System for in-flight restarting of a multi-shaft turboprop engine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-007/262
F02C-007/268
F02N-011/00
F01D-015/10
F02N-011/04
F02C-006/20
H02P-009/08
F02N-011/08
H02P-101/30
출원번호
US-0179059
(2014-02-12)
등록번호
US-9422905
(2016-08-23)
우선권정보
IT-TO2013A0117 (2013-02-13)
발명자
/ 주소
Anastasio, Vincenzo
Cuomo, Fabrizio
출원인 / 주소
ALENIA AERMACCHI S.P.A.
대리인 / 주소
Gottlieb, Rackman & Reisman, PC
인용정보
피인용 횟수 :
0인용 특허 :
1
초록▼
A multi-shaft aeronautical turboprop engine in which a compressor draws in air coming from an air intake and drives, through an outer first shaft, a first stage of a turbine, which is provided with a second stage that drives a propeller by means of a second shaft mounted coaxially inside the first s
A multi-shaft aeronautical turboprop engine in which a compressor draws in air coming from an air intake and drives, through an outer first shaft, a first stage of a turbine, which is provided with a second stage that drives a propeller by means of a second shaft mounted coaxially inside the first shaft. A starting system is provided that comprises: an asynchronous reversible electric machine connected by means of a transmission to the first shaft; a synchronous electric machine connected by means of a transmission to the second shaft; a reconfigurable electrical network that, in a phase of dynamic starting of the turboprop engine following its cutting out during flight, enables the transfer of energy produced by the synchronous electric machine, set in rotation by the propeller driven by dynamic effects, to the asynchronous electric machine, which is set in rotation at a lower speed than the asynchronous machine. The torque generated by the asynchronous machine is added to the torque originating from the blade compressor, which is impinged upon by the airflow coming from the air intake; the composition of these torques enables the first shaft to be set in rotation at a speed sufficient to achieve the restarting of the turboprop engine.
대표청구항▼
1. A multi-shaft aeronautical turboprop engine comprising a casing (3) housing a compressor (4) that draws in air coming from an air intake (5) and drives, through a first shaft (7), a first stage (8p) of a turbine (8) set in rotation by exhaust gases coming from a plurality of burners (10); the tur
1. A multi-shaft aeronautical turboprop engine comprising a casing (3) housing a compressor (4) that draws in air coming from an air intake (5) and drives, through a first shaft (7), a first stage (8p) of a turbine (8) set in rotation by exhaust gases coming from a plurality of burners (10); the turbine (8) being provided with a secondary stage (8s) that drives a propeller (12) by means of a second shaft (13);said turboprop engine being characterized in that it includes a starting system, comprising: an asynchronous reversible electric machine (20) connected by means of a transmission (19) to the first shaft (7);a synchronous electric machine (22) connected by means of a transmission (15) to the second shaft (13);a reconfigurable electrical network (25) that, in a phase of dynamic starting of the turboprop engine (1) following its cutting out during flight, enables the transfer of energy produced by the synchronous electric machine (22), working as a generator under the thrust of the propeller driven by dynamic effects, to the asynchronous electric machine (20), which operates as motor and turns at a lower speed than the asynchronous machine; the torque generated by the asynchronous machine (20) is added to the torque originating from the compressor (4), which is impinged upon by the airflow coming from the air intake (5); the composition of said torques enables the first shaft (7) to be set in rotation at a speed sufficient to achieve the starting of the turboprop engine. 2. The turboprop engine according to claim 1, wherein control means are provided that are able to disconnect at least one of the polar pairs of the asynchronous electric machine (20) in order to increase its speed of rotation during said phase of dynamic starting. 3. The turboprop engine according to claim 1, wherein said reconfigurable electrical network (25) comprises: a first electric power line (30) that extends between the synchronous electric machine (22) and a reference node (POR; 31); a first switch (32), the switching of which is controlled by an electronic control unit (34), is provided along the first electric power line (30));a second electric power line (36) that extends between the reference node (31) and the asynchronous electric machine (20); a second switch (38), the switching of which is controlled by the electronic control unit (34), is provided along the second electric power line (36); anda third electric power line (42) that extends between the synchronous electric machine (20) and an inverter (43) that can be powered by a DC voltage source (44); a third switch (46), the switching of which is also controlled by the electronic control unit (34), is provided along the third electric power line (42); said reference node (31) can be connected to an electric power line (39) on board an aircraft through a circuit breaker (40). 4. The turboprop engine according to claim 3, wherein said electronic control unit (34) is configured to perform a phase of static starting (FIG. 3a) of said turboprop engine, in which the control unit (34) assumes control of the starting sequence by closing the third switch (46) in such a way that the DC voltage supplied by the batteries (44) is transformed by the inverter (43) into an AC voltage, controlled in amplitude and frequency, supplied to the asynchronous electric machine (20) that functions as a motor, generating torque for driving the first shaft (7) in rotation at a speed such as to enable starting of the turboprop engine (1). 5. The turboprop engine according to claim 3, wherein said electronic control unit (34) is configured to perform a phase of dual generation (FIG. 3b), in which the electronic control unit (34) controls the closing of the first and second switches (32 and 38) and the opening of the third switch (46) in order to disconnect the inverter (43) from the configurable electric power line (25); said turboprop engine sets in rotation the asynchronous electric machine (20) and the synchronous electric machine (22), which both behave as generators; the speed of rotation ωs of the synchronous electric machine (22) being lower than the speed of rotation ωas of the asynchronous machine (20) such that the asynchronous electric machine (20) can deliver current to the second electric power line (36). 6. The turboprop engine according to claim 5, wherein a closed-loop control system is provided in which a comparison is made between the voltage measured on the reference node (31) and a reference value to generate an error signal that is used for driving excitation of the synchronous electric machine (22) in order to render the voltage on the node (31) as far as possible equal to the reference value. 7. The turboprop engine according to claim 3, wherein said electronic control unit (34) is configured to perform a phase of generation with just the synchronous generator (FIG. 3c), in which the electronic control unit (34) controls the closing of the first switch (32) and the opening of the second and third switches (36 and 46) in order to disconnect the asynchronous electric machine (20) and the inverter (43) from the configurable electric power line (25); said turboprop engine sets in rotation the synchronous electric machine (22), which behaves as a generator. 8. The turboprop engine according to claim 3, wherein said electronic control unit (34) is configured to perform a phase of generation with just the asynchronous generator (FIG. 3d), in which the electronic control unit (34) controls the closing of the second switch (38) and the opening of the first and third switches (32 and 46) in order to disconnect the synchronous electric machine (22) and the inverter (43) from the configurable electric power line (25); the asynchronous electric machine (20) being connected in such a way that its phases receive energy coming from a local energy source, or from the on-board network supplied by the generator of a further turboprop engine in the case of a twin-engined aircraft, in order to ensure excitation of the phases of the asynchronous electric machine (20); said turboprop engine sets in rotation the asynchronous electric machine (22), which behaves as generator. 9. The turboprop engine according to claim 3, wherein said electronic control unit (34) is configured to perform said phase of dynamic starting (FIG. 3e), in which the electronic control unit (34) controls the closing of the first and second switches (32; 38) and the opening of she third switch (46) in order to disconnect the inverter (43) from the configurable electric power line (25) and set the synchronous electric machine (22) in communication with the asynchronous electric machine (20) through the reference node (31); the electrical energy generated by the synchronous electric machine (22), which functions as a generator driven by the propeller that spins due to dynamic effects, is transferred through the first and second electric power lines (30 and 36) to the asynchronous electric machine (20), which functions as a motor and contributes to setting the first shaft (7) in rotation to enable in-flight starting of the turboprop engine (1).
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이 특허에 인용된 특허 (1)
Kandil, Magdy A.; Magnus, Keith R.; Baker, Don, Aircraft starter generator for variable frequency (vf) electrical system.
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