The present invention discloses a beverage dispenser, having a supply opening adapted for supplying an aqueous liquid from a source of aqueous liquid, wherein the supply opening is couplable to the source of aqueous liquid; a recooling heat exchanger having a heat receiving portion, a recooling inlet and a recooling outlet, wherein the supply opening is coupled with the recooling inlet; a reverse osmosis filter having an inlet for aqueous liquid, a permeate outlet and a concentrate outlet, wherein the recooling outlet of the recooling heat exchanger is connected to the inlet of the reverse osmosis filter; and a cooling device having a cooling portion extracting heat energy from the permeate and a heat dissipation portion dissipating energy to the heat receiving portion of the recooling heat exchanger; wherein the heat dissipation portion of the cooling device is thermally coupled with the heat receiving portion of the recooling heat exchanger; and wherein the cooling portion of the cooling device is thermally coupled with the permeate exiting the permeate outlet of the reverse osmosis filter, wherein the permeate enters the cooling portion by a cooling portion permeate inlet and exits the cooling portion by a cooling portion permeate outlet.

The present invention is a method for developing and providing a personalized distilled spirit, or other beverage, to a user who responds to a collection of stimulus in the form of taste samples, smell samples, written, and/or visual representations. The user's responses to the stimulus may be compared to expert responses in a database to create a recommended recipe resulting in one or more customized product samples being either physical products or written/visual responses in the form of tasting notes or a flavor map, for example. The user can then modify their customized spirit, repeating the process as many times as they wish and then submit for the production and purchase of the recipe based on an array of spirits or other beverages that is then combined using a blending machine.

The present invention relates to a dispenser (1) of beverages such as beer, carbonated beverages, non-carbonated beverages and the like, comprising: a regulating unit (2) for regulating the flow rate of at least one beverage, wherein said regulating unit (2) comprises at least one regulating group (20, 21, 22, 23) having at least one lever (200, 210, 220, 230) operable by a user between a rest position, in which said at least one beverage is not dispensed, and at least one operating position, in which said at least one beverage is dispensed with a predetermined flow rate, and a dispensing unit (3) operatively connected to said regulating unit (2), for dispensing said at least one beverage, wherein said dispensing unit (3) comprises at least one first valve (30A, 31A, 32A, 33A) movable between a closed position and an open position to allow the dispensing of said at least one beverage with said predetermined flow rate; and at least one control logic unit (U0, U1, U2, U3) connected to said at least one regulating group (20, 21, 22, 23) and said at least one first valve (30A, 31A, 32A, 33A) respectively, wherein each regulating group (20, 21, 22, 23) comprises a respective processing unit (E0, E1, E2, E3) configured to send an electrical signal to said at least one logic control unit (U0, U1, U2, U3) respectively, when said at least one lever (200, 210, 220, 230) is in said operating position, and wherein said at least one logic control unit (U0, U1, U2, U3) is configured to: receive said electrical signal from said processing unit (E0, E1, E2, E3), and activate the opening of said at least one first valve (30A, 31A, 32A, 33A) for dispensing said at least one beverage.

A beverage dispensing machine includes a dispensing valve having a first flow path configured to dispense a first fluid and a second flow path configured to dispense a second fluid such that the first fluid and the second fluid mix downstream and form a mixed beverage. A flow control device regulates flow rate of the first fluid through the first flow path, and a shutoff valve selectively closes to stop flow of the first fluid through the first flow path. A sensor is configured to sense the flow rate of the first fluid, and a controller automatically controls the flow control device to adjust the flow rate of the first fluid and thereby obtain a desired fluid ratio of the mixed beverage.

Provided are a water dispensing apparatus and a control method of the water dispensing apparatus. The water dispensing apparatus includes a main body, and an infrared sensing device. The infrared sensing device includes a mounting support, an electric control board having an infrared transmitting device and an infrared receiving device. The infrared receiving device is configured to receive an infrared ray transmitted by the infrared transmitting device. The mounting support has a first through hole at a position corresponding to the infrared transmitting device, and a second through hole at a position corresponding to the infrared receiving device.

An apparatus for filling containers with a carrier on which a container to be filled can be placed and fixed, wherein the support is pivotable with respect to a pivot axis which extends at an angle other than 0° with respect to a longitudinal direction of the container to be filled, with a first filling device, in order to fill the container in a first pivoted position of the container with respect to the pivot axis via its mouth, and having a rinsing device in order to rinse the container in a second pivot position of the container with respect to the pivot axis through its mouth, in particular with a liquid.

This disclosure relates to a sanitary fitting for dispensing prepared liquids, for example, for beverages. A disclosed system includes a first control element for setting a quantity of the prepared liquid to be dispensed and an actuating element for providing the quantity of prepared liquid set by means of the first control element, wherein at least one second control element is configured to select a type of preparation, for example, from at least two different types of preparation, of non-prepared liquid, wherein the first and the at least one second control element are actuatable independently of one another.

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.

Systems and methods for beverage dispensing are disclosed herein. The beverage dispensing system can receive a connection request to pair a mobile computing device with a beverage dispensing device via a network. The connection request can include an identifier that can be verified to match a current identifier associated with the beverage dispersing device. The beverage dispensing system can generate a session between the mobile computing device and the beverage dispensing device that replicates a user interface of the beverage dispensing device on the mobile computing device. The beverage dispensing system can receive inputs from the mobile computing device during the session to obtain configuration parameters for a beverage and dispense the beverage from a nozzle based on the configuration parameters.

A control system for controlling one or more tapping valves included in a beverage dispenser includes a telematic communication network with a cloud server and a gateway for selecting a tapping valve and connecting the telematics communication network to the selected tapping valve. The cloud server is configured to send a control signal to the gateway and the gateway is configured to verify which tapping valve the control signal is directed to and forward the control signal to the tapping valve. The control logic unit of each tapping valve is configured to receive the control signal and execute a command and/or modify one or more parameters of a set of parameters and/or add one or more further parameters to the set of parameters.