Multi-segment wind turbine rotor blade with span-wise offset joints
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-005/14
F03B-007/00
출원번호
US-0272315
(2011-10-13)
등록번호
US-8517689
(2013-08-27)
발명자
/ 주소
Kyriakides, Steven Alan
Riddell, Scott Gabell
출원인 / 주소
General Electric Company
대리인 / 주소
Dority & Manning, PA
인용정보
피인용 횟수 :
5인용 특허 :
4
초록▼
A wind turbine blade includes a first blade segment and a second blade segment, with each of the blade segments having a pressure side shell member, a suction side shell member, and internal support structure. The first and second blade segments have respective adjacent ends with complimentary joint
A wind turbine blade includes a first blade segment and a second blade segment, with each of the blade segments having a pressure side shell member, a suction side shell member, and internal support structure. The first and second blade segments have respective adjacent ends with complimentary joint sections that are joinable at a chord-wise joint. Each of the joint sections includes a joint profile that is offset in a span-wise direction from the pressure side shell member to the suction side shell member such that the joint sections are joinable to each other along their respective joint profiles and overlie each other in a span-wise direction.
대표청구항▼
1. A wind turbine blade, comprising: a first blade segment and a second blade segment, each of said blade segments having a pressure side shell member, a suction side shell member, and internal support structure;said first and second blade segments comprising respective adjacent ends having complime
1. A wind turbine blade, comprising: a first blade segment and a second blade segment, each of said blade segments having a pressure side shell member, a suction side shell member, and internal support structure;said first and second blade segments comprising respective adjacent ends having complimentary joint sections that are joinable at a chord-wise joint;each of said joint sections comprising a span-wise offset joint profile that extends in a single span-wise direction from said pressure side shell member to said suction side shell member such that said respective joint profiles overlie each other in a span-wise direction without axial insertion of one of said blade segments into the other said blade segment;wherein each said joint profile is staggered from said pressure side shell member to said suction side shell member and includes at least one joint line that is generally parallel to said pressure side shell member or said suction side shell member in a span-wise direction; andwherein each said joint profile comprises a plurality of said parallel joint lines, said internal support structure within each said blade segment comprising spar caps along said pressure and suction side shell members, a first one of said parallel joint lines within each said blade segment including an exposed section of one of said spar caps that extends span-wise beyond its respective pressure or suction side shell member, and a second one of said parallel joint lines in the same said blade segment including a section of the opposite said suction or pressure side shell member that extends span-wise beyond the opposite respective said spar cap. 2. The wind turbine blade of claim 1, wherein said internal support structure of each of said blade segments comprises a shear web that extends between said pressure and suction side shell members, said joint profile of each of said blade segments including an angled face of said shear web that extends span-wise between said pressure and suction side shell members. 3. The wind turbine blade of claim 2, wherein said face of said shear web of each of said blade segments further comprises a joint line that is generally parallel to said pressure side shell member or said suction side shell member in a span-wise direction. 4. The wind turbine blade of claim 1, wherein said internal support structure of each of said blade segments comprises a shear web that extends between said pressure and suction side shell members, each said joint profile including an exposed generally vertical face of said shear web within said joint section. 5. The wind turbine blade of claim 4, wherein said vertical face comprises a chamfered surface. 6. The wind turbine blade of claim 1, wherein said first and second blade segments include a leading edge and a trailing edge, each said joint profile comprising at least one joint line that is offset chord-wise from said leading edge to said trailing edge. 7. The wind turbine blade of claim 6, wherein said chord-wise offset joint lines are defined along chord-wise edges of said pressure and suction side shell members of said first and second blade segments. 8. The wind turbine blade of claim 6, wherein said chord-wise offset joint lines are defined along chord-wise edges of said spar caps. 9. The wind turbine blade of claim 6, wherein said chord-wise offset joint lines are defined along chord-wise edges of said spar caps and along chord-wise edges of said pressure and suction side shell members of said first and second blade segments. 10. A wind turbine blade, comprising: a first blade segment and a second blade segment, each of said blade segments having a pressure side shell member, a suction side shell member, and internal support structure;said first and second blade segments comprising respective adjacent ends having complimentary joint sections that are joinable at a chord-wise joint;each of said joint sections comprising a span-wise offset joint profile that extends in a single span-wise direction from said pressure side shell member to said suction side shell member such that said respective joint profiles overlie each other in a span-wise direction without axial insertion of one of said blade segments into the other said blade segment;wherein each said joint profile is staggered from said pressure side shell member to said suction side shell member and includes at least one joint line that is generally parallel to said pressure side shell member or said suction side shell member in a span-wise direction; andwherein each said joint profile comprises a plurality of said parallel joint lines, said internal support structure within each said blade segment comprising spar caps along said pressure and suction side shell members and a shear web that spans between said spar caps, a first one of said parallel joint lines within each said blade segment including an exposed section of said shear web that extends span-wise beyond a respective said spar cap at one of said pressure or suction side shell members, and a second one of said parallel joint lines in the same said blade segment including a section of the opposite said spar cap that extends span-wise beyond said shear web at the opposite one of said suction or pressure side shell member. 11. The wind turbine blade of claim 10, wherein said joint profile of each of said blade segments includes an angled face of said shear web that extends span-wise between said pressure and suction side shell members. 12. The wind turbine blade of claim 11, wherein said face of said shear web of each of said blade segments further comprises a joint line that is generally parallel to said pressure side shell member or said suction side shell member in a span-wise direction. 13. The wind turbine blade of claim 10, wherein each said joint profile includes an exposed generally vertical face of said shear web within said joint section. 14. The wind turbine blade of claim 13 wherein said vertical face comprises a chamfered surface. 15. The wind turbine blade of claim 10, wherein said first and second blade segments include a leading edge and a trailing edge, each said joint profile comprising at least one joint line that is offset chord-wise from said leading edge to said trailing edge. 16. The wind turbine blade of claim 15, wherein each said joint profile comprises a plurality of said chord-wise offset joint lines. 17. The wind turbine blade of claim 15, wherein said chord-wise offset joint lines are defined along chord-wise edges of said pressure and suction side shell members of said first and second blade segments. 18. The wind turbine blade of claim 15, wherein said chord-wise offset joint lines are defined along chord-wise edges of said spar caps. 19. The wind turbine blade of claim 15, wherein chord-wise offset joint lines are defined along chord-wise edges of said spar caps and along chord-wise edges of said pressure and suction side shell members of said first and second blade segments.
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이 특허에 인용된 특허 (4)
Riddell, Scott Gabell, Joint design for rotor blade segments of a wind turbine.
Kyriakides, Steven Alan; Riddell, Scott Gabell; Walker, Alan Majors, Method for assembling a multi-segment wind turbine rotor blade with span-wise offset joints.
Caruso, Christopher Daniel; Yarbrough, Aaron A.; Hynum, Daniel Alan; Tobin, James Robert, Modular wind turbine rotor blades and methods of assembling same.
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