Pitch control of contra-rotating airfoil blades
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-011/06
B64C-011/30
F01D-001/26
F02K-003/072
F02C-009/58
B64D-027/00
출원번호
US-0588180
(2012-08-17)
등록번호
US-9376202
(2016-06-28)
우선권정보
GB-1114795.6 (2011-08-26)
발명자
/ 주소
Szymandera, Aleksander Krzysztof
출원인 / 주소
GE AVIATION SYSTEMS LIMITED
대리인 / 주소
GE Global Patent Operation
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
A pitch control mechanism for an open rotor gas turbine engine is provided, the engine having a first rotor assembly and a second rotor assembly, with a plurality of airfoil blades circumferentially mounted on each rotor assembly, and arranged in contra-rotational relationship to each other. The pit
A pitch control mechanism for an open rotor gas turbine engine is provided, the engine having a first rotor assembly and a second rotor assembly, with a plurality of airfoil blades circumferentially mounted on each rotor assembly, and arranged in contra-rotational relationship to each other. The pitch control mechanism includes an actuator assembly configured to be secured to a non-rotating frame of the engine, the actuator assembly having a first actuator and a second actuator, with the actuator assembly being rotationally isolatable from and couplable to the first and second rotor assemblies such that, in use, an actuation signal from the first or second actuator induces a corresponding desired change in pitch of the airfoil blades of the respective first or second rotor assembly independently of the pitch of the airfoil blades of the second or first rotor assembly.
대표청구항▼
1. A pitch control mechanism for an open rotor gas turbine engine, the engine comprising a first rotor assembly and a second rotor assembly, a plurality of airfoil blades circumferentially mounted on each rotor assembly and arranged in contra-rotational relationship to each other, the pitch control
1. A pitch control mechanism for an open rotor gas turbine engine, the engine comprising a first rotor assembly and a second rotor assembly, a plurality of airfoil blades circumferentially mounted on each rotor assembly and arranged in contra-rotational relationship to each other, the pitch control mechanism comprising: an actuator assembly configured to be secured to a non-rotating frame of the engine, the actuator assembly comprising a first actuator and a second actuator, wherein the actuator assembly is rotationally isolated from and coupled to the first and second rotor assemblies such that, in use, an actuation signal from the first or second actuator induces a corresponding desired change in pitch of the airfoil blades of the respective first or second rotor assembly independently of the pitch of the airfoil blades of the second or first rotor assembly, wherein the first and second actuators are concentrically mounted, and the actuator assembly is configured to be spatially decoupled from a gearbox configured to transfer rotational drive to either or both of the first and second rotor assemblies. 2. The pitch control mechanism according to claim 1, wherein the pitch control mechanism further comprises one or more bearing arrangements configured to rotationally isolate and couple the actuator assembly to the first and second rotor assemblies. 3. The pitch control mechanism according to claim 2, wherein the one or more bearing arrangements comprises a first bearing arrangement and a second bearing arrangement, the first bearing arrangement being associated with both of the first actuator and the first rotor assembly, and the second bearing arrangement being associated with both of the second actuator and the second rotor assembly, the first and second bearing arrangements being configured such that a displacement signal of the first or second actuator is transmittable via the respective first or second bearing arrangement to the respective first or second rotor assembly, the first and second bearing arrangements each being couplable to the airfoil blades of the respective first or second rotor assembly such that, in use, the transmitted displacement signal is converted to a rotational output signal to thereby adjust the pitch of the airfoil blades of the respective first or second rotor assembly. 4. A turbine engine comprising: a first rotor assembly and a second rotor assembly, the first and second rotor assemblies each comprising a plurality of airfoil blades circumferentially mounted on each rotor assembly and arranged in contra-rotational relationship to each other, the pitch of the airfoil blades of the first rotor assembly and of the second rotor assembly being independently adjustable of each other; andan actuator assembly secured to a non-rotating frame of the engine, the actuator assembly comprising a first actuator and a second actuator, wherein the actuator assembly is rotationally isolated from and coupled to the first and second rotor assemblies such that, in use, an actuation signal from the first or second actuator induces a corresponding desired change in pitch of the airfoil blades of the respective first or second rotor assembly, wherein the first and second actuators are concentrically mounted and, the actuator assembly is configured to be spatially decoupled from a gearbox configured to transfer rotational drive to either or both of the first and second rotor assemblies. 5. The engine according to claim 4, wherein the engine further comprises one or more bearing arrangements configured to rotationally isolate and couple the actuator assembly to the first and second rotor assemblies. 6. The engine according to claim 5, wherein the one or more bearing arrangements comprises a first bearing arrangement and a second bearing arrangement, the first bearing arrangement being associated with the first actuator and the first rotor assembly, and the second bearing arrangement being associated with the second actuator and the second rotor assembly, the first and second bearing arrangements being configured such that a displacement signal of the first or second actuator is transmittable via the respective first or second bearing arrangement to the respective first or second rotor assembly, the first and second bearing arrangements each being coupled to the airfoil blades of the respective first and second rotor assembly such that, in use, the transmitted displacement signal is converted to a rotational output signal to thereby adjust the pitch of the airfoil blades of the respective first or second rotor assembly. 7. The engine according to claim 6, further comprising a pin and roller arrangement for the coupling of the first or second bearing arrangement with the airfoil blades of the respective first or second rotor assembly. 8. The engine according to claim 7, wherein either or both of the first or second bearing arrangements comprises a bearing mounted relative to the respective first or second actuator such that a displacement signal of the first or second actuator acts upon an axial end face of the bearing to thereby transmit a corresponding axial load to an axially slideable annular yoke rotatable with the respective first or second rotor assembly, the airfoil blades of the respective first or second rotor assembly being mounted to a plurality of radially extending shafts circumferentially disposed about the yoke, the pin and roller arrangement comprising: a combination of a pin and a roller associated with one or more of the radially extending shafts,wherein the roller is located in an annular groove provided on a surface of the yoke wherein the roller is configured to slide about the annular groove of the yoke under the action of the transmitted axial load, wherein the roller is offset from a longitudinal axis of the associated one or more radially extending shafts, andwherein the pin connects each roller to the associated one or more radially extending shafts such that sliding of the roller about the annular groove of the yoke acts upon the pin to twist the associated one or more radially extending shafts and thereby adjust the pitch of the airfoil blades of the respective first or second rotor assembly. 9. The engine according to claim 8, wherein each shaft of the plurality of radially extending shafts is associated to a respective combination of pin and roller. 10. The engine according to claim 9, wherein the actuator assembly is mounted along or parallel to a longitudinal axis of the engine. 11. The engine according to claim 4, wherein the gearbox is an epicyclic gearbox for transferring rotational drive to both of the first and second rotor assemblies, the first and second rotor assemblies being driven in opposing directions, the actuator assembly arranged to be spatially decoupled from the epicyclic gearbox.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (7)
Kliman Gerald B. (Schenectady NY) Jones Donald W. (Burnt Hills NY), Aircraft engine unducted fan blade pitch control system.
Glynn, Christopher Charles; Zatorski, Darek Tomasz; Yeager, Donald Scott; Dinsmore, Nicholas Rowe; Menard, Jeffrey Raymond; Miller, Brandon Wayne, Hydraulic system for fan pitch change actuation of counter-rotating propellers.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.