Matt's RV-7 Project

Cold day in the garage with the air filter and a pile of aluminum bits. After a lot of careful measuring, I came up with a basic plan of attack, starting with making a new set of brackets. Then I bent a 90-degree flange on the front of the baffle, right at the forward edge of the air filter.

The filter butts up against the new flange at the front, and is held at the back by a piece of W-shaped bracket material. Actually it is more like VW shaped, since I had to put another bend in it to match the shape of the underside of the baffle.

I cut some new side brackets and clamped everything in place on the airplane:

Then I match drilled the side brackets to the inlet ramp baffle. Laying out the holes on the outboard side was challenging due to edge distance issues. The air filter is almost the same size as the inlet ramp!

Once all the brackets could be clecoed to the inlet ramp, I was able to reassemble the whole contraption on the workbench and see underneath. This is what it looks like on the bottom side:

I marked cut lines on the baffle, even with the edge of the filter on the sides and back, and somewhat back from the edge on the front face.

To do most of the cutting, I used a carbide grinding tool mounted in my drill press as a sort of crude milling machine, then followed up with files and scotchbrite. The hole has to be square at the back to admit the filter, but I left the corners round on the front side where the filter fits under the baffle overhang.

Here it is again for a round of test fitting:

The filter tucks under the front lip, then lays down into the cavity formed by the brackets. Of course it is just sitting in there, so I will have to build some kind of retaining device to keep it from falling out.

The air filter takes up pretty much the whole baffle, leaving no clearance between the baffle and the cowl. I marked a new trim line on the cowl:

I cut and sanded the cowl lip until I had an even 3/8" of clearance along the entire front edge of the inlet ramp. There isn't much cowl material left, but there should enough to attach the air seal material.

I don't have the air filter totally licked yet, but I think I am over the hump at last. Now that I know it is actually possible to make it fit – barely! – it's all detail work from here onwards.

I know, no updates for quite a while… not only has there been the usual round of holidays, travel, garage coldness, and winter illness, but also the following fact: even though I've been doing a lot, I don't feel like I've gotten anything done in a while. That is, in the sense of (adjective) completed; finished; through. The engine baffles and air inlet duct are each a series of interlocking mysteries, and I haven't completely cracked either one. Still, I have a bunch of pictures on my camera, so I guess I should post them so you can see I've been making some amount of progress.

I worked on fitting the left inlet ramp to the cowl, starting by drawing a line from the outboard corner of the baffle to the point where it touches the lower cowl:

I put an upwards bend along the line, a little at a time with plenty of trial and error fitting in between:

With the correct amount of bend in the middle, the inlet ramp now touches the lower cowl all along its length. Well, almost touches – I want an even 1/16" gap between the two parts to accommodate the rubber airseal that will go there later on. You can also see I've trimmed the outboard edge to bring the #2 cylinder baffle in line with the cowl.

I cut this baffle attach plate to fit, and mounted it on the engine case:

Drilled and clecoed the associated angle piece:

Here's an end-on view showing how the various parts are arranged. This locks in the angle of the left-side inlet ramp.

Per the plans, I cut a round plug out of some scrap wood. It kind of looks like Jupiter. Or maybe something else.

Using thin packing tape, I attached it to the throat of the fuel injector metering servo:

The plug centers the engine air duct on the engine air inlet while it's clamped in place for fitting.

This is how the air duct fit straight out of the box. Lots of trimming and grinding awaits.

It took lots of hours of tediously iterative work to improve the fit, and I didn't take many pictures along the way. Here's one I found on my camera that documents my use of some special-purpose tape that's specifically designed for taping ducts.

You can't control the fore-and-aft position of the duct on the baffle, but you can adjust the side-to-side fit by grinding away obstructions and rotating the duct around the wood plug on the fuel servo. It's made extra challenging by all the stuff that's in the way, and the fact that the inlet ramp has a kink in it.

I stopped trimming once the duct was centered side-to-side on the inlet ramp and the fit was pretty good all around. It will get trimmed back later to allow space for the air filter.

I had to grind off quite a bit of material to fit the duct around the alternator – in fact I'll have to open up this hole later on to provide some extra clearance.

The starter also has two protruding lugs on it, just visible in this picture, that hit the duct. I ground away more fiberglass to make it fit.

Skipping ahead a bit, here's what it looks like after being fitted. The extra holes will be glassed over once I'm done with everything else, thus making it a custom-fit part.

After looking at the documentation for the starter, I discovered that it's permissible to cut off the unused lugs on the starter as long as you don't cut into the case itself. Good news, since I was worried about how much the airflow in the duct would be constricted if I had to use fiberglass to mold in "dimples" for clearance.

So, I removed the starter from the airplane in order to perform some elective surgery:

Hah, not so tough now, are you?

He was no match for Señor Hacksaw and Mister Grindy:

Not a great picture, but you can sort of see that the starter lugs no longer intersect the surface of the duct. Next time I get out the glass and glue, I'll patch these two holes. That's the one nice thing about fiberglass – especially for nonstructural applications, you can usually put back on whatever you accidentally took off.

I marked a line on the duct, 3/8" from the underside of the inlet ramp:

Then I cut and sanded to the line. You can see the odd shape required to match the bottom of the bent-up baffle.

I drilled holes to mount the duct to the fuel servo, which was harder than it ought to be due to the lack of room to work in. Then I trimmed the excess material off the duct flange.

Bolted up for a test fit. Two of these bolts are very difficult to put in – too bad this piece still has to go on and come back off many more times.

I traced the outline of the duct onto the inlet ramp baffle. The plans say to cut to the line, but I'm not sure I trust them on this just yet.

Instead, I used the air nibbler to rough cut a hole about a half inch back from the line. That will give me room to adjust the hole size once I figure out the air filter mounting scheme.

Placing the baffle, filter, and duct on the engine for a trial fit:

At least the duct/filter/baffle intersection is a good fit. But, there's not much room between the filter and the cylinder, or ahead of the filter – especially once the air ramp gets trimmed to its final length. I'm going to have lots of fitment and edge distance problems here.

I made these filter brackets by following the dimensions in the plans. Silly me! Maybe I'll be able to use them as templates for how not to make the correct brackets – once the replacement material arrives, that is. Argh.

Really, the secret to the baffles and air duct is to use the plans only enough to understand the desired outcome, and then improvise the actual construction as necessary. Come to think of it, I think I saw this in a movie once.

Oh, I also finally broke down and bought myself a real work stool to sit on while I'm messing with the engine. For the last fifteen years I've used this milk crate as a chair while doing who knows how many projects, and I was starting to get really tired of it. Judging from its appearance, I'd say the feeling is probably mutual.

Slow progress on the baffles… I got the left-side baffles mostly fitted. By the way, the CB-706B spacer I made per the plans was way too short and I had to remake it from leftover material. Do yourself a favor and verify all dimensions given in the baffle plans before you start cutting!

The two rear case baffles didn't initially fit together very well with the center baffle brace:

A lot of the trouble was that they needed to be trimmed to fit better around the various bumps and bulges on the engine case… a process that took a lot of on-and-off fitting.

Closeup view of the same area after improving the fit:

On to the inlet ramp baffles… I did the usual steps of match drilling and deburring, and also drilled a one-inch hole as specified in the plans:

I had to disconnect the factory-installed prop governor oil line, which eventually ends up going through a grommet in that big hole:

Initial trial fitting of the right inlet baffle:

Closeup of the prop oil line; the yellow square is a bit of foam rubber to keep the pipe from getting all scratched up. Also note that the baffle needs to be trimmed to keep it from grinding against the ring gear.

I removed the dummy prop hub and flywheel for easier access:

Further work on left and right inlet ramps. You can just see where I ground away some of the right-side one to clear the ring gear:

The plans have you rivet "temperature risers" to the inlet ramps, which are simply a couple squares of aluminum that block some of the airflow to cylinders 1 & 2 (the front ones) so it can be used by cylinders 3 & 4 (the back ones). Problem is, the sizing of temperature risers is somewhat peculiar to each particular installation, and the plans method of attaching them requires you to remove the baffles and drill out rivets in order to modify them. Not a great idea if you ask me. Instead, I put some nutplates on the inlet ramps (screws visible in this photo) so I can experiment with differently sized temperature risers as needed.

Both inlet ramps fitted to the engine:

I was getting frustrated trying to decipher the next page in the plans, so Mary brought some refreshment down to the garage. I tell you what, the atmosphere in this place isn't so great, but the service is excellent.

More progress on the baffles… CB-706B spacer, check:

Riveted the CB-1007B bracket to the aft right case baffle. These rivets were kind of a pain to set.

Deburred this bracket and attached it to the front of the engine, using one of the existing case bolts and a new lockwasher:

There's another bracket that's supposed to mount to the back of the engine, using the two aftmost bolts. Uh, sounds great, but my engine has a bunch of stuff there already.

I knew I was going to have to move the ignition coils anyway, since the location where Mattituck installs them won't fit when the rear baffle is installed. But even after removing the coils, the fuel line is in the way.

Much better… I gently reshaped the stainless steel fuel line with my fingers until I had about 3/16" clearance from the bracket, then reoriented the adel clamp and its supporting bracket to secure the fuel line in its new orientation. I still need to find a new home for the ignition coils, but that will come later.

Time to start fitting the baffles to the engine. If you think this will be another long, drawn out exercise involving a lot of repeated installing, removing, and trimming, you are correct! I spent half the day just getting these three pieces to fit somewhat well:

As delivered from the factory, the orange silicone gaskets under the rocker covers interfere with the fit of the baffles:

I thought I'd have to trim the gaskets all around, but the only cutting I had to do was in removing the little half-circle tab of rubber at the top. The rest of the fit adjustment was done by loosening the rocker cover screws and shifting the gasket around to make it fit the shape of the baffles.

This area had some interference with the manifold pressure hose:

After grinding a relief notch, the baffle can lay down against the #3 cylinder.

I didn't like the un-reinforced screw hole in the previous photo, so I made a little doubler out of scrap and riveted it on.

An entire day of work and all I have to show for it is baffling for one side of the engine. And I still don't know where I'm going to mount the ignition coils, oil cooler, or any number of other things. Oh well, I guess I must like solving problems or I wouldn't be doing this…