Bilaterally asymmetric design for minimizing wave drag
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-023/04
B64C-030/00
B64D-027/18
B64D-029/02
B64D-007/00
B64C-003/00
F42B-010/38
B64C-003/10
B64C-005/00
B64D-001/02
B64C-001/26
B64C-007/02
출원번호
US-0628218
(2015-02-21)
등록번호
US-9522727
(2016-12-20)
발명자
/ 주소
Pflug, William
Tillotson, Brian J.
출원인 / 주소
The Boeing Company
인용정보
피인용 횟수 :
0인용 특허 :
15
초록▼
An air vehicle may include a body having forwardly-swept fixed wings or unswept fixed wings. The body may have a longitudinal axis continuously oriented parallel to a forward flight direction when the air vehicle is in flight. The air vehicle may include at least one of the following components bein
An air vehicle may include a body having forwardly-swept fixed wings or unswept fixed wings. The body may have a longitudinal axis continuously oriented parallel to a forward flight direction when the air vehicle is in flight. The air vehicle may include at least one of the following components being mounted on opposite sides of the body: longitudinally offset engine nacelles, asymmetrically lengthened engine nacelles, and longitudinally offset protruding aerodynamic surfaces comprising at least one of stabilizers, canards, empennage control surfaces, external stores, and high aspect ratio wings.
대표청구항▼
1. An air vehicle having a bilaterally asymmetric configuration, comprising: a body having forwardly-swept fixed wings or unswept fixed wings, the body having a longitudinal axis continuously oriented parallel to a forward flight direction when the air vehicle is in flight; andat least one of the fo
1. An air vehicle having a bilaterally asymmetric configuration, comprising: a body having forwardly-swept fixed wings or unswept fixed wings, the body having a longitudinal axis continuously oriented parallel to a forward flight direction when the air vehicle is in flight; andat least one of the following components being mounted on opposite sides of the body: longitudinally offset engine nacelles;asymmetrically lengthened engine nacelles; andlongitudinally offset protruding aerodynamic surfaces comprising at least one of stabilizers, canards, empennage control surfaces, external stores, and high aspect ratio wings. 2. The air vehicle of claim 1, wherein: the engine nacelles are wing-mounted. 3. The air vehicle of claim 1, wherein: an engine inlet of an aft nacelle is aft of the engine inlet of a forward nacelle and forward of a nozzle of the forward nacelle; andthe forward nacelle and the aft nacelle being either the longitudinally offset engine nacelles or the asymmetrically lengthened engine nacelles. 4. The air vehicle of claim 1, wherein: a region of decreasing cross-sectional area of a forward nacelle overlaps a region of increasing cross-sectional area of an aft nacelle; andthe forward nacelle and the aft nacelle being either the longitudinally offset engine nacelles or the asymmetrically lengthened engine nacelles. 5. The air vehicle of claim 1, wherein the asymmetrically lengthened engine nacelles comprise at least one of: a forward nacelle extension mounted to an engine nacelle on one side of the body; andan aft nacelle extension mounted to an engine nacelle on an opposite side of the body. 6. The air vehicle of claim 1, wherein: the air vehicle comprises an airplane. 7. The air vehicle of claim 1, wherein: the air vehicle comprises at least one of a missile, a rocket, and a space vehicle. 8. An air vehicle having a bilaterally asymmetric configuration, comprising: a body having fixed wings and a longitudinal axis continuously oriented parallel to a forward flight direction when the air vehicle is in flight;a forward nacelle and an aft nacelle mounted on opposite sides of the body; andan engine inlet of the aft nacelle being located aft of the engine inlet of the forward nacelle by no more than 20 percent of an engine length of the forward nacelle. 9. The air vehicle of claim 8, wherein: the engine inlet of the aft nacelle is located aft of the engine inlet of the forward nacelle by no more than 10 percent of the engine length of the forward nacelle. 10. A method of minimizing wave drag of an air vehicle, comprising the steps of: providing a body of an air vehicle having forwardly-swept fixed wings or unswept fixed wings, the body having a longitudinal axis continuously oriented parallel to a forward flight direction when the air vehicle is in flight; andlongitudinally offsetting at least one of the following components on opposite sides of the body: engine nacelles; andprotruding aerodynamic surfaces comprising at least one of stabilizers, canards, empennage control surfaces, external stores, and high aspect ratio wings. 11. The method of claim 10, wherein: the engine nacelles are wing-mounted. 12. The method of claim 10, wherein the step of longitudinally offsetting the engine nacelles comprises: locating an engine inlet of an aft nacelle aft of the engine inlet of a forward nacelle and forward of a nozzle of the forward nacelle. 13. The method of claim 10, wherein the step of longitudinally offsetting the engine nacelles comprises: overlapping a region of decreasing cross-sectional area of a forward nacelle with a region of increasing cross-sectional area of an aft nacelle. 14. The method of claim 10, wherein the step of longitudinally offsetting the engine nacelles comprises at least one of: adding a forward nacelle extension to an engine nacelle on one side of the body of an existing air vehicle; andadding an aft nacelle extension to an engine nacelle on an opposite side of the body of the existing air vehicle. 15. The method of claim 10, wherein the step of longitudinally offsetting the stabilizers comprises: longitudinally offsetting at least one of horizontal stabilizers and vertical stabilizers. 16. The method of claim 10, wherein the step of longitudinally offsetting the external stores comprises: mounting external stores in a bilaterally symmetrical manner on opposite sides of the body; andreleasing an external store on one side of the body prior to releasing an external store on an opposite side of the body. 17. The method of claim 16 wherein at least one of the external stores comprises at least one of: a missile, a bomb, and a fuel pod. 18. The method of claim 10, wherein: the air vehicle comprises an airplane. 19. A method of minimizing wave drag of an air vehicle, comprising the steps of: providing a body having fixed wings and a longitudinal axis continuously oriented parallel to a forward flight direction when the air vehicle is in flight;mounting a forward nacelle and an aft nacelle on opposite sides of the body; andlocating an engine inlet of the aft nacelle aft of the engine inlet of the forward nacelle by no more than 20 percent of an engine length of the forward nacelle. 20. The method of claim 19, wherein the step of locating the engine inlet comprises: locating the engine inlet of the aft nacelle aft of the engine inlet of the forward nacelle by no more than 10 percent of the engine length of the forward nacelle.
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이 특허에 인용된 특허 (15)
Ciminera Victor R. (Farmingville NY) Hendrickson Ronald H. (Massapequa NY), Adjustable airplane appendages for wave drag reduction.
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MacConochie Ian O. (Yorktown VA) Briener Charles A. (Hampton VA), Two-stage earth-to-orbit transport with translating oblique wings for booster recovery.
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