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- Dec 31, 2010
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You are correct and that particular solution to do both (add to the piston and to the connecting rod) was just one of the many places I ended up with good compression. Noticing that effect, I actually tried transferring all of what I added to the piston to the conrod instead and vise versa in increments.
The whole thing is a repetitive trial and error and that's just were I ended up with one of dozens of trials.
Then I started thinking about someone modifying an existing engine and decided that just adding to the piston would be a simple(er) fix. BUT it appears from my experimentation the best solution is not to add just to the conrod because the piston movement is not linear so the effect of adding to the rod isn't linear either (even though it pretty linear as the piston gets to the center of it's travel). So I did end up with a balance. But there was very little added to the piston top. (note I again haven't given values). Of course either of those changes can cause piston clash at the right end so..... Over and over you go.
I think we might be on the same page with the intake port. Although I don't understand your explanation we're probably saying the same thing. From watching the model I can see that there is a point in the movement of the pistons together to the left where the gap between them is maximum - therefore trapping the maximum mixture. Slotting the intake port to the proper point allows the mixture to "flow" onto that gap before it is trapped. The more you trap and compress into a fixed volume on the left end is by definition better compression.
I have been intentionally vague with any dimensions because the more I read the book the more IMHO I've concluded it's a piece of crap. Many confusing dimensions and dimension s that don't jive from one place in the book to another and very poor and vague descriptions of assembly.
Case in point is pages 83 through 87 where they basically suggest just slapping the cylinder assembly onto the front of the engine and fiddling with it's position until the movements just "work properly" giving several thing to look for. Anyone that knows how finicky the movement is knows that is not a proper suggestion. They even suggest that new connecting links might be required to make the movement work properly.
IMHO this is completely un-acceptable as any other set of drawings I've used ASSUME you have made everything as per the plans and that it WILL work if they give the the proper dimension for assembly and they do so.
SO it's for this reason I've concluded that anyone with an existing engine should NOT take any of my advice because I can't guarantee how your particular engine is currently assembled. Moving almost anything a few thou changes the whole operation.
So I think I've decided to build it according to my drawings but that will take some time. Don't expect results any time soon.
I might consider a build log here when I start.
But who knows I might fail too.
BTW have you tried propane or a vapor carb?? I ask because watching the movement with respect to the intake slot some of the movement is just shuttling of the pistons with very little relative movement and so the actual vacuum produced may be very low. So low that the intake valve may not work. I'm thinking propane under a very slight pressure - just enough to be cut off by the valve spring and no more, may go in better under low vacuum. Also a carb generally does not work well with low vacuum so the liquid fuel will not be vaporized. A vapor carb might be better.
Food for thought.
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