Engine Baffles

While I wait for the needle for the carb. I've started working on the baffles.  The oil and dirt are cleaned off.   I'm missing 3 parts but they should be easy ones to make.  Some of the baffles need repairs and all the seals (rub strips) need replacing.  I also need to fabricate the springs which hold all this together. There is some corrosion but it should clean up OK.  I'll probably paint the baffles after I repair them to keep them from corroding.  I've ordered some 3/8" thick SAE F-3 felt to make the new rub strips.  I'll use some high temperature Teflon fabric to sew them up.  They are made as a "P" shaped strip with the leg of the "P" stapled to the baffles.  I think I'll use .040" stainless safety wire to make staples.  The holes are already there so it should work.  I have an idea for a tool to set the staples.  The Teflon fabric should let the strips rub easily on the cowl.

Carburetor Repairs

 When I started working on the Carburetor I got out my NA-S3A1 manuals and looked up the carb. part number only to find I didn't have a spec sheet for P/N 380167-2.  I had a sheet for a 380167-4 but was it the sheet to use for my carb.  The Continental P/N 40590 on the carb. is the correct number so the question was what is the correct Bendix (formerly Stromberg) data sheet to use.  After searching the web and finding no other books than those I had, we finally figured out that the dash number is the issue number of the Parts List/Setting Specifications.  The correct sheet to use is the latest issue, except for 2 sheets where the change is to allow (not require) moving the Idle Bleed Hole.  Therefore I'm setting up the carburetor as 380167-4 and have re-stamped the dash number to reflect this.  I have no ability to flow test the carb. so the work can only be signed off as Inspected and Repaired As Needed (IRAN) not Overhauled.  Everything else is easy to comply with in the manual. I haven't researched all the C-90 carbs. on this list.

 At this point everything is cleaned, inspected and the paint has baked in the sun for about 6 hours.  The fit of all the used parts are still within new limits so that's good news.  There were some slight scratches on the mixture control plates and a burr.  I cleaned up the burr and lightly lapped the mating surfaces with crocus cloth and cutting oil on a glass plate.  They cleaned up well and should seal much better.  I also burnished a little of the Molykote G-n paste, as done on the tappet ends and cam lobes, into the mating faces of the plates.  I then rubbed them together to work it in in better.  It was surprising how much smoother they moved.

I have everything ready to install the float, to set the fuel level but this is as far as I can go for now.  The slot in the new needle valve is undersized so much it will not even fit on the pin on the float.  The slot is supposed to be .128" - .130".  This one measures .1245". The pin on the float measures .1255", well within the .124" - .126" limits.  I'll get with Fresno Airparts and sort it out.

I've got lots of other things to work on.

Intake Tube On

The intake tubes are pretty easy work.  I tried to position the clamps where they will be most out of the way installing spark plugs and the exhaust.  The overhaul bolt kit did not include the nuts for the elbow castings at the cylinders or the nuts for the manifold to the case.  At least I had some for both.  The inboard nuts on the elbows require a thin walled short socket with a built in universal joint, very tight location.I think I'll bolt the engine back on the mount so I can add the baffles and all.

Rocker Covers and Push Rod Tube Seals

It doesn't look much different but the cylinder nuts are torqued, the valve lash is good with the lifters compressed, the rocker covers are on and the push rod tube seals in place.  Moving the spring clamps into position was more work than I expected.  I have a pair of pliers specifically for these type clamps but fully opened they still would not move over the ridges on the seals.  A little engine oil helped.  The ridge between the 2 grooves for the clamps is taller than the ridges at each end.  What I've done in the past and should have to here was to slip one clamp over the tube before sliding the seal on.  The second clamp is then clamped to the casting, out of the way for installing the seal.  What I did this time was to slide both clamps on the tube.  This meant getting the bottom clamp over the middle ridge.  I got them all on but it was much more work than needed.  Hopefully I won't do that again.

Cylinders On

 I was ready to put the cylinders on but my ring compressor was missing.  I think I used it at my son's working on a car.  I picked one up at Advance Auto only to discover it doesn't come apart.  The normal assembly process is to install the piston on the connecting rod and then tighten the compressor over the rings.  Then the cylinder is slid down over the piston and the compressor removed.  To do that the strap has to come apart.

 Fortunately the oil ring is above the piston pin so I can compress the rings and install the piston into the cylinder.  Then just put the whole thing on the rod and slide in the pin.

 Everything gets well oiled.  Oil is worked into the rings and all surfaces are coated with oil so no bare metal parts ever rub against each other.

 The piston and cylinder is ready to install.

 Cylinder 1 is on.

 4 Cylinders ready to torque the nuts.  All the nuts are tight. I decided to snug them all down and then torque them once all were ready.  You tighten them to half the torque value and then to the final torque.  At this point its 8:30 in the evening and still almost 90 degrees in the attic.  I'm done for today.  I need to torque these when the brain is working well and I'm not in a hurry to escape the heat.

I keep the engine covered with plastic bags when I'm not working on it.

Cylinders Ready

The cylinders are ready to install.  Before installing them I decided to take the valves back out and measure all the parts and fits to find out how much life to expect out of all the parts.  The cylinders were bored .015" oversize and repaired as needed with new valves, springs, pistons, piton pins and rings by Buldoc up in Minnesota.  As with the rest of the engine everything was found to be at the Maximum Material Condition, i.e. long life side of the tolerance.  This has probably been the best news during this whole project.  The engine should be reasonably expected to achieve the 1800 hour TBO (SIL98-9A).  The wooden post is the stand I made, using a piece of 4x4, to set the cylinder on while removing or installing the valve keepers.  The old (1945) training video on overhauling the small Continental makes the Overhaul Manual much easier to understand.  The details have changed a lot since then but the basic tasks and tools, not so much.

Accessory Case Installed

 The oil pump gears gears are in the accessory case.  The gears are on the crankshaft and camshaft.  The timing marks lined up with the crank and cam in the correct positions so I assume it will all work fine.  The bolts on the gears are on the list (SB97-6) of mandatory replacement at overhaul.

The accessory case is on as well as the valve lifter plungers and covers.  It's cool to see it going back together after all these years setting.  The overhaul manual could have used a few more pictures and less words.  Safetying the screen and pressure regulator cap took three tries.  I should have just done it and not read the instructions.  I'm trying to make sure I'm really doing things right not just how I've always done them.

Crank Case Assembled

 Everything is oiled or lubed per Continental Letter SIL99-2B.  The silk thread was a little more trouble because I tried doing it with latex gloves.  If you touched the sealant the cloves stick to it.  Don't try this with gloves.  Most of this stuff like the Moly on the tappets and cam come it small amounts which should last for about a hundred engines.  The 2-4 case is setting on a plastic tote pan to allow the rods to hang freely.

 The pink on the 1-3 case is the Continetal Gasket Maker.

All assembled, bolts torqued and safetied.  The yellow rod protectors are pieces of those foam noodles the kids use in the lake.  A short piece of it works great and fits the rod snugly. You do have to move them as you rotate the crank but otherwise they work fine.

Crankshaft Assembled

With all the parts cleaned, inspected, and repaired I had hoped to begin assembly of the engine while the grand kids were here.  Unfortunately it was 100 degrees in the attic.  It's still hot but in the 80's so I can work until I'm wringing wet.

The first task was to assemble the crank and connecting rods.  With new bearings and hardware it's pretty straight forward but it takes a little time.  Everything gets well oiled so nothing moves on dry metal when the engine starts.  The rods have to be oriented so when the assembly is installed the numbers on the rods are on top.  Each bolt gets torqued to the minimum limit and if the cotter pin won't go in one of the 2 hole then the torque is increased until one hole works.  You can't go past the maximum torque or you have to try another nut.  I actually had 2 sets of nuts just in case but all stayed below the max.  When you are torquing a fastener you can not just add more torque.  You need to first loosen it a little and start over so the torque is reached while moving in a slow stead motion.  I prefer a breakaway torque wrench so there is a little trial and error to finally get the pins to all fit.  By the last one I was pretty good at guessing how much to increase the torque to line up the hole.

Aileron Pulley Brackets

While the grand kids were visiting for 4th of July the weather was hot and humid.  We had plans to get several projects done while they were here but it was to miserable to work.  We did get the aileron pulley brackets back in one morning.  With one of them on the inside working a wrench and one on the outside we got them in, which I could not have done by my self. Each got a turn inside and out even laying under the plane to work the wrench.

It was good fun for me and they have more memories of helping grandpa work on his airplanes.

Rudder Pedals and Control Column Installed

 The control column went back in OK, but I should have installed the link between it and the elevator bell crank before the fuel lines.  Everything works smoothly.
The rudder pedals were a pain.  It all fits in nicely.  The first problem I had was that there are some raised letters (part number) cast on the side of the bearing blocks.  Those have to be positioned so the flange on the horizontal tubes rub on the opposite side.  That makes good sense from a bearing point of view but even more sense since that extra width binds up the rudder pedals.  I had one wrong and didn't notice it until I had the mounting bolts tightened.  I should have noticed when I had trouble getting the bolts to go in easily.  Fortunately it was on one of the outboard blocks which are easy to get the nuts installed.  Some genius engineer at the factory turned the formers that the inboard block mount to so the nuts are almost impossible to install.  They are a "C" section former with the opening turned toward the center console.  Had they been turned outboard it would have been easy.  Instead I spent 3 hours sweating to get 4 nuts installed and tightend.  What A Pain!

 See the screws behind the rudder pedals.  They're for the cabin heat control and they're what the parts manual shows.  Unfortunately 3 of the catch on the rudder pedal when it's full forward.  They may never move that far with the cables hooked up but it's not worth the risk.  I've turned the around but I plan to replace them with rivets.  The heat control was riveted on when I got the plane.  I don't know if it was done at the factory and they never corrected the parts manual or what.  I found nothing about it at the 120/140 web site or in a service letter.

The next problem I had was the cover below the pedals.  Brakes on the passenger side were an option which could be added in the field.  Part of that was cutting out this cover to clear the added linkages.  I don't know if it was done poorly or the pattern was wrong, but the openings were not cut far enough aft.  This caused the linkage to hit the cover and bend it far enough to start it cracking.  I trimmed the opening about an inch farther aft so it just clears.

The cover on the left side is a right pain to get in around all the parking break cables and linkages.  Once it was in I realized I put the clevis pins, at the bottom of the pedal link, in backwards.  They should be installed outboard to inboard.  The end of the pin on the left pedal snagged the cover as the brakes were operated.  All the pins are now pointing inboard.  The cover was still close so I trimmed it about 1/8" to get good clearance.  Having anything snag even a little would be to exciting while landing. 
There is one more cover which protects the pulleys next to the rudder pedal.  Unfortunately that is missing so I'll have to make one after I get all the cables back in.

If you look close at the pedal tubes you'll see black paint is scratched through to the primer.  I was impressed with how nice the epoxy paint was to work with but I'm back to using good old engine enamel.  The paint on the engine parts is so much harder to scratch. The engine cylinders did get baked a little which you can't do with epoxy.  They sat out in the sun for about 6 hours.  By the end you could not smell the solvents anymore.  I was curious how hot they would get as the outside temperature rose to 97 deg. I have an infrared thermometer so I kept checking the temperature of the paint all day.  This picture was at about 10 AM and the outside air was 85 deg. and the parts were at 125 degrees F.  They never got any hotter as the day warmed up.  All the heat is coming from the sun not the air.  The finished paint is way tougher than the epoxy.