BACKGROUND
A
minor design problem appears to be causing an increasing number
of bearing failures within the accessory drive.
As
they progress; these failures usually manifest at low RPM,
first by a rattling noise, then a low grinding sound, and
in worst cases, a rather loud screech (at any RPM) that is
sometimes mistaken for a failed main crankshaft bearing. Early
signs of failure can be masked by the normal clicking and
rattling sounds of the large idler and timing gears within
the aft housing.
At
issue, is the fact that the rearward slant of most Atomic
4 installations results in the oil supply to the forward bearing
within the accessory drive being cut off or greatly reduced.
During overhauls, we frequently find little or no oil within
the forward bearing, and the oil seal directly behind the
alternator pulley is mostly missing from running dry.
Thanks
to the robust design of the accessory drive, the actual failure
rate is still quite low (2 or 3 a year have been coming to
our attention). However, our concern is that there might be
a lot more bearings in the fleet that are presently at risk.
Obviously; high time engines, or those with rearward slants
of approximately 5 degrees or more, would be at most risk.
Fortunately,
there is a relatively easy and inexpensive fix which will
be discussed later in this Technical Note.
GENERAL
DESCRIPTION OF ACCESSORY DRIVE (Engine level)
The
accessory drive is mounted on the forward face of the aft
housing, and on the same side of the engine as the starter.
The role of the accessory drive is to redirect engine power
for turning the alternator, the water pump, and the distributor
(which mounts on top of the drive). The first photo shows
the accessory drive removed from the engine.
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Photo
1
Complete
Accessory Drive:
Removed from engine.
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The
gear on the opposite end of the housing from the pulley
is the drive gear, and it meshes with a larger gear
(an idler gear) inside the aft housing. As the engine
runs, the gears fling oil up and over the housing of
the accessory drive, some of which collects in a small
catch basin directly between the drive gear and the
mounting flange.
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Photo
2
One
of two bearings within the
Accessory Drive.
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The
shaft of the accessory drive rotates within two identical
roller bearings. There is a rear bearing near the drive
gear, and a forward bearing immediately behind the pulley.
Photo 2 shows an enlargement of one set of these bearings,
each of which consists of an inner race and an outer bearing
head.
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Photo
3
Cross
section of the Accessory Drive: In level position.
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In
a cutaway of an accessory drive in a level position
(next photo); we can see that after entering the catch
basin, engine lubricating oil drips over a cone shaped
spacer and on to the worm gear that meshes with a small
gear on the lower end of the distributor shaft. These
internal gears fling the oil throughout the inside of
the accessory drive, some of which enters the front
oil passageway and flows forward to help lubricate the
front bearing.
Eventually, all the oil collects in the lower part of
the accessory drive, to a level that just reaches the
lower edge of the worm gear that drives the distributor.
This level is identified in the Photo as "Original
Oil level."
At
that level, oil flows back into the main engine through
a small drain hole in the rear face of the Accessory
Drive housing.
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Photo
4
Cross
section of Accessory Drive:
At 7 degrees of rearward slant.
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THE
EFFECT OF SLANTING ENGINES REARWARD: The shallow slope
of the front oil passageway becomes practically horizontal
at rearward slants approaching 7
degrees. Photo 4 shows how the oil pool within the drive
changes so that,
as this degree of slope is reached, oil barely touches
the worm gear, and there
is no oil reaching the base of the front bearing. |
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Photo
5
Drain
holes in forward face of
Accessory Drive.
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THE
FIX: This photo shows the original 1/4" drain
hole in the forward face of the Accessory Drive housing,
threaded and plugged with a 1/16" allen headed
steel pipe plug. A second drain hole is drilled through
the housing so as to establish an oil level approximately
1/2" above the original level.
The
oil level established by the new upper drain hole is
shown as the upper line in Photos 3 and 4. Notice that,
even in the slanted configuration, the new oil level
reaches well above the lower part of the front bearing
so as to make up for the fact that oil coming forward
via the front oil passageway is practically nil.
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IMPLEMENTING
THE FIX
Drilling
and tapping the holes in the face of the Accessory Drive,
as well as replacing the front bearing, is not difficult.
However; since it is necessary to use a press in the disassembly
and reassembly process, we consider it prudent to have the
work performed by your local machine shop. Our current Service
and Overhaul Manual does not include instructions for rebuilding
the accessory drive; however, we have never
heard of a local machine shop having a problem in sorting
through the process.
Parts,
including bearings, seals, and repair sleeves (for the surface
of the pulley where the seal rides) are available from Moyer
Marine Inc. Click
here
to view them in our online catalog.
We
stock complete
rebuilt and modified units
to provide on an exchange basis for those of you who do not
have easy access to a machine shop.
