In a method for dispensing a beverage in which a gas from a gas pressure vessel in which the gas is stored under pressure is mixed with the beverage, it is provided that the beverage is transported out of the storage container (2) by a pump (3) and that the pressure of the gas is lowered to less than 0.5 bar, more preferably less than 100 mbar, above ambient pressure and is fed to the aspirated beverage on the suction side of the pump (3).

The disclosure generally relates to an automated modular dispensing platform for creating customized beverages (e.g., using various sauces, syrups, sweeteners, colors and/or flavors added to a base beverage). The automated dispensing platform may simultaneously aggregate beverage modifiers or ingredients (e.g., sweetener, flavor, and/or color) and facilitate automated, efficient cleaning cycles for modular beverage dispensers.

The disclosure generally relates to an automated modular dispensing platform for creating customized beverages (e.g., using various sauces, syrups, sweeteners, colors and/or flavors added to a base beverage). The automated dispensing platform may simultaneously aggregate beverage modifiers or ingredients (e.g., sweetener, flavor, and/or color) and facilitate automated, efficient cleaning cycles for modular beverage dispensers.

A beverage system that produces a beer includes a first source comprising uHGB, a second source including a carbonated and/or nitrogenated water, a first fluid line fluidly coupled to the first source and configured to allow the uHGB to flow from the first source through the first fluid line, a second fluid line fluidly coupled to the second source and configured to allow the water to flow from the second source through the second fluid line, a mixing point, that fluidly couples the first fluid line to the second fluid line, configured to allow the uHGB to blend with the water at the mixing point to produce the beer, first and second one-way valves on either side of the mixing point, and a third fluid line fluidly coupled to the mixing point and configured to allow the beer to flow to a dispensing tap.

A liquid dispenser adapted to dispense liquid from a beverage container. The liquid dispenser includes a top portion and a bottom portion. The liquid dispenser includes an electric powered pump that is configured to cause fluid to flow into the bottom portion when the electric powered pump is activated. The bottom portion is fluidly connected or interconnected to the top portion such that fluid which flows into the bottom portion is configured to flow out of the bottom portion and to the top portion.

An apparatus for autonomously cooking a food product and dispensing said food product into a container, the apparatus comprising: a housing; a plurality of cooling chambers, a plurality of cooking chambers, a plurality of storage chambers, a plurality of primary dispensing chambers, and a plurality of secondary dispensing chambers disposed in a column arrangement within the apparatus; at least one food container disposed within at least one of the plurality of cooling chambers; a plurality of mixer augers disposed within the at least one food container; a series of induction plates adapted to be heated by a series of induction energizers, the series of induction plates and induction energizers being associated with each cooking chamber; and roller conveyor tables disposed throughout the pluralities of primary and secondary dispensing chambers, the roller conveyor tables being adapted to traverse the container such that to receive the cooked food product.

A contactless beverage dispenser, system, and method of contactlessly dispensing a beverage are disclosed herein. Embodiments of the present invention utilize a sensor that is operatively coupled to a pump for selective activation thereof. The sensor detects, in a sensor zone, the presence of a beverage container proximal a dispensing spout of the beverage dispenser. The sensor may be a proximity sensor, such as a photoelectric sensor. Upon detection of the beverage container, the pump is activated and dispenses a beverage to a user.

A stand-alone ice and beverage dispenser is provided. Appliance includes a cabinet defining a chilled chamber, a bottom portion and a countertop. Appliance includes an ice maker assembly mounted on the countertop, a liquid dispenser assembly mounted on the countertop, and a sealed refrigeration system. Sealed refrigeration system includes a compressor, condenser, chamber evaporator, and an ice maker assembly evaporator fluidly coupled through a refrigerant conduit. The compressor is operably coupled to the refrigerant conduit for circulating a flow of refrigerant through the refrigerant conduit. Appliance also includes refrigerant valve assembly including one or more valves. Refrigerant valve assembly is configured to selectively provide refrigerant to chamber evaporator to refrigerate chilled chamber and selectively provide refrigerant to the ice maker assembly evaporator for ice production.

A portable hydration system and various components are disclosed. The system utilizes a pump to transfer potable liquid (e.g. water) from a liquid container to a user during challenging activities (e.g. endurance motorcycle riding).

A refrigerated beverage dispenser conversion system includes an electric pump configured for being mounted within an interior of a refrigerated beverage dispenser, the electric pump having an inlet and an outlet. An inlet barb is operatively connected to the electric pump at the inlet, and an inlet hose is operatively connected to the inlet barb at a first end of the inlet hose. The inlet barb and the inlet hose are sized to engage an outlet of a container disposed within the refrigerated beverage dispenser to bring the container in fluid communication with the electric pump. An outlet barb is operatively connected to the electric pump at the outlet and sized for operatively connecting to an outlet hose in fluid communication with an outlet of the refrigerated beverage dispenser. The outlet barb is differently sized from the inlet barb, such that the refrigerated beverage dispenser conversion system is configured to bring the container in fluid communication with the outlet of the refrigerated beverage dispenser.