An exhaust cleaning system for a marine propulsion engine that includes a catalyst positioned within a tube that communicates with an expansion chamber. A cooling jacket extends around at least a portion of the exhaust system and the liquid coolant is discharged into the exhaust system for flow with the exhaust gases. A number of different arrangements are shown for precluding the coolant from flowing back into the exhaust system and contacting the catalyst bed either when the watercraft is inverted and righted or in the event the engine is stopped and restarted.
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1. An exhaust system for a watercraft comprised of a hull containing an internal combustion engine mounted within said hull and having at least one exhaust port, said exhaust system being comprised of an exhaust conduit having an inlet end communicating with said exhaust port for receiving exhaust gases therefrom and an outlet end exiting through said hull for discharging the exhaust gases to the atmosphere in proximity to the body of water in which the watercraft is operating in at least some conditions of said watercraft, said exhaust conduit including means defining an expansion chamber and a tube containing a catalyst bed contained within said expansion chamber and through which exhaust gases must pass, and means for precluding water in said exhaust conduit from entering said tube end.
0. 93. A personal watercraft having a hull defining a rider's area so as to accommodate at least one rider, the hull defining an engine compartment containing an internal combustion engine having at least one exhaust port and an output shaft, the engine including a cooling system, a propulsion device carried by the hull on the underside thereof and being driven by the output shaft to propel the watercraft, the cooling system receiving water from the propulsion device, an exhaust system that extends through at least a portion of the engine compartment to convey exhaust gases from the engine exhaust port to the atmosphere, a catalyzer in the exhaust system to treat the exhaust gases before discharge to the atmosphere, the cooling system communicating with the exhaust system such that a portion of the water is introduced into the exhaust system and a portion of the water is expelled separate from the exhaust system through a discharge conduit, the catalyzer comprising a catalyst bed positioned within a tube through which exhaust gases must flow, the tube being positioned within an expansion chamber of the exhaust system.
0. 76. A personal watercraft having a hull defining a rider's area so as to accommodate at least one rider, the hull defining an engine compartment containing an internal combustion engine having at least one exhaust port and an output shaft, the engine including a cooling system, a propulsion device carried by the hull on the underside thereof and being driven by the output shaft to propel the watercraft, an exhaust system that extends through at least a portion of the engine compartment to convey exhaust gases from the engine exhaust port to the atmosphere, a catalyzer in the exhaust system to treat the exhaust gases before discharge to the atmosphere, a cooling jacket extending along at least a portion of the exhaust system and releasing at least a portion of coolant flowing in the cooling jacket into the exhaust system, and a discharge conduit connected to the cooling jacket, the discharge conduit being formed separate from the exhaust system, the catalyzer comprising a catalyst bed positioned within a tube through which exhaust gases must flow, the tube being positioned within an expansion chamber of the exhaust system.
0. 72. A personal watercraft having a hull defining a rider's area sized to accommodate at least one rider, the hull defining an engine compartment containing an internal combustion engine having at least one exhaust port and an output shaft, the engine including a cooling system, a propulsion device carried by the hull on the underside thereof and being driven by the output shaft to propel the watercraft, an exhaust system that extends through at least a portion of the engine compartment to convey exhaust gases from the engine exhaust port to the atmosphere, a catalyzer in the exhaust system to treat exhaust gases before discharge to the atmosphere and a cooling jacket juxtaposing at least a portion of the exhaust system, the cooling jacket discharging at least a portion of the coolant flowing through the cooling jacket to the body of water in which the watercraft is operated through the exhaust system, the catalyzer being located upstream of a point at which the cooling jacket introduces coolant into the exhaust system and downstream of a manifold of the exhaust system, the catalyzer comprising a catalyst bed positioned within a tube through which exhaust gases must flow, the tube being positioned within an expansion chamber of the exhaust system.
0. 88. A personal watercraft having a hull defining a rider's area sized to accommodate at least one rider, the hull defining an engine compartment containing an internal combustion engine having at least one exhaust port and an output shaft, the engine including a cooling system capable of drawing water from a body of water in which the watercraft is being operated, a propulsion device carried by the hull on the underside thereof and being driven by the output shaft to propel the watercraft, an exhaust system that extends through at least a portion of the engine compartment to convey exhaust gases from the engine exhaust port to the atmosphere, a catalyzer in the exhaust system to treat exhaust gases before discharge to the atmosphere, the cooling system communicating with the exhaust system such that at least a portion of the water is discharged through the exhaust system to the body of water in which the watercraft is being operated, the catalyzer being located upstream of a point at which the water is introduced into the exhaust system and downstream of a manifold of the exhaust system, the catalyzer comprising a catalyst bed positioned within a tube through which exhaust gases must flow, the tube being positioned within an expansion chamber of the exhaust system.
0. 83. A personal watercraft having a hull defining a rider's area sized to accommodate at least one rider, the hull defining an engine compartment containing an internal combustion engine having a cylinder block, at least one exhaust port and an output shaft, the engine also including a cooling system, a propulsion device carried by the hull on the underside thereof and being driven by the output shaft to propel the watercraft, an exhaust system that is connected to the cylinder block and that extends through at least a portion of the engine compartment to convey exhaust gases from the engine exhaust port to the atmosphere, a catalyzer in the exhaust system to treat exhaust gases before discharge to the atmosphere and a cooling jacket juxtaposing at least a portion of the exhaust system, the cooling jacket discharging at least a portion of the coolant flowing through the cooling jacket to the body of water in which the watercraft is operated through the exhaust system, the catalyzer being located upstream of a point at which the cooling jacket introduces coolant into the exhaust system and apart from the cylinder block, the catalyzer comprising a catalyst bed positioned within a tube through which exhaust gases must flow, the tube being positioned within an expansion chamber of the exhaust system.
0. 96. A personal watercraft having a hull defining a rider's area sized to accommodate at least one rider, the hull defining an engine compartment containing an internal combustion engine having a cylinder block, at least one exhaust port and an output shaft, the engine also including a cooling system, a propulsion device carried by the hull on the underside thereof and being driven by the output shaft to propel the watercraft, the cooling system receiving water from a body of water in which the watercraft is being operated, an exhaust system that is connected to the cylinder block and that extends through at least a portion of the engine compartment to convey exhaust gases from the engine exhaust port to the atmosphere, a catalyzer in the exhaust system to treat exhaust gases before discharge to the atmosphere and the cooling system communicating with the exhaust system such that at least a portion of the water is introduced into the exhaust system and expelled into the body of water in which the watercraft is being operated through the exhaust system, the catalyzer being located upstream of a point at which the water is introduced into the exhaust system and apart from the cylinder block, the catalyzer comprising a catalyst bed positioned within a tube through which exhaust gases must flow, the tube being positioned within an expansion chamber of the exhaust system.
0. 64. A small watercraft comprised of a hull containing an internal combustion engine mounted within the hull and having at least one exhaust port, said hull having a longitudinal axis extending between fore and aft ends of the watercraft, and an exhaust system including an inlet end communicating with the exhaust port of the engine for receiving exhaust gases therefrom, and an outlet end exiting through the hull for discharging the exhaust gases to the atmosphere in proximity to the body of water in which the watercraft is operating in at least some conditions of the watercraft, a section of the exhaust system housing a catalyst bed for treating exhaust gases before discharge through the outlet end, the section of the exhaust system comprising an expansion chamber, the catalyst bed being positioned within a tube through which exhaust gases must flow that is disposed within the expansion chamber, a water trap device arranged within the exhaust system between the outlet end and the catalyst bed, an exhaust passage communicating with the section of the exhaust system downstream of the catalyst bed and delivering exhaust gases to the water trap device, and a coolant jacket communicating with the exhaust passage at a point between the catalyst bed and the water trap device so as to introduce at least a portion of the coolant flowing through the coolant jacket into an exhaust gas stream flowing through the exhaust passage, said water trap device being positioned within the exhaust system behind an aft end of the engine.
0. 50. A small watercraft comprising a hull defining a rider's area toward an aft end of the watercraft and including a centrally-located, straddle-type seat that extends generally along the longitudinal axis of the watercraft hull, an internal combustion engine driving a propulsion device to propel the watercraft, said internal combustion engine being mounted within the hull and having at least one exhaust port, and an exhaust system including an inlet end communicating with the exhaust port of the engine for receiving exhaust gases therefrom, and an outlet end exiting through the hull for discharging the exhaust gases to the atmosphere in proximity to the body of water in which the watercraft is operating in at least some conditions of the watercraft, at least a portion of the exhaust system extending beneath the rider's area, a tube through which exhaust gases must flow containing a catalyst bed for treating exhaust gases before discharge through the outlet end, the tube being positioned within an expansion chamber, a water trap device arranged within the exhaust system between the outlet end and the catalyst bed, an exhaust passage communicating with the chamber downstream of the catalyst bed and delivering exhaust gases to the water trap device, and a coolant jacket extending at least along a portion of the chamber, the coolant jacket communicating with the exhaust passage at a point between the catalyst bed and the water trap device so as to introduce at least a portion of the coolant flowing through the coolant jacket into an exhaust gas stream flowing through the exhaust passage.
0. 57. A small watercraft comprising a hull defining a rider's area toward an aft end of the watercraft and including a centrally-located, straddle-type seat that extends generally along the longitudinal axis of the watercraft hull, an internal combustion engine driving a propulsion device to propel the watercraft, said internal combustion engine mounted within said hull and having at least one exhaust port, and an exhaust system including an inlet end for communicating with said exhaust port of the engine for receiving exhaust gases therefrom, and an outlet end exiting through the hull for discharging the exhaust gases to the atmosphere in proximity to the body of water in which the watercraft is operating in at least some operating conditions of the watercraft, said exhaust system extending through the hull between the inlet and the outlet ends with at least a portion of the exhaust system being disposed beneath the rider's area, a catalyst bed positioned in the exhaust system, the catalyst bed being positioned within a tube through which exhaust gases must flow, the tube being disposed within an expansion chamber, a water trap device arranged within the exhaust system between the outlet end and the catalyst bed to receive a flow of mixed exhaust gases and liquid coolant, an exhaust passage delivering exhaust gases to the water trap device, a first exhaust pipe extending between the catalyst bed and the water trap device and a second exhaust pipe extending between the water trap device and the outlet end, the first and second pipes each having a vertically upstanding portion which inhibits water from entering the catalyst bed.
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This invention relates to an exhaust cleaning system for a
Before proceeding to a detailed description of the four preferred embodiments of the invention as specifically illustrated in
Basically, the invention deals with portions for replacing the expansion chamber 21 and its communication with the flexible conduit 28. A first embodiment of construction of this type is show in FIG. 3 and includes an expansion chamber, indicated generally by the reference numeral 51. The expansion chamber 51 is provided with an inner wall portion 52 that defines a first expansion chamber 53 that communicates directly with the exhaust elbow 19 through a megaphone section 54. A second expansion chamber portion 55 is spaced from the first expansion chamber portion 53 with the expansion chamber portions 53 and 55 having facing walls 56 through which a tube 57 extends for transfer of exhaust gases from the expansion chamber 53 to the expansion chamber 55. A catalyzer bed 58 of a suitable configuration is positioned within the tube 57 so that all exhaust gases passing from the expansion chamber 53 to the expansion chamber 55 must come into contact with the catalyzer bed 58.
The expansion chamber device 51 has an outer shell 59 that is spaced from the inner shell 52 and which defines a cooling jacket 61 which receives water from the elbow cooling jacket 23 through a small bleed port 62.
The expansion chamber device 51 has a discharge portion 63 which extends generally at a right angle to the tube 57 and catalyzed bed 58 and which is comprised of an inner pipe 64 which forms a part of the inner shell 52 and an outer pipe that defines a further extension of the cooling jacket 61 around this inner pipe 64. The inner pipe 64 conveys only exhaust gases to a third expansion chamber 65 of an expansion chamber device, indicated generally by the reference numeral 66. The expansion chamber device 66 is formed with an internal baffle 67 for a purpose to be described. Also, an internal baffle 68 may be provided in the expansion chamber 55 in confronting relationship across the tube 57 for protecting the catalyst bed 58 in a manner which will be described.
The expansion chamber device 66 and specifically its expansion chamber 65 is provided with a discharge port 68 which extend parallel to the inlet port formed by the pipe 64 but which is offset to it. The flexible conduit 28 is connected in communication with the discharge port 68 but spaced outwardly from it to define a water discharge gap 69 through which coolant may be discharged from a cooling jacket 71 formed between the inner shell and an outer shell 72 of the expansion chamber device 66. A further water discharge passage 73 may be provided for discharging some water independently of the exhaust gases.
As should be readily apparent, the water trap device 29 (
First, the pipes 64 and 69 of the expansion chamber device 66 are offset from each other and the pipe 64 extends into the expansion chamber 65 so that any water that accumulates therein in an inverted state cannot pass into the pipe 64. Further, the offsetting and the interposed baffle 67 will insure that water cannot pass directly from the pipe 68 to the pipe extension 64. Furthermore, any water which may somehow pass back into the expansion chamber 55 will be prevented from impending on the catalyst bed 58 by the further baffle 68. Hence, the catalyzer material is well protected and damage will not occur.
In this embodiment, the construction of the interior of the expansion chamber device 66 differs slightly from that of the embodiment of FIG. 3 and thus only this portion of the construction need be described in detail. It should be noted, however, that a flexible joint 101 is provided in the conduit 63 that interconnects the expansion chamber 51 with the expansion chamber device 66. In this embodiment, a gravity biased valve 102 having a pendulum mass 103 is positioned in confronting relationship to the extension of the pipe 64 that extends into the expansion chamber 65. The pendulum 103 normally biases the valve 102 to its open position. However, if the watercraft becomes inverted, the pendulum 103 will close the valve 102 and preclude any water which may enter the expansion chamber 65 from passing into the pipe section 64 and into the expansion chamber 55. Again, the baffle 68 further assist in insuring that any water which may escape into this area will not impinge upon the catalyst bed 58. When the watercraft is righted, the water can drain out of the expansion chamber 65 into the conduit 28 and the valve 102 will then be biased back to its open position by the gravity. Hence, this embodiment is also effective in insuring good protection for the catalyst bed 58.
In the embodiments of
In this embodiment, a further expansion chamber device, indicated generally by the reference numeral 151 is positioned vertically above the expansion chamber 55 of the expansion chamber device 51. A vertically upwardly extending pipe section 152 interconnects the expansion chamber 55 with an expansion chamber 153 formed by the expansion chamber device 151. The expansion chamber 153 communicates with the flexible conduit 28 through a pipe section 154 with a water flow gap 156 being positioned therebetween.
A cooling jacket 157 through which coolant from the cooling jacket 61 of the expansion chamber device 51 may flow is provided. This coolant will normally flow under the pressure of the exhaust gases out of the flexible conduit 28. However, if the engine is stopped due to either inversion and righting of the watercraft or for any other reason, coolant may flow back into the expansion chamber 53.
To prevent this coolant from impacting on the catalyst bed 58, this is provided a vertically extending baffle 158 in the expansion chamber 53 that defines a first well "a" to one side of the pipe extension 152 in which water may accumulate to the illustrated level. If water flows over the top of the baffle 158 it will be collected in a further well "b" formed around the extension of the pipe 152 and thus trapped so that it will not flow into the expansion chamber 55 which is now vertically below it.
For further protection, a baffle 159 may be provided in the expansion chamber 55 that provides a still further well "c" in which water may accumulate. Thus, the series of water traps in this system will insure that water cannot impinge upon the catalyst bed 58. In addition, the baffles 158 and 159, pipe extension 152 and offset of the pipes 152 and 154 will assist in insuring that water cannot return back in the exhaust system and impact on the catalyst bed 58. Of course, once the engine is restarted, any water accumulating in the wells a, b and c will be vaporized and pass out of the flexible conduit 28 back into the atmosphere or body of water in which the watercraft is operating.
In this embodiment, the connecting section 63 between the expansion chamber device 51 and the expansion chamber 155 includes a flexible coupling. The pipe extension 152 has associated with it a control valve 201 which is offset relative to its pivot axis and which is biased to a close position by a pendulum mass 202. In this construction, when the engine is running the pressure of the exhaust gases will cause the valve 201 to open and normal exhaust flow can occur. However, the minute the engine 14 stops, the valve 201 will pivot to its closed position under the operation of the pendulum 202 and any water which may accumulate in the expansion chamber 153 cannot flow back into the expansion chamber 55 nor will it be able to contact the catalyst bed 58.
It should be readily apparent from the foregoing description that the described embodiments of the invention are extremely effective in insuring good catalytic treatment of the exhaust gases of a small watercraft which may become inverted and righted and which has coolant discharged into the exhaust system. However, the construction is such that no water can reach and damage the catalyst bed regardless of whether the watercraft is inverted and righted or not. Of course, the foregoing description is that of preferred embodiments of the invention and various changes and modifications may be made without departing from the spirit and scope of the invention, as defined by the appended claims.
Nanami, Masayoshi, Isogawa, Atsushi, Honda, Masahiro
Patent | Priority | Assignee | Title |
10974783, | Aug 17 2018 | HARLEY-DAVIDSON MOTOR COMPANY, INC | Exhaust shield assembly |
9309798, | Mar 20 2014 | HARLEY-DAVIDSON MOTOR COMPANY, INC | Multi-piece muffler housing |
Patent | Priority | Assignee | Title |
4353208, | Jul 28 1977 | Deutsche Gold- und Silber-Scheideanstalt vormals Roessler | Exhaust gas purification apparatus for an internal combustion engine of motor vehicles |
4735046, | Jun 08 1985 | Sanshin Kogyo Kabushiki Kaisha | Oil remover from exhaust gas of marine propulsion unit |
4773883, | Jul 16 1985 | SANSHIN KOGYO KABUSHIKI KAISHA, A CORP OF JAPAN | Motor for watercrafts |
4787869, | Nov 14 1986 | Sanshin Kogyo Kabushiki Kaisha | Water lock device for marine propulsion |
4811560, | Sep 16 1986 | Sanshin Kogyo Kabushiki Kaisha | Exhaust system for marine propulsion |
4957461, | Dec 02 1987 | SANSHIN KOGYO KABUSHIKI KAISHA, D B A SANSHIN INDUSTRIES CO , LTD , A CORP OF JAPAN | Idling noise silencer for marine propulsion unit |
4965997, | Feb 27 1985 | Sanshin Kogyo Kabushiki Kaisha | Exhaust system for outboard motor |
4989409, | Sep 22 1988 | SANSHIN KOGYO KABUSHIKI KAISHA, | Exhaust device for small sized boat engine |
4997399, | Apr 12 1988 | SANSHIN KOGYO KABUSHIKI KAISHA, D B A | Exhaust system for small vessel |
5067448, | Sep 27 1988 | SANSHIN INDUSTRIES CO , LTD , A CORP OF JAPAN | Exhaust cooling device for small sized boat engine |
5078631, | Feb 16 1990 | CENTEK INDUSTRIES, INC | Marine exhaust system |
5096446, | Aug 21 1989 | SANSHIN KOGYO KABUSHIKI KAISHA, D B A SANSHIN INDUSTRIES CO , LTD , A CORP OF JAPAN | Exhaust silencer unit for propulsion unit |
5167934, | Oct 28 1987 | KST-Motorenversuch GmbH & Co., KG | Catalyzer installation for boat engines and method for catalytic exhaust gas cleaning |
5212949, | May 22 1990 | Sanshin Kogyo Kabushiki Kaisha | Exhaust gas cleaning system for a marine propulsion unit |
5234364, | Apr 12 1990 | Sanshin Kogyo Kabushiki Kaisha | Exhaust system for small planing boat |
5251439, | Sep 22 1988 | Sanshin Kogyo Kabushiki Kaisha | Exhaust device for small sized boat engine |
5280708, | Jun 05 1990 | Sanshin Kogyo Kabushiki Kaisha | Exhaust gas purifying device for an outboard motor |
5306185, | Jan 21 1992 | Bombardier Recreational Products Inc | Catalytic elements for marine propulsion device |
5324217, | Jul 09 1992 | Sanshin Kogyo Kabushuki Kaisha | Exhaust system for small boat |
DE2345383, | |||
JP2256814, | |||
JP2256817, | |||
JP528932, | |||
JP5510043, | |||
JP5512233, |
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