Watercraft that harvest both locomotive thrust and electrical power from wave motion
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B63H-019/02
F03B-013/18
F03B-013/20
출원번호
US-0536935
(2012-06-28)
등록번호
US-8808041
(2014-08-19)
발명자
/ 주소
Hine, Roger G.
Hine, Derek L.
출원인 / 주소
Liquid Robotics, Inc.
대리인 / 주소
Kilpatrick Townsend & Stockton, LLP
인용정보
피인용 횟수 :
17인용 특허 :
45
초록▼
This disclosure provides improved nautical craft that can travel and navigate on their own. A hybrid vessel is described that converts wave motion to locomotive thrust by mechanical means, and also converts wave motion to electrical power for storage in a battery. The electrical power can then be ta
This disclosure provides improved nautical craft that can travel and navigate on their own. A hybrid vessel is described that converts wave motion to locomotive thrust by mechanical means, and also converts wave motion to electrical power for storage in a battery. The electrical power can then be tapped to provide locomotive power during periods where wave motion is inadequate and during deployment. The electrical power can also be tapped to even out the undulating thrust that is created when locomotion of the vessel is powered by wave motion alone.
대표청구항▼
1. A wave-powered vessel, comprising: (a) a buoyant vessel body;(b) a swimmer;(c) one or more tethers connecting the vessel body to the swimmer; and(d) an electrical generator configured for converting vertical movement of the vessel body caused by wave motion to electrical power;wherein the swimmer
1. A wave-powered vessel, comprising: (a) a buoyant vessel body;(b) a swimmer;(c) one or more tethers connecting the vessel body to the swimmer; and(d) an electrical generator configured for converting vertical movement of the vessel body caused by wave motion to electrical power;wherein the swimmer is weighted to travel in water below the vessel body, and is configured to pull the vessel body by way of the tether, the swimmer comprising fin surfaces that mechanically provide forward thrust when actuated by rising and falling of the swimmer in the water. 2. The wave-powered vessel of claim 1, wherein the swimmer is adapted so that motion of the fin surfaces may be dampened to increase electrical power generated by the electrical generator. 3. A wave-powered vessel, comprising: (a) a buoyant vessel body;(b) a mechanical means configured for converting vertical movement of the vessel body caused by wave motion to horizontal thrust;(c) a first electrical generator configured for converting vertical movement of the vessel body caused by wave motion to electrical power; and(d) a second electrical generator configured for converting horizontal movement of the vessel body through water to electrical power. 4. The wave-powered vessel of claim 3, wherein the second electrical generator comprises a rotatory fin or turbine that is configured to be powered by horizontal movement of the vessel body through the water. 5. A wave-powered vessel, comprising: (a) a buoyant vessel body;(b) a mechanical means configured for converting vertical movement of the vessel body caused by wave motion to horizontal thrust; and(c) an electrical generator configured for converting vertical movement of the vessel body caused by wave motion to electrical power;wherein the electrical generator comprises a piston powered by a swing arm that is configured to move from a horizontal to an angular or vertical position in accordance with vertical movement of the vessel body caused by wave motion. 6. The wave-powered vessel of claim 5, wherein the swing arm is mechanically connected to a swimmer weighted to travel in water below the vessel body. 7. A wave-powered vessel, comprising: (a) a buoyant vessel body;(b) a mechanical means for converting movement of the vessel body caused by wave motion to horizontal thrust; and(c) an electrical generator that comprises a rotatory fin or turbine;wherein the rotatory fin or turbine is configured to generate electrical power when rotated in one direction by horizontal movement of the vessel body through the water, and to act as a motor providing horizontal thrust to the vessel through the water when rotated in the opposite direction. 8. A wave-powered vessel, comprising: (a) a buoyant vessel body;(b) a mechanical means configured for converting vertical movement of the vessel body caused by wave motion to horizontal thrust;(c) an electrical generator configured for converting vertical movement of the vessel body caused by wave motion to electrical power;(d) a battery wired to receive electrical power generated by the electrical generator;(e) an electrically powered motor wired to receive electrical power from the battery and positioned to provide horizontal thrust of the vessel through the water; and,(f) one or more solar panels configured to supply electrical power to the battery. 9. A wave-powered vessel, comprising: (a) a buoyant vessel body;(b) a mechanical means for converting movement of the vessel body caused by wave motion to horizontal thrust;(c) an electrical generator configured to convert movement of the vessel body caused by wave motion to electrical power;(d) an electrically powered motor configured to provide horizontal thrust to the vessel through the water;(e) a battery configured to store electrical power generated by the electrical generator and to feed electrical power to the motor to provide horizontal thrust to the vessel through the water;wherein the vessel is configured such that the battery powers the motor during periods where the motion in each full wave cycle is inadequate to provide sufficient horizontal thrust to the vessel. 10. A wave-powered vessel configured to buffer oscillations in vessel speed, the vessel comprising: (a) a wave-powered propulsion system configured to propel the vessel horizontally along the surface of a body of water upon which the vessel has been deployed, whereby the wave-powered propulsion system generates thrust that is mechanically powered by and oscillates with wave motion on the body of water;(b) an electrically powered propulsion system configured to propel the vessel horizontally through the water in substantially the same direction as the wave-powered propulsion system;(c) a battery configured to supply power to the electrically powered propulsion system; and(d) an on-board microprocessor that is connected and programmed so as to determine oscillations in thrust generated from wave motion by the wave-powered propulsion system, and to control and synchronize the electrically powered propulsion system so as to provide thrust that oscillates out-of-phase with the oscillations in thrust from the wave-powered propulsion system, thereby buffering the vessel speed. 11. The vessel according to claim 10, which is a wave-powered vessel according to claim 2. 12. A wave-powered vessel configured for deployment from shore, comprising: (a) a buoyant vessel body;(b) a swimmer configured to retract and be secured against the vessel body;(c) one or more tethers connecting the vessel body to the swimmer;(d) an electrically powered motor configured to propel the vessel through the water; and(e) a battery configured for supplying power to the motor, having sufficient storage capacity to power the vessel from shore to a location where the swimmer can be deployed;wherein the swimmer is weighted to travel in the water below the vessel body, and is configured to pull the vessel by way of the tether, the swimmer comprising fin surfaces that mechanically provide forward thrust when actuated by rising and falling of the swimmer in the water. 13. The wave-powered vessel of claim 12, further comprising a releasable tow buoy; wherein the vessel body and the tow buoy are configured so that the tow buoy may be releasably housed within the vessel body while on shore, and pulled behind the vessel body after the vessel is deployed. 14. The wave-powered vessel of claim 12, further comprising an electrical generator configured for converting movement of the vessel body caused by wave motion to electrical power. 15. A wave-powered vessel configured for autonomous operation, comprising: (a) a buoyant vessel body;(b) a mechanical means configured for converting movement of the vessel body caused by wave motion to horizontal thrust;(c) an electrical generator configured for converting movement of the vessel body caused by wave motion to electrical power;(d) electronics configured to sense the geographical location of the vessel; and(e) a microprocessor programmed to determine the vessel's current location, and steer the vessel from its current location towards a target location. 16. A dual power method for propelling a vessel smoothly along the surface of a body of water, the method comprising: (a) harvesting vertical motion of the vessel caused by and oscillating with waves on the body of water;(b) mechanically converting at least some of the harvested vertical motion so as to propel the vessel horizontally with oscillating thrust in a particular direction;(c) generating electrical power;(d) storing the electrical power; and(e) retrieving electrical power from storage to drive an electrically powered motor in an oscillating fashion, thereby propelling the vessel in substantially the same direction in an alternating pattern with the oscillating thrust provided in step (b) and thereby buffering the oscillating thrust. 17. The method of claim 16, wherein step (c) comprises converting some of the harvested vertical motion into electrical power by way of a mechanically operated generator that is actuated by the vertical motion. 18. The method of claim 16, wherein step (c) comprises harvesting horizontal motion of the vessel through the body of water and converting the harvested horizontal motion into electrical power. 19. The method of claim 16, wherein step (c) comprises harvesting solar power and converting the solar power into electrical power. 20. A traveling watercraft, comprising: (a) a buoyant vessel body;(b) a separate underwater component that is configured and weighted to travel underwater below the vessel body;(c) one or more tethers connecting the vessel body to the underwater component each through a corresponding swing arm mounted on the vessel body or the underwater component;(d) an electrical generator operably connected to the swing arm(s); and(e) a battery;wherein the watercraft is structured so that when it is traveling on a body of water, wave motion on the body of water causes the vessel body to rise and fall relative to the underwater component, thereby moving the swing arms in a manner that oscillates with the wave motion,wherein the moving of the swim arms drives the electrical generator to generate electrical power, which is then conveyed to the battery. 21. The watercraft of claim 20, wherein the swing arm(s) are pivotally mounted and spring loaded so as to assume a horizontal neutral position when the vessel body and the underwater component in the absence of tension on the respective tether, but to assume an angular spring-loaded position when the vessel body and the underwater component are pulling each other by way of the respective tether. 22. The watercraft of claim 21, wherein the electrical generator is operably connected to the swing arms such that potential energy released by returning the spring-loaded position to the neutral position is converted by the generator to electrical power. 23. The watercraft of claim 21, wherein the swing arms are each connected to a linear hydraulic cylinder such that the spring-loaded position creates pressure to drive a hydraulic turbine generator. 24. The watercraft of claim 20, wherein each of the swing arms is pivotally mounted at the proximal end towards the upper surface of the underwater component, and the corresponding tether connects the distal end of the swing arm to the vessel body. 25. The watercraft of claim 20, wherein each of the swing arms is pivotally mounted at the proximal end towards the lower surface of the vessel body component, and the corresponding tether connects the distal end of the swing arm to the underwater component. 26. The watercraft of claim 20, wherein there are two such swing arms, one of which swings horizontally towards the front of the watercraft, the other of which swings horizontally towards the rear of the watercraft. 27. The watercraft of claim 20, wherein the underwater component is a swimmer that comprises fin surfaces that mechanically provide horizontal thrust when actuated by rising and falling of the swimmer in the water, thereby pulling the vessel body by way of the tether(s). 28. The watercraft of claim 27, wherein the swimmer is configured to lock out or dampen movement of the fin surfaces on the swimmer, so that the proportion of wave motion used for locomotive thrust can be reduced in favor of electrical power generation. 29. The watercraft of claim 27, which is configured to lock out or dampen movement of the swing arms so that the proportion of wave motion used for electrical power generation can be reduced in favor of locomotive thrust.
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이 특허에 인용된 특허 (45)
Salter Stephen H. (Edinburgh GB6), Apparatus for use in the extraction of energy from waves on water.
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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.
Tiwari, Awadesh; G V, Ravikanth; Agrawal, Atul Kumar; Kesavan, Deepa, Single planetary, single motor/generator hybrid powertrain with three or more operating modes.
Hillenbrand Christopher F. (Bristol RI), Unmanned undersea vehicle including keel-mounted payload deployment arrangement with payload compartment flooding arrang.
Brennan, John M.; Otten, Casper G.; Walker, David B.; Ong, Timothy James; Moroni, Daniel Peter, Adaptable modular power system (AMPS) and dedicated connector; modular payload boxes and autonomous water vehicle configured to accept same.
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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