Method for suppressing vibration in a tiltrotor aircraft
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0595295
(2008-04-11)
|
등록번호 |
US-8196856
(2012-06-12)
|
국제출원번호 |
PCT/US2008/004788
(2008-04-11)
|
§371/§102 date |
20091009
(20091009)
|
국제공개번호 |
WO2008/127696
(2008-10-23)
|
발명자
/ 주소 |
- Wilson, James A.
- Barkley, Jr., Charles L.
- Smith, Jr., Gerald
- Cloud, Jeffrey B.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
10 |
초록
▼
A method is disclosed for suppressing vibration in an aircraft having at least one pair of multiple-blade rotors. The first step of the method is to install in the aircraft at least one pair of vibration suppression devices to form a system, the devices of each system being mounted on opposing sides
A method is disclosed for suppressing vibration in an aircraft having at least one pair of multiple-blade rotors. The first step of the method is to install in the aircraft at least one pair of vibration suppression devices to form a system, the devices of each system being mounted on opposing sides of the aircraft. Then, during operation of the aircraft, the next step is to rotate the at least one pair of rotors in a manner that causes the blades one of each pair of rotors to be out of phase from the other of each pair of rotors. The final step is to use the system to suppress vibrations caused by the out-of-phase rotation of the rotors.
대표청구항
▼
1. A method for suppressing vibration in an aircraft having at least one pair of non-intermeshing multiple-blade rotors, the method comprising: (a) locating in the aircraft at least one pair of vibration suppression devices to form a system, the devices of each system being mounted on opposing sides
1. A method for suppressing vibration in an aircraft having at least one pair of non-intermeshing multiple-blade rotors, the method comprising: (a) locating in the aircraft at least one pair of vibration suppression devices to form a system, the devices of each system being mounted on opposing sides of the aircraft;(b) providing a nacelle pivotally coupled to a wing of the aircraft, being configured to pivot the rotors about the wing in relation to a fuselage;(c) determining the indexing angle for the at least one pair of non-intermeshing multiple-blade rotors, the rotors being indexed according to the number of blades, for achieving a phasing of generated forces exhibited in a plane parallel to that of the rotation of the blades, the forces generated from the reduction of rotor speed as the rotors pivot about the wing;(d) selecting a phasing angle configured to be selected in relation to the phasing of the generated force; and(e) indexing each non-intermeshing multiple-blade rotor prior to flight, so that the blades of one rotor are selectively indexed in relation to the blades of the other rotor, so that each rotor rotates out-of-phase to the other rotor, the indexing between each pair of rotors remains consistently out of phase during flight such that the revolutions per minute of each rotor remains constant with respect to the other rotor; and(f) during operation of the aircraft, using the system to suppress vibrations caused by the out-of-phase rotation of the rotors. 2. The method according to claim 1, wherein step (a) comprises locating passive-type devices. 3. The method according to claim 2, wherein the method further comprises: (g) tuning the passive devices to cause selected vibration suppression characteristics. 4. The method according to claim 1, wherein step (a) comprises locating active-type devices. 5. The method according to claim 4, wherein step (f) comprises operating the active devices to produce selected vibration suppression characteristics. 6. An aircraft, comprising: a fuselage;a plurality of wings extending from the fuselage;a nacelle mounted to each wing being configured to rotate about the wing in relation to the fuselage; andat least one pair of indexed non-intermeshing multiple-blade rotors coupled to the nacelle, the pair of non-intermeshing multiple-blade rotors indexed in an asymmetrical manner according to an indexing angle derived from the number of blades and a phasing angle, the indexing angle being configured to reduce vibrations of the aircraft by reducing forces generated from the reduction of rotor speed as the rotors pivot about the wing, the forces being exhibited in a plane parallel to that of the multiple-blade rotors; andat least one pair of vibration suppression devices located within the aircraft being configured to suppress modified vibration forces produced by the at least one pair of indexed non-intermeshing multiple-blade rotors, as compared to operably rotating in-phase rotors;wherein the indexing angle is determined before flight, the revolutions per minute of each rotor remaining constant with respect to the other rotor such that the indexing angle remains consistently out of phase during flight; andwherein each pair of vibration suppression devices suppress the modified vibration forces produced by the out-of-phase rotors. 7. The aircraft according to claim 6, wherein the vibration suppression devices are passive-type devices. 8. The aircraft according to claim 7, wherein the passive-type devices comprise: at least a housing, a body, and springs. 9. The aircraft according to claim 8, wherein the passive-type devices are tunable for particular applications by changing at least one of the springs and the mass of the body. 10. The aircraft according to claim 6, wherein the vibration suppression devices are active-type devices. 11. The aircraft according to claim 10, wherein the active-type devices comprise: at least a controller device and an adaptive control algorithm. 12. The aircraft according to claim 11, wherein the active-type devices provide an ability to adapt to changes in at least one of: aircraft configuration;flight conditions; andgross weight. 13. The aircraft according to claim 6, wherein each rotor has three rotor blades, the rotors being indexed at 60 degrees to each other. 14. The aircraft according to claim 6, wherein the modified vibration forces produced by the out-of-phase rotors include at least a lower level of vibration and a rolling moment. 15. The aircraft according to claim 14, wherein at least one set of vibration suppression devices suppresses the rolling moment and at least one set of vibration suppression devices suppresses the vibration. 16. The aircraft according to claim 6, wherein suppression of the modified vibration forces produced by the out-of-phase rotors improves ride quality in the aircraft.
이 특허에 인용된 특허 (10)
-
Magliozzi Bernard (West Suffield CT), Adaptive synchrophaser for reducing aircraft cabin noise and vibration.
-
Elliott Stephen J. (Winchester GB2) Nelson Philip A. (Southampton GB2), Aircraft cabin noise control apparatus.
-
Fenny Carlos Alexander ; Builta Kenneth Eugene, Method and apparatus for controlling force fights in a rotating shaft.
-
Smith, Michael R.; Stamps, Frank B.; Pascal, Robert J., Method and apparatus for improved vibration isolation.
-
Magliozzi Bernard (West Suffield CT) Metzger Frederick B. (Simsbury CT), Method for reducing aircraft cabin noise and vibration.
-
Cunningham David C. (Carefree AZ) Davis Lawrence P. (Phoenix AZ) Schmitt Frank M. (Phoenix AZ), Multiaxis vibration isolation system.
-
Borchers, Ingo Udo; Haeusler, Sigurd; Bauer, Michael; Drobietz, Roger; Gleine, Wolfgang, Process and apparatus for noise reduction in multi-engine propeller-driven aircraft.
-
Kaptein Dick (Alphen A/D Rijn NLX), Propeller blade position controller.
-
Kaptein Dick (Alphen A/D Rijn NLX), Propeller blade position controller.
-
Halwes Dennis R. (Arlington TX) Simmons William A. (Fort Worth TX), Vibration suppression system.
이 특허를 인용한 특허 (1)
-
Heverly, II, David E.; DeWaters, Jeremy; Stamps, Frank B., Active vibration control system with non-concentric revolving masses.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.