The present invention refers to an emulsifying device for emulsifying milk and to a coffee machine that comprises said emulsifying device for emulsifying milk.
To date, there are coffee machines of the prior art that have milk emulsifying devices equipped with a mixing chamber where a flow of steam generates, by Venturi effect, a drop in pressure, which draws the air needed to emulsify the milk from a specific air supply line.
In some prior-art milk emulsifying devices such as cappuccino makers, the mixing chamber is immersed in a milk container where the milk is directly emulsified.
In other emulsifying devices, a milk container is provided that has a milk supply line in communication with the mixing chamber. In this case, the milk is also suctioned by Venturi effect into the mixing chamber, where it is emulsified and then dispensed externally.
In both types of emulsifying devices, the degree of milk froth needs to be adjusted by changing the proportions between the flow of air and the flow of steam.
Sometimes adjustment of the milk froth is carried out by means of specific adjustment knobs arranged on the air suction line.
Manual adjustment of the degree of milk froth depends on the user's ability.
For devices in which milk is emulsified inside the mixing chamber, solutions have been proposed in which a special valve actuated by a motor is positioned along the air supply line and suitably controlled by the controller of the coffee machine for throttling of the air flow. Basically, the valve has pre-established opening values, each value corresponding to a possible dispensing cycle selection on the part of the user.
In this manner, the milk frothing process can be carried out in an extremely precise manner and automatically without depending on the user's ability.
However, providing a motor for air flow adjustment can involve a significant increase in costs for the emulsifying device.
The technical task of the present invention is therefore to realize an emulsifying device for emulsifying milk that makes it possible to eliminate the cited technical drawbacks of the prior art.
Within the scope of this technical task, an aim of the invention is to realize an emulsifying device for emulsifying milk that makes it possible to accurately adjust the degree of milk froth regardless of the user's skills.
Another aim of the invention is to realize an emulsifying device for emulsifying milk that enables precise adjustment of the degree of froth of the milk, while proving to be simple in construction and low in cost.
The technical task, as well as these and other aims, according to the present invention, are achieved by realizing an emulsifying device for emulsifying milk comprising a Venturi mixing chamber, a circuit for supplying air and having an air outlet connected to the mixing chamber, and a circuit for supplying steam and having a steam outlet connected to the mixing chamber, characterized in that said circuit for supplying air comprises a first air inlet line equipped with a first shut-off solenoid valve and at least a second air inlet line equipped with a second shut-off solenoid valve, said first and second air inlet lines having a different minimum cross-sectional area.
In a preferred embodiment of the invention, the circuit for supplying air has a third air inlet line equipped with a third shut-off solenoid valve and having a minimum cross-sectional area differing from that of said first and second air inlet lines.
In a preferred embodiment of the invention, each air inlet line is equipped with a respective air filter.
In a preferred embodiment of the invention, said circuit for supplying air comprises a first section comprising said first air inlet line, said first solenoid valve, said at least a second air inlet line, and said at least a second solenoid valve, said first section being disconnectably connected to a second section comprising said air outlet.
In a preferred embodiment of the invention, said circuit for supplying steam comprises a first section comprising said steam inlet and disconnectably connected to a second section comprising said steam outlet.
The present invention also discloses a coffee machine that incorporates such an emulsifying device.
In a preferred embodiment of the invention, the coffee machine comprises an outer frame within which said first section of the circuit for supplying steam and said first section of the circuit for supplying air are mounted.
In a preferred embodiment of the invention, said second section of the circuit for supplying air, said second section of the circuit for supplying steam and said mixing chamber are mounted in a supporting body external to said frame.
In a preferred embodiment of the invention, said frame supports a connector arranged through the wall thickness of said frame and exhibiting a connection fitting between said first and second sections of the air circuit and a connection fitting between said first and second sections of the steam circuit.
In a preferred embodiment of the invention, said supporting body is disconnectably connected to said connector.
In a preferred embodiment of the invention, said supporting body is supported by a milk container having a milk supply line having a milk outlet connected to said mixing chamber.
In a preferred embodiment of the invention, the coffee machine has an internal controller programmed with a first, a second and at least a third milk dispensing program that differ in the status of at least one of the solenoid valves.
In a preferred embodiment of the invention, said internal controller is programmed with a washing program that differs in the status of at least one solenoid valve with respect to said first, second and at least a third milk dispensing program.
Further characteristics and advantages of the invention will become more apparent from the description of a preferred, but not exclusive, embodiment of the emulsifying device for emulsifying milk according to the invention, which is illustrated by way of approximate and non-limiting example in the attached drawings, of which:
Equivalent parts in the various preferred embodiments of the invention shall be indicated with the same reference number herein below.
With reference to the figures cited, an emulsifying device for emulsifying milk is shown and indicated in its entirety by reference number 1.
The emulsifying device 1 is connectable to a coffee machine 20 in the manner described herein below.
The coffee machine 20 comprises a controller 40, a control panel (unillustrated) provided with an on/off button and selection buttons for the dispensing cycle, specific means for generating steam (unillustrated), specific means for heating water (unillustrated), and an infusion unit (unillustrated) connected to the water heating means and to an external coffee dispenser (unillustrated).
The above-mentioned components of the coffee machine 20 are housed in an outer frame 21 of the coffee machine 20.
The emulsifying device 1 comprises a Venturi mixing chamber 2, a circuit 3 for supplying air and having an air outlet 22 connected to the mixing chamber, and a circuit 4 for supplying steam and having a steam outlet 23 connected to the mixing chamber 2.
The circuit for supplying air 3 advantageously has a first air inlet line 5 equipped with a first shut-off solenoid valve 8, and at least a second air inlet line 6 equipped with a second shut-off solenoid valve 9.
Preferably, the circuit for supplying air 3 also has a third air inlet line 7 equipped with a third shut-off solenoid valve 10.
The circuit for supplying air 3 further comprises a manifold 42 to which the air inlet lines 5, 6 and 7 are connected.
Advantageously, the second air inlet line 6 has a minimum cross-sectional area 12 that is larger than the minimum cross-sectional area 11 of the first air inlet line 5. If provided, the third air inlet line 7 has, in turn, a minimum cross-sectional area 13 that is larger than the minimum cross-sectional area 12 of the second air inlet line 6.
The minimum cross-sectional areas 11, 12, 13 can be provided in the air inlet lines 5, 6, 7, upstream or downstream of the solenoid valves 8, 9, 10.
The inlet end of each air inlet line 5, 6, 7 is in communication with the atmospheric air.
The solenoid valves 8, 9, 10 can be controlled by the controller 40 of the coffee machine 20.
The inlet lines 5, 6, 7 are equipped with air filters 14, 15, 16 preferably positioned upstream of the solenoid valves 8, 9, 10 and particularly at the inlet end of the air inlet lines 5, 6, 7.
The circuit for supplying air 3 is subdivided into a first section 3a and a second section 3b, said sections being disconnectably connected to each other.
The first section 3a of the circuit for supplying air 3 comprises the air inlet lines 5, 6, 7, the solenoid valves 8, 9, 10 and the manifold 42.
The second section 3b of the circuit for supplying air 3 comprises the outlet 22 of the circuit for supplying air 3.
Also the circuit for supplying steam 4 comprises a first section 4a and a second section 4b, said sections being disconnectably connected to each other.
The first section 4a of the circuit for supplying steam 4 comprises an inlet (unillustrated) of the circuit for supplying steam 4 connected to the means for generating steam present inside the frame 21 of the coffee machine 20.
The second section 4b of the circuit for supplying steam 4 comprises the outlet 23 of the circuit for supplying steam 4.
The first section 3a of the circuit for supplying air 3 and the first section 4a of the circuit for supplying steam 4 are mounted inside the frame 21 of the coffee machine 20.
The second section 3b of the circuit for supplying air 3 and the second section 4b of the circuit for supplying steam 4 are instead mounted jointly to the mixing chamber 2 in a supporting body 24 external to the frame 21.
The frame 21 of the coffee machine 20 supports a connector 25 that exhibits a connection fitting 26 between the first section of the circuit for supplying air 3a and the second section of the circuit for supplying air 3b, and a connection fitting 27 between the first section of the circuit for supplying steam 4a and the second section 4b of the circuit for supplying steam 4.
The connector 25 has one part that is inside the frame 21 and one part that extends outside the frame 21 through special openings in the thickness of the front wall of the frame 21.
At least in the part outside the frame, the connection fittings 26 and 27 of the connector 25 extend rectilinearly in a direction parallel to the supporting surface 28 of the coffee machine 20.
The supporting body 24 is disconnectably connected to the connector 25.
The sleeves 29, 30 are preferably realized as a single piece 41. With reference to the solution illustrated in
The supporting body 24 is connectable to the connector 25 with a movement according to a connection axis parallel to the supporting surface 28 of the coffee machine 20.
In the embodiment of the invention illustrated in
In the embodiment of the invention illustrated in
The operation of the emulsifying device is as follows.
Firstly, it should be specified that the controller 40 is capable of recognizing the presence of an emulsifying device 1 connected to the coffee machine, by means of first sensor means 43 of a known type (e.g. of a mechanical or magnetic type), and also of recognizing the type of emulsifying device 1 that is present, by means of second sensor means 44, also of a known type (e.g. of a mechanical or magnetic type).
The controller of the coffee machine 20 is programmed with a first, a second and at least a third milk dispensing program that differ in the status of at least one solenoid valve 8, 9, 10.
Preferably, with reference above all to the application illustrated in
The user can select the desired program on the control panel of the coffee machine. Let us first suppose that the emulsifying device, as illustrated, comprises the three air inlet lines 5, 6, 7 and the three solenoid valves 8, 9, 10.
In this case, by way of example, the first milk dispensing program comprises the permanent closure of all the solenoid valves 8, 9, 10, the second milk dispensing program comprises the permanent opening of the first solenoid valve 8 and the permanent closure of the second and third solenoid valves 9 and 10, and the third milk dispensing program comprises the permanent opening of the second solenoid valve 9 and the permanent closure of the first solenoid valve 8 and the third solenoid valve 10.
The washing program instead comprises the permanent opening at least of the third solenoid valve 10, particularly the permanent opening of the third solenoid valve 10 and the permanent closure of the first solenoid valve 8 and the second solenoid valve 9.
With the first milk dispensing program, the milk is heated by the steam, but not frothed, as all the air inlet lines 5, 6, 7 are closed.
With the second dispensing program, the milk is heated by the steam and slightly frothed by a flow of air suctioned into the mixing chamber 2 by Venturi effect and coming from the first air inlet line 5.
With the third dispensing program, the milk is heated by the steam and frothed to a greater degree by a greater flow of air suctioned into the mixing chamber 2 by Venturi effect and coming from the second air inlet line 6, the minimum cross-sectional area 12 of which is larger than the minimum cross-sectional area 11 of the first air inlet line 5.
As regards the washing program, and referring particularly to the embodiment of the invention illustrated in
In this case, by way of example, the first milk dispensing program comprises the permanent closure of the two solenoid valves, the second milk dispensing program comprises the temporary opening of the first solenoid valve and the permanent closure of the second solenoid valve, the third milk dispensing program comprises the temporary opening of the first solenoid valve for a cumulative period of time differing from the second program and the permanent closure of the second solenoid valve, and the washing program comprises the permanent opening at least of the second solenoid valve and particularly only of the second solenoid valve. More precisely, in a milk dispensing cycle of a duration of X seconds, with the second milk dispensing program, the first solenoid valve will remain closed for a total of y1 seconds and open for a total of z1 seconds, where X is equal to y1 plus z1, whereas with the third milk dispensing program, the first solenoid valve will remain closed for a total of y2 seconds and open for a total of z2 seconds, where X is equal to y2 plus z2 and z2 is greater than z1. The variation in the cumulative period of time in which the first solenoid valve is open can be obtained—with the number of switches in the status of the first solenoid valve in time X for execution of the milk dispensing cycle being equal—differentiating the interval of time that the first solenoid valve remains in the open state and in the closed state in the second and the third milk dispensing program. For example, for the second milk dispensing program, each open state of the first solenoid valve will be of the same duration, each closed state of the first solenoid valve will be of the same duration, and the duration of each open state will be equal to the duration of each closed state. For the second milk dispensing program, which instead provides for a more substantial formation of froth compared to that of the first milk dispensing program, each open state of the first solenoid valve will be of the same duration, each closed state of the first solenoid valve will be of the same duration, but the duration of each open state will be longer than the duration of each closed state. Obviously, adjustment of the degree of froth can be carried out by controlling the solenoid valves in any other different manner.
Clearly, the number of solenoid valves, two or more, and the manner in which they are controlled, can be changed according to needs.
As a result, with a simple and economical system, the emulsifying device is capable of varying the amount of milk froth in an extremely accurate manner.
No particular skills are required of the user for successfully performing the procedure, given that the user's contribution is limited to selecting the desired degree of froth on the control panel.
The emulsifying device thus conceived is susceptible to numerous modifications and variants, all of which falling within the scope of the inventive concept. Moreover, all details may be replaced with other technically equivalent elements. The materials used, as well as the dimensions, may in practice be of any type, according to needs and the state of the art.
Number | Date | Country | Kind |
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MI2015A 000641 | May 2015 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/059365 | 4/27/2016 | WO | 00 |