Beverage dispensing device comprising at least two pod or capsule receiving means

Abstract

A beverage dispensing device has a housing with a beverage unit with a liquid inlet and a beverage outlet. The beverage unit has a receiving receptacle for receiving at least two ingredient containers containing a unit dose of an ingredient of the beverage to be dispensed. The beverage unit also has a liquid line in fluid communication with a base liquid source, with the contents of the ingredient containers, when correctly installed in the device, and with the beverage outlet. The liquid line is split into two side lines at a point A, downstream the liquid inlet. Both side lines join in fluid communication at a point B, downstream point A and upstream the beverage outlet, at least one of the ingredient containers in liquid communication with the liquid line at a point M1 downstream point A and upstream point B.

Claims

1. A beverage dispensing device comprising at least a housing comprising a beverage unit with a liquid inlet and a beverage outlet, the beverage unit comprising: a receiving means with at least two ingredient containers containing a unit dose of an ingredient of the beverage to be dispensed charged therein; and a liquid line in fluid communication with a base liquid source, with contents of the containers, when correctly installed in the device, and with the beverage outlet; the liquid line is split into two side lines at a point A, downstream the liquid inlet, both side lines joining in fluid communication at a point B, downstream point A and upstream the beverage outlet, at least one of the ingredient containers in liquid communication with the liquid line at a point M1 downstream point A and upstream point B, and a valve to control liquid flow through said both side lines of the liquid line.

2. The beverage dispensing device according to claim 1, wherein said both containers are each in fluid communication with a different side line at points M1, respectively M2, located downstream point A and upstream point B.

3. The beverage dispensing device according to claim 1, comprising identification means for identification of the ingredient containers installed in the receiving means.

4. The beverage dispensing device according to claim 3, comprising a controller configured to control the valve in function of the identification of the ingredient containers installed in the receiving means.

5. The beverage dispensing device according to claim 4, wherein the controller controlling the valve comprises a microprocessor wherein multiple dispensing cycle sequences are pre-stored, each dispensing cycle sequence comprising an active control of the valve during a single dispense cycle for dispensing one single beverage, whereby flow rate through each side line of the liquid line varies during a single dispense cycle.

6. A method of preparing and dispensing a beverage by means of a single beverage dispensing device, the method comprising: selecting and providing a base liquid; selecting and providing a container comprising a unit dose of a first concentrated ingredient; selecting and providing a container comprising a unit dose of a second concentrated ingredient; mixing the base liquid with said first and second concentrated ingredients within said single beverage dispensing device to obtain the prepared beverage; and dispensing said prepared beverage, the single beverage dispensing device comprising a beverage unit with a liquid inlet and a beverage outlet, a receiving means for receiving at least two containers containing a unit dose of an ingredient of the beverage to be dispensed; and a liquid line in fluid communication with a base liquid source, with content of the ingredient containers, when correctly installed in the device and with the beverage outlet, the liquid line is split into two side lines at a point A, downstream the liquid inlet, both side lines joining in fluid communication at a point B, downstream point A and upstream the beverage outlet, at least one of ingredient containers in liquid communication with the liquid line at a point M1 downstream point A and upstream point B; a valve to control liquid flow through said both side lines of the liquid line; the method comprising the step of varying a position of the valve to alter flow rate of the base liquid in the side lines during mixing the ingredients with the base liquid.

7. The method according to claim 6, wherein at least one of the ingredient containers comprises at least one of: hop concentrates, fruit concentrates, sweeteners, bittering additives, concentrated spices, foaming promoters, concentrated malt-based liquids, concentrated fermented liquids, concentrated beer, colorants and or mixtures thereof.

8. The method according to claim 6, wherein the base liquid is selected from: water, a malt-based beverage, a fermented beverage, beer and or mixtures thereof.

9. The method according to claim 8, wherein the base liquid is carbonated.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING

(1) With the intention of better showing the characteristics of the invention, hereafter, as example without any limitative character, some embodiments of a beverage dispensing device according to the invention are described, with reference to the accompanying drawings, wherein:

(2) FIG. 1 is a schematically represents a first embodiment of a beverage dispensing device in accordance with the present invention;

(3) FIG. 2 is a schematically represents a first alternative embodiment of FIG. 1;

(4) FIG. 3 is a schematically represents an second alternative embodiment of FIG. 1;

(5) FIG. 4 schematically represents a third alternative embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

(6) The first embodiment of a beverage dispensing device (1) according to the invention, illustrated in FIG. 1, comprises a housing (2) comprising a beverage unit with a liquid inlet (3) and a beverage outlet (4), the beverage unit comprising: receiving means (5a, 5b) for receiving at least two containers (6a, 6b) containing a unit dose of a (concentrated) ingredient of the beverage to be dispensed; and a liquid line (7) in fluid communication with a base liquid source (8), with the content of the pods or capsules (6a, 6b) when correctly installed in the device) and with the beverage outlet (4).

(7) The containers comprise exactly one unit dose of beverage ingredient and are therefore suited for preparing exactly one beverage allowing maximal flexibility to customize a beverage to be dispensed. The containers are preferably of the kind generally addressed as pods or capsules and will be referred to as such in the description below.

(8) In accordance with the invention, the liquid line (7) is split into two side lines (7a, 7b) at a point A, downstream the liquid inlet (3), both side lines (7a, 7b) joining in fluid communication at a point B, downstream point A and upstream the beverage outlet (4), at least one of the pods or capsules (6a, 6b) in liquid communication with the liquid line at a point M1 downstream point A and upstream point B.

(9) In the embodiment of FIG. 1, a first pod or capsule (6a) is provided in the receiving means (5a) and in liquid communication with the side line (7a) of the liquid line at a point M1 downstream point A and upstream point B, whereas the second pod or capsule (6b) is provided in the receiving means (5b) in liquid communication with the side line (7b) of the liquid line at a point M2, downstream point A and upstream point B.

(10) In this case, when introducing pods or cartridges in the device and dispensing a beverage, liquid from the base liquid source will flow through both side lines of the liquid line and mix with the content of both pods at different locations, resulting in two liquid streams comprising base liquid and a ingredient originating from the respective pod, joining at a point B, where both streams are mixed prior to leaving the dispensing device through the beverage outlet (4).

(11) To allow good mixing of the streams of both side lines and to better control foaming, it is preferred that the point B where both side lines join in fluid communication, is positioned at least five cm upstream the beverage outlet. Additionally, the part of the liquid line extending from point B to the beverage outlet may comprise pressure reducing means such as a venturi for suppressing undesired foam creation.

(12) In the embodiment of FIG. 2, the flow of base liquid through each side line is regulated by means of a valve (8), allowing varying the flow rate of base liquid through each of the side lines (5a, 5b).

(13) Such embodiment is particularly advantageous when the pods or capsules contain ingredients of a different nature having different mixing properties, such a different viscosity or different status (solid vs liquid).

(14) Further this embodiment is advantageous for limiting the volume in each pod or capsule. When dispensing a malt-based or in particular beer based beverage, the dispensing temperature of the beverage is preferably between 2 and 5 C. In small dispensing devices for home use with a small countertop footprint, cooling of the beer to such extend in short periods is difficult if not impossible to achieve. Therefore it is known to pre-cool the base liquid to dispensing temperature or to a temperature slightly below dispensing temperature. Further cooling of the base liquid is often impossible due to ice formation.

(15) In such case, when dispensing the beverage starting from a pre-cooled base liquid, the content of the pods or capsules needs to be as small as possible not to have a major impact on the temperature of the base liquid. Hence ingredients provided in the pods should be as concentrated as possible.

(16) Some ingredients are easy to concentrate and can be concentrated with a high concentration factor without impact on the quality, other ingredients however are far more difficult to concentrate without use of quality.

(17) As a result, some ingredients can be loaded in a pod in very low levels (highly concentrated), whilst others can be loaded in a pod in only slightly concentrated form, resulting in a relative large volume.

(18) To improve mixing of the pods contents it is therefore beneficial to control the flow rate through the side lines (5a, 5b) such that a larger flow rate can be dedicated to the pod or capsule containing the largest load or the least soluble ingredient. As a result, good mixing of all ingredients can be achieved even with ingredients concentrated to a level wherein mixing becomes more difficult, thereby keeping the volume ratio between cooled base liquid and ingredients originating from the pods or capsules high and allowing dispensing the beverage at a desired temperature.

(19) FIG. 3 illustrates a preferred embodiment comprising pod or capsule identification means (9) such as for example a bar-code scanner or RFID scanner (10) that allows identifying content related identity tags on the pods or capsules such as a bar code or RFID tag (11).

(20) In this case the dispensing device also comprises a controller for controlling the valve or valve assembly and comprising a microprocessor and a memory.

(21) The memory comprises a set of pre-loaded dispensing sequences for setting and varying the valve or valve assembly position during a dispensing cycle, whereby the microprocessor selects a sequence based on input received from the pod or capsule identification means.

(22) The dispensing device according to the present invention and as depicted in FIG. 3 allows controlled dispensing of a large number of beverages using a liquid base source and two pods or capsules containing a unit dose of a specific ingredient.

(23) To dispense a particular beverage, the user selects two pods or capsules of its choice and introduces these in the receiving means of the dispensing device. Upon loading the pods or capsules, the identification means identify the content of the pods and provides a signal to the microprocessor that, based on the received information, loads a steering sequence for the valve.

(24) In its most simple form, the sequence will comprise a fixed setting for the valve for optimally split the flow of base liquid at the inlet over both side lines, whereby most of the base liquid will be guided to the side line in fluid communication with the pod or capsule comprising the most difficult ingredient to mix or solve or with the highest volume content.

(25) Alternatively, when the first pod or capsule installed in the first receiving means (5a) contains an flavour ingredient and the second pod or capsule installed in the second receiving means comprises a foaming promoter, the controller will steer the valve or valve assembly such that at first base liquid is only flowing through the first side line, mixing the flavour ingredient therein before dispensing the mixture through the beverage outlet. After a given amount of beverage is dispensed, the controller will change the valve position to allow a liquid stream through both side lines, thereby mixing the foaming promoter in the base liquid first and later to mix the mixed foaming promoter with the mixture obtained in the first side line, to dispense a beverage having improved foaming properties, allowing dispensing a foam collar on the already dispensed beverage.

(26) It is clear that the above dispensing sequence can also be provided for a second pod comprising for example a colorant, allowing dispensing beverages having one or more coloured layers.

(27) The base liquid source can be any of water, a malt-based beverage, a fermented beverage, beer, a cider based beverage or cider and or mixtures thereof, the base liquid source can either be non-carbonated or carbonated.

(28) The pods or capsules can comprise a solid or liquid ingredient, varying from hop concentrates, fruit concentrates, sweeteners, bittering additives, concentrated spices, foaming promoters, concentrated malt-based liquids, concentrated fermented liquids, concentrated beer, colorants and or mixtures thereof.

(29) In a preferred embodiment of a beverage dispensing device 1 in accordance according to the invention, and as is also the case in the represented figures, the controlling means 13 comprise additionally flow rate controlling means 14 for controlling the flow rate through the liquid inlet.

(30) This means 13 for controlling the flow rate through the liquid inlet can for example comprise choking means by which the section of the liquid line close to the inlet (upstream from point A) which is open for fluid flow can be reduced or increased so to set the desired flow rate.

(31) In another embodiment however the flow rate controlling means can comprise pressurizing means, not illustrated in the figures, for setting a driving pressure by which an ingredient is driven out of its corresponding pod or capsule.

(32) It has to be understood that the former example is only intended for illustrating the possibilities and that a beverage dispensing device 1 in accordance with the invention can be intended for dispensing only one beverage component or on the contrary multiple beverage components at the same time for forming one of the beverage layers.

(33) In FIG. 4 an alternative embodiment of a dispensing device according to the present invention in shown, wherein a first pod or capsule receiving means is located such that the corresponding pod or capsule is in fluid communication at point M1, located downstream from point A and upstream from point B, whereas the second pod or capsule receiving means is located such that the corresponding pod or capsule is located at a point M3, at point B or downstream of point B.

(34) Such embodiment is advantageous in that one of the pods or capsules receives a maximum of liquid (the total amount of liquid fed from the base liquid source for dispensing a single beverage) for mixing the content of that pod or capsule in the liquid of the beverage.