Grinding Device For Automatic Coffee Machine

Abstract

Grinding device (1) for an automatic coffee machine, comprising: a support body (2); a lower grinder (3) and an upper grinder (4) arranged coaxially with respect to an axis (X) and delimiting a gap where the grinding is performed; a motor (21) for driving at least one of said grinders (3,4) in rotation about said axis (X); an adjustment ring nut (6) for adjusting the width of said gap having means for transforming a rotation thereof about said axis (X) into a translation of at least one of said grinders in the direction of said axis (X); and a gear for driving said ring nut (6) in rotation; where said gear comprises a toothed wheel arc (7) engaging a pinion (8), and a mechanism for fixing said toothed wheel arc (7) in an adjustable position on said ring nut (6).

Claims

1. A grinding device (1) for an automatic coffee machine, comprising: a support body (2); a lower grinder (3) and an upper grinder (4) arranged coaxially with respect to an axis (X) and delimiting a gap where the grinding is performed; a motor (21) for driving at least one of said grinders (3,4) in rotation about said axis (X); an adjustment ring nut (6) for adjusting the width of said gap having a means for transforming a rotation thereof about said axis (X) into a translation of at least one of said grinders in the direction of said axis (X); and a gear for driving said ring nut (6) in rotation; wherein said gear comprises a toothed wheel arc (7) engaging with a pinion (8), and in that a means is provided for fixing said toothed wheel arc (7) in an adjustable position on said ring nut (6).

2. The grinding device (1) for an automatic coffee machine according to claim 1, wherein said toothed wheel arc (7) is structurally independent from said ring nut (6).

3. The grinding device (1) for an automatic coffee machine according to claim 1, wherein said support body (2) has a cam (16) tilted with respect to said axis (X) and said adjustment ring nut (6) comprises a feeler (17) of said cam (16) for its movement along said axis (X), or vice versa.

4. The grinding device (1) for an automatic coffee machine according to claim 1, wherein the lower grinder (3) is drawn in rotation by said motor and the upper grinder is drawn in translation along said axis (X) solidly with said adjustment ring nut (6), said upper grinder being translatable along said axis (X) due to the effect of its own weight or that of the coffee during the grinding step, said adjustment ring nut (6) acting as a stroke end.

5. The grinding device (1) for an automatic coffee machine according to claim 1, said adjustable position fixing means comprises a series of stations (9) arranged along the perimeter of said adjustment ring nut (6) that can be selected for the assembly of different types of toothed wheel arcs.

6. The grinding device (1) for an automatic coffee machine according to claim 5, wherein said adjustable position fixing means comprises fixing screws (9) for fixing a type of toothed wheel arc to a corresponding selection of stations of said series of stations (9).

7. The grinding device (1) for an automatic coffee machine according to claim 1, wherein said pinion (8) can be driven by a motor (5).

8. The grinding device (1) for an automatic coffee machine according to claim 1, wherein said pinion (8) can be driven manually by a handle (10).

9. The grinding device (1) for an automatic coffee machine according to claim 1, further comprising a stroke end (11) for stopping the rotation of the ring nut (6) and an adjustable position fixing means for fixing said stroke end (11) on said toothed wheel arc (7).

10. The grinding device (1) for an automatic coffee machine according to claim 9, wherein said adjustable position fixing means for fixing said stroke end (11) on said toothed wheel arc (7) comprises feet of said stroke end and a grille (13) with sectors (13) that can be selected for the engagement of said feet.

11. The grinding device (1) for an automatic coffee machine according to claim 10, wherein said grille (13) is fixed through screws (20) to said toothed wheel arc (7).

12. The grinding device (1) for an automatic coffee machine according to claim 9, further comprising a first sensor (14) for sensing the position of said stroke end (11).

13. The grinding device (1) for an automatic coffee machine according to claim 12, wherein said first sensor (14) comprises a micro-switch that can be activated by mechanical interference with said stroke end (11).

14. The grinding device (1) for an automatic coffee machine according to claim 1, further comprising a second sensor (15) for sensing the rotation speed of said at least one rotating grinder (3,4).

15. The grinding device (1) for an automatic coffee machine according to claim 14, wherein said second sensor (15) is configured so as to sense the rotation speed and stop the grinding when the rotation speed sensed is outside a range of predetermined values.

16. A coffee machine including a grinding device (1) according to claim 1.

Description

[0031] Further characteristics and advantages of the invention will more fully emerge from the description of a preferred but not exclusive embodiment of the grinding device for an automatic coffee machine according to the invention, illustrated by way of non-limiting example in the accompanying drawings, in which:

[0032] FIG. 1 shows a sectional lateral view from above of the grinding device;

[0033] FIG. 2 shows a view from above of the grinding device of FIG. 1;

[0034] FIG. 3 shows a perspective view of the grinding device of FIG. 1 according to a first embodiment of the invention;

[0035] FIG. 4 shows a perspective view of the grinding device of FIG. 1 according to a second embodiment of the invention;

[0036] FIG. 5 shows an exploded view of the grinding device.

[0037] With reference to the figures mentioned, a grinding device for an automatic coffee machine is shown, indicated overall with the reference number 1.

[0038] The grinding device 1 comprises, in a known way, a support body 2 of a lower grinder 3 and an upper grinder 4.

[0039] The lower grinder 3 and the upper grinder 4 are arranged coaxially with respect to an axis X, in particular a vertical axis, and delimit a gap where the grinding is performed.

[0040] The support body 2 also supports a motor 21 for driving at least one of the grinders 3,4 in rotation about an axis X, in particular of the lower grinder.

[0041] The support body 2 lastly supports an adjustment ring nut 6 for adjusting the width of the gap, which is coaxial to the grinders 3, 4 and having means for transforming a rotation thereof about the axis X into a translation of at least one of the grinders 3,4, in particular the upper grinder, in the direction of said axis X.

[0042] More specifically, the support body 2 has the configuration of a glass having the grinders 3, 4 assembled on the inside thereof and the adjustment ring nut 6 assembled on its upper perimeter edge.

[0043] In particular, the adjustment ring nut 6 is provided with a rotation drive gear.

[0044] The gear includes a toothed wheel arc 7 engaging with a pinion 8.

[0045] The means for transforming a rotation of the adjustment ring nut 6 into a translation of the upper grinder 4 are described below.

[0046] In particular, the support body 2 has a cam 16 which is tilted with respect to the axis X wherein a feeler 17 of the cam 16 supported by the adjustment ring nut 6 is engaged.

[0047] The adjustment ring nut 6 has an inner horizontal perimeter guide groove 18 wherein an outer horizontal perimeter flange 19 of the upper grinder 4 is slidably engaged.

[0048] In this way, when the adjustment ring nut 6 rotates it raises or lowers depending on the direction of rotation, while the upper grinder 4, although not rotating, is drawn in translation upwards or downwards along the axis X solidly with the adjustment ring nut 6.

[0049] The vertical movement of the upper grinder 4 with respect to the lower grinder 3 that rotates while remaining at a fixed height makes it possible to adjust the gap between the grinders 3,4, and therefore the desired degree of the coffee beans' grinding.

[0050] Advantageously the upper grinder is translatable along the axis X due to the effect of its own weight or that of the coffee during the grinding step, and the adjustment ring nut 6 acts as a stroke end for the upper grinder.

[0051] Advantageously, the grinding device is provided with adjustable position fixing means for fixing the toothed wheel arc 7 to the adjustment ring nut 6.

[0052] Unlike the grinding device of a known type wherein the toothing is made in one piece with the adjustment ring nut, in the present invention the toothed wheel arc 7 is structurally independent from the adjustment ring nut 6.

[0053] Thanks to this solution, it is possible to choose the fixing position of the toothed wheel arc 7 on the adjustment ring nut 6.

[0054] In this regard, the fixing means of the adjustment ring nut 6 comprise a series of stations 9, for example a series of projections, arranged along the perimeter of the adjustment ring nut 7.

[0055] The stations 9 can be selected for the assembly of different types of toothed wheel arcs.

[0056] The toothed wheel arc 7 is fixed to the stations which are preferably selected by means of fixing screws 9.

[0057] The adjustment ring nut 6 can be coupled to a motorized or manual drive system of the pinion 8.

[0058] In fact, in a first embodiment of the invention, the pinion 8 can be driven by a motor 5.

[0059] Instead, in a second embodiment of the invention, the pinion 8 can be driven manually by a handle 10.

[0060] The grinding device according to the present invention further comprises a stroke end 11 for stopping the rotation of the adjustment ring nut 6 and adjustable position fixing means for fixing said stroke end 11 on said toothed wheel arc 7.

[0061] In particular, the fixing means comprise feet (not shown) of the stroke end 11 and a grille 13 with sectors 13 that can be selected for the engagement of the feet.

[0062] The grille 13 is fixed to the toothed wheel arc 7 by means of screws 20.

[0063] The stroke end 11 is therefore fixed with the grille 13 in the desired position.

[0064] The grinding device advantageously has systems for controlling the correct operation of the grinders, the rotation speed, the positioning of the stroke end, etc.

[0065] In fact, at least a first sensor 14 for sensing the position of the stroke end 11 is provided.

[0066] The first sensor 14 comprises a micro-switch supported by the support body 2 that can be activated by mechanical interference with the stroke end 11.

[0067] The stroke end 11 position is acquired by rotating the adjustment ring nut 6 until it comes into contact with the first sensor 14.

[0068] At this point the actual position of the adjustment ring nut 6 is acquired by means of a potentiometer which reads the number of steps of the motor 5 driving the adjustment ring nut 6.

[0069] A second sensor 15 for sensing the rotation speed of the rotating grinder 3 is also provided.

[0070] The second sensor 15 is configured so as to sense the rotation speed and stop the grinding when the rotation speed sensed is outside a range of predetermined values.

[0071] The sensing of the number of revolutions made by the rotating grinder 3 also functions as a friction system for interrupting the grinding if the speed sensed is not within the predetermined time interval.

[0072] The sensing of the grinders' rotation speed makes it possible to understand if the grinder is working properly and if the position of the adjustment ring nut 6 actually corresponds to the desired grain size, or if an external event (e.g. the degradation of components) has occurred which renders this correspondence null.

[0073] The grinding device according to the invention achieves several advantages, as it makes it possible to optimize the occupation of space in the grinding device, thus expanding its functionality.

[0074] The grinder for an automatic coffee machine as conceived herein is susceptible to many modifications and variations, all falling within the scope of the invented concept; furthermore, all the details are replaceable by technically equivalent elements.

[0075] In practice the materials used, as well as the dimensions, can be any according to the needs and the state of the art.