Structural Arrangement and Method of Fabricating a Composite Trailing Edge Control Surface

Abstract

A composite trailing edge control surface includes a contiguous one-piece composite control surface skin wrapped around a plurality of stiffening cores, a plurality of hinge fittings, and a plurality of substantially parallel ribs. The contiguous one-piece composite control surface skin provides a control surface on opposing sides of the trailing edge control surface and substantially distributes bending, shear and torsion loads of the trailing edge control surface to the plurality of hinge fittings and the plurality of substantially parallel ribs. A method of manufacturing the trailing edge control surface includes positioning a contiguous one-piece composite control surface skin on a substantially flat tool. A plurality of stiffener cores having a plurality of thin covering skins are positioned on the contiguous one-piece composite control surface skin and are cured to create a laminate sandwich composite structure skin that is trimmed and has fastener apertures and hinge fitting access apertures provided there-through.

Claims

1. A composite trailing edge control surface comprising: a contiguous one-piece composite control surface skin; a plurality of stiffening cores bonded to the contiguous one-piece composite control surface skin; a plurality of hinge fittings fastened to the contiguous one-piece composite control surface skin; and a plurality of substantially parallel ribs fastened to the contiguous one-piece composite control surface skin, wherein the contiguous one-piece composite control surface skin being enclosed around the plurality of stiffening cores, and wrapped around the plurality of hinge fittings and the plurality of substantially parallel ribs provides a control surface on opposing sides of the composite trailing edge control surface and substantially distributes bending, shear and torsion loads of the composite trailing edge control surface to the plurality of hinge fittings and the plurality of substantially parallel ribs.

2. The composite trailing edge control surface of claim 1, wherein the contiguous one-piece composite control surface skin comprises a solid laminate of a plurality of plies of carbon fiber material.

3. The composite trailing edge control surface of claim 1, wherein the contiguous one-piece composite control surface skin comprises a plurality of access apertures that provide access through the contiguous one-piece composite control surface skin to the plurality of hinge fittings.

4. The composite trailing edge control surface of claim 1, wherein at least one hinge fitting of the plurality of hinge fittings may be connected to a first end of one of the plurality of ribs.

5. The composite trailing edge control surface of claim 1, wherein the plurality of stiffening cores comprises honeycomb stiffening cores laminated with a thin covering skin of carbon fiber material.

6. The composite trailing edge control surface of claim 1, wherein the plurality of stiffening cores may be disposed between each of the plurality of ribs on the contiguous one-piece composite control surface skin.

7. The composite trailing edge control surface of claim 1, wherein the contiguous one-piece composite control surface skin is curved at a first end and joined to itself at a second end.

8. The composite trailing edge control surface of claim 7, further comprising an axis of rotation of the composite trailing edge control surface being located at the first end and substantially through each of the plurality of hinge fittings.

9-20. (canceled)

21. A composite trailing edge control surface comprising: a contiguous one-piece composite control surface skin; a plurality of stiffening cores bonded to the contiguous one-piece composite control surface skin; a plurality of thin covering skins on each of the plurality of stiffening cores to create a laminate sandwich composite structure skin; fastener apertures and hinge fitting access apertures extending through the laminate sandwich composite structure skin; a plurality of hinge fittings attached to the laminate sandwich composite structure skin via the fastener apertures proximate the hinge fitting access apertures; and a plurality of substantially parallel ribs attached to the laminate sandwich composite structure skin via the fastener apertures; wherein a first end of the laminate sandwich composite structure skin is fastened onto a second end of the laminate sandwich composite structure skin so that the contiguous one-piece composite control surface skin encloses the plurality of stiffening cores and is wrapped around the plurality of hinge fittings and the plurality of substantially parallel ribs, the contiguous one-piece composite control surface skin providing a control surface on opposing sides of the composite trailing edge control surface and substantially distributes bending, shear and torsion loads of the composite trailing edge control surface to the plurality of hinge fittings and the plurality of substantially parallel ribs.

22. The composite trailing edge control surface of claim 21, in which at least one of the plurality of hinge fittings is fastened to a first end of at least one of the plurality of substantially parallel ribs.

23. The composite trailing edge control surface of claim 21, in which the first end of the laminate sandwich composite structure skin is glued to the second end of the laminate sandwich composite structure skin.

24. The composite trailing edge control surface of claim 21, in which the laminate sandwich composite structure skin comprises a curved portion at a first end of the composite trailing edge control surface and a joined portion at a second end of the composite trailing edge control surface, the joined portion having two oppositely disposed edges of the laminate sandwich composite structure skin joined to themselves.

25. The composite trailing edge control surface of claim 21, further comprising mechanical fasteners extending through the fastener apertures and the hinge fitting access apertures.

26. A composite trailing edge control surface, comprising: a contiguous one-piece composite control surface skin; a plurality of stiffener cores positioned on the contiguous one-piece composite control surface skin; a corresponding plurality of thin covering skins positioned on each of the plurality of stiffener cores to create a laminate sandwich composite structure skin; fastener apertures extending through the laminate sandwich composite structure skin; a plurality of substantially parallel ribs attached to the laminate sandwich composite structure skin via the fastener apertures; wherein a first end of the laminate sandwich composite structure skin is wrapped onto and joined to a second end of the laminate sandwich composite structure skin.

27. The composite trailing edge control surface of claim 26, further comprising hinge fitting access apertures extending through the laminate sandwich composite structure skin.

28. The composite trailing edge control surface of claim 27, further comprising a plurality of hinge fittings attached to the laminate sandwich composite structure skin proximate the hinge fitting access apertures.

29. The composite trailing edge control surface of claim 28, in which at least one of the plurality of hinge fittings is joined to a first end of at least one of the plurality of substantially parallel ribs.

30. The composite trailing edge control surface of claim 29, further comprising mechanical fasteners extending through the fastener apertures and the hinge fitting access apertures and joining the laminate sandwich composite structure skin to the plurality of substantially parallel ribs and the plurality of hinge fittings.

31. The composite trailing edge control surface of claim 26, in which the laminate sandwich composite structure skin comprises a curved portion at a first end of the composite trailing edge control surface and a joined portion at a second end of the composite trailing edge control surface, the joined portion having two oppositely disposed edges of the laminate sandwich composite structure skin joined to themselves.

32. The composite trailing edge control surface of claim 26, in which the first end of the laminate sandwich composite structure skin is glued to the second end of the laminate sandwich composite structure skin.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] The embodiments presented herein will become more fully understood from the detailed description and the accompanying drawings, wherein:

[0012] FIG. 1 illustrates an aircraft that demonstrates the context and application of the embodiments disclosed herein directed to a trailing edge control surface;

[0013] FIG. 2 illustrates one embodiment of providing a contiguous one-piece composite control surface skin on a substantially flat tool according to at least one embodiment disclosed herein;

[0014] FIG. 3 illustrates one embodiment of the contiguous one-piece composite control surface skin receiving a number of fastener and access apertures there-through according to at least one embodiment disclosed herein;

[0015] FIG. 4 illustrates one embodiment of the contiguous one-piece composite control surface skin receiving a number of stiffening cores according to at least one embodiment disclosed herein;

[0016] FIG. 5 illustrates one embodiment of the contiguous one-piece composite control surface skin receiving a number of hinge fittings and a number of substantially parallel ribs according to at least one embodiment disclosed herein;

[0017] FIG. 6 illustrates one embodiment of the contiguous one-piece composite control surface skin and the number of stiffening cores being folded upon itself according to at least one embodiment disclosed herein;

[0018] FIG. 7 illustrates one embodiment of the assembled trailing edge control surface according to at least one embodiment disclosed herein;

[0019] FIG. 8 illustrates one embodiment of a first method of fabricating a trailing edge control surface according to at least one embodiment disclosed herein; and

[0020] FIG. 9 illustrates one embodiment of a second method of fabricating a trailing edge control surface according to at least one embodiment disclosed herein.

DETAILED DESCRIPTION

[0021] The following detailed description is directed to methods of fabricating a trailing edge control surface and the assembled trailing edge control surface created by those methods.

[0022] FIG. 2 illustrates one embodiment of providing a contiguous one-piece composite control surface skin 200 on a substantially flat tool 100 that requires no contour features. The substantially flat tool 100 so configured could be shared to make other production parts on its surface. The control surface skin 200 may include a solid laminate made from of a number of plies of carbon fiber material regions of skin over core creating a sandwich structure and may also have regions with no core. The control surface skin 200 may be in an un-cut blank form (not shown), or in a rough trimmed or finally trimmed configuration as shown in FIG. 2.

[0023] FIG. 3 illustrates one embodiment of the contiguous one-piece composite control surface skin 200 receiving a number of fastener and access apertures there-through. While the control surface skin 200 lies on the flat tool 100, any number of apertures used for fasteners or access may be cut therein. A computer numerical control (CNC) cutting system or equivalent may be used to quickly and precisely cut these apertures in the control surface skin 200. For example, an upper access aperture 210A, an upper-middle access aperture 210B, a middle access aperture 210C and a lower access aperture 210D may be cut out from the control surface skin 200 along the line of symmetry 202 of the control surface skin 200. These access apertures 210A-210D allow access to hinge fittings after the control surface skin is wrapped around itself to produce the final assembled form of the trailing edge control surface.

[0024] Trailing edge fastener apertures 220 may be made along both the sides of the control surface skin 200 at a trailing edge. These trailing edge fastener apertures 220 will be fastened to each other when the control surface skin 200 is folded along the line of symmetry 202 and then fastened together. Upper and lower rib fastener apertures 230 may be made along the upper and lower edges of the control surface skin 200 to be fastened to corresponding rib structures at the upper and lower respective ends of the control surface skin (shown in FIGS. 5-6). Internal rib fastener apertures 240 may be positioned symmetrically along the line of symmetry 202 of the control surface skin 200 to be fastened to corresponding rib structures within the control surface skin 200 when folded along the line of symmetry 202. Access opening fastener apertures 250 may be positioned around the access apertures 210A-210D opposite the line of symmetry 202 of the control surface skin 200 to fasten hinge fittings and adjoining ribs to the control surface skin 200.

[0025] FIG. 4 illustrates one embodiment of the contiguous one-piece composite control surface skin 200 receiving a number of stiffening cores. Honeycomb stiffening cores 300 (generally) may be disposed between the trailing edge fastener apertures 220, the upper and lower rib fastener apertures 230, the internal rib fastener apertures 240, and the access opening fastener apertures 250. These honeycomb stiffening cores 300 may be oriented so that the honeycomb structure is oriented normal to the surface of the control surface skin 200. The honeycomb stiffening core may also include a thin skin of carbon fiber material bonded thereto to create a sandwich structure. to reinforce the control surface skin 200 against loads acting thereupon (e.g. lateral loads). For example, an upper left honeycomb stiffening core 300A-L may be disposed opposite the line of symmetry 202 from an upper right honeycomb stiffening core 300A-R; an upper-middle left honeycomb stiffening core 300B-L may be disposed opposite the line of symmetry 202 from an upper-middle right honeycomb stiffening core 300B-R; a middle left honeycomb stiffening core 300C-L may be disposed opposite the line of symmetry 202 from a middle right honeycomb stiffening core 300C-R; and a lower left honeycomb stiffening core 300D-L may be disposed opposite the line of symmetry 202 from a lower right honeycomb stiffening core 300D-R.

[0026] FIG. 5 illustrates one embodiment of the contiguous one-piece composite control surface skin receiving a number of hinge fittings 400A-400D and a number of substantially parallel ribs 500A-500E. Each hinge fitting 400A-400D comprises a number of fitting hardware mounted to a longitudinal support structure. The hinge fittings 400A-400D may be each disposed proximate the respective access apertures 210A-210D and may be connected to the control surface skin 200 via access opening fastener apertures 250 as illustrated in FIG. 3. For example, the upper hinge fitting 400A may be disposed proximate the upper access aperture 210A; the upper-middle hinge fitting 400B may be disposed proximate the upper-middle access aperture 210B; middle hinge fitting 400C may be disposed proximate the middle access aperture 210C; and, the lower hinge fitting 400D may be disposed proximate the lower access aperture 210D.

[0027] Each of the ribs 500A-500E includes a tapered section that tapers to the trailing edge of the control surface skin 200. The ribs 500A-500E may be each disposed proximate the respective upper and lower rib fastener apertures 230, as illustrated in FIG. 3, and internal rib fastener apertures 240 wherein they may be connected to the control surface skin 200. For example, the upper rib 500A and the lower rib 500E may be connected to the control surface skin 200 via the upper and lower rib fastener apertures 230, and the upper-middle rib 500B, the first middle rib 500C and the second middle rib 500D may be connected to control surface skin 200 via the internal rib fastener apertures 240.

[0028] FIG. 6 illustrates one embodiment of the contiguous one-piece composite control surface skin 200 and the number of stiffening cores 300 (generally) being folded upon itself along the line of symmetry 202 of the control surface skin 200. FIG. 6 additionally illustrates that at least one hinge fitting, for example, 400C of the number of hinge fittings may be connected to a first end of one of the number of ribs, for example 500C and 500D, and likewise upper-middle hinge fitting 400B connected to upper-middle rib 500B. In another exemplary instance, hinge fittings 400A and 400D may not be connected to any of the number of ribs 500A-500E and may be structurally supported on the control surface skin 200 by fasteners through their respective access opening fastener apertures 250. FIG. 6 additionally illustrates in hinge fittings 400A-400D, an access hole 410, (see upper end of middle hinge fitting 400C, although access holes 410 may be in each distal end of the hinge fittings 400A-400D), a number of hinge bores 420, and an actuator fitting bore 430 (shown in middle hinge fitting 400C).

[0029] FIG. 7 illustrates one embodiment of the assembled composite trailing edge control surface 600 having the control surface skin being wrapped around the ribs 500A-500E (as shown in FIGS. 5-6), and having the hinge fittings 400A-400D visible through the respective access apertures 210A-210D. A centerline of rotation 650 passes through receiving elements on the hinge fittings 400A-400D to receive corresponding actuation control hardware from the aircraft control system to rotate the assembled composite trailing edge control surface 600 about the centerline of rotation 650.

[0030] In summary, a composite trailing edge control surface 600 may include a contiguous one-piece composite control surface skin 200, a number of stiffening cores 300A-300D, a number of hinge fittings 400A-400D, and a number of substantially parallel ribs 500A-500E. The control surface skin 200 may include a solid laminate of a number of plies of carbon fiber material, and may include a number of access apertures 210A-210D that provide access through the control surface skin 200 to the number of hinge fittings 400A-400D. At least one hinge fitting, for example 400B, of the number of hinge fittings 400A-400D may be connected to a first end of one of the number of ribs 500A-500E, for example 500B. The number of stiffening cores 300A-300D comprises honeycomb stiffening cores laminated with a thin covering skin of carbon fiber material and may be disposed between each of the number of ribs 500A-500E on the control surface skin 200. The control surface skin 200 may be curved at a first end and joined to itself at a second end, and a centerline of rotation 650 of the composite trailing edge control surface may be located at the first end and through each of the number of hinge fittings 400A-400D.

[0031] FIG. 8 illustrates one embodiment of a first method of fabricating a trailing edge control surface including positioning 800 a contiguous one-piece composite control surface skin 200 on a substantially flat tool, positioning 802 a number of stiffener cores 300A-300D on the control surface skin 200, positioning 804 a corresponding number of thin covering skins on each of the number of stiffener cores 300A-300D, and curing 806 the contiguous one-piece composite control surface skin 200, the number of stiffener cores 300A-300D and the corresponding number of thin covering skins to create a laminate sandwich composite structure skin 350. The laminate sandwich composite structure skin 350 may be trimmed 808, and fastener apertures 220-250 and hinge fitting access apertures 210A-210D may be provided 810 through the laminate sandwich composite structure skin 350.

[0032] A number of hinge fittings 400A-400D may be provided 812 where the number of hinge fittings may be attached to the laminate sandwich composite structure skin 350 via the fastener apertures 220-250 proximate the hinge fitting access apertures 210A-210D. A number of ribs 500A-500E may be provided 814 that may be oriented substantially parallel with respect to each other and attaching the number of ribs 500A-500E to the laminate sandwich composite structure skin 350 via the fastener apertures 220-250.

[0033] At least one of the number of hinge fittings 400A-400D may be fastened to a first end 510 of at least one of the number of ribs 500A-500E. The first end 510 may be opposite a distal end 520 of the at least one of the number of ribs 500A-500E. A first end 360 of the laminate sandwich composite structure skin 350 may be wrapped or folded onto a second end 370 of the laminate sandwich composite structure skin 350, and the first end 360 may be glued with any suitable adhesive, (e.g., a strip film adhesive which is cut from a roll or a liquid adhesive that is applied with a caulking gun), to the second end 370 of the laminate sandwich composite structure skin 350. Liquid adhesives used to glue the first 360 and second 370 ends may be mixed from two parts and are frequently cured at room temperature. A film adhesive may be utilized that is applied from a roll and may be stored in a freezer until it is applied. These adhesives may be cured with a heat source such as heat blanket or in an oven. The first end 360 may be fastened to the second end 370 of the laminate sandwich composite structure skin 350.

[0034] FIG. 9 illustrates one embodiment of a second method of fabricating a trailing edge control surface including positioning 900 a contiguous one-piece composite control surface skin 200 on a substantially flat tool 100, providing 902 fastener apertures 220-250 and hinge fitting access apertures 210A-210D through the control surface skin 200, positioning 904 a number of stiffener cores 300A-300D and a corresponding number of thin covering skins over each of the number of stiffener cores 300A-300D on the control surface skin 200 between sections of fastener apertures 220-250, and thereafter, curing 906 the contiguous one-piece composite control surface skin 200, the number of stiffener cores 300A-300D and the corresponding number of thin covering skins to create a laminate sandwich composite structure skin 350.

[0035] The laminate sandwich composite structure skin 350 may be removed 908 from the substantially flat tool 100, and the laminate sandwich composite structure skin 350 may be folded 910 to envelope a number of ribs 500A-500E and a number of hinge fittings 400A-400D. After folding, the laminate sandwich composite structure skin 350 may be partially joined 912 to the number of ribs 500A-500E and the number of hinge fittings 400A-400D. The number of hinge fittings 400A-400D may then be aligned 914, and the laminate sandwich composite structure skin 350 may then be permanently joined to the number of ribs 500A-500E and the number of hinge fittings 400A-400D.

[0036] Partially joining the laminate sandwich composite structure skin 350 to the number of ribs 500A-500E and the number of hinge fittings 400A-400D may further include applying any suitable type of sealant, (e.g., usually a viscous liquid sealant mixed from two parts typically cured at room temperature, such as polysulfone), to all adjoining interfaces of the laminate sandwich composite structure skin 350 with the number of ribs 500A-500E and the number of hinge fittings 400A-400D.

[0037] Folding the laminate sandwich composite structure skin 350 may further include providing a curved portion of the laminate sandwich composite structure skin 350 at a first end 360 of the composite trailing edge control surface 600, and a joined portion of the laminate sandwich composite structure skin 350 at a second end 370 of the composite trailing edge control surface 600, the joined portion having two oppositely disposed edges of the laminate sandwich composite structure skin 350 joined to themselves.

[0038] Aligning the number of hinge fittings 400A-400D may further include providing a centerline of rotation 650 of the composite trailing edge control surface 600 being located at the first end 360 and through each of the number of hinge fittings 400A-400D.

[0039] The method of manufacturing a trailing edge control surface may further include providing a number of access apertures 210A-210D in the laminate sandwich composite structure skin 350 that provide access through the control surface skin 200 to the number of hinge fittings 400A-400D.

[0040] Permanently joining the laminate sandwich composite structure skin 350 to the number of ribs 500A-500E and the number of hinge fittings 400A-400D may further include providing mechanical fasteners through the number of fastener apertures 220-250 of the laminate sandwich composite structure skin 350 into the number of ribs 500A-500E and the number of hinge fittings 400A-400D.

[0041] The above presented embodiments enable pre-drilling of fastening holes into the monolithic composite control surface skin before it is assembled with its respective internal parts and sub-assemblies, e.g., the hinge fittings and ribs, which provides a simpler, more cost effective and flexible system of fabricating trailing edge control surfaces thereby eliminating the cost and manufacturing resources required to build and maintain fastening hole drilling jigs used on finally assembled control surfaces.

[0042] The above presented embodiments also eliminate the need for a spar element conventionally enclosed between two skins of a control surface, for example, as typically configured at element 82 in the illustration of FIG. 1. Since the monolithic composite control surface skin 200 is wrapped around the internal hinge fittings 400A-400D and ribs 500A-500E, the control surface skin 200 forms a closed torsion cell that substantially carries all the bending, shear and torsion loads traditionally carried by a spar element, for example spar 82 conventionally internally configured within a horizontal or vertical control surface.

[0043] The subject matter described above is provided by way of illustration only and should not be construed as limiting. Various modifications and changes may be made to the subject matter described herein without following the example embodiments and applications illustrated and described, and without departing from the true spirit and scope of the present disclosure, which is set forth in the following claims.