Liquid cartridge for use in a beverage system

A device for preparing a heated liquid for use with a beverage-making appliance includes a liquid transport channel in communication with a liquid reservoir which discharges into a first chamber. The first chamber includes a steam inlet which is connectable to a steam generator. A second chamber of the device is connected to the first chamber via a restriction and has a liquid outlet. The device is in the form of a cartridge n which the liquid reservoir, the liquid transport channel, the first chamber, the steam inlet, the restriction, the second chamber, and the liquid outlet are provided. All components of the device are integrated into one cartridge, so the cartridge can be discarded after use.

The invention relates to a device for preparing a heated liquid, said device comprising a liquid transport channel in communication with a liquid reservoir, a steam inlet which is connectable to a steam generator, a liquid outlet, and means for transporting a combined flow of at least liquid and steam to the liquid outlet.

The invention furthermore relates to a beverage-making appliance for use with such a device for preparing a heated liquid and to a system for preparing a beverage comprising a beverage-making appliance and a device for preparing a heated liquid.

A device as described in the opening paragraph is known, for example, from EP 0858757A1. The known device is a device for use with an espresso machine and comprises a liquid transport channel in communication with a liquid reservoir. In this device, the liquid comprises milk. The liquid transport channel discharges into a first chamber, which comprises a steam inlet which is connectable to a steam generator of the espresso machine. A second chamber, in this device a channel, is connected to the first chamber via a restriction and has a liquid outlet. During operation, milk and air are drawn into the first chamber by an underpressure in the first chamber. In the first chamber, steam is mixed with this milk and air to heat the mixture, after which the mixture is transported to the channel in which the mixture is stabilized. After stabilization, the mixture leaves the liquid outlet as heated milk froth.

It is a disadvantage of the known device that it requires frequent cleaning. Since milk is in contact with the components of the device during operation, these components become polluted with milk. If the device is not frequently cleaned, the device will become unhygienic because of milk residue and may cause health problems for its users. This risk is even greater because the construction of the device renders cleaning difficult, which may cause users to be reluctant to clean it.

It is an object of the invention to provide a device for preparing a heated liquid which is hygienic and user-friendly. To achieve this object, a device for preparing a heated liquid according to the invention is characterized in that the device for preparing a heated liquid comprises a cartridge in which the liquid reservoir, the liquid transport channel, the first chamber, the steam inlet, the restriction, the second chamber, and the liquid outlet are provided. All components of the device are integrated into one cartridge, so the cartridge can be discarded after use. In this manner all components which have been in contact with liquid during operation, and which are at risk of becoming contaminated by residues of the liquid, are removed and thrown away. Thus a hygienic device is provided which is also user-friendly because it does not have to be cleaned after use.

An embodiment of a device according to the invention designed for use with a beverage-making appliance is characterized in that the device is at least partly detachably connectable to the beverage-making appliance. In this manner the cartridge can be detached from the beverage-making appliance after having fulfilled its function and then be disposed of.

An embodiment of a device according to the invention is characterized in that the cartridge is detachably connectable to the appliance via the steam inlet. In this manner the device is in contact with the appliance only via the steam inlet, which means that no liquid present in the cartridge can come into contact with any part of the appliance. This ensures a hygienic solution without the need for the user to clean the device or the appliance.

An embodiment of a device according to the invention is characterized in that the liquid transport channel comprises an air inlet. In this manner air is entrained into the liquid during operation when the liquid is being transported from the reservoir via the transport channel to the first chamber. This air causes a frothing of the liquid, e.g. milk.

An embodiment of a device according to the invention is characterized in that the air inlet is closable. In this manner either heated liquid or heated frothed liquid can be generated by the device, depending on whether the air inlet is closed or opened, respectively.

It is advantageous when a valve is provided for opening and closing the air inlet.

An embodiment of a device according to the invention is characterized in that the liquid comprises milk. In another embodiment, the liquid comprises coffee extract.

An embodiment of a device according to the invention is characterized in that the first chamber comprises a water inlet which is connectable to a water reservoir. When condensed milk or liquid coffee extract is used as a liquid in the cartridge, additional water has to be mixed into said liquid to obtain a heated liquid of good quality. This is possible via the water inlet.

An embodiment of a device according to the invention is characterized in that at least the second chamber is provided with obstructions for enhancing the frothing of liquid in the second chamber during operation.

An embodiment of a device according to the invention is characterized in that the liquid reservoir is a refillable reservoir.

An embodiment of a device according to the invention is characterized in that the liquid reservoir is provided in an element which is moveable between a first position in which it covers the liquid transport channel, the first chamber, the steam inlet, the restriction, the second chamber, and the liquid outlet during operation, and a second position in which it leaves these components exposed for cleaning purposes in a non-operating status.

The invention further relates to a beverage-making appliance for use with a device for preparing a heated liquid according to the invention, characterized in that the appliance comprises a space for receiving the device for preparing a heated liquid.

An embodiment of an appliance according to the invention is characterized in that the appliance comprises a steam generator which is connectable to the steam inlet of the device upon receipt of the device in the space.

An embodiment of an appliance according to the invention is characterized in that the space comprises means for opening a liquid flow path between the reservoir and the liquid channel.

The invention further relates to a system for preparing a beverage, comprising a beverage-making appliance according to the invention and a device for preparing a heated liquid according to the invention.

An embodiment of a system according to the invention is characterized in that the appliance has a housing, and the liquid outlet of the device extends outside the housing of the appliance.

FIG. 1is a perspective view of a first embodiment of a device1for preparing a heated liquid according to the invention, for use with a beverage-making appliance15, as shown inFIG. 2. The device1comprises a liquid transport channel25in communication with a liquid reservoir11which discharges into a first chamber26, said first chamber26comprising a steam inlet16which is connectable to a steam generator32. This will be further elucidated in the description ofFIG. 3.

In this embodiment, the liquid comprises skimmed milk. However, it is noted that also other known types of liquid such as liquid coffee extract, syrup, etc. may be advantageously applied in a device according to the invention. Furthermore, the device comprises a second chamber28which is connected to the first chamber26via a restriction27and which has a liquid outlet29. The device for preparing a heated liquid comprises a cartridge100in which the liquid reservoir11, the liquid transport channel25, the first chamber26, the steam inlet16, the restriction27, the second chamber28, and the liquid outlet29are provided and which is at least partly detachably connectable to the beverage-making appliance15. In this embodiment, the cartridge100is detachably connectable to the appliance15via the steam inlet16, and the liquid transport channel25comprises an air inlet18. In this manner, a heated and frothed liquid is generated by the device. The air inlet18is connected to the transport channel25via a restriction80in this embodiment. It is noted that in an alternative embodiment the restriction may be provided in the beverage-making appliance. The cartridge may comprise only a steam inlet and no air inlet in a further alternative embodiment; then the device provides only a heated liquid, without froth.

A central part2of the cartridge100in this embodiment is made from plastic. The top part4is a flexible foil made of a material that fulfils requirements with respect to oxygen permeability. This foil4has been sealed or glued in a leak-free manner to a surface5of a central part2. In this manner all hollow spaces and grooves of the cartridge are separate spaces interconnected by small channels. The bottom part6is also a foil made of the same material as part4(Both4and6have been drawn as transparent foils). At the outer edges13, parts6and4have been sealed or glued together. Another section of foil6has been leak-free glued or sealed to section of central part2. During storage and transport, the reservoir11between foils4and6is completely filled with milk. Topside9of the surrounding wall of trapezoidal space10is part of the sealing surface5. This ensures that top foil4is also sealed in this position, which prevents milk flowing from reservoir11to space10. The bottom side12of the surrounding wall of space10is an extension of sealing surface7. This ensures that space10is separated from milk reservoir11also at the bottom side. The cartridge furthermore comprises a trapezoidal extension23of central part2, which closes a milk flow path between the reservoir and the transport channel25. In this embodiment the reservoir is made from a flexible material, but it is noted that it may comprise alternative types of material and may be for example, partly rigid. Furthermore, the extension is trapezoidal in this embodiment, but is noted that this element may also comprise other known shapes, depending on the specific embodiment of the cartridge.

The operation of the device and the appliance according to the invention, forming the system according to the invention, will be further elucidated on the basis ofFIG. 2a, b, c, which show a system according to the invention, in different stages of its operation. As can be seen inFIG. 2a, the appliance15comprises a space14for receiving the cartridge100, and a lid20and a lock21for locking the cartridge100in the space14during operation. The appliance furthermore comprises a steam socket17which is connectable to the steam inlet16of the cartridge100, and an air socket19which is connectable to the air inlet18. Furthermore means22, in this embodiment an element protruding from the lid, are provided for opening a liquid flow path between the reservoir11and the liquid channel25. It is noted that other known means may be applied to open this liquid flow path such as, for example, a pin to pierce the foil.

InFIG. 2b, the cartridge100has been placed in the appliance15by a user. Upon placement of cartridge100in the space14of appliance15, the steam inlet16of the cartridge100connects to the steam socket17of the appliance15. Closing appliance lid20and locking this with lock21pushes protrusion22in lid20into the cartridge100. This changes the position of the trapezoidal extension23of central part2from the position A to the position B as shown inFIG. 2c. In this manner the foil6is peeled from the sealed position in12, which enables milk to flow from reservoir11into space10.

The heating and frothing process starts as soon steam enters the system through steam inlet16. This activation of the steam may be initiated automatically after a pre-determined period of time after insertion of the cartridge or, for example, upon activation of a button on the appliance by a user. The speed of the steam between steam inlet16and restriction27creates a vacuum in first chamber26, by means of which milk from the reservoir and air are drawn into the first chamber26via the liquid channel25. The air is sucked into the milk through air inlet18via a small conduit30. As soon the mixture of milk and air arrives in chamber26, the hot steam implodes on the milk. In this manner the temperature of the milk is increased. The heated mixture then passes restriction27and has an opportunity to stabilize in space28before it leaves the cartridge through outlet29as a mix of hot milk and froth that flows into a receiving cup37, as shown inFIG. 2d. As can also be seen inFIG. 2d, the liquid outlet29of the device extends outside the housing of the appliance15. This ensures that no parts of the appliance will come into contact with the milk.

After the milk has left the outlet, the process is de-activated. Any milk residue in the cartridge will remain where it is, because there are no mechanisms causing the milk to flow back to the steam or air inlet. The lock21can be unlocked and the lid opened to remove the used cartridge100. Upon removal of the cartridge, the connections between the steam socket17of the appliance15and the steam inlet16of the cartridge100, and the air socket19of the appliance15and the air inlet18of the cartridge, are broken. The cartridge can then be thrown away, and a new cartridge can be placed if a new portion of heated, frothed milk is required.

It is noted that the beverage-making appliance inFIG. 2is shown schematically only, and may comprise a variety of known types of beverage-making appliances of different sizes and shapes. The appliance may comprise, for example, a cup-by-cup coffee maker, a coffee maker with a drip filter, or an espresso machine.

It is furthermore noted that the cartridge according to the invention described above comprises skimmed milk. However, it is also possible to have a cartridge with condensed milk in order to reduce the total volume of the cartridge. In that case the milk must be diluted with water, as can be seen inFIG. 3showing a further embodiment of the invention.FIG. 3shows a schematic view of the appliance in connection with the cartridge according to the invention. Cold water is added to the condensed milk in the first chamber26through a water inlet31(dotted line). The water is then part of the mixture and will be heated together with the milk. A steam generator32forming part of the appliance supplies steam to the steam inlet16of the cartridge100. The steam generator32is supplied with water from a water reservoir34by pump33. Advantageously, the water inlet31also has a connection to this water reservoir34, but it may alternatively have a separate water reservoir.

Furthermore, a valve35is provided for opening and closing the air inlet18. In this embodiment, the valve35is comprised in the appliance, but it is noted that the valve may alternatively be comprised in the cartridge100itself. In this manner a choice can be made whether just heated liquid or heated and frothed liquid is to be provided by the system according to the invention. In addition, as described above, the cartridge may also have only a steam inlet and no air inlet, thus providing only heated liquid, without froth.

In order to improve froth quality and volume in a further embodiment, at least the second chamber28is provided with obstructions36for enhancing the frothing of liquid in the second chamber28during operation, as can be seen inFIG. 4. These obstructions change the flow resistance in the relevant space and/or create some extra agitation. The obstructions in this embodiment are arranged around the outlet, but in other embodiments they may be arranged in a different location in the second chamber, or even additionally in the other chamber.

FIGS. 5aand5bshow a further embodiment of a device according to the invention, in which the liquid reservoir11′ is a refillable reservoir. The liquid reservoir11′ is provided in an element30which is moveable between a first position in which it covers the air inlet18′, the liquid transport channel25′, the first chamber26′, the steam inlet16′, the restriction27′, the second chamber28′, and the liquid outlet29′ during operation, and a second position in which it leaves these components exposed for cleaning purposes in a non-operating status. It is noted that the liquid reservoir may be detachably connected to the device.

In this manner, the cartridge100′ can be refilled by a user and can be easily cleaned by hand, or in the dishwasher. The cartridge100′ comprises a bottom part2′ with on its topside a cover3, a milk reservoir11′, a hinged lid520′, and a lock21′. The cover3is made of a flexible material such as, for example, rubber and is tightly and leak-free fixed to the topside of the bottom part2′. It is noted, however, that in other embodiments the cover may comprise other known types of material and may be, for example, partly rigid.

Bottom part2′ comprises the liquid transport channel25′, the first chamber26′, the steam inlet16′, the restriction27′, the second chamber28′, and the liquid outlet29′. The milk reservoir11′ is fixed to the bottom part2′ by hooking extension16in groove17and by closing lock21′. This total assembly can be placed on an appliance interface in the same way as the disposable cartridge100described above, where it engages with a steam socket and optionally with an air and water connector.

In this embodiment, the user can refill the cartridge with fresh liquid, in this embodiment milk. This creates the need for preventing milk from flowing to the frothing device prior to starting of the steaming process. This is done via a liquid valve45as shown inFIG. 5a, and in more detail inFIG. 5b. Valve45comprises top flange190and bottom flange200. Top flange190has a smaller diameter than bottom flange200, and connector220connects these flanges. With milk reservoir11′ assembled to bottom part2′ and without steam pressure in space210, the top of the valve230closes hole24in milk container4, thus preventing milk from leaking out. When steaming starts, steam flows through space210and enters the first chamber26′ through steam inlet16′. At the same time steam pressure builds up between flanges19and20. Since the surface area of flange20is larger than that of flange19, the force on the bottom side of the system will be higher than on the topside. As a result bottom flange20pulls top flange19down through connector22. This opens hole24so that milk can flow to the first chamber26′ via transport channel25′. As soon as the steam pressure drops below a certain level, valve45closes immediately. This system provides a direct coupling between steam and milk flow without a drop in steam pressure. It is noted that other known types of valves may be applied in a device according to the invention.

Milk reservoir11′ can be refilled through lid20′ without taking the whole cartridge100′ from the appliance. For the purpose of refilling the reservoir11′, the outside of the transparent reservoir is provided with level indicator lines25. To provide a more accurate measurement, the reservoir is further provided with an electronic volume-measuring device46in this embodiment; it is noted, however, that other embodiments may comprise only the level indicator lines25or the volume-measuring device46.

The complete device is detached from the appliance for cleaning. Upon unlocking of lock21′ the cartridge100′ can be further disassembled. All channels and spaces which have been in contact with milk are then easy accessible for cleaning. Only space210is not accessible, but this space has only been in contact with steam and therefore poses no hygienic risks.

FIG. 6shows a further embodiment of a device according to the invention. In this embodiment, the operation of the device is comparable to the operation of the earlier described embodiments.

The heating and frothing process starts as soon steam enters the system through steam inlet16″. The steam has been indicated by a dotted line inFIG. 6. This activation of the steam may be initiated automatically after a pre-determined period of time after insertion of the cartridge, or for example upon activation of a button on the appliance by a user.

The liquid reservoir, which is not shown in this Figure, is connected to the liquid channel25″, of which the starting point is indicated in the Figure at A. The flow of liquid is indicated with a continuing line.

The speed of the steam between steam inlet16″ and restriction27″ creates an underpressure in first chamber26″, by means of which milk from the liquid reservoir and air are drawn into the first chamber26″. The air is sucked into the milk through the air inlet18″. As soon the mixture of milk and air arrives in chamber26″, the hot steam implodes on the milk. In this manner the temperature of the milk is increased. The heated mixture then passes restriction27″ and gets the opportunity to stabilize in space28″ before it leaves the cartridge through outlet29″ as a mix of hot milk and froth that flows into a receiving cup. After the milk has left the outlet, the process is de-activated. Any milk residue in the cartridge will remain where it is, because there are no mechanisms causing the milk to flow back to the steam- or air inlet.

In this manner all components which have been in contact with liquid during operation, and which run the risk of becoming contaminated by residues of liquid, can be removed and thrown away because they are integrated into one cartridge. Thus a hygienic device is provided which is also user-friendly because it does not have to be cleaned after use.

It is noted that in this embodiment, a mirrored configuration of the components along the longitudinal axis X of the cartridge is applied. It will be understood however, that in another embodiment, other configurations are possible, comprising for example only half of the described configuration.

FIG. 7shows a detail of a further embodiment of a device according to the invention. It is noted that the configuration of the restriction R can be realized in various ways, as long as an underpressure is created to entrain liquid from the reservoir in the steam flow. In earlier described embodiments, the restrictive function was performed by for example a narrowing channel.

However, it is noted that this function may also be realized by for example making use of the length of the channel between the space Y where the steam from steam inlet16′″ and liquid from the reservoir11′″ come together, and the space Z where their mixture is settled before leaving the outlet29′″, as shown inFIG. 7.

It is noted that a device for preparing a heated liquid according to the invention may be used separately from a beverage-making appliance. It then functions as a stand-alone device and only needs a connection to a steam generator to generate a heated liquid, and optionally an air inlet if frothing is wanted. In this case it may even be used as a beverage-making device in itself if the liquid in the reservoir comprises liquid coffee extract.

Furthermore, it may be used together with a beverage-making appliance such as a coffee or espresso maker.

It is furthermore possible to removably attach two cartridges to a beverage-making appliance, one with a reservoir comprising milk, and one with a reservoir comprising liquid coffee extract. The cartridges may be attached to the appliance together at one interface, or successively, first the coffee cartridge, followed by the milk cartridge.

Furthermore, the cartridge may comprise, in a location upstream of the liquid outlet, an inlet connected to a reservoir for holding dry substances such as, for example, cocoa powder. In this manner, the dry substances can be added to the heated and possibly frothed liquid, in this case, for example, cocoa powder can be added to the heated and frothed milk, resulting in a hot frothed cocoa milk coming from the liquid outlet.

It is noted that the cartridge has a relatively flat construction in the embodiments described. The cartridge, however, may also comprise other shapes and dimensions, depending on, for example, its use with different types of beverage-making appliances, or the specific liquid to be held in the reservoir. The cartridge may, for example, also be shaped like a cup, a sphere, a cube, etc. Furthermore, the various components integrated in the cartridge may have configurations in said cartridge with respect to each other than those described with the embodiments mentioned above.

It is furthermore noted that with the chambers, as described with an earlier described embodiment is meant any area in which liquid can be held. They may comprise any type of area such as a cavity, or a space, but also, for example, a channel, as long as liquid can be held herein.