A beverage dispenser maintains a profile queue with profile data of “close” consumer mobile computing devices. Each profile in the profile queue maintains one or more beverages previously selected by a consumer, such as favorite beverage(s), mixed or blended beverages, and/or past or future beverage order(s). Each profile in the profile queue is additionally associated with a profile identifier, such as a name, screen name, social media picture, avatar, alphanumeric identifier, other such text or graphics recognizable by a consumer to be associated with their corresponding profile. Upon navigation to an appropriate screen on the beverage dispenser, a display on the beverage dispenser shows the profile identifiers or one or more of the previously selected beverages in the profiles of “close” consumer mobile computing devices. In this way, a consumer is able to quickly access their previously selected beverages without actively manipulating their mobile device.

A dispenser head for in-line mixing and dispensing of beverages, which may be carbonated or nitrogenated. The dispenser head comprising a pump, a dilution mechanism, an additive mechanism, and outlet nozzle and optionally a regulation system. In use, the pump can pump concentrate liquid for the liquid product from a concentrate source to the dilution mechanism; the dilution mechanism can receive diluent liquid suitable for the liquid product from a diluent source, operable to mix the diluent liquid and the concentrate liquid and provide diluted concentrate liquid; and the additive mechanism can receive additive fluid for the liquid product from an additive source, to combine the diluted concentrate liquid and the additive fluid. The regulation system comprises a pump regulator means for regulating the quantity of concentrate liquid pumped into the dilution mechanism within the dispense period; a diluent quantity regulator means for regulating the flow of diluent liquid into the dilution mechanism; and an additive quantity regulator means for regulating the flow of additive fluid into the additive mechanism. Preferably, the dispenser head is a unitary device, which may be supplied attached to a vessel containing the concentrate.

A product dispenser is configured to dispense products subject to a warning and products not subject to a warning, the product dispenser further configured to transmit a product warning notice only in response to a request to dispense a product subject to the warning. In another embodiment, a product dispenser is configured to dispense a food or beverage product and provide information indicative of an attribute of the food or beverage product, such as nutrition facts, as it is being dispensed. In another embodiment, a product dispenser is configured to enable a user to request a customized product from the product dispenser, to determine a first profile for the customized product blend, compare the first profile to a second profile, and reformulate the customized product blend to a dispensed product blend comprising a third profile approximating the second idealized profile.

A beverage supply apparatus for supplying multiple types of beverage. The beverage supply apparatus may include a number of nozzles for discharging multiple types of beverages, a touch panel for displaying options for the multiple types of beverages while also receiving a selection operation for one beverage from among the multiple types of beverages, a number of physical buttons that correspond to the number of nozzles and that receive an instruction for discharge of the beverage selected by the selection operation, and a control unit that specifies, from among the physical buttons, the physical button corresponding to the nozzle from which the beverage selected by the selection operation will be discharged, and controls the touch panel in such a way as to provide notification of the physical button specified.

A mixing block for mixing components of a beverage prior to the mixture reaching the tap, for improving the consistency of the mixed beverage as it leaves the tap. The invention is particularly effective when one of the components tends to settle out during storage. In the mixing chamber, one stream goes straight through and the other impinges from the side, to cause enhanced mixing.

Among other things, beverages are dispensed from one or more beverage dispensers based on selections made by users. Information about the dispensing of the beverages is sent to a central server where it is used to manage a variety of functions including replacement of depleted supplies of components. Various features of the beverage dispensers enable the beverages that are dispensed to be uniform and appealing to users.

A beverage dispenser includes a source of a base fluid, a source of a concentrate, and an assembly configured to receive and dispense the base fluid and the concentrate together as a mixed beverage having a predetermined base fluid-to-concentrate ratio. An actuator is configured to control flow of the base fluid and the concentrate to the assembly. The assembly is configured to premix a first portion of the base fluid with the concentrate to form a premixed concentrate, and to then dispense a combination of the premixed concentrate and a second portion of the base fluid as the mixed beverage having the predetermined base fluid-to-concentrate ratio. The actuation of the actuator causes an uninterrupted dispense of the base fluid and the concentrate from the source of the base fluid and the source of the concentrate, respectively, to the assembly, and from the assembly to a consumer of the mixed beverage.

An example apparatus includes a housing including an inlet and an outlet. The example apparatus also includes a rotor defining a bore. The rotor is disposed in the housing. The example apparatus further includes a piston disposed in the bore. A motor is operatively coupled to the rotor to rotate the rotor from a first position to a second position. The bore is to be in fluid communication with the inlet and the outlet when the rotor is in the second position.

A device for storing and circulating drinking water with vortex flow includes a base, a tank and an actuator housed in the base and configured to circulate the drinking water stored in the tank with vortex flow. The base includes an inlet port through which the drinking water is received and an outlet port through which the drinking water is dispensed. The tank is mounted on the base with a sealed engagement and is configured to store the drinking water. The tank has spherical or egg shape and includes an air inlet on an upper portion of the tank through which air can flow in and out of the tank.

A soda carbonation and dispensation system and method are provided. The system includes a carbonated water pump and motor assembly operable to draw fresh water into carbonator tanks and circulate the water through a chiller system. A carbon dioxide source is connected to the carbonator tanks to produce carbonated water. The system also includes a water level sensor connected to a controller, a plurality of syrup containers, a syrup pump, syrup regulator valves, a brix capacitor, a dispensing tower and faucets connected to the dispensing tower housing. The controller operates the water pump and motor assembly to maintain a water level within a predetermined range and to maintain continuous flow and refrigeration of the carbonated water, which optimizes carbonation. The brix capacitor receives chilled carbonated water and chilled syrup in separate lines. Carbonated water is circulated to the faucets through a manifold in the brix capacitor and then circulated back into the carbonator tanks. Valves are provided in the brix capacitor to manipulate carbonated water and syrup flow rates and pressures into the faucets. The system maintains the carbonated water and syrup at a refrigerated temperature and a predetermined maximum pressure. When a faucet is opened, the carbonated water and syrup mix as they flow laminarly into a container. The result is consistently optimum carbonation when the beverage is dispensed.