Greetings, AeroBuilders...
I'd like to follow up on my tight engine issue, maybe my adventures will help a new or yet-to-be builder avoid spending extra time on the engine build.
To review, I built up my engine with as much precision as I could, following the
Sonex manual and the original DVD and the latest DVD to the letter.
I realized that my engine felt tight, but I kind of figured that was normal, and it would loosen up once started, and the oil started flowing. Well, the engine
did start, but only with a jump from a car battery. It ran nicely, idled nicely, and I ran it for probably 4-5 minutes before shutting it down. After which, the engine was still just as tight as before I started it.
Not having a good feeling about the amount of friction the starter needed to overcome, I posted my issue on this forum and got some excellent responses. Thanks again for those.
The consensus of opinion was:
- the engine should turn over much more freely
- crankshaft end-play should be easily felt and heard by pushing/pulling on the prop hub.
- I'd probably need to pull the engine, split the cases, and look for the cause. Best case, adjust the end-play w/o needing to split the cases. No big deal. Worst case, pinched bearings.
So, engine on the bench (leaving the accessory plate behind on the engine mount, an excellent suggestion) , the crank was still tight, and I could detect literally no end-play. Good, I thought, I must have miss-measured, or, more likely, miss-converted from metric to imperial, this will be easy. So I removed the flywheel and oil seal and shim stack. I re-attached the flywheel with no shims, torquing it with my impact wrench set to medium, probably about 100 foot pounds. I then used some parts of my engine stand to mount my [metric] dial gauge.
- dial_gauge.jpg (25.88 KiB) Viewed 3165 times
Prying behind the flywheel, and using a wood block and dead blow mallet to push and pull on the crank, my dial [metric] gauge measured to following: 0.049, 0.059, 0.055, 0.056, 0.052. mm. Converting to Imperial , ALL these measurements approximate 0.002 inches. Huh? Two thou end-play with no shims?
My original feeler gauge measurement before joining the cases, between the thrust bearing and the flywheel, as per the manual, was 0.061. 61 thou versus 2 thou. HUH? What's going on here? Where did the end-play go?
At this point I had no choice but to spilt the cases to see what was preventing the crankshaft from sliding back and forth. And, at the same time, to check for pinched bearings, as some builders had reported. So, very carefully, as to not disturb anything, I removed one case half. Using a bright light, I searched for any witness marks that could point to an anomaly. Nothing obvious. All bearings looked to be properly seated. Based on a tip on this forum, I took the upper centre bearing half and set it on the crank to check for any 'rocking' Nothing, it sat perfectly flush and stable, meaning that the crankshaft sat true in the case, Note: at this point, I had not disturbed the crank or camshaft in the case, and the crank was now turned easily by hand.
I could easily see a decent thrust bearing-to-flywheel-flange gap. And the crankshaft easily moved back and forth. Using my feeler gauges to measure the gap, I came up with exactly the same measurement as I had originally: 0.061”. Re-calculating the shim stack necessary to give me the desired 0.006” end-lay, I came up with exactly the same stack: 34, 34, 36, 36 which converts to .0135, .0135, .0140, .0140 which adds up to 0.055”. I the used a micrometer to verify my stack was indeed 0.055”. So... nothing wrong with my original calculation or with my metric--> Imperial conversion.
So. up to this point, I had determined that nothing was apparently nothing wrong with my original assembly. Except for the fact that I had next-to-zero end-play and could barely turn the crank when the cases were assembled and torqued down.
I decided to clean the case flanges of any gasket goop residue and dry assemble the cases. But this time around, I would continuously monitor the ease of crank rotation as well as the pre-shim end-play, which should present as an audible “clunk clunk” as the crank was pushed and pulled. I used a couple pieces of 1/2” x 1” wood pieces to prevent the con rods from locking,
- sticks.jpg (23.88 KiB) Viewed 3165 times
and was easily able to spin the crank by gripping one prop hub lug (see video). All six large studs torqued to 15 ft/lbs, all OK. All ten peripheral studs torqued to 10 ft/lbs. All OK. Flywheel torqued to maximum impact driver torque: all OK. Crank still easy to turn, clunk-clunk end-play still there. Six main studs torqued to final value, still all OK.
Disassemble, Permetex #3, re-assemble, test, torque, test, torque, test, torque, shims, oil seal, cam plug, gland nut, torque, test , all still OK. And that's where I stand now: the re-assembled engine turns freely and has a detectable bit of end play discernible at the prop hub. Why it was tight initially is a mystery. There is one potential clue: I noticed several groves on the prop hub under the forward case flange in front of the oil slinger. I read in the archives that others have noticed this as well, but didn't have an explanation. Seems as though the case may have 'machined' these grooves. Is this something I should be worrying about? Thanks.