« Posts tagged cowl

Baffles – Photos and things.

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

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

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.

Baffles: To Do.

If you don’t know what any of the terms or parts are, this won’t make a damn bit of sense to you. This is more for me to have a written plan of the order of operations to hopefully avoid some future FUBAR. So I’m going to lay out what I think is the proper op order for getting the baffles on and trimmed, the cowl finished, and the airbox done.

See, this is an interlocking puzzle, kind of like a Rubik’s Cube, but none of the pieces are square and there’s no colors to tell you when it’s right. You just need to end up with a shape that meets certain requirements, i.e. everything fits without rubbing on something else and nothing makes the prop stop spinning.

First thing to do: Clean the shop. I swear, sometimes I don’t even know why I bother having a tool box. Everything winds up strewn all over the place anyway. It’s reboot time, because when something I’m looking for is buried under crap I should have put away and it takes me 10 minutes to find it, it’s time to fix that.

So, the baffles:

1. Order new front left inlet ramp. This is because I may have already trimmed too much off the front edge to get the thing to fit inside the cowl. Have to check. I can still use the old one for lineup and getting the shape right, but there might not be enough meat on the front of it to brace the air filter.

2. Make the bracket that connects the ramp to the engine. With this in place, I’m not trying to hit a moving target as far as shaping the opening of the fiberglass snorkel/airbox, and also the angle of the front upper baffle that goes around the prop governor. OBTAIN PROPER BOLTS FOR BRACKET. Big, meaty 3/8″ Grade 8 bolts that connect to the pad just below the governor.

3. Find the rest of the airbox kit, especially the W-channels thqt hold the filter in place. I know they’re in there somewhere, I just have a filing system for parts that closely resembles the Sargasso Sea.

4. Make a collar for the opening of the fuel servo’s intake to assist in fitting/trimming the snorkel. Yeah, that should have FA to do with the baffles, but like I said, it’s an interlocking puzzle. The takeaway from this is that sorting out the snorkel before cutting any holes in the baffle means there’s no need to cut the snorkel in half and re-glass it.

5. Cut/grind off the extra ears on the starter so they don’t interfere with the snorkel.

6. Cut a relief into the snorkel so it clears the alternator bracket. This is a common mod. Why Van’s sells a part that doesn’t work out of the box with 90% of installations is a mystery to me.

7. Maybe not actual step 7, but finish the conical gusset, trimming, and fastening for the right-hand side, which seems to be working OK.

8. Glass in the top cowl inlet ramps. These will be necessary for the next step.

9. Begin the iterative process of trimming the top sides of all baffles down so the top cowl fits and the baffle seal strips will seal.

Baffles 4

5 hours.

Yesterday and today. I’ve been dreading this, mostly because the baffles are, uh, baffling. But with the cowl halves fit, it was time to seriously tuck into these things. Friday, I got a present from American Propeller, my new PCU5000x. I think they put the wrong spring on it, because the spring returns the control lever to the low-rpm position, but that’s no biggie, they can send me a new one. Either that or I pooched the order, which would suck, but it’s not a showstopper, I’ll just have to run the cable up from the bottom.


It’s a lot less bulky than the old McCauley that was on there originally, although I might have to reclock the bracket to clear the cowl. This is done by drilling a couple of offset holes in the bracket.

Yesterday, I farted around with the baffles for a while, putting them on in preparation for cutting the front ones to the cowl. I figured I’d be fancy with it this time and make some cardboard templates to get the shape right. This didn’t work out all that well. My plan to set it up like Bill Wightman’s installation didn’t work at all, because I couldn’t for the life of me transfer the shape of the governor pad onto the cardboard with any degree of satisfaction.


It seems simple enough, but it’s not, and I couldn’t quite make it work.

What I wound up doing was using the IO-540 baffles from the RV10 kit I’d ordered a while back. For some reason, this option dropped almost right into place. I had to modify the right side baffle to match the angle of the inlet ramp, but that worked out pretty well, once I actually figured out a good way to measure and cut it. The left front worked out fine, since the pre-cut hole was actually designed for a governor the size of the PCU5000X.

Today’s efforts consisted mostly of putting the bottom cowl on and taking it off again. A lot. I trimmed the front side baffles to clear the cowl, then worked on getting the proper shape for the right side.


This is the left front trimmed back enough to clear the cowl and nest in the spot just outboard of the cowl inlet.

Cutting the shapes was actually easier than I thought it would be. There’s a lot of extra metal on the front inlet ramps, maybe these things are designed to work with a variety of configurations, but the basic deal is that you have to trim everything so it tapers down to the rough opening of the cowl inlet. It takes several iterations.

Once you have the basic trimming done, the front inlet ramp comes off and you have to bend it along a line that starts at the point where the cowl inlet edge is tangent to the ramp surface and ends up in the corner where the front side baffle and inlet ramp connect. The bend brings the front ramp roughly into line with the inlet.


Like so. There’s still more trimming to be done, because the way this works is that a strip of baffle seal material goes around the pink bit and seals against the ramp and sides. On the right hand side of frame is the 540 front baffle. I’m not promising this is going to work, but it seems to fit OK., and if it doesn’t, I can use it as a template to cut on one of the spare 360 baffles I ordered from Van’s just in case.

Also a conical gusset goes in the corner where my fingers are, one that more or less matches the shape of the inlet. This does two things, it gives a better seal under pressure and stiffens the structure where the air comes in.

After that’s all done comes the fun part: Trimming the upper edges all around to match the contours of the top cowl.

Oil Door.

6 hours.

Yesterday and today.
Yesterday I worked on the oil door. The finish kit comes with a fiberglass version, and it’s meant to be held down with an elephant-ear Camloc fastener, but it looks like ass if you do it that way. A better alternative is the Nonstop Aviation hidden hinge kit.


It mounts the door on a sprung hinge that opens up and out of the way of the cowl. You can use the fiberglass part from the kit for the actual door, but like some others have done, I made mine out of .032 aluminum. The reason? When the fiberglass part gets heated by the engine, the pressure from the hinge trying to open will warp it. Aluminum has no such limitation.


Once the door is cut, formed and drilled, the flush-mount Camloc release latch goes on. I actually made two of these things, because I screwed up the Camloc location on the first one. No biggie. I still have half of a .032 horizontal stabilizer I’m using for stock.


When it’s all in place, it closes flush and latches properly, but getting the hole for the latch handle was kind of a bear.


When it’s open, the spring keeps it out of your way so you can check oil, remove hinge pins, etc.

Today I was doing more checks of things under the area where the top skin will go, because that’s going to have to go on soon. I spent some more time securing wires and torquing down Adel clamps. In doing so, I found that I never riveted the row on the longeron right next to where the canopy closes. They leave them open at the QB factory because the slider canopy mounts a little differently. This isn’t all that easy to deal with when the panel and other things are installed, but it’s not that bad either. All I had to do was disconnect the vent hoses so I could get hands and bucking bars up inside the channel by the longeron.

After that, I started putting the baffles back on, but didn’t get very far. I’ll do some more of that tomorrow.

Cowl Fitting 6, 7

13 hours.

This counts last weekend as well, and I suck for not making the update then, but I had some pressing stuff going on. Anyway, more stuff happened on the cowl, mostly fitting, shaping, and the drilling of hinges.

Before I get into all that, I’m going to post some photos from the last entry.


To rough in the landing gear cutouts, I had to use a piece of angle, where I marked the distance from the center of the airplane to the landing gear leg.


The idea was to transfer that measurement to the bottom cowl to mark the approximate place the landing gear cutouts needed to be.


Like so. Although, the fiberglass flexes so much any measurement would have been approximate at best, so I left plenty of room for error. Fiberglass isn’t like metal, if you cut too much away, you can build it back up, but it’s a pain in the ass.


Remember I said I did a lot of hinges? Here’s one almost done on the bottom cowl. This is a piece of piss. Cleco-clamp the hinge to the edge, drill 1″ holes along its length. Easy.


The side hinges weren’t too bad either.

But the fun comes with you have to drill holes in the fiberglass on hinges it covers up. This is where the new pink cowl with its honeycomb structure help a lot. What I did (and I learned this from Bob Collins, thank you Bob!) What I did was put the cowl on, and fine tune the fit with some of that PVC tape I had lying around. It’s great stuff, super strong, and doesn’t have all those fibers like duct tape. Then I stuck a light up inside the cowl, pointing at the hinges, which I’d already drilled holes in.


With the light inside, the holes in the hinges light up the fiberglass and gave me a really good drill guide to complete the task. The first one sucks. You have to somehow hang on to it and make sure the drill goes in right, otherwise it can oval out the drill hole.


The desired result is Clecoes holding the hinges all the way up and down the line.


More or less like this.


The other fun bit is figuring out what to do with the hinge pin. I have to drill a slot for it to enter and exit the hinge, and I’ll have to conceal it later.

Like an idiot, I didn’t cut out the oil door per the plans before starting the hinge fit. It didn’t seem to have any ill effect, but after the hinges were drilled, I took the cowl apart and cut out the hole for the oil door.

But I didn’t get much past this part. It was Oscar night, and we in the movie biz make a big deal out of it. It’s also cool to have 5 friends nominated this year.

This week was killer, so I got nothing done. But today was pretty solid.

I didn’t get a super-early start today, because I took simba down to Marina Del Rey for his walk.

Today, I riveted the hinges to the cowl.


The blue light from outside on the pink cowl makes everything look like it was shot in a Miami disco in 1983.


Riveting these was tedious and repetitive. Like these photos.

But eventually all the rivets got done, so I started working on the inner flanges, which get platenuts riveted to them and the two halves screw together through them.


The smaller hole was the temporary one I used to hold the two haves together during fitting. it will get filled in when I go into fiberglass mode.

And that’s it. tomorrow, I’ll probably work on cleaning up wiring so I can rivet on the forward deck skin.

Cowl Fitting 3

6 hours.

Another day, another run at the cowl. First thing was to get the cowl-side top hinges on so I could drill the top cowl to them. This is one of those times where fit is critical, because an error here multiplies itself all over the place.


This is the arrangement I came up with to lock the hinges in place as best I could. On the relatively flat part, I used the 1/8″ aluminum pin that came with the hinges to minimize the slop, driving it in until it couldn’t get past the curved parts on the outboard end. With this set up, I measured 1″ back from the center of the hole on the firewall flange which put the hole right in the middle of the hinge meat. These things are going to take a crapload of vibration, so it’s important that the fastener loads are spread as well as possible.


With the top cowl in place, I drilled where I’d marked. I was doing three on each side until I got down to the tight-radius bend, where at that point, it really didn’t matter, because nothing was going anywhere with most of the clecos in place.


Like so.

With all these guys drilled, I made the hinge pins from the .090 stainless steel provided in the kit, with 90 degree bends at the center ends, and some loops to zip-tie together. The plans say FA about securing these, so I consulted VAF again, and was given several options, one of which was the above solution. Simple, elegant, safe. I like it. I also had to taper the outboard ends of the pins so they could find their way into the eyes of the hinges. Getting them to go all the way down the length of the hinge is kind of a chore, but after a few tries, I got the knack of it, and now they insert and remove pretty easily, and the cowl doesn’t move around at all.

After that, I figured what the hell, I’ll try to fit the lower cowling. This didn’t work out so well, because it’s really big, really awkward, and I need to make cutouts for the landing gear. The idea is you’re supposed to suspend the thing below the top cowl, make everything fit, then drill the hinges. The prop is a bit of an obstacle, but it’s not too bad, what’s vexing me right now is the cutouts for the landing gear. I don’t want to eyeball it and take off too much fiberglass, because I don’t want to have to build it back up later. As usual, it’s always easier to remove material than to put it back. I might need some help on that one, but once that’s done, fitting and trimming the lower cowl shouldn’t be too hard. I also have to do the oil door, which I might get into this week. with the lower cowl on, the oil door is the only access to the area inside the cowl.

Cowl Fitting 2.

6 hours.

First thing was finishing up drilling the top cowl hinges, then it was on to the cowl itself.

I finished measuring the line 2″ back from the firewall all the way around the fuselage. My original plan was to just mark the ends of the lines with red electrical tape, which you can see in this photo, but after some thought, it turned out to be a stupid idea. Electrical tape flexes like crazy, and a closer examination from a different angle showed the tape line to be wavier than an acidhead’s dorm room. What I did have was a flexible plastic ruler, which allowed me to mark the ends of the 2″ lines all the way around and still conform to the shape of the fuselage. Once I had a good line, I laid the edge of the red tape on it, which gave me a tactile cue for measuring back onto the cowl itself. 2″ back from the red tape is where the edge of the firewall is, so that got marked on the cowl, and the same process repeated, but this time with masking tape. Masking tape flexes less, and doesn’t seem to bother the fiberglass cutter on the Dremel too much.


Here’s the Pepto-pink cowl with the tape line marked, ready to have the extra bit trimmed off the end. I had to clamp a couple of blocks to the bench to keep it from jumping around, but once that was set up, I cut off the overhang on the cowl. There wasn’t much. With 1/4″ of clearance between the spinner and the front of the cowl, there was just about that much overhang from the cowl aft of the firewall edge. Once the cowl was marked, I put the hinges back on


This is right after trimming off the excess. What followed this was a lot of iterations of sanding and shaping, trying to keep the 1/4″ of clearance up front, but maintain a nice even 1/32 gap all along the cowl edge. You leave this gap for paint. If you don’t, when you put the parts back toghether, the thickness of the paint makes them not fit anymore, and the paint gets chipped, and nobody wants that.


The 1/4″ gap up front is pretty important. The engine is on rubber mounts, so it’s going to flex a little when it starts and shuts down, so you want to keep the spinner clear of the cowl. In this shot, it’s still a little high, I want to have the spinner about 1/16″ to 1/8″ above the cowl to account for when the engine sags after the first few hours of flight. I guess the rubber mounts do this. Go fig.

Apparently, the pink cowl is thinner than the old green cowl Van’s used to provide. The plans have you putting .032 shims between the hinges and the firewall because the old cowl used to stick up significantly. The pink one, or at least this one, required no shims at all. It’s either flush with the top deck skin or just slightly above it, just enough to catch a fingernail on. That can be sanded flush without thinning the material significantly.

All in all, a non-suck day.

Cowl fitting 1

1.5 hours

Took a crack at the top cowl hinges. Didn’t turn out too bad, either. The hinges that attach the cowl are beefy 1/8 hinge, but they follow the contours of the firewall, so you have to replace the 1/8″ aluminum hinge pin with the .090 stainless pin that Van’s supplies. Makes getting them into the eyes with your arm jammed in the oil door easier, supposedly.


Left side drilled.

I also found another neat trick on the Interwebs. Walter Tondu’s RV-7A site shows how to align the cowl to the spinner using a couple of quick-grip clamps. Much easier than some of the methods I’ve seen out there.

I got the right side clecoed on, but not drilled yet. Maybe I’ll tackle that in the morning.


Right side

I also filled out the spec sheet for my PCU500x governor. Good thing I ordered the Van’s bracket. I think I still have the old Cessna bracket around somewhere, but I doubt it will be of much use. If the Van’s bracket doesn’t work, I’m going to have some fun making up a new one. From steel, no less.