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FE Power Forums => Member Projects => Topic started by: cobracammer on July 01, 2021, 02:03:15 PM

Title: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 01, 2021, 02:03:15 PM
Well hello.....  I didn't see you there.  LOL

As this has been a crazy year (as I am sure it has been for all), I haven't had time to post, but I am always here looking at others projects......  a little "Dr. Feel Good" for my eyes.

Now that things have calmed a bit, I wanted to give a little update on the "Saleen Cammer" as well as a little project that I am sure will end up not being "little".

Car runs well!  Haven't really put that many miles on it, just a few loops around town every few months to get an alignment or car show.  Ofcouse the tuning the guys on "Car Fix" did on the show helped a lot with the unburnt fuel smell, but I needed to go a little bit further.  I picked up a set of high flow catalytic converters from Pypes.  As they are meant to go right after the collectors to take advantage of all that exhaust heat- I already saw a problem.  My headers were custom pieces and do not leave enough room between the V band flange on the collector and the transmission.  The next spot with a long enough run of straight exhaust tubing was right after the X pipe.  Distance wise, it was only about 12-15 inches from where they were meant to be mounted in a perfect world, but still- my thinking was that I was not going to get all the heat needed.  Either way, my fix was to use header wrap on the X Pipe.  This way the heat from my headers (which are ceramic coated) now travel through the insulated X pipe through the Cats and then on.  This should at least "buy" me a little more heat retention.  After a text drive of about 20 minutes or so- Total success!  Fuel smell has almost been eliminated.

Now on to the current project.  After a few years now of having the small oil leak under the car (even when its not running), I have been slowly investigating and testing to see if its really the rear main seal, Oil pan gasket(s), or a leak from elsewhere higher up that is making its way sneakily down undetected to appear as though its one of those previous areas.

First clue is that it will drip even when it hasn't been run in months.  It drips more obviously after its been run and the oil has thinned, but 3 or 4 months of just sitting in the garage, I will still see a little puddle.  Another clue was when I was installing brand new axle bearings and seals.  With just the rear of the car jacked up, no oil drips.  The car sat like this for a little over a week as I awaited tools and parts to arrive in the mail.  SO - the day I jacked it up in the rear, I also slid under the front and wiped everything down as much as possible as well as cleaned the floor under the engine.  By the time I was done with the rear bearings, there were no engine leaks visible.  My guess is that the oil in the pan was tilted away from the section in the rear that was leaking and thus didn't drip.  This gave me hope that it was just something like pan gaskets (as Jay had originally suggested it might be) when my mind kept going to rear main seal.
My last little clue was the oil pan fasteners.  It currently has studs with flange nuts all the way around.  A year or so ago, I went around the pan and hand snugged them all to approx. the same tightness (torque becomes an issue as there is not much room under there to get the torque wrench to each nut give the headers, starter, cross member, custom oil pan flare outs for additional oil capacity, etc.  I had noticed when doing this that it did feel as though a few of them were a little looser than the others.  Unfortunately, even after I snugged each one down at that time, the oil puddle kept haunting me.  This time, after the rear bearing job, I went around to each stud/nut again to see if any had loosened and they had!  the current fastener set up will definately need to be changed.

So in preparation, I purchased 2 brand new Milodon Premium FE oil pan gaskets (because the engine has a windage tray),  High temp Copper RTV (I know everyone says black or red- but this copper stuff specifically says for use with oil pans and I had it on hand from the exhaust work recently completed),  a set of Stage-8 locking oil pan bolts to replace the studs and flange nuts currently on there, and an engine support bar (because I am going to try and do this without pulling the engine.  What will need to be done in order to access the pan is that the front K member will need to be dropped.  My thinking is that it will be "easier" to do that then to pull apart the exhaust, Headers, trans, fuel system, coolant system......etc to pull the engine.  "Easier" meaning the lesser of 2 evils.

The only part of not pulling the engine I will regret is that I have always wanted to connect the small front sump of the oil pan to the rear deep sump.  I am not sure why this pan was designed like this (even has 2 oil drain plugs), but in my mind the 2 quarts of so that would live in the smaller front sump are basically useless.  My thought was to weld 2 seperate -12 AN fittings to the front sump and 2 matching -12 AN fittings to the rear sump- Attaching them with braided hose and AN fittings.  This way they can be connected after the engine has been installed and can run under the K member bracing to allow the front sump oil to flow freely into the rear sump (increasing capacity by like 2 quarts!).......  I guess that will have to wait for another time.

Anyway, I know these posts are slightly boring without photos, So I will try and snap a few as this "little" project gets under way.   8)
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cjshaker on July 01, 2021, 02:31:27 PM
Just a note that if conventional cork/rubber gaskets were used on the oil pan, it's not unusual for them to compress and need retightening a couple of times. Same goes with valve cover gaskets. Not saying that's the issue with the leak, but locking bolts probably weren't the issue with yours being loose. With those gaskets, getting a 1/4 turn after allowing some "settling" time is not at all uncommon.
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 01, 2021, 02:50:41 PM
Thanks Doug!  For a little bit, I was considering purchasing 1 cheap gasket, and then a few pieces of High temp silicone mat (usually come in sheets of Orange or Black)....  then just tracing custom silicone gaskets using the cheap one as a template.....

But the more I thought about it, I wondered why no one sells oil pan gaskets made out of high temp silicone rubber for the Ford FE engines.  My thought was that those silicone mats come in different thicknesses, don't shrink (or very little) and are naturally a tacky non-slip material- so probably would not need any sealant.  Anyone have thoughts on that?
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: WConley on July 01, 2021, 08:05:52 PM
Jason -

Glad to see you back!  Yeah a set of high flow cats are the "meow" for knocking down those pesky hydrocarbons.

I bet you're right that it's an oil pan gasket drip.  The double gaskets with the windage tray make it tough to seal.  Sounds like you're on the right track with the sealant and the new fasteners.

 - Bill
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 02, 2021, 12:02:31 PM
Just out of curiosity, does anyone know what the difference is in torque specs for the oil pan on an FE?  I think the original torque specs were 12 to 15 ft/lbs, but I am assuming that it was for an iron block.  What should oil pan bolts be torqued to in an aluminum block?

If I am not mistaken, the oil pan bolts on the FE are:   5/16 - 18  X 3/4".

Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 06, 2021, 09:31:03 AM
Well, as expected- just taking the oil pan off was a pain in the butt!  It was a combination of lifting upward slightly with the Engine support bar, while loosening the Front K member, removing the motor mounts, disconnecting the Steering rack and getting just enough clearance to pull the pan.  Then once the pan was removed, unbolting the oil pickup tube from the oil pump and block in order to remove the windage tray as well.

Had to order a new oil pickup tube gasket- so while waiting for it, I am letting all of the oil drip out...... Cleaning the mating surface on the bottom of the block as clean as possible (Scrape with a razor and use soapy water/ degreaser ) to make sure the new gaskets (gasket/Pan/Windage tray) seal neatly.

Also, I read online that after removing an oil pan, its worth going around it to make sure the pan rails are still flat and not warped.  I am  planning to put it upside down on a flat surface and lightly tapping and deformations back flat with a hammer.  Plan is to do the same with the windage tray as well.

While trying to get the oil pan off, I realized that I would only be able to torque about half of the new fasteners when reinstalling.  I seriously doubt that torqueing half of them will be of any use.   Any ideas how I can do this properly with a socket on half of them and a crescent wrench on the other half?  Don't want to over or under tighten any of them, but cant think of how to ensure they all get the same tightness by hand.

https://photos.app.goo.gl/oufCtZcmrzunW8HVA

https://photos.app.goo.gl/E63juZ2Vj6MtpTq29

Title: Re: 482 SOHC "Saleen Cammer" update
Post by: gdaddy01 on July 06, 2021, 04:26:38 PM
use the same length box end , combination wrench , as the length of your racket , torque wrench handle . pull from the same place , length , from the bolts . 
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: mike7570 on July 06, 2021, 11:10:31 PM
Sort of like new fangled cars using torque angle instead of foot pounds. Only with new cars you throw away all the bolts and start with new ones  >:(
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 07, 2021, 10:34:47 AM
Here is an interesting tid-bit.  While I am cleaning and recleaning the pan rails, windage tray and block mating surface. I just happen to notice that the Oil drain back holes in the rear man cap are in line with the oil pan mounting holes......

This means when the oil pan/ windage tray/ gasket sandwich is bolted onto the block, the oil drain back holes on the rear main cap drain directly onto the oil pan/windage tray assembly and not drop directly down into the pan.  A thought is that since the engine has a "slight" tilt rearward when bolted in place on the engine mounts, the oil drain back is probably pouring oil directly onto a "Shelf" made of the gaskets, windage tray and oil pan rail.  I could definitely modify the gaskets and windage tray ---but not the oil pan itself just given where the oil pan bolt holes are in relation.

Is this just a bad pan design?  OR a bad FE (Side Oiler) engine block design?  LOL  It does appear that other FE blocks, for example 390's, have the oil drain back in the rear main cap, but its shifted closer to the front and thus does not seem to be back as far as the side oiler drain back holes.....

This is not a photo of my actual block, but shows how the drain back holes site a little further back on the  427 Side Oiler block than say for instance a 390.   The second photo is something like a 390 (ignore the red arrow as it was in the stock image I found online)

https://photos.app.goo.gl/93nZvj11M6Lp8mhG7

https://photos.app.goo.gl/mNkHUEv1BeBHjXt1A
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: BigBlueIron on July 08, 2021, 11:35:06 AM
I generally notch the windage tray to prevent any blockage of the drain. Not sure why they aren't made that way.
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 08, 2021, 01:13:21 PM
Yea, I cleaned the windage tray to a state of "Squeeky", however there is still the outline of the clock mating surface visible.  This helps, because it shows where the windage tray overhangs the block creating that shelf that the oil is falling on. 

I took the windage tray and laid it on top of the oil pan (also in a clean state known as "Squeeky"), and with the outline of the block on the tray, I can also see that even if I fully notched out the windage tray to not block the oil drain back holes, the pan will still create a small shelf....  Luckily, it doesn't block it all the way. 

I also took a straight edge and went across the block mating surface (where the rear main cap bolts/studs are).  On the passenger side, the stud/nut are just below the mating surface so do not cause any interference.  The drivers side stands a little proud of the mating surface by possible 1 or 2 threads.  I am also assuming that this possibly caused a little warpage on the rear pad seal.  I will be notching out the windage tray for the oil drain back and also making 2 small clearance holes the the rear main cap studs are located just so the tray will seal flat when tightened.
It will have to do!

So here is where we are.  I have the pan, tray and pickup clean as a whistle.  I will be doing the aforementioned modifications to the windage tray for clearance.

I have a few stainless steel bulkhead fittings (-10AN male) that were advertised for turbo drain back setups.  I will be putting 2 of them in the bottom of the front small sump and 2 more slightly lower in the main large sump.  Connecting them is -10AN stainless braided hose with 10AN (female) aluminum fittings.  they will be offset only slightly so the front sump can finally empty into the main sump and be "useful" oil. 

after speaking with Jay, I ordered some 3/16 flat bar stock (mild steel).  I will be fabricating 4 oil pan reinforcement bars (2 smaller ones for the front and rear of the oil pan- 2 longer ones (about 12") for each side.  This with 1-1/4" Stage 8 locking fasteners should give me a little extra security.

I have been just letting the engine slowly drip out the remaining oil so that when the time comes, there will not be any contamination when I go to put on the new gaskets and RTV.

I am also going to try and flatten the oil pan rails out as straight as possible.  It appears that over time, I may have overtightened them trying to stop the leak, and now each bolt hole stands a little domed/convex above the rail.  I will try lightly tapping each one down with a hammer and checking for "flatness".

Here is a picture of the innards!  Thought this was interesting.  Everything is so clean, it doesn't even look like its been run!  Please excuse the gasket material.  I took this before I got to cleaning.

https://photos.app.goo.gl/6CPEmTkFUo94tVRcA


Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 13, 2021, 10:13:27 AM
Hey All,

Just wanted to give a quick update (although oil pan gasket replacement is usually not all that thrilling).  This thing kicked my butt!  Getting the pan out was a combination of lifting up on the engine with the Engine Support Bar, while also lowering the front K member, disconnecting steering, sway bars, motor mounts, some wiring, etc.  Due to the deep sump, the pick up tube was stopping the pan from coming right out.  Took about a day, in the end, it was a combination of lowering the pan just enough to unbolt the pick up tube, the pulling the pick up tube out the side.... then removing the pan.... then going back for the windage tray....  All of this was sort of covered in the first few threads.

Then it was on to cleaning, cleaning, cleaning, straightening the pan rails, straightening the windage tray, and cleaning again!  I went a little bonkers on each step mostly because I did not want to have to ever do this again (on this particular car).

https://photos.app.goo.gl/E6CKNKdzv9parDXx9

https://photos.app.goo.gl/6sqUz5yjYyb6p9uy6

https://photos.app.goo.gl/YM6rKTiE56PTCCFFA


Then I installed 2 stainless steel -10AN male fittings in the front smaller sump to allow the front sump oil to now drain back to the rear sump.... and 2 more stainless steel -10AN male fittings in the rear sump.  I read a bunch on these fittings as they are designed to go in oil pans for Turbo drain back applications, and the consensus was no Loctite or tephalon tape on the threads inside the oil pan.  They have special 2 part washers that are used- 1 seals the inside of the pan and the other on the outside.  Also because they are steel and not aluminum, you can really wrench them tight.  they will be connected by stainless braided hose with 90 degree female fittings on both ends.  This will create a little downward sloping arch/curve out the side of the pan on each side of braided hose.  (I initially had a straight hose end fittings that went from front to rear sump installed, but it just so happens that the steering rack interfered so I had to temp remove them (leaving the stainess steel pan fittings with rubber caps on them so no debris gets into the clean oil pan.).  I have some of these 90 degree fittings and some additional stainless braided hose on its way.

https://photos.app.goo.gl/u3cbff7xsyQN1LqJ6

https://photos.app.goo.gl/tr3h4xasvd1TMA8f6

Lastly we come to the 3/16 steel pan rails.  I thought about this for a day or 2 before I got started.  The thing is with these FE oil pans, they have double rows of little "Fillets" between each bolt hole.  This is there for strengthening the pan rails, but it would also stop a pan rain support from sitting flush.  What I decided in the end was to make custom square washers for each pan bolt hole.  It covers the engine area around each bolt hole up to the fillets.  Around the back, where the pan was leaking (I think), the 2 back pan washers are a funky shape because of the rear pan kickout, but after a little finesse on the milling machine, they perfectly hug the wonky area around each bolt.  On top of that, each flat washer for a Stage8 locking bolt so they will never back out.  These are pretty cool and well worth the $.  There were actually only 3 holes in which I had to  use the orignal stud and nut with a lock washer.  These were above my pans custom side kickouts (like a T pan).  It was impossible to get any tool of size in there with the exception of a small allen key..... and even with that, I could only get about 1/8th of a turn each time.... needless to say that just those 3 took me about 4 hours alone.


https://photos.app.goo.gl/ehG4mAfXQqz3HXr56


Also worth noting is I wanted to see how much oil I have been putting into this engine.  When I do an oil change, I put in 11 Quarts.  This is for the modified pan as well as the 3qt Accusump in the trunk (which under pressure doent hold exactly 3 quarts, but there is also oil in the lines that run from the trunk to engine.  I wanted to see where 11 quarts of oil sits with the windage tray on.  So after cleaning- but before the alcohol rub down, I put the pan on the counter and started adding quarts of water 1 at a time.  Believe it or not, 11 quarts of oil in this pan comes to about 1/8 of an inch above the oil baffle in the sump.  It doesnt even touch the bottom of the windage tray layed on top without a gasket  (although close).  So when the engine is running and some of this oil gets pushed into the accusump, the oil level is below the gasket seam.  Heck- even if all 11 quarts are in the pan at once, its still below the pan seam.

Title: Re: 482 SOHC "Saleen Cammer" update
Post by: 62Falcon390 on July 14, 2021, 11:45:45 AM
i thought about doing that to my canton pan too. 
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 19, 2021, 01:58:22 PM
Here is the last piece of the puzzle!

https://photos.app.goo.gl/paeEhAhaRaC8hAfq5

As you can see, the running theme on this car is little no to room anywhere!  The bungs in the oil pan are stainless steel AN ports.  They are the non weld style with compression O rings on the inside and outside.  Although they are not leaking at the moment, It makes me feel a little nervous with a potential point for the oil to drain out while on the road.  To make me feel better, I am going to clean around each bung/ clean and scratch up the pan/ and then 2 part metal epoxy them all the way around.  This is for no other reason other than piece of mind and a little insurance against them coming loose during heat cycles or vibration.
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: sixty9cobra on July 19, 2021, 02:02:14 PM
NM
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 20, 2021, 02:41:26 PM
Noticed 1 drip under the car while its been in the garage.  The single drip seems to come from between the bell housing and the backing plate.  Doing a little snooping with a flashlight (as I said before, there is almost no room in this engine bay), it looked like the starter was a little shiny and oily.....  Hmmm

 Its definitely not the oil pan anymore, so the oil leak a few months ago seemed to be a few things.

 Since the oil pan is clean and dry all the way around, I started snooping a little further while I had it up on the lift.  The only thing I could see is that the passenger side valve cover gasket seemed wet and "shiny" toward the rear and bottom.  As this is a high as I can go, I would guess that there is some oil that gets out of the valve cover gasket toward the rear...  drips down somehow and gets on the starter, and then possibly runs down the bellhousing- making it look like it comes from inside?

Either way, it was time to replace the valve cover gasket.  You have to take the battery and the battery tray out in order to get to 2 of the bolts holding the valve cover....  starting there- It was a quick removal followed by a 2 hours cleaning session on the head mating surface and valve cover.  I wanted to make sure that its 100% free of any oil residue or anything for that matter which would inhibit the gasket seal.

The valve cover went into the sink for a scrub with soap and water, followed by alcohol rub down...  Until it was completely clean and dry.

Then I tried something new.  I put gasket maker on the cork gasket very thinly, then installed that on the valve cover iself.  Once it was all lined up, I put the valve cover and the gasket I just installed on it face down (clean side of the cork gasket) on a plastic sheet on the garage floor.  Then I put about 40 lbs of weight on the valve cover to ensure a good tight seal when curing. 

Tomorrow, once the gasket maker has dried and the cork gasket is permanently adhered, I will put gasket maker (another thin coating) on the heads mating surface and install the valve cover.  I read online that this is to try and reduce the amount the cork gasket moves around when you try to install it all at once.  It would seem that with RTV on both sides of the cork gasket, when you try to wrench it tight , can squish out of place (possibly).

My thought is that even if this is not true, It cant hurt anything to do it this way.

The valve cover
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: jayb on July 20, 2021, 04:47:13 PM
Those cork valve cover gaskets do like to seep somewhat in that corner.  Make sure you stay on top of keeping the bolts tight, because after a few heat cycles the cork gasket will shrink, leading to potential leakage.

I've gone to the SCE valve cover gaskets for the SOHC, which are much better.  They are only partially cork, there is also a layer of normal paper gasket material in there.  They don't shrink as much, and they seem to seal better, at least on my engines...
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on July 22, 2021, 08:59:17 AM
Thanks Jay-  I will keep up on it.   ;D  I will do periodic checks every 2 or 3 drives for until they don't appear to be shrinking anymore.  The cork one on the drivers side has stayed dry with no leaks at all! 
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: machoneman on July 30, 2021, 09:26:05 AM
So, Jason, when do we get some time slips from a track? Ten second car? Best guess?
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on August 02, 2021, 05:51:31 PM
LOL.  Well.... slips from the track may need to wait.  Finally took the car out for a few miles after warming it up and still have an oil leak.  Its better mind you, but still there.  No regrets on pulling the pan and valve cover as I truly believe the original oil leak was a few different oil leaks making 1 really bad looking leak.  Oil pan is sealed and is dry.  Valve cover gasket is still dry, but as Jay said....  I will keep an eye on it and slightly tighten the bolts if any gasket shrinkage is detected....

This last leak is coming from the back of the block somewhere....  Still dripping down behind the backing plate and the block.  As much as it truly sucks to have to pull the transmission, driveshaft, exhaust, clutch, etc........  Its almost a relief to know that I have chased the pesky leak to 1 specific area.

I will take the time to pull all apart and clean it up while inspecting.  This will be a combo of fixing an oil leak while cleaning up the flywheel, bellhousing, etc.  I will keep you all posted, but the pan and valve cover re-do was well worth it and worked perfectly!
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on August 10, 2021, 01:39:39 PM
OK Car is back up on the lift.....

After a bit of investigation, this is what I am seeing.  There are drips of oil coming off of the bellhousing.  I am getting a strong sense that any oil leak on this engine ends up on the bellhousing no matter where it originates.

1st off, Both valve cover gaskets are clean and dry.  No longer an oil leak coming from the passenger side valve cover gasket.

2nd off, the entire oil pan is still sealed well.  As a matter of fact, even the back of the scatter shield (?  plate between the engine block and the bell housing) is clean....  Hmmmm....

OK so if the back of the scatter shield is not showing any indication of oil "wetness", but there is still drips on the bottom lip of the bellhousing..... how did it get past to end up dripping where it currently is?

3rd off, after scanning around for any sign of oil seepage, I saw a drip or 2 of oil on the dipstick mount against the oil pan and one drop on the oil pan stud right above it (maybe 1\2 above).  Now I am 1000% sure that oill did not come from the oil pan itself, because all the way around the lip of the oil pan was dry and no drips down the sides....  checked all the way around with a paper towel. 

Thought was maybe a leak from the dip stick tube since I removed and cleaned while doing the oil pan.  I managed to get a wrench up there and tightened it another 1 or 2 turns, but its snug because of the thread sealant used (it scres into the oil pan/ not press fit).

Lastly I still have a small oil leak from the distributor area.  I don't think I really ever took care of this issue when it first popped up because the larger oil leak seemed more important.

Possibly the oil leak is not from the back of the block at all (I say this as its not on the scatter shield between the oil pan/Block and the back of the scatter shield).....

Having said that, it is still on the bell housing..... and its getting there from somewhere....

I am going to try and solve the little oil leak at the distributor...  If that doesn't seep anymore and the oil dipstick tube stays dry.......... and I still have the leak, then I will pull the transmission....

Would rather be sure I have to pull it...  But at least I can mark the oil pan and valve covers off of the list of suspects.  Back of the intake manifold seems dry as well (tissue test).  Only oil I can see is the distributor area and those 2 drips on the dipstick tube (for which I already tightened it up so hopefully its a non issue now).

Keeping on-Keep'n on!
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: Stangman on August 10, 2021, 03:57:39 PM
Sounds like you are norrowing it down but the dipstick and dizzy seal arent going to leak near the scattershield. Sounds like a tranny removal are in order. Boy if your waiting for a completely leak free FE you may never drive this or go to the track. :). Keep up the good work.
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: Royce on August 10, 2021, 08:35:25 PM
I was once exasperated with a leaking FE that i could not seem to dry up.. I was whining to an old timer and he laughed.  He said FEs just sweat oil.  You have to live with it..

Good luck anyway.. You may have the prize for the most persistent trouble shooter I have ever seen..
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on August 13, 2021, 09:04:09 PM

(Text from a message (PM) I sent- Didn't want to just post pictures without any point of reference)


The Ford FE distributor from MSD comes with 2 O-Rings in the box when you purchase it.

There is a larger "V shaped" (for lack of a better description) which the instructions have you install at the top.  This larger angled O-ring is the one that seals the distributor hole at the intake manifold.....  the second O-ring is not mentioned in the instructions at all, so I never installed it.

Searching online, many people asked the same question....  why a second O-ring in the box?  Some say they put it under the angled one for extra diameter, some leave it out all together (say its an extra), etc.

I pulled the distributor on the SOHC tonight to install a high temp silicone band at the top of the distributor (under the V shaped/Angled one) to see if it would seal a bit tighter.  I don't know if you remember, but this intake manifold was the "prototype" used by Robert Pond when he was working with the foundry /Machine shop at the time he was going to start offering them for sale.

When I pulled the distributor tonight, I looked down the hole and under the intake manifold, I saw that the hole that is in the top of the block for the distributor to pass through has a machined lip around it (as if it were meant to mate with that second O-Ring)?  Is that a place on FE's where an O-ring usually goes?  It would make sense as it would prevent some/most of the oil from in the crankcase from splashing up into the valley of the block.

Also, I had noticed that the witness marks on the distributor gear where they mate with the stub cam gear were not in the middle of each tooth...  Not bad, but slightly higher than the center of the tooth.  My thought is also if the 2nd O ring was added, it would lift the distributor up a few millimeters and probably lead to a more central mesh with the gears.

I installed it and had planned to re-check the timing tomorrow

https://photos.app.goo.gl/cAxa2rgN36uFJDzC9

https://photos.app.goo.gl/eBoVqxEUTVWNUTuP6

https://photos.app.goo.gl/KtWBnbttHap85XRFA




Title: Re: 482 SOHC "Saleen Cammer" update
Post by: galaxiex on August 14, 2021, 11:01:00 AM
The machined step in the block is a critical height.
That is where the dist seats to give proper height/engagement of the gear to the cam gear.

Personally, I wouldn't mess with that.

Quote from Ford racing dist gear install paper...

Quote

With the aluminum distributor housing fully seated against
the block, verify that the distributor gear can be lifted off the
support in the block at least .005". Next pull the distributor
gear down against the support in the block and hold it there.
Pull up on the aluminum distributor housing and verify that you
can lift it up at least .005" while holding the gear against the
support in the block. This procedure will confirm that the gear
is not being forced down against the support and not being
held up off the support in the block.

Title: Re: 482 SOHC "Saleen Cammer" update
Post by: galaxiex on August 14, 2021, 08:41:51 PM
Here's the Ford Racing paper on dist gear install.

It's for small blocks and 385 series engines, but the warnings and info still applies. (distance dimensions will be different for the FE)

https://performanceparts.ford.com/download/instructionsheets/FordInstShtM-12390-ABCDEFGHJKL.pdf (https://performanceparts.ford.com/download/instructionsheets/FordInstShtM-12390-ABCDEFGHJKL.pdf)
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on August 23, 2021, 01:18:11 PM
Thanks....  All leaks have been found and corrected except for a small one from between the scatter shield and the back of the block.  Its small but irksome.

Let you all know what I find when I pull the transmission.

 ;)
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on September 13, 2021, 06:33:48 PM
Hey guys (and gals).

Wanted to throw this one up here for a little discussion.

Haven't pulled the transmission yet, but had an interesting thing happen last week.  I had a mobile locksmith come to the house to make me a second transponder key. When I purchased the can, it only came with one key and I need a second transponder key for a little side project I will discuss at a later time (once I have finished it).

So in preparation for the locksmith, I pulled the car out of the garage into the driveway.  Its important to note that I did not rev the engine, just started it...... backed it out and let it run at idle for about 15 minutes.  I only let it idle to get the fluids moving around as it spends large periods of time just sitting.

I had noticed after the 15 minutes that there were NO Oil Drips at all.....  while it was idling, for the full 15 min.  I then shut the engine off and the car sat in the driveway in the same spot for another 3 hours.  After the 3 hours, I checked again and there was no oil at all.

I am 100% sure

Now for the interesting part.  After the locksmith had gone, I had to pull the car into the garage again.....  however, this time since it was going to be a while before starting again, I revved the engine up to about 2500 RPM just to raise the oil pressure in the accumulator before shutting the switch and locking in the oil charge for the next time I start the car.  When I shut the car off, I noticed a few drips on the garage floor.

Sooooo...... 

1)  car does not leak oil just sitting as previously thought.

2)  car does not leak oil at idle (1000 RPM)

3) car does start to leak oil when the RPM's are raised- in this example, 2500 RPM

This to me sounds like the rear main seal is good.  It seems like excess crankcase pressure is pushing oil past the rear main seal at elevated RPM's????

Its worth noting that both of the Valve Covers have 1.5" to 2" breather tubes coming out of them and I put K&N style breather filters on them (as I was told the OEM breather caps were very restrictive.....  Have not seem any oil or oily residue at all on the top of the engine, so none is getting through the breather caps..... 

The valley of the Cammer block does not have the hole provisions for lifters, so there is no venting or pressure under the intake manifold....

The front timing chain cover connects to the oil pan in the front of the engine and each head has a 2" round passage in the front which would allow crankcase pressure to be directed from the front of the oil pan, up through the timing chain cover, through the round passage on the drivers and passenger head and out the breather tubes on the valve covers.  Doesnt seem super restrictive.

The only thing I can think of is of I remove the breather filters on each breather tube on the valve covers and look down into the tubes, its not wide open.  There is a metal seal in the middle of each tube with only a small triangle shaped piece pressed down a little.  I am thinking this is so you don't accidentally drop something down there while filling the car up with oil.  I wonder if this is too restrictive.  I am thinking of pulling each tube and then drilling a grid pattern of small holes to allow more pressure to escape?

I am rambling now.  What do you guys think?  Does it sound like excess crankcase pressure?  I want to test, but unsure how (what to block off while testing or what not to).

Also, what is normal or acceptable crankcase pressure in a ford FE?  I run like 11 quarts of oil with the accumulator, so not much room (if any) between the windage tray and the oil when engine is off,  I am guessing with the size of a Cammer engine, most of that oil will be pumped up to the top and be draining back down when running so engine oil level will be much lower when the engine is running.

Alot of information here.  Any thoughts???/????  Greatly appreciated   :)
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: jmlay on September 16, 2021, 12:48:01 PM
I have never owned or worked on an SOHC. Any reason why a PCV may not be run in place of the valve covers breathers? This would elevate crank case pressure as well as evacuate moisture.
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: cobracammer on September 20, 2021, 08:53:05 AM
Hi Mike,

Yes, I actually had originally put the breathers on....  then a few years ago I installed a PCV valve for a while.  Not seeing any difference in the leak, I went back  to the breathers because I thought they would let more pressure out.

Now that I am almost 100% sure this last oil leak is a pressure issue and not a bad seal- I reinstalled the PCV valve set up, but it still builds too much pressure at cruise and above.

My last ditch effort before I just learn to live with the leak was to purchase the M/E Wagner Dual Flow adjustable/tunable PCV valve.  This apparently allows you to adjust the PCV valve for idle under one circuit- and then adjust a separate circuit for "Cruise" when the crank case pressures are higher.  Read about it in Hotrod magazine first, and then read up on the product on their website.  Holds promise.  Its on its way in the mail, and after tuning it, I will go for a drive and report back.
Title: Re: 482 SOHC "Saleen Cammer" update
Post by: 6667fan on September 22, 2021, 07:39:12 AM
The Wagner unit is a nice part. However if you have low vacuum generated at idle you will end up only being able to get value from the cruise setting. Not a bad thing of course but some of the value of the part diminishes IMO.
Let us know how it works for you.