The present invention relates to a multi-purpose hydration station for dispensing different kinds of beverages, soft ice, ice, hot water and non-heated water. More specifically, the multi-purpose hydration station features a hot water dispenser unit, a non-heated water dispenser unit, a beverage dispenser unit, a soft ice dispenser unit and an ice maker for dispensing the user's requested item and eliminates the need to use separate dispensing machines to dispense different kinds of beverages or items. Additionally, the hydration station features a refrigeration and a non-refrigeration storage area to allow the users to store their items as per their requirements. The hydration station offers a convenient solution for setting up a hydration station that saves space, energy and expenses of the user.

A liquid dispensing system can intelligently dispense liquid from a liquid source to a receptacle via a spout. A controller may be connected to a sensor in a housing of the liquid dispensing system with the housing supporting a liquid dispensing spout connected to a liquid source. The controller can generate, and execute, a liquid dispensing strategy that alters an angle of the liquid dispensing spout with respect to a liquid receptacle to optimize liquid flow into the receptacle.

A system includes a sensor and a computing system. The sensor is coupled to a syrup line of the beverage dispenser and is configured to measure a pressure within the line. The syrup line is coupled at a first end to a syrup bag and at a second end to a pump configured to pump syrup from the syrup bag to an outlet of the beverage dispenser. The pump is operated using pressurized gas and generates a pressure corresponding to the pressure of the gas within the syrup line when both the syrup bag is full and the outlet of the beverage dispenser is closed. The sensor transmits a measured pressure to the computing system. The computing system determines that the measured pressure is less than a threshold pressure. In response, the processor transmits an alert for display on a user device, which identifies the syrup bag for replacement.

A modular fluid dispensing system includes a rigid bottle and multiple swappable base units. The modular fluid dispensing system includes a bottle housing to house a rigid bottle, a dispenser to dispense the fluid, and an attachment mechanism to reversibly affix the modular fluid dispensing system to a support structure. The bottle housing includes a threaded fastener to form a seal with the rigid bottle and a puncturing taper to puncture a seal of the rigid bottle. The dispenser includes a pump to initiate flow of the fluid from the rigid bottle and out a nozzle in response to a command signal from a sensor. The dispenser also includes a vacuum break port to allow an external fluid to replace the fluid in the bottle and prevent formation of a vacuum.

A liquid dispenser may include a container having an upper opening, a pump provided in the container, a pipe through which liquid discharged from the pump is transferred, a top plate having an upper surface over which liquid flows, a filter assembly provided below the top plate, a base provided below the container, and a thermoelectric element provided in the base to cool the liquid in the container.

A modular fluid dispensing system includes a rigid bottle and multiple swappable base units. The modular fluid dispensing system includes a bottle housing to house a rigid bottle, a dispenser to dispense the fluid, and an attachment mechanism to reversibly affix the modular fluid dispensing system to a support structure. The bottle housing includes a threaded fastener to form a seal with the rigid bottle and a puncturing taper to puncture a seal of the rigid bottle. The dispenser includes a pump to initiate flow of the fluid from the rigid bottle and out a nozzle in response to a command signal from a sensor. The dispenser also includes a vacuum break port to allow an external fluid to replace the fluid in the bottle and prevent formation of a vacuum.

Systems and methods for dispensing consumable liquids are disclosed. An example networked system includes a server and a plurality of beverage dispenser stations. Each of the beverage dispenser stations includes a filler including a filler outlet configured to deliver a beverage into a container, an RFID reader configured to read an RFID tag fixed to a water filter through which water for the beverage is to flow, and a controller. The controller is configured determine a duration-of-use of the water filter and a volume of water that has passed through the water filter. Each of the beverage dispenser stations also includes a network communications interface configured to communicate the duration-of-use and the volume of water to the networked administrative server to track use of the water filter among the plurality of beverage dispenser stations.

A system for advance notification of replacing or ordering a water bottle based on historical consumption data, and a water dispenser. The system includes a server, a water dispenser, a weight sensor, and a user device. The weight sensor measures weights of a replaceable water bottle on the water dispenser at different times and transmits the weights back to the server, so as to make multiple determinations with respect to the weights and accordingly obtain the consumption of the replaceable water bottle over time, thereby reminding a user to replace the replaceable water bottle and to make a new order.

A system and method detection of an empty keg is provided. Carbonated beverages from a keg communicates a carbonated alcoholic beverage to a Foam on Beer (FOB) detector. The FOB forms a reservoir and containing a float. Level detection sensors in operative communication with the float identifies the position and movement of the float. An keg's status can thereby be anticipated by float level and speed changes. A the FOB status can thereby operate a touchless tap including a control valve via a tap control board (TCB) that actuates the control valve. A controller in operative communication with the TCB communicates with the control valve, the actuation button and in communication with the level sensor.

A beverage monitoring system is provided for a beverage system that includes a pressurized gas source, pressurized gas regulators, pressurized gas distribution lines, beverage distribution lines, beverage vessels, and beverage dispensers. The beverage monitoring system comprises at least one gateway that includes a processor, a network interface connected to dispensers, and a network interface connected to sensor assemblies. The beverage monitoring system also includes a sensor assembly. The sensor assembly is configured to run diagnostics to diagnose a potential problem with the line, or provide consolidated information for correlation with point-of-sale data.