IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0228477
(2011-09-09)
|
등록번호 |
US-8496433
(2013-07-30)
|
우선권정보 |
CN-2009 1 0128001 (2009-03-12) |
발명자
/ 주소 |
- Yan, Qiang
- Shen, Yihui
- Zhang, Dong
- Jiang, Chaoqi
- Niu, Haifeng
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
4 |
초록
▼
A wind mill structure of a lift-type vertical axis wind turbine. The lift-type vertical axis wind turbine includes a vertical shaft and the wind mill includes a plurality of blades and supporting arms. The supporting arms hold the blades, and the blades are connected to the vertical shaft via the su
A wind mill structure of a lift-type vertical axis wind turbine. The lift-type vertical axis wind turbine includes a vertical shaft and the wind mill includes a plurality of blades and supporting arms. The supporting arms hold the blades, and the blades are connected to the vertical shaft via the supporting arms. A setting angle, formed by a chord of the blades and a tangent line that goes through the center of the blades, ranges from −12° to 12°. An angle, formed by the chord of the blade and the rotatable supporting arm, ranges from 7° to 100°. The wind mill can maintain relatively stable rotation speeds under wind speeds exceeding the rated wind speed by adjusting the angle of the supporting arms, thereby ensuring stable output from the vertical axis wind turbine.
대표청구항
▼
1. A wind mill structure of a lift-type vertical axis wind turbine comprising a vertical shaft,a plurality of blades, each blade having an airfoil profile and being connected to the vertical shaft,pairs of supporting arms, each pair having a fixed supporting arm and a rotatable supporting arm for ho
1. A wind mill structure of a lift-type vertical axis wind turbine comprising a vertical shaft,a plurality of blades, each blade having an airfoil profile and being connected to the vertical shaft,pairs of supporting arms, each pair having a fixed supporting arm and a rotatable supporting arm for holding each blade to the vertical shaft, each fixed supporting arm at one end connected to the vertical shaft and at the other end to one end of the corresponding rotatable supporting arm, and the other end of the corresponding rotatable supporting arm connected to the blade,a pivot disposed on a connecting part of the fixed supporting arm and the corresponding rotatable supporting arm,a plurality of controlling devices, each controlling device corresponding to a pair of the supporting arms and a blade, and each controlling device connecting with one end of the rotatable supporting arm and one end of a neighboring fixed supporting arm and controlling an angle where the rotatable supporting arm rotates around the pivot, anda plurality of length-adjustable tension devices, each length-adjustable tension device at one end being attached to the corresponding controlling device and at the other end being attached to the neighboring fixed supporting arm,whereinthe controlling device is a flexible component, a hydraulic unit, an electronic component, or a mixture thereof;a setting angle α between a chord of the blade and a tangent line that goes through the center of the blade at a position in a circumference during rotation of the blades ranges from −12° to 12°; andan angle G between the chord of the blades and the corresponding rotatable supporting arms ranges from 7° to 100°. 2. The wind mill structure of the lift-type vertical axis wind turbine of claim 1, wherein an angle A between the rotatable supporting arm and an extension line of the corresponding fixed supporting arm ranges from 0° to 90°. 3. The wind mill structure of the lift-type vertical axis wind turbine of claim 2, wherein the angle A ranges from 20° to 90°. 4. The wind mill structure of the lift-type vertical axis wind turbine of claim 1, wherein a length ratio of the fixed supporting arm to the rotatable supporting arm is between 10:1 and 1:1. 5. The wind mill structure of the lift-type vertical axis wind turbine of claim 1, wherein the controlling device is the flexible component which is an extension spring, a compression spring, or a hydraulic unit. 6. The wind mill structure of the lift-type vertical axis wind turbine of claim 5, wherein the controlling device is the extension spring having one end connected with the corresponding length-adjustable tension device. 7. The wind mill structure of the lift-type vertical axis wind turbine of claim 6, wherein the length-adjustable tension device is a length-adjustable tumbuckle with an adjusting range between 1 and 50 cm. 8. The wind mill structure of the lift-type vertical axis wind turbine of claim 1, wherein the pivot is of a slot structure with one end of the fixed supporting arm connected with one end of the corresponding rotatable supporting arm through a bolt;a slot is provided at the one end of the fixed supporting arm, and a tongue is provided at the one end of the corresponding rotatable supporting arm; andthe fixed supporting arm and the corresponding rotatable supporting arm move around the pivot, and contact interfaces of the slot and the tongue restrict each other to control the rotation angle of the rotatable supporting arm with regard to the pivot. 9. The wind mill structure of the lift-type vertical axis wind turbine of claim 3, wherein the pivot is of a slot structure with one end of the fixed supporting arm connected with one end of the corresponding rotatable supporting arm through a bolt;a slot is provided at the one end of the fixed supporting arm, and a tongue is provided at the one end of the corresponding rotatable supporting arm; andthe fixed supporting arm and the corresponding rotatable supporting arm move around the pivot, and contact interfaces of the slot and the tongue restrict each other to control the rotation angle of the rotatable supporting arm with regard to the pivot. 10. The wind mill structure of the lift-type vertical axis wind turbine of claim 4, wherein the pivot is of a slot structure with one end of the fixed supporting arm connected with one end of the corresponding rotatable supporting arm through a bolt;a slot is provided at the one end of the fixed supporting arm, and a tongue is provided at the one end of the corresponding rotatable supporting arm; andthe fixed supporting arm and the corresponding rotatable supporting arm move around the pivot, and contact interfaces of the slot and the tongue restrict each other to control the rotation angle of the rotatable supporting arm with regard to the pivot. 11. The wind mill structure of the lift-type vertical axis wind turbine of claim 7, wherein the pivot is of a slot structure with one end of the fixed supporting arm connected with one end of the corresponding rotatable supporting arm through a bolt;a slot is provided at the one end of the fixed supporting arm, and a tongue is provided at the one end of the corresponding rotatable supporting arm; andthe fixed supporting arm and the corresponding rotatable supporting arm move around the pivot, and contact interfaces of the slot and the tongue restrict each other to control the rotation angle of the rotatable supporting arm with regard to the pivot. 12. The wind mill structure of the lift-type vertical axis wind turbine of claim 1, wherein the airfoil profile of the blades is formed by curves of a conventional airfoil, by a plurality of curves at least meeting a second order derivable function, or by splines.
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