Fusion outlet isolation valve with thermoplastic overmolding

The invention claimed is: 1. A fluid isolation valve with a multi-tiered fusion coupling, comprising: a metal valve body having a first port and a second port and defining a fluid passageway between said first port and said second port; an overmolded thermoplastic polymer end surrounding and enclosing a distal portion of one of said first and second ports; a ball disposed in the valve body between said first and second ports; wherein said distal portion of one of said first and second ports comprises at least one rib extending therefrom in a direction substantially parallel to a longitudinal axis of said one of first and second ports; wherein said at least one rib is configured to prevent said overmolded thermoplastic polymer end from rotating about the distal portion of said first or second port to which it is coupled; and wherein said overmolded thermoplastic polymer extends beyond said at least one rib to the multi-tiered fusion coupling, including a larger exterior diameter section with a concave surface and a smaller exterior diameter section, extending from the larger exterior diameter, with a concave surface. 2. The fluid isolation valve of claim 1 , wherein said valve body is made of brass. 3. The fluid isolation valve of claim 1 , wherein said at least one substantially parallel rib is a protrusion extending from a distal end of said one of said first and second ports. 4. The fluid isolation valve of claim 1 , wherein said overmolded end comprises polypropylene random copolymer with modified crystallinity and temperature resistance (PP-RCT) material. 5. The fluid isolation valve of claim 1 , wherein said smaller exterior diameter section is at a terminal end of the coupling and the larger exterior diameter section is located between the smaller diameter section and said overmolded rib section. 6. The fluid isolation valve of claim 1 , wherein two immediately adjacent ribs form a channel in between, wherein the channel is configured to receive a portion of the overmolded thermoplastic polymer within. 7. A fluid isolation valve, comprising: a metal valve body having a first port, a second port, and a fluid passageway between said first port and said second port; an overmolded thermoplastic polymer end surrounding a distal portion of one of said first and second ports; a ball disposed in the valve body, between said first port and said second port; wherein the distal portion of said one of said first and second ports comprises at least one protrusion extending therefrom in a direction substantially parallel to a longitudinal axis of said one of the first and second ports, the at least one protrusion is configured to prevent the overmolded end from rotating about the distal portion of said one of the first and second ports; and wherein said overmolded thermoplastic polymer extends beyond said at least one protrusion to a coupling, with at least one tier having a larger exterior diameter section with a concave surface and a smaller diameter section, extending from the larger exterior diameter section, with a concave surface. 8. The fluid isolation valve of claim 7 , wherein said valve body is made of brass. 9. The fluid isolation valve of claim 7 , wherein said overmolded end comprises PP-R material. 10. The fluid isolation valve of claim 7 , wherein said overmolded end comprises PP-RCT material. 11. The fluid isolation valve of claim 7 , wherein said smaller exterior diameter section is at a terminal end of the coupling and the larger exterior diameter section is located between the smaller diameter section and said at least one protrusion. 12. A coupling of a fluid isolation valve to a polymeric pipe, comprising: the polymeric pipe with a generally cylindrical outer wall, having an opening in the generally cylindrical outer wall; a metal valve body having a first port, a second port, and a fluid passageway between said first port and said second port; an overmolded thermoplastic polymer end surrounding a distal portion of said first port; a ball disposed in the valve body, between said first port and said second port; wherein the distal portion of said first port comprises at least one protrusion extending therefrom in a direction substantially parallel to a longitudinal axis of said first port; wherein said overmolded thermoplastic polymer extends beyond said at least one protrusion to a coupling with at least one tier; wherein said at least one tier includes a larger exterior diameter section with a concave surface and a smaller exterior diameter section, extending from the larger exterior diameter section, with a concave surface; and wherein said concave surface of said larger exterior diameter section generally conforms to the generally cylindrical outer wall of said polymeric pipe when the fluid passageway of said metal valve body is aligned with said opening in said generally cylindrical outer wall of said polymeric pipe. 13. The coupling of a fluid isolation valve to a polymeric pipe of claim 12 , wherein said concave surface is fused with said generally cylindrical outer wall by heat. 14. The coupling of a fluid isolation valve to a polymeric pipe of claim 12 , wherein the overmolded thermoplastic polymer is a PP-RCT material. 15. The coupling of a fluid isolation valve to a polymeric pipe of claim 12 , wherein the valve is made of brass. 16. The coupling of a fluid isolation valve to a polymeric pipe of claim 12 , wherein the at least one protrusion includes two immediately adjacent protrusions forming a channel in between, wherein the channel is configured to receive a portion of the overmolded thermoplastic polymer within. 17. The coupling of a fluid isolation valve to a polymeric pipe of claim 12 , wherein said second port is a press-fit coupling. 18. The coupling of a fluid isolation valve to a polymeric pipe of claim 12 , wherein said second port is a push-to-connect fitting. 19. The coupling of a fluid isolation valve to a polymeric pipe of claim 12 , wherein said second port also includes an overmolded thermoplastic polymer section.