A wave-powered water vehicle includes a surface float, a submerged swimmer, and a tether which connects the float and the swimmer, so that the swimmer moves up and down as a result of wave motion. The swimmer includes one or more fins which interact with the water as the swimmer moves up and down, a
A wave-powered water vehicle includes a surface float, a submerged swimmer, and a tether which connects the float and the swimmer, so that the swimmer moves up and down as a result of wave motion. The swimmer includes one or more fins which interact with the water as the swimmer moves up and down, and generate forces which propel the vehicle forward. The vehicle, which need not be manned, can carry communication and control equipment so that it can follow a course directed by signals sent to it, and so that it can record or transmit data from sensors on the vehicle.
대표청구항▼
1. An unmanned wave-powered water vehicle which comprises: (1) a float,(2) a swimmer, and(3) a tether connecting the float and the swimmer;the float, swimmer and tether being such that, when the vehicle is in still water, (i) the float is on or near the surface of the water,(ii) the swimmer is subme
1. An unmanned wave-powered water vehicle which comprises: (1) a float,(2) a swimmer, and(3) a tether connecting the float and the swimmer;the float, swimmer and tether being such that, when the vehicle is in still water, (i) the float is on or near the surface of the water,(ii) the swimmer is submerged below the float, and(iii) the tether is under tension;the swimmer comprising (2a) a swimmer body having a longitudinal axis, and(2b) a fin system which (a) is secured to the body,(b) comprises a fin, and(c) when the vehicle is in wave-bearing water, (i) has a configuration which changes as a result of the wave motion, and(ii) interacts with the water to generate forces which tend to move the swimmer in a horizontal direction. 2. The unmanned water vehicle of claim 1 in which the fin system has one or more of the following characteristics: (A) it comprises a fin which rotates about an axis of rotation, the axis of rotation having a spatial relationship to the swimmer body which changes when the vehicle is in wave-bearing water;(B) it comprises (i) a fin which rotates about an axis of rotation, and (ii) an elastic component which is not part of the fin, and which deforms elastically and thus influences changes in the configuration of the fin system when the vehicle is in wave-bearing water;(C) it comprises a fin having a leading edge which comprises (i) a central section which has a fixed spatial relationship with the swimmer body, and (ii) outboard sections wherein the central section is more rigid than the outboard sections; and(D) it comprises two generally laminar fins, each of which rotates about an axis of rotation generally aligned with the longitudinal axis of the swimmer body. 3. The unmanned water vehicle of claim 1 or 2 wherein the tether has one or both of the following characteristics: (E) it comprises an elastically deformable member; and(F) it comprises a component which transmits data and/or electrical power. 4. The unmanned water vehicle of claim 1 or 2 wherein the swimmer body has one or more of the following characteristics: (G) it has a substantially rigid fore section, a midsection, and a substantially rigid aft section wherein the midsection is more flexible in the vertical plane than the fore and aft sections;(H) it comprises one or more components selected from electrical equipment, communications equipment, recording equipment, control electronics, steering equipment, and sensors;(I) it comprises a fin which influences the orientation of the swimmer body in the horizontal plane when the device is in the water-bearing water;(J) it comprises a generally tubular housing and the fin system comprises fins which extend either side of the housing; and(K) it comprises a generally tubular housing and vertical fin surfaces respectively adjacent to the leading end and the trailing end of the swimmer body. 5. The unmanned water vehicle of claim 1 or 2 wherein the fin system comprises: (1) a plurality of fins,(2) a rigid bar which is mounted on the swimmer body, and to which each of the fins is rotatably mounted, and(3) an elastic component which is not part of a fin and which deforms elastically and thus influences changes in the configuration of the system when the device is in wave-bearing water. 6. The unmanned water vehicle of claim 1 or 2 wherein the fin system comprises: (1) a rigid bar which is mounted on the swimmer body,(2) a generally laminar fin which is mounted on the rigid bar, and(3) an elastic component which is connected to the fin and to the rigid bar. 7. The unmanned water vehicle of claim 1 or 2 wherein the fin system comprises a generally laminar and elastically deformable fin having a leading edge which comprises (i) a relatively rigid central section which rotates about an axis of rotation generally transverse to the longitudinal axis of the swimmer body, and(ii) relatively deformable outboard sections. 8. The unmanned water vehicle of claim 1 or 2 wherein: (1) the float comprises a satellite-based position sensor and(2) the swimmer comprises (a) a horizontal sensor which senses direction in a horizontal plane, and(b) a steering actuator; andthe vehicle further comprises a computer system which (a) is linked to the position sensor, the horizontal sensor and the rudder,(b) contains, or is programmable to contain, instructions to control the steering actuator in response to signals received from the position sensor and the horizontal sensor, or in response to signals received from a sensor on the vehicle. 9. The unmanned water vehicle of claim 1 or 2 wherein: the swimmer has a center of gravity, and the tether is attached to the swimmer substantially vertically above the center of gravity;the float has a center of buoyancy, and the tether is attached to the float substantially vertically below the center of buoyancy; andthe float has a center of drag, and the tether is attached to the float in front of the center of drag. 10. A method of utilizing wave power which comprises placing the unmanned water vehicle of claim 1 or 2 in a body of water which has or which is expected to have water waves traveling across its surface. 11. A method of obtaining information which comprises analyzing information obtained from, or recorded by, the unmanned water vehicle of claim 1 or 2. 12. A method for controlling a function of the unmanned water vehicle of claim 1 or 2 which comprises sending signals to the water vehicle.
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Linderfelt Hal R. (5540-A Avenida Soseiga Laguna Hills CA 92653), Apparatus for harvesting wave energy.
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Hudson Alan T. (Mattapoisett MA) Gagnon David P. (East Sandwich MA) Johns ; II David W. (Marion MA) Langenhein ; Jr. William J. (S. Dennis MA), Marine measurement device.
Hibbs, Bart D.; MacCready, Tyler; Tokumaru, Phillip T.; Zambrano, Thomas, Method of and apparatus for wave energy conversion using a float with excess buoyancy.
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Hine, Roger G.; Hine, Derek L.; Kiesow, III, Kurt A. F.; Stutz, William A.; Hine, Graham, Cable for connecting a float to a swimmer in a wave powered vehicle.
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