Foam dispensing apparatus

What is claimed is: 1. A foam dispensing apparatus for dispensing a mixture of a resin component and an isocyanate component, said foam dispensing apparatus comprising: a resin line for carrying the resin component; an isocyanate line for carrying the isocyanate component; a nozzle for dispensing the resin and isocyanate components from the foam dispensing apparatus; a manifold connected to said nozzle and defining a resin duct in communication with said resin line and said nozzle for directing the resin component toward said nozzle and an isocyanate duct in communication with said isocyanate line and said nozzle for directing the isocyanate component toward said nozzle; at least one valve connected in-line to said resin and isocyanate lines and being moveable between an open position allowing flow through said resin and isocyanate lines and a closed position preventing flow through said resin and isocyanate lines; wherein said at least one valve is disposed exterior and spaced upstream from said manifold and wherein the flow is unregulated in said manifold for reducing maintenance of said manifold; at least one gas line in communication with at least one of said resin and isocyanate lines between said valve and said manifold for flushing said resin and isocyanate lines; an actuator coupled to said at least one valve for moving said at least one valve between said open and closed positions; a timer in communication with said actuator for controlling said actuator; and at least one control valve in line with at least one of said resin line and said isocyanate line prior to said at least one valve to vary and control a flow rate of at least one of the resin component and the isocyanate component therethrough and being externally adjustable of flow control without disassembling the at least one of said resin line and said isocyanate line; and wherein said at least one control valve includes a housing defining an inlet chamber and an outlet chamber spaced from each other along a first axis and a bore extending along a second axis that is angled relative to the first axis and intersecting within said housing, wherein said at least one control valve includes a flow control device disposed in said bore and interconnecting said inlet chamber and said outlet chamber for controlling fluid flow rate between said inlet chamber and said outlet chamber; wherein said flow control device includes a piston moveable within said bore having a first end disposed adjacent said inlet chamber and defining an aperture and a second end disposed opposite said first end and defining at least one orifice and an annular flow path in fluid communication with said outlet chamber, said aperture including a pre-determined cross-sectional area for regulating the fluid flow rate of one of the resin component and the isocyanate component. 2. The foam dispensing apparatus as set forth in claim 1 wherein said resin duct and said isocyanate duct are continuous and uninterrupted from said resin line and said isocyanate line, respectively, to said nozzle. 3. The foam dispensing apparatus as set forth in claim 1 wherein said manifold is formed of a single integral piece. 4. The foam dispensing apparatus as set forth in claim 1 wherein said actuator is pneumatically controlled. 5. The foam dispensing apparatus as set forth in claim 1 wherein said at least one valve is further defined as a ball valve. 6. The foam dispensing apparatus as set forth in claim 1 wherein said manifold defines cleaning ports in communication with said resin duct and said isocyanate duct for supplying cleaning liquids and/or cleaning fluids to flush said resin and isocyanate ducts. 7. The foam dispensing apparatus as set forth in claim 1 wherein said resin line and said isocyanate line are pressurized to between 100 and 500 pounds per square inch. 8. The foam dispensing apparatus as set forth in claim 1 wherein said flow rate is between 5 and 70 gallons per minute. 9. The foam dispensing apparatus as set forth in claim 1 wherein said resin duct and said isocyanate duct are separate from each other between said resin and isocyanate lines, respectively, and said nozzle such that the resin and isocyanate components first mix in said nozzle. 10. The foam dispensing apparatus as set forth in claim 9 wherein said nozzle is removable from said manifold for cleaning. 11. The foam dispensing apparatus as set forth in claim 1 wherein said at least one valve is further defined as a resin valve connected to said resin line and an isocyanate valve connected to said isocyanate line. 12. The foam dispensing apparatus as set forth in claim 11 wherein said resin and isocyanate valves are both further defined as pneumatically actuated ball valves. 13. A foam dispensing system for dispensing a mixture of a resin component and an isocyanate component, said foam dispensing system comprising: a source of resin component; a source of isocyanate component; a nozzle for mixing the resin and isocyanate components; a manifold connected to said nozzle and defining a resin duct in communication with said source of resin component and said nozzle for directing the resin component toward said nozzle and an isocyanate duct in communication with said source of isocyanate component and said nozzle for directing the isocyanate component toward said nozzle; a resin line coupling said source of resin component to said resin duct; an isocyanate line coupling said source of isocyanate component to said isocyanate duct; at least one valve connected in-line to said resin and isocyanate lines and being moveable between an open position allowing flow through said resin and isocyanate lines and a closed position preventing flow through said resin and isocyanate lines; wherein said at least one valve is disposed exterior to and spaced upstream from said manifold and wherein the flow is unregulated in said manifold for reducing maintenance of said manifold; at least one gas line in communication with at least one of said resin and isocyanate lines between said valve and said manifold for flushing said resin and isocyanate lines; an actuator coupled to said at least one valve for moving said at least one valve between said open and closed positions; a timer in communication with said actuator for controlling said actuator; and at least one control valve in line with said resin line and said isocyanate line prior to said at least one valve to vary and control a flow rate of the resin component and the isocyanate component therethrough and being externally adjustable of flow control without disassembling said resin line and said isocyanate line; wherein said at least one control valve includes a housing defining an inlet chamber and an outlet chamber spaced from each other along a first axis and a bore extending along a second axis that is angled relative to the first axis and intersecting within said housing, wherein said at least one control valve includes a flow control device disposed in said bore and interconnecting said inlet chamber and said outlet chamber for controlling fluid flow rate between said inlet chamber and said outlet chamber; and wherein said flow control device includes a piston moveable within said bore having a first end disposed adjacent said inlet chamber and defining an aperture and a second end disposed opposite said first end and defining a plurality of orifices and an annular flow path in fluid communication with said outlet chamber, said aperture including a pre-determined cross-sectional area for regulating the fluid flow rate of one of the resin component and the isocyanate component. 14. 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