The water-dispensing system with wheelchair comprises a water generation system, a condensate pump, a condensate filter, a power circuit, a water storage reservoir, a housing, a flexible tubing, and a wheelchair. The wheelchair further comprises a backrest and a bench. The housing contains the water generation system, the condensate pump, the condensate filter, the power circuit, the water storage reservoir, and the flexible tubing. The water generation system, the condensate pump, the condensate filter, and the flexible tubing are fluidically connected. The housing mounts on the wheelchair. The water generation system and the condensate pump electrically connect to the power circuit. The water generation system and the condensate pump receive electric energy from the power circuit.

The water-dispensing system with a dog bowl comprises a water generation system, a condensate pump, a condensate filter, a power circuit, a water storage reservoir, a housing, a release valve, and a watering device. The watering device further comprises a water pan and a housing pedestal. The housing contains the water generation system, the condensate pump, the condensate filter, the power circuit, the water storage reservoir, and the release valve. The water generation system, the condensate pump, the condensate filter, and the release valve are fluidically connected. The housing mounts on the watering device. The water generation system and the condensate pump electrically connect to the power circuit. The water generation system and the condensate pump receive electric energy from the power circuit.

A water ejecting apparatus includes a case and a water ejection unit connected to one side of the case. The water ejection unit includes a fixed cover, a lifting cover, a lifting motor, a water ejection nozzle, a touch bar, a detection sensor, and a controller. The fixed cover is connected to the case. The lifting cover is movably received in the fixed cover and coupled to the lifting motor. The water ejection nozzle is installed at a lower end of the lifting cover and configured to eject water. The touch bar is at least partially received in the lifting cover and moves when in contact with a container placed below the water ejection nozzle. The detection sensor detects movement of the touch bar. The controller changes operation of the lifting motor when the detection sensor detects movement of the touch bar.

A variable ice dispenser for a refrigerator utilizes a variable control suitable for varying the rate of ice dispensing by the dispenser. In some instances, the variable control includes a variable control actuator that is movable between a range of positions including a home position, and movement of the variable control actuator in a first direction from the home position causes the variable ice dispenser to dispense cubed ice while movement of the variable control actuator in a second direction from the home position causes the variable ice dispenser to dispense crushed ice. Further, in some instances, the variable control may also selectively activate the ice dispenser such that the variable control actuator controls the ice dispensing rate while the variable ice dispenser is activated. In addition, in some instances, a variable control may also include a secondary control that switches between ice and water dispensing modes.

A touchless beverage dispensing valve assembly includes a nozzle and a valve configured to control a flow of a substance through the valve to the nozzle. A solenoid is configured to operate the valve between open and closed conditions. A trigger sensor includes an optical sensor and a controller. The controller executes a trigger sensor control module to receive an output from the optical sensor and operate the solenoid to control the valve between the open condition and the closed condition. A feedback device is operable to selectively provide a visual indication an operational status of the valve.

A beverage dispenser for dispensing a beverage into a vessel, the beverage dispenser including a vessel-receiving region in which the vessel is locatable for receiving beverage; and a sensor arrangement for providing signals based on which a distance between one or more wall portions of the vessel, when located in the vessel-receiving region, and the sensor arrangement can be determined, wherein a volume of beverage to be dispensed into the vessel can be determined based on the determined distance between one or more wall portions of the vessel and the sensor arrangement.

A liquid filling and dispensing method comprises determining whether a user account is valid; if the user account is valid: enabling a user to obtain operating parameters of a processing assembly configured to collect and transfer liquid to a filling assembly; enabling the user to find a fill location having the filling assembly, wherein the fill assembly is configured to fill a validated container with liquid; and enabling the user to initiate filling of the container with the liquid at the filling assembly.

An example method comprises receiving a control signal to open a first valve of a compressible liquid container within an airtight pressurized container, retrieving a first dispensing profile, each dispensing profile indicating at least one valve and, for each valve, a predetermined period of time for keeping a particular valve open, each of the valves controlling transport of contents a different compressible liquid container contained within the airtight pressurized container to a dispensing system, for each of the one or more valves identified in the first dispensing profile: opening the particular valve identified in the first dispensing profile for the particular predetermined period of time to transport contents over a first liquid transport conduit that is coupled to a particular releasable coupling and the particular valve, and closing the particular valve after the particular predetermined period of time to dispense an amount of contents of the particular compressible liquid container.

Disclosed is a disbursing system including a dispensing unit and a read area having at least two readers. Each of the at least two readers is configured to generate a signal when detecting a marker disposed on a beverage container. The beverage container includes at least two markers. The system includes a switch in electro-mechanical connection with the dispensing unit. The system includes a control module in operative connection with the switch and in communication with the at least two readers. When the at least two readers generate at least two signals detecting at least two markers, the control module actuates the switch.

A contactless valve configured to dispense a liquid can include an actuator configured to move a plug between a closed position in which the plug prevents the flow of liquid through valve body, and an open position in which liquid can be dispensed through an outlet. The valve can include an activation sensor, a presence sensor, and a controller configured to control the actuator and in electrical communication with the activation sensor and the presence sensor. The controller can be configured to switch the presence sensor into the activated state in response to the detection of the prerequisite condition by the activation sensor, and to control the actuator to move the plug from the closed position to the open position in response to the detection of the object in the upper detection zone by the presence sensor.