Method and a device for stopping a turboshaft engine in nominal operation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-031/06
F01D-021/00
F02C-009/00
B64C-027/46
F02C-003/10
F02C-009/26
출원번호
US-0083533
(2016-03-29)
등록번호
US-10112723
(2018-10-30)
우선권정보
FR-15 00643 (2015-03-31)
발명자
/ 주소
Rossotto, Regis
Piccone, Jean-Francois
출원인 / 주소
Airbus Helicopters
대리인 / 주소
Brooks Kushman P.C.
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A method of stopping a turboshaft engine in flight. During a power reduction step, a current power of the engine for stopping is reduced to reach zero power, and a current speed of rotation of the gas generator of the engine for stopping is reduced to reach a predetermined intermediate speed when th
A method of stopping a turboshaft engine in flight. During a power reduction step, a current power of the engine for stopping is reduced to reach zero power, and a current speed of rotation of the gas generator of the engine for stopping is reduced to reach a predetermined intermediate speed when the current power becomes zero. During a temperature stabilization step, the current speed of rotation remains equal to the intermediate speed. During a shutdown step, the current speed of rotation is reduced to reach zero speed.
대표청구항▼
1. A method of stopping a turboshaft engine in flight on a multi-engined aircraft, the turboshaft engine developing a current power at each instant, the turboshaft engine including a gas generator having at least one member presenting, at each instant, rotation at a current speed of rotation, the me
1. A method of stopping a turboshaft engine in flight on a multi-engined aircraft, the turboshaft engine developing a current power at each instant, the turboshaft engine including a gas generator having at least one member presenting, at each instant, rotation at a current speed of rotation, the method comprising a step of generating an order to generate a stop order ordering stopping of the turboshaft engine, the method performing automatically and in succession for the turboshaft engine the following steps when the stop order is generated: a power reduction step comprising the stages of: reducing the current power at a predetermined power variation rate to reach zero power;reducing the current speed of rotation so that the current speed of rotation reaches a non-zero, predetermined intermediate speed when the current power becomes zero;a temperature stabilization step during which the current speed of rotation remains equal to the intermediate speed; anda shutdown step during which the current speed of rotation is reduced from the intermediate speed to reach zero speed. 2. The method according to claim 1, wherein the aircraft has a given number of turboshaft engines including the turboshaft engine and at least one non-stopped turboshaft engine and the aircraft has an anticipator generating a power anticipation order for controlling the turboshaft engines as a function of a piloting order transmitted to a control member controlling a path followed by the aircraft, the power reduction step including an anticipation stage during which the anticipation order transmitted to each non-stopped turboshaft engine is increased by applying a predetermined anticipation variation rate, which is a function of the power variation rate. 3. A method of stopping a turboshaft engine in flight on a multi-engined aircraft, the turboshaft engine developing a current power at each instant, the turboshaft engine including a gas generator having at least one member presenting, at each instant, rotation at a current speed of rotation, the method comprising a step of generating an order to generate a stop order ordering stopping of the turboshaft engine, the method performing automatically and in succession for the turboshaft engine the following steps when the stop order is generated: a power reduction step comprising the stages of: reducing the current power at a predetermined power variation rate to reach zero power;reducing the current speed of rotation so that the current speed of rotation reaches a predetermined intermediate speed when the current power becomes zero;a temperature stabilization step during which the current speed of rotation remains equal to the intermediate speed; anda shutdown step during which the current speed of rotation is reduced from the intermediate speed to reach zero speed;wherein the aircraft has a given number of turboshaft engines including the turboshaft engine and at least one non-stopped turboshaft engine and the aircraft has an anticipator generating a power anticipation order for controlling the turboshaft engines as a function of a piloting order transmitted to a control member controlling a path followed by the aircraft, the power reduction step including an anticipation stage during which the anticipation order transmitted to each non-stopped turboshaft engine is increased by applying a predetermined anticipation variation rate, which is a function of the power variation rate;wherein the anticipation variation rate is equal to the quotient of the power variation rate divided by a difference of the given number of turboshaft engines and one. 4. The method according to claim 1, wherein the power variation rate lies in a range of 1 percent to 15 percent of a reference power per second. 5. The method according to claim 4, wherein the reference power corresponds to the current power developed by the turboshaft engine when the stop order is given. 6. The method according to claim 1, wherein the power variation rate is determined as a function of a stage of flight of the aircraft. 7. The method according to claim 1, wherein the power variation rate is determined as a function of at least one of the following parameters: a piloting parameter of the aircraft relating to a parameter controlled by a pilot; a flight parameter relating to flight conditions of the aircraft; an engine parameter relating to an operation of the turboshaft engine; and information indicating whether the aircraft is carrying passengers. 8. The method according to claim 7, wherein each piloting parameter is to be selected from a list, the list comprising at least: information about a collective pitch of blades of a lift rotor of the aircraft; and information relating to a pitch of blades of a yaw movement control rotor of the aircraft. 9. The method according to claim 7, wherein each flight parameter is to be selected from a list, the list comprising at least: a speed of the aircraft; an altitude of the aircraft; a temperature outside the aircraft; a speed of a lift rotor of the aircraft; and a weight of the aircraft. 10. The method according to claim 7, wherein each engine parameter is to be selected from a list, the list comprising at least: a temperature of the turboshaft engine; a torque of the turboshaft engine; and the current speed of rotation of the gas generator of the turboshaft engine. 11. The method according to claim 1, wherein at least one booster pump of the turboshaft engine is switched off when the current speed of rotation of the turboshaft engine is zero. 12. The method according to claim 1, wherein the turboshaft engine is provided with a dynamic air inlet facing towards a front end of the aircraft. 13. The method according to claim 1, wherein the stop order is considered only if the aircraft is flying at an altitude greater than an altitude threshold. 14. A stop device for stopping a turboshaft engine in flight on a multi-engined aircraft, the turboshaft engine developing a current power at each instant, the turboshaft engine including a gas generator having at least one member presenting, at each instant, rotation at a current speed of rotation, the stop device comprising: control means for requesting stopping of the turboshaft engine; anda processor unit configured to perform automatically and in succession for the turboshaft engine in response a request for stopping of the turboshaft engine from the control means: a power reduction stage during which (i) the current power is reduced at a predetermined power variation rate to reach zero power and (ii) the current speed of rotation is reduced so that the current speed of rotation reaches a non-zero, predetermined intermediate speed when the current power becomes zero;a temperature stabilization stage during which the current speed of rotation is maintained equal to the intermediate speed; anda shutdown stage during which the current speed of rotation is reduced from the intermediate speed to reach zero speed.
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이 특허에 인용된 특허 (6)
Chaneac Andr (2 place de la Paix 07200 Aubenas FRX), Engine and lift unit for aircraft and new type of aircraft fitted with such a unit.
McLain Richard D. (Indianapolis IN) Nelson Robert E. (Indianapolis IN) Van Sickle Bernard H. (Indianapolis IN) Watts ; III Oran A. (Indianapolis IN), Helicopter power plant control.
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