Method and apparatus that generates electricity from a wind turbine equipped with self-cleaning photovoltaic panels
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03D-003/00
F03D-009/00
F03D-009/11
F03D-009/25
H02K-007/18
H02P-009/06
F03D-013/20
출원번호
US-0384586
(2016-12-20)
등록번호
US-10094361
(2018-10-09)
발명자
/ 주소
Bardia, Jaime Miguel
출원인 / 주소
Bardia, Jaime Miguel
대리인 / 주소
Hess, Robert J.
인용정보
피인용 횟수 :
0인용 특허 :
20
초록▼
An apparatus that can optimize wind power without compromising solar photovoltaic power collection by doing so and yet provide self-cleaning of the solar photovoltaic panels of the collector. The panels rotate in unison with rotation of the wind turbine airfoils and arranged in a planar region that
An apparatus that can optimize wind power without compromising solar photovoltaic power collection by doing so and yet provide self-cleaning of the solar photovoltaic panels of the collector. The panels rotate in unison with rotation of the wind turbine airfoils and arranged in a planar region that is substantially transverse to a circumferential region in which the airfoils rotate beneath the solar photovoltaic collector.
대표청구항▼
1. An apparatus that is solar photovoltaic powered and wind powered to generate electricity, comprising: a tower that is erect and reaches a topmost elevation, the tower having a housing that contains a structural frame;a plurality of airfoils or blades arranged to effect rotation about an axis in r
1. An apparatus that is solar photovoltaic powered and wind powered to generate electricity, comprising: a tower that is erect and reaches a topmost elevation, the tower having a housing that contains a structural frame;a plurality of airfoils or blades arranged to effect rotation about an axis in response to wind forces acting on the plurality of airfoils or blades, the axis passing vertically through the erected tower;a solar voltaic collector that generates electricity and has photovoltaic panels that are arranged above the erected tower, the plurality of airfoils or blades extending vertically away from the solar voltaic collector to terminate at respective free ends that are at an elevation that is lower than the topmost elevation reached by the erected tower, all the photovoltaic panels of the solar voltaic collector being configured and arranged to extend within a substantially horizontal planar region that is in common for all the photovoltaic panels; andmeans for effecting rotation of the airfoils or blades and rotation of the solar voltaic collector all in unison with each other so that as wind forces act upon the airfoils or blades to rotate same about the axis, the photovoltaic panels likewise rotate about the axis to effect self-cleaning of the photovoltaic panels as a consequence. 2. The apparatus of claim 1, wherein the solar voltaic collector includes a support frame that supports the photovoltaic panels so as to rotate in unison therewith, the plurality of airfoils or blades being held by the support frame and extending vertically away from the support frame to the elevation that is lower than the topmost elevation reached by the erected tower. 3. The apparatus of claim 1, further comprising: a connecting linkage that extends from the plurality of airfoils or blades to an axial member about the axis so that rotation of the plurality of airfoils or blades rotates the axial member accordingly, the frame being arranged to rotate in unison with rotation of the axial member. 4. The apparatus of claim 3, further comprising: a converging support element that converges from the solar panel support frame to the erected tower; andcables or wires extending from the solar voltaic collector toward the erected tower via the converging support element. 5. The apparatus of claim 4, wherein the tower has a free end that is conically tipped. 6. The apparatus of claim 4, further comprising: a drive transmission supported by the structural frame within confines of the tower that is driven by rotation of the plurality of airfoils or blades about the axis; andalternators or generators stacked one above another and supported by the structural frame within confines of the tower. 7. The apparatus of claim 1, wherein the solar voltaic collector includes a support frame that supports the photovoltaic panels, said means for effecting rotation including connecting linkage that extends from the plurality of airfoils or blades to an axial member about the axis so that rotation of the plurality of airfoils or blades rotates the axial member accordingly, the photovoltaic panels being arranged to rotate in unison with rotation of the axial member. 8. The apparatus of claim 7, wherein the converging support element has an inverted cone shape and rotates in unison with rotation of the frame. 9. The apparatus of claim 1, further comprising: a rotary hub supported by the structural frame and having two opposing bearings and two earth ring magnets that impart a magnetic repulsion force that levitates a static weight of the solar voltaic collector and the static weight of the plurality of or blades. 10. The method of claim 9, wherein the solar voltaic collector includes a support frame that supports the photovoltaic panels, further comprising: extending a connecting linkage from the plurality of airfoils or blades to an axial member about the axis so that rotation of the plurality of airfoils or blades rotates the axial member accordingly, the photovoltaic panels being arranged to rotate in unison with rotation of the axial member. 11. The apparatus of claim 1, further comprising a circular support frame within whose confines extends the photovoltaic panels. 12. A method of solar photovoltaic powering and wind powering to generate electricity, comprising: erecting a tower to reach a topmost elevation, the tower having a housing that contains a structural frame;supporting a rotary hub with the structural frame, the rotary hub imparting a magnetic repulsion force;rotating a plurality of airfoils or blades about an axis in response to wind forces acting on the plurality of airfoils or blades, the axis extending vertically through the erected tower;converting solar energy into electricity with a solar voltaic collector that have photovoltaic panels that are arranged above the erected tower, the plurality of airfoils or blades extending vertically away from the solar voltaic collector to terminate at respective free ends at an elevation that is lower than the topmost elevation reached by the erected tower;extending all the photovoltaic panels of the solar voltaic collector within a substantially horizontal planar region that is in common for all of the photovoltaic panels; andeffecting rotation of the airfoils and rotation of the solar voltaic collector all in unison with each other so that as wind forces act upon the airfoils to rotate same about the axial member, the photovoltaic panels likewise rotate to effect self-cleaning of the photovoltaic panels as a consequence. 13. The method of claim 12, wherein the solar voltaic collector includes a support frame that supports the photovoltaic panels so as to rotate in unison with rotation of the airfoils or blades, the plurality of airfoils or blades being held by the frame and extending from the support frame to the elevation that is lower than the topmost elevation reached by the erected tower. 14. The method of claim 13, wherein said effecting rotation includes providing connecting linkage between the axial member and the plurality of airfoils or blades, the frame being connected to the axial member to rotate in unison with rotation of the plurality of airfoils or blades. 15. The method of claim 13, further comprising: arranging a converging support element to converge from the solar panel support frame to the tower; andextending cables or wires from the solar voltaic collector toward the tower via the converging support element. 16. The method of claim 15, wherein the converging support element has an inverted cone shape and rotates in unison with rotation of the frame. 17. The method of claim 16, wherein the tower has a free end that is conically tipped. 18. The method of claim 12, further comprising: levitating, via magnetic repulsion from two earth magnets, a static weight of the solar voltaic collector and the static weight of the plurality of the airfoils or blades, the rotary hub having two opposing bearings separated from each other by a ring.
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