Flavor and additive delivery systems and methods for beverage dispensers are disclosed. An example beverage dispenser includes flavor containers configured to contain flavor mixtures, a manifold configured to blend water with flavor mixtures, a flowrate sensor configured to detect a current flowrate of the water flowing to the manifold, memory configured to store instructions related to dispensing the water and the flavor mixtures, and a processor. The processor is configured to receive a request for a selected beverage, identify a ratio between the water and one or more of the flavor mixtures for the selected beverage, transmit a water control signal to cause the water to flow at a requested water flowrate, and transmit one or more first flavor control signals to cause one or more of the flavor mixtures to flow from the flavor containers based on the ratio.

Flavor and additive delivery systems and methods for beverage dispensers are disclosed. An example manifold of a beverage dispenser includes a base defining a base cavity and configured to extend through an opening defined by an outer wall. The manifold includes a first housing coupled to the base and defining a housing cavity. The base cavity and the housing cavity are adjacent to each other to form a chamber. The manifold includes a body coupled to the first housing and defining a body cavity and angled apertures. The manifold includes an insert housing that is coupled to the body and extends at least partially through the body cavity. The manifold includes an insert housed within the insert housing and defining a water outlet for spraying water downward into the chamber. The angled apertures are configured to receive nozzles that extend at least partially into the chamber at the predefined angle.

The present invention discloses a beverage dispenser, including: an inlet connected to a water source; an outlet for dispensing the water to a user vessel; at least one filter element having an input and an output for filtered water; a pump for pumping water to the input of the filter element; a flow sensor connected between the inlet and the outlet, wherein the flow sensor determines the actual flow rate of the water; at least one water preparation element connected between the output for outputting filtered water and the outlet and adapted to prepare the water for drinking by a human, wherein the water preparation element comprises a water preparation rate input by which the water preparation rate of the water preparation element can be controlled; and a controller connected to the water preparation rate input of the water preparation element and the flow sensor, wherein the controller controls the water preparation rate of the water preparation element by a signal to the water preparation rate input such that the water preparation rate is proportional to the actual flow rate.

An beverage mixing device is may comprise a controller in electronic communication with a sensor, the controller configured to: determine a drink type based on receiving sensor data from the sensor, and mix a pre-mixed composition with a carbonated water or a non-carbonated water based on the drink type.

Flavor and additive delivery systems and methods for beverage dispensers are disclosed. An example beverage dispenser includes flavor containers configured to contain flavor mixtures, flavor tags each of which is fixed to a respective one of the flavor containers, flavor sensors each of which is positioned to read tag information from a respective one of the flavor tags to monitor the respective one of the flavor containers, memory configured to store instructions related to dispensing water and the flavor mixtures, and a processor. The processor is configured to detect, based on the tag information collected by the flavor sensors, whether any of the flavor containers is at least one of expired, counterfeit, or out-of-position. The processor is configured to disable use of each of the flavor containers that are detected to be at least one of expired, counterfeit, or out-of-position.

Flavor and additive delivery systems and methods for beverage dispensers are disclosed. An example manifold of a beverage dispenser includes a base defining a base cavity and configured to extend through an opening defined by an outer wall. The manifold includes a first housing coupled to the base and defining a housing cavity. The base cavity and the housing cavity are adjacent to each other to form a chamber. The manifold includes a body coupled to the first housing and defining a body cavity and angled apertures. The manifold includes an insert housing that is coupled to the body and extends at least partially through the body cavity. The manifold includes an insert housed within the insert housing and defining a water outlet for spraying water downward into the chamber. The angled apertures are configured to receive nozzles that extend at least partially into the chamber at the predefined angle.

A beverage system that produces a beer includes a first source comprising uHGB, a second source including a carbonated and/or nitrogenated water, a first fluid line fluidly coupled to the first source and configured to allow the uHGB to flow from the first source through the first fluid line, a second fluid line fluidly coupled to the second source and configured to allow the water to flow from the second source through the second fluid line, a mixing point, that fluidly couples the first fluid line to the second fluid line, configured to allow the uHGB to blend with the water at the mixing point to produce the beer, first and second one-way valves on either side of the mixing point, and a third fluid line fluidly coupled to the mixing point and configured to allow the beer to flow to a dispensing tap.

Apparatus for preparing and dispensing a diluted beverage has a mains water inlet, a valve for opening or shutting water flow, a food concentrate container, an outlet for the beverage, a user interface for commanding dispensing of the beverage, and a volumetric pump communicating with the valve outlet and the beverage outlet for drawing and mixing the food concentrate and water. A first conduit is connected to an outlet of the food concentrate container and the volumetric pump inlet. A second conduit communicating with the valve outlet and an intermediate portion of the first conduit. A control unit activates the valve and the volumetric pump. The second conduit has a section narrowing for regulating the outflow velocity of the water entering the first conduit. The control unit activates the volumetric pump to regulate the flow of food concentrate mixture and water in response to data from a water flow detector.

A beverage mixing device is may comprise a controller in electronic communication with a sensor, the controller configured to: determine a drink type based on receiving sensor data from the sensor, and mix a pre-mixed composition with a carbonated water or a non-carbonated water based on the drink type.

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.