Multi-ratio rotorcraft drive system and a method of changing gear ratios thereof
First Claim
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1. A rotorcraft drive system comprising:
- a rotor system comprising one or more rotors;
one or more engines, each engine of the one or more engines being coupled to the rotor system through a multi-ratio transmission, the multi-ratio transmission comprising;
an output shaft coupled to the rotor system;
an input shaft coupled to a respective engine of the one or more engines;
a high speed clutch integrated into a high speed gear train; and
a low speed clutch integrated into a low speed gear train,wherein the high speed clutch and the low speed clutch are freewheeling clutches without a friction plate and are capable of disconnecting the output shaft and the input shaft in an overrunning condition when the output shaft spins faster than the input shaft; and
wherein the multi-ratio transmission shifts between the high speed gear train and the low speed gear train by engaging or disengaging the high speed clutch and modulating speed of the coupled engine.
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Abstract
A multi-ratio rotorcraft drive system and a method of changing gear ratios thereof are disclosed. According to one embodiment, the multi-ratio rotorcraft drive system comprises a rotor system comprising one or more rotors and one or more engines. Each engine of the one or more engines is coupled to the rotor system through a multi-ratio transmission. The multi-ratio transmission comprises an output shaft coupled to the rotor system, an input shaft coupled to a respective engine of the one or more engines, a high speed clutch integrated into a high speed gear train, and a low speed clutch integrated into a low speed gear train. The high speed clutch and the low speed clutch are freewheeling clutches without a friction plate and are capable of disconnecting the output shaft and the input shaft in an overrunning condition when the output shaft spins faster than the input shaft. The multi-ratio transmission shifts between the high speed gear train and the low speed gear train by engaging or disengaging the high speed clutch and modulating speed of the coupled engine.
30 Citations
18 Claims
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1. A rotorcraft drive system comprising:
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a rotor system comprising one or more rotors; one or more engines, each engine of the one or more engines being coupled to the rotor system through a multi-ratio transmission, the multi-ratio transmission comprising; an output shaft coupled to the rotor system; an input shaft coupled to a respective engine of the one or more engines; a high speed clutch integrated into a high speed gear train; and a low speed clutch integrated into a low speed gear train, wherein the high speed clutch and the low speed clutch are freewheeling clutches without a friction plate and are capable of disconnecting the output shaft and the input shaft in an overrunning condition when the output shaft spins faster than the input shaft; and wherein the multi-ratio transmission shifts between the high speed gear train and the low speed gear train by engaging or disengaging the high speed clutch and modulating speed of the coupled engine. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of reducing the speed of a rotor system driven by one or more engines from a high speed to a low speed, the method comprising:
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lowering the speed of the rotor system from the high speed to a transitional speed; shifting a first multi-ratio transmission coupled to a first engine of the one or more engines from a high gear train integrating a high speed clutch to a low gear train integrating a low speed clutch while the speed of the rotor system is maintained at or near the transitional speed; shifting a second multi-ratio transmission coupled to a second engine of the one or more engines from a high gear train integrating a high speed clutch to a low gear train integrating a low speed clutch while the speed of the rotor system is maintained at or near the transitional speed; and restoring the speed of the first engine and second engine to an optimum engine speed, causing the speed of the rotor system to be reduced to the low speed. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A method of increasing the speed of a rotor system driven by one or more engines from a low speed to a high speed, the method comprising:
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increasing the speed of the rotor system from the low speed to a transitional speed; shilling a first multi-ratio transmission coupled to a first engine of the one or more engines from a low gear train integrating a low speed clutch to a high gear train integrating a high speed clutch while the speed of the rotor system is maintained at or near the transitional speed; shifting a second multi-ratio transmission coupled to a second engine of the one or more engines from a low gear train integrating a low speed clutch to a high gear train integrating a high speed clutch while the speed of the rotor system is maintained at or near the transitional speed; and restoring the speed of the first engine and second engine to an optimum engine speed, causing the speed of the rotor system to be increased to the high speed. - View Dependent Claims (14, 15, 16, 17, 18)
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Specification
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Current AssigneeBell Helicopter Textron Incorporated (Textron Inc)
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Original AssigneeBell Helicopter Textron Incorporated (Textron Inc)
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InventorsEhinger, Ryan T., Fenny, Carlos A., Kilmain, Charles J., Sinusas, Eric A., Worrell, Kevin
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Primary Examiner(s)Wright, Dirk
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Application NumberUS12/502,596Publication NumberTime in Patent Office973 DaysField of Search477/124, 477/2, 477/6, 746/61, 743/25, 416/129US Class Current477/124CPC Class CodesB64C 27/08 with two or more rotorsB64C 27/12 Rotor drivesB64U 10/10 Rotorcrafts
