Hi all,
I have been rebuilding my engine and the typical one step forward and back certainly applies here.
My big concern at this point is that I have zero axial play when performing the driveshaft test with the dial gauge. I removed all three rings and still had no play.
A new flywheel is on. I buried my head in the sand and continued assembling with my old three round shims and clutch and pressure plate installed.
The motor still turns nicely after heads, spark plugs and everything assembled.
So now my mind races back to an earlier post I had about the oil pump install.
I remember pushing the oil pump in and i could feel it move the camshaft as I pushed it flush on the engine case.
The one gear in the oil pump that goes into motor to marry up with the cam was proud on the shaft and stuck out to the point when I installed the cover plate it created so much friction that I could not turn the motor.
I took the one oil pump with the gear shaft out and used my press to push it down just a bit on the shaft.
This seemed to do the trick as the gear no longer created that extra friction to keep the motor from turning over.
Now we fast forward to me measuring end play, and now that I have zero I can’t help but think that original push with the oil pump may have removed any play on the drive and cam shafts.
Again the motor spins nicely. Full on bottom and top end rebuild.
The story of the oil pump install is located here for those who want additional background.
“Oil pumps and covers, are they interchangeable “
Mark Henry had mentioned something about being able to do some adjusting with the block assembled.
Please advise,
Thank you much,
Gary
A few photos added to show the type of pump and the actual gear sitting proud.
So close:
Oil pump/ camshaft end play has nothing to do with crankshaft end play. Did you have the rear main oil seal in when testing end play ? should do that test without seal.
No oil seal in when testing the end play.
At one point I had the 2 bolts on and torqued at 45 and gave it everything I had pushing and pulling and was able to get .02-.03 movement but I think that was probably just flywheel flex
Once I torqued all 5 down to 79.5 I couldn’t get any movement either way.
All the tutorials I watch online there seems to be a distinctive clunk when others are checking.
Thanks for asking bare foot
Put in just 2 of the shims and see what movement you can get.
How far assembled is the engine?
I usually use a large screw driver to pry against the flywheel nad then push forward on the flywheel and see if I can get the crank to slide back and forth some. The push and set up the dial indicator and gently pry/pull the crank back and measure.
Good luck
Jim
Zero end play with no shims at all? What brand is the new flywheel?
I purchased the flywheel from LJ products 215mm porsche 914 stock flywheel.
Thanks for reading and giving all your insights.
Gary
Hi Jim,
Engine is buttoned up. No where along the assembly did I read or hear about axial play on the driveshaft.
All bearings are stock, confirmed on replacement of like kind bearings.
Engine turns over nicely but no luck on the axial play.
Going from memory the three shims measures in at (2) .34 and (1) at .43.
These were the original shims.
I put them Back on after reading about 3 being the number you want.
I am confused amd unsure if I just proceed with the build.
Anyone experience anything similar, please share.
Thanks again,
Gary
Take off the flywheel and check endplay of bare crank....might have a slight nick making a burr on bearing thrust surface.....
I'll probably be flamed for this but I would then get a wood block and bfh and whack the shaft back and forth several times....then check endplay with no shims to calculate how much shim is needed.
Thanks for the input.
For clarification, I was able to get the .2 -.3 movement by pulling on it by hand. The dial indicator measurement was taken after I pulled. There were no screw drivers in prying to change that measurement.
It still seemed way to tight as I had mentioned others get the clunk and a lot more movement.
I think my next steps are to remove the clutch, the flywheel and rear main seal, all three shims and try this again. Would it help if I removed the front tins and fan housing so I have access to both driveshaft ends?
And yes, it is very tempting to take a block of would and hit the driveshaft to see if I can get it to move. I have refrained but the thought has crossed my mind.
Stay tuned and please share any additional updates or input.
Thanks,
Gary
When you say .2-.3 is that MM?
You want .003" (.076mm) to .006" (.152mm) end play.
I go for .003", but for you I'd try for say .004" end play.
Pull the spark plugs, the rings will drag a bit but the engine should spin freely. spin it several times.
When I build an engine I spin it when ever I can to make sure there's nothing is binding or hitting anywhere.
Thanks Mark!
Great advice to turn the motor a few times.
I also have the fan and belt hooked up to the alternator tight.
I am going to disconnect those as well.
Then I will give it another go.
And yes I mean .003 mm.
Thanks again for everyones feedback.
Before I hit the tear apart the motor option I want to be sure to exhaust all other possibilities.
I am a total rookie at this and it's my first 2.0 rebuild.
I follow instructions and videos well, but lack the big picture thought and understanding of the engine systems and the reading between the lines and checking for things that are not necessarily addressed in the manual or instructional videos.
Learning a lot.
Gary
Thanks for the correction Mark.
I always sucked at math.
I plan on doing the axial play measurements again this weekend.
Will report back then.
Thanks a bunch for your input and knowledge.
Gary
Just my .02 (that's cents, not mm or inches..), but if you are trying to get a 'clunk' sound, that shouldn't happen. With a correct end play of .003-.006 INCHES, you can't move the flywheel and crank far enough/fast enough to get a clunk.
If you can rotate the engine freely and get some slight movement in/out, you probably are pretty close.
There used to something called Plasti-gauge. Thin round strips of plastic-you put a piece in the gap you wanted to measure and tighten it down. Pull it apart and compare how flattened the plastic strip is to a chart. That tells what the play/gap/clearance is.
Alternative is using a dial gauge on the flywheel (I don't understand how someone is going to 'bend' a flywheel with a couple screwdrivers..) or splitting the case and using feeler gauges.
OT: Back in 1999 "Mars Climate Orbiter" crashed on mars because "Inch" and "Metric" where mixed up during calculations. When do you People go metric like the rest of the world?
Some progress today and big relief.
I removed the alternator belt from the fan housing.
Removed flywheel, seal, and shims.
I measured my shims with my hf micrometer.
I am not confident in my abilities to get things to just right as I did notice slightly different measurements depending on if I measured on the inner diameter of the shim compared to the mid outer.
When I twisted everything down with the fine adjustment until it just spun and measurement didn’t change I figured I had to be close.
Came out to .34mm for all 3 shims. Or in inches that would be .0134 per shim.
With the seal removed and discarded and two shims installed, I put the flywheel back on with all 5 bolts with washer and torqued at 45ft. Lbs.
Much to my delight I was able to get .012 inches of movement with the two shims installed. I repeated this 5 times and got the same measurement each time.
I did this with push and pull with fingers only.
Took everything off and added the third shim.
Assemble everything exactly the same with all bolts torqued to 45ft. Lbs.
Pushed and pulled again and got .002 inches of travel with fingers.
I got some shims coming via 914 werke and hopeful that will do the trick and get me to .004”
Any additional input is as always appreciated.
Thanks again,
Gary
Just curious if you were able to turn the engine over with those three shims? With two shims? Back in your original post you had an interesting interference issue with your oil pump that you say you fixed by pressing down the shaft. I remember in one of my past builds there was an oil pump that needed the tab that fits into the cam shaft trimmed down. Idk which aftermarket pump it was
Hi Andy,
I have been able to turn the engine over with no shims, with two and three shims.
I could not turn the engine over after I had installed the oil pump. What I found and if you look at the picture earlier in the post the gear sat proud. Once I put the plate on and torqued it down I couldn’t turn the motor. Took the plate off and motor turned.
I pressed the shaft into the gear just a bit so that it no longer protruded and sat flush like the other gear.
The gear was still on tight afterward. Now you got me thinking if that shaft may eventually come loose.
I may have been better off grinding the tongue rather than pressing the gear.
Sheesh, all these regrets and second guessing.
Better to think it through now why everything is accessible rather than later.
Thanks for asking the question and looking forward to others insight on this.
Thanks again,
Gary
Most of us have been there at some point. Give yourself credit for being patient, using all your resources and taking the time to think things through.
I got it!
Got 3 new shims. (Thanks Rich 914 werkes)
Did my push pull and low and behold .004”
I am pumped.
Thank you all who weighed in.
You all gave me perspective on how tight the tolerances are yet how important to understand the importance of them.
Moving forward.
Until the next hiccup
Congrats! Getting over these hurdles is half the fun...and the source of most great stories. Enjoy!
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