Greg, you have a better memory for names than I have, sorry I didn’t realise that we’d met. I well remember flying with you and trying to get some data with my PB3. It was back when I was still teaching myself how to use the PB3 and balance rotors. I can’t remember the details of what went wrong but I’m pretty sure that I now know what the problem would have been. About that time I realised that we had a problem with some Magni rotors that were proving impossible to balance correctly using the dual accelerometer setup I devised for the PB3. That problem is now resolved and with the PB4 track and balance is much, much easier, even if it is still a long winded affair requiring lots of short flights.
I respect your “old timers” experience based knowledge but assure you that with today’s equipment you can get very good results quite rapidly. Next time I’m in SA I’ll come and see you, you have experience that I don’t and I’m always trying to better understand gyro vibration problems. I’d really like to get a copy of that report with its print out and charts if you still have it.
Believe me it’s much simpler than it was and with your experience you’d pick it up in no time. It can’t be a coincidence that:
Arrowcopter wanted to replace their damaged Chadwick (Vibrex) with a PB3 after I gave them a demo, they couldn’t because of an insurance issue.
AutoGyro and Magni replaced their Chadwicks with a PB4 after a demo and training.
Wagtail want to replace their system (I think Chadwick) with a PB4 after a demo.
ELA, Gyro-Tech, Brako, Trendak and Silverlight chose the PB4 after a demo and training.
Argo chose the PB4 on recommendation in Poland, and SportCopter now use the PB4.
Back to the subject of this thread, your question got me thinking.
Based on your experience you probably know most of this but I’ve written it down for me (because I have a terrible memory) and for those who are new to this.
I’m not an old timer when it comes to rotor track and balancing (although I’m feeling pretty old) and I’ve never tried “slinging” a rotor. In fact I very rarely even bother to string one before balancing.
Some thoughts on setting up a rotor if you don’t have a dynamic balancer.
The simplest first move is probably to static balance the rotor as described in John Potter’s write up (post#4 above) and extremely well demonstrated by Jim Vanek in his video
. This will give you a pretty good “spanwise” balance.
The next step should be tracking because most of the tracking adjustment features on gyros either require you to shim between the hub bar and the hub/teeter block (as shown in John’s write up) or use the “half moon” set up that can be seen in Jim Vanek’s other video
at about 06:50. Both these methods cause a chordwise imbalance so there’s no point doing a chordwise balance before tracking because you’ll just have to do it again afterwards. Tracking can be done during pre rotation with the ‘flag” method or using tip lights or reflectors (again see Jim Vanek’s videos). Tip lights and reflectors can also be used in flight and is more precise than during pre rotation.
Once you’re happy with spanwise balance and tracking there remains chordwise balance or “shifting” the rotor along the teeter bolt. John’s write-up says there’s no way of knowing how far out the rotor is chordwise without a balancer, which is true, but your question about sling or string got me thinking. If the rotor was off centre chordwise and you strung the rotor it would remain off centre. However, in theory, if you sling the rotor it should
misalign the rotor blades so that its Centre of Gravity is over the centre of rotation and you have effectively balanced the rotor chordwise. If you then put a string across the rotor you’d find it misaligned.
Note I said in theory. For this to happen there has to be enough clearance in the bolt holes for the blades to move to where they want to. There also has to be very little friction because the restoring force that should push the CofG towards the centre is very small. I did a little calculation. If you had a rotor with blades of 15kg (33lb) each and a CofG at 2 m (6’7”) and the chordwise eccentricity was 0.5 mm (0.020”), that means it is “shifted” 0.5 mm off-centre along the teeter bolt, which is a lot of imbalance by the way. If you pre rotate to 200 rpm to “sling” the blades the force created at the centre to align or sling the blades is only 6.5 N (1.45 lbf). I couldn’t believe this number at first because it suggests that slinging simply doesn’t work and yet there are “old timers” who say it does. I asked Jean Claude to check my numbers and he agrees.
So you have a choice. You can sling the rotors and if it works, my theory is that you’ve also balanced your rotor chordwise.
Or
You can believe Jean Claude’s and my calculations and decide slinging simply doesn’t work.
Re your question about bearings, SKF says the following:
“Bearings in the 52 and 53 series are no longer available and have been replaced with 32 A and 33 A series bearings, which are dimensionally interchangeable. Only size 3200 A is different, and has a width of 14 mm instead of 14,3 mm.”
Mike
