A beverage dispensing unit includes a dispensing valve configured to be fluidly coupled to at least one beverage source, one or more ingredient pumps configured to be fluidly coupled to one or more ingredient sources, a dispensing manifold fluidly coupled to the dispensing valve and the one or more ingredient pumps, and a controller. The controller is configured to receive a recipe from a user, wherein the recipe indicates an amount of each ingredient of one or more ingredient sources. The controller is further configured to operate the one or more ingredient pumps to inject one or more of the ingredients into the dispensing manifold according to the recipe, and open the dispensing valve to allow a volume of beverage from the beverage source to flow through the dispensing manifold. The volume of beverage mixes with the one or more ingredients in the manifold and flushes the ingredients out of the manifold.

A system for monitoring flow conditions of fluid flowing from a product container through a solenoid pump. The system includes at least one solenoid pump comprising a solenoid coil, which, when energized, produces a stroke of the solenoid pump, at least one product container connected to the at least one solenoid pump wherein the at least one solenoid pump pumps fluid from the at least one product container during each stroke, at least one PWM controller configured to energize the at least one solenoid pump, at least one current sensor for sensing the current flow through the solenoid coil and producing an output of the sensed current flow, and a control logic subsystem for controlling the flow of fluids through the solenoid pump by commanding the PWM controller and for monitoring the current through the solenoid pump by receiving the output from the current sensor, wherein the control logic subsystem uses the measured current flow through the solenoid coil to determine whether the stroke of the solenoid pump is functional.

The disclosure described herein relates to a beverage dispensing system mixing nozzle and a process for making or repairing the same. Particular examples of the present disclosure include a manifold comprising multiple tubes where the manifold is inserted into and secured within a seat of the mixing nozzle. In some examples, multiple manifolds are inserted into and secured within a seat of the mixing nozzle. The tubes extend into the body of the manifold to form a leak proof connection.

An ice chest (10) with beverage lines (18) in a cold plate (12) is provided in which the inlets and outlets of the cold plate beverage lines are coupled to fittings (16) that accommodate coupling to a wide range of beverage tubing sizes. Also provided are the cold plate (12) and fittings (16).

An automatic liquid supply device is provided, which includes a chassis, a tray, a conveying mechanism, a driving mechanism, a feeding mechanism and a center console. The tray is provided in the chassis and is provided with a plurality of rows of grooves, and the grooves are used for placing the liquid-containing device. The conveying mechanism includes a conveying box and a plurality of nozzles, each of the nozzles is communicated with the conveying box, provided with a flow switch, and provided with an infrared sensor and a first non-contact liquid level sensor, and a second non-contact liquid level sensor is provided at the grooves. The driving mechanism is configured for drive the conveying box to move. The center console is provided with a controller which is respectively connected with the flow switch, the infrared sensor, the first non-contact liquid level sensor and the second non-contact liquid level sensor.

A hand-held beverage dispenser includes a handle body, within which multiple valve units are contained. Two sets of fluid flow paths are provided into the handle body. The sets of fluid flow paths are mutually exclusive one to the other. Each flow path of the first set is in fluid communication with each valve unit, whereas only a predetermined one of the second set of fluid flow paths is in fluid communication with each valve unit. Each valve unit includes a flow control valve and a selection valve. The selection valve determines on an ad hoc basis which of the first set of flow paths will be utilized at any given time, while the flow control valve provides single action simultaneous ON-OFF control of fluid flows through both the selected flow path and the predetermined flow path.

Disclosed is a beverage dispensing cooler. The beverage dispensing cooler includes a first lid, a second lid, a body, an axle, a handle and multiple hoses. The body includes a chamber, a panel, a base valve, a wall drain, a primary hose, a flow control unit, a power unit and a dispenser gun. The chamber includes multiple cylinders, multiple pressure compartments and a basin configured to collect water from condensation and melted ice. The axle further includes multiple wheels, a rod and multiple bearings connected to the rod and to the multiple wheels. The handle is configured to facilitate engagement of the beverage dispensing cooler with a hand of a user.

A beverage-making apparatus includes a container including a container body that includes heat-insulating material and has an opening that provides access to an interior of the container body. The container further includes: a container cover configured to open and close the opening of the container body, and at least three channels connected to the container and that are communicative with the interior of the container body. The at least three channels include at least one first channel and a second channel that are communicative with a beverage ingredient pack mounted in the interior of the container body, the beverage ingredient pack configured to hold first beverage-making ingredients. The container further includes a third channel that is communicative with a space formed in the interior of the container body between a wall of the container body and the beverage ingredient pack mounted in the interior the container body.

The present application describes a product mixing device. The product mixing device includes an ingredient combination chamber and means for agitation positioned about the ingredient combination chamber. The ingredient combination chamber includes a diluent inlet, a number of macro-ingredient inlets, a number of micro-ingredient inlets, and an outlet.

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.