A system to provide differential movement between a first surface, a second surface and a fixed surface includes a first surface movable between a first position and a second position; a second surface movable with the first surface and further movable beyond the first surface; a shaft connected to
A system to provide differential movement between a first surface, a second surface and a fixed surface includes a first surface movable between a first position and a second position; a second surface movable with the first surface and further movable beyond the first surface; a shaft connected to the second surface to move the second surface; and a drive unit connected to the fixed surface to drive the shaft to move the second surface relative to the first surface and to allow the shaft to move through the drive unit when the second surface is being moved by the first surface.
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1. A system to provide differential movement between a thrust reverser door, a variable area fan nozzle door and a fixed surface, the system comprising: a thrust reverser door movable between a first position and a second position, wherein a thrust reverser door drive system drives the thrust revers
1. A system to provide differential movement between a thrust reverser door, a variable area fan nozzle door and a fixed surface, the system comprising: a thrust reverser door movable between a first position and a second position, wherein a thrust reverser door drive system drives the thrust reverser door;a variable area fan nozzle door movable with the thrust reverser door between the first position and the second position, and further movable between the second position and a third position;a shaft connected to the variable area fan nozzle door to move the variable area fan nozzle door; anda drive unit connected to the fixed surface to drive the shaft to move the variable area fan nozzle door relative to the thrust reverser door, wherein the drive unit includes a motor and a summing gearbox, the thrust reverser door drive system being separate from the drive unit, wherein the shaft extends through and is coupled to the drive unit to allow the shaft to passively move in an axial direction through the summing gearbox of the drive unit when the variable area fan nozzle door is being moved by the thrust reverser door by the thrust reverser door drive system, wherein when the thrust reverser door is in the first position, a first end of the shaft extends outward from a first axial end of the drive unit, and a second end of the shaft extends outward from a second axial end of the drive unit. 2. The system of claim 1, wherein the shaft is coupled to the drive unit through a spline connection. 3. The system of claim 2, wherein the spline connection is a ball spline connection. 4. The system of claim 1, wherein the drive unit comprises a plurality of motors. 5. The system of claim 1, further comprising: a collar connected to the shaft and fixed to the thrust reverser door; anda ball nut and ballscrew connected to the collar and the variable area fan nozzle door to translate rotational motion from the shaft and the collar into linear motion for the variable area fan nozzle door. 6. The system of claim 1, wherein the variable area fan nozzle door is rotationally movable. 7. The system of claim 6, and further comprising: a cam connected to the variable area fan nozzle door to pivot the variable area fan nozzle door; anda hinge connecting the thrust reverser door to the variable area fan nozzle door. 8. The system of claim 1, wherein the thrust reverser door and the variable area fan nozzle door move in a linear direction. 9. The system of claim 1, wherein the drive unit comprises a plurality of brakes. 10. The system of claim 1, wherein the summing gearbox is configured to impart rotation to the shaft. 11. A method of producing a relational movement system to move a thrust reverser door relative to variable area fan nozzle door, the method comprising: connecting the thrust reverser door to the variable area fan nozzle door wherein a thrust reverser door drive system drives the thrust reverser door;fixing a drive unit to the fixed surface, wherein the drive unit includes a motor and a summing gearbox, the thrust reverser door drive system being separate from the drive unit;connecting a shaft to the variable area fan nozzle door at a first end; andcoupling the shaft to the drive unit at a second end so that the shaft extends through the drive unit with the first end of the shaft extending outward in a first axial direction from the drive unit and the second end of the shaft extending outward in a second axial direction from the drive unit, wherein the shaft is drivable by the drive unit to move the variable area fan nozzle door, and wherein the drive unit allows for the shaft to passively move axially through the summing gearbox of the drive unit when the variable area fan nozzle door moves with the thrust reverser door by the thrust reverser door drive system. 12. The method of claim 11, wherein the fixed surface is a nacelle. 13. The method of claim 11, wherein the shaft is coupled to the drive unit by a splined connection. 14. The method of claim 11, wherein the summing gearbox is configured to impart rotation to the shaft. 15. A system to drive a thrust reverser door relative to a variable area fan nozzle door from a fixed part, the system comprising: a thrust reverser door movable between a first position and a second position, wherein a thrust reverser door drive system drives the thrust reverser door;a variable area fan nozzle door connected to and movable with the thrust reverser door and further movable between the second position and a third position;a drive unit fixed to the fixed part, wherein the drive unit includes a motor and a summing gearbox, the thrust reverser door drive system being separate from the drive unit;a rotatable shaft connected to the variable area fan nozzle door and coupled to and extending through the summing gearbox of the drive unit to be rotated by the drive unit, and to allow for the shaft to passively move axially with respect to the drive unit when the thrust reverser door moves the variable area fan nozzle door by the thrust reverser door drive system, wherein when the thrust reverser door is in the first position, a first end of the rotatable shaft extends outward from a first axial end of the drive unit, and a second end of the rotatable shaft extends outward from a second axial end of the drive unit;a collar connected to the thrust reverser door and the shaft; anda ball nut connected to the variable area fan nozzle door to translate rotational movement from the shaft into movement for the variable area fan nozzle door. 16. The system of claim 15, wherein the movement of the variable area fan nozzle door is pivotal movement.
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Blanding,David E.; Watanabe,Atsuo J., Fault-tolerant electro-mechanical actuator having motor armatures to drive a ram and having an armature release mechanism.
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Rey, Nancy M.; Miller, Robin Mihekun; Tillman, Thomas G.; Rukus, Robert M.; Kettle, John L., Variable area nozzle for gas turbine engines driven by shape memory alloy actuators.
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