An adapter that integrates an icemaker with a beverage dispenser includes a base defining a passage therethrough and at least a first bracket. The base includes a first rail and a second rail, and a top of the base may support thereon at least a portion of the icemaker. The first bracket includes a first rail engagement member engageable with the first rail and a second rail engagement member engageable with the second rail. The bracket inserts within the passage of the base such that the first rail element member engages the first rail and the second rail engagement member engages the second rail. The bracket is movable along the first and second rails to accommodate icemakers having different dimensions.

A removable liquid transport assembly configured to be readily installed in and removed from a liquid dispenser to permit the liquid dispenser to be readily sanitized. The removable liquid transport assembly preferably includes a liquid manifold, a valve assembly and a pump head. The removable liquid transport assembly is configured such that liquid can flow in a first direction through the removable liquid transport assembly to permit a liquid to be dispensed from a liquid dispenser and liquid can flow in a second direction back to a liquid storage container to prevent damage to one or more components of the liquid dispenser.

A liquid distribution module includes a housing, a first connecting portion, at least one liquid driving unit and at least one handle assembly. The first connecting portion is disposed in the housing. The fluid driving unit is adapted to be arranged in the housing and includes a second connecting portion. The handle assembly is pivotally connected to the fluid driving unit and adapted to drive the fluid driving unit by force to switch between a free state and a fixing state. When the fluid driving unit is in the free state, the handle assembly is adapted to drive the fluid driving unit to slide relative to the housing. When the fluid driving unit is in the fixing state, the fluid driving unit is fixed in the housing so that the second connecting portion is docked with the first connecting portion.

A flow sensor includes a fluid chamber configured to receive a fluid. A diaphragm assembly is configured to be displaced whenever the fluid within the fluid chamber is displaced. A transducer assembly is configured to monitor the displacement of the diaphragm assembly and generate a signal based, at least in part, upon the quantity of fluid displaced within the fluid chamber.

Agitating a plurality of fluid packages in a tower. The housing tower may include a stationary tower as well as an agitation device. The agitation device may include an agitation chassis assembly and an agitation rack tower. The plurality of fluid packages may be received at the agitation rack tower. Once received, the plurality of fluid packages may be connected to a pump assembly, wherein the pump assembly is located at the agitation chassis assembly. In addition, the agitation rack tower may be agitated relative to the agitation chassis assembly about a pivot point located on the agitation rack tower.

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.

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.

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.