Device for protecting the front spar structure of a central casing of an aircraft wing and at least one piece of equipment located in said wing

Abstract

A device for protecting a front spar structure of a central casing -of an aircraft wing and at least one item of equipment situated in the wing, comprising: a shielding surface extending in front of the front spar of the central casing, from a surface of an intersection between the wing and the fuselage delimited by the root of the wing, transversely to the surface of intersection, to a first rib of the central casing partially surrounding at least one item of equipment; and means -for fixing the shielding surface to the central casing producing an isostatic link.

Claims

1. A device for protecting a front spar structure of a central casing of an aircraft wing and at least one item of equipment situated in the wing, the device comprising: a shielding surface extending in front of the front spar of the central casing, from a surface of an intersection between the wing and the fuselage delimited by the root of the wing, transversely to the surface of intersection, to a first rib of the central casing partially surrounding the at least one item of equipment; and a plurality of mechanical links fixing the shielding surface to the central casing to produce an isostatic link.

2. The protection device of claim 1, wherein the plurality of mechanical links fixing the shielding surface to the central casing comprises a first mechanical link from the shielding surface to the first rib of the central casing.

3. The protection device of claim 2, wherein the plurality of mechanical links fixing the shielding surface to the central casing comprise a second mechanical link from the shielding surface to the first rib of the central casing.

4. The protection device of claim 3, wherein the plurality of mechanical links fixing the shielding surface to the central casing comprises a third mechanical link from the shielding surface to the front spar.

5. The protection device of claim 4, wherein the shielding surface is closer to the at least one item of equipment than to a leading wing surface.

6. The protection device of claim 5, wherein the shielding surface has a C-shaped section in the plane of the surface of intersection.

7. The protection device of claim 5, wherein the shielding surface comprises an edge normal to the surface of intersection.

8. The protection device of claim 5, wherein the shielding surface closely follows the form of the at least one item of equipment.

9. The protection device of claim 8, wherein the shielding surface has at least one opening for the passage of the at least one item of equipment.

10. The protection device of claim 9, further comprising: at least one additional link linking the shielding surface to the structure of the fuselage of the aircraft, the additional link comprising a lug protruding from the rear of the shielding surface that is configured to mate with a fuselage hook protruding from the skin of the fuselage, the lug and hook being intended to cooperate with one another.

11. The protection device of claim 10, wherein the shielding surface has a honeycomb structure produced with an aluminum alloy.

12. The protection device as claimed in claim 11, having a variable thickness.

13. An aircraft wing comprising a central casing and at least one item of equipment in the internal space of the wing, comprising: a protection device for a front spar structure of the central casing and for the at least one item of equipment comprising a shielding surface extending in front of the front spar of the central casing, from a surface of intersection between the wing and a fuselage delimited by the wing root, transversely to the surface, to a first rib of the central casing partially surrounding the at least one item of equipment, the protection device further comprising a plurality of mechanical links between the shielding surface to the central casing to produce an isostatic link.

14. The aircraft wing of claim 13, wherein the plurality of mechanical links that fix the shielding surface to the central casing comprises a first mechanical link that couples the shielding surface to the first rib of the central casing while allowing movement of the shielding surface in a plane of the first rib.

15. The aircraft wing of claim 14, wherein the plurality of mechanical links fixing the shielding surface to the central casing comprises a second mechanical link coupling the shielding surface to the front spar while allowing movement of the shielding surface in a direction normal to the first rib of the central casing.

16. The aircraft wing of claim 15, wherein the plurality of mechanical links fixing the shielding surface to the central casing comprises a third mechanical link that couples the shielding surface to the first rib of the central casing while allowing movement of the shielding surface.

17. The aircraft wing of claim 13 wherein the protection device is set back from an aerodynamic surface of the aircraft wing within the internal space.

18. The aircraft wing of claim 13 wherein the protection device is substantially rigid.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Other features and advantages will become apparent from the following description, given as a nonlimiting example and with reference to the attached drawings in which:

(2) FIG. 1 is a schematic representation of the cross section, in the plane of its root, of an aircraft wing which comprises a device according to the embodiment in a first embodiment;

(3) FIG. 2 is a schematic representation in perspective of the elements of FIG. 1;

(4) FIG. 3 is a schematic representation of the cross section, in the plane of its root, of an aircraft wing at its root comprising a device according to the embodiment in a second embodiment;

(5) FIG. 4 is a schematic representation of the protection device of FIG. 2 in the plane of the front spar of the central casing of the wing;

(6) FIG. 5 is a schematic representation from the side of two fixing points fixing the protection device of FIG. 4 to the front spar of the wing;

(7) FIG. 6 is a schematic representation from above of two fixing points fixing the protection device of FIG. 4 to the front spar of the wing in;

(8) FIG. 7 is a schematic representation from above of another fixing point for the protection device of FIG. 4;

(9) FIG. 8 is a schematic representation in perspective of a fixing element of the device; and

(10) FIG. 9 is a schematic representation of the section A-A of FIG. 4.

DETAILED DESCRIPTION

(11) The following detailed description is merely exemplary in nature and is not intended to limit the present disclosure or the application and uses of the present disclosure. Furthermore, there is no intention to be bound by any theory presented in the preceding background or the following detailed description.

(12) FIG. 1 shows a cross-sectional view of a wing 1 of an aircraft at its root, that is to say its junction with the body of the fuselage 2. This cross section is produced in the plane XZ of the aircraft, the axis X representing the longitudinal axis of the fuselage 2 and the axis Z being the vertical axis when the aircraft is on the ground. This plane corresponds notably to the plane in which extends the surface of intersection 3 between the wing 1 and the fuselage 2 delimited by the root 4. The wing 1 has an aerodynamic surface 5, the leading edge 6 of which is here represented on the left of FIG. 1.

(13) The focus here is on the internal space 10 defined by this aerodynamic surface and the front spar 12 of the central casing 13 of the wing, which will not be described here in detail, since they are known to those skilled in the art and can vary in their form from one aircraft to another.

(14) In the internal space 10, there are a certain number of equipment items that run therein. These equipment items include, but are not limited to, pipes containing fuel, electrical wires, feed pipes for the air conditioning system, etc.

(15) A feed pipe 14 forming part of such equipment items is thus represented here.

(16) In order to protect this equipment item, a first embodiment of the protection device 20 according to an embodiment is represented. The protection device 20 consists of means for fixing to the front spar 12 (details of this fixing will be given hereinbelow) a shielding surface 20 represented in cross section in FIG. 1. More specifically, the shielding surface 22 extends in front of the front spar 12 of the central casing 13, from the surface of intersection 3, transversely to this surface of intersection, to a first rib 24 of the central casing partially surrounding the pipe 14.

(17) Thus, as can be seen in FIGS. 1 and 2, that the shielding surface 22 covers an area extending, on the one hand, between the fuselage 2 and the first rib 24 of the central casing of the wing 1, and on the other hand, from the top end (along the axis Z) of the front spar 12, to the bottom end of the front spar 12.

(18) The shielding surface 22 has an edge 23 approximately at mid-height of the front spar 12. This edge 23, situated toward the front of the wing (toward the leading edge 6), is normal to the surface of intersection 3. It divides the shielding surface 22 into two planar surfaces, an upper plate 25a and a lower plate 25b, giving it a V-shape in cross section. The edge 23 thus acts as a knife blade making it possible to split the bird upon the impact and thus divide the energy to be absorbed.

(19) It will be noted that openings can be formed in the shielded surface 22 in order to allow certain items of equipment to pass through. Thus, as can be seen in FIG. 3, the lower plate 25b has an opening 26 in order to allow pipes (not represented) to pass. This type of opening makes it possible to allow existing systems to pass without having to modify them, and in no way compromises their protection.

(20) FIG. 2. shows a second embodiment of the protection device.

(21) In this second embodiment, the protection device 200 performs the same function with respect to the equipment and covers the same area of the internal space 10. The form of its shielding surface 222 is, however, different, because it is rounded. It thus surrounds the equipment such as the feed pipe 14 on as to have a C-shape in this cross-sectional view (that is to say in the plane XZ, or even the plane of the surface of intersection 3).

(22) It will be noted that the thickness of the shielding surface 222 can vary as is the case in this figure where the surface is thicker approximately at mid-height of the spar.

(23) This advantageously makes it possible to optimize the absorption of the energy according to the angle of impact.

(24) In the two embodiments presented above, the upper and lower parts of the shielding surface make it possible to dispel the bird out of the tank area and the sensitive systems upward or downward, depending on the orientation of the impact. Whatever the form of the protection device, the materials of which the shielding surface can be made are preferably metallic absorbent materials, for example aluminum, or even expanded and rigidified mineral fibers. Preference will be given to a honeycomb structure.

(25) There now follows a description of the means for fixing the protection device according to the embodiment to the front spar 12.

(26) For this, the first embodiment will be taken as the example, bearing in mind that the second embodiment can have an equivalent fixing method.

(27) FIG. 4 represents the front face of the front spar 12 of the central casing of the wing and the fixing points of the shielding surface 22 of the device according to an embodiment. The shielding surface 22 is here represented as transparent for reasons of clarity.

(28) The shieldings capable of containing significant energy impacts are elements of strong rigidity and often non-deformable other than in the impact resistance phase. It is therefore preferable to dissociate the shielding surface from the structure of the aircraft while preserving the function of each. For this, the protection device according to the embodiment comprises means 300 for fixing the structure of the central casing of the wing to the front spar 12 that are distributed at three fixing (or anchoring) points which are represented in FIGS. 4 to 7.

(29) The protection device 20 according to the embodiment provides, in order to fix the shielding surface 22 to the structure of the fuselage 2 (typically a flexible structure made of composite material so as to reduce its weight), a link of an isostatic nature. This is embodied by the use of three fixing points 310, 320 and 330 only associated with elements providing mechanical links 311, 321 and 331 solely ensuring that the six degrees of freedom are taken up: three in X, two in Z and one in X with reference to the reference frame represented in FIGS. 4 to 7.

(30) As can be seen notably in FIG. 4, the first fixing point, or upper fixing point 310, is situated on the upper part of the central casing 13, close to the first rib 24.

(31) More specifically, the upper fixing point 310 is situated straddling the side of the front spar 12 opposite the surface of intersection 3 and the first rib 24 of the central casing 13, on the upper part of the central casing 13.

(32) The second fixing point, or lower distal fixing point 320, is situated on the lower part of the central casing 13, close to the first rib 24.

(33) More specifically, the lower distal fixing point 320 is situated straddling the side of the front spar 12 opposite the surface of intersection 3 and the first rib 24 of the central casing 13, on the lower part of the central casing 13.

(34) The third fixing point, or proximal fixing point 330, is situated on the lower part of the central casing 13, close to the surface of intersection 3 (close to the fuselage 1).

(35) This position corresponds to the presence of a stiffening rib for the central casing of the fuselage (not represented).

(36) The first and second mechanical links 311, 321 each comprise a pair of attachment fittings 312a, 312b and 322a, 322b. (See FIG. 5)

(37) A pair of attachment fittings should be understood here to mean reinforcing elements which link together two parts that can move relative to one another by an articulation movement. These two elements form a hinge.

(38) The first rear attachment fitting 312a, fixed straddling the side of the front spar 12 opposite the surface of intersection 3 and the first rib 24 of the central casing 13 at the upper end of the first rib 24, forms a hinge with the front attachment fitting 312b which is inserted between the jaws of the rear attachment fitting 312a. The first front attachment fitting 312b is, for its part, fixed to the rear surface of the shielding surface 22. The rear and front attachment fittings 312a, 312b are linked by a first shear bolt 314, an element which has the advantage of being easily and quickly installed.

(39) The first mechanical link 311 is fitted in such a way as to allow movement only on X and Z; that is to say, respectively, in the direction normal to the first rib 24 and in the direction of elongation of the central casing 13, i.e. vertically in the plane of the first rib 24.

(40) These movements in the horizontal direction in the plane of the first rib 24 are therefore ideally prescribed, and in reality limited to a displacement of plus or minus 1 mm.

(41) The second rear attachment fitting 322a, fixed straddling the side of the front spar 12 opposite the surface of intersection 3 and the first rib 24 of the central casing 13 at the lower end of the first rib 24, forms a hinge with the front attachment fitting 322b which is inserted between the jaws of the second rear attachment fitting 322a.

(42) The second front attachment fitting 322a is, for its part, fixed to the rear surface of the shielding surface. The rear and front attachment fittings 322a, 322b are linked by a first shear bolt 324.

(43) On the other hand, unlike the first mechanical link 311, the second mechanical link 321 is configured in such a way as to allow the movements in all three directions X, Y and Z, that is to say equally in the direction normal to the first rib 24 and in the plane of this rib.

(44) This notably makes it possible to retain degrees of freedom at the point where the deformations upon impact will be the greatest.

(45) To ensure the isostatic nature of all of the three mechanical links 311, 321 and 331, the third mechanical link 331 allows only displacements in the direction normal to the first rib 24.

(46) For this, the third mechanical link 331 comprises a third rear attachment fitting 322a, fixed to the spar 12 in the lower part of the central casing 13, close to the surface of intersection 3 (close to the fuselage 2). The third mechanical link 331 also comprises a third front attachment 332b, fixed to the rear of the shielding surface 22. Unlike the preceding two links, the third rear and front attachment fittings 332a, 332b are linked via a bar 332 situated between jaws of the attachment fittings.

(47) This bar, the form of which can be seen in FIG. 8, comprises two spherical bearings 333a and 333b pierced respectively facing the jaws of each of the rear and front attachment fittings 332a, 332b. These spherical bearings 333a, 333b are intended for the passage of two shear bolts 334a, 334b which ensure the link between the third and rear attachment fittings 332a and 332b.

(48) This configuration of the elements forming the third mechanical link 330 ensures the degree of freedom on X, that is to say in the direction normal to the spar 12 (which is the normal direction of the first rib 24), while blocking the degrees of freedom on Y and on Z.

(49) More specifically, in these latter two directions, the displacements are limited to plus or minus 1 mm.

(50) Optionally, additional links 400 for linking the shielding surface 22 to the structure of the fuselage 2 can be provided. As can be seen in FIG. 4 where they are represented in cross section, these fixings are distributed evenly at the join between the surface of intersection 11 with the fuselage and the inner edge 410 of the shielded surface 12. There are, for example, as in FIG. 4, three of them, a figure which can of course vary in other embodiments.

(51) FIG. 9 shows, by the illustration of the cross section A-A of FIG. 4, the detail of one of these additional links 400.

(52) It comprises a shielding link 405 which protrudes from the rear of the shielding surface 22, normally thereto. This lug 405 is intended to cooperate with a fuselage hook 410 which protrudes from the skin of the fuselage 2, normally thereto. The lug 405 and the hook 410 are not, other than in an impact situation, in contact. Their presence therefore has no influence on the isostatic nature of the link between the shielding surface 22 and the central casing 13 of the wing in a nominal situation.

(53) On the other hand, during the impact, the additional links 400 make it possible to transfer much of the forces in the plane normal to the front spar 12 (on X) to the skin of the fuselage 2.

(54) One or more of the additional links 400 can be completed by the fitting of an elastomer seal 420 between the fuselage and the shielding surface 22, to avoid any friction between these two elements generated by the structural displacements and the vibrations. Preferably, such a seal is secured (by bonding) to the fuselage 2.

(55) The examples which have just been described are only possible embodiments of the embodiment, which is not limited thereto. While at least one exemplary embodiment of the present invention(s) is disclosed herein, it should be understood that modifications, substitutions and alternatives may be apparent to one of ordinary skill in the art and can be made without departing from the scope of this disclosure. This disclosure is intended to cover any adaptations or variations of the exemplary embodiment(s). In addition, in this disclosure, the terms comprise or comprising do not exclude other elements or steps, the terms a or one do not exclude a plural number, and the term or means either or both. Furthermore, characteristics or steps which have been described may also be used in combination with other characteristics or steps and in any order unless the disclosure or context suggests otherwise. This disclosure hereby incorporates by reference the complete disclosure of any patent or application from which it claims benefit or priority.