A method for producing a central wing box having an upper panel, a lower panel, a front spar and a rear spar, the upper edges of said spars approximately parallel to an axis Y being connected by the upper panel, and the lower edges of said spars approximately parallel to the axis Y being connected b
A method for producing a central wing box having an upper panel, a lower panel, a front spar and a rear spar, the upper edges of said spars approximately parallel to an axis Y being connected by the upper panel, and the lower edges of said spars approximately parallel to the axis Y being connected by the lower panel. The method includes producing at least one panel and at least one spar from composite material in one piece.
대표청구항▼
1. A method for producing a central wing box having an upper panel, a lower panel, a front spar and a rear spar, the upper edges of said spars approximately parallel to an axis Y being connected by the upper panel, and the lower edges of said spars approximately parallel to the axis Y being connecte
1. A method for producing a central wing box having an upper panel, a lower panel, a front spar and a rear spar, the upper edges of said spars approximately parallel to an axis Y being connected by the upper panel, and the lower edges of said spars approximately parallel to the axis Y being connected by the lower panel, comprising the step: producing at least one panel and at least one spar from composite material in one piece;wherein the central wing box is produced by wrapping of at least one fiber reinforcement about the axis Y on a mandrel, the said central box having stiffeners parallel to the axis Y in the region of the internal surfaces, including the further steps of depositing fiber reinforcements on removable mandrels in such a way as to obtain a U-shaped profile for each removable mandrel, joining the removable mandrels onto a main mandrel by attaching the U-shaped profiles in such a way that the two arms of two adjacent U-shaped profiles form a stiffener, wherein when the removable mandrels are joined to the main mandrel the removable mandrels protrude outwardly from an exterior surface of the main mandrel, wherein the removable mandrel is only in direct contact with the main mandrel at a surface of attachment to the main mandrel, then wrapping at least one fiber reinforcement around the axis Y;wherein the mandrel is leakproof and extends on either side of the wing box in such a way as to offer a surface on either side for contact with a leakproof space that makes it possible to define a hermetically sealed space with the mandrel; andincluding the steps of disposing between the fibrous elements forming the central wing box and a bladder at least one smoothing plate comprising at least two parts connected by an articulated joint permitting a relative rotary movement between the said two parts along an axis of rotation parallel to the axis Y. 2. The method for producing a central wing box as claimed in claim 1, wherein the two panels and the two spars are produced in one piece. 3. The method for producing a central wing box as claimed in claim 1, wherein the mandrel comprises means for expanding it in a region of at least one radius of curvature in such a way as to increase a perimeter of the said mandrel during compacting of the fiber reinforcements constituting the central wing box. 4. The method for producing a central wing box as claimed in claim 1 further comprising attaching the removable mandrels to the main mandrel with a fixing key. 5. A method for producing a central wing box having an upper panel, a lower panel, a front spar and a rear spar, the upper edges of said spars approximately parallel to an axis Y being connected by the upper panel, and the lower edges of said spars approximately parallel to the axis Y being connected by the lower panel, comprising the step: producing at least one panel and at least one spar from composite material in one piece;wherein the central wing box is produced by wrapping of at least one fiber reinforcement about the axis Y on a mandrel, the said central box having stiffeners parallel to the axis Y in the region of the internal surfaces, including the further steps of depositing fiber reinforcements on removable mandrels in such a way as to obtain a U-shaped profile for each removable mandrel, joining the removable mandrels onto a main mandrel by attaching the U-shaped profiles in such a way that the two arms of two adjacent U-shaped profiles form a stiffener, wherein when the removable mandrels are joined to the main mandrel the removable mandrels protrude outwardly from an exterior surface of the main mandrel, wherein the removable mandrel is only in direct contact with the main mandrel at a surface of attachment to the main mandrel, then wrapping at least one fiber reinforcement around the axis Y;wherein the fiber reinforcements disposed at 90° relative to the axis Y are cut near to a zone connecting a panel and a spar; andwherein a portion of a fiber reinforcement disposed on either side of a cut are superimposed during the positioning of the said fiber reinforcement, the length of the superimposition being adjusted in such a way that, after compacting, the portions are again positioned end to end. 6. The method for producing a central wing box as claimed in claim 5, wherein in a region of a radius of curvature, the superimpositions are offset from one ply to the other in such a way as to distribute the cuts. 7. A method for producing a central wing box having an upper panel, a lower panel, a front spar and a rear spar, the upper edges of said spars approximately parallel to an axis Y being connected by the upper panel, and the lower edges of said spars approximately parallel to the axis Y being connected by the lower panel, comprising the step: producing at least one panel and at least one spar from composite material in one piece; wherein the central wing box is produced by wrapping of at least one fiber reinforcement about the axis Y on a mandrel;wherein the mandrel is leakproof and extends on either side of the wing box in such a way as to offer a surface on either side for contact with a leakproof space that makes it possible to define a hermetically sealed space with the mandrel; anddisposing between the fibrous elements forming the central wing box and a bladder at least one smoothing plate comprising at least two parts connected by an articulated joint permitting a relative rotary movement between the said two parts along an axis of rotation parallel to the axis Y. 8. A method for producing a central wing box having an upper panel, a lower panel, a front spar and a rear spar, the upper edges of said spars approximately parallel to an axis Y being connected by the upper panel, and the lower edges of said spars approximately parallel to the axis Y being connected by the lower panel, comprising the step: producing at least one panel and at least one spar from composite material in one piece; wherein the central wing box is produced by wrapping of at least one fiber reinforcement about the axis Y on a mandrel;wherein the fiber reinforcements disposed at 90° relative to the axis Y are cut near to a zone connecting a panel and a spar; andwherein a portion of a fiber reinforcement disposed on either side of a cut are superimposed during the positioning of the said fiber reinforcement, the length of the superimposition being adjusted in such a way that, after compacting, the portions are again positioned end to end. 9. The method for producing a central wing box as claimed in claim 8, wherein in a region of a radius of curvature, the superimpositions are offset from one ply to the other in such a way as to distribute the cuts.
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