BEVERAGE DISPENSER, KIT FOR ASSEMBLING THE SAME, AND CORRESPONDING METHODS OF MANUFACTURING, ASSEMBLING AND OPERATING ASSOCIATED THERETO

Abstract

A beverage dispenser is for dispensing a consumable beverage. A processing line having a fluid path with an input end is fluidly connectable to a source container of liquid for receiving liquid from the container via a driving force, and for processing the liquid into the consumable beverage to be dispensed. A Venturi injector is provided along a fluid segment of the fluid path of the processing line, the Venturi injector being configured for selectively and adjustably injecting gas bubbles into the consumable beverage to alter at least one resulting parameter of the consumable beverage to be dispensed. The beverage dispenser also includes a tap fluidly connectable to an output end of the fluid path of the processing line for receiving the consumable beverage with at least one resulting parameter having been altered, and for selectively dispensing the consumable beverage via an activation of the tap.

Claims

1. A beverage dispenser for dispensing a consumable beverage, the beverage dispenser comprising: a processing line having a fluid path with an input end being fluidly connectable to a source container of liquid for receiving liquid from said container via a driving force, and for processing the liquid into the consumable beverage to be dispensed; a Venturi injector provided along a fluid segment of the fluid path of the processing line, the Venturi injector being configured for selectively and adjustably injecting gas bubbles into the consumable beverage in order to alter at least one resulting parameter of the consumable beverage to be dispensed; and a tap fluidly connectable to an output end of the fluid path of the processing line for receiving the consumable beverage with at least one resulting parameter having been altered, and for selectively dispensing said consumable beverage via an activation of the tap.

2. A beverage dispenser according to claim 1, wherein the source container includes a rigid container and/or a malleable container, the rigid container being a metallic vessel, and the malleable container being selected from the group consisting of a bag and a bag-in-a-box (BIB), with the source container further being either a pressurized container or a non-pressurized container.

3.-7. (canceled)

8. A beverage dispenser according to according to claim 2, wherein the fluid path of the processing line includes tubing operatively extending between the source container for providing the source of liquid, and the tap of the beverage dispenser for dispensing the consumable beverage; wherein the tubing is selected from the group consisting of plastic tubing and metallic tubing; and wherein the fluid path of the processing line includes stainless steel tubing.

9. (canceled)

10. (canceled)

11. A beverage dispenser according to claim 8, wherein the beverage dispenser comprises a heat-exchanging assembly operatively connectable to the processing line for exchanging heat with liquid flowing through the fluid path of said processing line; wherein the heat-exchanging assembly includes a thermal-block operatively provided along the fluid path of the processing line between at least one pump and the Venturi injector of the beverage dispenser; and wherein the thermal-block includes a fluid circuit operatively provided along a given length of the fluid path of the processing line for allowing a heat exchange with liquid flowing through said fluid circuit of the thermal-block.

12. (canceled)

13. (canceled)

14. A beverage dispenser according to claim 11, wherein the fluid circuit of the thermal-block extends along at least 11 meters approximately; wherein the fluid circuit of the thermal-block has a cross-sectional profile selected from the group consisting of a substantially circular cross-sectional profile, a substantially square cross-sectional profile, a substantially rectangular cross-sectional profile, and/or any other suitable cross-sectional profile; and wherein the fluid circuit of the thermal-block has a diameter of about 6 mm, about 8 mm or about 10 mm approximately.

15. (canceled)

16. (canceled)

17. A beverage dispenser according to claim 11, wherein the beverage dispenser comprises a refrigerating assembly having a refrigerating circuit operatively connected to the fluid circuit of the thermal-block for refrigerating liquid flowing through said fluid circuit of the thermal-block.

18. A beverage dispenser according to claim 17, wherein the refrigerating assembly includes a refrigerating compressor and a corresponding fan for driving a corresponding refrigeration liquid along the refrigerating circuit of the refrigerating assembly; wherein the refrigerating assembly is used for selectively cooling liquid flowing through the fluid circuit of the thermal-block in order to dispense a cooled consumable beverage via the tap of the beverage dispenser; wherein the thermal-block is made of aluminum; wherein the thermal-block is an aluminum encased thermal-block; and wherein the heat-exchanging assembly of the beverage dispenser includes a thermal electric cooling assembly.

19.-22. (canceled)

23. A beverage dispenser according to claim 11, wherein the heat-exchanging assembly of the beverage dispenser is configured for cooling the consumable beverage to be dispensed by the tap by a temperature drop of about 20° Celsius from the input end to the output end of the fluid path of the processing line; and wherein the heat-exchanging assembly of the beverage dispenser is configured for cooling the consumable beverage to be dispensed by the tap selectively down to an output temperature of up to about 1.5° Celsius.

24. (canceled)

25. A beverage dispenser according to claim 1, wherein the driving force for driving the liquid and corresponding consumable beverage through the fluid path of the processing line is provided by gravity and/or by a pump, the pump being an electric beverage pump.

26. (canceled)

27. (canceled)

28. (canceled)

29. A beverage dispenser according to claim 25, wherein the beverage dispenser is configured to provide a pressure differential of about 20-25% between an inlet and an outlet of the Venturi injector.

30. A beverage dispenser according to claim 29, wherein the Venturi injector is operatively connectable to the fluid path of the processing line, prior to the tap of the beverage dispenser, and includes a gas intake for receiving gas to be injected into the liquid flowing through the Venturi injector in order to alter the at least one resulting parameter of the consumable beverage to be dispensed by the tap.

31. A beverage dispenser according to claim 30, wherein the gas intake of the Venturi injector is connected to an ambient gas and/or to a pressurized source of gas; wherein gas bubbles injected into the consumable beverage via the Venturi injector are gas bubbles made up of a gas selected from the group consisting of nitrogen, oxygen carbon dioxide, helium, air, and/or different possible combination(s) thereof; and wherein gas bubbles injected into the consumable beverage via the Venturi injector are gas bubbles selected from the group consisting of small gas bubbles and micro gas bubbles.

32. (canceled)

33. (canceled)

34. (canceled)

35. A beverage dispenser according to claim 31, wherein the gas intake of the Venturi injector is an intake of air, for selectively sucking in ambient air having approximately 78% nitrogen, approximately 22% oxygen, and approximately 0.1% of CO.sub.2, and for injecting corresponding air bubbles into the consumable beverage to be dispensed by the tap.

36. A beverage dispenser according to claim 35, wherein the gas intake of the Venturi injector is provided with a corresponding filter.

37. A beverage dispenser according to claim 36, wherein the Venturi injector is provided with a corresponding regulator for selectively and adjustably regulating an injection rate of gas bubbles being injected into the consumable beverage by the Venturi injector.

38. (canceled)

39. A beverage dispenser according to claim 37, wherein the tap of the beverage dispenser is configured to create an initial vacuum effect upon an activation of the tap; wherein the beverage dispenser is configured so that the initial vacuum effect triggered by activation of the tap is detected by a built-in sensor of the electric pump of the beverage dispenser, and in turn triggers an activation of said electric pump, for drawing liquid from the source container and in turn pumping liquid and corresponding consumable beverage through the processing line, from the source container to the resulting tap, via the Venturi injector, until the tap is closed again; and wherein the tap of the beverage dispenser is a pull-down tap.

40. (canceled)

41. (canceled)

42. A beverage dispenser according to claim 39, wherein the tap of the beverage dispenser includes a restriction flow plate; wherein the restriction flow plate comprises a non-corrosive material; and wherein the restriction flow plate of the tap includes a plurality of holes.

43. (canceled)

44. (canceled)

45. A beverage dispenser according to claim 42, wherein the restriction flow plate of the tap includes between about 8 and about 13 holes; wherein the holes of the restriction flow plate are of different sizes; and wherein the holes of the restriction flow plate have a diameter ranging between about 0.0156 inches and about 0.0180 inches.

46. (canceled)

47. (canceled)

48. A beverage dispenser according to claim 42, wherein the beverage dispenser is a counter-top beverage dispenser; wherein the beverage dispenser includes a hot tap for dispensing a hot consumable beverage, and a cold tap for dispensing a cold consumable beverage; wherein the beverage dispenser includes an instant heater operatively connectable to the fluid path of the processing line, either between the Venturi injector and the tap of the beverage dispense, or upstream of the Venturi injector, for selectively and instantly heating the consumable beverage to be dispensed upon an activation of the hot tap, prior to exiting therefrom; wherein the beverage dispenser includes a by-pass assembly and corresponding by-pass line(s) for allowing liquid pumped through the processing line to by-pass the thermal-block when the hot tap is activated; and wherein the hot tap and the cold tap are each provided with a different processing line and corresponding Venturi device.

49. (canceled)

50. (canceled)

51. (canceled)

52. A beverage dispenser according to claim 48, wherein the consumable beverage to be dispensed by the beverage dispenser is a nitro-beverage selected from the group consisting of a nitro-coffee, nitro-tea, nitro-alcohol, nitro-cocktail, and/or different possible combination(s) thereof, and wherein the beverage dispenser is operable to dispense different types of the nitro-beverages.

53.-65. (canceled)

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] FIG. 1 is a top perspective view of a beverage dispenser according to a possible embodiment of the present invention.

[0030] FIG. 2 is a schematic representation of a beverage dispenser according to another possible embodiment of the present invention.

[0031] FIG. 3 is a top perspective view of a beverage dispenser according to yet another possible embodiment of the present invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION

[0032] In the following description, the same numerical references refer to similar elements. Furthermore, for sake of simplicity and clarity, namely so as to not unduly burden the figures with several reference numbers, only some figures have been provided with reference numbers, and components and features of the present invention illustrated in other figures can be easily inferred therefrom. The embodiments, geometrical configurations, materials mentioned and/or dimensions shown in the figures are preferred, for exemplification purposes only.

[0033] Moreover, although the present invention was primarily designed for use with liquids and/or beverages, such as coffee, nitro-coffee, cold brew coffee and the like, for example, it may be used with other objects and/or in other types of applications, as apparent to a person skilled in the art. For this reason, expressions such as “liquid”, “beverage”, “dispenser”, “coffee”, “nitro”, “cold brew”, etc., used herein should not be taken so as to limit the scope of the present invention and include all other kinds of objects and/or applications with which the present invention could be used and may be useful. For example, the present beverage dispenser could also be used with and/or for various other “edible” and/or “drinkable” products (ex. “tea”, “alcohol”, etc.) for instance, as well as various “non-edible” products, as can be easily understood by a person skilled in the art.

[0034] Moreover, in the context of the present invention, the expressions “beverage dispenser”, “dispenser”, “assembly”, “machine”, “system”, “device”, “apparatus”, “product”, “unit”, “equipment”, “tool”, “method” and “kit”, as well as any other equivalent expression(s) and/or compound word(s) thereof known in the art will be used interchangeably, as apparent to a person skilled in the art. This applies also for any other mutually equivalent expressions, such as, for example: a) “dispensing”, “distributing”, “pouring”, “brewing”, “dosing”, etc.; b) “liquid”, “fluid”, “beverage”, “drink”, “coffee”, “tea”, “brew”, “alcohol”, “cocktail”, “martini”, “sparking/carbonated water”, etc.; c) “container”, “source”, “vessel”, “keg”, “bag”, “bag-in-box”, etc.; d) “line”, “path”, “tubing”, “piping”, “connector”, “link”; etc.; e) “tap”, “valve”, “faucet”, “spout”, “output”, “outlet”, etc.; e) “restriction plate”, “aerator”, “mixer”, etc.; f) “hole”, “orifice” “through-hole”, etc.; g) “injection”, “infusion”, “introduction”, “infiltration”, “percolation”, etc.; h) “gas”, “air”, “nitrogen”, “oxygen”, “bubbles”, etc.; i) “cold”, “cool”, “chilled”, etc.; j) “hot”, “warm”, “heated”, etc.; k) “heat-exchanger”, “thermal-block”, etc.; l) “case”, “body”, “core”, etc.; as well as for any other mutually equivalent expressions, pertaining to the aforementioned expressions and/or to any other structural and/or functional aspects of the present invention, as also apparent to a person skilled in the art. Also, in the context of the present description, expressions such as “can”, “may”, “might”, “will”, “could”, “should”, “would”, etc., may also be used interchangeably, whenever appropriate, as also apparent to a person skilled in the art.

[0035] Furthermore, in the context of the present description, it will be considered that all elongated objects will have an implicit “longitudinal axis” or “centerline”, such as the longitudinal axis of shaft for example, or the centerline of a coiled spring, for example, and that expressions such as “connected” and “connectable”, or “mounted” and “mountable”, may be interchangeable, in that the present invention also relates to a kit with corresponding components for assembling a resulting fully-assembled and fully-operational beverage dispenser.

[0036] Moreover, components of the present system(s) and/or steps of the method(s) described herein could be modified, simplified, altered, omitted and/or interchanged, without departing from the scope of the present invention, depending on the particular applications which the present invention is intended for, and the desired end results, as briefly exemplified herein and as also apparent to a person skilled in the art.

[0037] In addition, although the preferred embodiments of the present invention as illustrated in the accompanying drawings comprise various components, and although the preferred embodiments of the present beverage dispenser and corresponding portion(s)/part(s)/component(s) as shown consist of certain geometrical configurations, as explained and illustrated herein, not all of these components and geometries are essential to the invention and thus should not be taken in their restrictive sense, i.e. should not be taken so as to limit the scope of the present invention. It is to be understood, as also apparent to a person skilled in the art, that other suitable components and cooperation thereinbetween, as well as other suitable geometrical configurations may be used for the present beverage dispenser and corresponding portion(s)/part(s)/component(s) according to the present invention, as will be briefly explained herein and as can be easily inferred herefrom by a person skilled in the art, without departing from the scope of the present invention.

LIST OF NUMERICAL REFERENCES FOR SOME OF THE CORRESPONDING POSSIBLE COMPONENTS ILLUSTRATED IN THE ACCOMPANYING DRAWINGS

[0038] 1. beverage dispenser [0039] 3. consumable beverage [0040] 5. processing line [0041] 7. fluid path (ex. tubing(s)) [0042] 9. input end (of processing line) [0043] 11. source of liquid (ex. container) [0044] 13. driving force (ex. gravity, pump) [0045] 15. Venturi injector (ex. Mazzei injector) [0046] 15a. inlet (of Venturi injector) [0047] 15b. outlet (of Venturi injector) [0048] 15c. gas intake (ex. intake of air) [0049] 15d. regulator [0050] 17. tap (and/or valve) [0051] 17a. “cold” tap (and/or “cold” valve) [0052] 17b. “hot” tap (and/or “hot” valve) [0053] 19. output end (of the fluid path) [0054] 21. heat-exchanging assembly [0055] 23. thermal-block (or “thermo-block”) [0056] 23b. body (of thermal-block) [0057] 25. circuit (of thermal-block) [0058] 27. refrigerating assembly [0059] 29. refrigerating circuit [0060] 31. fridge compressor [0061] 33. fan [0062] 35. refrigerating liquid (ex. coolant of refrigerating assembly) [0063] 37. filter (for gas intake, such as an air filter, for example) [0064] 39. electric pump [0065] 39a. on/off switch (of electric pump) [0066] 39b. built-in sensor (of electric pump) [0067] 41. restriction plate (ex. aerator) [0068] 43. instant heater [0069] 45. by-pass assembly (including by-pass line(s))

[0070] Broadly described, and as better exemplified in the accompanying drawings, the present invention relates to a beverage dispenser capable of chilling and introducing a gas, such as nitrogen, for example, into a beverage (ex. cold brew coffee) to make it look and feel like a Guinness™. The nitrogen adds a velvety and creamy feel, and it enhances the taste of the cold brew coffee, something that is not possible with other conventional devices.

[0071] The present beverage dispenser (1) may come in the form of a beverage dispenser (1) including one and/or several of the following possible components and features (and/or different possible combination(s) and/or permutation(s) thereof).

[0072] For example, and according to a possible embodiment, there is provided a beverage dispenser for dispensing a consumable beverage. The beverage dispenser may comprises a processing line having a fluid path with an input end being fluidly connectable to a source container of liquid for receiving liquid from said container via a driving force, and for processing the liquid into the consumable beverage to be dispensed. The beverage dispenser may also comprises a Venturi injector being provided along a fluid segment of the fluid path of the processing line, the Venturi injector being configured for selectively and adjustably injecting gas bubbles into the consumable beverage in order to alter at least one resulting parameter (ex. texture, look, taste, flavour, temperature, colour, aspect, and/or other, etc.) of the consumable beverage to be dispensed. The beverage dispenser may also comprises a tap (and/or valve) being fluidly connectable to an output end of the fluid path of the processing line for receiving the consumable beverage with at least one resulting parameter having been altered, and for selectively dispensing said consumable beverage via an activation of the tap (and/or valve).

[0073] The source container may include a rigid container (ex. a vessel, a reservoir, a keg, etc.), and according to a possible embodiment, the source container includes a metallic vessel (ex. made of stainless steel, and/or any other suitable material).

[0074] Alternatively, the source container may include a malleable container (ex. a bag, and/or a bag-in-a-box (BIB)).

[0075] It is to be understood that the source container can be selected from the group consisting of a pressurized container and a non-pressurized container.

[0076] According to one possible embodiment, the source container is selectively insertable into a corresponding fridge (of the beverage dispenser, and/or separate therefrom) for cooling the liquid present in the container.

[0077] The fluid path of the processing line may include tubing operatively extending between the container for providing the source of liquid and the tap of the beverage dispenser for dispensing the consumable beverage. The tubing may include tubing selected from the group consisting of plastic tubing and metallic tubing (and/or any other suitable material). According to a possible embodiment, the fluid path of the processing line includes stainless steel tubing.

[0078] As can be easily also from the accompanying figures, the beverage dispenser may comprise a heat-exchanging assembly operatively connectable to the processing line for exchanging heat with liquid flowing through the fluid path of said processing line. The heat-exchanging assembly may include a thermal-block being operatively provided along the fluid path of the processing line between at least one pump and the Venturi injector of the beverage dispenser. The thermal-block may include a fluid circuit operatively provided along a given length of the fluid path of the processing line for allowing a heat exchange with liquid flowing through said fluid circuit of the thermal-block. According to a particular embodiment, the fluid circuit of the thermal-block extends along at least 11 meters (approximately).

[0079] The fluid circuit of the thermal-block may have a cross-sectional profile selected from the group consisting of a substantially circular cross-sectional profile, a substantially square cross-sectional profile, a substantially rectangular cross-sectional profile, and/or any other suitable cross-sectional profile. According to a particular embodiment, the fluid circuit of the thermal-block has a diameter of about 6 mm, about 8 mm or about 10 mm (approximately).

[0080] As can also be easily understood from the accompany drawings, the beverage dispenser may comprise a refrigerating assembly (ex. integrated to the beverage dispenser, and/or separate therefrom) having a refrigerating circuit operatively connected (ex. thermally connected) to the fluid circuit of the thermal-block (ex. via the thermal-block) for refrigerating liquid flowing through said fluid circuit of the thermal-block. The refrigerating assembly may include a fridge compressor and a corresponding fan for driving a corresponding refrigeration liquid (ex. coolant, and/or refrigerant) along the refrigerating circuit of the refrigerating assembly. The refrigerating assembly may be used for selectively cooling liquid flowing through the fluid circuit of the thermal-block in order to dispense a cooled consumable beverage via the tap of the beverage dispenser.

[0081] According to a particular embodiment, thermal-block is made of aluminum, and optionally, the thermal-block can be an aluminum encased thermal-block (ex. liquid aluminum having been poured and hardened so as to form the main body or case of the thermal-block).

[0082] As can also be easily understood from the accompany drawings, the heat-exchanging assembly of the beverage dispenser may include a thermal electric cooling assembly. According to a particular embodiment of the present system, the heat-exchanging assembly of the beverage dispenser is configured for cooling the consumable beverage to be dispensed by the tap by a temperature drop of about 20° Celsius (approximately) from the input end to the output end of the fluid path of the processing line. According to another possible embodiment, the heat-exchanging assembly of the beverage dispenser is configured for cooling the consumable beverage to be dispensed by the tap selectively down to an output temperature of up to about 1.5° Celsius.

[0083] As can also be easily understood from the accompany drawings, the driving force for driving the liquid and corresponding consumable beverage through the fluid path of the processing line is provided by gravity (ex. the container and/or source of liquid being provided at a higher elevation than the output end of the tap, etc.). Alternatively, the driving force may be provided by a pump. Optionally also, the driving force can be provided by both gravity and a pump. According to a possible embodiment, the pump can be an electric pump (ex. an electric beverage pump).

[0084] According to another possible embodiment of the present system, the beverage dispenser is configured so as provide a pressure differential of about 20-25% (approximately) between an inlet and an outlet of the Venturi injector. Preferably, the Venturi injector is operatively connectable to the fluid path of the processing line, prior to the tap of the beverage dispenser, and includes a gas intake for receiving gas to be injected into the liquid flowing through the Venturi injector in order to alter the at least one resulting parameter of the consumable beverage to be dispensed by the tap. The gas intake of the Venturi injector may be connected to an ambient gas. Alternatively, the gas intake of the Venturi injector may be connected to a pressurized source of gas. Indeed, the present system enables for gas bubbles to be injected into the consumable beverage via the Venturi injector, and the gas bubbles may be made up of a gas selected from the group consisting of nitrogen, oxygen carbon dioxide, helium, air, and/or different possible combination(s) thereof, and/or other(s), etc. Such gas bubbles injected into the consumable beverage via the Venturi injector are preferably gas bubbles selected from the group consisting of small gas bubbles and micro gas bubbles.

[0085] According to a possible embodiment, the gas intake of the Venturi injector is an intake of air, for selectively sucking in ambient air (ex. approximately 78% nitrogen, approximately 22% oxygen, and approximately 0.1% of CO.sub.2) and for injecting corresponding air bubbles into the consumable beverage to be dispensed by the tap. The gas intake of the Venturi injector can be provided with a corresponding filter (ex. a surgical-grade air filter, a medical-grade air filter, etc.). Optionally also, the Venturi injector is provided with a corresponding regulator for selectively and adjustably regulating an injection rate (ex. amount, percentage, etc.) of gas bubbles being injected into the consumable beverage by the Venturi injector. It is worth mentioning that the Venturi injector according to the present system could be replaced by another suitable type of injector, depending on the particular intentions for which the beverage dispenser is intended for, and the desired end results, as can be easily understood by a person skilled in the art.

[0086] As can also be easily understood from the accompany drawings, the tap of the beverage dispenser can be configured to create an initial vacuum effect (ex. suction effect, etc.) upon an activation of the tap. According to a possible embodiment, the beverage dispenser is configured so that the initial vacuum effect triggered by the activation of the tap is detected by a built-in sensor of the electric pump of the beverage dispenser, and in turn triggers an activation of said electric pump, for drawing liquid from the source container and in turn pumping liquid and corresponding consumable beverage through the processing line, from the source container to the resulting tap, via the Venturi injector, until the tap is eventually closed again (i.e. until the fluid path is “full” again, etc.). Various types of taps can be used for and/or with the present beverage dispenser, such as a pull-down tap, for example. The tap of the beverage dispenser may include a restriction flow plate (ex. an aerator, etc.), for example, and the restriction flow plate is preferably made of a non-corrosive material (ex. Teflon™, etc.). The restriction flow plate of the tap includes a plurality of holes (ex. circular holes, and/or other types of holes, and/or different types of combination(s) thereof, etc.), and according to a particular embodiment, the restriction flow plate of the tap includes between about 8 and about 13 holes (approximately), in which the holes of the restriction flow plate may be of different sizes. For example, the holes of the restriction flow plate may have a diameter ranging between about 0.0156 inches (approximately) and about 0.0180 inches (approximately).

[0087] As can also be easily understood from the accompany drawings, the beverage dispenser can be a counter-top beverage dispenser, and according to a possible embodiment, beverage dispenser may include a “hot” tap for dispensing a hot consumable beverage, and a “cold” tap for dispensing a cold consumable beverage. The beverage dispenser may include an instant heater operatively connectable to the fluid path of the processing line, between the Venturi injector and the tap of the beverage dispenser (or alternatively, upstream of the Venturi injector), for selectively and instantly heating the consumable beverage to be dispensed upon an activation of the hot tap, prior to exiting therefrom.

[0088] As can also be easily understood from the accompany drawings, the beverage dispenser may also include a by-pass assembly and corresponding by-pass line(s) for allowing liquid pumped through the processing line to by-pass the thermal-block when the hot tap is activated, and according to a possible embodiment, the hot and cold taps are each provided with a different processing line and corresponding Venturi device.

[0089] According to a particular embodiment, the consumable beverage to be dispensed by the beverage dispenser is a nitro-beverage (ex. nitro-coffee, nitro-tea, nitro-alcohol (ex. gin, vodka, etc.), nitro-cocktail, and/or different possible combination(s) thereof such as nitro-espresso-martini, for example, and/or other(s), etc.), and wherein the beverage dispenser is capable of dispensing different types of such nitro-beverages. Optionally, the consumable beverage to be dispensed by the beverage dispenser is nitro-coffee, and the beverage dispenser is capable of dispensing different types of such nitro-coffees. In the latter case, and according to another possible embodiment of the present system, the consumable beverage can be commercialized under the trademark name selected from the group consisting of Nitrado™ (i.e. the equivalent of a “cortado”), Nitrogato™ (i.e. the equivalent of a “macchiato”), Nitrocano™ (i.e. the equivalent of an “americana”), Nitroccino™ (i.e. the equivalent of a “cappuccino”), and Nitrospresso™ (i.e. the equivalent of an “espresso”) (all of these trademark expressions having been developed by the inventor(s) and/or Applicant(s) of the present case, and are therefore the sole property thereof).

[0090] According to another aspect of the present system, components of the beverage dispenser can be modular and/or interchangeable according to specific needs of users of the beverage dispenser, and a kit with corresponding components for assembling a beverage dispenser according to any one of the preceding combination(s) may also be provided. Also intended by the present disclosure is a consumable beverage having been dispensed with a beverage dispenser according to any one of the preceding combination(s).

[0091] According to another aspect of the present system, there is also provided a method of dispensing a consumable beverage, the method comprising the steps of: [0092] a) extracting a liquid from a source of liquid, the liquid being at least one constituent of the resulting consumable beverage; [0093] b) conveying the liquid along a processing line for processing the liquid into the consumable beverage to be dispensed, the processing line being provided with at least one Venturi injector along a fluid segment of a fluid path of the processing line, for selectively and adjustably injecting gas bubbles into the consumable beverage in order to alter at least one resulting parameter (ex. texture, look, taste, flavour, temperature, colour, aspect, and/or other, etc.) of the consumable beverage to be dispensed; and [0094] c) dispensing the consumable beverage via a tap being fluidly connectable to an output end of the fluid path of the processing line.

[0095] Step a) may includes the step of altering a given parameter (ex. temperature, etc.) of the source of liquid prior to conveying liquid into the processing line. Step b) may include the step of conveying liquid through the processing line via a corresponding pump (ex. an electric pump, etc.). Step b) may also include the step of adjusting injection (i.e. operating, etc.) parameters of the at least one Venturi injector for selectively and adjustably altering the at least one resulting parameter (ex. texture, look, taste, flavour, temperature, colour, aspect, and/or other, etc.) of the resulting consumable beverage to be dispensed. Step b) may also include the step of altering the temperature (ex. cooling, heating, etc.) of the liquid conveyed through the processing via at least one corresponding temperature-altering assembly. Step c) may include the step of dispensing the consumable beverage via a corresponding restriction plate of the tap.

[0096] Other possible aspect(s), object(s), embodiment(s), variant(s), and/or resulting advantage(s) of the present beverage dispenser (1), all being preferred and/or optional, are briefly explained hereinbelow, and can be easily understood and/or inferred from the accompanying drawings, as well.

[0097] For example, according to one possible embodiment, the present beverage dispenser has the following functions: [0098] a) instantly cools; [0099] b) infuses a gas (ex. atmospheric nitrogen) inside the beverage line; and [0100] c) requires minimal space compared to other systems.

[0101] According to a possible embodiment, a primary purpose is to chill and nitrogenate cold brew coffee to make it look and feel like a Guinness™. The nitrogen adds a velvety and creamy feel. It enhances the taste of the cold brew coffee. It is advantageous for the instant cooler to make it cold for taste and experience, and to retain as much atmospheric nitrogen in the drink before it dissipates.

[0102] The benefit of such a machine is that you can not only use cold brew coffee in a reservoir that is chilled, but to use a “bag-in-box” coffee (similarly to what is possible with wine) which can be at room temperature and has a long shelf life. The present machine and system will chill it, etc.

[0103] This is not possible with conventional technology that relies on a standard beer kegerator, for example. Indeed, this type of system requires plenty of space, and requires nitrogen tanks to pressurize a keg. Therefore, this type of conventional system only works with kegs.

[0104] On the other hand, the present case machine does not require space, does not require kegs, does not require external nitrogen tanks, and the product does not have to be refrigerated, which is very advantageous, for different reasons.

[0105] Indeed, a unique and innovative aspect of the present system is the infusion mechanism of atmospheric nitrogen into the beverage line without using nitrogen tanks.

[0106] As may now be better appreciated, the present beverage dispenser (1) is a considerable improvement over conventional systems in that it overcomes the many drawbacks and inconveniences associated with “kegerators” and to “counter-tops”. Indeed, contrary to “kegerators”, the present beverage dispenser (1) does not rely on kegs(s), pressurized nitrogen tank(s), and/or big and bulky fringe(s), etc. Also, contrary to “counter-tops”, the present beverage dispenser (1) does not rely on air compressor(s), pressure switch(es), and/or gas-operated pump(s), etc.

[0107] Instead, the present beverage dispenser (1) is advantageous in that it offers an innovative design with minimal components that can be modular and/or interchangeable depending on the applications(s) for which the beverage dispenser (1) is intended for, and the desired end result(s), and the present beverage dispenser (1) is also advantageous in that it enables to provide a great variety of different types of beverages with a same beverage dispenser (1), in a simple, compact, convenient and cost-effective manner.

[0108] As may now also be better appreciated, the present beverage dispenser (1) is also advantageous over other conventional devices in that it enables to have a dispensing of consumable beverage which is “inline” and “on demand”. Namely, the infusion of gas into the consumable beverage according to the present system happens “in the moment”, without any addition equipment. Thus, a considerable advantage and resulting value of the Venturi/machine combination according to the present system is that it infuses “inline” and “on demand”. Indeed, another considerable advantage and resulting value of the Venturi/machine combination according to the present system is that a user need not use a pressurized gas and can only use ambient gas, which is “inline”, “on demand”, and also, “unlimited” (due to the virtually unlimited amount of ambient gas and/or air available). Thus, another considerable advantage and resulting value of the present beverage dispenser (1) to a customer and/or user is “speed” and “low cost” (i.e. no external mixing vessels are needed, etc.).

[0109] In terms of other possible embodiments and/or uses, it is worth mentioning that another important advantage of the present beverage dispenser (1) is that it can be used to infuse CO.sub.2 (ex. a CO.sub.2 tank required) into water—inline and on demand. Thus, a possible end product that could be produced and/or dispensed with the present system is “sparkling/carbonated” water, for example. This means no need for a carbonator which tend to be large, expensive, cumbersome. Yet another important advantage of the present beverage dispenser (1) is that it can be used to heat a beverage and infuse a gas prior to dispensing. Specifically, if coffee is infused with ambient nitrogen, it will then have the aesthetics and characteristics of an “espresso”. This also saves considerable time and costs when making an espresso equivalent, which is also very desirable, for obvious reasons.

[0110] Furthermore, it is worth mentioning also the present beverage dispenser (1) is also advantageous over other conventional devices, such as existing countertops, for example, in that the Venturi injector is preferably designed and to infuse the smallest micro bubbles of gas. In contrast, conventional air compressors push large blocks of air that need to be crushed in an aerator, but will not get the same quality. Thus, the use of a Venturi injector according to the present system enables to gently “pull” gas into the consumable beverage, whereas an air compressor is generally used for forcefully “pushing” gas into the consumable beverage. It is also worth mentioning that the present beverage dispenser (1) is advantageous in that liquid aluminium is preferably used, which is superior to powder aluminium in cooling performance, in that, a colder temperature is necessary for longer lasting infusion.

[0111] The present beverage dispenser (1) and corresponding parts are preferably made of substantially rigid materials, such as metallic materials, hardened polymers, composite materials, polymeric materials, and/or the like, so as to ensure a proper operation thereof depending on the particular applications for which the beverage dispenser (1) is intended and the different parameters (pressures, temperatures, etc.) in cause, as apparent to a person skilled in the art.

[0112] Of course, and as can be easily understood by a person skilled in the art, the scope of the claims should not be limited by the possible embodiments set forth in the examples, but should be given the broadest interpretation consistent with the description as a whole.

[0113] Furthermore, although preferred embodiments of the present invention have been briefly described herein and illustrated in the accompanying drawings, it is to be understood that the invention is not limited to these embodiments and that various changes and modifications could be made without departing form the scope and spirit of the present invention, as defined in the appended claims and as apparent to a person skilled in the art.