• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    infusion unit for a coffee maker. it is an infusion unit (1) for a coffee maker, comprising a closing piston (3), an infusion cylinder (2), an ejection piston (5) to eject the load of the coffee consumed (30) , and said piston (5) slides inside the brewing cylinder (2) in the direction of the geometric axis of the brewing cylinder (2) between a retracted position and an extended position for ejecting the load of coffee consumed (30), and operating means for the ejection piston (5), comprising an oscillating rocker (32) provided with a first arm (33) provided with a member for driving the ejection piston (5) and a second arm (35) provided with a member to engage the rocker rocker movement (32) selectively from a first control cam (37) configured and arranged in such a way as to generate rocker rocking (32) in the direction corresponding to the drive towards the position of the ejection piston (5), or with a second control cam (38) configured and di designed to generate an oscillation of the rocker (32) in the direction corresponding to the actuation towards the retracted position of the ejection piston (5).
    公开号:BR112014016173B1
    申请号:R112014016173-9
    申请日:2012-12-14
    公开日:2020-09-15
    发明作者:Giuseppe de' Longhi;Davide Marcon
    申请人:De'longhi Appliances S.R.L.;
    IPC主号:
    专利说明:

    [0001] The present invention relates to an infusion unit for a coffee maker.
    [0002] The infusion unit to which reference is made is of the type provided with an infusion cylinder which is capable of being subjected to rotation and reversible translation from a disengaged position to a position engaged with a piston for closing for creation of an infusion chamber in which the water for infusion heated by a heating unit is conducted and directed through an internal channel specific to the piston for closing.
    [0003] The infusion cylinder internally has an ejection piston that moves in a coordinated manner with a scraper element to discharge the load of the coffee consumed.
    [0004] The known infusion units can sometimes have the disadvantage of having excessive dimensions, together with the excessive structural complexity also due, among other things, to the various mechanisms used for the movement of the ejection piston in the infusion cylinder.
    [0005] The technical task of the invention is, therefore, that of providing an infusion unit for a coffee maker, the infusion unit allowing the elimination of the technical disadvantages of the prior art mentioned above.
    [0006] Within the scope of this technical task, an objective of the invention is to provide an alternative construction that proves to be structurally simple and compact for the brewing unit of a coffee maker.
    [0007] The technical task, as well as these and other objectives, according to the present invention, is achieved by comprising an infusion unit for a coffee maker, which comprises a piston for closing, an infusion cylinder which is capable of being subjected the reversible rotation and translation path between a position to load a load of coffee, in which it is disengaged from the piston for closing and has the geometric axis inclined with respect to the geometric axis of the piston for closing, and an infusion position in which it is engaged with the piston for closing and has the geometric axis in the direction of the geometric axis of the piston for closing, an ejection piston to eject the load of the coffee consumed, and said piston slides inside the infusion cylinder in the direction of the geometric axis of the infusion cylinder between a retracted position and an extended position for ejecting the load of coffee consumed, and operating means for the ejection piston, characterized by the fact that said means of operation comprises a rocker rocker provided with a first arm provided with a member to drive the ejection piston and a second arm provided with a member to engage the rocker rocker movement selectively from a first configured control meat and arranged in such a way as to generate an oscillation of the rocker in the direction corresponding to the actuation towards the extended position of the ejection piston, or with a second control meat configured and arranged in such a way to generate an oscillation of the rocker in the direction corresponding to the actuation in towards the retracted position of the ejection piston.
    [0008] The present invention also discloses an infusion unit for a coffee maker, comprising a closing piston, an infusion cylinder that is capable of undergoing the reversible rotation and translation path between a position to load a load of coffee, in which it is disengaged from the closing piston and has the tilted geometric axis with respect to the geometric axis of the closing piston, and an infusion position in which it is engaged with the closing piston and has the geometric axis in the direction of the geometric axis of the piston for closing, an ejection piston to eject the load of the coffee consumed, the said piston sliding inside the infusion cylinder in the direction of the geometric axis of the infusion cylinder between a retracted position and an extended position for the ejection of the load of the coffee consumed, operating means for the ejection piston and a scraper element for scraping the infusion cylinder access port and supported by the t infusion cylinder so that it can oscillate reversibly between a first and a second support position, and in such positions, it is displaced from the access mouth of the infusion cylinder, characterized by the fact that said scraper element has a first scraping surface that operates to discharge the load of coffee consumed when the ejection piston is in the extended position and the scraper element oscillates from the first to the second support position, and a second conveyor surface that operates to transport the coffee load from a charger to the cylinder infusion when the ejection piston is in the stowed position and the scraper element remains in the second support position.
    [0009] The additional features of the present invention are also defined in the dependent claims.
    [0010] More features and advantages of the invention will emerge more clearly from the description of a preferred, but not exclusive, mode of the infusion unit according to the invention, illustrated by means of the non-limiting example in the attached drawings, in which :
    [0011] Figure 1 is an exploded view of the infusion unit;
    [0012] Figure 2 shows the infusion cylinder with the scraper element in the first support position;
    [0013] Figure 3 shows the infusion cylinder with the scraper element in the second support position;
    [0014] Figure 4 is a section view of part of the infusion unit, which illustrates the gear motor for the movement of the carriage that supports the infusion cylinder;
    [0015] Figures 5 to 13 show the sequence of positions assumed by the infusion unit during a complete infusion cycle, in which Figure 5 shows the infusion cylinder in the position to load a load of coffee, Figure 6 shows the cylinder infusion following the oscillation that aligns it with the closing piston, Figure 7 shows the closure of the infusion chamber at the end of the upward translation of the infusion cylinder, Figure 8 shows the opening of the infusion chamber after a translation tract downward from the infusion cylinder at the end of the infusion, Figure 9 shows the extraction of the ejection piston during the final treatment of the downward translation of the infusion cylinder, Figure 10 shows the scraper element when reaching the second support position with which the ejection of the load of coffee consumed is performed, Figure 11 shows the oscillation of the brewing cylinder towards the position to load a new coffee load, Figure
    [0016] 12 shows the retraction of the ejection piston, and Figure 13 shows the infusion cylinder, once again, in the position to load a new load of coffee.
    [0017] With reference to the Figures cited above, an infusion unit of a coffee maker is shown and indicated in its entirety through the numerical reference TT TT
    [0018] The brewing unit 1 comprises a hollow brewing cylinder 2 provided with an access mouth 8 engageable by a closing piston 3 in order to delimit an brewing chamber 4 in which a load of coffee 30 can be positioned which can be provided by a charger 6, an ejection piston 5 to eject the load of coffee consumed 30 from the brewing chamber 4, and an operating means for the ejection piston 5.
    [0019] The infusion cylinder 2 is capable of being subjected to the reversible rotation and translation path between a position to load a load of coffee 30, in which it disengages from the piston for closing 3 and has an inclined geometric axis with respect to geometric axis of the closing piston 3, and an infusion position in which it is engaged with the closing piston 3 and has the geometric axis in the direction of the geometric axis of the closing piston 3.
    [0020] The infusion unit 1 preferably has a housing 9 formed, in particular, but not necessarily, of two halves 9a, 9b associated with each other and which delimit a compartment 13 for the reversible movement of the infusion cylinder 2.
    [0021] The housing 9 is fixed to the housing 10 that supports the body and the other components of the coffee maker, or that in a different modality that is not shown, directly constitutes itself the housing that supports the body and the other components of the coffee maker .
    [0022] The piston for closing 3 can be fixed to the housing 9 or to the housing 10 and it projects in the compartment 13 with an orientation of the inclined geometric axis with respect to the coffee maker's support surface.
    [0023] The frame 9 or the casing 10 also supports the charger 6 and a collector 12 for the loads of coffee consumed.
    [0024] The ejection piston 5 slides inside the infusion cylinder 2 in the direction of the geometric axis of the infusion cylinder 2 between a retracted position and an extended position for ejecting the load of coffee consumed 30.
    [0025] The infusion unit 1 further comprises a scraper element 7 for scraping the access mouth 8 of the infusion cylinder 2.
    [0026] The scraper element 7 is supported by the infusion cylinder 2 in such a way that it can swing reversibly between a first support position and a second support position, and in such positions, it is proved that it moves from the mouth of access 8 of the infusion cylinder 2.
    [0027] In particular, the scraper element 7 is articulated to the infusion cylinder 2 by means of an oscillation pin 21 positioned laterally to the access mouth 8 of the infusion cylinder 2.
    [0028] The axis of oscillation of the scraper element 7 is oriented in the direction of the axis of the infusion cylinder 2.
    [0029] The scraper element 7 has a first surface for scraping 49 that operates to discharge the load of coffee consumed 30 when the ejection piston 5 is in the extended position and the scraper element 7 oscillates from the first support position to the second position of support, and a second conveyor surface 50 which operates to transport the coffee load 30 from the charger 6 to the infusion cylinder 2 when the ejection piston 5 is in the retracted position and the scraper element 7 remains in the second support position.
    [0030] The first surface 49 of the scraper element 7 has an exact concave shape that corresponds to the arched shape of the perimeter edge of the access mouth 8 of the infusion cylinder 2 and in the first support position of the scraper element 7, it is positioned at the along a first part of the perimeter edge of the access mouth 8 of the infusion cylinder 2.
    [0031] The second surface 50 of the scraper element 7 has an arched concave shape that corresponds to the arched shape of the perimeter edge of the access mouth 8 of the infusion cylinder 2 and in the second support position of the scraper element 7, it is positioned at along a second part of the perimeter edge of the access mouth 8 of the infusion cylinder 2 diametrically opposite the first tract of the perimeter edge of the access mouth 8 of the infusion cylinder 2.
    [0032] More specifically, the first surface 49 and the second surface 50 are on the opposite side with respect to a plane that contains the fulcrum of the oscillation of the scraper element 7.
    [0033] The pivot pin 21 of the scraper element 7 extends along the axial extension of the infusion cylinder 2 and at the opposite end to the one that supports the scraper element 7, it has a toothed arch 57 in mesh with a toothed sector 58 that it is articulated to the infusion cylinder 2 by means of an oscillation pin 59 oriented in the direction of the geometric oscillation axis of the scraper element 7.
    [0034] The toothed sector 58 can be oscillated in contrast and by the action of an elastic element 60 and it has a control flap 61 suitable to interfere with a meat 62 supported on the inner side of the 9b half of the housing 9 to engage the oscillating action of the toothed sector 58.
    [0035] Advantageously, the flap 61 is operated by the elastic element 60 during the upward translation of the infusion cylinder 2 in order to take the scraper element 7 from the second support position back to the first support position.
    [0036] The infusion cylinder 2 can be removably attached in a known manner to a carriage 11, which is transportable in the direction of the piston geometric axis for closing
    [0037] 3.
    [0038] The casing 9 is preferably, but not necessarily, provided, in particular in the half 9a thereof, with a window 20 through which the infusion cylinder 2 can be extracted from the compartment 13, once it has been removed from the carriage 11. Window 20 is directly accessible from the outside of the machine.
    [0039] The carriage 11 is supported in an oscillating manner with a geometric axis of oscillation oriented in a direction that is perpendicular to the translation direction of the carriage 11.
    [0040] In particular, the carriage 11 is supported in an oscillating manner by a pin 15, which is successively supported by a cursor 16 that internally displays a female screw 31 engaged with an endless screw 17 which is oriented in the direction of the piston geometric axis for closing 3 and movable by a gear motor 18.
    [0041] For the oscillation of the carriage 11, the half 9b of the housing 9 has a cam in the form of a slot 51 in which the pin 52 is engaged, carried by a product 53 of the carriage 11.
    [0042] Cam 51 has a straight part 54 oriented in the direction of the piston geometric axis for closing 3 and a curved part 55.
    [0043] The unit for moving the cursor 16, which comprises the gear motor 18 and the worm screw 17, is supported by the casing 10 external to the housing 9.
    [0044] The cursor 16 is arranged through a straight groove 19 made through the wall thickness of the half 9b of the housing 9 and oriented in the direction of the piston geometric axis for closing 3.
    [0045] Advantageously, the operating means comprises an oscillating rocker 32 provided with a first arm 33 provided with a member to drive the ejection piston 5 and a second arm 35 provided with a member to engage the oscillating movement of rocker 32 selectively at from a first control meat 37 configured and arranged in such a way as to generate an oscillation of the rocker arm 32 in the direction corresponding to the drive towards the extended position of the ejection piston 5, or with a second control meat 38 configured and disposed of such as to generate an oscillation of the rocker 32 in the direction corresponding to the drive towards the retracted position of the ejection piston 5.
    [0046] The rocker arm 32 is articulated by means of an oscillation pin 41 to a lower extension 42 of the infusion cylinder 2.
    [0047] In a non-illustrated and possible variant of the invention, the rocker 32 can, instead, be articulated to the carriage 11.
    [0048] The rocker oscillation axis of the rocker 32 is oriented in the direction of the car oscillation axis 11.
    [0049] The actuation member consists of an actuation pin 34 oriented in the direction of the rocker oscillation axis of the rocker 32 and slidably engaged in a closed transverse slot 39 supported on the rod 40 of the ejection piston 5.
    [0050] The coupling member consists of a coupling pin 36 oriented in the direction of the rocker oscillation axis of the rocker 32. The drive member 34 is positioned at the end of the first arm 33 of the rocker 32, while the coupling member 36 it is positioned at the end of the second arm 35 of the rocker 32.
    [0051] Rocker 32 preferably has an angular conformation, and in particular, the first arm 33 and the second arm 35 of rocker 32 are of different lengths to achieve an increase or a reduction, as necessary, in the movement of the drive pin 35 with respect to the hitch pin 36.
    [0052] The first control meat 37 is supported on a longitudinal element 43 that oscillates in contrast and by the action of an elastic element (not shown) between a position that rests against a stop 44 and a disengaged position from the stop 44.
    [0053] The elastic element is configured and arranged in such a way as to keep the longitudinal element 43 normally pressed against the stop 44.
    [0054] The longitudinal element 43 is provided for housing 9, and particularly for half 9b of it, by means of an oscillation pin 45 oriented in the direction of the rocker oscillation axis 32.
    [0055] The second control meat 38 is supported by an inclined plane 46 present in carcass 9, and particularly in half 9b of it.
    [0056] The housing 9, and particularly the half 9b of it, has a guide for the hitch pin 36, the guide being defined by the side delimiting wall 47 of a lower part 48 present on the inner side of the housing half 9b 9.
    [0057] The elongated element 43 is also positioned in its entirety on the lower part 48. The second control meat 38 and the stop 44 are supported by the molded parts of the side boundary surface 47 of the lower part 48.
    [0058] The brewing unit 1 is specifically, but not necessarily, of a known type provided with a system for transporting the brewing of coffee towards a remote dispenser (not shown).
    [0059] The transport system has a first flexible hose 63 and a second flexible hose 64 communicating with each other through a chamber 65 supported on a block 66 laterally by the piston for closing 3.
    [0060] The first hose 63 is connected to the remote dispenser, while the second hose 64 is connected to an outlet hose (not shown) for the infusion of coffee from the infusion cylinder 2.
    [0061] For the discharge of the coffee infusion that remains inside the hoses 63 and 64, a plug 67 of an orifice 68 suitable for placing hoses 63 and 64 in direct communication with the atmosphere is provided in a known manner.
    [0062] The plug 67 is movable, in contrast and by the action of a spring 69, between a position to close the orifice 68 during the infusion and an open position established for the opening of the orifice 68 at the end of the infusion process for the discharge through the severity of the remaining coffee infusion.
    [0063] The operation of infusion unit 1 is as follows.
    [0064] At the beginning of the route, the infusion cylinder 2 is found below the loader 6 with the geometrical axis in a vertical direction or slightly inclined with respect to the vertical direction (Figure 5). The ejection piston 5 is in the stowed position. The scraper element 7 is in the second support position, where the second surface 50 transports towards the access mouth 8 of the infusion cylinder 2, the load of powdered coffee 30 provided by the charger 6. Advantageously, this transport task is performed by the scraper element 7, without requiring a separate element specifically dedicated to this task, as is the case today in a traditional infusion unit. When the loading of the powdered coffee into the brewing cylinder 2 is completed, the gear motor 18 rotates the worm screw 17 along which the cursor 16 rotates through the coupling effect with the worm screw 17 using the female screw 31.
    [0065] The carriage 11 articulated to the cursor 16 starts to drive the infusion cylinder 2 upwards.
    [0066] During the initial part of the upward drive, pin 52 runs along the curvilinear part 55 of the meat 51, which causes the oscillation (counterclockwise in the Figures) of the carriage 11 and as a consequence, of the infusion cylinder 2 , until the geometric axis of the latter is aligned with the geometric axis of the piston for closing 3. In the next upward movement (Figure 6), the infusion cylinder 2 maintains the same angular orientation, since the pin 52 travels along the part rectilinear 54 of meat 51.
    [0067] During this same upward movement of the infusion cylinder 2, the engagement of the flap 61 with the meat 62 occurs, with the consequent oscillation of the toothed sector 58, by the effect of the spring 60.
    [0068] The oscillation of the toothed sector 58 is transmitted to the toothed arc 57, to which the oscillating pin 21 of the scraper element 7 is solidly restricted and the scraper element 7 is then taken from the second to the first support position. Advantageously, the readjustment of the scraper element 7 during the upward stroke of the infusion cylinder 2, instead of during an extra operation of it at the end of the downward stroke, as it occurs, instead, traditionally, helps to limit the axial dimensions of the infusion 1.
    [0069] During the upward stroke of the infusion cylinder 2, the engagement pin 36 slides along the guide 47 and makes force between the stop 44 and the elongated element 43, which produces, compressing the elastic element by which it is activated , enabling the engagement pin 36 to pass. Following the engagement pin 36, the elongated element 43 is brought back against the stop 44 by the effect of stretching the elastic element against which it was previously compressed.
    [0070] The infusion cylinder 2 then engages with the closing piston 3 (Figure 7).
    [0071] The infusion cylinder 2 stops in this position with the ejection piston 5 still in the stowed position.
    [0072] For infusion, an internal conduit 70 of the piston for closure 3 is provided with a flow of water specifically heated by a heating unit provided for this purpose (not shown). The hot water for the infusion is injected into the infusion chamber and the resulting infusion is extracted using the specific outlet hose provided in the infusion cylinder 2.
    [0073] At the conclusion of the infusion process, the downward movement of the infusion cylinder 2 begins, having been possible by reversing the movement transmitted by the gear motor 18.
    [0074] During the execution of the initial downward translation (Figure 8), the infusion cylinder 2 disengages from the piston for closing 3 and the engagement pin 36 engages with the first control meat 37, which remains locked against the stop 44 As a result of sliding along the first control cam 37, the hitch pin 36 is subjected to a force of movement that causes rocker rocker 32 (in a clockwise direction in the drawings) around the rocker pin 41 The oscillation of the rocker 32 causes the movement of the actuation pin 34, which, due to the engagement in the slot 39, drives the rod 40 of the ejection piston 5 towards the extraction position (Figure 9). When the ejection piston 5 reaches the extraction position, the scraper element 7 is moved from the first support position to the second support position by engaging the tab 61 with the meat 62. The first surface 49 of the scraper element 7 moves laterally the load of coffee consumed 30, which falls into the collector 12 (Figure 10).
    [0075] The infusion cylinder 2 ends the descent with an oscillation opposite to the initial oscillation, due to the engagement of pin 52 with the curvilinear part 55 of slot 51, with which it returns to the position to load a new load of coffee 30 (Figure 13).
    [0076] During the oscillation of the infusion cylinder 2, the latch pin 36 engages with the second control meat 38, from which it receives a movement force that causes the rocker 32 to oscillate (in a direction in the anti- in the drawings) around the swing pin 41. Rocker swing 32 causes movement of the drive pin 34, which by engaging the slot 39 drives the stem 40 of the ejection piston 5 towards the retract position ( Figures 11 and 12).
    [0077] The invention is particularly suitable for a coffee maker with a predominantly vertical development, in which the infusion cylinder is located below the closing piston and has a component for the translation movement that is inclined with respect to the coffee maker's support surface .
    [0078] The infusion unit as conceived in the present is susceptible to numerous modifications and variants, all falling within the scope of the inventive concept; moreover, all details are replaceable by technically equivalent elements.
    [0079] The materials used, as well as the dimensions, can, in practice, be of any type, according to the requirements and the state of the art.
    权利要求:
    Claims (15)
    [0001]
    1. Infusion unit (1) for a coffee maker, comprising a closing piston (3), an infusion cylinder (2) subject to rotation and reversible translation between a position to load a load of coffee (30), in that it is disengaged from the closing piston (3) and has an inclined geometric axis with respect to the geometric axis of the closing piston (3), and an infusion position in which it is engaged with the closing piston (3) and has the geometrical axis in the direction of the geometrical axis of the closing piston (3), a piston (5) to eject the load of the coffee consumed (30), the piston (5) sliding inside the brewing cylinder (2) in the direction of the axis geometric pattern of the infusion cylinder (2) between a retracted position and an extended position for ejecting the load of coffee consumed (30), and an operating device for the ejection piston (5), characterized by the fact that the operation comprises an oscillating rocker (32) having a first arm (33 ) provided with an element to drive the ejection piston (5) and a second arm (35) provided with an element to engage the swinging motion of the rocker (32) selectively from a first control meat (37) configured and arranged in such a way as to generate an oscillation of the rocker (32) in the direction corresponding to the actuation towards the extended position of the ejection piston (5), or with a second control meat (38) configured and arranged in such a way as to generate a rocker swing (32) in the direction corresponding to the drive towards the retracted position of the ejection piston (5).
    [0002]
    2. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the actuation element consists of an actuation pin (34) oriented in the direction of the rocker oscillation axis (32) and slidably engaged in a closed transverse slot (39) supported on a rod (40) of the ejection piston (5).
    [0003]
    3. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the coupling element consists of a coupling pin (36) oriented in the direction of the rocker oscillating axis (32).
    [0004]
    4. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the actuation element is positioned at the end of the first arm (33) of the rocker (32) and the coupling element it is positioned at the end of the second arm (35) of the rocker (32).
    [0005]
    5. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the rocker (32) has an angular conformation.
    [0006]
    6. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the first and second arms (33, 35) of the rocker (32) are of different lengths.
    [0007]
    7. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the first control meat (37) is supported on a longitudinal element (43) that oscillates in contrast and by action of an elastic element between a position that rests against a stop (44) and a position disengaged from the stop (44).
    [0008]
    8. Infusion unit (1) for a coffee maker, according to the preceding claim, characterized by the fact that the geometric axis of oscillation of the longitudinal element (43) is oriented in the direction of the geometric axis of oscillation of the rocker (32).
    [0009]
    9. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the second control meat (38) consists of an inclined plane (46).
    [0010]
    10. Infusion unit (1) for a coffee maker according to any one of claims 7 to 9, characterized in that it comprises a housing (9) that delimits a compartment (13) for reversible movement of the infusion cylinder ( 2), the housing (9) having a guide for the coupling pin (36), the guide being defined by a lateral delimiting wall (47) of a lower part (48) present on the internal side of the housing (9) where the elongated element (43) is also positioned.
    [0011]
    11. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the second control meat (38) and the stop (44) are supported from molded parts of the bounding surface side (47) from the bottom (48).
    [0012]
    12. Infusion unit (1) for a coffee maker, according to any of the preceding claims, characterized by the fact that the infusion cylinder (2) is removably attached to a carriage (11) that slides in the direction of the geometric axis of the piston for closing (3) and supported in an oscillating manner with a geometric axis of oscillation oriented in the direction of the rocker axis of oscillation (32).
    [0013]
    13. Infusion unit (1) for a coffee maker according to any one of the preceding claims, characterized by the fact that it comprises a scraper element (7) for scraping the access mouth (8) of the infusion cylinder (2), and supported by the infusion cylinder (2) in such a way that it can swing reversibly between a first and a second support position, and in such positions, it is displaced from the access mouth (8) of the infusion cylinder (2), the scraper element (7) having a first scraping surface (49) which operates to discharge the load of coffee consumed when the ejection piston (5) is in the extended position and the scraper element (7) oscillates from the first to the second position support surface, and a second conveyor surface (50) that operates to transport the coffee load (30) from a charger (6) to the brewing cylinder (2) when the ejection piston (5) is in the retracted position and the scraper element (7) remains in the second support position.
    [0014]
    14. Infusion unit (1) for a coffee maker according to claim 13, characterized in that the first surface (49) of the scraper element (7) has an arched concave shape that corresponds to the arched shape of the perimeter edge of the access mouth (8) of the infusion cylinder (2) and in the first support position of the scraper element (7), it is positioned along a first part of the perimeter edge of the access mouth (8) of the infusion cylinder infusion (2), and the second surface (50) of the scraper element (7) has an arcuate concave shape that corresponds to the arcuate shape of the perimeter edge of the access mouth (8) of the infusion cylinder (2) and the second support position of the scraper element (7), it is positioned along a second part of the perimeter edge of the access mouth (8) of the infusion cylinder (2) diametrically opposite the first part of the perimeter edge of the mouth of access (8) of the infusion cylinder (2).
    [0015]
    15. Infusion unit (1) for a coffee maker according to any one of claims 13-14, characterized by the fact that the first and second surfaces (49, 50) extend on the opposite side with respect to a plane that contains the oscillating fulcrum of the scraper element (7).
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    同族专利:
    公开号 | 公开日
    AU2012361088B2|2016-11-24|
    EP2797471B1|2017-07-05|
    WO2013098096A1|2013-07-04|
    JP2015505260A|2015-02-19|
    CN104053384B|2017-06-06|
    US9814346B2|2017-11-14|
    RU2014131129A|2016-02-20|
    JP6078553B2|2017-02-08|
    RU2604015C2|2016-12-10|
    AU2012361088A2|2014-07-24|
    ITMI20112430A1|2013-06-30|
    CA2859877C|2019-10-29|
    US20140373724A1|2014-12-25|
    ES2642278T3|2017-11-16|
    BR112014016173A8|2017-07-04|
    PT2797471T|2017-10-18|
    AU2012361088A1|2014-07-10|
    EP2797471A1|2014-11-05|
    CN104053384A|2014-09-17|
    BR112014016173A2|2017-06-13|
    CA2859877A1|2013-07-04|
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    法律状态:
    2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|
    2019-10-01| B06U| Preliminary requirement: requests with searches performed by other patent offices: suspension of the patent application procedure|
    2020-04-07| B09A| Decision: intention to grant|
    2020-09-15| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 14/12/2012, OBSERVADAS AS CONDICOES LEGAIS. |
    优先权:
    申请号 | 申请日 | 专利标题
    ITMI2011A002430|2011-12-29|
    IT002430A|ITMI20112430A1|2011-12-29|2011-12-29|INFUSION GROUP FOR COFFEE MACHINE|
    PCT/EP2012/075542|WO2013098096A1|2011-12-29|2012-12-14|Infusion unit for a coffee machine|
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