Abstract: A beverage dispenser for dispensing a carbonated beverage includes a housing defining an interior volume and having a first surface proximal to the beverage source and a second surface distal to the beverage source. The beverage dispenser includes a conduit in fluid communication with the beverage source entering the first surface of the housing and terminating proximate the second surface of the housing. The dispenser includes a flow rate controller including a processor disposed within the interior volume of said housing and a subsurface dispensing nozzle in fluid communication with the terminal end of the conduit. The dispenser also includes a user interface including user-selectable indicia for providing data to the processor. The flow through the conduit to the subsurface dispensing nozzle is compensated to maintain substantially hydraulic beverage flow within the conduit, and is based on data provided to the processor by a user operation of the user interface.

Abstract: A beverage dispenser for dispensing a carbonated beverage includes a housing defining an interior volume and having a first surface proximal to the beverage source and a second surface distal to the beverage source. The beverage dispenser includes a conduit in fluid communication with the beverage source entering the first surface of the housing and terminating proximate the second surface of the housing. The dispenser includes a flow rate controller including a processor disposed within the interior volume of said housing and a subsurface dispensing nozzle in fluid communication with the terminal end of the conduit. The dispenser also includes a user interface including user-selectable indicia for providing data to the processor. The flow through the conduit to the subsurface dispensing nozzle is compensated to maintain substantially hydraulic beverage flow within the conduit, and is based on data provided to the processor by a user operation of the user interface.

Abstract: A beverage dispenser for dispensing a carbonated beverage from a beverage source into a receptacle includes a housing defining an interior volume and having a first surface proximal to the beverage source and a second surface distal to the beverage source. The beverage dispenser further includes a conduit in fluid communication with the beverage source entering the first surface of the housing and terminating proximate the second surface of the housing. The dispenser also includes a multi-nodal flow rate controller disposed within the interior volume of said housing in contact with said conduit and a subsurface dispensing nozzle in fluid communication with the terminal end of the conduit. The flow through the conduit to the subsurface dispensing nozzle is compensated to maintain substantially hydraulic beverage flow within the conduit by adjusting the contact between the multi-nodal flow rate controller and the conduit.

Abstract: A food cooking grill assembly has a housing that supports a lower platen which has a cooking surface, and an upper platen having a cooking surface. A handle assembly connects to the upper platen. Handle assembly connects to a guidance assembly and to a hinged and pivotal counterbalance assembly to control the orientation and position of the upper platen relative to the lower platen. The counterbalance assembly interacts between the upper platen and the housing to counter the weight of the upper platen and to react to force exerted through the handle assembly.

Abstract: A digital flow control assembly for controlling the volumetric flow rate of fluids includes a fluid flow conduit, a plurality of serially-arranged flow nodes positioned along a length of the fluid flow conduit, and a device for generating a signal. The device for generating a signal is used to adjust one or more of the plurality of serially-arranged flow nodes to maintain a desired volumetric flow rate of fluid in the fluid flow conduit. A method for controlling the volumetric flow rate of fluids includes providing a fluid flow conduit, providing a plurality of serially-arranged flow nodes positioned along a length of the fluid flow conduit, and providing a feedback signal to adjust one or more of the plurality of serially-arranged flow nodes to maintain a desired volumetric flow rate of fluid in the fluid flow conduit.

Abstract: A beverage dispenser for dispensing a carbonated beverage from a beverage source into a receptacle. The dispenser includes a first housing defining an interior volume and having a first surface closer to the beverage source and a second surface further from the beverage source. The dispenser also includes a beverage cooler including a second housing having a top surface, a bottom surface, and sides defining an interior volume. A first circuit is disposed within the interior volume of the second housing and forms a first set of fluid flow paths. A second circuit is disposed within the interior volume of the second housing and forms a second set of fluid flow paths in parallel with the first set of fluid flow paths. A third circuit is disposed within the interior volume of the second housing and forms a third set of fluid flow paths in parallel with the first and second sets of fluid flow paths, wherein, the first, second, and third circuits defines an inlet and an outlet.

Abstract: A food cooking grill assembly has a housing that supports a lower platen which has a cooking surface, and an upper platen having a cooking surface. A handle assembly connects to the upper platen. Handle assembly connects to a guidance assembly and to a hinged and pivotal counterbalance assembly to control the orientation and position of the upper platen relative to the lower platen. The counterbalance assembly interacts between the upper platen and the housing to counter the weight of the upper platen and to react to force exerted through the handle assembly.

Abstract: An apparatus for controlling beverage flow includes a dispensing tube having a distal end. The apparatus also includes a ball plug configured for linear reciprocal motion between a first position and a second position so that the ball plug abuts the distal end of the dispensing tube in the first position and is separated from the distal end of the dispensing tube in the second position. A flow rate controller for compensation of flow in a fluid dispensing system includes a body portion and a first set of flow restricting nodes and a second set of flow restricting nodes formed in the body portion. The controller also includes a first channel formed in the body portion and configured to receive and partially surround a portion of a first fluid conduit such that the first fluid conduit is in contact with the first set of flow restricting nodes.

Abstract: A beverage dispenser for dispensing a carbonated beverage from a beverage source into a receptacle. The dispenser includes a first housing defining an interior volume and having a first surface closer to the beverage source and a second surface further from the beverage source. The dispenser also includes a beverage cooler including a second housing having a top surface, a bottom surface, and sides defining an interior volume. A first circuit is disposed within the interior volume of the second housing and forms a first set of fluid flow paths. A second circuit is disposed within the interior volume of the second housing and forms a second set of fluid flow paths in parallel with the first set of fluid flow paths. A third circuit is disposed within the interior volume of the second housing and forms a third set of fluid flow paths in parallel with the first and second sets of fluid flow paths, wherein, the first, second, and third circuits defines an inlet and an outlet.

Abstract: A beverage dispenser for dispensing a carbonated beverage from a beverage source into a receptacle includes a housing defining an interior volume and having a first surface proximal to the beverage source and a second surface distal to the beverage source. The beverage dispenser further includes a conduit in fluid communication with the beverage source entering the first surface of the housing and terminating proximate the second surface of the housing. The dispenser also includes a multi-nodal flow rate controller disposed within the interior volume of said housing in contact with said conduit and a subsurface dispensing nozzle in fluid communication with the terminal end of the conduit. The flow through the conduit to the subsurface dispensing nozzle is compensated to maintain substantially hydraulic beverage flow within the conduit by adjusting the contact between the multi-nodal flow rate controller and the conduit.

Abstract: A beverage dispenser for carbonated beverages, such as draft beer and soda, includes a volumetric beverage flow rate controller in the form of a tubular restrictor or choker combined with a subsurface flow beverage dispensing nozzle assembly. The nozzle has a positive bottom shut-off moveable between open and closed positions for initiating and stopping flow into the container. At defined rates of serving speed, greater control over pour characteristics, particularly over foam formed on the top of the beverage, is achieved.

Abstract: A digital flow control assembly for controlling the volumetric flow rate of fluids includes a fluid flow conduit, a plurality of serially-arranged flow nodes positioned along a length of the fluid flow conduit, and a device for generating a signal. The device for generating a signal is used to adjust one or more of the plurality of serially-arranged flow nodes to maintain a desired volumetric flow rate of fluid in the fluid flow conduit. A method for controlling the volumetric flow rate of fluids includes providing a fluid flow conduit, providing a plurality of serially-arranged flow nodes positioned along a length of the fluid flow conduit, and providing a feedback signal to adjust one or more of the plurality of serially-arranged flow nodes to maintain a desired volumetric flow rate of fluid in the fluid flow conduit.