A system for hindering the pilot from inadvertently turning off the fuel and/or engine when it is not safe is disclosed. In an embodiment, a fuel shutoff interlock is engaged if the aircraft is in the air and cross-side engine is not running. In an embodiment, a fuel shutoff interlock is not engaged
A system for hindering the pilot from inadvertently turning off the fuel and/or engine when it is not safe is disclosed. In an embodiment, a fuel shutoff interlock is engaged if the aircraft is in the air and cross-side engine is not running. In an embodiment, a fuel shutoff interlock is not engaged if essential bus power is not present. In an embodiment, a fuel shutoff interlock is not engaged if the aircraft is on the ground. In an embodiment, a fuel shutoff interlock is not engaged if the cross-side engine is running.
대표청구항▼
1. A method of inhibiting an operator of an aircraft with a plurality of engines from shutting down an operating engine of the aircraft if it would be unsafe to do so, the method comprising the steps of: providing a sensor for automatically determining whether an aircraft is in the air; andproviding
1. A method of inhibiting an operator of an aircraft with a plurality of engines from shutting down an operating engine of the aircraft if it would be unsafe to do so, the method comprising the steps of: providing a sensor for automatically determining whether an aircraft is in the air; andproviding a mechanical or electrical interlock inhibiting an on-board operator of the aircraft from shutting off an operating engine of the aircraft if the aircraft is in the air and the engine or engines other than the operating engine are malfunctioning or non-functional. 2. The method of claim 1, further comprising the steps of: automatically determining whether the aircraft is in a takeoff mode;automatically determining one or more performance parameters of the engines of the aircraft;automatically determining whether the engine or engines other than the operating engine collectively provide enough power for taking off based on the one or more performance parameters; andinhibiting an on-board operator of the aircraft from shutting off the operating engine if the other engine or engines do not collectively provide enough power for taking off. 3. The method of claim 2, wherein the one or more performance parameters includes an angular velocity of a turbine or a crankshaft of at least one of the other one or more engines. 4. The method of claim 2, wherein the one or more performance parameters includes an engine pressure ratio of at least one of the other one or more engines. 5. The method of claim 2, wherein the one or more performance parameters a torque applied to turn a shaft of at least one of the other one or more engines. 6. The method of claim 2, wherein the one or more performance parameters an oil pressure of at least one of the other one or more engines. 7. The method of claim 2, further comprising the step of automatically determining Fully Automated Digital Engine Control (FADEC) signals of at least one of the other one or more engines. 8. The method of claim 1, wherein the aircraft includes a lever and a fuel shut-off valve associated with each engine of the aircraft; and the step of providing an interlock includes a mechanism for locking the fuel shut-off lever to the operating engine to keep the fuel shutoff valve to the operating engine open. 9. The method of claim 8, wherein the aircraft includes a fuel shut-off switch associated with each engine of the aircraft; and the step of providing an interlock includes an electronic circuit for disabling the fuel shut-off switch to the operating engine. 10. The method of claim 8, wherein the aircraft includes a digital control system that automatically controls which engines of the aircraft are ON or OFF; and the step of providing an interlock includes an electronic circuit for disconnecting power to the digital control system to keep the operating engine from being turned OFF. 11. The method of claim 1, further comprising the step of automatically determining whether essential bus power is present to the aircraft; and if essential bus power is present, disabling the interlock that inhibits an operator of the aircraft from shutting off an operating engine of the aircraft. 12. A system for inhibiting an operator of an aircraft having a plurality of engines from shutting down an operating engine of the aircraft if it would be unsafe to do so, comprising: at least one sensor that, when activated, automatically determines whether an aircraft is in the air;a fuel shutoff valve associated with each engine, which when opened, allows fuel being provided to an engine, and which, when closed, stops fuel flow to that engine and shutting off that engine; anda control system that includes at least one processor for automatically inhibiting the closure of the fuel shutoff valve associated with an operating engine if the aircraft is airborne based on the status of the aircraft's other engines. 13. The system of claim 12, further comprising a switch that, when activated, overrides the controlling by the control system the fuel shutoff valve. 14. The system of claim 12, wherein the status of the aircraft's other engines is based on one or more performance parameters of the engines. 15. The system of claim 12, the control system further comprising at least a digital control system that, when activated, automatically controls the fuel shutoff valve based on digital signals. 16. The system of claim 12, the control system further comprising a lever that is mechanically connected to the fuel shutoff valve, the lever being manually operable to open and close the fuel shutoff valve; anda lock mechanism that, when actuated, locks the lever and prevents the lever from closing the fuel shutoff valve if the status indicates an engine other than the operating engine is malfunctioning or non-functional.
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이 특허에 인용된 특허 (4)
Patrick A. Lafferty, Aircraft having multiple fuselages.
Linton Paul (Vancouver WA) Shepherd Richard C. (Vancouver WA) Fisk Brian K. (Portland OR) Epperson ; Jr. Billy G. (Hillsboro OR), Waste liquid evaporator.
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