Quote:
Originally Posted by Adger Smith
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A couple of years ago he and I had this discussion about rocker ratio. The paygrade above us at EMC was wanting us to limit Rocker Ratio.
According to him there is no real way to measure rocker ratio correctly.
Too many variables.
Example: In a Small Block Chevy you are dealing with three distinct intersecting angles. Pushrod, Rocker Stud, Valve angles. Yes, if extended far enough those angles will intersect. Where you locate the rocker on any of the various planes between those angles influences the effective ratio of the rocker.
Say you have a cam lift of .275 and you are looking for a 1.5 ratio to give you a net lift of .410. You set your valve length and pushrod length to get that .410 net lift. OK Presto we have 1.5 Rocker ratio. Does that make the rocker a 1.5 ratio rocker? Probably not. Now you drop the pushrod length by .100 and reposition the rocker and woops the valve lift is now .418.
OOPS, have we changesd the ratio of the rocker, what ratio was it and what is it now. Humm, lets see we lower the length of the valve tip and, oops again the measured valve lift goes to .412. Then if you want to get serious you can mill the stud bosses at an angle and tilt the stud back and the measured lift will change again, all with the same rocker. Wesley told me that measuring Rocker ratio on an engine is not a place you want to go.
Danny must know rocker ratio is a slippery slope. Wesley does.
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Adger -
While I agree with you in theory that you cannot measure the "exact" ratio of a rocker arm, you can determine the difference between a rocker that was intended to be used in the "1.5" range as opposed to one that is designed to be in the "1.8" range or the "1.3" range, especially when there is already a sub-industry that is based on the history of production rocker arms. And that is the purpose of restricting the engine to be built within the same parameters as it was engineered. Nothing wrong with that. Now there will always be those bit-twiddling brainiacs who will figure out how to squeeze the mechanical motion of a fixed rotating lever into a ellipse for their advantage, but it would be to the benefit of all to not reduce the technical acceptance of camshaft checking to what is measured at the valve. It introduces another plateau of expense to an already prohibitively expensive endeavor.
There is a decided difference between somebody fiddling with the production tolerances of rocker arms to change characteristics by a .01 of a ratio or so to attain a bit more lift at the valve and somebody designing a camshaft lobe be used with a rocker arm that is .2-.4 of a ratio more or less than the engine's original design spec to gain horsepower.