Bodymaker and double action domer assembly with staged piston

What is claimed is: 1. A method of forming a dome in the bottom of a cup-like member, said cup-like member disposed on a moving punch, said punch having a longitudinal axis and structured to move into contact with a domer station, said domer station having a movable domer body and a movable clamp ring assembly, said clamp ring assembly including a clamping ring body, said domer body and clamping ring body each structured to move between a forward position and a rearward position, said domer body and clamping ring body structured to move along an axis generally aligned with said punch longitudinal axis, said method of forming a dome in the bottom of a cup-like member comprising the steps of: positioning said domer body and clamping ring body in the forward position; moving said cup-like member into engagement with said domer body and said clamping ring body while allowing said domer body and said clamping ring body to move toward said rearward position; and incrementally applying pressure to a rearward side of said domer body and a rearward side of said clamping ring body thereby biasing said domer body and said clamping ring body toward the forward position, whereby the bottom of said cup-like member is deformed, wherein said domer station includes a domer stacked piston assembly with a plurality of domer pistons and wherein incrementally applying pressure to the rearward side of said domer body includes applying a constant, uniform fluid pressure to said domer stacked piston assembly stacked pistons. 2. The method of claim 1 wherein said applying pressure to the rearward side of said domer body includes incrementally increasing the pressure to the rearward side of said domer body. 3. The method of claim 2 wherein applying pressure to the rearward side of said clamping ring body includes incrementally increasing the pressure to the rearward side of said clamping ring body. 4. The method of claim 1 , wherein said domer station includes a clamping ring assembly stacked piston assembly with a plurality of clamping ring assembly pistons and wherein incrementally applying pressure to the rearward side of said clamping ring body includes applying a constant, uniform fluid pressure to said clamping ring assembly stacked piston assembly stacked pistons. 5. The method of claim 1 wherein said domer station includes a clamping assembly stacked piston assembly with a plurality of clamping assembly pistons and wherein incrementally applying pressure to the rearward side of said clamping ring body includes applying a constant, uniform fluid pressure to said clamping ring assembly stacked piston assembly stacked pistons. 6. A method of forming a dome in the bottom of a cup-like member, said cup-like member disposed on a moving punch, said punch having a longitudinal axis and structured to move into contact with a domer station, said domer station having a movable domer body, said domer body structured to move between a forward position and a rearward position, said domer body structured to move along an axis generally aligned with said punch longitudinal axis, said method of forming a dome in the bottom of a cup-like member comprising the steps of: positioning said domer body in the forward position; moving said cup-like member into engagement with said domer body while allowing said domer body to move toward said rearward position; and incrementally applying pressure to a rearward side of said domer body by allowing said domer body to sequentially engage a plurality of domer stacked piston assembly stacked pistons thereby biasing said domer body toward the forward position, whereby the bottom of said cup-like member is deformed. 7. The method of claim 6 wherein incrementally applying pressure to the rearward side of said domer body includes incrementally increasing the pressure to the rearward side of said domer body. 8. The method of claim 6 wherein the sequential engagement of said plurality of domer stacked piston assembly stacked pistons includes providing a predetermined spacing between said domer stacked piston assembly stacked pistons. 9. The method of claim 8 wherein each domer stacked piston assembly piston is structured to be moved independently between a first position and a second position and wherein providing a predetermined spacing between said domer stacked pistons includes providing a predetermined spacing between said domer stacked pistons when said domer stacked piston assembly pistons are in said first position. 10. The method of claim 9 wherein providing a predetermined spacing between said domer stacked pistons when said domer stacked piston assembly pistons are in said first position includes one of providing a predetermined spacing between about 0.002 and 0.005 inch, or, between about 0.010 and 0.015 inch. 11. The method of claim 10 wherein incrementally applying pressure to the rearward side of said domer body includes applying a constant, uniform fluid pressure to said domer stacked piston assembly stacked pistons. 12. The method of claim 6 wherein incrementally applying pressure to the rearward side of said domer body includes applying a constant, uniform fluid pressure to said domer stacked piston assembly stacked pistons. 13. A method of forming a dome in the bottom of a cup-like member, said cup-like member disposed on a moving punch, said punch having a longitudinal axis and structured to move into contact with a domer station, said domer station having a movable domer body and a movable clamp assembly, said clamp assembly including a clamping ring body, said domer body and clamping ring body each structured to move between a forward position and a rearward position, said domer body and clamping ring body structured to move along an axis generally aligned with said punch longitudinal axis, said method of forming a dome in the bottom of a cup-like member comprising the steps of: positioning clamping ring body in the forward position; moving said cup-like member into engagement with said clamping ring body while allowing said clamping ring body to move toward said rearward position; and incrementally applying pressure to a rearward side of said clamping ring body by allowing said clamping ring body to sequentially engage a plurality of clamping ring assembly stacked piston assembly stacked pistons thereby biasing said clamping ring body toward the forward position whereby the bottom of said cup-like member is deformed. 14. The method of claim 13 wherein incrementally applying pressure to the rearward side of said clamping ring body includes incrementally increasing the pressure to the rearward side of said clamping ring body. 15. The method of claim 13 wherein the sequential engagement of said clamping ring assembly stacked piston assembly stacked pistons includes providing a predetermined spacing between said clamping assembly stacked piston assembly stacked pistons. 16. The method of claim 15 wherein each clamping ring assembly stacked piston assembly piston is structured to be moved independently between a first position and a second position and wherein providing a predetermined spacing between said clamping assembly stacked pistons includes providing a predetermined spacing between said clamping assembly stacked pistons when said clamping ring assembly stacked piston assembly pistons are in said first position. 17. The method of claim 16 wherein providing a predetermined spacing between said clamping assembly stacked pistons when said clamping ring assembly stacked piston assembly pistons are in said first position includes one of providing a predeterm