The present application provides a beverage dispensing system for dispensing beverages with low solubility ingredients. The beverage dispensing system may include a sweetener flow, a first diluent flow, a low solubility ingredient premixing system for mixing a low solubility ingredient with a second diluent flow to create a mixed flow, and a nozzle to mix the sweetener flow, the first diluent flow, and the mixed flow.

A dispenser dispenses a consumable product from a container. The container is supported within a housing by a container holder. The container holder is vertically moveable within a movement range in the housing. A biasing structure biases the container holder upwardly. A sign is connected to move up and down with the container holder. An indicator associated with the sign is vertically fixed relative to the housing. When an amount of product remaining in the container reaches a low level, the biasing force of the biasing structure will lift the container holder, causing the indicator to be aligned with a portion of the sign that gives a visual cue to a user that the amount of product remaining is at a low level.

The present invention describes methods and devices in which concentrated beverage products, each packaged in a pressurized container, can be combined with liquids and/or other ingredients to produce one or more servings of a beverage. These products provide users with a convenient way to prepare both alcoholic and non-alcoholic beverages (including carbonated beverages) in various serving sizes and quantities by combining the pressurized beverage concentrate with (possibly carbonated) liquids and other ingredients.

A beverage-making apparatus includes a fermentation tank assembly including a fermentation tank having an opening formed therein and a fermentation tank cover configured to open and close the opening. The beverage-making apparatus also includes a refrigeration cycle apparatus including a compressor, a condenser, an expansion device, and an evaporator. The refrigeration cycle apparatus is configured to circulate a refrigerant therethrough and to control a temperature of the fermentation tank as the evaporator is disposed at the fermentation tank. The beverage-making apparatus further includes a heat insulating wall surrounding both the fermentation tank and the evaporator.

An apparatus for making a beverage includes a housing, a first receptacle, a second receptacle, a cutting assembly, a water source, and at least one water outlet. The first receptacle is positioned in the housing for accepting a first beverage container containing a liquid. The second receptacle is positioned in the housing for accepting a second beverage container containing a liquid. The cutting assembly has a cutting blade that is movable relative to the first and second receptacles for opening the first and second containers substantially simultaneously so that liquid stored therein can be at least in part evacuated. The water source is coupled to the housing The at least one water outlet is associated with one or more of the first and second receptacles for adding water to the liquid from the first and second beverage containers from the water source.

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 beverage dispenser uses-high ratio concentrates to mix on-demand beverages. The high-ratio concentrate is pre-mixed with an alkaline water to allow for improved blending performance in the final beverage. The beverage recipe may be customized by the user to suit personal tastes. Aspects of the beverage dispenser also may include the ability to dispense room temperature, chilled, heated, sparkling, or highly alkaline beverages. Operation of a user interface to receive a beverage order includes the ability to display and employ user interfaces present on both a display on the beverage dispenser and an application on a mobile device. In some aspects, both user interfaces may be used simultaneously to receive user input. Methods of dispensing a beverage using the beverage dispensing systems are also discussed.

A beverage-making apparatus includes a fermentation tank assembly including a fermentation tank having an opening formed therein and a fermentation tank cover configured to open and close the opening. The beverage-making apparatus also includes a refrigeration cycle apparatus including a compressor, a condenser, an expansion device, and an evaporator. The refrigeration cycle apparatus is configured to circulate a refrigerant therethrough and to control a temperature of the fermentation tank as the evaporator is disposed at the fermentation tank. The beverage-making apparatus further includes a heat insulating wall surrounding both the fermentation tank and the evaporator.

A refrigerator and a method of controlling the same, the refrigerator including: a main body including a storage compartment; a door to open and close the storage compartment; and a beverage provider arrangeable with respect to the main body or the door. The beverage provider including: a water supplying unit; a storage to store water supplied by the water supplying unit; a filter, arrangeable inside the storage, and accommodate beverage powder so that ingredients from the beverage powder accommodated in filter are leached into the water; a sensor to obtain information related to a concentration of a beverage produced to contain the ingredients of the beverage powder in the water; and a processor configured to identify the concentration of the beverage based on the obtained information, and control the water supplying unit to supply the water in an amount which is adjusted based on the identified concentration.

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.