Water and wind current power generation system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F03B-013/00
F03D-009/00
출원번호
US-0460613
(2009-07-22)
등록번호
US-8193656
(2012-06-05)
발명자
/ 주소
Che, Hue N.
출원인 / 주소
Che, Hue N.
인용정보
피인용 횟수 :
2인용 특허 :
11
초록▼
An apparatus using differential gearboxes to collect, combine, and transmit torque generated by multiple, interconnected rotor systems. The rotor systems are connected via a driveshaft. The driveshaft is connected to a generator gearbox, and the generator box drives an electrical generator. The torq
An apparatus using differential gearboxes to collect, combine, and transmit torque generated by multiple, interconnected rotor systems. The rotor systems are connected via a driveshaft. The driveshaft is connected to a generator gearbox, and the generator box drives an electrical generator. The torque may be converted to mechanical power by replacing the electrical generator with a mechanical power device. The rotors are activated by fluid currents such as wind or water.
대표청구항▼
1. A water and/or wind current power generating system which uses the function of differential gearing to combine the energies generated from a plurality of individual rotor systems powered by wind or water currents to maximize the amount of clean energy produced by compact and efficient embodiments
1. A water and/or wind current power generating system which uses the function of differential gearing to combine the energies generated from a plurality of individual rotor systems powered by wind or water currents to maximize the amount of clean energy produced by compact and efficient embodiments, comprising: a. said plurality of rotor systems; i. said rotor systems having means for coaxial attachment to a plurality of differential gearboxes, whereby the torque generated by said rotor systems is transferred via said differential gearboxes to a plurality of driveshafts;ii. said differential gearboxes having means for attachment to a support structure, wherein said differential gearboxes have a plurality of input/output shafts with each said input/output shaft having means for attachment to said driveshafts via a coupling device;iii. a plurality of said driveshafts, each said driveshaft having means for attachment to said coupling device at both ends of said driveshafts; andiv. said plurality of rotor systems having means for attachment to one another via said driveshafts; whereby the torque of said rotor systems are combined using the function of said differential gearboxes, thereby causing the rotational speed and torque of said driveshafts to increase with each incremental said rotor system, thus ultimately producing a greater mechanical energy than can be harnessed in a system without differential gearing;b. said support structure;c. a rudder having means for attachment to said rotor systems or said support structure; andd. a power station. 2. The plurality of said rotor systems of claim 1, wherein said rotor systems are interconnected in a series by means of said driveshafts, whereby said torque generated by each said rotor system is combined with said torque generated by each previous and subsequent said rotor system in said series at said differential gearbox. 3. The plurality of said rotor systems of claim 1, each said rotor system further including a. said rotor having means for coaxial attachment to a gearbox, whereby said torque generated by said rotor is transferred via said gearbox to said driveshaft;b. said gearbox having means for attachment to said support structure, wherein said gearbox has an appropriate number of input/output shafts with each said input/output shaft having means for attachment to said driveshaft via said coupling device; andc. said driveshaft having means for attachment to said coupling device at both ends of said driveshaft. 4. The plurality of rotor systems of claim 3, further including a. said plurality of said rotor systems interconnected by means of said driveshafts and said differential gearboxes, whereby said torque generated by each said rotor system is combined with the torque generated by each previous and subsequent said rotor system in said series at said differential gearbox;b. a plurality of said differential gearboxes, each said gearbox having means for attachment to said support structure, and wherein each said differential gearbox has an appropriate number of said input/output shafts with each input/output shaft having means for attachment to driveshaft via said coupling device. 5. The support structure of claim 1, further comprising a. a hollow, cylindrical outer tower having a predetermined length and diameter sufficient to fit a cylindrical support tower within the hollow core of said outer tower;b. said support tower having a predetermined length and diameter, wherein the outer surface of said support tower is positioned an appropriate distance from the inner surface of said outer tower; andc. a plurality of bearings providing means for said outer tower to rotate around said support tower, whereby said bearings are positioned at appropriate intervals. 6. The support structure of claim 5, further including: a. a plurality of hollow, cylindrical tower tubes having a predetermined diameter and of varying lengths, wherein said tower tubes have a circular flange on both the upper and lower ends of said tower tubes, said circular flanges having a plurality of threaded holes spaced apart at an appropriate distance, whereby allowing attachment to another said tower tube, a rotor tube, or a t-shaped tube by appropriate means;b. a plurality of said hollow, cylindrical rotor tubes having a predetermined diameter and length, wherein a circular slot of appropriate diameter with flanges of an appropriate length is cut into and through the wall of said rotor tube at one spot on said wall, and wherein said rotor tubes have said circular flange on both the upper and lower ends of said rotor tubes, said circular flanges having a plurality of threaded holes spaced apart at an appropriate distances whereby allowing attachment to another said rotor tube, said tower tube, said t-shaped tube, or an end plate by appropriate means;c. said end plate having a predetermined diameter, wherein the outer edge of said end plate has a plurality of threaded holes spaced apart at an appropriate distance whereby allowing attachment to said rotor tube by appropriate means,d. a base having an appropriate shape and diameter, said base having means for attachment to said tower tubes, and wherein said base having means for 360 degree rotation. 7. The support structure of claim 61, further comprising a plurality of said hollow, cylindrical t-shaped tubes, wherein all three ends of said t-shaped tube have a circular flange, and wherein said flange has a plurality of threaded holes allowing for interconnection with additional said t-shaped tubes, said rotor tubes, and said tower tubes.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.