area where the mobile part of the preparation chamber 523 moves. The rotating lifting movement of the mobile diverter 563 is controlled by the control lever 556 through the rods 568. When
51/53 at the same time, the rods 577 cause the rotating motion of the movable support member of the capsule 571. The rotary motion of the movable supporting the member 571 can be suitably delayed with respect to the movement of the control lever 556, so that the capsule C is correctly supported with the flange F engaged by the base 571S until the mobile diverter 563 pushes the capsule into engagement with the fixed part of the preparation chamber 521. This is best shown in figure 56, where the capsule C was pushed by mobile diverter 563 almost completely within the fixed part of the preparation chamber 521, while the mobile support member of the capsule 471 is still in its initial position. As shown in figure 57, the movable support member of the capsule 571 is then tilted downwards, allowing the preparation chamber to be closed.
To improve the insertion of the capsule in the fixed part of the preparation chamber 521, in this embodiment, the mobile diverter 563 is comprised of two parts 563X and 563Y articulated in 563Z around an axis parallel to the axis of rotation 568B. The part 563Y is elastically inclined by a spring, for example, a helical spring arranged around the axis of the hinge 563Z, so that the two parts 563X, 563Y are elastically inclined in an extended position. In some embodiments, the two parts are elastically angled in a co-flat position, as shown in figures 54, 57. When the preparation unit is closed, the mobile diverter 563 pushes the capsule C towards the preparation recess in the fixed part of the preparation chamber 521. The thrust exerted on the capsule causes the part 563Y of the diverter 563 to rotate around the axis of the hinge 563Z, as best shown in the sequence of figures 55-56 and indicated by the arrow fy. This improves the operation of the mobile diverter and allows the resting position of the C capsule to be arranged at an increased distance from the fixed part of the preparation chamber 521, making the operation
52/53 of the most reliable preparation unit.
In the closed position, the flange F of the capsule C is sealed between the edge of the fixed part of the chamber
of preparation 523 and the seal 529 gives part camera mobile in preparation 523.Since the cycle in preparation is over, with one rotating motion reverse of lever control 556 The
preparation chamber 521, 523 is opened again. The mobile diverter 563 is pushed down by the connecting rods 568 to force down against the C-cap, in the event that the latter accidentally remains engaged in either of the two parts of the preparation chamber 521, 523. The C-cap it is ejected or at least partially removed from the preparation recess in the fixed part of the preparation chamber 521 by the elastic impulse exerted by the springs 537 on the conical member 535, thus preventing the C capsule from remaining inside the fixed part of the preparation chamber 521. The impulse exerted on the upper side of the capsule C by the mobile diverter 563 prevents the capsule C from remaining attached to the movable part of the preparation chamber 523 or to the fixed part of the preparation chamber 521. The depleted capsule C is then reliably discharged by gravity. A movable support member of the capsule 571 is then moved again towards the starting position shown in figure 54 by the control lever 556 through the rods 577.
In other embodiments, not shown, the movable support member of the capsule can be arranged on the movable diverter and actuated by cams or other mechanical members arranged on both sides of the movable diverter to deactivate and activate the movable capsule supporting the member. In other embodiments, the movable support member of the capsule can be disposed laterally of the movable diverter and be driven by said diverter to be alternatively placed in a position
53/53 active and in a non-active position. Still in these embodiments, the mobile support member of the capsule is controlled by the drive mechanism, for example, a manual lever, which also controls the movement of the mobile diverter and at least one of the parts of the preparation chamber, so that all the moving parts of the preparation unit are controlled in sync.
While the revealed achievements of the subject described here showed in the drawings and completely described above with particularity and detail in connection with various exemplary achievements, it will be apparent to those skilled in the subject that many modifications, changes and omissions are possible without materially departing from the new teachings, the principles and concepts defined here, and advantages of the subject 15 recited in the attached claims. Thus, the correct scope of the revealed innovations should be determined only by the broadest interpretation of the attached claims to cover all these modifications, changes and omissions.

权利要求:
Claims (5)
[1]
1 . UNITY OF PREPARING TO PREPARE DRINKS A FROM CAPSULES PREPACKED, characterized per understand: - a camera preparation (421, 423; 521, 523)
comprising a first part of the preparation chamber (421; 521) and a second part of the preparation chamber (423; 523), movable with each other to open and close the preparation chamber;
- a channel (560) for inserting said capsules (C) towards said preparation chamber;
- a movable diverter (463; 563) that interposes between said first part of the preparation chamber and said second
part of chamber of preparation (421, 423; 521, 523) when said first part from the camera of preparation and the second part of preparation chamber are open to divert said capsules (Hundred direction to said first or said second part of chamber of preparation (421, 423; 521, 523);- one mechanism actuation (456; 556) for
closing and opening said preparation chamber;
- a movable support member of the capsule (471; 571) arranged and controlled to retain the capsule underneath, so that when the preparation chamber is open, said capsule is supported by said movable diverter (463; 563) and said member mobile capsule support (471; 571);
wherein: said drive mechanism is connected to one of said first part of the preparation chamber and said second part of the preparation chamber (421, 423; 521, 523) to open and close said preparation chamber; said drive mechanism is further connected to said movable diverter (463; 563) and said mobile capsule support member (471; 571 so that said drive mechanism controls both said movable diverter (463; 563) and said movable support member of the capsule (471; 571), to remove said
[2]
2/5 movable diverter (463; 563) and said movable support member of the capsule (471; 571) of said mutual movement path of said first and second parts of the preparation chamber (421, 521; 423, 523) during closing the preparation chamber.
2. PREPARATION UNIT, according to claim 1, characterized in that said movable diverter (63; 163; 363; 463; 563) is arranged to divert said capsule (C) towards a preparation recess (13A ; 123R; 321R; 521A) formed in one of said first and second part
of the camera preparation (13, 16; 121, 123; 321 , 323; 421, 423; 521, 523). 3. UNITY PREPARATION, in wake up with the claim 1 or 2, characterized in what the said channel
insertion (81; 160; 360; 560) is generally directed in the vertical direction to insert said capsules by gravity.
4. PREPARATION UNIT according to any one of claims 1 to 3, characterized in that the movement of the movable diverter (63; 163; 363; 463; 563) is controlled by said drive mechanism (29; 156; 356; 456 ; 556) through a kinematic connector member (67; 168; 368; 468; 568).
5. PREPARATION UNIT, according to any of claims 1 to 4, characterized in that said diverter member (63; 163; 363; 463; 563) is returned in the position interposed between the first part of the preparation chamber and the second part of the preparation chamber (13, 16; 121, 123; 321, 323; 421, 423; 521, 523) by said drive mechanism (29; 156; 356; 456; 556).
6. PREPARATION UNIT, according to any of claims 1 to 4, characterized in that said diverter member (63) is elastically returned in the position interposed between the first part of the preparation chamber and the
[3]
3/5 second part of the preparation chamber (13, 16).
7. PREPARATION UNIT according to any one of claims 1 to 6, wherein said movable diverter (463; 563) is characterized by comprising a ramp which, when the preparation chamber is open, disposes between the first and the second parts of the preparation chamber (421, 423; 521, 523) in an inclined position from above and towards one of said first and second part of the preparation chamber, and in which a capsule (C) that arrives from the insertion channel (560) is guided by said ramp.
8. PREPARATION UNIT according to any one of claims 1 to 7, characterized in that one of said first part of the preparation chamber and second part of the preparation chamber (421, 423; 521, 523) is movable and the other is fixed with respect to a bearing structure (504) in which said insertion channel (560) is associated.
9. PREPARATION UNIT according to any one of claims 1 to 8, characterized in that said movable diverter (463; 563) is articulated in said bearing structure (504) and provided with a rotation movement to interpose between said first part of the preparation chamber and said second part of the preparation chamber (421, 423; 521, 523) when the preparation chamber is open and leaves the path of said first and second part of the preparation chamber under control of said drive mechanism when the preparation chamber is closed.
10. PREPARATION UNIT according to any one of claims 1 to 9, wherein at least one of said first and second part of the preparation chamber (421, 423; 521, 523) is characterized by comprising an elastic ejector ( 435; 535) to eject the exhausted capsules (C) and in which said movable diverter (463; 563) is provided with a movement according to a trajectory that interferes with a capsule (C)
[4]
4/5 if said capsule remains adherent to any of said first and second part of the preparation chamber, thus causing the separation and removal of the capsule from the part of the preparation chamber.
11. PREPARATION UNIT according to any one of claims 1 to 10, wherein said drive mechanism is characterized by comprising a control lever (29; 156; 356; 456; 556) to close and open the chamber of preparation.
PREPARATION UNIT according to claim 11, characterized in that said control lever is connected to said movable diverter (463; 563), so that the movement of the control lever causes the preparation and movement chamber to close and open of the movable diverter (463; 563) synchronized with the movement of the first and the second part of the preparation chamber (421, 423; 521, 523).
13. PREPARATION UNIT according to any one of claims 1 to 12, characterized in that said first and said second part of the preparation chamber (421, 423; 521, 523) move with each other according to a direction generally orthogonal to the direction of the insertion channel (560) of the capsules.
14. PREPARATION UNIT according to any one of claims 1 to 13, wherein said movable diverter is characterized by comprising the two parts (563X, 563Y) articulated to each other and elastically inclined in an extended position.
PREPARATION UNIT according to claim 14, characterized in that said two parts (533X, 563Y) of the movable diverter (563) are articulated together on an axis parallel to an axis of rotation around said movable diverter rotates when removed of the trajectory of
[5]
5/5 parts of the preparation chamber, said two parts of the movable diverter being forced to have a mutually inclined position by co-driving with the capsule during the closing of the preparation chamber.
16. BEVERAGE PRODUCTION MACHINE, characterized by comprising a preparation unit, as defined in any of claims 1 to 15.

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同族专利:

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公开号 | 公开日

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ES2535859T3|2015-05-18|

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EP2624732B1|2015-04-08|

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US20130239820A1|2013-09-19|

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RU2571191C2|2015-12-20|

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RU2013120950A|2014-11-20|

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CN103153143B|2016-08-24|

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JP2013538663A|2013-10-17|

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EP2624732A1|2013-08-14|

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JP5909494B2|2016-04-26|

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WO2012046195A1|2012-04-12|

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US9486102B2|2016-11-08|

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CN103153143A|2013-06-12|

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法律状态:
2020-02-11| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

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2020-02-27| B25D| Requested change of name of applicant approved|Owner name: KONINKLIJKE PHILIPS N.V. (NL) |

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2020-03-03| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

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2020-03-17| B25G| Requested change of headquarter approved|Owner name: KONINKLIJKE PHILIPS N.V. (NL) |

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2020-09-01| B11B| Dismissal acc. art. 36, par 1 of ipl - no reply within 90 days to fullfil the necessary requirements|

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2021-10-13| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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EP10186948|2010-10-08|

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EP10186948.5|2010-10-08|

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EP11173201A|EP2543291A1|2011-07-08|2011-07-08|Brewing unit with a water heater|

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EP11173201.2|2011-07-08|

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PCT/IB2011/054375|WO2012046195A1|2010-10-08|2011-10-05|Brewing unit with horizontal motion|

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