I have now started to fit the servos and make up the linkages. The rudder is driven by 2 servos housed in a Hobbyking aluminium mount. I am using the HobbyKing Turnigy high votlage, 33kg.cm digital servos. If one of these servos was to fail live so that it was essentially stuck but still under power then the other servo would try its best to fight it. The result would be 2 servos drawing maximum current and a big standoff with no movement. I have therefore used the design I saw my inspector Ian Turney-White using in one of his planes to allow each servo to do its own thing. The difference here is that I have had to re-design it so that the servos can be inline rather than side by side. here it is:
- IMG_3557.JPG (36.36 KiB) Viewed 14253 times
You will notice that the link that drives the control surface is not attahced at the centre of the floating drive bar. The off-set to one side is what allows it to provide movement by either servo when one fails.
Because of the situation it has to use an angled design that does not give perfect symetry (as the other side by side servo design does). I have set it up in Autocad and it gives he following performance:
With both servos operating at 30 degrees either way, it gives rudder movement of 28 deg left, 32 deg right.
With rear servo dead, 18 deg left, 23 deg right.
With forward servo dead, 10 deg left, 22 deg right.
- IMG_3558.JPG (34.75 KiB) Viewed 14253 times
- IMG_3559.JPG (30.26 KiB) Viewed 14253 times
And this is the underside
- IMG_3566.JPG (28.48 KiB) Viewed 14253 times
I will post actual movements on the next post.