An example method comprises receiving a control signal to open a first valve of a compressible liquid container within an airtight pressurized container, retrieving a first dispensing profile, each dispensing profile indicating at least one valve and, for each valve, a predetermined period of time for keeping a particular valve open, each of the valves controlling transport of contents a different compressible liquid container contained within the airtight pressurized container to a dispensing system, for each of the one or more valves identified in the first dispensing profile: opening the particular valve identified in the first dispensing profile for the particular predetermined period of time to transport contents over a first liquid transport conduit that is coupled to a particular releasable coupling and the particular valve, and closing the particular valve after the particular predetermined period of time to dispense an amount of contents of the particular compressible liquid container.

Systems and methods for dispensing beverages are provided. In accordance with various embodiments, beverage vendors may maintain the quality associated with a branded beverage while permitting consumers to enjoy the personalized beverages. In one embodiment, a user input may select a beverage formulation. The beverage formulation may be a commercially available branded beverage. A second user input may be received that is configured to modify a concentration of an ingredient of the selected beverage formulation. The ingredient may be a sweetener, such as a sugar. In response to the adjusting the ingredient, a concentration of at least one second ingredient may be automatically adjusted to form a recipe of a modified beverage formulation. In one embodiment, the user input adjusts a natural sugar and, in response, the carbon dioxide concentration is automatically adjusted. In another embodiment, carbon dioxide and another acid may be adjusted.

A method and computer program product for defining a PWM drive signal having a defined voltage potential. The PWM drive signal has a plurality of on portions and a plurality of off portions that define a first duty cycle for regulating, at least in part, a flow rate of a pump assembly. At least a portion of the on portions of the PWM drive signal are pulse width modulated to define a second duty cycle for the at least a portion of the on portions of the PWM drive signal. The second duty cycle regulates, at least in part, the percentage of the defined voltage potential applied to the pump assembly.

A method and computer program product for defining a PWM drive signal having a defined voltage potential. The PWM drive signal has a plurality of on portions and a plurality of off portions that define a first duty cycle for regulating, at least in part, a flow rate of a pump assembly. At least a portion of the on portions of the PWM drive signal are pulse width modulated to define a second duty cycle for the at least a portion of the on portions of the PWM drive signal. The second duty cycle regulates, at least in part, the percentage of the defined voltage potential applied to the pump assembly.

A fountain beverage dispenser for constituting a beverage by mixture of a beverage syrup and a diluent for the syrup is characterized by use of a highly concentrated beverage syrup supply and at least one diluent and syrup blending station for diluting the highly concentrated syrup with diluent before the diluted syrup is mixed with diluent in the final mixture of syrup and diluent delivered to a dispensing nozzle.

A product dispenser includes a product sampling portion configured to contain a product to be sampled. The product sampling portion includes a product sample dispenser. A packaged product portion is configured to contain and dispense a packaged product corresponding to a product to be sampled.

The disclosure concerns apparatus comprising a first source of a first component, the first component one component for a finished free flowing food product and comprising a highly concentrated micro component. The apparatus includes a second source of a second component, the second component being another component for the finished free flowing food product. The apparatus includes a flow combiner configured to combine the first and second components to form a first mixture. The apparatus further includes a common delivery pipe configured to receive the first mixture from the flow combiner. The apparatus includes a dispenser configured to receive diluent flow from a third source, receive the first mixture from the common delivery pipe, combine the diluent flow with the first mixture to form a second mixture, and dispense the second mixture through a dispensing nozzle, the second mixture including the finished free flowing food product.

Techniques for performing on-demand customization of beverages to improve the drinking experience may include receiving a target flavor, comparing the target flavor with a base flavor that is associated with a beverage, and receiving a chemical signature that can be used as a reference for injecting predetermined dosages of one or more formulations into a dispenser line of the beverage dispenser. A mixing of the associated beverage and the formulations may generate a combination that corresponds to or is associated with the target flavor. This technique of on-demand customization of the beverages may improve the drinking experience and reduce the cost of drinking by dynamically adjusting the amount of chemicals to be added to the base flavor depending on a target experience or flavor.

The present application describes a product dispenser. The product dispenser may include at least one macro-ingredient source, at least one micro-ingredient source positioned about the dispenser, a diluent source, a dispensing valve, a number of pumps or metering devices, and a user interface. The user interface receives a request for a product type and instructs the pumps or metering devices to dispense a predetermined type and ratio of macro-ingredients, micro-ingredients, and diluent to the dispensing valve for a predetermined flow rate.

A system comprising, a pressurized container including hollow portion and outer portion, pressurized container maintains pressure level in the hollow portion, transport system including two conduits, one transport being coupled to an interface and a valve port, the interface coupled to the hollow portion, the interface maintains pressure level in the hollow portion, one valve port allows flow of liquid volume through one conduit to a dispensing interface via another valve port, an external container is airtight and operable to dispense another liquid volume stored within, another conduit is coupled to the external container and further valve port to refill the liquid volume via the valve, pressure regulation system connected to pressurized container, pressure regulation system including a pressure conduit extending from outer portion through a pressure interface, pressure regulation system operable to compress liquid volume in the environment and a control system controls the valve and pressure regulation system.