Systems and methods according to one or more embodiments are provided for a Krueger flap assembly with dual Krueger seal assemblies. In certain embodiments, the dual Krueger seal assemblies may seal a space between a Krueger flap main body and an aircraft engine. Further seals may be provided to sea
Systems and methods according to one or more embodiments are provided for a Krueger flap assembly with dual Krueger seal assemblies. In certain embodiments, the dual Krueger seal assemblies may seal a space between a Krueger flap main body and an aircraft engine. Further seals may be provided to seal any gaps between the dual Krueger seal assemblies. In certain embodiments, one or both of the dual Krueger seal assemblies may include centrally grounded springs. The dual Krueger seal assemblies may include a plurality of springs supporting each Krueger seal assembly.
대표청구항▼
1. An apparatus comprising: a Krueger flap main body configured to be movably coupled to a leading edge of an aircraft wing;a first Krueger seal assembly hinged to the Krueger flap main body, the first Krueger seal assembly comprising a first seal assembly body and one or more first seal assembly sp
1. An apparatus comprising: a Krueger flap main body configured to be movably coupled to a leading edge of an aircraft wing;a first Krueger seal assembly hinged to the Krueger flap main body, the first Krueger seal assembly comprising a first seal assembly body and one or more first seal assembly springs, the first seal assembly springs configured to bias the first Krueger seal assembly away from the Krueger flap main body;a second Krueger seal assembly hinged to the Krueger flap main body adjacent to the first Krueger seal assembly, the second Krueger seal assembly comprising a second seal assembly body and one or more second seal assembly springs, the second seal assembly springs configured to bias the second Krueger seal assembly away from the Krueger flap main body; anda seal member coupled to at least one of the first or second Krueger seal assemblies and configured to seal, at least partly, a gap between the first Krueger seal assembly and the second Krueger seal assembly. 2. The apparatus of claim 1, wherein: the second Krueger seal assembly comprises a plurality of second seal assembly springs;each second seal assembly spring comprises an outboard end and an inboard end;the outboard end is mechanically connected to the Krueger flap main body; andthe inboard end is mechanically connected to the second seal assembly body. 3. The apparatus of claim 2, wherein: the second seal assembly body comprises a first rib, a second rib, and a third rib;the second Krueger seal assembly is hinged to the Krueger flap main body via at least the first rib and the third rib;the second rib comprises a stop fitting; andthe inboard end of the second seal assembly springs is mechanically connected to the stop fitting. 4. The apparatus of claim 2, wherein: the second seal assembly body comprises at least a middle rib;the second Krueger seal assembly is hinged to the Krueger flap main body via at least the middle rib;the middle rib comprises a stop fitting; andthe inboard end of the second seal assembly springs is mechanically connected to the stop fitting. 5. The apparatus of claim 1, wherein the first seal assembly springs and the second seal assembly springs are springs with substantially a same spring rate and spring length. 6. The apparatus of claim 1, wherein the first seal assembly springs are mechanically connected to a back side of the first seal assembly body and a front side of the first seal assembly body comprises a striker plate configured to contact a deflector on a thrust reverser. 7. The apparatus of claim 1, wherein the second seal assembly springs are mechanically connected to a back side of the second seal assembly body and a front side of the second seal assembly body comprises a striker plate configured to contact a deflector on a thrust reverser. 8. The apparatus of claim 1, wherein each of the first seal assembly springs and the second seal assembly springs have spring rates below 144.5 lb/in. 9. An aircraft comprising the apparatus of claim 1, wherein the apparatus is a Krueger flap assembly, and wherein the aircraft comprises: a fuselage;the aircraft wing attached to the fuselage; andan engine attached to the aircraft wing, the engine including a nacelle and a thrust reverser, wherein: the Krueger flap main body is movably coupled to the leading edge of the aircraft wing and configured to rotate out in front of the aircraft wing leading edge,the first Krueger seal assembly is configured to at least partly seal a gap between the Krueger flap main body and the nacelle when the Krueger flap main body is rotated out in front of the aircraft wing leading edge, andthe second Krueger seal assembly is configured to at least partly seal the gap between the Krueger flap main body and the nacelle when the Krueger flap main body is rotated out in front of the aircraft wing leading edge. 10. The aircraft of claim 9, wherein: the Krueger flap main body is movably coupled to the leading edge of an aircraft wing along a hingeline;the first seal assembly springs are mechanically connected to a back side of the first seal assembly body and a front side of the first seal assembly body includes a first seal assembly striker plate configured to contact at least a part of the thrust reverser; andthe second seal assembly springs are mechanically connected to a back side of the second seal assembly body and a front side of the second seal assembly body includes a second seal assembly striker plate configured to contact at least a part of the thrust reverser. 11. The aircraft of claim 10, wherein the thrust reverser is configured to: translate towards the Krueger flap assembly; andcontact the first seal assembly striker plate and/or the second seal assembly striker plate; andbias, towards the Krueger flap main body, the first Krueger seal assembly and/or the second Krueger seal assembly. 12. The aircraft of claim 10, wherein the thrust reverser includes at least one deflector configured to contact at least one of the first seal assembly striker plate and/or the second seal assembly striker plate. 13. A method comprising: rotating a Krueger flap main body in front of a leading edge of an aircraft wing;biasing a first Krueger seal assembly away from the Krueger flap main body;biasing a second Krueger seal assembly away from the Krueger flap main body;substantially sealing, with the first and second Krueger seal assemblies, a gap between the Krueger flap main body and a nacelle of an engine; andsubstantially sealing, with a seal member, a gap between the first Krueger seal assembly and the second Krueger seal assembly. 14. The method of claim 13, wherein the second Krueger seal assembly is biased away from the Krueger flap main body through a plurality of seal assembly springs grounded to the second Krueger seal assembly. 15. The method of claim 13, further comprising: translating a thrust reverser of the engine towards at least one of the first Krueger seal assembly and the second Krueger seal assembly; andcontacting, with the thrust reverser, at least one of the first Krueger seal assembly and the second Krueger seal assembly; andbiasing at least one of the first Krueger seal assembly and the second Krueger seal assembly towards the Krueger flap main body. 16. A method comprising: receiving a Krueger flap assembly comprising: a Krueger flap main body,a flap hinge with a first end mechanically connected to the Krueger flap main body and a second end,a first Krueger seal assembly hinged to the Krueger flap main body,a second Krueger seal assembly hinged to the Krueger flap main body adjacent to the first Krueger seal assembly, anda seal member coupled to at least one of the first or second Krueger seal assemblies;attaching the second end of the flap hinge to a wing hinge located on a leading edge of an aircraft wing;attaching a first end of an actuator to the aircraft wing; andattaching a second end of the actuator to the Krueger flap main body. 17. The method of claim 16, further comprising inserting a fastener into attachment features on the second end of the flap hinge and the wing hinge to couple the flap hinge to the wing hinge. 18. The method of claim 16, wherein attaching the first end of the actuator to the aircraft wing comprises: attaching the first end to a wing actuator hinge located on the aircraft wing; andattaching the second end to a Krueger flap actuator hinge located on the Krueger flap main body. 19. The method of claim 16, wherein the Krueger flap assembly further comprises a drive linkage with a first drive linkage end mechanically connected to the Krueger flap main body and a second drive linkage end, and wherein the method further comprises attaching the second drive linkage end to a wing linkage hinge located on the aircraft wing. 20. The method of claim 19, further comprising inserting a fastener into attachment features on the second drive linkage end of the drive linkage and the wing linkage hinge to couple the drive linkage to the wing linkage hinge.
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Peter May DE, Aircraft airfoil with close-mounted engine and leading edge high lift system.
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