A water ejecting apparatus includes a case and a water ejection unit coupled to the case and at least partially protruding therefrom. The water ejection unit includes a fixed cover separably coupled to one side of the case and allowing a rack gear extending in a horizontal direction to be fixed thereto, a moving cover accommodated to be movable in the horizontal direction inside the fixed cover, a driving motor coupled to inside of the moving cover, a gear module configured to interwork with the driving motor, and a water ejection nozzle installed at a lower end of the moving cover and configured to eject water, in which the moving cover appears or disappears, while moving from the inside of the fixed cover in the horizontal direction or moving to the outside form the inside of the fixed cover in the horizontal direction, when the driving motor operates.

The present application thus provides a beverage dispensing system for combining a micro-ingredient and a diluent. The beverage dispensing system may include a nozzle and a remote micro-ingredient storage system positioned at a distance from the nozzle. The remote micro-ingredient storage system may include a recirculation loop in communication with the nozzle to agitate the micro-ingredient therein.

A filling apparatus includes an upper hollow body having a top opening and a bottom opening; a first annular cylinder coupled to the upper hollow body via the bottom opening; a locking ring having a first keg lock slot and a second keg lock slot and coupled to the first annular cylinder; a second annular cylinder coupled to the first annular cylinder; a body seal ring coupled to the second circular cylinder; a bottom hollow cylinder coupled to the second annular cylinder and including a first vent opening probe, a second vent opening probe, and a probe divide wall. The filling apparatus can be connected to a valve on a keg, such as a Sankay-D valve, and can be used to pour alcohol and other liquids into the keg.

The refillable drinking container for use with a water-dispensing system. The refillable drinking container for use with a water-dispensing system stores a fluid that is consumed as a beverage. The refillable drinking container for use with a water-dispensing system measures the stored fluid. The refillable drinking container for use with a water-dispensing system refills the fluid when the volume of the stored fluid falls below a previously determined level. The refillable drinking container for use with a water-dispensing system heats the stored fluid at a previously determined temperature.

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.

Proposed is a touchless water dispensing control system, wherein water dispensing operation is possible without requiring physical contact between a user and a water supply device. In an embodiment, proposed are: a touchless water dispensing control system for a water supply device, the water dispensing control system including at least two water dispensing valves, a touchless locking operation module detecting an approaching object, a touchless water dispensing operation module detecting the approaching object, and a controller comparing a user's gesture patterns received from each of the locking operation module and the water dispensing operation module with a preset condition and controlling operation of the water dispensing valves on the basis of a result of comparison; and a water dispensing control method using the same.

A system and method for dispensing fluids is introduced. A preferred embodiment comprises a sealed tank, a bag containing fluid inside the sealed tank, an outlet for dispensing the liquid in the bag, and a pressure generating device to create pressure in the sealed tank.

A hydration system including a fluid reservoir, a fluid path in communication with the reservoir, and a magnetic quick connect interposed in the fluid path is disclosed. A fluid delivery system for a hydration system is also disclosed that includes a magnetic quick connect interposed in a fluid delivery path of the delivery system. The magnetic quick connect can also be used in a wide variety of fluid delivery systems. A kit for forming a fluid delivery system for a hydration system is also disclosed, as are various components of a hydration system.

A detection device for detecting that a source is sold-out for a beverage dispenser, the beverage dispenser dispensing from the source via a valve controlled by a solenoid. A circuit board is configured to be positioned on the valve proximal to the solenoid. A detector is coupled to the circuit board, where the solenoid creates a magnetic field when dispensing from the valve, and where the detector detects the magnetic field created by the solenoid and consequently produces an electrical output. A control system is coupled to the circuit board in communication with the detector. The control system is configured to access threshold data and to compare the electrical output of the detector to the threshold data. The control system indicates that the source is sold-out based upon the comparison of the electrical output to the threshold data.

An example of a beverage dispenser includes a nozzle and a valve coupled upstream of the nozzle. A sensor is operable to detect an object within a detection zone and provide a signal representative of a distance between the object and the sensor. A controller is configured to receive the signal from the sensor. The controller is configured to determine a sub-zone from a plurality of sub-zones within the detection zone in which the object is located. The valve is controlled between an open condition to dispense the substance through the nozzle and a closed condition based upon the determined sub-zone.