A beverage dispensing valve includes a housing defining a chamber with an inlet for receiving a fluid and an outlet for dispensing the fluid. A piston is located in the chamber and subjected to a fluid pressure exerted by the fluid received via the inlet. The piston is moved axially in the chamber by the fluid pressure such that the piston determines a flow characteristic of the fluid dispensed via the outlet. A plunger is received in the chamber, and the fluid pressure tends to move the piston towards the plunger. A spring tends to move the piston away from the plunger, against the fluid pressure. The plunger is axially registered in the chamber in discrete plunger positions, and each plunger position sets a discrete limit on axial movement of the piston thereby determining a predetermined flow characteristic of the fluid dispensed via the outlet.

A shutoff switch for dispensing mixed beverages is presented. The shutoff switch includes a syrup inlet receiving syrup and a syrup outlet dispensing the syrup to a pump. The shutoff switch also includes a water inlet receiving water, and a water outlet dispensing the water to a either the pump or a dispensing point. Two distinct inlets and outlets for syrup and water prevent the syrup and water being mixed in the shutoff switch. The shutoff switch further includes a pressure responsive member that deforms based on pressure changes in the shutoff switch. When the deformation of the pressure responsive member reaches a threshold, an electrical gate in direct communication with the pressure responsive member opens, turning of a pump of the beverage dispensing system. Valves in either chamber of the shutoff switch can also be used as a redundant mechanical way to stop flow in the system.

Containers are provided and include a container body having an opening extending into a hollow interior, and a cap extending across the opening. The cap has an inlet port with an inlet valve configured to couple to a fluid source such that fluid can be delivered through the inlet valve to pressurized the hollow interior of the container body. The cap also has an outlet port with an outlet valve having a cracking pressure at which the outlet valve is configured to move from a closed configuration to an open configuration to dispense fluid from the hollow interior, and a closing pressure at which the outlet valve is configured to move from the open configuration to the closed configuration to prevent fluid from passing therethrough. The cracking pressure is greater than the closing pressure.

Containers are provided and include a container body having an opening extending into a hollow interior, and a cap extending across the opening. The cap has an inlet port with an inlet valve configured to couple to a fluid source such that fluid can be delivered through the inlet valve to pressurized the hollow interior of the container body. The cap also has an outlet port with an outlet valve having a cracking pressure at which the outlet valve is configured to move from a closed configuration to an open configuration to dispense fluid from the hollow interior, and a closing pressure at which the outlet valve is configured to move from the open configuration to the closed configuration to prevent fluid from passing therethrough. The cracking pressure is greater than the closing pressure.

Examples disclosed herein relate to conduits, devices, systems and methods, which may include a dispensing device including a valve configured to interact with an inlet stream, the inlet stream having a first pressure, the valve having an outlet area with an outlet stream, the outlet stream having a second pressure; and a solenoid configured to interact with the outlet stream.

Containers are provided and include a container body having an opening extending into a hollow interior, and a cap extending across the opening. The cap has an inlet port with an inlet valve configured to couple to a fluid source such that fluid can be delivered through the inlet valve to pressurized the hollow interior of the container body. The cap also has an outlet port with an outlet valve having a cracking pressure at which the outlet valve is configured to move from a closed configuration to an open configuration to dispense fluid from the hollow interior, and a closing pressure at which the outlet valve is configured to move from the open configuration to the closed configuration to prevent fluid from passing therethrough. The cracking pressure is greater than the closing pressure.

A beverage dispense system configured to automatically mix a beverage in response to a user input. The beverage dispense system including a liquid container, a gas container, a regulator, a flavoring container, and a beverage container selectively in fluid communication with the liquid container, the gas container, and the flavoring container that is configured to mix liquid, gas, and flavoring respectively from the liquid container, gas container, and flavoring container into the beverage. The beverage dispense system further including a controller that is configured to automatically control flow of the liquid, the gas, and the flavoring to the beverage container in response to the user input and an outlet configured to selectively dispense the beverage. The regulator is configured to regulate the gas from the gas container to each of the liquid container, the flavoring container, and the beverage container at the pressure.

A system and method for the automated dispensing of bulk keg wine is provide having, in combination: integrated temperature control; pressure monitoring; automated purging; and integrated point of sale data acquisition for determining inventory usage statistics for each keg of wine dispensed. The system provides for precise measurement of each portion. An error alarm system warns an operator about beverage tank low level. A system for forcing the flashing of poor quality beverage. Recording of all delivery process events allows for operator or management review and control.

Examples disclosed herein relate to conduits, devices, systems and methods, which may include a dispensing device including a valve configured to interact with an inlet stream, the inlet stream having a first pressure, the valve having an outlet area with an outlet stream, the outlet stream having a second pressure; and a solenoid configured to interact with the outlet stream.

A mobile refrigeration unit, including: a container for the storage of beverages; a temperature conditioning means for maintaining a pre-set ambient temperature inside the container, and taking the form of a split system comprising a compressor, a condenser a thermostat, and an evaporator blower. The mobile refrigeration unit also includes a secondary temperature control mechanism for controlling the temperature of products to be dispensed; a pressure system, for controlling the water level in the secondary temperature control mechanism, and a series of refrigeration coils through which products are pumped, and the temperature thereof measured by the thermostat. The combination of the temperature conditioning means and the secondary temperature control mechanism together defining a split cooling system.