초록 ▼

A watercraft with a propulsion engine includes at least one hull having an underside. A dual exhaust system includes a first exhaust conduit defining a first exhaust flow path leading to the underside (e.g., a step in a planing surface on the underside) and a second exhaust conduit defining a second

A watercraft with a propulsion engine includes at least one hull having an underside. A dual exhaust system includes a first exhaust conduit defining a first exhaust flow path leading to the underside (e.g., a step in a planing surface on the underside) and a second exhaust conduit defining a second exhaust flow path to atmosphere. One embodiment is self proportioning. In another embodiment, an onboard proportioning system varies first and second proportions of the exhaust flowing through respective ones of the first and second exhaust conduits according to exhaust back pressure. First and second valve mechanisms selectively restrict the first and second exhaust flow paths under computer or manual control according to pressure sensed by a back-pressure-sensing component in order to thereby direct the exhaust in desired proportions for enhanced operating characteristics and reduced thermal signature.

대표청구항 ▼

What is claimed is: 1. A watercraft, comprising: at least one hull having at least one planing surface; at least one vertical step in the planing surface; an onboard propulsion engine; and means for venting exhaust from the onboard propulsion engine at the vertical step in the planing surface while

What is claimed is: 1. A watercraft, comprising: at least one hull having at least one planing surface; at least one vertical step in the planing surface; an onboard propulsion engine; and means for venting exhaust from the onboard propulsion engine at the vertical step in the planing surface while under way in order to introduce gas along the planing surface; said means for venting exhaust including means for venting a first proportion of the exhaust at the vertical step in the planing surface, including a first exhaust conduit that defines a first exhaust flow path leading to the vertical step in the planing surface; and said means for venting exhaust including means for venting a second proportion of the exhaust to atmosphere, including a second exhaust conduit that defines a second exhaust flow path leading to atmosphere; wherein the onboard propulsion engine is not an internal combustion engine with multiple cylinders exhausting through a corresponding number of exhaust ports at the underside. 2. A watercraft, comprising: a hull having a fore end, an aft end, and a longitudinal axis extending between the fore end and the aft end; a displacement body portion of the hull that extends between the fore end and the aft end, the displacement body having a static waterline, a port side, and a starboard side; a first channel-defining structure portion of the hull that is located on the port side of the displacement body, including a first wing structure extending laterally from the port side of the displacement body above the static waterline and a first outer skirt structure that extends downwardly from the first wing structure to below the static waterline in spaced apart relationship to the displacement body, said first outer skirt structure having an outer surface that is substantially perpendicular with respect to the static waterline and said first channel-defining structure defining a first channel with a cross-sectional surface that is generally arcuate; and a second channel-defining structure portion of the hull that is located on the starboard side of the displacement body, including a second wing structure extending laterally from the starboard side of the displacement body above the static waterline and a second outer skirt structure extending perpendicularly downwardly from the second wing structure to below the static waterline in spaced apart relationship to the displacement body, said second outer skirt structure having an outer surface that is substantially perpendicular with respect to the static waterline and said second channel-defining structure defining a second channel with a cross-sectional surface that is generally arcuate; the first and second channels extending from the fore end to the aft end and the first and second channels being adapted to capture a bow wave and to cause air and water to mix and spiral toward the aft end of the hull as compressed aerated water, thereby reducing friction drag, increasing lateral stability, and dampening transmission of bow wave energy at the aft end of the hull; and the hull including at least one planing surface, at least one vertical step in the planing surface, an onboard propulsion engine, and means for venting exhaust from the onboard propulsion engine at the vertical step in the planing surface while under way in order to introduce gas along the planing surface; said means for venting exhaust including means for venting a first proportion of the exhaust at the vertical step in the planing surface, including a first exhaust conduit that defines a first exhaust flow path leading to the vertical step in the planing surface; and said means for venting exhaust including means for venting a second proportion of the exhaust to atmosphere, including a second exhaust conduit that defines a second exhaust flow path leading to atmosphere. 3. A watercraft, comprising: at least one hull having an underside; an onboard propulsion engine that produces exhaust; means for venting a first proportion of the exhaust at the underside of the hull, including a first exhaust conduit that defines a first exhaust flow path leading to the underside; and means for venting a second proportion of the exhaust to atmosphere, including a second exhaust conduit that defines a second exhaust flow path leading to atmosphere; wherein the onboard propulsion engine is not an internal combustion engine with multiple cylinders exhausting through a corresponding number of exhaust ports at the underside; and wherein the first exhaust flow path does not include a plurality of injection nozzles at the underside through which the exhaust must pass. 4. A watercraft, comprising: at least one hull having an underside; an onboard propulsion engine that produces exhaust; means for venting a first proportion of the exhaust at the underside of the hull, including a first exhaust conduit that defines a first exhaust flow Path leading to the underside; means for venting a second proportion of the exhaust to atmosphere; including a second exhaust conduit that defines a second exhaust flow path leading to atmosphere; and means for varying the first and second proportions of the exhaust, including an onboard proportioning system for varying the first and second proportions according to exhaust back pressure. 5. A watercraft as recited in claim 4, wherein: the onboard proportioning system includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the onboard proportioning system includes controller means for controlling the first valve means; and the controller means is adapted to control the first valve means according to exhaust back pressure. 6. A watercraft as recited in claim 4, wherein: the watercraft includes second valve means for restricting the second exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the first flow path; the onboard proportioning system includes controller means for controlling the second valve means; and the controller means is adapted to control the second valve means according to exhaust back pressure. 7. A watercraft as recited in claim 4, wherein: the watercraft includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the watercraft includes second valve means for restricting the second exhaust flow path, including a second valve mechanism in the second exhaust flow path; the onboard proportioning system includes controller means for controlling the first valve means and the second valve means; and the controller means is adapted to control the first valve means and the second valve means according to exhaust back pressure. 8. A watercraft as recited in claim 4, wherein the onboard proportioning system includes means for sensing exhaust back pressure, including a back-pressure-sensing component. 9. A watercraft as recited in claim 8, wherein: the watercraft includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the onboard proportioning system includes controller means for controlling the first valve means; and the controller means is adapted to control the first valve means according to exhaust back pressure sensed by the back-pressure-sensing component. 10. A watercraft as recited in claim 8, wherein: the watercraft includes second valve means for restricting the second exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the first flow path; the onboard proportioning system includes controller means for controlling the second valve means; and the controller means is adapted to control the second valve means according to exhaust back pressure sensed by the back-pressure-sensing component. 11. A watercraft as recited in claim 8, wherein: the watercraft includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the watercraft includes second valve means for restricting the second exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the first flow path; the onboard proportioning system includes controller means for controlling the first valve means and the second valve means; and the controller means is adapted to control the first valve means and the second valve means according to exhaust back pressure sensed by the back-pressure-sensing component. 12. A watercraft as recited in claim 4, wherein: the hull includes at least one planing surface and at least one vertical step in the planing surface; and the first exhaust conduit leads to the step in the planing surface. 13. A watercraft, comprising: at least one hull having at least one planing surface and at least one vertical step in the planing surface; an onboard propulsion engine that produces exhaust; means for venting a first proportion of the exhaust at the vertical step in the planing surface, including a first exhaust conduit that defines a first exhaust flow path leading to the vertical step in the planing surface; means for venting a second proportion of the exhaust to atmosphere, including a second exhaust conduit that defines a second exhaust flow path leading to atmosphere; and means for varying the first and second proportions of the exhaust, including an onboard proportioning system for varying the first and second proportions according to exhaust back pressure. 14. A watercraft as recited in claim 13, wherein: the onboard proportioning system includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the onboard proportioning system includes controller means for controlling the first valve means; and the controller means is adapted to control the first valve means according to exhaust back pressure. 15. A watercraft as recited in claim 13, wherein: the watercraft includes second valve means for restricting the second exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the first flow path; the onboard proportioning system includes controller means for controlling the second valve means; and the controller means is adapted to control the second valve means according to exhaust back pressure. 16. A watercraft as recited in claim 13, wherein: the watercraft includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the watercraft includes second valve means for restricting the second exhaust flow path, including a second valve mechanism in the second exhaust flow path; the onboard proportioning system includes controller means for controlling the first valve means and the second valve means; and the controller means is adapted to control both the first valve means and the second valve means according to exhaust back pressure. 17. A watercraft as recited in claim 13, wherein the onboard proportioning system includes means for sensing exhaust back pressure, including a back-pressure-sensing component. 18. A watercraft as recited in claim 17, wherein: the watercraft includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the onboard proportioning system includes controller means for controlling the first valve means; and the controller means is adapted to control the first valve means according to exhaust back pressure sensed by the back-pressure-sensing component. 19. A watercraft as recited in claim 17, wherein: the watercraft includes second valve means for restricting the second exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the first flow path; the onboard proportioning system includes controller means for controlling the second valve means; and the controller means is adapted to control the second valve means according to exhaust back pressure sensed by the back-pressure-sensing component. 20. A watercraft as recited in claim 17, wherein: the watercraft includes first valve means for restricting the first exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the second flow path; the watercraft includes second valve means for restricting the second exhaust flow path in order to direct a desired portion of the exhaust from the propulsion engine to the first flow path; the onboard proportioning system includes controller means for controlling the first valve means and the second valve means; and the controller means is adapted to control both the first valve means and the second valve means according to exhaust back pressure sensed by the back-pressure-sensing component. 21. A watercraft, comprising: at least one hull having an underside; an onboard propulsion engine that produces exhaust; means for venting a first proportion of the exhaust at the underside of the hull, including a first exhaust conduit that defines a first exhaust flow path leading to the underside; means for venting a second proportion of the exhaust to atmosphere, including a second exhaust conduit that defines a second exhaust flow path leading to atmosphere; means for sensing exhaust back pressure; and means for varying the first and second proportions of the exhaust according to exhaust back pressure, including at least one valve mechanism adapted to control the flow of exhaust through at least one of the first and second exhaust conduits; wherein the onboard propulsion engine is not an internal combustion engine with multiple cylinders exhausting through a corresponding number of exhaust ports at the underside. 22. A watercraft as recited in claim 21, wherein the means for varying the first and second proportions of the exhaust includes at least a first valve mechanism adapted to control the flow of exhaust through the first exhaust conduit. 23. A watercraft as recited in claim 22, wherein the first valve mechanism is a flapper-type valve. 24. A watercraft as recited in claim 21, wherein the means for varying the first and second proportions of the exhaust includes at least a second valve mechanism adapted to control the flow of exhaust through the second exhaust conduit. 25. A method for reducing the thermal signature of a watercraft having a hull with an underside and an onboard propulsion engine that produces exhaust, the method comprising: providing a first exhaust conduit for venting a first proportion of the exhaust at the underside of the hull, and a second exhaust conduit for venting a second proportion of the exhaust to atmosphere; venting a first proportion of the exhaust through the first exhaust conduit at the underside of the hull; venting a second proportion of the exhaust through the second exhaust conduit to atmosphere; sensing exhaust back pressure; and varying the first and second proportions according to exhaust back pressure.