Cowling ramps

July 26, 2012 / posted in Firewall Forward / No Comments

2 hours.

This is two hours of puttering over the last several days. I go the cowl ramps glued on, and tonight I made the contoured part that interfaces with the governor baffle. Next is to fill the cavities under the ramps with boat foam, shape them, then glass them over.

Gluing the ramps on turned out to be more or less a non-issue, but I did have to take the front baffles off, which is a PITA.

I got my ignition harness back from Bill’s Air Center. That was only $80 worth of stupid, so I consider myself lucky. Oh, I didn’t tell you about that? OK. I was pulling on the wire end of one of the starboard plug wires at the harness cap, for some reason, and it slid out of the casing. Plug wires work like a Chinese finger trap. The outer shield expands or contracts depending on where the tension is, so it allowed a bit of wire to slide out of the casing. One thing led to another, bad went to worse, and the next thing I know, the whole wire is in its separate components on my bench.

After a frustrating couple of minutes, I resigned myself to taking it up to Bill’s Air Center at SMO. Bill’s a great guy and he’s been there forever. They fixed it, but said it was a major headache to source all the parts, since Skytronics doesn’t actually sell them. They want you to send your harness back to them for repair. Phoo on that. Anyway, it’s all better now.

Baffles 15 – Almost done!

July 7, 2012 / posted in Firewall Forward / No Comments

6.5 hours

Today was fairly significant, even though it might not look it. I finished attaching the airseal material to all the baffles, drilled the holes for the spark plug wires, and more or less permanently attached the baffles to the engine.


Since I did the aft left baffle last time, I figured I’d do the aft right baffle, that way I could at least get both of them on and done. this one actually proved to be pretty easy, with no surprises. After all, it was more or less about doing the spark plug wire grommet holes, deburring everything, and attaching the airseal with rivets.

The connection in the middle where the baffle connects to the bracket got changed a little. Originally, I had the bracket pinning the airseal between it and the baffle, but that looked stupid and distorted the baffle, so I cut some slits in the baffle to get around the bracket. It should seal fine, and eventually the rubber will mold itself around the bracket with hours of heat and use.


With both sets of aft baffles on, I installed the oil cooler. This was one of the items that’s been bugging me for a while, and now it’s finally done. I’m still not happy about the amount of flex in the aft baffle where the inboard oil cooler attaches, but I’m not exactly sure what to do about it right now. Any reinforcing strut that picks up a convenient attach point on the engine would interfere with the fuel injector lines, which is no good. This shot shows the beefy angle bracket I installed last time to reinforce the connection between the side and rear parts of the baffle, and gives the oil cooler bolts a more solid structure to hang from. Lots of people report problems in this area, but this, and a strut for the other side usually fixes it.


So here it is, the bane of my life, nearly finished. I recut the governor baffle, because the governor hole didn’t seal well enough for my taste, and this time around, I left a big dog-ear flap on the front to aid in sealing with the cowl, should the need arise. I didn’t take a lot of photos of the process of installing the governor baffle seal, because it’s difficult to shoot pictures while you’re using both hands to wrestle with airseal. The end of the governor is bigger than the housing where the seal sits, so you have to cut the hole big enough to get over the end, but small enough to seal on the governor housing.

This process also revealed a small flaw in my governor baffle design: I can’t actually take the baffle off without removing the governor. I can live with this, I think. But what I have to do to get at the governor nuts is take the left front baffle off, which can’t be done with the governor and its baffle in place. But there’s always a way. It’s messy, and it’s a hack, but disconnecting the oil line from the #2 cylinder allows me to drop the left front baffle out of the way and slip it out past the governor baffle.

I also put the airbox on, just to see everything in place, and make sure it all still fits. What you see in the photo is essentially the final configuration of the baffles and intake.

I still have a few minor things to do. I need to drill the duct holes for the mags and alternator, but I don’t want to do that until I’ve figured out control cable routing. I also need to make the rods securing the baffles at the bottom where they wrap around the cylinders. Once that’s all set up, I’ll need to squidge some red RTV in where the airseal meets the baffles, and around the engine-baffle interface in various places, plus around the corners of the oil cooler so I get maximum efficiency from the airflow through that.

Baffles 14 and Oil Cooler

July 5, 2012 / posted in Firewall Forward / No Comments

8 hours.

I haven’t been working on this a lot lately, because my motivation is low, and I’m traveling for work. But I can report this time that the project is sucking a little less. Last time, I’d gotten the baffle seal material trimmed. Since then, I’ve been knocking items off my list, one by glorious one. At this point, baffle seal material is riveted to both front outboard baffles, and left rear baffle.

In addition to that, the oil cooler bracket is done, and the left rear baffle parts are all riveted together. This went surprisingly well, except for the fact that I initially installed the oil cooler double upside down, which sucks, because just flipping it over doesn’t work: The damned holes don’t line up on the sides anymore. I managed to fix this without making a huge mess, but there were a few too many extra holes for my comfort, so I beefed up the section in the corner with a piece of angle running down the vertical where the side and rear join up.


This is a shot of the rear baffle section before I cut out the hole for the actual cooler.

Making the hole for the plug wire grommet was also fun. Not that big a deal though. And finally, everything became a more or less unified piece of equipment that will hopefully serve its purpose as part of the cooling system. With the angle going up the vertical on the outboard corner, this thing is really solid, and hopefully stands up to all the engine vibration. I’m not crazy about the fact that the inboard side of the cooler is attached directly to the baffle, so I’m going to look at options for transferring the load to the engine case somehow.


Here’s everything riveted together, except the baffle seal. I’ll try to find a better photo. When I was doing this, I didn’t take a lot of photos, because I’m experimenting with a new workflow that involves periodically stopping to clean up the mess that accretes around the work area, such as tools, clecos, harware, and cast-off bits of aluminum. At some point, I’ll roll photos into that process. Yeah, I know, seven years on is a little late to be experimenting with new methodologies, but that’s why it’s called “experimental” aviation.

Baffles 13

June 18, 2012 / posted in Firewall Forward / No Comments

5 hours.

Lucky 13. This baffles thing is second to none the worst, most vexing part of this build yet.  However, I did make a lot of progress this weekend. I got the airseal material trimmed, for the most part, although I suspect I’ll have to iterate the left front a bit, the part that goes around the governor. This is no end of head-scratching and puzzlement. Today I was actually able to drill the airseal material to the baffle sides, which is a big step, and with the exception of what I just mentioned about the front governor, the top cowl seems to seal all the way around, which is a good thing. Never having built an airplane before, it’s hard to tell if I’m overthinking a problem. The key is to keep focused on the end result desired, and solutions will appear. On this particular task, they take their sweet time doing so, and this is the one task on this build where I’m not able to stand back and go “yeah, that’s awesome.” Instead, it’s something to be gotten through, like a prostate exam or tax forms.

I’ll post as much of a photo story as I can in a later entry, but I didn’t take a whole lot, and part of the reason for that is that it’s really difficult to see anything inside the cowl with all the parts installed, let alone jam a camera up in there and shoot comprehensible pictures.

There are also a number of things that need to get finished before this can be called “done” so I’ll list them here and hope to get at them this week.

The pain in iteration comes from having to put on and take off the baffles. This is a time consuming process, and needs to happen several times before all the finishing touches can be done, but it’s not a good idea to install things permanently because depending on various factors they’ll just have to come off again. So here’s a list of unfinished business, in no particular order:

  • Make tab for left front lower ramp to close off gap near engine case.
  • Drill rear bracket to rear baffle
  • Make/install fasteners for front/rear side baffles
  • Drill ducts for alternator and magnetos
  • Drill/install spark plug wire grommets
  • Proseal corners of snorkel at the filter bracket
  • Finish making front left baffle seal sections
  • Trim cowl for lower left inlet ramp
  • Rivet oil cooler reinforcing bracket to baffles
  • Drill/install oil cooler doubler and bracket
  • Deburr baffle seal rivet holes
  • Pop-rivet baffle seals to baffle metal
  • Glue/fiberglass top cowl inlet ramps/seal inlet ramp sides, shape ramp interface
  • Permanently install prop governor, gasket and all
  • Recut governor/front left seal material
  • Make/install lower cowl inlet seals

It’s endless, I’m telling you.  But with this out of the way, it’s time for plumbing, wiring, and control cables.  When that’s done, I’ll rivet the top skin on, put the canopy back on, and finish the interior.  After that, it’s time to go to the airport!

Baffles 12

June 11, 2012 / posted in Firewall Forward / No Comments

7 hours.

If I had a time machine, I wouldn’t go back and tell 1984-me about all the cool stuff in the future, or bet on all the baseball games, or ram a pickup truck into a sleeping Mohammed Atta. OK, maybe I’d do that. But what I’d definitely do is tell 2005-me that under no circumstances should you purchase an engine off eBay, and if you do, make sure the damn prop governor is in the back.

I’ve spent more time than I care to think about figuring out just how the hell the cowl intakes are supposed to interface with the baffles via the rubber airseal material. There are no guidelines for this, here there be monsters, etc. The io-390.com site has a lot of good information, but as with all things cowl and baffle, everybody’s setup is just a little bit different, and I’m basically having to roll my own solution anyway. This is not necessarily a bad thing. I just wish I knew a lot more of what I know now back before I started.

The major issue comes from figuring out the shape of the airseal on the front baffle on the left side, the one that wraps around the prop governor. I think I have something that works, but I’m not 100% happy with it, and I wish I knew how to do it better. But it looks like what I’ve done will seal the high-pressure area under the cowl, and when I get back from Toronto, I should be able to finish cutting the airseal strips for the rest of the baffles. I should also be able to bond the inlet ramps to the top cowl and start filling in the tunnels on either side of them. The idea is to keep air from spilling out of the high pressure area into the area below the engine. The pressure differential is what cools the engine.

If I didn’t have this stupid front-mounted governor, the standard baffle kit would fit fine and I would probably be on to plumbing and wiring by now.

Baffles 11

June 5, 2012 / posted in Firewall Forward / No Comments

6 hours.

Quick update: Baffles trimmed, front baffle bracket fabbed, top inlet ramp trimmed,

Pondering airseal fit. I just don’t friggin’ get it.

Baffles infinity.

May 29, 2012 / posted in Firewall Forward / No Comments

7 hours.

Memorial day weekend was decent. Got a bunch of stuff done, mostly trimming down the baffles. The final trimming still isn’t done, but I got the contour of the top inlet duct cut in. Very iterative, time-consuming process. I have to say, I’m still not altogether clear on how the airseal is supposed to work around the cowl inlets. There’s some airseal that’s supposed to go on the bottom inlet half, and I guess that’s supposed to overlap with the stuff on the baffle somehow.

the other problem I have is just how little metal I’ve got on the front baffle at the top of the arc near the governor drive gear. Still, that has to be fastened to the engine somehow, and I suppose I can reinforce it when I devise some clever system for attaching it to the engine.

I also drilled the fiberglass inlet ducts into place. Now that I have them locked in, I can glass them and fill in the inboard side so air doesn’t blow through and cost me pressure.

Apparently this game is all about air pressure, specifically, making sure that air flows through the engine compartment the way it’s supposed to, which is over and between the cylinders. I read somewhere that gaps totaling up 1 square inch where they’re not supposed to be will cost 20% of the cooling capacity. This would not be good. At all.

First thing that has to happen though is the baffles have to come off, get final trimmed, and deburred. Maybe painted. Not sure about that.

I’m starting to see one of two things: Either it’s the light at the end of the baffle tunnel, or it’s a train, which means I’ll wind up redoing them.

Baffles – Photos and things.

May 14, 2012 / posted in Firewall Forward / No Comments

7 hours.

When I made the entry for yesterday, I was dead on my feet. After a day or two of standing/working, I sometimes don’t have the patience to write well, or clearly, and I certainly don’t have an excess of desire to deal with photos. I’m sure there’s some fancy wordpress widget that can handle it, but when I started this project, ‘blogging’ was a new buzzword heard only in elite circles of of the technorati, and as yet had no good tech for displaying images other than the tried and true html code, which is what I use, and still use.

Along with that, when I’m on the “here be monsters” part of the instructions, I don’t often stop to take photos because I don’t want to lose my train of thought. I envy the photojournalist’s muscle memory of shooting constantly while engrossed in other activities. I just ain’t got it.

So this entry is just a slew of photos, with comments as to what was going on, and hopefully they’ll tell some of the story of how I arrived at a solution for the interlocking puzzle of front-governor, snorkel, and baffles.

Like I’ve mentioned before, the O-540 front baffles from the RV-10 kit get dragooned into service on this particular -7. The biggest headache is finding all the chickens, all the eggs, and turning them into ducks, which go in a row. Barnyard metaphors aside, it becomes an exercise in problem-solving to figure out what to do first. The first thing to do is to fit the snorkel. I won’t go into that here, because it’s been described elsewhere, but the only way to get a solid enough structure from which to take any reference for cutting or fitting the front left baffle is to get as far as you can on the snorkel. This means riveting the side baffle and drilling the left front inlet ramp to fit it, with all the bends and adjustments done.

Like everyone else says, don’t trim the front of the inlet ramp until the last minute, because you’re going to need it to form the front air filter retainer angle, which is simply a bend in a section of the inlet ramp where the air filter edge stops. Mine’s just on the nice side of acceptable for this purpose. Making this bend also stiffens the inlet ramp, and that’s a good thing, because by the time you’ve cut the gaping maw of the air filter opening, things get a little wobbly.

From there, you can fight with the snorkel and the air filter retainers, and at the end of the process, you have a detachable airbox whose structure provides a rigidity suitable for measuring the final inlet floor angle.

This angle was marked on the engine case, but sure enough, it drifted around a degree or so during the install.

See that flat pad just below the governor? That’s where I marked the initial angle of the inlet ramp. This is done with the lower cowl on, because it’s necessary to make sure the inlet ramp comes up to the inlet on the fiberglass lower cowl. Also, don’t do like I did, make sure you cleco all your baffle-to-case hardware on so you can work without every bump moving something out of line.

I didn’t photograph this process but the way I measure’d the angle is by using a cheap plastic angle measuring thing (don’t remember the actual name of the device) which is like a protractor with a couple of arms and dials on it. You can use whatever you want, but the reference for this to line up the vertical are the two aft studs for the governor mount. With one arm of the device on those and the other laying on the inlet ramp floor, you get what you need. The governor should be off at this point, to give you room to work.

From there, it’s no big deal to transfer that angle to the O-540 front baffle, which has a sharper angle than the 360 baffle, and cut off the excess to line it up with the governor and the inlet floor.

With that done, you have a front baffle that more or less fits where it’s supposed to go. I didn’t take photos of the air filter retainers, VA-132-C and D, which hold the air filter in place inside its hole, but you need to make sure you have these on when you’re doing the final position of the baffle.


This photo shows the lower edge of the baffle laying along the inlet floor just inboard of the inboard air filter retainer. This is important, because the left front baffle needs to be detachable and accessible, as does the filter retainer.


The factory-formed tabs on the baffle are no longer there after the bottom has been cut away to match the inlet ramp angle, so you have to replace them with something. This is the first attempt. Initially I figured I’d only need to do the long side, but this isn’t really a good solution.


This little whisker proved to be the source of much head-scratching, pondering, and measuring. This forms to the angles of the baffle and the inlet ramp, replacing the tabs that were sheared away during the fitting of the baffle.


Like so. This provides a good place to mount the platentuts that hold the baffle to the inlet ramp. It looks fine now, but getting to this point was insanely difficult. At some point in the build, you realize you’re off the map entirely, and you wind up being designer, engineer, and installer, sometimes all on the same day.

This is why I can’t stress it enough: If you’ve never built a plane before, or you don’t have a lot of experience with fabrication or mechanical work (like working on airplanes, for instance), don’t deviate from standard configurations or construction, because you’re going to get your ass kicked. The whole reason I’m in this mess is because I bought a weird engine. If I had to do it over again, I’d have gone with the recommended 360, with its aft-mount governor. Would have saved two or three weeks, possibly more. Seriously.


Anyway, back to the narrative. With the angles cut, bent, deburred and drilled, the platenuts go on, then this piece gets riveted to the inlet ramp.


The right hand side is similar, except in this case I’m using a slightly thicker piece of angle stock, since there isn’t as much of it in contact with the baffle. Not shown in this photo is the small piece of angle on the front edge of the baffle, which provides enough beef to keep everything solid. You can also see the conical gusset clecoed into place. This is an interesting bit of business, because the aft-most hole on the conical gusset goes through the inlet ramp and the bend in the side baffle. The two forward most holes are done with flush rivets so the airseal material can lay flat against the surfaces.


From time to time, it’s necessary to put the lower cowl on to check fit and lineup. In this shot, you can see a slight conflict between the aft platenut on the cowl and the forward edge of the baffle. Trimming away a small bit of the baffle fixed this.


This is another view. The aft angle piece took care of the gap between the baffle and the inlet ramp frame, but there’s still a small one on the first bend. This is why the archengineers of aerospace spec’d out high-temp RTV.


Back to the left side. It’s a little hard to see, but there are four flush screws holding the front baffle to the angle from earlier, which is riveted to the inlet ramp.


Here, everything is screwed on and riveted, except for where the two upper baffles join. I’ll have to fabricate a bracket that will connect to the case bolt just above the governor drive gear. Sorry for the blur. the iPhone 3g has some issues compensating for the light levels present in my shop during daylight hours.

The next phase of this is to cut down the top edges of the baffles to allow the top cowl to be installed. This is another iterative, bit-by-bit process, taking care not to remove too much metal, but enough to allow the cowl to sit where it’s supposed to with the hinge pins installed.

As you can see from this photo, there’s plenty of metal that needs to go away before the top cowl will sit where it’s supposed to.


I started the rough cut, and rough is definitely the word for it, but the idea is to get the cowl to fit again. There isn’t too much reference for this step, in the plans or on the Interwebs, But it becomes obvious what to do after a while. There was a lot of anxiety reaching this point; nothing on this up to now has been simple or easy, why should this be any different? But eventually, you just need to sack up and start trimming the baffles.


Just check for fit frequently.

After this is done, you’ll need to make the final trim, which is 1/2″ of clearance between the top edge of the baffles to the cowl, uniformly, all the way around. There are various methods for doing this, although I foresee a little more chicken-and-egg when it comes time to do the upper inlet ramps, which are fiberglass, and attached to the top cowl. I’ve decided I’m going to cut down the side baffles to fit the upper inlet ramps rather than having them ride outside of them, as some have done. I think this will provide a better seal and reduce the amount of dependency on interlocking parts.

Mostly the process involves deriving a reference line on the baffles to use as a cut guide. Some have done it with paper clips: put a crap-ton of paper clips on the baffles and the cowl pushes them down and lets you mark along the contour. Also there’s the wheel-and-sharpie method, where you cut the end off a fine-point sharpie and put a 1″ disk of aluminum on the felt tip, rolling that along the contour of the cowl to mark the line, although I don’t see that working real well except for anyone besides Plastic Man or an octopus, given the space constraints you have for arms and hands.

Baffles 8-9

May 13, 2012 / posted in Firewall Forward / No Comments

10 hours.

Today and yesterday.

My motivation this week was at an all-time low, and the anxiety factor was at an all time high. Some of these tasks that look like nothing turn out to be major headaches. I’m currently working on the forward baffles, and there is no way this could have gone smoothly. This front-governor nonsense has proved itself to be a recurring pain, and fitting the O-540 baffle elements to the O-360 kit is a pain.

But yesterday I sucked it up and made attach brackets for the left front baffle. This is hard, because the angle has to match the inlet ramp and the baffle at the same time. I got it done though, and put a bunch of platenuts in it so I can detach the baffle from the inlet ramp to facilitate working with the prop governor. It should work OK, but it bears watching. I also riveted the inlet ramp and baffles together, where applicable, plus set up the air dam that attaches to the main angle bracket of the left front baffle. Fortunately on VAF, there was a post about putting this on with platenuts, because it will probably need to be shaped a little during flight testing to adjust cooling properties. I also finished the snorkel/inlet ramp interface, and bent the leading edge of the inlet ramp down to serve as a barrier for the air filter. It all works.

With the exception of one of the brackets, and the sealing of the area around the corners of the snorkel intake, the left front baffles are done.

Today I worked on the right front baffle. I drilled in the conical gusset, plus the air dam got the same platenut treatment, and I started fabricating the bracket setup for the front baffle/inlet ramp connection. There’s no governor to get in my way, but the retention system is different, so I have to fab a couple of brackets for it. I did one, but I need to do two more. I might be able to finish that up tomorrow.

The goal is to get the baffles in a state where I can start cutting them down to fit the cowl. After that, it’s plumbing, cabling and wiring.

Baffles 6 – 7

April 30, 2012 / posted in Firewall Forward / No Comments

12 hours.

I took Friday off to build. I take every other friday off to build, since I’ve got the vacation days, and Friday/yesterday were big build days.

This section is a lot of problems to solve, all interwoven and tangled. I had hoped to be finished with the snorkel this weekend, and I got pretty dang close. I got the filter mounts riveted to the snorkel, then got them drilled to the baffle. It was a little more complicated than that, but mostly just iterations of measuring, cutting a little, measuring, repeat. Now all that’s left of that is to dimple the screw holes on the filter mounts and install the platenuts.

It was during this process that I started the iterations on making the front baffles fit. Since my engine has a front-mounted governor, I bought a set (and an extra set) of the front baffles for the RV-10. I was able to cut them down to match the -7’s lower inlet ramp angle, and went through numerous iterations of grinding to get the contour right. The left one should fit the governor just fine, and the angle matches the inlet ramp perfectly. The right one might need a little work, but I have an extra one and I can use the current one as a template if I have to.

As if that wasn’t enough to make things interesting, I get to figure out how to install the top cowl inlet ramps in such a way that glassing them in won’t result in a hinge misalignment. The manual says (one of the few things the manual says about this area) to install the ramps with the top cowl on. Well, that’s just great. How the hell am I supposed to fiberglass that? Maybe drilling/clecoing for initial position, then glass it with the clecos still in, holding it together. In any event, all the baffling will have to come off before this happens.

I’m also going to have to order a new batch of Proseal to finish off the air filter mounts.

The baffles are going to need lots of trimming. A quick test fit shows the top cowl being not even close.

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