Claims
- 1. A watercraft comprising an internal combustion engine having at least one exhaust port and an output shaft, a propulsion device driven by the engine output shaft, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device being disposed within said exhaust system, a cooling jacket extending along a portion of the exhaust system in the vicinity of the catalytic device, and an exhaust system temperature sensor being located between said catalytic device and a point at which cooling water is introduced from said cooling jacket into exhaust gases flowing within said exhaust system, said exhaust system temperature sensor being arranged such that said cooling jacket extends around at least a portion of said exhaust system temperature sensor and said exhaust system temperature sensor being disposed along an axial centerline of said catalytic device.
- 2. A watercraft comprising an internal combustion engine having at least one exhaust port and an output shaft, a propulsion device driven by the engine output shaft, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device being disposed within said exhaust system, a cooling jacket extending along a portion of the exhaust system in the vicinity of the catalytic device, and an exhaust system temperature sensor being located between said catalytic device and a point at which cooling water is introduced from said cooling jacket into exhaust gases flowing within said exhaust system, said exhaust system temperature sensor being arranged such that said cooling jacket extends around at least a portion of said exhaust system temperature sensor and said exhaust system temperature sensor being an exhaust gas temperature sensor that extends into exhaust gases flowing within said exhaust system.
- 3. A watercraft comprising an internal combustion engine having at least one exhaust port and an output shaft, a propulsion device driven by the engine output shaft, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device being disposed within said exhaust system, a cooling jacket extending along a portion of the exhaust system in the vicinity of the catalytic device, and an exhaust system temperature sensor being located between said catalytic device and a point at which cooling water is introduced from said cooling jacket into exhaust gases flowing within said exhaust system, said exhaust system comprising a double shell construction proximate said exhaust system temperature sensor, said double shell construction comprising an inner wall and an outer wall with said cooling jacket being defined between said inner wall and said outer wall, said exhaust system temperature sensor comprising an exhaust pipe temperature sensor that is arranged to detect a temperature of said inner wall, said exhaust system temperature sensor being arranged such that said cooling jacket extends around at least a portion of said exhaust system temperature sensor, said exhaust pipe temperature sensor communicating with a controller and said controller activates an alarm if said exhaust pipe temperature sensor detects a temperature above a preset temperature and said exhaust pipe temperature sensor communicating with a controller and said controller slowing an engine speed if said exhaust pipe temperature sensor detects a temperature above a preset temperature.
- 4. A watercraft comprising an internal combustion engine having at least one exhaust port and an output shaft, a propulsion device driven by the engine output shaft, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device being disposed within said exhaust system, a cooling jacket extending along a portion of the exhaust system in the vicinity of the catalytic device, and an exhaust system temperature sensor being located between said catalytic device and a point at which cooling water is introduced from said cooling jacket into exhaust gases flowing within said exhaust system, and a coolant flow rate sensor being disposed upstream of said point at which cooling water is introduced from said cooling jacket into exhaust gases flowing within said exhaust system.
- 5. A watercraft as in claim 4, wherein said coolant flow rate sensor communicates with a controller and said controller activates an alarm if said coolant flow rate sensor detects a flow rate less than a preset flow rate.
- 6. A watercraft as in claim 5, wherein said controller slows an engine speed if said coolant flow rate sensor detects a flow rate less than a second preset flow rate that is less than said preset flow rate.
- 7. A watercraft as in claim 4, wherein said coolant flow rate sensor communicates with a controller and said controller slows an engine speed if said coolant flow rate sensor detects a flow rate less than a preset flow rate.
- 8. A watercraft comprising an internal combustion engine having at least one exhaust port and an output shaft, a propulsion device driven by the engine output shaft, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device being disposed within said exhaust system, a cooling jacket extending along a portion of the exhaust system in the vicinity of the catalytic device, and an exhaust system temperature sensor being located between said catalytic device and a point at which cooling water is introduced from said cooling jacket into exhaust gases flowing within said exhaust system, and a control system communicating with an induction system of said engine in a manner controlling operation of said engine depending upon a sensed temperature of said exhaust system whereby said control system slows or stops said engine when said sensed temperature exceeds a preset temperature.
- 9. A watercraft comprising an internal combustion engine having at least one exhaust port, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device disposed within said exhaust system, a cooling system comprising a cooling jacket that extends along a portion of the exhaust system and that communicates with said exhaust system at a location downstream of said catalytic device, a sensor disposed along said exhaust system at a location upstream of said location at which said cooling system communicates with said exhaust system, said sensor comprising a temperature sensor arranged to sense a temperature of a portion of said exhaust system, said sensor being capable of outputting a range of output signals indicative of a relative degree of operability of said cooling system and a control system communicating with said sensor and operating said engine depending upon said sensed degree of operability of said cooling system, and said temperature sensor comprising a transducer, said cooling jacket being defined by an inner shell and an outer shell and said transducer extending between said inner shell and said outer shell.
- 10. A watercraft as in claim 9, wherein said transducer is exposed to a passage defined between said inner shell and said outer shell.
- 11. A watercraft as in claim 9, wherein said transducer is embedded in a mounting structure defined between said inner shell and said outer shell.
- 12. A watercraft comprising an internal combustion engine having at least one exhaust port, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device disposed within said exhaust system, a cooling system comprising a cooling jacket that extends along a portion of the exhaust system and that communicates with said exhaust system at a location downstream of said catalytic device, a sensor disposed along said exhaust system at a location upstream of said location at which said cooling system communicates with said exhaust system, said sensor comprising a temperature sensor arranged to sense a temperature of a portion of said exhaust system, said sensor being capable of outputting a range of output signals indicative of a relative degree of operability of said cooling system and a control system communicating with said sensor and operating said engine depending upon said sensed degree of operability of said cooling system, and said cooling jacket being defined, at least in part, by an inner shell, said inner shell defining at least a portion of said exhaust passage and said temperature sensor having a transducer arranged to sense a temperature of said inner shell.
- 13. A watercraft comprising an internal combustion engine having at least one exhaust port, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device disposed within said exhaust system, a cooling system comprising a cooling jacket that extends along a portion of the exhaust system and that communicates with said exhaust system at a location downstream of said catalytic device, a sensor disposed along said exhaust system at a location upstream of said location at which said cooling system communicates with said exhaust system, said sensor being capable of outputting a range of output signals indicative of a relative degree of operability of said cooling system and a control system communicating with said sensor and operating said engine depending upon said sensed degree of operability of said cooling system, said sensor comprises a flow meter positioned to detect at least a portion of said coolant flow through said cooling jacket.
- 14. A watercraft comprising an internal combustion engine having at least one exhaust port, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device disposed within said exhaust system, a cooling system comprising a cooling jacket that extends along a portion of the exhaust system and that communicates with said exhaust system at a location downstream of said catalytic device, a sensor disposed along said exhaust system at a location upstream of said location at which said cooling system communicates with said exhaust system, said sensor being capable of outputting a range of output signals indicative of a relative degree of operability of said cooling system and a control system communicating with said sensor and operating said engine depending upon said sensed degree of operability of said cooling system, said control system comprises means for reducing engine speed depending upon said sensed degree of operability of said cooling system.
- 15. A watercraft comprising an internal combustion engine having at least one exhaust port, an exhaust system comprising an exhaust passage that extends between the engine exhaust port and a discharge port, a catalytic device disposed within said exhaust system, a cooling system comprising a cooling jacket that extends along a portion of the exhaust system and that communicates with said exhaust system at a location downstream of said catalytic device, a sensor disposed along said exhaust system at a location upstream of said location at which said cooling system communicates with said exhaust system, said sensor being capable of outputting a range of output signals indicative of a relative degree of operability of said cooling system and a control system communicating with said sensor and operating said engine depending upon said sensed degree of operability of said cooling system, a temperature sensor arranged within said exhaust passage to sense a temperature of exhaust gases passing through said exhaust passage and said temperature sensor communicating with said control unit.
Priority Claims (1)
Number |
Date |
Country |
Kind |
8-092601 |
Apr 1996 |
JP |
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RELATED APPLICATIONS
This application is a continuation of U.S. patent application Ser. No. 08/842,689, filed on Apr. 15, 1997 and issued as U.S. Pat. No. 6,250,976 on Jun. 26, 2001, which claimed the priority benefit under 35 U.S.C. § 119 of Japanese Application No. HEI 08-092,601, which was filed on Apr. 15, 1996.
US Referenced Citations (16)
Continuations (1)
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Number |
Date |
Country |
Parent |
08/842689 |
Apr 1997 |
US |
Child |
09/859965 |
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US |