Arrangements for lubricating outboard marine engines

What is claimed is: 1. An outboard marine engine comprising: a vertically aligned bank of piston-cylinders; a camshaft that operates a plurality of valves for controlling flow of air with respect to the vertically aligned bank of piston-cylinders, the camshaft vertically extending between a lower camshaft end and an upper camshaft end; a cam lobe at the upper camshaft end, wherein rotation of the camshaft causes the cam lobe to operate an uppermost valve in the plurality of valves; an upper cam bearing bulkhead that supports rotation of the upper camshaft end; and a lubricant circuit extending through the camshaft and having a lubricant outlet located at the upper camshaft end, wherein the lubricant outlet is configured to disperse lubricant onto the uppermost valve which is located above the uppermost cam bearing bulkhead. 2. The outboard marine engine according to claim 1 , wherein the uppermost valve comprises a valve bucket that is cammingly engaged by the cam lobe during rotation of the camshaft, and wherein the lubricant circuit is configured to disperse the lubricant onto the valve bucket. 3. The outboard marine engine according to claim 2 , wherein the valve bucket comprises an end wall and a perimeteral sidewall, and wherein the lubricant outlet is configured to disperse the lubricant onto the end wall. 4. The outboard marine engine according to claim 1 , wherein the lubricant outlet comprises a radial outlet hole in the camshaft. 5. The outboard marine engine according to claim 4 , wherein the lubricant outlet comprises a lubricant passageway in the upper cam bearing bulkhead. 6. The outboard marine engine according to claim 5 , wherein the radial outlet hole opens to the lubricant passageway in the upper cam bearing bulkhead upon each 360 degree rotation of the camshaft, thereby intermittently dispersing the lubricant from the camshaft to the lubricant passageway in the upper cam bearing bulkhead. 7. The outboard marine engine according to claim 5 , wherein the radial outlet hole is one of a plurality of radial outlet holes in the camshaft that are angularly oriented apart from each other, wherein each radial outlet hole opens to the lubricant passageway in the upper cam bearing bulkhead upon each rotation of the camshaft, thereby intermittently dispersing the lubricant from the camshaft to the lubricant passageway in the upper cam bearing bulkhead. 8. The outboard marine engine according to claim 5 , further comprising an upper cam cap on the upper cam bearing bulkhead, wherein the camshaft extends through a tunnel defined between the upper cam cap and the upper cam bearing bulkhead. 9. The outboard marine engine according to claim 8 , wherein the cam lobe is located vertically above the upper cam cap and upper cam bearing bulkhead. 10. The outboard marine engine according to claim 9 , wherein the cam lobe has a sidewall having a cutout that permits the lubricant to pass from the lubricant passageway in the upper cam bearing bulkhead to the uppermost valve during rotation of the camshaft. 11. The outboard marine engine according to claim 10 , wherein the cam lobe comprises a teardrop-shaped cutout. 12. The outboard marine engine according to claim 1 , wherein the lubricant circuit comprises a lubricant inlet at the lower camshaft end. 13. The outboard marine engine according to claim 12 , wherein the lubricant inlet comprises a radial inlet hole in the camshaft. 14. The outboard marine engine according to claim 13 , further comprising a lower cam bearing bulkhead that supports rotation of the lower camshaft end, wherein the lubricant inlet comprises a lubricant passageway in the lower cam bearing bulkhead. 15. The outboard marine engine according to claim 14 , wherein the lubricant inlet further comprises a recess formed in the lower cam bearing bulkhead, and wherein the radial inlet hole is opened to the recess in the lower cam bearing bulkhead upon each 360 degree rotation of the camshaft, thereby intermittently allowing the lubricant to flow into the camshaft. 16. The outboard marine engine according to claim 14 , wherein the lubricant inlet further comprises a recess formed in the lower cam bearing bulkhead, and wherein the radial inlet hole is one of a pair of radial inlet holes in the camshaft that are angularly oriented apart from each other, wherein each radial inlet hole opens to the recess in the lower cam bearing bulkhead upon each rotation of the camshaft, thereby intermittently allowing the lubricant to flow into the camshaft. 17. The outboard marine engine according to claim 12 , further comprising a pump that pumps the lubricant to the lubricant inlet. 18. The outboard marine engine according to claim 1 , wherein the camshaft comprises an intake camshaft and wherein the plurality of valves comprises plurality of intake valves for controlling inflow of air to the vertically aligned bank of piston-cylinders, the intake camshaft vertically extending between a lower intake camshaft end and an upper intake camshaft end. 19. The outboard marine engine according to claim 1 , wherein the camshaft comprises an exhaust camshaft and wherein the plurality of valves comprises a plurality of exhaust valves for controlling outflow of exhaust gas from the vertically aligned bank of piston-cylinders, the lower camshaft end comprising a lower exhaust camshaft end and the upper camshaft end comprising an upper exhaust camshaft end. 20. An outboard marine engine, comprising: a vertically aligned bank of piston-cylinders; an exhaust camshaft that operates a plurality of exhaust valves for controlling flow of exhaust air with respect to the vertically aligned bank of piston-cylinders, the exhaust camshaft vertically extending between a lower exhaust camshaft end and an upper exhaust camshaft end; an intake camshaft that operates a plurality of intake valves for controlling flow of intake air with respect to the vertically aligned bank of piston-cylinders, the intake camshaft vertically extending between a lower intake camshaft end and an upper intake camshaft end; a exhaust cam lobe at the upper exhaust camshaft end, wherein rotation of the exhaust camshaft causes the exhaust cam lobe to operate an uppermost exhaust valve in the plurality of exhaust valves; an intake cam lobe at the upper intake camshaft end, wherein rotation of the intake camshaft causes the intake cam lobe to cam open an uppermost intake valve in the plurality of intake valves; upper cam bearing bulkheads that support rotation of the upper exhaust camshaft end and upper intake camshaft end; a lubricant circuit extending through the exhaust camshaft and the intake camshaft, the lubricant circuit having a first lubricant outlet located at the upper exhaust camshaft end and a second lubricant outlet located at the upper intake camshaft end, wherein the first and second lubricant outlets are configured to disperse lubricant onto the uppermost exhaust valve and intake valve, respectively, which is located above the upper cam bearing bulkheads. 21. An outboard marine engine comprising: a vertically aligned bank of piston cylinders; a camshaft that operates a plurality of valves for controlling flow of air with respect to the vertically aligned bank of piston cylinders, the camshaft vertically extending between a lower camshaft end and an upper camshaft end; a cam lobe at the upper camshaft end, wherein rotation of the camshaft causes the cam lobe to operate an uppermost valve in the plurality of valves; a lubricant circuit e