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TO
TEST FOR
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TEST
PROCEDURE
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OBSERVATIONS
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ADJUSTMENTS
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1. Control
Neutrals
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Fly the
model straight and level
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Use Transmitter
trims for hands off straight and level flight
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Adjust
clevises to centre transmitter trims
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2. Control
Throws
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Fly model
and apply full deflection of each control in turn
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Check
response of each control
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Aileron
:- Hi-rate, 3 rolls in 3 to 4 seconds. Lo-rate, 3 rolls in 6 seconds
Elevator
:- Hi-rate to give a smooth square corner, Lo-rate to give a loop of approximately
130 feet diameter
Rudder
:- Hi-rate approximately 30-35 degrees, for stall turns, Lo-rate to maintain
knife edge flight.
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3. Centre
of Gravity (Method 1)
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Roll model
into a near vertically banked turn
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A. Nose
drops
B. Tail
drops
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A. Add
weight to tail
B. Add
weight to nose
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(Method
2)
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Roll model
inverted
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A. Lots
of down elevator required to maintain level flight
B. No
down elevator required to maintain level flight, or model climbs
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A. Add
weight to tail
B. Add
weight to nose
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4. Decalage
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Power
off vertical dive, cross wind (if any). Release controls when model is
vertical, (elevator must be neutral).
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A. Model
continues straight down
B. Model
starts to pull out, (nose up).
C. Model
starts to tuck in, (nose down).
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A. No
adjustment required
B. Reduce
incidence
C. Increase
incidence
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5. Tip
Weight (course adjustment)
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Fly the
model straight and level, upright. Check aileron trim maintains wings
level. Roll the model inverted, wings level. Release aileron stick.
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A. Model
does not drop a wing
B. The
left wing drops
C. The
right wing drops
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A. No
adjustment required
B. Add
weight to right tip
C. Add
weight to left tip
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6. Elevator
Alignment. (for models with independent elevator halves)
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Fly model
away from you and into any wind. Pull it into an inside loop or vertical
climb, roll it inverted and repeat by pushing it into an outside loop
or vertical climb.
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A. No
rolling tendency when elevator applied
B. Model
rolls in same direction in both tests
C. Model
rolls in opposite directions in both tests
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A. Elevators
in correct alignment
B. Elevator
halves misaligned. Either raise one half or lower the other.
C. One
elevator half has more throw that the other, (the model rolls to the side
with the most throw). Reduce throw on side with the most throw or increase
throw on the other
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Advanced
Trimming
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1. Tip
Weight (Final adjustment)
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Fly the
model high into the wind either coming towards you or or going away from
you, smoothly push the model into a vertical dive, pull out sharply and
watch for a wing dropping.
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A. Neither
wing drops on pulling out.
B. The
right wing drops on pulling out.
C. The
left wing drops on pulling out
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A. No
adjustment required
B. Add
weight to the left wing tip.
C. Add
weight to the right wing tip
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2. Dihedral
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Fly the
model straight and level into any wind, apply rudder and watch for any
tendency for the model to roll.
a. Test
in both directions.
b. Make
changes in increments of no more than 1/8" at a time
c. Don't
worry about the nose pitching down or up.
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A. The
model does not roll.
B. The
model rolls in the direction of the applied rudder. (Proverse roll)
C. The
model rolls in the opposite direction to the applied rudder (Adverse roll)
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A. No
adjustment required
B. Reduce
dihedral
C. Increase
Dihedral
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3. Side
Thrust
During tests re-trim with rudder until a straight vertical is achieved,
then add side thrust to the value of half the rudder trim that was needed.
Zero the rudder trim.
(Go back and re-test after adjusting)
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Fly the
model away from you, into
any wind. Pull it smoothly into
a vertical climb going at least
to normal maneuver height (watch
for deviations to the left or
right as it slows down)
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A. Model
continues straight up
B. Model
veers left
C. Model
veers right
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A. No
adjustment required
B. Add
right thrust
C. Reduce
right thrust
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4. Up/Down
Thrust
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Fly the
model cross wind, at a distance
of around 100m from you,
(elevator trim should be neutral
as per test No 3), pull it
into a vertical climb and neutralize
the elevator, (watch for
any deviations up or down as
it slows down)
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A. Model
continues straight up
B. Model
pitches up, (goes towards
the top of the model)
C. Model
pitches down, (goes toward
the bottom of the model)
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A. No
adjustment required
B. Add
down thrust
C. Reduce
down thrust
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5. Aileron
Differential (Set
the model up with 12 Degrees up
and 11 to 12 Degrees down as
a starting point.)
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Fly the
model level and into any
wind, going away from yourself.
Pull it up into a 45
degree climb and roll to the
right. (After
adjusting, try again in
both directions)
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A. The
model does not veer sideways.
B. The
model's path veers to the right.
C. The
model's path veers to the left.
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A. No
adjustment required
B. Increase
differential, increase the
up throw on both ailerons
C. Decrease
differential, increase the
down throw on both ailerons.
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6. Pitching
in knife-edge flight (Method
1)
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Fly the
model on a normal pass and
roll into knife-edge flight, maintain
height with top rudder, (do
this test in both left and right
knife-edge flight)
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A. There
is no pitch up or down
B. The
nose pitches up, (the model
climbs laterally)
C. The
nose pitches down, (the model
dives laterally)
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A. No
adjustment required
B. Alternative
cures :-
1. Move the
C of G aft
2. Increase
wing incidence
3. Add down
trim to ailerons
C. Reverse
the above
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6a. Knife-edge
tracking (Method
2)
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Fly the
model on a normal pass and
roll into edge-edge flight, maintain
height with top rudder (do
this test in both left and right
knife-edge flight)
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A. The
model does not pitch up
or down
B. The
model pitches to the canopy in
both knife-edges.
C. The
model pitches to it's bottom in
both knife-edges
D. The
model pitches in opposite directions
in each knife-edge
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A. No
adjustment required
B. Lower
both Ailerons slightly approximately
2 turns
C. Raise
both Ailerons slightly approximately
2 turns
D. Use
mixing from rudder to elevator
to fix the problem.
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7. Power
off Tracking (Test #1)
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Fly the
model level into any wind,
pull the power off and watch
for any roll off to either side
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A. No
roll to either side
B. The
model rolls left
C. The
model rolls right
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A. No
adjustment required
B. Mix
2% to 3% right aileron to
low throttle, the amount enough
to neutralize the roll.
C. Mix
2% to 3% left aileron to
low throttle, the amount enough
to neutralize the roll.
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Power
off Tracking (Test #2)
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Fly the
model high at a distance of
approximately 100m into or across
wind but sideways to yourself,
push it into a vertical dive,
watch for any tendency to
roll whilst in the dive.
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A. The
model shown no tendency
to roll
B. The
model rolls to it's left
C. The
model rolls to it's right
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A. No
adjustment required
B. Mix
some right aileron to
low throttle, the amount enough
to neutralize the roll
C. Mix
some left aileron to
low throttle, the amount enough
to neutralize the roll
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Power
off Tracking (Test #3)
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Fly the
model high at a distance of
approximately 100m across any
wind but sideways to yourself,
push it into a vertical dive,
watch for any tendency to
pitch up or down whilst in
the dive.
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A. There
is no pitching, the model continues
straight down
B. The
model pitches up, towards the
canopy.
C. The
model pitches down towards
the bottom of the model
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A. No
adjustment required
B. Mix
2% to 3% down elevator to
low throttle
C. Mix
2% to 3% up elevator to
low throttle.
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NOTES:-
1. Trimming
must be done in calm conditions.
2. Abbreviations
are used.
3. Make
multiple tests before making adjustments.
4. If
any changes are made, go back over previous steps and verify or readjust
as necessary
5. A good
Decalage starting point is 0 Deg.. Wing, 0 Deg.. Stab, 1.5 Deg. Downthrust
& 1.5 Deg. Right thrust
6. The
model should be perfectly aligned whilst it was being constructed.
7. Static
balance the model prior to flying it.
8. Setting
the C of G to between 34% and 38% of the MAC is a good starting point.
9. All
vertical dives are power off.
10. Setting
up the model with 12 Degrees up Aileron and between 11 and 12 Degrees
down is a good starting point. |
