Assembly Comprising a Nacelle Panel and a Member Forming a Ball

Abstract

An assembly including a nacelle panel of an aircraft engine, the nacelle panel including an outer skin, an inner skin and a central layer interposed between the outer skin and the inner skin, and the nacelle panel having a free inner enclosure contiguous with the outer skin, and a member forming a link including one or more degrees of freedom, the member being attached to the nacelle panel solely by one or both of the outer skin and the inner skin, and the member extending facing the free inner enclosure.

Claims

1. An assembly comprising: a nacelle panel of an aircraft engine, the nacelle panel comprising an outer skin, an inner skin and a central layer interposed between the outer skin and the inner skin, and the nacelle panel having a free inner enclosure contiguous with the outer skin; and a member forming a link comprising at least one degree of freedom, the member being attached to the nacelle panel solely by at least one of the outer skin and the inner skin, and the member extending facing the free inner enclosure.

2. The assembly as claimed in claim 1, wherein the nacelle panel comprises a box defining the free inner enclosure.

3. The assembly as claimed in claim 1, wherein at least one of the outer skin and the inner skin comprises a reinforcement contiguous with the member, the reinforcement having a surface area smaller than a surface area of the at least one of the outer skin and the inner skin.

4. The assembly as claimed in claim 3, wherein the reinforcement is made of metal or of composite material.

5. The assembly as claimed in claim 1, wherein the member is attached to the nacelle panel solely by the outer skin.

6. The assembly as claimed in claim 1, wherein the member is attached to the nacelle panel by the outer skin and the inner skin.

7. The assembly as claimed in claim 1, comprising an intermediate support linking the member to one of the outer skin and the inner skin.

8. The assembly as claimed in claim 1, wherein the member comprises a fork and a pivot.

9. The assembly as claimed in claim 1, comprising an operating actuator attached to the member.

10. The assembly as claimed in claim 9, wherein the operating actuator is an operating actuator of a thrust reverser.

11. The assembly as claimed in claim 1, wherein the outer skin has an opening which opens into the free inner enclosure and extends entirely at a distance from the member.

12. The assembly as claimed in claim 1, wherein the central layer is made of a honeycomb.

13. The assembly as claimed in claim 1, wherein the link is a ball joint.

14. An aircraft engine comprising a thrust reverser and an assembly as claimed in claim 1.

15. A method for manufacturing an assembly for a nacelle of an aircraft engine, the method comprising: producing a panel comprising an outer skin, an inner skin and a central layer interposed between the outer skin and the inner skin, the panel having an inner enclosure contiguous with the outer skin; and attaching a member to the panel solely by at least one of the outer skin and the inner skin, the member forming a link comprising at least one degree of freedom and extending facing the inner enclosure, the panel and the member forming the assembly for the nacelle of the aircraft engine.

16. The method as claimed in claim 15, comprising producing in the outer skin an opening which opens into the inner enclosure and which is configured such that the opening extends entirely at a distance from the member.

17. The method as claimed in claim 15, comprising installing in the central layer a box configured to form the inner enclosure.

18. The method as claimed in claim 17, comprising producing the box by additive manufacturing.

19. The method as claimed in claim 15, comprising: during the producing of the panel, placing layers of a composite material around a core, baking the panel, and removing the core from the panel after the baking.

20. The method as claimed in claim 19, comprising covering the core with a mold release agent.

21. The method as claimed in claim 15, comprising placing: main composite material layers configured to form at least one of the outer skin and the inner skins, and reinforcing composite material layers having a surface area which is reduced in relation to a surface area of the main composite material layers and configured to be contiguous with the member.

22. The method as claimed in claim 15, comprising, after the baking, attaching a reinforcement to the panel.

23. The method as claimed in claim 22, wherein the attaching is made mechanically or by bonding.

24. A method for manufacturing an aircraft engine, the method comprising: performing the method of claim 15, assembling the assembly to the nacelle, and assembling the nacelle to the aircraft engine.

Description

DESCRIPTION OF THE FIGURES

[0047] Embodiments of the invention will now be presented by way of non-limiting example with reference to the drawings wherein:

[0048] FIG. 1 is a perspective view of an aircraft engine according to a first embodiment of the invention;

[0049] FIGS. 2 and 3 are perspective and section views of an assembly according to the invention equipping this engine;

[0050] FIG. 4 is a view of the outer skin of the assembly of FIG. 2, and

[0051] FIGS. 5 to 11 are section views showing other embodiments of the assembly according to the invention.

[0052] FIG. 1 illustrates an aircraft engine 2 according to the invention forming in this case an airplane turbojet engine. Here this is a twin spool bypass turbomachine. The turbomachine comprises a rotor 4 and a stator 6 and has a main axis X-X which serves as axis of rotation of the rotor with respect to the stator.

[0053] The engine 2 particularly comprises a fan 8, one or more compressors, a combustion chamber and one or more (non-illustrated) turbines. These elements, with the exception of the fan 8, belong to a central part of the engine. Their parts movable in rotation about the axis X-X form the rotor. They define a main air flow path.

[0054] A nacelle 10 surrounds the fan 8 in such a way as to form a fan compartment and to define a secondary air flow path. The nacelle comprises a reverser particularly including one or more translating cowls mounted movably with respect to the stator 6 and making it possible to reverse a thrust supplied by the motor after the landing during the taxiing to slow down the airplane.

[0055] The attachment to the stator of an actuator used to actuate one of the translating cowls will now be addressed.

[0056] The engine 2 is equipped with an assembly according to the invention comprising a nacelle panel 12 rigidly attached to the stator. The panel 12 is an acoustic inner panel, and has a sandwich structure known per se and formed by an inner skin 14, an outer skin 16 and a central layer 18, for example made of honeycomb, interposed between the outer and inner skins. The two skins are locally parallel to one another and cover opposite faces of the honeycomb layer. These three layers form a rigid stack. The skins 14 and 16 are made of composite material and comprise fibers sunk into a synthetic material matrix. The outer skin 16 is further from the axis X-X than the inner skin 14.

[0057] The panel 12 has an inner enclosure 20 contiguous with the outer skin 16. This enclosure is free, in other words entirely filled with air, i.e. free of any material. In this case, the panel comprises a box 22 defining the enclosure 20. The enclosure 20 is contiguous with the outer skin 16. In this case it has a generally parallelepipedal shape. It has two main faces, upper 24 and lower 26, respectively contiguous with the outer 16 and inner 14 skins in this example.

[0058] The assembly also comprises a member 28 forming a link comprising at least one degree of freedom, in this case a ball joint, attached in this embodiment solely to the outer skin 16 and extending facing the enclosure 20, as illustrated particularly in FIG. 3. This member here comprises a bush 30 having a spherical outer wall and a cylindrical inner wall giving a general olive shape.

[0059] The outer skin 16 comprises a cylindrical housing 32 having an axis 34 locally perpendicular to the plane of the faces of the outer skin 16. The housing passes through this skin along its thickness, the height of the housing 32 being greater than the thickness of the skin at this place. The bush 30 is contained in the housing 32 while being movable with respect to this housing. For this purpose, the housing 32 has a spherical inner face which interacts with the spherical outer face of the bush 30 by a surface-to-surface contact to form the ball joint.

[0060] As illustrated in FIG. 2, the member 28 also comprises in this example a pivot 31 contained in the bush 30 and a fork 33 attached to the axial ends of the pivot. The fork is also attached at one end of an operating actuator 36 of the thrust reverser. Thus the actuator is attached to the member 28.

[0061] As illustrated in FIGS. 2 and 4, the outer skin 16 comprises a local reinforcement 38 extending solely over an area of the outer skin contiguous with the member 28 and having a surface area smaller than that of the outer skin. The reinforcement 38 is produced at the same time as the sandwich structure by the placing of layers or plies of pre-impregnated synthetic material. This reinforcement 38 is here formed out of composite material and comprises additional layers of composite material. Each layer has one and the same shape, for example a rectangular shape. Moreover, the layers are concentric, centered on the axis 34. The surface area of the layers decreases with each layer.

[0062] In a variant, this could be a reinforcement made of prebaked composite material and added on to the skin once the sandwich structure has been produced. In another variant, the reinforcement is made of metal and attached to the panel by blind or through rivets or bolts.

[0063] Particularly with reference to FIG. 4, the outer skin 16 has a through opening 40 which opens into the enclosure 20 and extends entirely at a distance from the member 28. Here the opening has an elongated oblong shape but other shapes are possible. It puts the enclosure 20 in communication with the outside of the panel 12. The bush 30, the pivot 31, the fork 33 and the actuator 36 extend partly in the enclosure 20.

[0064] The method for manufacturing the assembly comprises the following steps in this embodiment.

[0065] To produce the panel 12, a stack is made of the inner skin 14, the outer skin 16 and the honeycomb central layer 18 interposed between the outer and inner skins. For example, a stack is made of pre-impregnated composite material layers intended to form the skins, with interposition of the honeycomb layer. This is the lay-up.

[0066] In order to obtain the inner enclosure 20, the box 22 is also installed in the central layer 18. The box has in this case been made beforehand by additive manufacturing. It is for example self-stiffened. The box is installed in a hollow made beforehand in the central layer.

[0067] In order to make the reinforcement 38, layers of pre-impregnated composite material having a surface area which is reduced in relation to a surface area of the main composite material layers forming the outer skin 16 are also placed.

[0068] Next the stack is heated for the baking of the panel which produces the curing of the material of the skins. The stack is pressed during this step.

[0069] Next, the opening 40 forming an aperture opening into the enclosure 20 is made in the outer skin 16. This routing operation can be done by machining.

[0070] Then the bush 30 is attached exclusively to the outer skin 16, in the housing 32. Next the pivot 31, the form 33 and the actuator 36 are installed.

[0071] In a variant, the box 22 can be produced in situ. To do this, when the stack is produced, layers of pre-impregnated composite material configured to form the outer skin 16 are put in place around a core previously covered with a mold release agent. The latter can be a dry lubricant comprising polytetrafluoroethylene. The core can be made of foam, resin or a thermoplastic material. This can be a water-soluble core or else an element which can be inflated with air. The core has a male shape complementing the female shape of the enclosure 20 which it is to form. The lay-up takes place around the core.

[0072] After the baking and the making of the opening 40, the core is removed from the panel through the opening, this removal being facilitated by the mold release agent.

[0073] In another variant compatible with the previous one, the reinforcement 34 is formed by an element added onto the panel after baking of the panel, particularly by a mechanical means or by bonding.

[0074] The invention ensures the attachment of the actuator 36 by means of a small space between the outer panel of the nacelle and the acoustic inner panel of the translating cowl. The attachment occurs without passing through the whole thickness of the panel 12. It requires neither fittings nor high-density honeycomb element. It makes it possible to reduce the weight of the thrust reverser. Specifically, if the weight of the reinforcement layers is evaluated at 200 g, this weight remains well below the weight of 600 g, of a fitting, the presence of which is no longer needed.

[0075] Other embodiments of the invention will now be described. Most of the features common to the first embodiment will not be described again.

[0076] In the embodiment of FIG. 5, the panel 12 comprising the outer skin 16, the inner skin 14 and the central layer 18 appears again, the panel having the free inner enclosure 20. Once again, the member 28 is attached to the panel solely by the outer skin 16 but this time an intermediate support 35 links the member to the outer skin. The support is rigidly attached to the skin which is for example reinforced as in the first embodiment. The member 28 is connected to the support by at least one degree of mobility. It is thus again solely the outer skin which serves to link the member to the panel but this link is indirect. The support 35 is linked to a portion of the skin which extends facing the enclosure 20.

[0077] In the embodiment of FIG. 6, the same applies except that the support 35 is linked to a portion of the outer skin 12 which extends facing the central layer 18.

[0078] In the embodiment of FIG. 7, the member 28 is attached to the panel 12 by the outer 16 and inner 14 skins. Here it is directly attached to the outer skin on the one hand and to the inner skin on the other hand. It extends therebetween, in the enclosure 20. It is attached to portions of the outer and inner skins contiguous with the enclosure. Each of these skins can have a reinforcement for this purpose. The inner skin 14 thus has an overthickness or protuberance 37 extending in the enclosure.

[0079] The embodiment of FIG. 8 combines the embodiments of FIGS. 5 to 7. Thus, the member 28 is attached to each of the outer 16 and inner 14 skins but the link to the outer skin 16 is done by means of an intermediate support 35 attached to a skin portion located facing the enclosure 20 and/or to a skin portion located facing the central layer 18.

[0080] FIGS. 9 to 11 show embodiments of the box 22 surrounding the enclosure 20. They show boxes 22 reinforcing the hollow 20 of the central layer 18. In FIG. 9, the box has one or more peripheral rims 39 surrounding the mouth of the box and extending outward, in the opposite direction to the box. The or each rim 39 extends between the central layer 18 and the outer skin 16 while being sandwiched therebetween. In the embodiment of FIG. 10, the rims 39 extend toward the inside of the box. They are applied against portions of the outer skin 16 extending facing the enclosure 20. In the embodiment of FIG. 11, it is the bottom off the box 22 which has the protuberance 37 serving as a part of the attachment of the member 28 to the panel as in the embodiment of FIG. 7. The features of these figures can be combined with any of the other embodiments.

[0081] The reinforcement can be formed both by additional layers of material and by an add-on part.

[0082] Many modifications may be made to the invention without departing from the scope thereof.