Helicopters, Radio Control

N450V2A Overhaul – Completed

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Tonight, I’m picking up where I left off yesterday [LINK], while I listen to some awesome local High School Radio (KNHC).

Sunday nights from 6PM -> Midnight is Industrial and Alt music show called ‘On the Edge‘. Reminds me of a similar show that used too broadcast on KFJC out of Foothill College in the Bay Area. Most of my good German Industrial music collection was the direct result of hearing it on that show.

Back to the Overhaul
I’ve been doing some research today on blade balancing. Picked up a couple of new tricks, talked to a few of the local experts and I’ve come up with what I feel is a comprehensive, but not exhaustive (aka anal retentive) balancing strategy. Here is my take on this VERY IMPORTANT task:

First off, getting some good tracking tape has proven to be a major challenge for me. Today I solved that problem, thanks to advice of a local flyer. He’s been using Monokote (I’m quite familiar with the heat-shrink version of it, having first used it almost 30 years ago). I picked up a high-vis red and contrasting orange in the adhesive backed variety.

Preparing to balance blades.

I don’t plan to balance the other 4 sets of blades I have tonight, just the set I’ll be using for the final run-ups once I have the bird back together.

The first step in balancing, is to find the COG (Center of Gravity) on each blade. I did this by rolling each blade on top of a spare flybar rod (it’s about 3mm in diameter) until I found the balance point. Once I did that I marked it with a permanent marker. This is done for both blades. The purpose of this is to determine how much balance weight you need to add to get the blades balanced our along each blade itself. Ideally you take the lighter of the two blades (if you have a scale that’s easier to determine, otherwise your normal blade balancing fixture will tell this tail), apply weight in the right locations to get both blades to have the exact same COG. I’ve done this already, the top blade has a little clear plastic tape used to weight it on the right side. Here the COG’s are in the same location on both blades.

Locating the center of gravity on each blade

Next I’m going to take equal pieces of the adhesive backed monokote, and apply a different color to the tips of each blade. Make sure the size of the monokote you apply to each is identical. They must also be applied in identical locations. Here is what it should look like *before* performing the final balance.

Adding contrasting blade tip colors. Critical to setting blade tracking

Next, set up the balancing rig and dynamically balance out the blades. Any weight, if required should be added to the light blade at it’s COG (which is why it’s marked across the pitch). Even though these blades are very close in overall balance, one blade does need a little bit more, to fully balance it out.

Blades on jig for balancing.

Once balanced, I moved back to the process of rebuilding the head. I had a lot of experience with the V2 head, but not the older Version 1 head that I had to buy parts for (no V2 parts available locally or online from the plethora of vendors, odd really). Interwebs to the rescue! I found an original ALIGN 450SE (v1) build manual with the exploded view of the V1 head!

ALIGN 450SE (version 1) exploded head view. (click image to enlarge)

Somewhere in the box of parts is the main head, and all it’s associated bearings.

Box of 450 class helicopter parts

The most important bag today, the main rotor head and blade grip components

There are a lot of parts that go into the grips alone! That’s 6 bearings, 2 spacers, 2 washers and 2 bolts, not to mention the 4 o-rings (dampners) and the feathering shaft itself (already installed in head).
Layout of all the parts required to assemble the upper rotor head. Look at all those bearings!

Having the instructions made assembly straight forward and quick. It took longer to write this pragraph and take the photo, than it did to put together, install, locktite and tighten the grips. They seem very firm and turn very smoothly. A HUGE improvement over what I was attempting with the hybrid V2 guts and V1 components. I knew better, but I wanted to see how close I could get. Not close enough. At any rate, here it is, assembled.

Blade grips installed. This is a partially assembled main rotor head top-end.

The next step is to attach the rest of the upper head’s running gear. The flybar seesaw holder was a little problematic. Gunk in the bushings had it binding up. Finally resorting to application of some firearms cleaning techniques (and fluids) cleared up the gunk. Re-application of all locktites was of course required after being exposed to solvents. Added a little CLP to the bushings to keep the running smooth. Pitch arms were next and those when back together without drama. This is what I have now;

This is a fully assembled main rotor head top-end.

It was finally time to bolt the head to main shaft, insert flybar, line up the washout shafts and block, hook up swash coupling links and get ready to finish the top-end rebuild of this bird.

Upper, middle and lower sections of main rotor head assembled and installed. Swash Plate is that beast of link buttons on the bottom.

While upgrading parts, I decided to swap out the temporary Blade 300 flybar paddles (smaller, top) for the larger genuine ALIGN 450 parts. They are basically twice as thick, have actual airfoils and weight 8.8g, compared to the Blade 400 units which are 2.7g. The orginal EXI flybar blades come in at 4.7g. I tossed them out. One was not factory drilled for the flybar, so I just sorta hogged it out during original construction. Turns out that alignment of that bore is really important to the overall flight characteristics of the bird! They are gone, just in case I forget why they are no longer in use, and put them on something. I’m better off with the flimsy B400 paddles than one that is not drilled properly. Many lessons in these little things.

Temporary parts (top) vs. the right parts (bottom). Flybar paddles are critical to all Bell-Hiller head aircraft.

Installed, centered, measured, re-measured, checked for square, re-measured down to .001″ inch. with dial calipers. I’m sure how to get it any more accurately constructed than this! With the blades installed, it’s time to perform the first run-up and blade tracking test. Really, about 9 hours of work comes down to the this moment of truth. Fixed, same or (gulp) worse?

Assembled and ready for ground tests. Stand by for....

This video contains the first run-up, before blade tracking was adjusted. Next was post-tracking adjustment. Overall vibration has been reduced significantly! With the replaced bearings and slightly slower head speed the entire things sounds healthier too. Another view in the video displays the blade tracking, and finally a fully assembled bird is run up to 3/4 throttle. A test of the throttle cut and auto-rotation flare action is also examined for function.

Everything looks great and ready for another test flight! Local time on the Pacific Coast here is 23:07. A little too late for test flights. The plan is to give it some air time after work tomorrow.

One other thing I noticed, was that flybar action is much smoother since I completely tore down the head and rebuilt it.

The upside of all this, is that I’m 100% confident I can repair any damage done during a crash, including a full frame up-reconstruction. At some point this fall I’ll probably swap out the metal frame for a V2 carbon fiber setup (about $30). That will drop quite a bit of weight off, and going to a CF tail boom will also shed some weight. The less the entire thing weighs, the less power it will use to remain aloft, which equates to lower operating temperatures for bearings, and longer flight times with the same batteries.

Now, I rest.

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