70 AUSTRALIAN AVIATION
warning about using space under the
rear cabin seats with passengers.
But there is no access to the
baggage area from inside the main
cabin. The rear cabin wall is a
structural item which the passenger
seats hang off and it looks like the
designers have left it intact rather than
have that internal/inflight access to
the baggage area.
Finally, you can dial your baggage
weight up on the Garmin 1000H and
it will calculate centre of gravity (CoG)
- more on which later.
Drivetrain
While the 505 sports an all-new cabin,
its drivetrain – main rotor blades,
transmission, tail rotor drive shaft, tail
rotor gearbox and tail rotor assembly
- is borrowed from the 206L4
LongRanger. (Where we put the
aircraft to bed in the hangar in Sydney
it sits right alongside a LongRanger
which makes the comparison very
easy. Visually the components look
completely interchangeable and
familiar.)
The lighter weight of the 505
slung under the LongRanger’s blades
provides a reduced disc loading. In
terms of flight characteristics rotor
inertia and tail rotor authority is
similar to current model LongRangers.
The completely exposed tail rotor
gearbox looks out of place with
the rest of the helicopter, even if
passengers are unlikely to notice and
it does make inspection easy. And Bell
does have an aerodynamic tail cone kit
in development.
The 505’s vertical fin looks identical
to the current 206L4’s, while the
underslung-mounted horizontal
stabiliser was arrived at after a
number of positions were trialled
during testing. It does look like an
afterthought but no doubt it is easy to
fit and remove and there are no spars
protruding through the tail boom.
The horizontal stabiliser’s reverse
aerofoil design, like in almost all
helicopters, produces a downward
force on the tail in forward flight
resulting in a more level attitude
and increased forward CoG range. It
has a slotted leading edge which is a
new feature to the Jet Ranger design
which acts to delay airflow separation
at higher angles of attack that the
horizontal stabiliser might experience
in a climb.
The other notable tail section
hardware feature is the vibration
dampening counterweights. These
are square plate weights mounted to
the end of the tail boom with a stiff
wire coil bracket that work to dampen
airframe vibration. This would also be
the attachment location for any ballast
weights and being so far back on the
tail allows for very small weights to be
used to adjust center of gravity.Skids
The skids and crosstubes are pretty
standard construction. The skids are
comparatively short while the toes
canter in a little at the front as they
angle up and are topped by a flat step
to assist with entering the cabin.
The Nautilus-owned Bell 505
on display at Rotortech was fitted
with popout floats and the rear skid
extension, which gives the skids more
‘normal’ looking proportions. A high
skids option is expected at the end of
2018, which will provide another 15cm
of lift.
From the pilot’s seat the toe ends
are behind your seating position – in
line with the rear of the front seats.
To see them in the hover requires a
small head tilt outboard and a glance
slightly rear.Startup
Getting started and going is very
simple, thanks to the Garmin 1000H
multi function displays and the
Safran Arrius 2R’s dual FADEC (full
authority digital engine control)
system.
Once power is on the G1000H
takes about 10 seconds to complete its
internal boot and system test. Then
the next step is to enter passenger
and cargo weights into the weight and
balance page (it pulls in fuel quantity
from the fuel sensor). This page is very
similar to a number of mobile or tablet
apps which allow you to wargame
different loading configurations vs
CoG and AUW limits.After a control check and clearing
the area starting the engine is just a
matter of selecting the engine switch
to on. From here the FADEC takes
over with no pilot input needed –
fuel introduction, throttling, hot
start shutdown are all handled by
the system. The engine start takes
approx 40 seconds to idle. If it is a
consecutive start after a short stop
then the FADEC will motor the engine
if needed to cool before igniting.
(It will be interesting to see if there
are insurance premium reductions
over older machines now that pilot
experience and turbine hours no
longer have a bearing on hot start
protection.)
There is a small amount of ground
bounce evident that is cleared
by pulling in a little collective or
repositioning the cyclic.
With hydraulic control checks out
of the way you then select ‘fly’ with the
thumb switch on the collective head.
Five seconds later you are at flight
RPM.
I was able to learn more about the
505’s FADEC setup after a subsequent
chat with Alan Whitten, a field rep for
Safran Helicopter Engines Australia.
He explained that the dual channels
are continuously online, and that at
each consecutive start the primary
active FADEC alternates. If a start
cycle fails to complete for any reason
and is aborted by the system then it
will automatically go for one more
start attempt before calling it quits.
In the event of the active FADEC
channel suffering a high or low side
failure the changeover to the standby
channel is almost instantaneous
and no RPM change would be seen,
Alan indicated. Surge and flameout
protection is handled automatically
by the system but it won’t limit fuelAIR TEST Bell 505
VH-HRH at Armidale.MICK CULLEN