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3- Learn How To Set Toe Angle
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While most of us were falling asleep in Geometry class,
we didn't realize that we were learning important RC principles.
Geometry is everywhere in RC: symmetry, shape configuration, and not to
mention, angles out the wazoo! When dialing in your car's suspension,
toe angle (the horizontal tilt of the wheels) must not be overlooked. If
toe angles are set correctly, you can get the most out of your
suspension, meaning it will keep you moving straight and cornering
aggressively. Inconsistent toe settings, however, will send your vehicle
into unpredictable directions and greatly affect handling in general. If
you did fall asleep in 2nd period, no worries! I'm Mr. Wortel, and I'll
be your substitute for the next 15 minutes |
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Part 1: WHAT IS TOE
ANGLE?
Looking down onto your vehicle, you may
notice that the front and rear wheels
can be adjusted horizontally, causing
them to point in or away from the
chassis; this is the toe angle. Angling
the toe so the front of the wheels are
pointing toward the center of the
chassis is toe-in. The opposite of
toe-in is called, intuitively, toe-out.
This occurs when the rear portion of the
wheel angles toward the chassis. The
most important part of toe adjustments
is consistency. If toe on one side is
different from the other, the vehicle
will certainly veer off and hit a wall,
or the car belonging to the guy driving
next to you (not a good way to make
friends at the track).
Part 2: HOW TO CHANGE IT
Changing toe angle is much like
adjusting camber links. To change toe on
the front wheels, lengthen or shorten
the turnbuckles with a wrench.
Lengthening them will result in toe-in,
and shortening provides toe-out.
Changing toe in the rear can be more
complicated. Some vehicles use
turnbuckles in the rear, but most are
fixed and require changing wheel hubs or
bulkheads. Initially, set the front toe
to 0 degrees. If the rear toe is
adjustable, set it to -1 degree,
although this can differ for on-road and
off-road applications. It is important
that the toe settings are symmetrical
from side-to-side, so use an adjustment
grid or stand to ensure accuracy. If
these tools are not available, you can
easily make one yourself, drawing
vertical lines and measuring toe
relative to 90 degrees. This seems old
school, but it works well.
Making A Toe
Adjustment Grid
Now it's time to put your geometry
skills to use. It is easy to make a
toe adjustment grid without having
to purchase a stand.
1.) Use a piece of paper that is
bigger than the footprint of your
vehicle.
2.) With a ruler, draw a vertical
line on one side of the outer
wheels, making sure that it is at a
90 degree angle with the front edge
of the paper.
3.) Then, draw an identical line on
the other side of the vehicle, also
90 degrees from the edge of the
paper.
4.) What you have now are two
straight lines to compare your toe
angles with. Use a prOtractor to
measure the toe relative to the line
on each side. If the angle is a
perfect 90 degrees, then that side
has neither toe-in nor toe-out. This
will ensure that your angles are
accurate and symmetrical.
Part 3: WHEN DO I ADJUST TOE
It is impossible to make one
generalization for toe setups, because
they vary for on-road and off-road, as
well as from track to track. Toe
settings, however, are universal in how
they affect handling. In general, toe-in
on the front will result in stability on
the straights but with increased drag.
Toe-out will result in increased
cornering but will feel more volatile on
the straights. In the rear, toe-in
counteracts oversteer and increases
forward traction, as well as increasing
off-power steering. Increased rear
toe-in, however, will reduce
straightaway speed. The only time you
would ever use toe-out in the rear would
be for rock crawling, because it would
allow the rear end to swing around
turns.
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