Bodymaker and double action domer assembly with staged piston

What is claimed is: 1. A doming station comprising: a domer assembly having a domer body with a domed axial first end and an opposing second end; a housing assembly defining a domer body passage, said domer body passage having a longitudinal axis and being sized to accommodate said domer body whereby said domer body is movably disposed in said domer body passage and structured to move between a forward position and a rearward position; said domer body movably disposed in said domer body passage and structured to move substantially along said domer body passage longitudinal axis between a forward, first position and a retracted, second position; a domer assembly shock absorbing assembly having a pressurized fluid supply and a stacked piston assembly; said domer stacked piston assembly having a plurality of pistons, each said piston having an associated pressure chamber, said pistons disposed in series and located in said domer body passage, each said piston having a forward side and a rearward side, each said piston structured to move between a first position, wherein each said piston does not operatively engage said domer body, and a second, operatively engaged position, wherein each said piston operatively engages said domer body; said domer stacked piston assembly pistons disposed in series structured to operatively engage said domer body second end; said domer stacked piston assembly pressurized fluid supply structured to provide pressurized fluid to each said domer stacked piston assembly piston pressure chamber, whereby said each domer stacked piston assembly piston is structured to be biased toward said forward side and each domer stacked piston assembly piston is structured be moved independently between said first and second positions; wherein, upon motion of said domer body toward said second position, each said domer stacked piston assembly piston is structured to operatively engage said domer body and bias said domer body toward said domer body forward position; when said domer stacked piston assembly pistons are in said first position, each said domer stacked piston assembly piston is separated by a predetermined spacing; and whereby, when said domer body moves toward said second position, each said domer stacked piston assembly piston incrementally operatively engages said domer body second end, thereby incrementally increasing the pressure on said domer body second end. 2. The doming station of claim 1 wherein each said domer stacked piston assembly piston forward side has an area that is smaller than the piston second side area. 3. The doming station of claim 1 wherein: said plurality of domer stacked piston assembly stacked pistons includes a first piston, a second piston, and a third piston; said domer stacked piston assembly first piston forward side directly engaging said domer body; said domer stacked piston assembly second piston forward side directly engaging said domer stacked piston assembly first piston second side; and said domer stacked piston assembly third piston forward side directly engaging said domer stacked piston assembly second piston second side. 4. The doming station of claim 1 wherein said domer assembly shock absorbing assembly pressurized fluid supply is a pneumatic fluid supply. 5. The doming station of claim 1 wherein each said domer assembly stacked piston assembly piston is structured to move independently. 6. A doming station comprising: a domer assembly having a domer body with a domed axial end and an opposing second end; a housing assembly defining a domer body passage, said domer body passage having a longitudinal axis and being sized to accommodate said domer body, whereby said domer body is movably disposed in said domer body passage and structured to move between a forward position and a rearward position; said domer body movably disposed in said domer body passage and structured to move substantially along said domer body passage longitudinal axis between a forward, first position and a retracted, second position; a domer assembly shock absorbing assembly having a pressurized fluid supply and a stacked piston assembly; said domer stacked piston assembly having a plurality of pistons, each said piston having an associated pressure chamber, said pistons disposed in series and located in said domer body passage, each said piston having a forward side and a rearward side, each said piston structured to move between a first position, wherein each said piston does not operatively engage said domer body, and a second, operatively engaged position, wherein each said piston operatively engages said domer body; said domer stacked piston assembly pistons disposed in series structured to operatively engage said domer body second end; said domer stacked piston assembly pressurized fluid supply structured to provide pressurized fluid to each said domer stacked piston assembly piston pressure chamber, whereby said each domer stacked piston assembly piston is structured to be biased toward said forward side and each domer stacked piston assembly piston is structured be moved independently between said first and second positions; wherein, upon motion of said domer body toward said second position, each said domer stacked piston assembly piston is structured to operatively engage said domer body and bias said domer body toward said domer body forward position; each said domer stacked piston assembly piston has a generally cylindrical body with an L-shaped cross-section defining a wide outer radius portion of each said piston body and a narrow outer radius portion of each said piston body; each said domer stacked piston assembly piston forward side being the axial face of each said domer stacked piston assembly piston body narrow outer radius portion; and each said domer stacked piston assembly piston rearward side being the axial face of each said domer stacked piston assembly piston body wide outer radius portion. 7. A doming station comprising: a domer assembly having a domer body with a domed axial first end and an opposing second end; a housing assembly defining a domer body passage, said domer body passage having a longitudinal axis and being sized to accommodate said domer body, whereby said domer body is movably disposed in said domer body passage and structured to move between a forward position and a rearward position; said domer body movably disposed in said domer body passage and structured to move substantially along said domer body passage longitudinal axis between a forward, first position and a retracted, second position; a domer assembly shock absorbing assembly having a pressurized fluid supply and a stacked piston assembly; said domer stacked piston assembly having a plurality of pistons, each said piston having an associated pressure chamber, said pistons disposed in series and located in said domer body passage, each said piston having a forward side and a rearward side, each said piston structured to move between a first position, wherein each said piston does not operatively engage said domer body, and a second, operatively engaged position, wherein each said piston operatively engages said domer body; said domer stacked piston assembly pistons disposed in series structured to operatively engage said domer body second end; said domer stacked piston assembly pressurized fluid supply structured to provide pressurized fluid to each said domer stacked piston assembly piston pressure chamber, whereby said each domer stacked piston assembly piston is structured to be biased toward said forward side and each domer stacked piston assembly piston is structured be moved independently between said first and second positions; wherein, upon motion of said domer body toward said second position, eac