The invention relates to an apparatus for and method of automatically actuating the movement of a rudder of a watercraft between a steering and a non-steering position in response to the speed of the watercraft. This invention is particularly applicable for use in jet-propelled watercraft, which hav
The invention relates to an apparatus for and method of automatically actuating the movement of a rudder of a watercraft between a steering and a non-steering position in response to the speed of the watercraft. This invention is particularly applicable for use in jet-propelled watercraft, which have reduced steering capacity at low speeds.
대표청구항▼
The invention claimed is: 1. A steering mechanism for jet-propelled watercraft comprising: a rudder, the rudder being movable between a steering and a non-steering position and configured to couple with a steering column of the watercraft when in a steering position, and incorporating a plate membe
The invention claimed is: 1. A steering mechanism for jet-propelled watercraft comprising: a rudder, the rudder being movable between a steering and a non-steering position and configured to couple with a steering column of the watercraft when in a steering position, and incorporating a plate member located in a substantially ventral position; securing means for securing the steering mechanism to the watercraft; biasing means for biasing the rudder towards a non-steering position; and actuating means for actuating the movement of the rudder towards the steering position automatically, upon the speed of the watercraft dropping below a predetermined level, and wherein the biasing means incorporates a spring-loaded engaging member that is configured to engage the plate member of the rudder at high speeds or high nozzle velocities, and to disengage from the plate member at low speeds or low nozzle velocities. 2. A steering mechanism as claimed in claim 1, wherein the steering mechanism is affixed to an outlet nozzle of the watercraft. 3. A steering mechanism as claimed in claim 1, wherein the securing means incorporates nut-and-bolt fixtures for affixing the steering mechanism to the body of the watercraft. 4. A steering mechanism as claimed in claim 1, wherein the biasing means incorporates a piston-and-lug arrangement that biases the rudder towards the non-steering position. 5. A steering mechanism as claimed in claim 4, wherein the lug is coupled to the actuating means. 6. A steering mechanism as claimed in claim 1, wherein the actuating means is adapted to detect the speed of the watercraft, and, on detecting that the speed of the watercraft has dropped below a predetermined level, overcomes the biasing means to reverse the direction of its bias, allowing the rudder to move towards the steering position. 7. A steering mechanism as claimed in claim 1, wherein the actuating means is adapted to detect the rate of revolutions of the watercraft engine and may incorporate speed-sensitive apparatus which, on the engine-revolutions of the watercraft dropping below a predetermined level, overcomes the biasing means to reverse the direction of its bias, allowing the rudder to move towards the steering position. 8. A steering mechanism as claimed in claim 1, wherein the actuating means is adapted to detect water pressure by a water pressure detection means, and to actuate movement of the rudder in response to the detected water pressure. 9. A steering mechanism as claimed in claim 8, wherein the water pressure detection means detects water pressure within the outlet nozzle of the watercraft. 10. A steering mechanism as claimed in claim 1, wherein the actuating means operates by means of pressurized fluid. 11. A steering mechanism as claimed in claim 10, wherein the source of pressurized fluid is a pressurized cylinder. 12. A steering mechanism as claimed in claim 11, wherein the pressurized fluid is released from the pressurized cylinder for use in the actuation means by a solenoid. 13. A steering mechanism as claimed in claim 1, wherein the actuation means is a pneumatic piston and cylinder arrangement. 14. A steering mechanism as claimed in claim 1, wherein the actuation means is a hydraulic piston and cylinder arrangement. 15. A steering mechanism for jet-propelled watercraft comprising: a rudder, the rudder being movable between a steering and a non-steering position and configured to couple with a steering column of the watercraft when in a steering position, and incorporating a plate member located in a substantially ventral position; securing means for securing the steering mechanism to the watercraft; biasing means for biasing the rudder towards the steering position, and actuating means for automatically actuating the movement of the rudder towards the non-steering position, upon the speed of the watercraft dropping below a predetermined level, and wherein the biasing means incorporates a spring-loaded engaging member that is configured to engage the plate member of the rudder at high speeds or high nozzle velocities, and to disengage from the plate member at low speeds or low nozzle velocities.
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