Beverage dispensing device for dispensing different types of beverages or beverage components

Abstract

A beverage dispensing device dispenses different types of beverages or beverage components. At least one type of beverage is a malt based beverage or beverage component. The dispensing device has multiple supply lines each extending from a corresponding supply source and having a controllable supply line valve as well as a controlling device for sequentially setting the controllable supply line valves. A beverage dispensing device contains multiple beverages or beverage components to be dispensed into a receptacle after every sequence step has been executed and during a single tapping cycle.

Claims

1. A beverage dispensing device for dispensing different types of beverages or beverage components, at least one of which being a malt based beverage or beverage component, wherein the dispensing device comprises at least: multiple supply sources each containing a beverage or a liquid, a gaseous, or a solid beverage component; one of the multiple supply sources contains gaseous and liquefied carbon dioxide; an output line of the beverage dispensing device through which a beverage dispensed by the device is supplied to a receptacle, the output line comprising a flow rate controlling device allowing altering the flow rate through the output line; a dispensing device for opening and closing the output line and comprising a dispensing valve which is operated by an operating device for opening the dispensing valve in order to supply a beverage; multiple supply lines, each supply line extending from a corresponding supply source and comprising a controllable supply line valve which can be set in an open and closed position; a connecting device formed as a chamber connected at the one hand to every supply line and at the other hand to the output line prior to the output line flow rate controlling device; and a controlling device configured to sequentially set the controllable supply line valves and the flow rate controlling device, wherein in each sequence step, the controllable supply line valves and the flow rate controlling device are set into a closed or open position according to a pre-determined setting, a beverage containing multiple beverages or beverage components being dispensed into the receptacle after every sequence step has been executed and this during a single tapping cycle.

2. The beverage dispensing device according to claim 1, having only a single output line.

3. The beverage dispensing device according to claim 2, wherein the dispensing device forms a dispensing tap wherein the operating device is formed by a tap handle which is manually operated.

4. The beverage dispensing device according to claim 2, wherein the dispensing device comprises electrically or electronically controlled operating device operated by one or more of the following: a push-button; a switch; a key-board; a touch screen.

5. The beverage dispensing device according to claim 1, wherein the dispensing device forms a dispensing tap wherein the operating device is formed by a tap handle which is manually operated.

6. The beverage dispensing device according to claim 1, wherein the dispensing device comprises electrically or electronically controlled operating device operated by one or more of the following: a push-button; a switch; a key-board; a touch screen.

7. The beverage dispensing device according to claim 1, the device for controlling the flow rate through the output line further comprises a choking device.

8. The beverage dispensing device according to claim 1, wherein the device for controlling the flow rate through the output line further comprises a pressurizing device for setting a driving pressure by which a beverage or beverage component is driven out of its corresponding supply source.

9. The beverage dispensing device according to claim 1, wherein the controlling device further comprises a sequence with one or more sequence steps for dispensing a beverage or beverage components followed by a sequence wherein foam is dispensed on top of an already dispensed beverage or dispensed beverage components.

10. The beverage dispensing device according to claim 1, wherein one of the multiple supply sources contains a beverage or a liquid, a gaseous or a solid beverage component, which is one of the following: a malt based beverage; a beer; a beer concentrate; a carbonated liquid; carbon dioxide; nitrogen; an alcohol; a juice; a soft drink; a tea; a coffee; a chocolate.

11. The beverage dispensing device according to claim 1, wherein the controlling device functions completely automatically.

12. The beverage dispensing device according to claim 1, the device comprises an interface for interaction with a user.

13. The beverage dispensing device according to claim 12, wherein the interface allows to set or select a sequence of the controlling device.

14. A method of using the beverage device of claim 1, comprising: dispensing a non-layered beverage; by controlling means, setting the flow rate of dispensing of a subsequent sequence of the tapping cycle to a level allowing mixing the different beverages or beverage components dispensed during the subsequent tapping cycle with beverages or beverage components dispensed into the receptacle during one or more previous sequences of the tapping cycle.

15. A method of using the beverage dispensing device of claim 1, comprising: dispensing a layered beverage; by the controlling means, setting the flow rate of dispensing of a subsequent sequence of the tapping cycle to a level preventing mixing the different beverages or beverage components dispensed during a subsequent tapping cycle with beverages or beverage components dispensed into the receptacle during one or more previous sequences of the same tapping cycle, or by providing guide means, guiding the beverage or beverage components dispensed during the subsequent sequence on top of the beverages or beverage components dispensed into the receptacle during one or more previous sequences of the tapping cycle.

16. A method according to claim 15 of using the beverage dispensing device comprising an interface for interaction with a user for dispensing a black and tan beer, i.e., layered beverage (24) which is a blend of a light and a dark beer.

Description

(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 schematic illustration of a first embodiment of a beverage dispensing device in accordance with the present invention;

(3) FIGS. 2 to 5 illustrate subsequent sequence steps during dispensing of a multi-layered beverage with the beverage dispensing device represented in FIG. 1;

(4) FIG. 6 is a schematic illustration of a second embodiment of a beverage dispensing device in accordance with the invention; and

(5) FIGS. 7 to 9 illustrate subsequent sequence steps during dispensing of a beverage with the beverage dispensing device represented in FIG. 6, the beverage being composed of a mixture of different beverages or beverage components.

(6) The first embodiment of a beverage dispensing device 1 according to the invention, illustrated in FIGS. 1 to 5, is first of all provided with multiple supply sources 2.

(7) In this first embodiment some of the supply sources 2 are barrels, bottles, containers or kegs 3 or the like which contain a liquid beverage or liquid beverage component 4.

(8) Such a liquid beverage or beverage component 4 can for example be a juice, a soda, a strong alcohol, a coffee, a tea, a beer or a beer concentrate, a diluting liquid such as water, a carbonated liquid or a flat liquid and so on.

(9) Furthermore, some of the supply sources 2 are containers or boxes 5 which contain solid beverage components 6, such as powders of aromatic ingredients, coffee powder, sugar, ground spices, any kind of flavour 6 and so on.

(10) Finally, one of the supply sources 2 is a gas bottle 7 containing in this case gaseous and also liquefied carbon dioxide 8.

(11) Supply lines 9 are extending from each supply source 2 and in each supply line 9 a controllable supply line valve 10 is provided in the represented case, which supply line valves 10 can be set in a closed position, indicated in the drawings by a valve symbol 11 which is fully coloured in black, and an open position, indicated in the drawings by a valve symbol 12 which is not coloured.

(12) Another aspect of a beverage dispensing device 1 in accordance with the invention is that is provided with an output line 13, preferably a single output line 13, through which a beverage dispensed by the device 1 is supplied to a receptacle 14, usually a glass 14.

(13) In order to open and close the output line 13 the beverage dispensing device 1 is provided with dispensing means 15, forming in this case a dispensing tap 15 which comprises a dispensing valve 16 by which the output line 13 is set open or is closed off.

(14) In the illustrated case the dispensing valve 16 is a ball valve 16 which is operated by operating means 17 which are formed by a manually operated tap handle 17.

(15) As an alternative, it is according to the invention not excluded to provide dispensing means 15 which comprise electrically or electronically controlled operating means 17 operated by means of for example a push-button, an electric switch, a key-board, a touch screen, or the like.

(16) A beverage dispensing device 1 in accordance with the invention furthermore comprises connecting means 18 which are connected at the one hand to every supply line 9 and at the other hand to the output line 13.

(17) In the drawings these connecting means 18 are symbolically represented by a circle 18.

(18) In practice the connecting means 18 can form a kind of chamber 18, but it is possible as well that the connecting means 18 are just formed by an interconnection of the supply lines 9 and the output line 13 without forming a real interconnecting chamber, while still other alternatives are also not excluded from the invention.

(19) The beverage dispensing device 1 according to the invention also comprises controlling means 19 for sequentially setting the controllable supply line valves 10.

(20) In the figures the controlling means 19 are represented by a controller 19 which comprises an interface 20 in the form of a keyboard 20 for interaction with a user, as well as a display 21.

(21) However, according to the invention it is not excluded that the controlling means 19 are completely invisible for a user and consists of only internal parts of the beverage dispensing device.

(22) Preferably, the controlling means 19 are provided with a programmable memory, for example formed by a PLC or by a computer.

(23) Nevertheless, as an alternative it is also possible to realize controlling means 19 which are based on purely mechanical methods, for example with techniques known from pneumatics or hydraulics.

(24) Of course the application of a combination of electronic, electric and mechanic techniques is allowable as well.

(25) Each supply line valve 10 is controlled by the controlling means 19, for example through electrical wiring or control cabling 22, which is schematically represented in the figures by dashed lines 22.

(26) In the embodiment represented in FIGS. 1 to 5 the tap handle 17 is used for operating and setting the dispensing valve 16 into an open position or a closed position, respectively for starting and stopping the tapping cycle.

(27) The status into which the dispensing valve 16 is set, is monitored by the controlling means 19 through wiring 22, which is also indicated by a dashed line 22, and this status of the dispensing valve is used as an input for the controlling means 19.

(28) In an alternative embodiment, the controlling means could be realized such that the status of the dispensing valve 16 is set by the controlling means 19, for example after a user has given some instructions on the keyboard 20.

(29) In such an embodiment the operating means 17 are part of the controlling means 19.

(30) 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 19 comprise additionally flow rate controlling means 23 for controlling the flow rate through the output line 13.

(31) This means for controlling the flow rate 23 through the output line 13 can for example comprise choking means by which the section of the output line 13 which is open for fluid flow can be reduced or increased so to set the desired flow rate, which is schematically represented in the figures by a rectangle in the output line 13.

(32) 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 a beverage or beverage component 4, 6 and/or 8 is driven out of its corresponding supply source 2.

(33) The controlling means 19 sequentially set the controllable supply line valves 10 whereby in each sequence step the controllable supply line valves 10 are set into a closed or open position according to a pre-determined setting.

(34) After the complete cycle of different sequence steps has been executed, a beverage 24 containing multiple beverages or beverage components 4, 6 and/or 8 is dispensed into the receptacle 14 and this during a single tapping cycle, i.e. the user only needs to open and close the dispense valve 15 by means of the tap handle 17.

(35) This is illustrated in more detail in FIGS. 1 to 5.

(36) In FIG. 1 a status of the beverage dispensing device 1 is represented, before the actual dispensing has started.

(37) The tap handle 17 is in the upright position corresponding to a closed status of the dispensing valve 16.

(38) This closed status of the dispensing valve 16 is detected by the controlling means 19 via wiring 22 and as a result, the controlling means 19 set all the controllable supply line valves 10 into the closed status.

(39) When a user turns the tap handle 17 as illustrated in FIG. 2 into a position corresponding to the open status of the dispensing valve 16, the tapping cycle starts.

(40) The open status of the dispensing valve 16 is detected by the controlling means 19 and this triggers the sequences programmed in the controlling means 19 for setting the supply line valves.

(41) In this case, in a first sequence step, which is represented in FIG. 2, the controlling means 19 opens the supply line valve 10 of a first supply source 2 of a flat liquid beverage or beverage component 25 and the supply line valve 10 of the bottle 7 with carbon dioxide.

(42) In that way the flat liquid beverage or beverage component 25 is mixed with carbon dioxide so to form a carbonated beverage component.

(43) The flat liquid beverage 25 can for example be a flat beer or flat beer concentrate, as well as a juice or any other liquid beverage or beverage component.

(44) The concerned supply line valves 10 are kept open by the controlling means 19 as long as is needed in order to provide a first beverage layer 26 of carbonated liquid in the receptacle 14.

(45) Meanwhile, the flow rate through the output line 13 is also controlled by the controlling means 19 through the flow rate controlling means 23 so to fill the receptacle 14 in the most efficient way.

(46) After the first beverage layer 26 has been dispensed, the controlling means 19 firstly closes automatically all supply line valves 10 and set the supply line valves 10 into another status according to a pre-determined setting corresponding to the second sequence step programmed in the controlling means 19.

(47) This second sequence step is represented in FIG. 3 and is such that this time the supply valve 10 of another carbonated liquid beverage 27 supply source 2 is opened as well as the supply line valve 10 of a supply source 2 containing a solid beverage component 28.

(48) As a result, in this second sequence step a mixture of the carbonated liquid 27 and the solid beverage component 28 is supplied to the receptacle 14 so to dispense a second beverage layer 29 in the receptacle 14.

(49) The controlling means 19 are in this case such that the flow rate of dispensing is kept under control so to prevent mixing of the different beverages or beverage components dispensed into the receptacle 14 during dispensing.

(50) This can for example be obtained by sufficiently reducing the flow rate or even by providing guiding means, which are for example automatically unfolded by the controlling means 19, and which guide the liquid to be dispensed on top of the already dispensed former beverage layer 26.

(51) After the second sequence step the controlling means 19 closes again all the supply line valves 10 after which it sets the supply line valves 10 as well as the flow rate controlling means 23 into a status corresponding to a pre-determined setting programmed in the controlling means corresponding to the final sequence step.

(52) In this case in the final sequence step a foam layer 30 is provided on top of the beverage 24, which is illustrated in FIG. 4.

(53) In order to produce a foam layer 30 of good quality, different parameters of the beverage dispensing device 1, such as the opening of the concerned valves 10, or the pressure in the supply lines 9 or the output line 13, should be set correctly by the controlling means 19.

(54) 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.

(55) The final beverage 24 can comprise multiple beverage layers or can be not layered at all and similarly a foam collar can be provided or can be omitted.

(56) After closing the tap handle 17 by the user the dispensing valve 16 is again in the closed status, which is detected by the controlling means 19 and which is the triggering event for finalising the tapping cycle by closing all the supply line valves 10.

(57) It is obvious that in even the closing of the dispensing valve 16 could be controlled as well by the controlling means 19, for example in an embodiment wherein no tap handle 17 is provided.

(58) According to the invention the interface 20 of the controlling means 19 is preferably such that it allows a user to set or select or even to program a sequence of the controlling means 19.

(59) FIGS. 6 to 9 represent still another embodiment of a beverage dispensing device 1 in accordance with the invention.

(60) In this second embodiment each supply line 9 comprises the same supply line valve 31 which supply line valve 31 is forming part of the connecting means 18.

(61) The supply line valve has a rotating part 32 with a narrow channel 33 intended to be brought into a position such that a selected supply line 9 is aligned with the channel 33, in the case this selected supply line 9 is supposed to be brought into an open status for supplying a beverage component.

(62) The narrow channel 33 merges into a widening opening 34 of the rotating part 32, which opening 34 is intended to bring a supply line 9 aligned with the channel 33 into connection with the output line 13.

(63) By turning the rotating part 32 at can also be brought into a position wherein all the supply lines 9 as well as the output line 13 are closed off.

(64) This is for example illustrated in FIG. 6.

(65) In this embodiment of a beverage dispensing device 1 in accordance with the invention the controlling means 19 control the rotational position of the rotating part 32 of the supply line valve 31.

(66) The principle is furthermore quite similar as in the preceding embodiment.

(67) FIGS. 6 and 9 correspond to the situation wherein the tap handle 17 is brought into the upright position by a user, respectively before dispensing a beverage 24 and when the tapping cycle is finalised.

(68) The controlling means 19 detects this status of the tap handle 17 or the corresponding status of the dispensing valve 16 and sets the rotating part 32 of the supply line valve 16 into a rotational position wherein all supply lines 9 as well as the output line 13 are closed off.

(69) By turning the tap handle 17 a user triggers the starting of the tapping cycle, which is illustrated in FIG. 7.

(70) In a first sequence step the supply line valve 31 is set such that the supply line 9 of a first supply source 35 is aligned with the narrow channel 33 and the widening opening 34 with the output line 13 so to dispense liquid beverage or liquid beverage component 4 supplied from the first supply source 35 into the receptacle 14.

(71) After a while the controlling means 19 finalise the first sequence step and set the supply line valve 31 into a pre-determined status as programmed in the controlling means so to initiate the second sequence step.

(72) This second sequence step is illustrated in FIG. 8, the rotating part 32 of the supply line valve 31 being brought into a position wherein the supply line 9 of a second supply source 36 is aligned with the narrow channel 33 and the widening opening 34 with the output line 13 so to dispense liquid beverage or liquid beverage component 4 supplied from the second supply source 36 into the receptacle 14.

(73) In this case the controlling means 10 set the flow rate by means of the flow rate controlling means 23 in such a way that the flow rate of dispensing is high enough to mix the different beverages or beverage components 4 in the receptacle 14 during dispensing, so to obtain a completely mixed beverage 24 and not a layered beverage as was the case in the preceding example.

(74) It is clear that a beverage dispensing device 1 in accordance with the present invention simplifies a lot the work of barkeepers, certainly when a beverage must be dispensed comprising multiple beverages or beverage components, no or almost no intervention of the barkeeper being required.

(75) Furthermore, a beverage dispensing device 1 in accordance with the invention can be very compact and it ensures a constant quality of the dispensed beverages.

(76) The present invention is by no means limited to a beverage dispensing device 1 according to the invention, described as examples and illustrated in the drawings, but such a beverage dispensing device 1 according to the invention can be realised in all kinds of variants, without departing from the scope of the invention.