Patent Grant
11993504
In general, the present invention relates to a beverage dispensing apparatus and method.
Both alcoholic and non-alcoholic seltzers have gained in popularity throughout the past several years. Seltzers containing a variety of different flavors and ingredients are available to consumers to purchase from stores and in bar and restaurant establishments. A more interactive and customizable method of creating and dispensing such beverages may be desirable.
In accordance with an embodiment of the present invention, a beverage dispensing unit is provided including: a dispensing valve configured to be fluidly coupled to at least one beverage source, one or more ingredient pumps configured to be fluidly coupled to one or more ingredient sources, wherein each of the one or more ingredient pumps is configured to pump a corresponding ingredient from a corresponding ingredient source, a dispensing manifold fluidly coupled to the dispensing valve and the one or more ingredient pumps, and a controller. The controller is configured to receive a recipe from a user, wherein the recipe indicates an amount of each ingredient of the one or more ingredient sources, operate the one or more ingredient pumps to inject one or more of the ingredients into the dispensing manifold according to the recipe, and open the dispensing valve to allow a volume of beverage from the beverage source to flow through the dispensing manifold, wherein the volume of beverage mixes with the one or more ingredients in the manifold and flushes the ingredients out of the manifold.
According to aspects of the disclosure, a beverage dispensing system includes one or more ingredient pumps configured to be fluidly coupled to one or more ingredient sources. Each of the one or more ingredient pumps is configured to pump a corresponding ingredient from a corresponding ingredient source. The beverage dispensing system further includes a dispensing manifold fluidly coupled to the one or more ingredient pumps and a controller configured to receive a recipe from a user, the recipe indicating an amount of each ingredient of the one or more ingredient sources, and operate the one or more ingredient pumps to inject one or more of the ingredients into the dispensing manifold according to the recipe.
According to one embodiment of the beverage dispensing system, the dispensing manifold comprises a first end configured to be coupled with a shank and a second end configured to be coupled with a faucet.
According to one embodiment of the beverage dispensing system, the dispensing manifold is configured to be retrofitted to an existing beverage tap that includes the shank and the faucet.
According to one embodiment of the beverage dispensing system, the beverage dispensing system includes a dispensing valve configured to be fluidly coupled to at least one beverage source and the dispensing manifold.
According to one embodiment of the beverage dispensing system, the controller is further configured to open the dispensing valve to allow a volume of beverage from the beverage source to flow through the dispensing manifold, wherein the volume of beverage mixes with the one or more ingredients in the manifold and flushes the ingredients out of the dispensing manifold.
According to one embodiment of the beverage dispensing system, the dispensing manifold includes a beverage input, a beverage output, and one or more ingredient valves coupled to one or more ingredient inputs, wherein the one or more ingredient valves are configured to selectively allow each ingredient of the one or more ingredient inputs to enter an interior of the dispensing manifold upon operation of the corresponding ingredient pump.
According to one embodiment of the beverage dispensing system, the one or more ingredient valves are umbrella valves.
According to one embodiment of the beverage dispensing system, the ingredient pumps are peristaltic pumps.
According to one embodiment of the beverage dispensing system, the beverage dispensing system further includes an output compensator that is fluidly coupled to the dispensing manifold, wherein the output compensator is configured to restrict flow of a beverage based on a pressure of the beverage at the output compensator.
According to one embodiment of the beverage dispensing system, the beverage dispensing system further includes a shell configured to house the ingredient pumps, wherein the shell further includes one or more slots configured to removeably receive and support one or more cartridges containing the ingredients, wherein the one or more cartridges are the ingredient sources that correspond to the one or more ingredient pumps.
According to one embodiment of the beverage dispensing system, the one or more slots are arranged in-line such that the one or more cartridges are arranged parallel to one another within the shell.
According to one embodiment of the beverage dispensing system, the one or more ingredient pumps, the dispensing manifold, and the controller are all contained within a housing.
According to one embodiment of the beverage dispensing system, the beverage dispensing system further includes a refill port and the controller is further configured to, based on receiving a refill command, operate the one or more ingredient pumps in reverse to pump an ingredient from the refill port to one or more of the ingredient sources.
According to aspects of the disclosure, a method of dispensing a beverage includes receiving a recipe from a user, wherein the recipe indicates an amount of each ingredient from one or more ingredient sources; operating the one or more ingredient pumps to inject one or more of the ingredients into a dispensing manifold according to the recipe; opening a dispensing valve to allow a volume of beverage from a beverage source to flow through the dispensing valve and into the dispensing manifold, allowing the volume of beverage to mix with the ingredients in the dispensing manifold; and closing the dispensing valve based on a period of time or a detected volume of beverage.
According to one embodiment of the method, the method further includes verifying the recipe after receiving the recipe from the user by comparing an amount of one or more of the ingredients to a predetermined value or a predetermined range.
According to one embodiment of the method, the method further includes analyzing the recipe after receiving the recipe from the user, to calculate a price associated with the recipe, and charging the calculated price to an account associated with the user or requesting payment from the user prior to operating the one or more ingredient pumps.
According to one embodiment of the method, the recipe is received from an electronic device associated with the user, or by a user interface.
According to one embodiment of the method, at least one of the ingredients contains alcohol, and the method further includes selecting an amount of one or more of the ingredients based on a ratio of the one or more ingredients to the volume of beverage.
According to one embodiment of the method, at least one of the ingredients contains a cannabinoid, and the method further includes selecting a fixed amount of the at least one ingredient containing the cannabinoid, regardless of the volume of beverage.
According to aspects of the disclosure, a beverage dispensing system includes a housing, a dispensing valve configured to be fluidly coupled to at least one beverage source, one or more ingredient pumps configured to be fluidly coupled to one or more ingredient sources, wherein each of the one or more ingredient pumps is mounted within the housing, and is configured to pump a corresponding ingredient from a corresponding ingredient source, a dispensing manifold fluidly coupled to the one or more ingredient pumps, an output compensator fluidly coupled to the dispensing manifold, a dispensing nozzle, and a controller. The controller is configured to receive a recipe from a user, wherein the recipe indicates an amount of each ingredient of the one or more ingredient sources; operate the one or more ingredient pumps to inject one or more of the ingredients into the dispensing manifold according to the recipe; and open the dispensing valve to allow a volume of beverage from the beverage source to flow through the dispensing manifold, wherein the volume of beverage mixes with the one or more ingredients in the manifold and flushes the ingredients out of the dispensing manifold, through the output compensator, and out of the dispensing nozzle.
These and other objects of this invention will be evident when viewed in light of the drawings, detailed description and appended claims.
The invention may take physical form in certain parts and arrangements of parts, a preferred embodiment of which will be described in detail in the specification and illustrated in the accompanying drawings which form a part hereof, and wherein:
Embodiments of the invention relate to a beverage dispensing unit. An embodiment of the beverage dispensing unit includes one or more ingredient pumps configured to be fluidly coupled to one or more ingredient sources. The beverage dispensing unit can also be fluidly coupled with a beverage source such as a pressurized container that can contain a beverage such as a seltzer, beer, water, liquor, among others. A user can interact with the beverage dispensing unit to input via a user interface, or upload via a user device, a recipe for a beverage. For example, the recipe can include an amount of one or more of the ingredients within the ingredient sources. The beverage dispensing unit can further include a controller that is configured to operate the one or more ingredient pumps to inject one or more of the ingredients into a dispensing manifold according to the recipe. The controller can be further configured to open a dispensing valve to allow a volume of beverage from the beverage source to flow through the dispensing manifold. The volume of beverage mixes with the one or more ingredients in the dispensing manifold and flushes the ingredients out of the manifold. A first portion of the volume that is mixed with the ingredients flows through an output compensator, and out of the dispensing nozzle. A second portion of the volume remains behind the output compensator in preparation for a subsequent dispensing operation.
The best mode for carrying out the invention will now be described for the purposes of illustrating the best mode known to the applicant at the time of the filing of this patent application. The examples and figures are illustrative only and not meant to limit the invention, which is measured by the scope and spirit of the claims.
Referring now to the drawings, wherein the drawings are for the purpose of illustrating an exemplary embodiment of the beverage dispensing system only and not for the purpose of limiting same,
The controller 202 can be implemented with a general purpose processor, a digital signal processor (DSP), an application specific integrated circuit (ASIC), a field programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, or any combination thereof designed to perform the functions described herein. The controller 202 may be a microprocessor, but in the alternative, the controller 202 may be any processor, controller, microcontroller, or state machine. The controller 202 may also be implemented as a combination of computing devices, for example a combination of a DSP and a microprocessor, a plurality of microprocessors, multi-core processors, one or more microprocessors in conjunction with a DSP core, or any other such configuration.
The beverage dispensing system 100 can further include a memory 206. The memory 206 can include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules, or other data. The memory 116 may include, but is not limited to memory devices (e.g., random access memory (RAM), read-only memory (ROM), electrically erasable programmable read-only memory (EEPROM)), magnetic storage devices (e.g., hard disk, floppy disk, cassettes, tape), optical disks (e.g., compact disk (CD), digital versatile disk (DVD)), and solid state devices (e.g., solid state drive (SSD), flash memory drive (e.g., card, stick, key drive)), or any other medium which can be used to store the desired information and which can be accessed by the controller 202.
The beverage dispensing system 100 can further include a communication interface 204. The communication interface 204 can enable electronic communications between the beverage dispensing unit 200 and another device such as a user device 102 or one or more servers 104 accessible via the internet. It is to be appreciated that the communication interface 204 can be a wired or wireless interface including, but not limited to, a LAN cable interface, an Ethernet cable interface, a USB interface, a serial interface, a WiFi interface, a short-range RF interface (e.g. Bluetooth), an infrared interface, a near-field communication (NFC) interface, etc.
The beverage dispensing unit 200 can also include a frame 222 to provide structural support. The housing 208, which can include one or more separate panels, can be mounted to the frame 222. In one embodiment, the housing 208 includes a first side panel 224, a second side panel 226, a rear panel 228, a top panel 230, a bottom panel 232, a user interface panel 234, and a front panel 236. In one embodiment, the ingredient pumps 218 are mounted to an inside surface of the rear panel 228. The beverage dispensing unit 200 can further include one or more vibration dampeners 238 mounted to the bottom panel 232. The vibration dampeners 238 can be adjustable feet used to support the beverage dispensing unit 200 and provide leveling capabilities.
Turning now to
The beverage dispensing system 100 can also include one or more ingredient sources 406. The one or more ingredient sources 406 can be, for example, containers full of ingredients such as flavorings (e.g. cherry, lime, grapefruit, pineapple, etc.), liquor (e.g. gin, vodka, rum, whiskey, tequila, etc.), a cannabinoid (e.g. CBD, THC, CBG, CBN, CBC, THC-V, THC-A, Delta-8, Delta-9, Delta-10, etc.), beer, nootropics, adaptigens, nutrients, electrolytes, vitamin blends, among others. The ingredients can be in a liquid form. The ingredient pumps 218 can be configured to be fluidly coupled to the one or more ingredient sources 406. It should be appreciated that the ingredient pumps can include anywhere from 1 to N individual ingredient pumps, where N is a positive integer. Each individual ingredient pump 218 is fluidly coupled to a corresponding ingredient source 406. Each of the ingredient pumps 218 can be configured to pump a corresponding ingredient from the corresponding ingredient source 406 into the dispensing manifold 220. The ingredient pumps 218 can be fluidly coupled to the ingredient sources 406 and the dispensing manifold 220 by way of tubing and/or piping. In one embodiment, the ingredient pumps 218 are fluidly coupled to the ingredient sources 406 and the dispensing manifold 220 using 1/16 inch inner diameter (ID) tubing. In another embodiment, the ingredient pumps 218 are fluidly coupled to the ingredient sources 406 and the dispensing manifold 220 using ⅛ inch inner diameter (ID) tubing.
The dispensing manifold 220 is fluidly coupled to the dispensing valve 240 and the plurality of ingredient pumps 220 by way of tubing and/or piping. Downstream of the dispensing manifold 220 is the output compensator 212, which is fluidly coupled to the dispensing manifold 220 via tubing and/or piping. The output compensator 212 is a device that can restrict flow of the beverage through the beverage dispensing unit 200 depending on the pressure of the beverage backed up against the output compensator 212. In one embodiment, the output compensator 212 is a spring-loaded valve that provides back pressure until a pre-set pressure is overcome. In one embodiment, the output compensator 212 is a pressure compensator configured to stop flow if the pressure on the output compensator 212 is below a pre-set maximum pressure (e.g. a “firing” pressure). For example, when the pressure of the beverage exerted on the output compensator 212 is below a pressure threshold, the output compensator 212 completely restricts the flow of the beverage through the beverage dispensing unit 200. However, when the pressure of the beverage exerted on the output compensator 212 is above the pressure threshold (e.g. the pressure exerted by the beverage during a dispensing cycle), the beverage flows through the output compensator 212 and out of the dispensing nozzle 214. In certain embodiments, even when the beverage flows through the output compensator 212, the output compensator 212 can limit the flow of the beverage.
In certain embodiments, dispensing nozzle 214 is a faucet with a tap handle, which together are referred to herein as a tap (e.g. see faucet 914 and tap handle 915 in
The beverage dispensing system 100 can further include a glycol chiller 408. The glycol chiller 408 can be configured to chill and/or refrigerate one or more of the ingredient sources 406, the beverage source 400, and/or any of the tubing or piping used to fluidly couple any of the components within the beverage dispensing system 100. It should be appreciated that any of the pressurized gas source 404, the beverage source 400, the coupler 402, the ingredient sources 406, and/or the glycol chiller 408 can be located either inside of the beverage dispensing unit 200 or outside of the beverage dispensing unit 200. In one embodiment, the beverage source 400, the coupler 402, the pressurized gas source 404, and the ingredient sources 406 are located beneath a bar in a bar or restaurant setting while they are coupled to the beverage dispensing unit 200, which can be positioned nearby (e.g. on top of a bar or a table). In these embodiments, the corresponding connections between the beverage source 400 and the one or more ingredient sources 406 to the beverage dispensing unit 200 can be made using fittings located on the housing 208, where the type and location of fittings can be chosen using sound engineering judgment.
It should be appreciated that while the various components of the dispensing system 100 are depicted to be located within a dispensing unit 200, the dispensing system 100 can operate with the various components in other locations. For example, certain embodiments involve the dispensing manifold 220 attached and/or retrofitted to an existing beverage tap. In such embodiments, the ingredient sources 406 and the ingredient pumps 218 can be located in an enclosure (e.g. located beneath a bar) with the various tubing routed, for example, through a beer tower to the dispensing manifold 220 coupled to a tap.
The controller 202 can be configured to receive a recipe from a user. The controller 202 can receive the recipe via the user interface 210, or through wired or wireless communications with a user device 102. The recipe can be a set of instructions that indicate an amount of each ingredient such that the user can customize a beverage using individual controls of a quantity, amount, volume, or concentration of each ingredient. For example, a recipe can indicate a percentage, a volume, or a concentration of one or more of the ingredients. The recipe can also include a desired volume of beverage. In one embodiment, a user can create the recipe using the user interface 218. In this embodiment, the user can individually input a volume, an amount, or a percentage of ingredient, or use visual sliders to select an amount of one or more of the ingredients in the ingredient sources 406. In another embodiment, a user can create a recipe using the user device 102. In this embodiment, the user can similarly individually input a volume, an amount, or a percentage of one or more ingredients, or use visual sliders or knobs to select an amount of one or more of the ingredients in the ingredient sources 406. After creating the recipe on the user device 102, the user can save the recipe on the user device 102 and/or communicate the recipe to the beverage dispensing unit 200 via the communication interface 204.
In certain embodiments, after the controller 202 receives a recipe from the user, the controller 202 can perform a verification of the recipe. The verification can include comparing the ingredient amounts selected in the recipe to predetermined values or predetermined ranges. The controller 202 can either accept the recipe if the ingredient values specified in the recipe fall within the predetermined values or predetermined ranges, or reject the recipe if the ingredient values specified in the recipe fall outside of the predetermined values or predetermined ranges. In one embodiment, the controller 202 can analyze the recipe to determine a predicted alcohol-by-volume (ABV) or cannabinoid percentage of a beverage resulting from the recipe. If the predicted ABV or cannabinoid percentage falls below the predetermined limit, the controller 202 can accept the recipe and allow the user to proceed with dispensing the beverage. If the predicted ABV or cannabinoid percentage exceeds a predetermined limit, the controller 202 can reject the recipe. In another embodiment, a value of one or more ingredients is compared to a predetermined limit. If the value of the one or more ingredient (e.g. volume, concentration, etc.) falls within a predetermined range of values, the controller 202 can accept the recipe and allow the user to proceed with dispensing the beverage. If the value of the one or more ingredients falls outside of the predetermined range of values, the controller 202 can reject the recipe. In this manner, the controller 202 can be configured to reject a recipe based on a set of rules in order to prevent the resulting beverage from, for example, breaking a law or posing a health hazard to a user.
Further, the controller 202 can be configured to calculate a price for a recipe. In one embodiment, the controller 202 can access price information for each ingredient, where the price information can be stored in the memory 206 or in an external storage such as a server 104. The controller 202 can analyze a recipe and determine, based on the price information for each ingredient and the amount of the ingredient specified by the recipe, a price of the resulting beverage. The dispensing unit 200 can then display the price of the resulting beverage to a user and also provide a payment method or payment portal to the user via the user interface 210 or the user device 102. When the user provides payment for the price of the resulting beverage via the user device 102, the user interface 210, or a payment device on the beverage dispensing unit 200 (e.g. bill changer, bill accepter, or credit card reader), the controller 202 can then commence a dispensing cycle of the dispensing unit 200. In certain embodiments, the price can be calculated remotely on the one or more servers 104 and communicated to the user device 102 and/or the dispensing unit 200 for display to the user, where the user can submit payment via the user device 102, the user interface 210, or a payment device on the beverage dispensing unit 200.
The controller 202 can then begin a dispensing cycle by operating the ingredient pumps 218 to individually and independently inject one or more ingredients into the dispensing manifold 220 at amounts, volumes, or concentrations defined by the recipe. In one embodiment, the ingredient pumps 218 are peristaltic pumps controlled by pulses sent from the controller 202. For example, the controller 202 can be configured to send a series of pulses to the ingredient pumps 218 in order to cause rotation of rollers within the ingredient pumps 218, and therefore causing the corresponding ingredient to flow from the ingredient source 406 to the dispensing manifold 220. In one embodiment, the controller 202 can be configured to communicate 534 pulses to an ingredient pump 218 in order to achieve a ⅓ revolution of the ingredient pump 218.
The controller 202 can then send a command or signal to open the dispensing valve 240 to allow a volume of beverage from the beverage source 400 to flow through the dispensing valve 240 and into the dispensing manifold 220. Within the dispensing manifold 220, the volume of beverage mixes with the one or more ingredients that have been pumped by the ingredient pumps 218 from the ingredient sources 406. The volume of beverage flushes the ingredients out of the dispensing manifold 220. After flowing through the dispensing manifold 220, the volume of beverage flows through the output compensator 212 and the output nozzle 214.
The beverage dispensing unit 200 can be configured to operate a dispense cycle such that the dispensed volume (e.g. the volume of beverage that actually exits the beverage dispensing unit 200 through the output compensator 212) is a predefined volume. In one embodiment, the controller 202 is configured to open the dispensing valve 240 for a duration that achieves a 4 ounce dispensed volume. The controller 202 may also take into account the volume of ingredients injected into the dispensing manifold 220 in determining how long to open the dispensing valve 240 to achieve the desired dispensed volume. In certain embodiments, the predefined volume that the controller 202 targets for the dispensed volume is selected as a volume that is sufficient to flush out all ingredients from the dispensing manifold 220 to prevent any ingredients being left behind and contaminating subsequent beverages from subsequent dispense cycles.
After the volume of beverage has flowed through the dispensing manifold 220 and washed away all, or significantly all of the ingredients injected into the dispensing manifold 220, and the desired dispensed volume has been achieved, the controller 202 can be further configured to close the dispensing valve 240 to stop flow of the volume of beverage from the beverage source 400 and complete the dispensing cycle. After the dispensing valve 240 is closed, the pressure of the volume of beverage against the output compensator 212 falls below the pressure threshold of the output compensator 212 and a portion of the volume of beverage remains between the output compensator 212 and the dispensing valve 240. This portion of the volume of beverage remaining between the output compensator 212 and the dispensing valve 240 is referred to herein as a holdup volume. The holdup volume includes a portion of the volume of beverage that is completely or substantially free of any additional ingredients from the ingredient sources 406. The holdup volume remains between the output compensator 212 and the dispensing valve 240 until a subsequent dispensing cycle is performed. When a subsequent dispensing cycle is initiated, the ingredients are injected into the dispensing manifold 220 by the ingredient pumps 218, where the ingredients can mix with the holdup volume prior to being washed out by the subsequent volume of beverage of the next dispensing cycle. For any dispensing cycle, the volume of beverage that enters the beverage dispensing unit 200 is equal to the dispensed volume plus the holdup volume.
In certain embodiments, dispensing manifold 220 can include a drain 508 (as shown in
In certain embodiments, the beverage dispensing unit 200 can further include a flow sensor located between the beverage source 400 and the dispensing nozzle 214. The flow sensor can communicate information to the controller 202 regarding the flow of the volume of beverage. The controller 202 can use the flow sensor information to estimate and/or determine a volume of beverage being dispensed. Still further, the beverage dispensing unit 200 can also include a temperature sensor operatively coupled between the beverage source 400 and the dispensing nozzle 214. The temperature sensor can communicate temperature information of the beverage to the controller 202 and/or the glycol chiller 408. The glycol chiller 408 can adjust a temperature of the beverage in response to the temperature information.
The dispensing manifold 220 also includes a beverage input 504 that allows the volume of beverage to flow into the dispensing manifold 220 to mix with the ingredients therein. The dispensing manifold 220 also includes a beverage output 506 that allows the volume of beverage to flow out of the dispensing manifold 220 towards the output compensator 212.
The drain 508 can be configured to drain a contents of the dispensing manifold 220. For example, the drain 508 can be configured to drain the holdup volume and/or any ingredients within the dispensing manifold 220. In one example, after a first dispensing cycle based on a first recipe, a second recipe may be selected by a user. The drain 508 can be configured to open to allow any holdup volume and/or remaining ingredients within the dispensing manifold 220 to drain out of the dispensing manifold to prevent contamination of ingredients from one recipe to the next. The drain 508 can be controlled by the controller 202. In certain embodiments, the drain 508 can be configured to open after every dispensing cycle. In other embodiments, the drain 508 can be configured to open based upon a detected possibility of ingredient contamination from a previous recipe (e.g. an ingredient from a previous recipe is not present in the subsequent recipe). The drain 508 can be connected via a drain tube to sink or any other drain.
Dispensing manifold 520 can be incorporated into a beverage dispensing unit 200 that can be positioned on a table, bar, or floor. Alternatively, dispensing manifold 520 can comprise a first end 524 configured to be coupled with a shank 527 and a second end 526 configured to be coupled with a faucet 530. The faucet 530 can further include a tap handle 532. It should be appreciated that the first end 524 and the second end 526 can include any type of connection apparatus necessary to couple each end to the shank 527 or the faucet 530. For example, the first end 524 and the second end 526 can be any of a threaded connection, a connection with a coupling nut, a press and fit connection, a twist and lock connection, among others. In certain embodiments, the dispensing manifold 520 can be configured to be retrofitted to an existing beverage tap that includes the shank 527 and the faucet 530. In embodiments where the dispensing manifold 520 is retrofitted onto an existing shank 527 and/or faucet 530, the other components of the beverage dispensing system 100 or the beverage dispensing unit 200 can be located in a nearby location such as beneath a bar, on a floor, or on a nearby table. For example, the ingredient pumps 218, ingredient sources 406, dispensing valve 240, and/or the controller 202 can be located in an enclosure or shell located proximate to the existing shank 527 and/or faucet 530. Each ingredient source 406 can include an ingredient input 500 such as a tube that fluidly connects the ingredient source 406 to each ingredient valve 522 on the dispensing manifold 520.
As depicted in
Turning now to
Turning now to
By using the companion application, which can be executed using the user device 102, a user can interact with beverage dispensing units 200 using wired or wireless communications. For example, the user can use the companion application on the user device 102 to create a recipe, electronically pay for a beverage (e.g. by entering credit card or other payment account information), and/or instruct the beverage dispensing unit 200 to create a beverage based on a recipe. The companion application on the user device 102 can also allow a user to view the locations and statuses of beverage dispensing units 200, including an inventory of ingredients available at each beverage dispensing unit 200. A user can also create recipes, save recipes, rate recipes, and share recipes with other users of the companion application.
An administrator of a beverage dispensing system 100 can communicate with the beverage dispensing system 100 remotely over a network. In this manner, an administrator can view ingredient inventory in beverage dispensing units 200, view diagnostic information pertaining to the beverage dispensing unit 200, and/or receive notifications or alerts pertaining to the operation or maintenance of the beverage dispensing unit 200.
Turning now to
In an embodiment, at least one of the ingredients can contain alcohol. In this embodiment, the controller 202 can select an amount of the at least one ingredient containing alcohol based on a ratio of the at least one ingredient to the volume of the beverage. For example, the amount of the alcoholic ingredient can be selected based upon an alcohol by volume calculation or set point. The amount of an alcoholic ingredient dispensed as part of any given recipe can be tracked and viewable remotely over the internet by, for example, an administrator, a third party, a governmental agency, or a regulatory agency.
In another embodiment, at least one of the ingredients can contain a cannabinoid. In this embodiment, the controller 202 can select a fixed amount of the at least one ingredient containing the cannabinoid, regardless of the volume of the beverage. The amount of cannabinoid dispensed as part of any given recipe can be tracked and viewable remotely over the internet by, for example, an administrator, a third party, a governmental agency, or a regulatory agency.
At reference numeral 704, the controller 202 operates one or more ingredient pumps 218 to inject one or more ingredients into the dispensing manifold 220 according to the recipe. It should be appreciated that each of the ingredient pumps 218 can operate simultaneously or sequentially. The ingredient pumps 218 inject each of the corresponding ingredients into the dispensing manifold 220 at a volume that corresponds to the amount indicated for the particular ingredient in the recipe. It should also be appreciated that the dispensing manifold 220 can be built-in to a beverage dispensing unit 200 such as a unit that can sit on a bar or tabletop, or the dispensing manifold 220 can be coupled to an existing tap including a shank 527 and faucet 530 (e.g. retrofitted onto an existing tap). At reference numeral 706, the controller 202 opens the dispensing valve 240 to allow a predetermined volume of beverage to flow from the beverage source 400 through the dispensing manifold 220 to mix with and flush the ingredients from the dispensing manifold 220. The predetermined volume of beverage can be pre-programmed into the controller 220, communicated to the controller 202 by an administrator, or it can be chosen based on the recipe. In certain embodiments that incorporate a tap and/or faucet (e.g. tap handle 532 and faucet 530), a user must also pull the tap handle or otherwise operate the faucet in order to allow the predetermined volume of beverage to flow through the dispensing manifold 220 and out of the faucet. In certain embodiments, a volume of beverage will continue to flow until the user closes the faucet (e.g. by operating the tap handle). In other embodiments, the controller 202 can close the dispensing valve 240 when the predetermined volume of beverage has been dispensed, and the beverage will therefore stop flowing/dispensing even if the faucet is still opened.
Turning now to
Turning now to
Beverage dispensing unit 900 can further include a tap that includes a faucet 914 and a tap handle 915, and a drip tray 916 configured to support a vessel that is receiving a beverage dispensed from the faucet 914. The beverage dispensing unit 900 can further include vibration dampeners 938 that are adjustable feet that can be used to level the beverage dispensing unit 900 and are also configured to dampen vibrations created by the beverage dispensing unit 900. Beverage dispensing unit 900 can further include one or more handles to allow a user to easily pick up the beverage dispensing unit 900. The beverage dispensing unit 900 can also include a power input 917 (e.g. for connection to a power outlet) and also a beverage input 919 that can accept an input, such as a tube, that provides fluid communication to one or more beverage sources 400.
Each slot 950 can correspond with a cartridge port 952 that is configured to receive a cartridge connector 1006 (shown in
In certain embodiments, a beverage dispensing system 100 can include a shell or enclosure configured to house the ingredient pumps 918 and the one or more slots 950 configured to removeably receive and support one or more cartridges 1000 containing the ingredients.
The cartridge 1000 shown in
The cartridge 1100 can include an indicia 1110 such as a radio frequency identification (RFID) chip, a bar code, a serial number, or a QR code. The indicia 1110 can provide an identification to each cartridge 1100 and can allow the controller 202 or a user to authenticate the cartridge 1100 as genuine or from a particular source. For example, the controller 202 or a user can scan or read the indicia to determine whether the cartridge is from a particular manufacturer or from an unauthorized third party. In certain embodiments, the indicia can include an identification of the contents of the ingredients within the cartridge 1100. For example, the controller 202 can operate an indicia scanner to automatically scan the indicia so that the controller is programmed with the contents of the cartridge 1100 and its corresponding slot 950 location.
In one embodiment, the cartridge 1000, 1100 is generally rectangular and has a thickness of one inch or less, and can hold a volume of 300 ml of an ingredient.
In certain embodiments, the cartridges 1000, 1100 can be refillable. In one embodiment, a user, such as a technician, can remove a cartridge 1000, 1100 from a beverage dispensing unit 900 and place it in a refilling apparatus. The refilling apparatus can pump and/or inject ingredient into the cartridge 1000, 1100 from an ingredient reservoir to refill the cartridge. In another embodiment, the cartridge 1000, 1100 can be refilled while remaining in the dispensing unit 900. In this embodiment, the beverage dispensing unit 900 further includes a refill port, and the controller is further configured to, based on receiving a refill command, operate the one or more ingredient pumps 918 in reverse to pump/transfer an ingredient connected to the refill port to one or more of the ingredient sources such as the cartridge 1000, 1100. The user refilling the cartridge can select which cartridge is to be filled (e.g. which of the ingredient pumps 918 to operate in reverse). For example, the user can select the cartridge 1000, 1100 to be refilled by using the user interface 910.
The above examples are merely illustrative of several possible embodiments of various aspects of the present invention, wherein equivalent alterations and/or modifications will occur to others skilled in the art upon reading and understanding this specification and the annexed drawings. In particular regard to the various functions performed by the above described components (assemblies, devices, systems, circuits, and the like), the terms (including a reference to a “means”) used to describe such components are intended to correspond, unless otherwise indicated, to any component, such as hardware, software, or combinations thereof, which performs the specified function of the described component (e.g., that is functionally equivalent), even though not structurally equivalent to the disclosed structure which performs the function in the illustrated implementations of the invention. In addition although a particular feature of the invention may have been disclosed with respect to only one of several implementations, such feature may be combined with one or more other features of the other implementations as may be desired and advantageous for any given or particular application. Also, to the extent that the terms “including”, “includes”, “having”, “has”, “with”, or variants thereof are used in the detailed description and/or in the claims, such terms are intended to be inclusive in a manner similar to the term “comprising.”
This written description uses examples to disclose the invention, including the best mode, and also to enable one of ordinary skill in the art to practice the invention, including making and using any devices or systems and performing any incorporated methods. The patentable scope of the invention is defined by the claims, and may include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that are not different from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal language of the claims.
The best mode for carrying out the invention has been described for purposes of illustrating the best mode known to the applicant at the time. The examples are illustrative only and not meant to limit the invention, as measured by the scope and merit of the claims. The invention has been described with reference to preferred and alternate embodiments. Obviously, modifications and alterations will occur to others upon the reading and understanding of the specification. It is intended to include all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
This application claims priority to and the benefit of U.S. Provisional Application No. 63/257,816, filed on Oct. 20, 2021, the entirety of which is incorporated herein by reference.
| Number | Name | Date | Kind |
|---|---|---|---|
| 3441176 | Reynolds | Apr 1969 | A |
| 3790028 | Gardner, Jr. | Feb 1974 | A |
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