The J-3's first
evolutionary step was the J-4 Cub Coupe.
Same airplane, different seating. The two
occupants sat side by side, rather than in
tandem.
The second step
up the passenger-carrying ladder was the J-5
Cruiser. This was Piper's first move into
multi-passenger aircraft. The J-5 was also
the first indication Piper was looking past
the training market at bigger goals.
Let's not kid
ourselves: The J-5 IS a J-3. It's a Cub with
fat hips where the rear seat was widened
out.
An important
change in the fuselage and general layout
was moving the pilot up front and moving the
front seat away from the pedals. Any who
have flown a J-3 in the front remember that
folded-like-a-pocket-knife seating position
and the chest-high control stick. The Piper
engineering crew made an effort to civilize
the front seat by giving it more leg room.
In addition, when widening the back seat and
tapering the fuselage to the firewall, they
couldn't help but give the front seat lots
of shoulder room. In fact, the front seat
clearance may be the widest of any aircraft
of its type, before or since.
The original
J-5A came out in January of 1940 being
pulled along by a 75 hp Continental. A year
later it was replaced by the J-5B which used
the 75 hp Lycoming 0-145, an engine which
has never had a reputation for lots of
power.
In 1942 Piper
made a major jump forward when it announced
the J-5C which was powered by the 100 hp
0-235 Lycoming. Yes, this is the same 0-235
Lycoming (with very minor changes) still
being used in C-152s and, yes, that makes
the basic engine 55 years old! The only
difference is that in the J-5C the engine
was carrying three people not two, as in the
C-152. Sorry, just a little editorializing.
The Charlie
model included some major structural
changes. Among other things the windshield
was now one piece and the wood spars gave
away to aluminium. Early J-5C's will be
found with wood spars because they didn't
complete the change-over until using up all
the wood then in inventory. The landing gear
was redesigned to bring the bungees up
inside the airplane and the engine was
completely cowled for the first time.
The cowling and
landing gear mods amounted to a huge drag
reduction which, when coupled with the
equally dramatic increase in power made the
airplane live up to its name. At 95-100 mph
it truly was a Cruiser. Plus it offered
amenities like a starter and nav lights. An
18 gallon wing tank was standard in all
Cruisers, but another seven or 18 gallons
could be put in the other wing. With the
J-5C Cub Cruiser, Piper had stepped into the
serious cross country market. Unfortunately,
the war shut down Piper's civilian aircraft
production after cranking-out only 35 J-5Cs.
The new design
didn't go to waste, however. The Navy liked
what they saw in the airplane and, with
several of their own mods, including a
top-opening rear fuselage for a litter,
ordered the aircraft as the HE-1. Something
over 100 were produced.
After the war,
the J-5C was re-certified to 1,750 pounds
gross weight (Normal Category) and the 1020
mild steel in the fuselage tubing replaced
with chrome-moly. The new airplane was the
PA-12 Super Cruiser. It was produced for two
years, 1946-'47 and over 3,700 were built.
Approximately 1,400 J-5s were built.
It appears the
Piper marketing department had as much to do
with the design of the PA-12 as engineering
did. In most respects, it's structure was
identical to the J-5C but marketing's
contribution was in taking a noticeable step
away from the stark interior of the
traditional Cub to much more luxurious
appointments. The 1946 market place was
fiercely competitive and they needed to
change their image to survive. Accordingly,
many of the Cub's old control layouts, some
of which were the result of its trainer
role, were changed. For instance the carb
heat was now on the panel, as was the
mixture for the 0-235. The panel itself was
arranged to make room for a radio ($65
installed!). The interior was tastefully
appointed and an effort made to bring it up
to automotive standards of style and
comfort.
It should be
pointed out, however, that the back seat of
either Cruiser isn't really two people wide.
It's more like 1 3/4 people wide since they
have to twist and let their shoulders
slightly over lap. With only one person in
the seat, the extra room is overkill.
Mechanical
Description
As originally
designed, the J-5 Cruiser is a Piper Cub in
every respect and so needs little mechanical
discription. The steel tube fuselage was
widened and that was the only discernable
difference. In fact, most major components,
wings, tail surfaces, landing gear vees, are
interchangeable.
One minor
control change is that the carb heat was
moved from its awkward location by the
pilot's right foot to make it more
convenient by his left hip. The aluminium
cup holding the carb heat and fuel cut off
is unique to the J-5, even though the Cub
has something similar.
The original
brakes were the traditional expander-tube
type which are terribly expensive to rebuild
today because of the cost of the expander
tubes and the individual brake blocks. Many
J-5s are seen with either the hydraulic drum
brakes of the PA-12 or Cleveland/McCauly
disk brakes.
The brake
pedals on both models are of the heel
variety, with those on the PA-12 moved
slightly out board to make them more readily
available. This also puts them slightly in
the way and easy to touch inadvertently on
the first few flights.
The J-5C and
PA-12 landing gears moved the bungees up
inside the airplane, so the bungee struts
and the structure at the front end of the
fuselage is noticeably different.
Other than the
usual fuselage rust concerns, the Cruiser
series also have the Piper strut AD's to be
complied with. The wing ribs are aluminum as
are the later spars.
Flight
Characteristics
Not wanting to
rely on memory, we travelled to Tailwheels
and More in Prescott, Arizona which use a
J-5A in their instruction programme and have
a pristine PA-12 on line for rent. There we
evaluated both airplanes with Allen Steffey,
owner/operator of Tailwheels, acting as
instructor pilot.
Steffy's J-5A
is redone in the colours it carried in 1941
when delivered to Muncie Aviation, where it
served in a CPT school. In speaking with
old-time Muncie instructors, Allen learned
they used the J-5's as night trainers with
motorcycle batteries providing the lighting
power.
The airplane
was wrecked at least three times before
being purchased by a doctor in Bisbee,
Arizona who re-engined it with a C-90. Each
year, the doctor used the airplane to
deliver medical supplies to Panama, which,
according to the logs, took 70 hrs each way!
In the late 1980's the doctor was having the
airplane re-built when he passed away.
Steffy bought the airplane as a nearly
completed project and incorporated it into
his school, which also uses Champs, C-140's
and a Stinson.
The airplane's
bad luck wasn't left behind when it moved up
to Prescott. After Allen took it to Oshkosh
'96, it wound up on its back when, it is
surmised, a passenger surprised a renter
pilot by inadvertently locking the brakes.
Steffey completely rebuilt the airplane,
correcting many of the non-original features
it had picked up over the years. He did not,
however, rebuild the expander tube brakes
because of the expense involved, and
retained the Clevelands.
In climbing
into the cockpit, I was first struck by it's
size, when compared to a Cub. Spacious would
be the best adjective to apply. The rudders
were still just a little closer than I'd
like, but we have to remember this
generation is taller than that for which the
airplane was designed. Even better than the
room, was the over-the-nose visibility.
Straight ahead visibility was only slightly
impaired.
"Mags hot!
Brakes!" One flip of the prop and we were on
our way. The heel brakes were a fair amount
inboard of the rudders which was of no
consequence because they were only needed
for tight manoeuvring during taxi. Also,
even though we had a 20-25 knot wind
battering us during taxi, the tendency to
weathervane was easily controlled with
rudder only. A J-5 is at least 100 pounds
heavier than a J-3 and its ability to ride
out the wind is one place it helps.
The wind was
varying between 30°-60° off our nose on
takeoff and I expected an "interesting"
flight. I wasn't disappointed but I was
surprised at how well the airplane handled
it. The takeoff run had to be partially on
one wheel to keep it straight but the
controls were absolutely up to the task.
Even though the airplane had 90 hp, we were
at 5,000 ft MSL (density altitude around
6,500 ft.), so the power was probably the
equivalent of the original 75 hp
Continental. This gave the wind plenty of
time to work us over during the takeoff
roll. At no time did it feel as if the wind
was about to get the upper hand so long as I
used a firm touch. At lower altitudes, with
that engine, takeoffs happen
instantaneously, with a 150 foot take-off
roll being typical.
The controls on
the J-5 are vintage Piper Cub, meaning a
fair amount of system friction combined with
reasonable pressures and responses.
Compared to a
C-152, the pressures would seem high while
the roll rates and response would seem low.
Compared to a Citabria, however, only the
system friction would be a factor, as the
airplane handles at least on a par with the
Citabria. Its performance in climb would
compare favourably with a 115 hp Citabria
(7ECA) similarly loaded.
The PA-12 we
flew later was a gorgeous specimen restored
over a ten year period by Floyd Newton of
Phoenix, Arizona and now owned and operated
by Tailwheels and More as part of their
rental fleet. It was upholstered like a King
Air and simply saying the airplane was well
detailed is a gross understatement. The
airplane is an easy 150-200 pounds heavier
than the J-5 which is readily apparent in
everything about it. Even its ride in
turbulence was a little smoother.
System
friction, which was very much a control
factor in the J-5, was almost non-existent
in the PA-12. We examined the J-5's control
system looking for the difference, including
examining the pulleys, and could find
nothing hanging up anywhere. We concluded
the difference was simply in the cable
tension. The manual calls for "slight"
tension in the cables, which leaves a lot
open to interpretation. Incidentally, the
cables in all Cruisers are internal, rather
than hanging out in the wind a la J-3.
Another
noticeable difference was that the PA-12
seat was located three inches further away
from the stick and the control pedals which
made for a much more comfortable seating
position.
We were
climbing the J-5 at 45 knots and the PA-12
at 65 knots. Both gave about the same
performance, even though the PA-12 had 108
hp.
In cruise,
Allen's J-5 was nearly perfectly in rig and
gave a solid 75 knot cruise while the PA-12
showed an honest 90-95 knots. This is where
the cleaner cowl and internal bungees showed
their advantages. Also, the PA-12's
upholstery combined with its exhaust system
to make the interior much quieter and more
comfortable.
No matter how
the airplanes were stalled, the stalls were
non-events. With the stick against the stop
and the nose gently bobbing, I tried driving
the ball off centre with rudder to see the
effect of yaw. The ball had to be way out
before the airplane showed any willingness
to fall off one way or the other.
With the tower
reporting 20-25 knot winds at a steep angle
to the runway, I was hesitant to three-point
the airplanes, but in the interest of
science was willing to try. I was openly
surprised at how well they handled the wind.
It was clearly a struggle to fight the
tendency to balloon in the gusts and the
bank angle was constantly changing to keep
from drifting, but the airplane handled it
beautifully.
The PA-12 had a
softer feeling gear which was mostly
noticeable during wheel landings. It was a
little more forgiving and less likely to
spring us back into the air. Both airplanes,
however, handled far more wind than I would
have thought possible. It, however, would
not have been a great day for a student or
low-time pilot to be out dicing around. Even
though the airplane's would handle the wind,
the pilot has to be very firm with them to
keep them in line. Also, once on the ground,
snails were racing past us, we were taxiing
so gingerly to keep the wind from picking us
up. In airplanes with such low wind
loadings, the wind is a constant threat
until the tie-down ropes are in place.
Incidentally,
the hydraulic drum brakes on the PA-12 were
more comfortable to use than the Clevelands
on the J-5 because the Clevelands could
easily be used too heavily.
It was easy to
see why so many J-5's and especially PA-12's
have migrated north to Canada and Alaska
where they are usually re-engined with 150
hp. With the airplanes' low speed
capabilities and the cabin room, all they
need are more ponies to become ideal bush
birds.
The Cruiser
series of Pipers has only recently caught
on, with the J-5 still lagging far behind
the Cub in price. PA-12's have definitely
begun to jump into the lime light but J-5's
can still be found which are super deals and
are easy rebuild projects. Just keep your
eyes open. The word hasn't gotten out and
you never know what you'll find. BD