A system and method for dispensing a beverage includes the detection of a presence of a cup underneath a nozzle, and in response to the detected presence of the cup, a target fill height is calculated. The controller operates to begin a dispense of a beverage into the cup. A beverage fill height determined and compared to a target fill height. When the beverage fill height exceeds the target fill height, the controller operates to stop dispensing the beverage into the cup.

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.

The water-dispensing system with ice maker comprises a water generation system, a condensate pump, a condensate filter, and an ice maker. The ice maker further comprises a water storage reservoir and a power circuit. The water generation system, the condensate pump, and the condensate filter are fluidically connected. The condensate filter fluidically connects to the water storage reservoir of the ice maker. The water generation system and the condensate pump electrically connect to the power circuit. The water-dispensing system with ice maker is powered using electrical energy provided by a power circuit provisioned through the ice maker.

Systems and methods for reducing the overall current draw of a fluid mixture dispensing device are disclosed. A disclosed system includes a mixing area, a set of ingredient reservoirs, and a set of electromechanical valves. The set of electromechanical valves are in a one-to-one correspondence with the set of ingredient reservoirs, and fluidly connect the set of ingredient reservoirs and the mixing area during a respective set of dispense times. The system further includes a controller programmed to actuate at least two valves from the set of electromechanical valves to dispense, to the mixing area, at least two ingredients from the ingredient reservoirs associated with the at least two valves. The controller is programmed to actuate the at least two valves in sequence with partially overlapping dispense times and without overlapping opening times.

A water ejecting apparatus includes a case and a water ejection unit connected to the case. The water ejection unit includes a fixed cover connected to the case, having atop dead point and a bottom dead point, and including a lifting gear provided between the top dead point and the bottom dead point, a lifting cover movably coupled to the fixed cover, a lifting motor coupled to the lifting cover and a gear module interworking with the lifting motor and the lifting gear, a water ejection nozzle for ejecting water, a signal detecting unit that detects a frequency generation (FG) signal generated by the lifting motor during an operation of the lifting motor, and a controller configured to control the operation of the lifting motor upon determining that the lifting cover reaches the top dead point or the bottom dead point based on the FG signal.

A beverage dispensing machine for dispensing a mixed beverage has a first inlet configured to receive a concentrate; a second inlet configured to receive a base fluid; a gas inlet configured to receive a gas; a gas injection device configured to pulsate the gas into the concentrate such that the gas agitates the concentrate and is injected into the concentrate to form a gas-injected concentrate; and a dispensing valve configured to dispense the base fluid and the gas-injected concentrate.

A system and method for dispensing a beverage includes the detection of a presence of a cup underneath a nozzle, and in response to the detected presence of the cup, a target fill height is calculated. The controller operates to begin a dispense of a beverage into the cup. A beverage fill height determined and compared to a target fill height. When the beverage fill height exceeds the target fill height, the controller operates to stop dispensing the beverage into the cup.

A refrigerator utilizes a quick fill dispenser that incorporates a fluid storage receptacle that is easily removable for cleaning and/or dispensing independently of the refrigerator, and that is coupled to a dock through a combined inlet/outlet through which the receptacle is filled and fluid is dispensed through the receptacle. A dock closure may also be used to inhibit fluid flow through the combined inlet/outlet when the fluid storage receptacle is removed.

A cartridge valve (22, 94) and system (10) are provided in which the cartridge valve (22, 94) includes a regulator (44, 96) and an adjustable stroke solenoid (42, 100) to facilitate stable flow control. Also, the cartridge valve (22, 94) includes a quick and easy installation and removal fitting (30 and 32).

Examples disclosed herein relate to conduits, devices, systems and methods, which may include a dispensing device including a valve configured to interact with an inlet stream, the inlet stream having a first pressure, the valve having an outlet area with an outlet stream, the outlet stream having a second pressure; and a solenoid configured to interact with the outlet stream.