Electrical thrust reverser tertiary lock system including a voltage limiting circuit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02K-003/02
F02K-003/00
출원번호
US-0990918
(2004-11-16)
등록번호
US-7409820
(2008-08-12)
발명자
/ 주소
Ahrendt,Terry L
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
Ingrassia, Fisher & Lorenz, P.C.
인용정보
피인용 횟수 :
7인용 특허 :
16
초록▼
A system for moving an aircraft thrust reverser component includes a power drive unit, a thrust reverser actuator assembly, and a tertiary lock system. The power drive unit is operable to rotate and supply a rotational drive force. The thrust reverser actuator assembly receives the rotational drive
A system for moving an aircraft thrust reverser component includes a power drive unit, a thrust reverser actuator assembly, and a tertiary lock system. The power drive unit is operable to rotate and supply a rotational drive force. The thrust reverser actuator assembly receives the rotational drive force from the power drive unit and moves the thrust reverser component between a stowed position and a deployed position. The tertiary lock system selectively engages and disengages the thrust reverser component and includes a tertiary lock power unit, an electromechanical tertiary lock assembly, and a voltage limiting circuit. The voltage limiting circuit limits the voltage magnitude of a control signal supplied to the tertiary lock assembly to a predetermined value.
대표청구항▼
I claim: 1. A system for moving an aircraft thrust reverser component, comprising: a power drive unit operable to rotate and thereby supply a rotational drive force; a thrust reverser actuator assembly coupled to receive the rotational drive force and operable, in response thereto, to selectively m
I claim: 1. A system for moving an aircraft thrust reverser component, comprising: a power drive unit operable to rotate and thereby supply a rotational drive force; a thrust reverser actuator assembly coupled to receive the rotational drive force and operable, in response thereto, to selectively move the thrust reverser component between a stowed position and a deployed position; and a tertiary lock system configured to selectively engage and disengage the thrust reverser component to thereby prevent and allow movement thereof, respectively, the tertiary lock system including: a tertiary lock power unit configured to selectively receive an AC tertiary lock release command signal and operable, upon receipt thereof, to supply a DC lock release command signal; an electromechanical tertiary lock assembly adapted to receive a DC tertiary lock control signal and configured, upon receipt thereof, to move between a locked position and an unlocked position; and a voltage limiting circuit coupled between the tertiary lock power unit and the electromechanical tertiary lock assembly, the voltage limiting circuit coupled to receive the DC lock release command signal from the tertiary lock power unit and operable, upon receipt thereof, to supply the DC tertiary lock control signal to the electromechanical tertiary lock assembly, the DC tertiary lock control signal having a voltage magnitude that is limited to a predetermined value. 2. The system of claim 1, wherein the electromechanical tertiary lock assembly comprises: a lock movable between a locked position and an unlocked position; a DC motor coupled to receive the DC lock release command and operable, in response thereto, to supply a lock release drive force; and a tertiary lock actuator coupled to receive the lock release drive force from the DC motor and operable, in response thereto, to move the lock to the unlocked position. 3. The system of claim 2, wherein the DC motor is a brush-type DC motor. 4. The system of claim 1, wherein the tertiary lock release command signal is an AC signal of a first peak voltage magnitude, and wherein the tertiary lock power unit comprises: a step-down transformer adapted to receive the AC tertiary lock release command signal and operable, upon receipt thereof, to supply an AC signal of a second peak voltage magnitude, the second peak voltage magnitude being less than the first peak voltage magnitude; a rectifier circuit coupled to receive the AC signal of the second peak voltage magnitude from the step-down transformer and configured, upon receipt thereof, to supply the DC lock release command signal. 5. The power unit of claim 4, wherein the step-down transformer includes a primary winding and a secondary winding, and wherein the power unit further comprises: an input filter circuit coupled to the step-down transformer primary winding, the filter circuit configured to receive the tertiary lock release command signal and remove selected frequency components therefrom. 6. The power unit of claim 4, wherein the rectifier circuit comprises a full-wave bridge rectifier circuit. 7. The power unit of claim 4, wherein the voltage limiting circuit comprises: a voltage limiter coupled in parallel with the rectifier circuit and configured to limit the DC tertiary lock control signal to the fourth voltage magnitude, the voltage limiter including a first terminal, a second terminal, and a third terminal, the first terminal coupled to the rectifier circuit, the second terminal coupled to the rectifier circuit and adapted to couple to the electromechanical tertiary lock assembly; and a voltage follower circuit including at least an input terminal, an output terminal, and a control terminal, the voltage follower circuit input terminal coupled to the voltage limiter first terminal, the voltage follower circuit control terminal coupled to the voltage limiter third terminal, and the voltage follower circuit output terminal adapted to couple to the electromechanical tertiary lock assembly. 8. The power unit of claim 7, wherein the voltage limiter comprises: a resistor circuit and a zener diode circuit electrically coupled in series with one another, the resistor circuit electrically coupled in series between the first and third terminals, and the zener diode circuit electrically coupled in series between the second and third terminals. 9. The power unit of claim 8, wherein the voltage limiter further comprises: a diode circuit electrically coupled in series with the resistor circuit and the zener diode circuit. 10. The power unit of claim 9, wherein the diode circuit is configured to prevent reverse current flow through the zener diode. 11. The power unit of claim 7, wherein the voltage follower circuit comprises a Darlington pair. 12. An aircraft thrust reverser tertiary lock system, comprising: a tertiary lock power unit configured to selectively receive an AC tertiary lock release command signal and operable, upon receipt thereof, to supply a DC lock release command signal; an electromechanical tertiary lock assembly adapted to receive a DC tertiary lock control signal and configured, upon receipt thereof, to move between a locked position and an unlocked position; and a voltage limiting circuit coupled between the tertiary lock power unit and the electromechanical tertiary lock assembly, the voltage limiting circuit coupled to receive the DC lock release command signal from the tertiary lock power unit and operable, upon receipt thereof, to supply the DC tertiary lock control signal to the electromechanical tertiary lock assembly, the DC tertiary lock control signal having a voltage magnitude that is limited to a predetermined value. 13. The system of claim 12, wherein the electromechanical tertiary lock assembly comprises: a lock movable between a locked position and an unlocked position; a DC motor coupled to receive the DC lock release command and operable, in response thereto, to supply a lock release drive force; and a tertiary lock actuator coupled to receive the lock release drive force from the DC motor and operable, in response thereto, to move the lock to the unlocked position. 14. The system of claim 13, wherein the DC motor is a brush-type DC motor. 15. The system of claim 12, wherein the tertiary lock release command signal is an AC signal of a first peak voltage magnitude, and wherein the tertiary lock power unit comprises: a step-down transformer adapted to receive the AC tertiary lock release command signal and operable, upon receipt thereof, to supply an AC signal of a second peak voltage magnitude, the second peak voltage magnitude being less than the first peak voltage magnitude; a rectifier circuit coupled to receive the AC signal of the second peak voltage magnitude from the step-down transformer and configured, upon receipt thereof, to supply the DC lock release command signal. 16. The system of claim 15, wherein the step-down transformer includes a primary winding and a secondary winding, and wherein the power unit further comprises: an input filter circuit coupled to the step-down transformer primary winding, the filter circuit configured to receive the tertiary lock release command signal and remove selected frequency components therefrom. 17. The system of claim 15, wherein the rectifier circuit comprises a full-wave bridge rectifier circuit. 18. The system of claim 15, wherein the voltage limiting circuit comprises: a voltage limiter coupled in parallel with the rectifier circuit and configured to limit the DC tertiary lock control signal to the fourth voltage magnitude, the voltage limiter including a first terminal, a second terminal, and a third terminal, the first terminal coupled to the rectifier circuit, the second terminal coupled to the rectifier circuit and adapted to couple to the electromechanical tertiary lock assembly; and an voltage follower circuit including at least an input terminal, an output terminal, and a control terminal, the voltage follower circuit input terminal coupled to the voltage limiter first terminal, the voltage follower circuit control terminal coupled to the voltage limiter third terminal, and the voltage follower circuit output terminal adapted to couple to the electromechanical tertiary lock assembly. 19. The system of claim 18, wherein the voltage limiter comprises: a resistor circuit and a zener diode circuit electrically coupled in series with one another, the resistor circuit electrically coupled in series between the first and third terminals, and the zener diode circuit electrically coupled in series between the second and third terminals. 20. The system of claim 19, wherein the voltage limiter further comprises: a diode circuit electrically coupled in series with the resistor circuit and the zener diode circuit. 21. The system of claim 20, wherein the diode circuit is configured to prevent reverse current flow through the zener diode. 22. The system of claim 18, wherein the voltage follower circuit comprises a Darlington pair. 23. An aircraft thrust reverser tertiary lock system, comprising: a lock movable between a locked position and an unlocked position; a voltage limiting circuit adapted to receive a DC lock release command signal and operable, in response thereto, to supply a DC tertiary lock control signal, the DC tertiary lock control signal having a voltage magnitude that is limited to a predetermined value; a DC motor coupled to receive the DC tertiary lock control signal and operable, in response thereto, to supply a lock release drive force; and a tertiary lock actuator coupled to receive the lock release drive force from the DC motor and operable, in response thereto, to move the lock to the unlocked position. 24. The system of claim 23, wherein the DC motor is a brush-type DC motor. 25. The system of claim 23, wherein the voltage limiting circuit comprises: a voltage limiter configured to limit the DC tertiary lock control signal to the predetermined value, the voltage limiter including a first terminal, a second terminal, and a third terminal, the first and second terminals coupled to receive the DC tertiary lock control signal, the second terminal further coupled to the DC motor; and a voltage follower circuit including at least an input terminal, an output terminal, and a control terminal, the voltage follower circuit input terminal coupled to the voltage limiter first terminal, the voltage follower circuit control terminal coupled to the voltage limiter third terminal, and the voltage follower circuit output terminal coupled to the DC motor. 26. The power unit of claim 25, wherein the voltage limiter comprises: a resistor circuit and a zener diode circuit electrically coupled in series with one another, the resistor circuit electrically coupled in series between the first and third terminals, and the zener diode circuit electrically coupled in series between the second and third terminals. 27. The system of claim 26, wherein the voltage limiter further comprises: a diode circuit electrically coupled in series with the resistor circuit and the zener diode circuit. 28. The system of claim 27, wherein the diode circuit is configured to prevent reverse current flow through the zener diode. 29. The system of claim 23, wherein the voltage follower circuit comprises a Darlington pair.
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