Methods and systems directed to dispensing fluids, such as beverages, using wireless technology are provided. Aspects relate to a beverage dispenser with a dispensing system housing, a valve housing positioned exterior to the dispensing system housing and extending from the dispensing system housing. The valve housing may be configured to dispense a beverage and include self-contained electronics disposed within an interior area of the valve housing. In some embodiments, the beverage dispenser has one or more additional valve housings positioned exterior to the dispensing system housing. The valve housing may be configured to dispense a beverage and include self-contained electronics disposed within an interior area of the valve housing.

A liquid dispenser is provided that includes a housing configured to dispense liquid into a container, the housing having an outlet for dispensing liquid into the container. The liquid dispenser includes a proximity sensor disposed proximate to the outlet and configured to detect the container when the container is disposed proximate to the outlet; a light source disposed proximate to the outlet and configured to emit a beam of light to identify a location of liquid to be dispensed from the outlet; and a processor configured to determine whether the container is disposed proximate to the outlet based on an output signal from the proximity sensor; and illuminate the light source to project the beam of light towards an opening of the container based on the output signal from the proximity sensor, to inform a user of a location of liquid to be dispensed from the housing.

A vertical chemical dispenser is disclosed for dispensing chemicals in the garden. The vertical chemical dispenser teaches a hollow tube having a distal end and a proximal end. A removable cap is positioned at the distal end of the hollow tube. A stand which includes a base is positioned at the proximal end of the hollow tube; and a conical connector is positioned between the distal end of the hollow tube and the stand. The stand can include a dispenser plate assembly.

A withdrawal system (1) for a container (2) and comprises an immersion pipe (4) mounted on and projecting into the container (2) as well as a withdrawal head (5) that is attachable to the immersion pipe (4) by means of a rotary connection. The withdrawal head (5) attached to the immersion pipe (4) is secured by means of a mechanical locking unit.

Methods and systems directed to dispensing fluids, such as beverages, using wireless technology are provided. Aspects relate to a beverage dispenser with a dispensing system housing, a valve housing positioned exterior to the dispensing system housing and extending from the dispensing system housing. The valve housing may be configured to dispense a beverage and include self-contained electronics disposed within an interior area of the valve housing. In some embodiments, the beverage dispenser has one or more additional valve housings positioned exterior to the dispensing system housing. The valve housing may be configured to dispense a beverage and include self-contained electronics disposed within an interior area of the valve housing.

A water dispensing apparatus includes a hot water module configured to heat supplied water using an induction heating method, a water supply pipe configured to supply water to the hot water module, a flow rate control valve provided on the water supply pipe to control a flow rate of water supplied to the hot water module, a flow rate sensing device provided on the water supply pipe to sense the flow rate of water supplied to the hot water module, and a controller configured to increase an opening speed of the flow rate control valve when the flow rate of supplied water sensed through the flow rate sensing device is equal to or less than a set flow rate.

A dropper machine for pouring a measured amount of a substance in a plurality of receptacles, including: a reservoir containing the substance to be dropped, cylinder and piston metering devices, a drive unit arranged to simultaneously drive the piston of the metering devices wherein each of the metering devices is associated with a respective actuating device cooperating with the piston of the metering device, the actuator device being operable individually to inhibit the delivery of the substance to be dropped through the nozzle when the drive unit is actuated to cause displacement of the pistons of the metering devices associated therewith between the start position and the end position.

The present invention discloses a liquid dispenser (1000), for transfer of liquid (220) from a storage container (800) to a receiving container (700) having a receiving aperture (710) facing upwards. The liquid dispenser (1000) comprises a flow controller (400), a liquid conductor (210), a liquid outlet element (200), a vertical actuator (100), a spatiality sensor (300) and a control unit (600). A method for production of a receiving container (700), having liquid (220) in its internal volume, is also disclosed.

A water-dispensing device includes a cold water tank and a fill valve. The tank is in selective fluid communication with a water intake via the fill valve. The device further includes a cold dispensing valve, a spigot in selective fluid communication with the tank via the cold dispensing valve, an ozone generator in fluid communication with the tank, and a drip tray positioned beneath the spigot. The drip tray is in fluid communication with a drain via a drain hose. A controller is configured to perform a cleaning operation by: (i) activating the ozone generator to ozonate water stored in the tank, (ii) opening the cold dispensing valve to empty the tank by dispensing the ozonated water from the tank through the spigot and into the drip tray, and (iii) upon determining the tank is empty, opening the fill valve to refill the tank.

The present invention discloses a liquid dispenser (1000), for transfer of liquid (220) from a storage container (800) to a receiving container (700) having a receiving aperture (710) facing upwards. The liquid dispenser (1000) comprises a flow controller (400), a liquid conductor (210), a liquid outlet element (200), a vertical actuator (100), a spatiality sensor (300) and a control unit (600). A method for production of a receiving container (700), having liquid (220) in its internal volume, is also disclosed.