Pattern Trimming chart by Mike Walpole This chart was set up for trimming a pattern plane. However, there are quite a few sport aerobatic planes that would fly better if they were set up like pattern planes. It's a lot easier to fly a plane that's properly set up than a plane with all kinds of perverse mixing. I also must give credit where credit is due, this chart comes from the NSRCA (National Society of Radio Controlled Aerobatics) newsletter and was submitted by Mike Chipchase of Australia. Some of this information is repeted from the last article on trimming for aerobatics. First let's talk about basic airplane setup. The latest pattern designs are set up with 2.5 degrees of right thrust, 0 degrees down thrust, .5 degrees positive incidence on the wing (root and tip, no washout), and 0 incedence on the stab. Or, .5 ~ 1 degree downthrust and 0 incedence on the wing. Use an incedence meter to check this, or block the plane up on a big flat table and use a scale accurate to 1/32nd of an inch. If the plans show this information use that as a starting point. Control throws should be set up as shown on the plans. It's very important each aileron to have the same throw. This should be setup mechanically. The aileron throws should be set up the same up and down. If the plane has split elevators make sure that each elevator half has the same throw as the other half. I usually set the plane up with more down elevator than up elevator. That way I'll have the same control authority for up or down elevator. Set up the rudder with about 30 ~ 35 degrees of throw. Of course the ailerons and the elevator need to be gap sealed. To start out, the CG should be placed as shown on the plans, or about 30% of the average chord. The CG can be adjusted later. Use the placement of the radio to place or move the CG if possible. This is better than adding unnecessary weight because light airplanes fly better than heavy ones. Since the battery pack is the heaviest part of the radio, its placement will have the biggest affect on the CG. Also, laterally balance the plane. Pick it up underneath the center of the spinner and underneath the center of the tail. Place weight on the light wing tip until the plane balances. Embed the weight in the wing tip. With all that in mind heres the chart. ----------------------------------------------------------------------- To test for | Test procedure ----------------------------------------------------------------------- Observations | Adjustments ----------------------------------------------------------------------- Control Neutrals | Fly model straight and level ----------------------------------------------------------------------- Trim for straight and level | Adjust clevices to center transmitter | trims. ----------------------------------------------------------------------- Control throws | Fly model and apply full deflection | of each control in turn. ----------------------------------------------------------------------- Check the response of each | Aileron Hi-rate 3 rolls in 4 sec. control | Lo-rate 3 rolls -n 6 sec. Elevator | Hi-rate to give a smooth square | corner. Lo-rate for a loop of 130 ft. | diameter. Rudder Hi-rate for stall | Lo-rate to maintain Knife edge | flight. ----------------------------------------------------------------------- Decalage (incidence) | Power off vertical dive, cross wind | any. Release controls when model | vertical. ----------------------------------------------------------------------- A. Does model continue straight | A. No adjustments down | B. Does model start to pull out | B. Reduce incidence (nose up) | C. Does model tuck in (nose | C. Increase incedence down) | ----------------------------------------------------------------------- Center of gravity | Roll model inverted ----------------------------------------------------------------------- A. Lots of down elevator | A. Add weight to tail. required to maintain level | flight. | B. No down elevator required to | B. Add weight to nose. maintain level flight or | model climbs. | ----------------------------------------------------------------------- Tip weight, course adjustment | Fly model straight and level upright | Check aileron trim maintains wing | level. Roll model inverted, wings | level. Release aileron stick. ----------------------------------------------------------------------- A. Model does not drop a wing | A. No adjustment needed. B. Left wing drops | B. Add weight to right tip. C. Right wing drops | C. Add weight to left tip. ----------------------------------------------------------------------- Side thrust | Fly model away from you into any wind | Pull into a vertical climb (watch as | the plane slows down.) ----------------------------------------------------------------------- A. Model continues straight up | A. No adjustment needed. B. Model veers left | B. Add right thrust. C. Model veers right | C. Reduce right thrust. ----------------------------------------------------------------------- Up/Down Thrust | Fly model on normal path into any | wind. When model is straight out from | you about 100 meters away, pull into | a vertical climb and release the | elevator. ----------------------------------------------------------------------- A. Model continues straight up | A. No adjustment needed. B. Model pulls to canopy (up) | B. Add down thrust. C. Model pulls to belly (down) | C. Reduce down thrust. ----------------------------------------------------------------------- Tip weight, fine adjustment | Fly the model away from you into any | wind and pull into a small diameter | loop. ----------------------------------------------------------------------- A. Model comes out wings level | A. No adjustment needed. B. Right wing low | B. Add weight to left tip. C. Left wing low | C. Add weight to right tip of remove | from left tip. ----------------------------------------------------------------------- Aileron differential | Fly model on a normal pass and do 3 | or more rolls. ----------------------------------------------------------------------- A. Roll axis on model | A. Differential OK centerline | B. Roll axis off to the same | B. Increase Differential side of model as roll | command. | C. Roll axis off to opposite | C. Decrease Differential side of model as roll cmd. | ----------------------------------------------------------------------- Dihedral | Fly model on normal pass and roll | into knife edge flight. Maintain | with top rudder (do this test to the | right and left sides) ----------------------------------------------------------------------- A. Model does not roll out of | A. Dihedral OK. knife edge. | B. Model rolls in direction of | B. Reduce Dihedral applied rudder. | C. Model rolls opposite the | C. Increase Dihedral rudder in both tests. | ----------------------------------------------------------------------- Elevator Alignment. | Fly model straight away into any | wind. Pull into an inside loop. | Roll inverted and push into an | outside loop. ----------------------------------------------------------------------- A. No rolling when elevator | A. Elevators correctly aligned. applied. | B. Model rolls in same direction| B. Elevator half misaligned. Raise in both tests. | half or lower the other. C. Model rolls in opposite | C. One elevator half has more throw directions in both tests | then the other. (Model rolls to | the side with the most throw.) | Reduce the throw on one side or | increase it on the other side. ----------------------------------------------------------------------- Pitching in knife edge flight | Same as dihedral test. ----------------------------------------------------------------------- A. No pitch up or down | A. No adjustment needed. B. Model pitches up (to canopy) | B. Alternate cures. | 1. Move the CG aft. | 2. Increase the wing incidence. | 3. Drop the ailerons. C. Model pitches down (to belly)| C. Reverse the above ----------------------------------------------------------------------- Notes: Trimming must be down in calm conditions. Make mutiple tests before makeing any adjustments. If any changes are made go back over the previous steps and readjust as necessary. Well, there it is. For the purists out there you might note that none of these adjustments require the use of a computer radio. A well designed, well built aerobatic plane can be set up very close to perfect without any mixing. In fact that is one measure of a well designed pattern plane. I hope this helps any one out there that is interested learning advanced aerobatics. _________________________________________________________________ Mike Walpole | This space | msw@meaddata.com Mead Data Central| accidentally |...!uunet!meaddata!msw Miamisburg, OH | left blank! | (513)865-1086 | AMA 273066 |