IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0420748
(2009-04-08)
|
등록번호 |
US-8102071
(2012-01-24)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
17 인용 특허 :
35 |
초록
▼
An energy module comprising an energy absorber; and a mooring system, comprising a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy
An energy module comprising an energy absorber; and a mooring system, comprising a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module; and a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module.
대표청구항
▼
1. An energy module comprising: a) an energy absorber comprising i) a nacelle; andii) a propeller comprising a plurality of blades attached to the nacelle at a hub to drive an air compressor to compress air; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the nacelle,
1. An energy module comprising: a) an energy absorber comprising i) a nacelle; andii) a propeller comprising a plurality of blades attached to the nacelle at a hub to drive an air compressor to compress air; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the nacelle, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module;ii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module; andiii) a high pressure hose housed inside the wing-shaped polymer shell to transfer the compressed air to an air turbine generator for conversion into electricity,iv) an electrical line housed inside the wing-shaped polymer shell to provide power to the energy module;c) a strut attached to the nacelle; andd) a stabilizer tube attached to the strut to provide support for the energy absorber, the stabilizer tube comprising a bow end and a stern end opposite the bow end. 2. An energy module comprising: a) an energy absorber;b) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module; andii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module; andc) an aerator to aerate surrounding water. 3. An energy module comprising: a) an energy absorber, comprising i) a nacelle to support the mooring system; andii) a propeller attached to the at least one nacelle comprising a plurality of blades attached to the at least one nacelle at a hub to drive an air compressor to compress air; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module;ii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module; andiii) a high pressure hose housed inside the wing-shaped polymer shell to transfer the compressed air to an air turbine generator for conversion into electricity. 4. An energy module comprising: a) an energy absorber, comprising i) a nacelle to support the mooring system; andii) a propeller attached to the at least one nacelle comprising a plurality of blades attached to the at least one nacelle at a hub to drive an air compressor to compress air and a movable flap to adjust the dimensions of the propeller; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module; andii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module. 5. An energy module comprising: a) an energy absorber, comprising i) a nacelle to support the mooring system; andii) a propeller attached to the at least one nacelle comprising a plurality of blades attached to the at least one nacelle at a hub to drive an air compressor to compress air; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module; andii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module;c) a landing pad attached to the nacelle and protruding below the nacelle sufficiently to create a clearance between the propeller and the ground when the energy module is docked on the ground. 6. The energy module of claim 5, wherein the landing pad comprises an ambulatory means. 7. An energy module comprising: a) an energy absorber, comprising i) a nacelle to support the mooring system; andii) a propeller attached to the at least one nacelle comprising a plurality of blades attached to the at least one nacelle at a hub to drive an air compressor to compress air; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module; andii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module;c) at least one strut attached to the at least one nacelle; andd) a stabilizer tube attached to the at least one strut to provide support for the energy absorber, the stabilizer tube comprising a bow end and a stern end opposite the bow end. 8. The energy module of claim 7, wherein the stabilizer tube comprises: a) a nose at the bow end, the nose filled with a first collision absorbing material; andb) a tail at the aft end, the tail filled with a second collision absorbing material. 9. The energy module of claim 7, further comprising a debris diverter attached to the bow end of the stabilizer tube and projecting into the water to divert debris away from the energy module. 10. The energy module of claim 7, wherein the stabilizer further comprises a compartment configured to operatively receive a modular device that can be plugged in for ready use. 11. The energy module of claim 10, wherein the modular device is selected from the group consisting of a water making system, a water purifier, an electrolyzer, an air compressor, a desalinizer, a data storage device, a wireless network system, a computer system. 12. The energy module of claim 11, further comprising a tube to transport water collected by the energy module to an onshore facility. 13. The energy module of claim 7, wherein the stabilizer tube comprises an inner chamber dimensioned to house a disassembled energy absorber, a disassembled mooring system, and the strut so as to be easily transportable. 14. An energy module comprising: a) an energy absorber;b) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module; andii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module; andc) a generator to produce electricity for use by the energy module;wherein the generator comprises a power cartridge, comprising:a) a first end and a second end;b) a ceramic sleeve split longitudinally in half comprising a painted on wiring to connect to the electrical line in between the first and second ends;c) a rounded nose at the first end comprising a collision foam section;d) a hub and the propeller at the second end; ande) wherein the ceramic sleeve houses i) an electrical converter module,ii) a dual micro air pump to create positive pressure in the unit to prevent any leakage of moisture into cartridge,iii) two identical 25 kW permanent magnet generators stacked in line,iv) a planetary gearbox,v) two main bearings,vi) an end cap, andvii) a driveshaft attached to the hub, wherein, the ceramic sleeve conducts its power through the painted wires to the electrical cable of the mooring on the outside allowing the ceramic sleeve to simply be slid into place without any connectors and eliminating any through hull fittings. 15. An energy module comprising: a) an energy absorber, andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module, andii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module,c) a warning system,d) a sonar,e) a video, andf) a water sampling system to monitor the water. 16. An energy module comprising: a) an energy absorber; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a downward force and thereby reduce any upward motion in the energy module;ii) a mooring cable housed inside the wing-shaped polymer shell and anchored to maintain the energy module in a fore and aft and a side-to-side position to provide stability, and to negate a rotational force on the energy module; anda tube to transfer water collected by the energy module to an onshore facility for use as a coolant. 17. An array of energy modules having a first end and a second end opposite the first end, the array of energy modules comprising a plurality of energy modules, each energy module comprising: a) an energy absorber; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a negative lift to eliminate any upward motion in the energy module, andii) a mooring cable housed inside the wing-shaped polymer shell and interconnecting each energy module to another and anchoring a first energy module at the first end to a first side of a riverbank to maintain the array of energy modules in a fore and aft and a side-to-side position, and to negate a rotational force on the array of energy modules;wherein the second end of the array of energy modules is anchored to the bottom of the river. 18. The array of energy modules of claim 17, further comprising an A-frame attached to the second end of the array of energy modules to anchor the array of energy modules to the bottom of the river. 19. The array of energy modules of claim 18, wherein the A-frame comprises an ambulatory means to move the array of energy modules. 20. An array of energy modules having a first end and a second end opposite the first end, the array of energy modules comprising a plurality of energy modules, each energy module comprising: a) an energy absorber, comprising i) a nacelle; andii) a propeller comprising a plurality of blades attached to the nacelle at a hub to drive an air compressor to compress air; andb) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a negative lift to eliminate any upward motion in the energy module, andii) a mooring cable housed inside the wing-shaped polymer shell and interconnecting each energy module to another and anchoring a first energy module at the first end to a first side of a riverbank to maintain the array of energy modules in a fore and aft and a side-to-side position, and to negate a rotational force on the array of energy modules. 21. The array of energy modules of claim 20 further comprising a) a strut attached to the nacelle; andb) a stabilizer tube attached to the strut to provide support for the energy absorber, the stabilizer tube comprising a bow end and a stern end opposite the bow end. 22. The array of energy modules of claim 21, wherein a last energy module at the second end of the array is inverted with the stabilizer tube ballasted with water to sink the last energy module and anchor the last energy module at the bottom of the river, thereby allowing the last energy module to harness the river's energy while anchoring the array of energy modules. 23. The array of energy modules of claim 21, wherein each energy module further comprises: a) a first strut operatively connected to a first nacelle having the propeller driving the air compressor, each having an outer surface; andb) a second strut operatively connected to a second nacelle, wherein the second strut and the second nacelle are hollow shells each having an inner surface conforming to the outer surface of the first strut and first nacelle, respectively, so as to mate with the outer surfaces of the first strut and the first nacelle, respectively, so that the second strut and the second nacelle house and support the first strut and the first nacelle,c) wherein the first strut is hingedly connected to the stabilizer, andd) wherein the mooring system is attached to the second nacelle. 24. An array of energy modules having a first end and a second end opposite the first end, the array of energy modules comprising a plurality of energy modules, each energy module comprising: a) an energy absorber;b) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a negative lift to eliminate any upward motion in the energy module, andii) a mooring cable housed inside the wing-shaped polymer shell and interconnecting each energy module to another and anchoring a first energy module at the first end to a first side of a riverbank to maintain the array of energy modules in a fore and aft and a side-to-side position, and to negate a rotational force on the array of energy modules;c) a first array of energy modules;d) a second array of energy modules adjacent to the first array of energy modules; ande) a decoupler detachably connecting the first array of energy modules with the second array of energy modules between two adjacent energy modules to disconnect the first and second array of energy modules in response to a predetermined load. 25. An array of energy modules having a first end and a second end opposite the first end, the array of energy modules comprising a plurality of energy modules, each energy module comprising: a) an energy absorber;b) a mooring system, comprising: i) a wing-shaped polymer shell attached to the energy absorber, the wing-shaped polymer shell designed to utilize the force of a passing current to create a negative lift to eliminate any upward motion in the energy module, andii) a mooring cable housed inside the wing-shaped polymer shell and interconnecting each energy module to another and anchoring a first energy module at the first end to a first side of a riverbank to maintain the array of energy modules in a fore and aft and a side-to-side position, and to negate a rotational force on the array of energy modules; andc) a water diverter in between a first energy module and a second energy module to speed up and divert river flow into the first and second energy modules.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.