Can body linear loader assembly

What is claimed: 1. A beverage can body loader assembly comprising a pair of opposing loader subassemblies, each subassembly comprising: a can loading turret adapted for receiving horizontally oriented beverage can bodies, the can loading turret adapted for discharging the can bodies at a predetermined pitch; a vacuum belt extending from a discharge region of the can loading turret, the belt being adapted for receiving the can bodies discharged from the can loading turret and adapted for transporting the can bodies in the horizontal orientation at the predetermined pitch; and a control system configured to (i) start the can loading turret and vacuum belt to position an array of can bodies on the vacuum belt, (ii) to pause during an unloading phase in which a group of the can bodies is removed from the vacuum belt, and (iii) restart the can loading turret and vacuum belt to position another array of can bodies on the vacuum belt. 2. The loader assembly of claim 1 wherein the can loading turret includes an infeed starwheel having pockets adapted for receiving the can bodies. 3. The loader assembly of claim 2 wherein each one of the pockets of the infeed starwheel assembly has an asymmetrical profile. 4. The loader assembly of claim 3 wherein each pocket has a trailing portion and a leading portion, the trailing portion registers the can body in the pocket to define a pocket pitch that corresponds to the predetermined pitch of the can bodies on the vacuum belt. 5. The loader assembly of claim 4 wherein the trailing portion includes a portion having a radius that is approximately equal to an outside radius of the can bodies. 6. The loader assembly of claim 4 wherein the loader assembly is adapted to register the can bodies at a centerline tolerance within +/−1.0 mm. 7. The loader assembly of claim 4 wherein the loader assembly is adapted to register the can bodies at a centerline tolerance within +/−0.7 mm. 8. The loader assembly of claim 4 wherein the loader assembly is adapted to register the can bodies at a centerline tolerance within +/−0.5 mm. 9. The loader assembly of claim 4 wherein the can loading turret is an upper turret, the loader assembly further comprising a lower turret having pockets aligned with the pockets of the upper turret. 10. The loader assembly of claim 4 wherein the predetermined pitch is 70 mm for a 66 mm diameter can. 11. The loader assembly of claim 4 wherein the vacuum belt is oriented horizontally and includes holes for exposing bottoms of the can bodies to belt vacuum. 12. A method for feeding beverage can bodies comprising the steps of: (a) feeding can bodies to a can loading turret; (b) handing off the can bodies to pockets of the can loading turret in a horizontal orientation such that each can body extends in a horizontal direction from a base of the can body to a top of the can body; (c) releasing the cans from a discharge region on the can loading turret and feeding the can bodies onto a linear vacuum belt at a predetermined pitch; (d) conveying the can bodies on the belt toward a discharge end of the belt in the horizontal orientation such that each can body remains extending in the horizontal direction at the predetermined pitch; and (e) pausing motion of the belt and the can loading turret while the can bodies are removed from the belt. 13. The method of claim 12 further comprising repeating steps (a) through (d) after the can bodies are removed from the belt in step (e). 14. The method of claim 12 wherein the feeding step (a) includes feeding the can bodies on an infeed track. 15. A method for feeding beverage can bodies comprising the steps of: (a) feeding can bodies to a can loading turret; (b) handing off the can bodies to pockets of the can loading turret; (c) releasing the cans from a discharge region on the can loading turret and feeding the can bodies onto a linear vacuum belt at a predetermined pitch; (d) conveying the can bodies on the belt toward a discharge end of the belt; (e) pausing motion of the belt and the can loading turret while the can bodies are removed from the belt; and repeating steps (a) through (d) after the can bodies are removed from the belt in step (e), wherein the handing off step (b) includes positioning the can bodies into pockets having an asymmetrical profile that includes a trailing portion and a leading portion, the trailing portion registers the can body in the pocket that defines a radius that is approximately equal to an outside radius of the can bodies, thereby enabling the releasing step (c) to register the can bodies on the belt within +/−1 mm centerline tolerance. 16. The method of claim 15 wherein the registration is within +/−0.5 mm. 17. The method of claim 15 wherein the releasing step (c) includes enhancing release of the can bodies via a lower turret having pockets aligned with the pockets of the can loading turret. 18. The method of claim 15 wherein the predetermined pitch is 70 mm for a 66 mm diameter can. 19. The method of claim 15 further comprising the step of removing the can bodies from the belt including inserting mandrels into the can bodies during the pausing step (e). 20. The method of claim 19 wherein the removing step includes interrupting vacuum pressure to the discharge end of the belt.