Flight control actuation system
First Claim
1. A flight control actuation system for use in a flight control system comprising:
- a controller operable in response to an input for generating a control signal;
an electromechanical actuator responsive to the control signal, for operating a flight control surface;
a pneumatic actuator for assisting the electromechanical actuator by reducing the load on the electromechanical actuator;
wherein the pneumatic actuator initializes when the electrical current in the electromechanical actuator exceeds a predetermined amperage.
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Accused Products
Abstract
A flight control actuation system comprises a controller, electromechanical actuator and a pneumatic actuator. During normal operation, only the electromechanical actuator is needed to operate a flight control surface. When the electromechanical actuator load level exceeds 40 amps positive, the controller activates the pneumatic actuator to offset electromechanical actuator loads to assist the manipulation of flight control surfaces. The assistance from the pneumatic load assist actuator enables the use of an electromechanical actuator that is smaller in size and mass, requires less power, needs less cooling processes, achieves high output forces and adapts to electrical current variations. The flight control actuation system is adapted for aircraft, spacecraft, missiles, and other flight vehicles, especially flight vehicles that are large in size and travel at high velocities.
40 Citations
17 Claims
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1. A flight control actuation system for use in a flight control system comprising:
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a controller operable in response to an input for generating a control signal;
an electromechanical actuator responsive to the control signal, for operating a flight control surface;
a pneumatic actuator for assisting the electromechanical actuator by reducing the load on the electromechanical actuator;
wherein the pneumatic actuator initializes when the electrical current in the electromechanical actuator exceeds a predetermined amperage. - View Dependent Claims (2, 3, 4, 5)
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6. The flight control actuation system of 1, wherein the predetermined amperage in the electromechanical actuator is 40 amps positive.
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7. A method for operating a flight control actuation system, the system being adapted to activate at least one pneumatic load assist actuator in response to at least one signal produced by a control surface actuation signal system for positioning at least one control surface, the method comprising the steps of:
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receiving an input signal in the form of a position demand providing an instruction for deflecting a control surface to a new position;
generating a corresponding control signal for operating an electromechanical actuator;
receiving a feedback signal in the form of an electrical current measurement at the electromechanical actuator;
comparing the electrical current measurement to a predetermined electrical current value; and
,generating a corresponding control signal for operating a pneumatic actuator for reducing the load on the electromechanical actuator. - View Dependent Claims (8, 9)
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10. A method for operating a flight control actuation system comprising the steps of:
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operating a flight vehicle;
receiving a flight control surface position demand instruction;
comparing the position demand with output from a control surface position sensor;
generating an actuator position demand to at least one electromechanical actuator;
monitoring the electromechanical actuator electrical current load;
comparing the electrical current load with a predetermined electrical current load limit;
closing at least one vent solenoid valve;
opening at least one pressurization solenoid valve whenever the electromechanical actuator current is more than the predetermined electrical current load limit; and
closing a pressurization solenoid valve whenever the electromechanical actuator electrical current load decreases below the predetermined electrical current load limit. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
opening at least one vent solenoid valve whenever the electromechanical actuator current is negative.
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12. The method of claim 10, further comprising the step of:
closing at least one exhaust valve whenever the electromechanical actuator current is positive.
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13. The method of claim 10, further comprising the step of:
opening at least one exhaust valve and closing at least one pressurization solenoid valve during a failure condition.
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14. The method of claim 10, further comprising the step of generating a pneumatic load assistance requirement instruction to at least one pneumatic load assistance device, for manipulating a flight vehicle control surface.
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15. The method of claim 10, wherein the flight vehicle is an aircraft.
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16. The method of claim 10, wherein the flight vehicle is a spacecraft.
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17. The method of claim 10, wherein the flight vehicle is a missile.
Specification