Low friction exhaust bellows and techniques for constructing...

Marine propulsion – Means for accomodating or moving engine fluids – Means for handling exhaust gas

Reexamination Certificate

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Details

C285S226000

Reexamination Certificate

active

06508681

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention is generally related to marine propulsion systems, and, more particularly, the present invention is related to exhaust bellows assemblies and techniques that may be used in a stern drive marine propulsion system.
FIG. 2
shows a cross-sectional view of a typical prior art exhaust system arrangement that uses a flexible bellows
50
for passing exhaust from an internal combustion engine to a passageway in a propulsion unit for discharge through the propeller. The exhaust may typically comprise exhaust gases and cooling water. As shown in
FIG. 2
, bellows
50
comprises a plurality of circumvolutions that allows bellows
50
to be flexibly extended for allowing respective pivotal motion of propulsion unit
14
about a generally vertical steering axis, and about a generally horizontal tilt/trim axis. As further shown in
FIG. 2
, a separate flexible bellows
52
encloses a universal joint
54
that allows for transmitting rotating power from the engine to the propulsion unit in fashion well-understood by those skilled in the art. It will be appreciated that the exhaust bellows arrangement should be reliable as such arrangement allows for containing the exhaust and noise during various trim and/or steering conditions. This prior art arrangement works generally satisfactory for most conditions. However, during periods of high volume of exhaust flow, such as during periods of high engine load, the circumvolutions in the interior of the bellows, as represented by the curls in the interior of bellows
50
, may result in an undesirably high level of friction in the exhaust that flows in the bellows. The high friction in turn may cause a relatively high level of exhaust back pressure which results in reduced engine efficiency.
Manufacturers of marine propulsion systems have attempted to solve the foregoing issues but some of these attempts may have their own side effects. For example, the following two prior art arrangements may have somewhat helped to reduce back pressure but each is believed to suffer from increased exhaust noise or exhaust leakage, or both. One of such exhaust arrangements allows for providing transom exhaust relief holes for discharging exhaust ahead of the bellows. The other prior art exhaust arrangement, once used but abandoned because of its side effects, substituted two straight slip-together rubber tubes, in lieu of a flexible bellows, to carry the exhaust. Unfortunately, such arrangement, like the one with exhaust relief holes, resulted in leaking exhaust and noise during various trim and steering conditions.
In view of the foregoing discussion, it is desirable to provide a bellows assembly that can be produced and maintained at a low cost and that avoids such side effects while reducing exhaust flow friction so as to reduce exhaust back pressure and achieve high engine efficiency without creating annoying exhaust noises during high engine load. It is further desirable to provide a kit exhaust assembly that may be inexpensively and quickly retrofitted in a deployed fleet of boats.
SUMMARY OF THE INVENTION
Generally speaking, the foregoing needs are fulfilled in one exemplary embodiment by providing a propulsion system made up of an engine located in the interior of a marine vessel. The engine has an exhaust discharge member in communication with a propulsion unit, and an exhaust passage having an exterior coupling member flexibly connected to pass exhaust from the exhaust discharge member to the propulsion unit. The interior surface of the passage is configured to provide a relatively smooth surface to the exhaust passing therein.
The present invention further fulfills the foregoing needs by providing in another exemplary embodiment an assembly for connecting the rotary output of an inboard engine to a propulsion unit. The engine has an exhaust discharge member in communication with the propulsion unit. The assembly is made up of a universal joint interconnected between the engine and the propulsion unit, and an exhaust passage that surrounds the universal joint and comprises a pair of coupling members flexibly connected to pass between one another exhaust from the exhaust discharge member to the propulsion unit. Each coupling member is configured to provide a respective smooth surface to the exhaust passing therein.


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