An actuator for use in driving the leading edge slats or other control surfaces of an aircraft includes a carrier element which is translatable and angularly moveable about a first fixed axis relative to an aircraft wing structure, an actuator arm pivotally mounted to the carrier element, and a supp
An actuator for use in driving the leading edge slats or other control surfaces of an aircraft includes a carrier element which is translatable and angularly moveable about a first fixed axis relative to an aircraft wing structure, an actuator arm pivotally mounted to the carrier element, and a support arm pivotally mounted to the wing structure about a second, fixed pivot axis, such that the first and second fixed axes are not perpendicular to one another.
대표청구항▼
1. An actuator arrangement comprising: a carrier element which is translatable along a first fixed axis and angularly moveable about the first fixed axis relative to a wing structure;an actuator arm pivotally mounted to the carrier element; anda support arm pivotally mounted to the wing structure ab
1. An actuator arrangement comprising: a carrier element which is translatable along a first fixed axis and angularly moveable about the first fixed axis relative to a wing structure;an actuator arm pivotally mounted to the carrier element; anda support arm pivotally mounted to the wing structure about a second, fixed pivot axis;wherein the first and second fixed axes are not perpendicular to one another. 2. The actuator arrangement according to claim 1, wherein a mounting arrangement is provided connecting the support arm to the actuator arm and allowing at least two axes of pivotal movement between the actuator and the support arm. 3. An arrangement according to claim 2, wherein the mounting arrangement connects the support arm to a mid-point of the actuator arm. 4. An arrangement according to claim 1, wherein a free end of the actuator arm is mounted to a leading edge control surface, in use. 5. An arrangement according to claim 1, wherein the actuator arm projects, in use, through an opening in the wing structure, the actuator arm being shaped, in the region that projects through the wing structure, so as to be of curved form, the curvature being selected, relative to the path of movement of that part of the actuator arm, so as to allow the opening to be of reduced dimensions. 6. An arrangement according to claim 5, wherein the opening is located so as to be closed by a leading edge slat carried by the actuator aim when the actuator arrangement is in a stowed position. 7. An arrangement according to claim 5, wherein the shape of the actuator arm is such that a footprint of the actuator arm at the point at which the actuator arm passes through the opening is substantially stationary in at least the lateral direction during movement of the actuator arm. 8. An arrangement according to claim 1, wherein the wing structure includes a droop nose structure pivotally connected to a main part of the wing structure, and wherein the droop nose structure is pivotally moveable upon angular movement of the actuator arm. 9. An arrangement according to claim 8, wherein the actuator arm projects through an opening formed in the droop nose structure, cooperation between the actuator arm and the droop nose structure supporting the droop nose structure, such that angular movement of the actuator arm about the first axis is accompanied by pivotal movement of the droop nose structure. 10. An arrangement according to claim 9, wherein sliding bearings or other bearing arrangements are provided to reduce wear between the droop nose structure and the actuator arm. 11. An arrangement according to claim 9, wherein the actuator arm is of curved form at least in the region that projects through the opening, in use, so that the footprint of the actuator arm at the point at which the actuator arm passes though the opening is substantially stationary. 12. An aircraft wing comprising at least one actuator arrangement as claimed in claim 1 mounted to the wing structure, and a leading edge control surface, mounted to the actuator arm of the actuator arrangement. 13. A wing according to claim 12, wherein the wing includes several of the actuator arrangements driven by a common drive line. 14. A wing according to claim 12, wherein the wing structure includes a droop nose structure pivotally connected to a main part of the wing structure, and wherein the droop nose structure is pivotally moveable upon angular movement of the actuator arm. 15. An aircraft wing comprising an actuator arrangement as claimed in claim 1 mounted to a wing structure, the wing structure including a droop nose structure pivotally connected to a main part of the wing structure, and wherein the droop nose structure is pivotally moveable upon angular movement of the actuator arm of the actuator arrangement.
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이 특허에 인용된 특허 (9)
Perez Sanchez,Juan, Actuation apparatus for a control flap arranged on a trailing edge of an aircraft airfoil.
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