A method of forming an in-wing device-retention assembly includes inserting a first plate into a wing, the wing having a wide end and a narrow end. The method includes inserting a second plate into the wing, inserting a wedge plate into the wing and positioning the wedge plate between the first plat
A method of forming an in-wing device-retention assembly includes inserting a first plate into a wing, the wing having a wide end and a narrow end. The method includes inserting a second plate into the wing, inserting a wedge plate into the wing and positioning the wedge plate between the first plate and the second plate, and applying a force to the wedge plate in a direction toward the narrow end to fix the first plate, the second plate and the wedge plate within the wing.
대표청구항▼
1. A method of forming an in-wing device-retention assembly, comprising: inserting a first plate into a cavity of a wing, the wing having a wide end and a narrow end, the wing having an upper wall structure and an opposing lower wall structure that define the cavity, the first plate being positioned
1. A method of forming an in-wing device-retention assembly, comprising: inserting a first plate into a cavity of a wing, the wing having a wide end and a narrow end, the wing having an upper wall structure and an opposing lower wall structure that define the cavity, the first plate being positioned adjacent to the upper wall structure;inserting a second plate into the cavity, the second plate being positioned adjacent to the lower wall structure;inserting a wedge plate into the cavity and positioning the wedge plate between the first plate and the second plate, wherein the wedge plate has a wide end and a narrow end, and the wedge plate tapers from the wide end to the narrow end; andapplying a force to the wedge plate in a direction toward the narrow end to fix the first plate, the second plate and the wedge plate within the wing, the applying the force to the wedge plate creating a force outwards against the upper wall structure and the lower wall structure; andwherein applying the force to the wedge plate aligns the first plate, the second plate, and the wedge plate to define a device-retention-cavity within which a sensor is receivable. 2. The method of claim 1, wherein the first plate includes a first opening, the second plate includes a second opening, the wedge plate includes a third opening and one of the upper wall structure and the lower wall structure of the wing includes a fourth opening, and fixing the first plate, the second plate and the wedge plate within the wing includes aligning the first opening, second opening, third opening and fourth opening to form a device-retention cavity. 3. The method of claim 1, wherein applying the force to the wedge plate includes pulling the wedge plate toward the narrow end of the wing. 4. The method of claim 1, wherein pulling the wedge plate toward the narrow end of the wing includes inserting a pulling mechanism into an opening in the narrow end of the wing, attaching the pulling mechanism to a portion of the wedge plate protruding from between the first and second plates and pulling the wedge plate toward the opening. 5. The method of claim 1, wherein applying the force to the wedge plate includes pushing the wedge plate toward the narrow end of the wing. 6. The method of claim 1, further comprising: after fixing the first plate, the second plate and the wedge plate within the wing, drilling into a side of one of the upper wall structure and the lower wall structure to form a device-retention cavity in the first plate, the second plate, the wedge plate and the one of the upper wall structure and the lower wall structure. 7. The method of claim 1, wherein the first plate, the second plate and the wedge plate are inserted into the narrow end of the wing. 8. The method of claim 7, wherein fixing the first plate, the second plate and the wedge plate within the wing includes fixing the first plate, the second plate and the wedge plate closer to the narrow end of the wing than the wide end of the wing. 9. The method of claim 1, wherein the wing is a rotor blade. 10. An in-wing device-retention assembly, comprising: a first plate;a second plate; anda wedge plate having a wide end and a narrow end such that the wedge plate tapers from the wide end to the narrow end, the wedge plate configured to be positioned between the first plate and the second plate in a cavity defined by an upper wall structure and an opposing lower wall structure of a wing, the first plate being positioned adjacent to the upper wall structure and the second plate being positioned adjacent to the lower wall structure, the wedge plate being configured to fix the first plate, the second plate and the wedge plate in the wing by applying a force outwards against the upper wall structure and the lower wall structure, wherein the first plate, second plate, and wedge plate align to form a device-retention-cavity within which a sensor is receivable. 11. The in-wing device-retention assembly of claim 10, wherein the first plate includes a first opening, the second plate includes a second opening, the wedge plate includes a third opening and one of the upper wall structure and the lower wall structure of the wing includes a fourth opening, the first opening, the second opening, the third opening and the fourth opening forming a device-retention cavity. 12. The in-wing device-retention assembly of claim 11, wherein the first plate includes a wall portion between the first opening and one of the upper wall structure and the lower wall structure of the wing, the wall portion defining an end of the device-retention cavity. 13. The in-wing device-retention assembly of claim 11, wherein the third opening has a diameter greater than a diameter of the first opening and the second opening. 14. The in-wing device-retention assembly of claim 10, wherein the wing includes a wide end and a narrow end, and the wedge plate has a wide end and a narrow end, the wedge plate configured to fix the first plate, the second plate and the wedge plate in the wing such that the wide end of the wedge plate faces the wide end of the wing and the narrow end of the wedge plate faces the narrow end of the wing. 15. The in-wing device-retention assembly of claim 14, wherein the wedge plate includes a protruding portion that extends past an outer surface of the first and second plates toward the narrow end of the wing. 16. The in-wing device-retention assembly of claim 10, wherein the wing is a rotor blade.
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이 특허에 인용된 특허 (10)
Donal Valerie,FRX ; Andre Joel Rene,FRX ; Bouriquet Jacques,FRX, Asymmetrical, one-piece, hollow metal structure such as a trailing edge of an aircraft wing leading edge slat and its pr.
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