Cam driven bodymaker

What is claimed is: 1. A ram drive assembly for a can bodymaker including a mounting assembly and a number of forming assemblies supported thereon, each forming assembly including: a stationary assembly and a moving assembly, the stationary assembly including a die pack and a domer, the moving assembly including a ram assembly and a cam follower assembly, the die pack defining an elongated forming passage having a proximal end and a distal end, the domer disposed adjacent the distal end of the forming passage, the ram assembly including an elongated ram body having a proximal end and a distal end, the cam follower assembly coupled to the proximal end of the ram body, the ram body structured to reciprocate through the forming passage of the die pack between a retracted, first position, wherein the distal end of the ram body is spaced from the die pack, and, an extended, second position wherein the distal end of the ram body is adjacent the domer, the ram drive assembly comprising: a cam having a body with a number of cooperative cam surfaces structured to operatively engage the cam follower assembly of each forming assembly; and a motor having a rotating output shaft operatively coupled to said cam body and structured to rotate said cam body, wherein the cam body is a disk cam. 2. The ram drive assembly of claim 1 , wherein: the number of cooperative cam surfaces define a plurality of drive portions including a forward stroke portion and a rearward stroke portion; and at least one of the forward stroke portion or the rearward stroke portion has a constant velocity cam profile. 3. The ram drive assembly of claim 2 , wherein: the number of cooperative cam surfaces define a number of dwell portions; each dwell portion has a no velocity cam profile; and at least one dwell portion is disposed between at least one forward stroke portion and one rearward stroke portion. 4. The ram drive assembly of claim 3 , wherein: the number of cooperative cam surfaces define a number of acceleration portions; each acceleration portion having an acceleration profile; and each acceleration portion is disposed between one drive portion of the plurality of drive portions and one dwell portion of the number of dwell portions. 5. The ram drive assembly of claim 1 , wherein the cam body is a dynamic cam body. 6. The ram drive assembly of claim 1 , wherein the cam body is a steady state cam body. 7. The ram drive assembly of claim 1 , wherein the cam is structured to generate a smooth ironing action in the ram body. 8. The ram drive assembly of claim 1 , wherein the cam is structured to be a direct operative coupling element. 9. A can bodymaker comprising: a mounting assembly including a body with an upper, first surface; a ram drive assembly comprising: a cam having a body with a number of cooperative cam surfaces, and a motor having a rotating output shaft operatively coupled to said cam body and structured to rotate said cam body; and a forming system including a number of forming assemblies positioned on the mounting assembly, each forming assembly comprising: a stationary assembly including: a die pack defining an elongated forming passage having a proximal end and a distal end, and a domer disposed adjacent the distal end of the forming passage, and a moving assembly including: a ram assembly including an elongated ram body having a proximal end and a distal end, and a cam follower assembly coupled to the proximal end of the ram body, wherein each cam follower assembly of each forming assembly cooperatively engages the number of cooperative cam surfaces of the body of the cam, and wherein for each forming assembly, the ram body is reciprocated through the forming passage of the die pack by the cam follower assembly between a retracted, first position, wherein the distal end of the ram body is spaced from the die pack, and, an extended, second position wherein the distal end of the ram body is adjacent the domer, wherein said cam body is a disk cam. 10. The can bodymaker of claim 9 , wherein: the number of cooperative cam surfaces define a plurality of drive portions including a forward stroke portion and a rearward stroke portion; and at least one of the forward stroke portion or the rearward stroke portion has a constant velocity cam profile. 11. The can bodymaker of claim 10 , wherein: the number of cooperative cam surfaces define a number of dwell portions; each dwell portion has a no velocity cam profile; and at least one dwell portion is disposed between at least one forward stroke portion and one rearward stroke portion. 12. The can bodymaker of claim 11 wherein: the number of cooperative cam surfaces define a number of acceleration portions; each acceleration portion having an acceleration profile; and each acceleration portion is disposed between one drive portion of the plurality of drive portions and one dwell portion of the number of dwell portions. 13. The can bodymaker of claim 9 wherein said cam body is a dynamic cam body. 14. The can bodymaker of claim 9 wherein said cam body is a steady state cam body. 15. The can bodymaker of claim 9 wherein said cam is structured to generate a smooth ironing action in said ram body. 16. The can bodymaker of claim 9 wherein said cam is a direct operative coupling element. 17. The can bodymaker of claim 9 wherein said ram drive assembly does not include either of a crank or a swing arm.