Actuation unit for actuating a foldable wing tip portion of a wing for an aircraft

Abstract

An actuation unit for actuating a foldable wing tip portion of a wing for an aircraft is disclosed including a motor configured to be mounted to a fixed wing for an aircraft, a drive pinion driven rotationally by the motor, a first rack configured to be mounted to the fixed wing, a second rack configured to be mounted to the foldable wing tip portion, a third rack configured to be mounted to the fixed wing movably along a defined first movement path and drivingly engaged by the drive pinion, and a transfer pinion mounted to the third rack rotatably about an axis of rotation extending perpendicular to the first movement path.

Claims

1. An actuation unit for actuating a foldable wing tip portion of a wing for an aircraft, the actuation unit, comprising: a motor configured to be mounted to a fixed wing for an aircraft, a drive pinion driven rotationally by the motor, a first rack configured to be mounted to the fixed wing, a second rack configured to be mounted to the foldable wing tip portion, a third rack configured to be mounted to the fixed wing movably along a defined first movement path and drivingly engaged by the drive pinion, and a transfer pinion mounted to the third rack rotatably about an axis of rotation extending perpendicular to the first movement path, wherein the first rack engages the transfer pinion at a first side and the second rack engages the transfer pinion at an opposite second side of the transfer pinion, such that, when the drive pinion drives the third rack along the first movement path, the transfer pinion drives the second rack along a second movement path.

2. The actuation unit according to claim 1, wherein the first rack, the second rack and the third rack extend equally spaced from one another with the third rack arranged between the first rack and the second rack.

3. The actuation unit according to claim 1, wherein the first rack, the second rack, the third rack, the first movement path and the second movement path have a shape circularly curved about a main axis.

4. The actuation unit according to claim 1, wherein the first rack, the second rack, the third rack, the first movement path and the second movement path are formed concentrically about the main axis with the first rack having a first curvature radius, the second rack and the second movement path having a second curvature radius, and the third rack and the first movement path having a third curvature radius.

5. The actuation unit according to claim 4, wherein the first curvature radius is smaller than the third curvature radius and the third curvature radius is smaller than the second curvature radius.

6. The actuation unit according to any of claim 1, wherein an axis of rotation of the transfer pinion is parallel to an axis of rotation of the drive pinion.

7. A wing for an aircraft, comprising: a fixed wing, a foldable wing tip portion mounted to the fixed wing via a hinge rotatably about a hinge axis between an extended position and a folded position, and an actuation unit according to claim 1, for actuating the foldable wing tip portion for movement about the hinge axis, wherein the actuation unit is attached to the fixed wing and to the foldable wing tip portion by the motor being mounted to the fixed wing, the first rack being mounted to the fixed wing, the second rack being mounted to the foldable wing tip portion, and the third rack being mounted to the fixed wing movably along the first movement path, wherein the hinge axis coincides with the main axis of the actuation unit.

8. The wing according to claim 7, wherein, when the foldable wing tip portion is in the extended position, the second rack extends opposite the first rack, and when the foldable wing tip portion is in the folded position, the second rack extends offset from the first rack.

9. An aircraft, comprising: a wing according to claim 8.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) A yet further aspect of the present invention relates to an aircraft comprising a wing according to any of the afore-described embodiments. Features and advantages mentioned further above in connection with the actuation unit and the wing also apply for the aircraft. Hereinafter, the present invention is described in more detail by means of a drawing. The drawing shows in

(2) FIG. 1 a perspective view of an aircraft according to the invention,

(3) FIG. 2 a perspective view of a wing of the aircraft of FIG. 1, where a wing tip portion is movably mounted to a fixed wing via hinges and an actuation unit according to the invention,

(4) FIG. 3 a first perspective view of a schematic illustration of the actuation unit of the wing shown in FIG. 2 with the foldable wing tip portion in the extended position, and

(5) FIG. 4 a second perspective view of a the illustration of the actuation unit shown in FIG. 3 with the foldable wing tip portion in the folded position.

DETAILED DESCRIPTION OF SOME EMBODIMENTS

(6) FIG. 1 shows an exemplary aircraft 1 according to an embodiment of the present invention. The aircraft 1 comprises a foldable wing 3 including a fixed wing 5 mounted to a fuselage 7, and a foldable wing tip portion 9 movably mounted to the fixed wing 5.

(7) As shown in FIG. 2, the wing 3 comprises a fixed wing 5, a foldable wing tip portion 9 mounted to the fixed wing 5 via hinges 11 rotatably about a hinge axis 13 between an extended position and a folded position, and an actuation unit 15 for actuating movement of the foldable wing tip portion 9 relative to the fixed wing 5, specifically folding upwards of the foldable wing tip portion 9 relative to the fixed wing 5 about the hinge axis 13 that extends in parallel to a chord line and to a flight direction of the aircraft 1.

(8) FIGS. 3 and 4 illustrate the actuation unit 15 in further detail. The actuation unit 15 comprising a motor 17, a drive pinion 19, a first rack 21, a second rack 23, a third rack 25, and a transfer pinion 27. The motor 17 is an electric motor or a hydraulic motor and is fixedly mounted to the fixed wing 5. The drive pinion 19 is driven rotationally by the motor 17 via a gear unit 29. The first rack 21 is fixedly mounted to the fixed wing 5. The second rack 23 is fixedly mounted to the foldable wing tip portion 9. The third rack 25 is mounted to the fixed wing 5 movably along a defined first movement path 31 via a roller bearing (not shown), and is drivingly engaged by the drive pinion 19 for being driven along the first movement path 31. The transfer pinion 27 is mounted to the third rack 25 rotatably about an axis of rotation 33 extending perpendicular to the first movement path 31 and parallel to an axis of rotation 35 of the drive pinion 19. The first rack 21 engages the transfer pinion 27 at a first side 37 and the second rack 23 engages the transfer pinion 27 at an opposite second side 39 of the circumference of the transfer pinion 27, so that the second rack is moved by the transfer pinion 27 along a second movement path 41.

(9) The first rack 21, the second rack 23 and the third rack 25 extend equally spaced from one another in a direction perpendicular to their direction of extension with the third rack 25 arranged between the first rack 21 and the second rack 23. The diameter of the transfer pinion 27 is as great as the distance between the first and second racks 21, 23.

(10) The first rack 21, the second rack 23, the third rack 25, the first movement path 31 and the second movement path 41 have a shape circularly curved about a main axis 43 of the actuation unit 15. In such a way, during actuation of the actuation unit 15 the second rack 23 rotates along the second movement path 41 about the main axis 43 and the third rack 25 rotates along first movement path 31 about the main axis 43. Specifically, the first rack 21, the second rack 23, the third rack 25, the first movement path 31 and the second movement path 41 are formed concentrically about the main axis 43 with the first rack 21 having a first curvature radius, the second rack 23 and the second movement path 41 having a second curvature radius, and the third rack 25 and the first movement path 31 having a third curvature radius. The first curvature radius is smaller than the third curvature radius and the third curvature radius is smaller than the second curvature radius.

(11) When the foldable wing tip portion 9 is in the extended position, the second rack 23 extends opposite the first rack 21, as shown in FIG. 3, and when the foldable wing tip portion 9 is in the folded position, the second rack 23 extends offset from the first rack 21, as shown in FIG. 4.

(12) In such a way, a cascaded actuation unit 15 is formed, wherein when the motor 17 driven drive pinion 19 drives the third rack 25 along the first movement path 31, the transfer pinion 27 that is scrolling along the first rack 21 drives the second rack 23 along the second movement path 41 with a speed twice as high as the speed of the third rack 25 driven along the first movement path 31.