A fluid material dispensing apparatus includes: a material outlet chamber extended outward from a main body of the fluid material dispensing apparatus; multiple pumps arranged to respectively extract multiple fluid materials stored in multiple material containers, and to operably push corresponding fluid materials forward; a fluid output device positioned on a bottom of the material outlet chamber and comprising multiple fluid outlets, wherein the multiple fluid outlets are respectively coupled with the multiple pumps through multiple material transmission paths; and a cold air tunnel coupled with the material outlet chamber and arranged to operably introduce cold air into the material outlet chamber, so as to maintain an internal temperature of the material outlet chamber to be lower than a predetermined temperature.

A liquid quality management device capable of being added to a liquid supply system which can supply a liquid within a storage container to a dispensing device in order to cool the liquid, and can dispense the liquid to a drinking container. The liquid quality management device includes an actual flow rate preparation unit including a flow rate sensor for determining an actual measured flow rate of the liquid; a dispensing liquid temperature sensor for measuring a temperature of the liquid dispensed into the drinking container; and a determination unit electrically connected to the actual flow rate preparation unit and the dispensing liquid temperature sensor, for determining an integrated flow rate of the liquid when the liquid temperature is equal to or higher than a set temperature, and for determining whether or not coolability of the dispensing device is suitable by comparing the integrated flow rate with a determination value.

A refrigerator appliance includes a cabinet with a food storage chamber defined in the cabinet. The refrigerator appliance also includes a door rotatably mounted to the cabinet. The door includes an outer surface and an opposing inner surface, wherein the inner surface faces towards the food storage chamber when the door is in the closed position and the outer surface faces away from the food storage chamber when the door is in the closed position. The refrigerator appliance also includes a dispenser assembly with a plurality of liquid sources fluidly coupled to the dispenser assembly and a multi-fluid tube. Each liquid source of the plurality of liquid sources is fluidly coupled to the dispenser assembly through the multi-fluid tube.

A liquid sales management device is to be added to a liquid supply system supplying a liquid within a storage container to a dispensing device through a supply pipe with the liquid pressurized in order to cool the liquid in the dispensing device, and dispensing the cooled liquid to a drinking container. The liquid sales management device includes an actual flow rate determining unit that determines an actual measured flow rate of the liquid dispensed into the drinking container from the dispensing device, a cleaning mode detection unit that detects a cleaning mode in the liquid supply system, and a consumption flow rate acquisition unit that determines an actual consumption of the liquid based on the number of cycles of the cleaning mode, a known liquid amount consumed in one cycle of the cleaning mode in the liquid supply system, and the actual measured flow rate.

Systems and methods for the injection/dispensing of fluid material in a volumetrically accurate and repeatable manner via an injection cell that interconnects two reservoirs of the fluid material. The injection cell has a normally closed dispensing valve that is opened for dispensing of the fluid material during a compression cycle, and closed during a return cycle. Opening and closing of the dispensing valve is effected using either or both of pressurized air and/or a motorized linkage. During the compression cycle, independent longitudinal displacements of a piston cylinder and a piston within the injection cell act to first open the dispensing valve and subsequently eject fluid material within the piston cylinder via the opened dispensing valve. The piston cylinder and piston are returned to an initial state that facilitates reloading of the injection cell from the reservoirs and closes the dispensing valve during a return cycle.

Beverage dispensers, systems, and methods are provided for producing a beverage flavored mixture/solution based on instructions from a mobile device (also referred to as an electronic device) and without requiring a user to touch the beverage dispenser (e.g., reducing the spread of germs through touching shared surfaces). The beverage dispensers, systems, and methods described may also be advantageous in allowing for monitoring of use of a beverage dispenser, billing users, and tracking liquid intake. The beverage dispensers, systems, and methods may enable a greater tracking and control compared to conventional beverage dispensers.

Cooler control system for a beverage dispense system 1 having a beverage line (2) extending from a beverage source to a dispense site via a cooler (6). The cooler control system comprises: a controller (51) for adjusting the cooling of the beverage line; a flow rate sensor (41) measuring the flow rate in the beverage line, a temperature sensor (40); and an electronic control unit (31) for receiving a signal from the temperature sensor and/or the flow rate sensor and sending a signal to said controller. Cooler monitoring system comprising: at least one sensor (45) for monitoring energy consumption of the cooler (6); and an electronic control unit for receiving a signal from the at least one energy consumption sensor and for sending a signal to a remote location when energy consumption increases above a predetermined maximum value.

Implementations of the present disclosure are directed to dispensing beverages from a beverage dispensing machine and include determining, from computer-readable media, pour parameters for a beverage of a plurality of beverages, the pour parameters being specific to the beverage, at least one pour parameter including a tilt value, and automatically, by the beverage dispensing machine: rotating a drum that holds a vessel to achieve the tilt value, initiating dispensing of the beverage into the vessel from a tap, automatically rotating the drum to reduce the tilt value of the vessel during dispensing of the beverage, and ceasing dispensing of the beverage into the vessel from the tap, the tilt value being substantially zero upon ceasing.

A beverage dispensing system provides a product metering system, a dispenser and a control system for operatively controlling dispensing, metering, delivering and reporting of dispensed product. Authentication, authorization and control operation are distributed in a cloud based control through a wide area network. The dispenser includes sensor to identifying objects and filter out movements that are not interpreted as requests for dispensing. A local controller operates the metering and dispensing, combining inputs from the hardware level sensors and applying logic and rules from the remote cloud level. The instant abstract neither defines the invention disclosed in this specification nor limits the invention scope in any way.

A cooling device comprises a buffer circuit comprising a cooling unit for cooling coolant and a reservoir for buffering cooled coolant and a primary cooling circuit for providing coolant to a first heat exchanger. The first heat exchanger is arranged for exchange of thermal energy between the coolant and beverage in a dispensing line. The primary cooling circuit and the buffer circuit are connected to enable exchange of coolant. The cooling device comprises a coolant distribution module arrange to control exchange of coolant between the primary cooling circuit and the buffer circuit. The coolant distribution module may control at least one of valves as passive components and pumps as active components, in at least one of the primary cooling circuit and the buffer circuit. The coolant distribution module may operate based on coolant temperature in the primary cooling circuit.