IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0895331
(2010-09-30)
|
등록번호 |
US-8177514
(2012-05-15)
|
우선권정보 |
DK-2009 01073 (2009-10-01) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Wood, Herron & Evans, L.L.P.
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
3 |
초록
▼
A sectional blade for a wind turbine comprising a first and a second blade section extending in opposite directions from a blade joint, and each blade section comprising a spar section forming a structural member of the blade. The blade sections are structurally connected by a spar bridge over a spa
A sectional blade for a wind turbine comprising a first and a second blade section extending in opposite directions from a blade joint, and each blade section comprising a spar section forming a structural member of the blade. The blade sections are structurally connected by a spar bridge over a spar joint, which comprises a center beam of two extending beam caps joined by one or more extending beam webs. The spar joint further comprises at least two extending spar caps and one or more extending spar webs connecting the spar caps to opposite sides of the center beam. A method of manufacturing such a sectional blade is also disclosed.
대표청구항
▼
1. A sectional blade for a wind turbine, the blade comprising at least a first blade section and a second blade section extending in opposite directions from a blade joint, where each blade section comprises a spar section forming a structural member of the blade and extending lengthwise, the first
1. A sectional blade for a wind turbine, the blade comprising at least a first blade section and a second blade section extending in opposite directions from a blade joint, where each blade section comprises a spar section forming a structural member of the blade and extending lengthwise, the first blade section and the second blade section being structurally connected by a spar bridge extending into said first and second blade sections to facilitate joining of said blade sections,the spar bridge being connected in a spar joint to a spar section defining a receiving spar section for receiving the spar bridge,the spar joint comprising a center beam extending lengthwise and including at least two beam caps joined by a beam web, andthe spar joint further comprising at least two spar caps extending lengthwise and a spar web extending lengthwise and connecting the spar caps to opposite sides of the beam web in a chordwise direction. 2. The sectional blade according to claim 1, wherein the spar bridge forms an integral part of the first spar section, and wherein the second spar section defines the receiving spar section for receiving the spar bridge over a spar joint length so as to secure the spar bridge to the second spar section in the spar joint. 3. The sectional blade according to claim 1, wherein the spar bridge includes a separate member from the first and second spar sections, and each of the first and the second spar sections define receiving spar sections for receiving the spar bridge over a spar joint length so as to secure the spar bridge to the first and second spar sections in spar joints. 4. The sectional blade according to claim 1, wherein the beam caps are oriented in a direction transverse to the spar caps. 5. The sectional blade according to claim 1, wherein the beam web is oriented in a direction transverse to the spar web. 6. The sectional blade according to claim 1, wherein the spar bridge comprises the center beam, and the receiving spar section comprises the at least two spar caps. 7. The sectional blade according to claim 1, wherein the receiving spar section comprises the center beam, and the spar bridge comprises the at least two spar caps. 8. The sectional blade according to claim 1, wherein the center beam is box-shaped. 9. The sectional blade according to claim 1, wherein the center beam is I-shaped. 10. The sectional blade according to claim 1, wherein the spar joint comprises two interconnected I-beams. 11. The sectional blade according to claim 1, wherein both the spar web and the beam web pass through the centroid of a cross section of the sectional blade comprising the spar joint. 12. The sectional blade according to claim 1, further comprising a fastening element adapted to fasten the spar bridge to the receiving spar section. 13. The sectional blade according to claim 12, wherein the receiving spar section receives the spar bridge over a spar joint length, and wherein a number of fastening elements are provided at intervals along the spar joint length. 14. The sectional blade according to claim 12, wherein fastening elements are provided near both lengthwise ends of the spar joint. 15. The sectional blade according to claim 1, wherein the at least two spar caps are positioned a maximum distance apart within the sectional blade. 16. The sectional blade according to claim 1, wherein at least one of the spar sections forms part of an aerodynamic surface of the blade. 17. The sectional blade according to claim 1, wherein the spar joint facilitates disassembling of the blade sections from each other. 18. The sectional blade according to claim 1, wherein said second blade section forms a winglet. 19. A wind turbine comprising a sectional blade, the blade comprising at least a first blade section and a second blade section extending in opposite directions from a blade joint, where each blade section comprises a spar section forming a structural member of the blade and extending lengthwise, the first blade section and the second blade section being structurally connected by a spar bridge extending into said first and second blade section to facilitate joining of said blade sections,the spar bridge being connected in a spar joint to a spar section defining a receiving spar section for receiving the spar bridge,the spar joint comprising a center beam extending lengthwise and including at least two beam caps joined by a beam web, andthe spar joint further comprising at least two spar caps extending lengthwise and a spar web extending lengthwise and connecting the spar caps to opposite sides of the beam web in a chordwise direction. 20. A method of manufacturing a sectional blade for a wind turbine, comprising: positioning a first blade section adjacent to a second blade section in the lengthwise direction of the blade, each blade section including a lengthwise-extending spar section forming a structural member of the blade,joining and connecting the first blade section with the second blade section using a spar bridge, wherein the spar bridge extends into the first blade section and the second blade section, andforming a spar joint connecting the spar bridge with a spar section defining a receiving spar section, the spar joint including a center beam extending lengthwise and including at least two beam caps joined by a beam web, and at least two spar caps extending lengthwise and a spar web extending lengthwise and connecting the spar caps to opposite sides of the beam web in a chordwise direction.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.