The present invention relates to a machine for preparing a drink. It relates more particularly to a machine of the type comprising a pump, for drawing in a liquid contained in an internal reservoir, and for delivering it to an injection assembly designed to receive a portion of consumable ingredients such as a ground mass, a powder or a liquid concentrate.
There are machines of this type for the preparation of a drink, using disposable packaging, which generally comprise a removable water reservoir as in Patent EP 1 688 072. These machines cannot be easily moved around since the water reservoir is quite voluminous.
Certain machines, such as those described in U.S. Pat. No. 5,404,794, mostly professional machines, do not have a liquid reservoir, because of the intensive usage thereof. Instead of the reservoir, they have an external connection to which a hose is connected in order for liquid to be fed continuously from a source such as a tap. Partly because of this external hose, which is not intended to be integrated into the machine, such machines are themselves neither stand-alone nor compact.
There are machines onto which a bottled water reserve is fitted. The bottled water reserve is usually fitted in an inverted position by means of a connection unit to the machine as in Patent EP 0 904 249 or WO 03/1056463, or else connected via a flexible tube to the machine, as in U.S. Pat. No. 4,655,123 or DE 9400834U. One drawback arises from this in that only certain reservoirs are compatible with the machine because of specific connection means. The connection itself is not necessarily very easy to make. The system remains quite bulky when the water reserve is put into place.
There are also coffee machines that can accommodate a bottled refill instead of the reservoir as in EP 1 483 991. However, such a machine remains bulky.
The object of the present invention is to remedy these drawbacks, by providing a machine for preparing a drink, which is less bulky, has neither an internal reservoir, or one removably attached to the casing of the machine as is customary, nor a permanent external hose.
More precisely, the invention relates to a machine for preparing a drink, which comprises a casing defining an internal volume in which internal means for circulating a liquid intended for preparing the drink are housed, said means comprising means for piping the liquid inside said casing, and a pump for delivering the liquid into the liquid-piping means. According to the invention, the machine further includes intake means for bringing the liquid from outside the casing into the latter, which means are deployable at least partly on the casing from a position in which they occupy a small space to a deployed position in which they occupy a larger space, and are connected to said liquid circulation means. Preferably, the casing includes a housing for containing said intake means so as to reduce the size of the machine in such a way that these means can then be in a stowing position.
Thanks to these features, the machine may dispense with a permanently associated liquid reservoir (whether removable or not), or at the very least one that includes a permanent support for accommodating a reservoir, thereby enabling the volume of the machine in a stowing and/or transporting position to be considerably reduced. In addition, since the liquid intake means are integrated into the machine, it can be more easily transported as such, without an additional part.
In one advantageous embodiment, the liquid intake means comprise a flexible intake hose that can be deployed from a position inside a housing in said casing to a position outside said housing.
According to one embodiment, the housing containing the intake hose is inside the casing.
According to one possible alternative embodiment, the housing containing the intake hose is placed outside the casing. For example, the housing may be open to the outside. It may further include a support means for containing the hose, such as a rigid support, so as to make it easier to deploy the intake house and enable it to be connected with a removable external reservoir. Alternatively, the housing may contain a support with a raised feature in order to allow the hose to be wound around the support in order to assume a position in which it occupies less space.
The flexible intake hose has a first end connected on one side to the pump (either directly or indirectly via an intermediate hose and a set of couplers) and a free second end intended to be dipped into the liquid when the hose is in the deployed position.
In one possible embodiment, the intake hose has one end connected to the pump (directly or indirectly via a hose) by means of a detachable connector, thus making it possible to separate the intake hose from the rest of the machine, in order to make it easier to clean it or replace it.
The intake hose may have a detachable and disposable free hose portion, such as a straw portion. The disposable hose portion may for example be made of polypropylene, PET or polyethylene. The free hose portion may be connected to the non-disposable hose portion connected to the circuit of the pump by a friction-type, clip-fastening or other such fitting. The non-disposable hose portion may be made of a durable material, such as a silicone.
These characterizing features greatly simplify the way in which the machine is used. Since the hose is already connected to the pump, or at the very least can be easily connected to a connector which is itself connected to the pump via, for example, another hose, all that is required is to deploy the flexible hose outside the machine and dip it into a container filled with liquid, such as a bottle or flask. The machine is then operational.
In another possible embodiment of the invention, the liquid intake means, for bringing liquid from outside a housing (whether open or closed) in the casing into said housing, comprise an intake hose that includes a first rigid support portion mounted so as to be articulated on the casing or sliding towards the outside of the casing, between a retracted position and a protruding position. In this case, the hose may include a connector for receiving a removable water reservoir, said connector being contained in the support. The hose is then preferably positioned at the base of the casing so as to accommodate the reservoir when the rigid support portion containing the hose is deployed. The hose is not necessarily flexible—for example, it may be moulded into a rigid plastic support portion. The hose preferably terminates on the free side in a connector intended to receive a removable reservoir having a complementary connector in the bottom thereof.
Other characterizing features and advantages of the present invention will more clearly emerge from the following detailed description of an example of the construction of a machine for preparing a drink according to the invention, this example being given only for purely illustrative and non-limiting purposes, in conjunction with the appended drawing in which:
The machine for preparing a drink, shown in perspective and in longitudinal section in
In the embodiment illustrated, the hose 2 has a rigid central portion 2c formed from a metal pipe, for example made of copper, integrated into the block heater, and two flexible portions 2a and 2b on either side of the rigid portion 2c of the block heater, for example formed from silicone pipes. The pipe portions are connected via rigid couplers, mounted for example on the block heater. Of course, other in-line heating means may be provided as an alternative, such as a cartridge heater or a tube heater. The pump 3 has an intake coupler 8 and a delivery coupler 9 to which the hose portion 2a is connected. The hose portion 2b is connected to the injection assembly 6, while the central portion 2c passes through the block heater 4 for raising the temperature of the liquid. The injection assembly 6 includes, by means of the capsule support 7, a passage 10 through which the prepared drink can flow.
According to one possible aspect of the invention, the machine for preparing a drink does not include a liquid reservoir, rather liquid intake means, for bringing liquid from outside the casing (from an external source) into the latter, which means can be at least partially deployed to the outside of the casing. The liquid intake means are formed, in a first embodiment illustrated in
The arrangement according to one possible aspect thus described makes it possible to reduce the internal volume of the casing 1, because of the absence of a liquid reservoir and a reservoir support permanently placed in and associated with the casing. The machine for preparing a drink according to the invention thus is more compact and is lighter than a machine according to the prior art. Thanks to these characterizing features and to the deployable hose 11 housed in the casing 1, the machine according to the invention can be easily transported and is easy to stow. Its operation is similar to the operation of a conventional machine, except that the liquid is taken in by the pump 3 from an external reservoir independent of the machine using the deployable hose 11.
In one possible alternative embodiment, the machine according to the invention could also include a small reservoir (having a maximum capacity of 250 ml), which may or may not be removable.
In the embodiment shown in
In a second embodiment of the machine, illustrated in
In the embodiment shown in
In the embodiment shown in
The construction of the machine according to the invention will be described in greater detail with regard to
The casing 1 is formed by a body 20, in which the pump 3 provided with the couplers 8 and 9, the hose 2, the block heater 4 and the electronic control means 5 are mounted, and by a head 21 in which the injection assembly 6 provided with the passage 10 is mounted. The body 20 and the head 21 are for example made of an injection-moulded or thermoformed plastic or made of a metal such as aluminium.
The head 21 is mounted so as to pivot on the body 20 about a longitudinal axis B-B transversely offset relative to the axis A-A, between a retracted, stowed position and a deployed, service position. For this purpose, the body 20 has an upper face 22 surmounted by a male cylindrical portion 23 of axis B-B, the external face 24 of which forms a guide surface for the head 21. The cylindrical portion 23 is provided with a shoulder 25 forming a support surface 26 for the head 21. It also includes a cut-away 27 intended for the hose 2 to pass through to the injection assembly 6. The upper face 22 also has a projection 28 forming an abutment surface 29 that defines the limit of said retracted position.
The head 21 has a female cylindrical portion 30 of axis B-B, matched to the diameter and height of the male cylindrical portion 23 of the body. It also includes a lower face 31 provided with a projecting portion 32, matched to the shape and size of the projection 28 and intended to come into contact with the abutment 29 when the head is in the retracted position. The head 21 also includes a housing 33 into which is inserted the removable capsule support 7 forming part of the injection assembly 6. The capsule support 7 has, for this purpose, lateral guiding means for being inserted into the housing 33 and an outer face 34 matched to the shape and dimensions of the housing 33 so as to be inserted into the head 21. The outer face 34 is provided with two openings 35 intended for taking hold of the capsule support 7.
The female cylindrical portion 30 is mounted so as to rotate freely on the male cylindrical portion 23 and prevent said female cylindrical portion from moving translationally by a ring 36 fixed to the support surface 26. The head 21 is thus free to pivot on the body 20. The hose 2 passes from the body 20 to the head 21 via the cut-away 27. It is connected via its second end to a coupler 37 which is itself mounted on the injection assembly 6. The hose portion 2b is advantageously flexible, so as to follow the movement of the head 21 when the latter pivots on the body 20. In a first embodiment of the injection assembly 6, a lever 38 is mounted so as to be articulated via a first end on the ring 36 and via a second end on the injection assembly 6 that it controls. The construction and the operation of this first embodiment of the injection assembly 6 and of its control will be described in greater detail with regard to
The machine in the retracted position is shown as a top view and as a perspective view in
The machine in the deployed position is shown as a top view and a perspective view in
Reference will now be made to
The lever 38 is mounted articulatedly via a second end to the cam 51 through a first slot 53 extending angularly in the frame 50. The cam follower 52 has a lower face 54 covered for example with a layer of an elastic sealing material, such as for example rubber, intended to come into contact with the injection surface of the capsule. The cam follower is provided with a hollow needle 55, intended for piercing the capsule and for injecting liquid thereinto, and communicating with a radial blind hole 56. The coupler 37 is sealingly mounted in the blind hole 56 through a second slot 57 made longitudinally in the frame 50. Thanks to the radial blind hole 56 and the coupler 37, the arrival of liquid takes place radially relative to the cam follower 52, thereby enabling the cam 51 to be superposed. The cam follower 52 is kept in the up position by a return spring (not shown). Finally, the frame 50 has an axial housing 58 for inserting the capsule support 7, and an internal groove 59 open onto the housing 58. The capsule support 7 is provided with a rim 60 intended to slide in the groove 59 and with a circular shoulder 70 forming a bearing surface for a capsule 71.
The cam 51 and the cam follower 52 are shown in perspective in
In the up position, as shown in
When the cam 51 rotates, the surfaces 61a and 62a cooperate and the cam follower 52 moves towards the capsule support 7. The geometries of the inclined surfaces 61 and 62 are chosen so that at the end of the first portions 61a, 62a, the cam follower 52 comes into contact, via its lower face 54, with the capsule 71 housed in the capsule support 7. At this point in the rotational travel of the cam 51, the cam follower 52 is in the down position, shown in
The second surface portions 61b, 62b are intended for clamping the injection assembly 6. When the cam 51 and cam follower 52 have traveled beyond the first portions 61a, 62b, the second portions 61b, 62b cooperate so that the cam follower 52 presses firmly onto the capsule, which itself bears on the shoulder 70. The pressure exerted by the surface 54 being in contact with the upper surface of the capsule 71 makes the assembly of the cam follower 52 and the capsule 71 liquid-tight. Sealing is achieved by a rubber film covering the face 54. The clamping thus locks the capsule support 7 in the inserted position. In this position, the injection chamber 100 is closed and clamped. The liquid can be injected into the capsule 71 from the hose portion 2b, through the coupler 37 and then the needle 55. Alternatively, sealing could be achieved locally by a seal positioned on the periphery of the clamping surface 54 so as to cooperate with the rim of the capsule 71.
The operation of controlling the injection assembly 6 is shown in
In the retracted position, the point M is located on the line D, closest to the axis BB. When the head is deployed by rotating it, the length I of the lever 38 being fixed, the point M moves about the axis CC so as to maintain this length. The cam 51 is thus rotated. An equation exists between the rotation angle θ of the cam 51 and the deployment angle φ of the head 21. This equation is complex and depends on the initial geometric parameters of the system, namely the angle ψ and the length I. The discussion will be limited to mentioning the fact that when the deployment angle φ, of the head 21 increases, the rotation angle θ of the cam 51 increases up to a maximum value θmax and then decreases. The value θmax gives the maximum angular travel of the cam 51.
In practice, the injection assembly 6 is designed to be controlled so that the head 21 is deployed as far as an angle φdep corresponding to a rotation angle θdep of the cam 51 which is smaller than the angle θmax. This is because it is undesirable for θdep to equal or approach the angle θmax when opening the machine to prepare a drink, since beyond this angle the cam follower 52 rises again, and the clamping of the injection chamber 100 lessens. The initial parameters, namely the angle ψ and the length I, are chosen so as to have a large deployment angle of the head 21 and a large rotation angle θdep of the cam 51. This is because the head 21 must be greatly extended in order for the passage 10 to be well exposed and for a flask to be placed thereunder for the purpose of collecting the drink. In addition, if the rotation angle θdep of the cam 51 is small, the surfaces 61a and 62a must be steeply inclined in order to make the cam follower 52 perform its entire travel, from the up position to the down position. In this case, the forces that are exerted on the parts are considerable, a high stress is required to open the head 21, and the surfaces 61, 62 are rapidly worn. It is therefore desirable to have a large rotation angle θdep of the cam 51.
It should also be noted that the clamping force applied by the cam 51 and cam follower 52 on the injection chamber 100 must be precisely controlled. This is because the chamber must be kept sealed during injection of the liquid with a certain pressure, otherwise there will be leaks and a risk of injuring the user. To achieve this, the clamping force must be sufficient. However, certain parts, such as the capsule holder 7, may be made of plastic, and so they may be damaged by an excessively high clamping force. The clamping of the injection chamber 100 must preferably be carefully calibrated.
However, the combined play due to the tolerances on the various parts of the injection assembly 6 may result in clamping values that deviate from the permitted limit values. The clamping of the injection chamber 100 depends directly on the translational travel of the cam follower 52, which itself depends on the rotation angle θdep of the cam 51. To compensate for the manufacturing and mounting play of the various parts, and thus optimize the clamping value of the injection chamber 100, the length I of the lever 38 is acted on slightly, thereby having an effect on the rotation angle θdep of the cam 51. To do this, the lever 38 is pierced with an oblong hole via which it is fixed to the ring 36. Thanks to this movement, the useful length of the lever 38 may be adjusted.
The method of automatically controlling the injection assembly 6 thus presented is advantageous for two reasons. Firstly, it should be noted that the control formed by the lever 38 fixed to the ring 36 is extremely simple and compact. No part is deployed, even partially, to the outside of the casing 1, making it easier to stow and transport the machine. Secondly, the injection assembly 6 is controlled automatically since it actuated by deploying the head 21. The handling of the machine according to the invention is simplified since it is operational in a single movement. Furthermore, it is impossible to start the machine without having locked the capsule support 7, thereby reducing the risk of it being incorrectly manipulated.
A second embodiment of the injection assembly 6 is illustrated in
The second embodiment of the injection assembly 6 also includes, at the top of the frame 50, a rotary control knob 102 mounted so as to rotate as one with the cam 51. An adjustment piece 103, visible in
The frame 50 is shown in greater detail in
The adjustment piece 103 is placed, inside the frame 50, on the shoulder 110, the bearing surfaces 108 coming into contact with the counter-bearing surfaces 111. Because of the inclination of said bearing surfaces, the angular position of the adjustment piece 103 determines its axial position inside the frame 50, and in particular the position of its flat central portion 106. The latter is designed to serve as an abutment for the cam 51, thereby making it possible for the translational travel of the cam follower 52 to be finely regulated and for the injection chamber 100 to be optimally clamped. During the manual clamping operation using the control knob 102, the cam 51, which is mounted in the frame 50 with a slight translational play, bears on the central portion 106 of the adjustment piece 103. Depending on the height position of the adjustment piece 103, the translation travel of the cam follower 52 is greater or lesser and the force for clamping the injection chamber 100 is higher or lower. The adjustment piece is therefore positioned angularly so as to optimize the clamping force and is then fixed axially by four screws fitted, through the oblong holes 104, into the threaded holes 112.
It does not matter whether the machine for preparing a drink according to the invention is provided with an injection assembly 6 actuated so as to close by deploying the head, or by the use of an independent means.
A third embodiment of the machine according to the invention will now be described as illustrated in
Of course, the machine for preparing a drink according to the invention is not limited to the embodiments that have been described, it being possible for various modifications and simple variants to be envisaged by a person skilled in the art without departing from the scope of the invention as defined by the appended claims.
In particular, it should be noted that, in the above description, the injection assembly 6 includes a capsule support 7, but a person skilled in the art might choose to replace this with a sachet support or with a support for an unpackaged consumable product, without departing from the scope of the invention. In this case, the injection assembly would be similar to that described above except that the cam follower 52 would not have a piercing needle 55 but a simple passage for the liquid. Moreover, the lower face 54 would bear directly on the shoulder 70 in order to lock the support 7 and seal the injection assembly 6.
Number | Date | Country | Kind |
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09150460.5 | Jan 2009 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2010/050113 | 1/8/2010 | WO | 00 | 7/11/2011 |