Adaptive valve spring retainer

The invention claimed is: 1. An adaptive valve assembly comprising: a pipe defining a passageway for conducting engine exhaust gases; a pivot shaft supported by said pipe; a valve body coupled to said pivot shaft, said valve body moveable between an open position where exhaust gas flow through said passageway is increased and a closed position where exhaust gas flow through said passageway is reduced; a resilient member biasing said valve body toward said closed position, wherein said resilient member comprises a spring having a first spring end configured to be fixed to a non-rotating structure and a second spring end configured to be rotatable with said pivot shaft; and a retainer that cooperates with said resilient member to define a valve stop for said valve body when in said closed position, wherein said retainer comprises a first retainer piece fixed to said non-rotating structure and a second retainer piece fixed to said pivot shaft, and wherein said first retainer piece provides said valve stop, and said first retainer piece includes an abutment surface surrounding a pivot shaft opening which directly abuts against an end face of said spring, and wherein the first retainer piece comprises a first end plate with said pivot shaft opening through which the pivot shaft extends and an extension portion that extends axially away from one edge of the first end plate to define the valve stop, and wherein the first end plate includes the abutment surface surrounding said pivot shaft opening. 2. The adaptive valve assembly according to claim 1 wherein said first spring end remains fixed to the non-rotating structure when said second spring end moves out of engagement with said first retainer piece as said valve body moves toward said open position. 3. The adaptive valve assembly according to claim 1 , wherein said spring comprises a coil spring that surrounds said pivot shaft, and wherein said abutment surface extends around said pivot shaft opening and directly abuts against an end face defined by an end coil of said spring that surrounds said pivot shaft. 4. The adaptive valve assembly according to claim 1 wherein the second spring end engages said valve stop when in said closed position and moves out of engagement with said valve stop when in said open position with said end face of said spring being engaged with said abutment surface during rotation. 5. The adaptive valve assembly according to claim 1 , wherein said resilient member and said retainer are located externally of said pipe. 6. The adaptive valve assembly according to claim 5 , wherein the adaptive valve assembly comprises a passive valve where said valve body is solely moveable from said closed position toward said open position in response to an increase in exhaust gas pressure flow against said valve body. 7. The adaptive valve assembly according to claim 1 , wherein the second retainer piece rotates the second spring end out of engagement with the first retainer piece as exhaust gas flow overcomes a biasing force of the spring and wherein the second spring end returns to engage the valve stop of the first retainer piece when the biasing force exceeds exhaust gas flow pressure. 8. The adaptive valve assembly according to claim 7 , wherein the extension portion of the first retainer piece comprises a first plate portion extending over the spring and the second retainer piece comprises a second plate portion extending over the spring in a radially overlapping relationship with the first plate portion, and wherein the first and second plate portions are radially spaced apart from each other by a gap such that the second plate portion rotates about the axis relative to the first plate portion. 9. The adaptive valve assembly according to claim 1 wherein said first end plate is fixed to said non-rotating structure, and wherein said extension portion extends transversely relative to said first end plate and toward said second retainer piece, said second spring end engaging said extension portion to define said valve stop. 10. The adaptive valve assembly according to claim 9 , wherein said second retainer piece comprises a second end plate that is fixed to said pivot shaft, said second end plate including at least one extension portion extending transversely relative to said second end plate and toward said first retainer piece, and wherein said extension portions of said first and second end plates are positioned in an overlapping relationship with each other. 11. The adaptive valve assembly according to claim 9 , wherein said abutment surface holds said first spring end fixed relative to said pivot shaft. 12. A method of controlling movement of an adaptive valve assembly comprising the steps of: (a) providing a valve body moveable between an open and closed position within an exhaust gas passageway; (b) providing a retainer with a first retainer piece and a second retainer piece, and including fixing the first retainer piece to a non-rotating structure that defines the exhaust gas passageway, and fixing the second retainer piece for rotation with a pivot shaft that supports the valve body; (c) resiliently biasing the valve body toward the closed position with a resilient member, wherein the resilient member comprises a spring having a first spring end and a second spring end, and including associating the first spring end with the non-rotating structure and configuring the second spring end to move with the pivot shaft; (d) providing the first retainer piece with an abutment surface surrounding a pivot shaft opening which directly abuts against an end face of said spring which surrounds the pivot shaft; and (e) defining a valve stop position on the first retainer piece for the valve body in the closed position wherein the second spring end abuts against the first retainer piece in the valve stop position, and wherein the first retainer piece comprises a first endplate, which includes the pivot shaft opening through which the pivot shaft extends, and a first extension portion that extends axially away from one edge of the first endplate to define the valve stop, and wherein the first endplate includes the abutment surface surrounding said pivot shaft opening, and wherein the second retainer piece comprises a second end plate that is fixed to the pivot shaft and which further includes a second extension portion that extends axially away from one edge of the second endplate to be in an overlapping relationship with the first extension portion. 13. The method according to claim 12 , including locating the resilient member and the retainer externally of the exhaust gas passageway, and only moving the valve body from the closed position toward the open position when a pressure of exhaust gas within the exhaust gas passageway exceeds a biasing force of the resilient member. 14. The method according to claim 12 , wherein the valve body rotates about an axis relative to the non-rotating structure, and including rotating the second spring end with the second retainer piece out of engagement with the first retainer piece as exhaust gas flow overcomes a biasing force of the resilient member and wherein the second spring end rotates to return to engage the first retainer piece, which defines the valve stop position, when the biasing force exceeds exhaust gas flow pressure. 15. The method according to claim 14 , including spacing the first and second extension portions radially apart from each other such that the second extension portion rotates about the axis relative to the first extension portion. 16. The method according to claim 12 , wherein the firs