A wave-powered water vehicle includes a) a first component which is a float that travels on or near the water surface; b) a second component which is wave actuated and travels below the first component; and c) a means whereby the first component engages the second component and/or the second compone
A wave-powered water vehicle includes a) a first component which is a float that travels on or near the water surface; b) a second component which is wave actuated and travels below the first component; and c) a means whereby the first component engages the second component and/or the second component engages the first component; wherein the engagement means provides lateral support of one component for the other, and thereby minimizes lateral movement of one against the other when the components are fitted together.
대표청구항▼
1. A wave-powered device comprising: (1) a float;(2) a wave-actuated component;(3) a flexible tether having a first end connected to the float and a second end connected to the wave-actuated component; and(4) a closure component that comprises a winch mounted to pivot about pitch axis of the tether,
1. A wave-powered device comprising: (1) a float;(2) a wave-actuated component;(3) a flexible tether having a first end connected to the float and a second end connected to the wave-actuated component; and(4) a closure component that comprises a winch mounted to pivot about pitch axis of the tether, the winch having a spool to which the tether is connected, the closure component having a first state in which the tether is wound onto the winch to secure the float and the wave-actuated component together as an assembly that can be moved as a unit, and a second state in which the tether is unwound from the winch to permit the wave-actuated component to move away from the float wherein the winch is mounted on the float;wherein,when the closure component is in the second state and the float is placed on or near the surface of still water, the float floats on or near the surface of the still water,the tether extends downwards from the float and under tension, andthe wave-actuated component is submerged below the float, andwhen the closure component is in the second state and the float is placed on or near the surface of wave-bearing water, the float floats on or near the surface of the wave-bearing water,the tether extends downwards from the float, andthe wave-actuated component is submerged below the float, and interacts with the water to generate forces that are transmitted to the tether. 2. The wave-powered device of claim 1 wherein the float has top, bottom, and side surfaces, and comprises float side components that extend downwards generally parallel to the side surfaces to create a space defined by the bottom surface and the float side components, and the wave-actuated component is at least partially within that space. 3. The wave-powered device of claim 1 wherein the wave-actuated component comprises components that extend upwards from the wave-actuated component and that interact with components of the float to locate the wave-actuated component in a fixed position in relation to the float, and/or the float comprises components that extend downwards and that interact with components of the wave-actuated component to locate the wave-actuated component in a fixed position in relation to the float. 4. The wave-powered device of claim 1 wherein: the wave-actuated component comprises fins that, when the wave-powered device is in wave-bearing water, rotate about an axis to generate the forces that are transmitted to the tether; andthe wave-actuated component includes members that extend downwards from the wave-actuated component and that, when the closure component is in the first state and the assembly is placed on a horizontal surface, separate the fins from the horizontal surface. 5. The wave-powered device of claim 1 wherein the winch comprises wiping elements that clean the tether when the tether is drawn through the winch. 6. The wave-powered device of claim 1 wherein: the tether has a substantially flat configuration to reduce drag; andthe winch has a spool that rotates about an axis parallel to a longitudinal axis of the float so that the tether can be wound onto the spool without twisting. 7. The wave-powered device of claim 1 wherein: the first-mentioned winch is relatively close to the fore end of the float;the wave-powered device further comprises a second winch that is relatively close to the aft end of the float; andthe wave-powered device further includes a second tether attached to the second winch. 8. The wave-powered device of claim 1, and further comprising: (1) wireless communications equipment;(2) a computer system;(3) a satellite-referenced position sensor(4) a horizontal direction sensor that senses direction in a horizontal plane; and(5) a steering actuator;the computer system (a) being linked to the communications equipment, the position sensor, the horizontal sensor and the steering actuator, and(b) containing, or being programmable to contain, instructions to control the steering actuator in response to signals received from the communications equipment, or from the position sensor and the horizontal direction sensor, or from signals received from another sensor on the vehicle. 9. The wave-powered device of claim 1 wherein the float is formed with a hollow configured to engage the wave-actuated component when the winch is in the first state. 10. The wave-powered device of claim 1 wherein the tether has a substantially flat configuration to reduce drag;the winch has a spool that rotates about an axis perpendicular to the pitch axis so that the tether can be wound onto the spool without twisting; andthe tether is not required to flex against its wide axis as the wave-powered device undergoes pitch motion. 11. A wave-powered water vehicle, comprising: a) a first component that is a float that travels on or near the water surface;b) a second component that is wave actuated and travels below the first component;c) a flexible tether that connects the first and second components; and(d) a winch, mounted so as to pivot about pitch axis of the tether, the winch being built into the first component, wherein the winch is operable to assume a first state in which the tether is wound onto the winch, whereby one of said components may be secured against the other, and a second state in which the tether is unwound from the winch, whereby one of said components can move away from the other. 12. The wave-powered water vehicle of claim 11 wherein the first component is formed with a hollow configured to engage the second component when the winch is in the first state. 13. A wave-powered water vehicle, comprising: a float that travels on or near the water surface;a wave-actuated component that travels below the float;a flexible tether connecting the float and the wave-actuated component; anda winch, mounted to the wave-powered water vehicle so as to pivot about pitch axis of the tether, the winch having: a first state in which the tether is wound onto the winch to secure the float and the wave-actuated component together as an assembly that can be moved as a unit, anda second state in which the tether is unwound from the winch to permit the wave-actuated component to move away from the float. 14. The wave-powered water vehicle of claim 13 wherein the winch is mounted on the float. 15. A wave-powered water vehicle, comprising: a float that travels on or near the water surface, the float having a longitudinal roll axis and a transverse pitch axis;a wave-actuated component that travels below the float;a flexible tether connecting the float and the wave-actuated component, wherein the tether has a substantially flat configuration with wide and narrow axes to reduce drag when the tether is oriented with its narrow axis directed parallel to pitch axis of the tether; anda winch, mounted to the wave-powered water vehicle so as to pivot about pitch axis, wherein the winch has a spool that rotates about an axis perpendicular to the pitch axis of the tether so that the tether can be wound onto the spool without twisting, and the winch is operable to assume first and second states where: in the first state, the tether is wound onto the winch to secure the float and the wave-actuated component together as an assembly that can be moved as a unit, andin the second state, the tether is unwound from the winch to permit the wave-actuated component to move away from the float.
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