« Posts under Empennage

Halloween Horror.

8 hours.

My parts arrived from Van’s last week. A couple of ribs and a HS-710 angle that I had ordered because I was tired of that nagging feeling of something not right in the structure of the horizontal stabilizer. Yesterday, I finally got to drilling the offending part off, with the intention of making a new one that satisfied all the edge distance requirements. This is the old HS-710:

You can see how beat up this thing is, and that’s from me sucking at riveting a long time ago. Not only that, see the holes along the flat part, near where the angle starts? Those holes are too close to the edge of the part. The general rule is that the center of a hole should be 1.5x the hole’s diameter from the edge of the part or another hole. This isn’t even close.

This part is one of four structural elements holding the tail onto the airplane, so it’s kind of important and it has to be perfect. No ovaled holes, plenty of edge distance, good rivets, deburred holes and edges. This part connects the inboard ribs and both spars as well, so it’s all got to fit together in such a way that all those requirements are satisfied. The plans for this section suck, and the design could be better too. This is one of the first things you have to do as a builder, and a fit this important could do with a little more explaining of the whys, and some clarification on the steps. It’s almost as if it’s deliberately designed to get your nose off the paper and understand the structural priorities for yourself, and the lessons are taught in mangled metal and UPS shipments from Aurora, Oregon. The main lesson here is that you have to trim off just enough of the nose rib flange to let it fit between the HS-710 and HS-714 angles, and that it’s better to be closer to the edge on the aft rib than on the angle.

So, armed with 4 years of aircraft construction savvy between then and now, I set about replacing the HS-710 angle and the inboard ribs.

This is the shiny new HS-710, ready to install. The tapered ends didn’t get as much of a taper this time, leaving more metal on the edges. All good, right? Wrong.

Another important lesson: Get rid of all annoyances and irritants before you do anything critical. Find your neutral space. My jeans were falling down (belt not tight enough, getting less fat, good news really), the drill charger fan was running, the psytrance station started playing something screechy, tweaky, and annoying, and the shop vac hose and air lines were completely underfoot. I drilled the new HS-710 in exactly the same place as the old HS-710, through the spar in the old hole. I needed a whole new class of profanity to accurately describe the situation at that point. I didn’t have one. So I threw stuff. Nothing heavy or expensive, but even watching my hearing protectors explode in a bright flash of red plastic and skip across the concrete didn’t satisfy the frustration and disappointment. Even the time I drilled a hole in my finger wasn’t this maddening.

At this point, I wasn’t much into taking photographs. I spent the next few minutes contemplating selling the whole mess and buying a Cessna. Slower, but for the money, hauls more cases of wine back from Napa. But then the ‘F— You’ took over. F— You happens at the darkest hour, when you just say F— You, this is not stopping me. F— You, you are just soft metal. F— You, I will get this done. Today. So I made a new HS-710 from some angle stock. That’s right. Made one. And I can make more. I’ve got plenty of angle stock. We can do this all weekend, so settle in, princess. This time, there was way more measuring than there was drilling, and I now have a fully functional, structurally sound, properly installed HS-710. Here are all 3 HS-710’s, old, new, and new new.

Getting that little bastard on was only the first of the fun things to do. This setup is designed to be assembled before the skins are on, and getting it all together requires some basket weaving and the use of the double-offset rivet set, which is a deep, dire pain in the ass. The procedure is: Stick the aft ribs in, drill them through the spar, then use those holes to match drill the forward rib making sure the edge distance is good. Before you drill that, make sure the skin-to-rib flange lineup is good. Get this part locked down, then do the skin holes. But riveting the flanges to the spar is a bitch. The double-offset set likes to walk around, and you really need to secure the assembly and keep the set seated or you’ll mangle the rivets and that will mean drilling out and possibly enlarging the holes. Trust me you do NOT want to go up to an AD5 rivet in there. The rivet gun just barely makes it in there to get a good lock on the rivet heads. Like I said, it was designed to be done without the skins in place.

If you get it right, you end up with something like this:

See how there’s plenty of room between the center of the rivet and the edges of the metal?

Squeezing the skin rivets is easy. I even remembered not to rivet the holes for the empennage fairing this time.

Assembled and resting. The next horizontal stabilizer I build better be on the next airplane.

More odds and ends.

2 hours.

I’m waiting for parts from the Mothership, so it’s all about what I can find to do while I’m waiting. Mostly I sat out there puzzling out wiring runs. The floor panels are in already, so I might have a nice game of Go Fish to look forward to when it comes to running wires for 2 GPS antennae (yes, 2, in case I get hold of a GNS 430W), trim servo, strobe unit power, tail light, then strobe wires forward for the wingtip strobes. What I did actually get done was finally rivet the reinforcing angle that the tank brackets attach to just forward of the main spar. I can’t believe I forgot to do that during wing mating, but I think I probably had other things on my mind at that point. So that’s done, and there are little blobs of torque seal on the accompanying thru-bolts to tell me I don’t have to worry about it anymore. Oh.. remember this thing? F-697?


It’s the canopy jettison bracket. I put it on the subpanel because I was just following the directions. Then I realized I’m not going to install the canopy jettison system (weight, complexity, etc). Now I realize that thing might get in the way if I have to chop holes in the subpanel for some deep avionics, like a GNS 430W or some other surprisingly large piece of gear I think I need. So I took it out. You can never have too much practice drilling out rivets.

After that, I fiddled around with the fiberglass rudder tip, and worked on the mounting system for the tail position/strobe. This is genius. At some point, I bought a length of 1/4″ aluminum dowel from the hardware store. What I did was cut 2 half-inch lengths of it, which I’ll drill and tap to 4-40, the same thread as the tail light mounting screws. I’ll put some dimples in the sides of them, then sink them into blobs of flox in the rudder bottom. At that point, they’ll be permanently affixed and I’ll still be able to unscrew them to change bulbs. OH, thumbs down on the build quality of the rudder botttom. The two halves of the rudder bottom don’t exactly line up along the seam, so I’m going to have to clean it up with micro and sandpaper. If I was exceptionally skilled with sheet metal, I’d make my own out of aluminum, but I’m not, so I’ll deal.

Finally, I messed around with the tailwheel springs. I’m going to need to order new chain. I should have looked at the plans. I remember them going together completely differently, and it took me some time to figure out that getting the chain directly on to the spring is no big deal. But the puzzle fooled this monkey, and I missed ‘Castle’ for nothing.

I’m going to pester Tim again this week and see what the deal is with my cylinders.

The Telltale Heart is no longer beating.

4 hours.

Today I started the fix on something I should have done a long time ago. When I first started building this thing in late 2005, I knew FA about how airplane parts go together. I also had pretty weak skills in precision metal cutting. I didn’t know how big the saw kerf was, I didn’t know how much metal would come off from the grinding wheel, and several other things that are pretty much muscle memory now. When I was building the horizontal stabilizer in 2006, I still didn’t quite have the knack of it,

This is what I’m talking about:

This is the forward reinforcing angle that spans the forward spar of the horizontal stabilizer. This part is structural. I probably shaved off too much metal from the bottom when making the angled tab, so that’s what killed me on the edge distance. Then I further beat the crap out of the two inboard ribs during the process of sticking it all together. I sent photos to Van’s of the whole sad-looking assembly and they told me it was ugly but not a problem structurally. Maybe it is OK, but it’s been bugging me for nearly four years. So today I ripped out the ribs and the HS-710 angle. New parts are on their way from the mothership.

It’s going to be rock solid this time, and I know that because I now know HOW those parts are all supposed to fit together, so I’ll have a drilling and riveting strategy that insures everything has the proper edge distance. I also have a tungsten bucking bar that I didn’t have before, and I have a decent array of skills built up over the last 4+ years so I think I can rivet the new pieces together without giving them that hand-hammered bronze-age look.

Always with the fiddly bits….

4 hours.
Finally got a chance to finish up the tail section. I fabricated and installed the rudder stops, hung the rudder and verified it has 35 degrees of travel both ways. This was slow going because once again, there was a lot more measuring and confirming than actual work. If you’re doing the slow-build flavor, you can do these before you put the aft deck or the top skin on, which would make it a little easier, but it wasn’t too bad. My main concern was having enough edge distance in the F-712 bulkhead flanges and the j-stringers after drilling. What you can do though, is use the vertical rows of existing rivets on the skin/F-712 to extend a line down to where the rudder stop rivets will go, then extend a line back using the rivets in the skin along the j-stringer. Doing that will get you where you need to be. This picture stinks, but what you’re seeing is a view under the horizontal stabilizer. The little black nub in the middle of frame is the rudder stop. The weird stuff in the background is the plumbing from when we ripped out the sink.

After that, it was time to do the canopy latch plates and finish the seat back bulkhead crossbar that only gets a cursory blind-rivet at the factory. the holes for the latch plates are OK, although they could be better. However, at this point, I’m filing them under “if it bothers me later, i’ll redo them then.” There’s also a little cut you have to do to what on a boat would be called the gunwale, I don’t remember the part number right now, but you have to slice off enough to let the tipup canopy frame ride on the structure below and latch into the square holes in the plates. There’s also the matter of the reinforcing angle holding the whole dingus together. The way it is, you’ll never rivet the side skin to the main longerons. So I notched (smooth, round, 1/8″ notch) the reinforcing angle enough to get a CR-3214 rivet in there. Then I riveted the whole mess together. I gotta tell you, my skills with the double-offset cupped rivet set are rusty as all get-out. There are two rivets I find…. questionable, but there are eight others in that area that are just fine, so I’m not going to mess with it and risk mangling the metal or enlarging the holes too much. So here they are, locked, cocked, and ready to rock. Although I have to check, those 3 on the longeron might be AN426 and not AN470, like I did them.

After that bit of business, I got all the parts for the rollbar (what Van’s calls the cabin frame) out of the hayloft and started laying them out. I went over the drawings, and this stuff is starting to get harder. At this point, it’s expected that you can measure and cut things to 1/64th-inch accuracy, something I still have some problems with since my finest Sharpie has a 1/32″ tip. Fortunately, no part is more than a Scotchbrite-wheel pass away from blueprint spec, assuming I leave enough metal for adjustment.

Some ugliness.

Yesterday when Dan was here, he pointed out the ham-fisted way the left HS inboard ribs were put together. He was right. It’s ugly. Two rivets are close to minimum edge distance, if not over the line, and now that I see that little section of the HS (Months later), it looks like a team of chimps went to work on it with socks full of ball bearings. But I so want to be done with the empennage. I sent photos to Van’s, and they said yeah, it’s ugly, but it’s ‘hard to imagine this will cause any problems structurally.’ So I’m going to move on, and cover it up with the empennage fairing when the time comes. If it continues to drive me nuts, like some aluminum telltale heart pinging away aft of the baggage compartment, I’ll fix it by replacing the left HS inboard ribs.

Emp is DONE!

The empennage is finally frickin’ done! Except for the fiberglass tips, which i’m going to do much, much later, everything is done. I closed up the rudder yesterday morning before work.
The trailing edge is a lot straighter than last time.. And it’s within the tolerances, I measured it!

Rudder all closed up

Mouted on the vStab, by the numbers, swings freely.

So BOOYA! Emp done, we’re on the wings, baby!

Almost done with the rudder.

4 hours.
Did a lot of stuff, so this is a combo entry. Got the skeleton drilled, dimpled, primed, and painted. I was going to finish the rudder last night, but genius me didn’t order the K-1000 platenuts for the rod-end bearings in the last AC Spruce run. This whole thing was a pretty mundane process except for one clever hack that I hope helps somebody.
The trailing ends of the rudder ribs are notoriously skinny. They are so skinny that the recommended procedure for dimpling them is to bend the flanges apart, dimple them, then bend the flanges back into shape.. I dunno about you, but this was a beeyotch for me on the elevators and on the last rudder, and I was dreading doing it on these, because once I bent them out of the way and back again, the fit kind of sucked. Then it hit me.
The 3/32 female pop-rivet dimple is pretty thin. Really thin. And the yoke that came with my squeezer had a lot of the nose ground off. Like so:

And it fits on the standard 3/32 dimple die:

And the adjustable squeezer set will get it up to the end of the range:

A bit of masking tape holds it in place (removing the tape on the surface for clean mating:

and the whole thing fits in the narrow end of the rib!

Apologies for the blurry photos. Macro photography isn’t my specialty.

Proseal. Ech.

2 hours.
Man, I don’t know how some of you guys ever got through building your tanks. This stuff sucks. But I actually got the TE wedge on the rudder done. By the book and by the numbers this time.

The gray goo from hell oozing out.

More gray goo. I was smart enough to put a layer of Boelube on the aluminum angle below so I won’t have much trouble with stickage.
As a side project, I’ve decided that I need some practical experience with high-performance vehicles powered by air-cooled pushrod engines that lend themselves well to customization, so I picked up one of these:

This is a 2000 Buell X1 Lightning, Millennium edition, an American sport bike powered by a heavily modified Harley Davidson 1203cc motor, the one usually found in the Sportster. That black thing on the side with the little screen is my first mod. It’s an Airtech Streamlining airbox, which comes to you as raw, white gelcoat fiberglass and you have to do all the drilling and fitting yourself. I cut the mesh out of a cheap air filter from Kragen to put over the intake hole. Inside is a round UNI filter. The little screen was my first foray into fiberglassing, and it worked well enough that I think I can handle the tips on the empennage. We’ll see tomorrow when the paint is totally dry and the resin has totally cured.

countersinking.

.5 hours
Didn’t get to work on the plane this weekend.. The bastards got me on 6 day weeks again. But whatever, the more they make me work, the faster I get all the airplane bits. What I did get done tonight though, was countersinking the AEX wedge for the rudder and dimpling the aft row of holes on the rudder skins. I need to make some sort of scale for the proseal glop so I can measure 10:1, but I’m not going to try that at 10pm on a schoolnight. If, by some miracle, I don’t have to work the weekend, I’ll try to get that done. I don’t want to order a triple-beam scale off the internet, I don’t need to be on any watchlists. But building a simple 10:1 thing should be easy enough. Hmm.. do I have enough scrap aluminum around? I think so.

Rudder 2.0 stiffeners

2 hours.
Finished deburring rudder skin edges and dimpling stiffener holes. Riveted stiffeners to right side, half done with left.