Hybrid solid-inflatable mandrel for blade manufacturing
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29C-070/44
B29C-033/50
B29D-099/00
B29L-031/08
출원번호
US-0733077
(2015-06-08)
등록번호
US-9669589
(2017-06-06)
발명자
/ 주소
Zamora Rodriguez, Alonso O.
Mayda, Edward A.
출원인 / 주소
SIEMENS AKTIENGESELLSCHAFT
인용정보
피인용 횟수 :
1인용 특허 :
9
초록▼
A mandrel (20, 30) defines a void geometry in a layup for a blade shell (73) via a rigid mandrel core (22, 32) and a plurality of expandable bladders (24A-F, 34A-F) attached adjacently to each other in sequence around a periphery of the core, forming an expandable outer cover on the mandrel. The bla
A mandrel (20, 30) defines a void geometry in a layup for a blade shell (73) via a rigid mandrel core (22, 32) and a plurality of expandable bladders (24A-F, 34A-F) attached adjacently to each other in sequence around a periphery of the core, forming an expandable outer cover on the mandrel. The bladders are controllably expandable (50, 50B, 60) individually or in proper subsets of all the bladders to adjust pressure distribution and mandrel position within the layup after closing a blade shell mold over the layup. The bladders may be transversely partitioned (104) at multiple spanwise (S) positions along the mandrel in order to define additional sets of adjustable bladders along the span of the mandrel.
대표청구항▼
1. An apparatus for fabrication of a blade, comprising; a plurality of expandable bladders adjacently attached around a periphery of a substantially rigid core as seen in a transverse sectional view thereof; anda control system that controls an expansion condition of the bladders individually or in
1. An apparatus for fabrication of a blade, comprising; a plurality of expandable bladders adjacently attached around a periphery of a substantially rigid core as seen in a transverse sectional view thereof; anda control system that controls an expansion condition of the bladders individually or in selectable proper subsets thereof;wherein the bladders are configured to provide outward force against an interior of a layup of a shell of the blade in a mold while the mold constrains an outer surface of the blade shell layup, wherein the rigid core has a hollow interior, and further comprising a resilient foam filling and expanding each of the bladders, wherein the control system comprises a gas valve that connects each bladder individually with the interior of the core, a vacuum source that evacuates the interior of the core for contracting the bladders via the gas valves, and an air inlet that communicates with the core interior allowing the bladders to expand by a rebound of the resilient foam therein. 2. The apparatus of claim 1, wherein the bladders are individually valved such that an expansion and a contraction of each bladder is individually controlled. 3. The apparatus of claim 1, wherein the bladders are valved and controlled such that an expansion gas cannot shift among them during a given stage of fabrication. 4. The apparatus of claim 1, wherein the rigid core comprises a forward mandrel core in the shell layup, and the plurality of expandable bladders comprises: a leading edge bladder;a suction side bladder;a forward suction side spar cap bladder;a bladder for a forward side of a spar webbing;a forward pressure side spar cap bladder; anda forward pressure side bladder. 5. The apparatus of claim 4, further comprising an aft mandrel core spaced aft of the forward mandrel core in the shell layup, wherein the aft mandrel core is covered by a second plurality of expandable bladders disposed around a periphery of the aft mandrel core as seen in a transverse sectional view thereof, and the second plurality of expandable bladders comprises: a bladder for an aft side of the spar webbing;an aft suction side spar cap bladder;a suction side bladder;a trailing edge bladder;an aft pressure side bladder; andan aft pressure side spar cap bladder. 6. The apparatus of claim 1, wherein the control system further comprises: a valve and a gas distribution tube for each bladder;a compressed air source for expanding the bladders via the distribution tubes; anda vacuum source for contracting the bladders via the distribution tubes. 7. An apparatus for fabrication of a blade, comprising; a plurality of expandable bladders adjacently attached around a periphery of a substantially rigid core as seen in a transverse sectional view thereof; anda control system that controls an expansion condition of the bladders individually or in selectable proper subsets thereof;wherein the bladders are configured to provide outward force against an interior of a layup of a shell of the blade in a mold while the mold constrains an outer surface of the blade shell layup comprising a rigid bridge plate spanning between adjacent ones of the bladders and defining respective portions of an interior surface of the blade shell. 8. An apparatus for fabrication of a blade, comprising; a forward mandrel and an aft mandrel, each mandrel being elongated spanwise and comprising a plurality of expandable bladders disposed around a periphery of a respective substantially rigid core of the respective mandrel as seen in a transverse section thereof, forming an expandable outer cover of the respective mandrel;the forward and aft mandrels configured to define respective forward and aft void geometries of a blade interior; anda control system that expands and contracts the expandable bladders individually or in selectable proper subsets thereof. 9. A blade fabrication method, comprising; providing an apparatus as in claim 8;placing a suction side fabric layup in a bottom half of a mold for a blade shell;placing the forward and aft mandrels on respective forward and aft sides of the suction side layup, wherein the mandrels are substantially parallel and are spaced chordwise from each other;positioning a spar webbing layup between the mandrels;expanding at least a proper subset of the bladders;placing a pressure side fabric layup on the mandrels;closing the mold over the pressure side fabric layup; andadjusting an expansion of the bladders individually or in selected proper subsets thereof to provide a predetermined distribution of pressure of the bladders on the blade shell during a curing thereof. 10. The apparatus of claim 8, wherein the rigid core has a hollow interior, and further comprising a resilient foam filling and expanding each of the bladders, wherein the control system comprises a gas valve that connects each bladder individually with the interior of the core, a vacuum source that evacuates the interior of the core for contracting the bladders via the gas valves, and an air inlet that communicates with the core interior allowing the bladders to expand by a rebound of the resilient foam therein. 11. The apparatus of claim 8, further comprising a rigid bridge plate spanning between adjacent ones of the bladders and defining respective portions of an interior surface of the blade shell. 12. The apparatus of claim 7, wherein the bladders are individually valved such that an expansion and a contraction of each bladder is individually controlled. 13. The apparatus of claim 7, wherein the bladders are valved and controlled such that an expansion gas cannot shift among them during a given stage of fabrication. 14. The apparatus of claim 7, wherein the rigid core comprises a forward mandrel core in the shell layup, and the plurality of expandable bladders comprises: a leading edge bladder;a suction side bladder;a forward suction side spar cap bladder;a bladder for a forward side of a spar webbing;a forward pressure side spar cap bladder; anda forward pressure side bladder. 15. The apparatus of claim 14, further comprising an aft mandrel core spaced aft of the forward mandrel core in the shell layup, wherein the aft mandrel core is covered by a second plurality of expandable bladders disposed around a periphery of the aft mandrel core as seen in a transverse sectional view thereof, and the second plurality of expandable bladders comprises: a bladder for an aft side of the spar webbing;an aft suction side spar cap bladder;a suction side bladder;a trailing edge bladder;an aft pressure side bladder; andan aft pressure side spar cap bladder. 16. The apparatus of claim 7, wherein the control system further comprises: a valve and a gas distribution tube for each bladder;a compressed air source for expanding the bladders via the distribution tubes; anda vacuum source for contracting the bladders via the distribution tubes.
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