Simplified flight control system including a declutchable friction device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-001/10
B64C-013/04
B64C-013/10
B64C-013/30
B64C-027/59
G05G-005/08
G05G-005/22
출원번호
US-0102238
(2011-05-06)
등록번호
US-8886370
(2014-11-11)
우선권정보
FR-10 01973 (2010-05-07)
발명자
/ 주소
Carlavan, Cédric
Leguay, Pascal
출원인 / 주소
Airbus Helicopters
대리인 / 주소
Brooks Kushman P.C.
인용정보
피인용 횟수 :
2인용 특허 :
9
초록▼
The present invention relates to a friction device (11) for maintaining a control member (2, 8) in a determined position. The device comprises a contact part (16) movable between a declutched stable position and a clutched stable position, and vice versa. The clutched stable position corresponds to
The present invention relates to a friction device (11) for maintaining a control member (2, 8) in a determined position. The device comprises a contact part (16) movable between a declutched stable position and a clutched stable position, and vice versa. The clutched stable position corresponds to a position in which the contact part (16) bears against the control member (2, 8) in such a manner as to establish a determined friction force. An electromechanical drive means moves the contact part (16) between the two stable positions. The device includes remote control means for activating and deactivating the drive means.
대표청구항▼
1. A friction device for maintaining a manual control member of an aircraft in a determined position, wherein the device comprises: a contact part movable between a declutched stable position and a clutched stable position, and vice versa, said clutched stable position corresponding to a position in
1. A friction device for maintaining a manual control member of an aircraft in a determined position, wherein the device comprises: a contact part movable between a declutched stable position and a clutched stable position, and vice versa, said clutched stable position corresponding to a position in which the contact part bears against the control member in such a manner as to establish a determined friction force;electromechanical drive means for moving the contact part between the two stable positions, wherein the drive means comprise an electric motor imparting rotary drive to a threaded shaft having a nut mounted thereon, the nut being secured to the contact part, said nut being prevented from moving in rotation by a stationary stop finger having one end engaged transversely in said nut in such a manner as to impose movement in translation on said nut in a guide jacket under an effect of rotation of the threaded shaft;remote control means for manually activating and deactivating the drive means, wherein the remote control means are installed on the control member; andlimiter means for automatically limiting the friction force to a determined maximum friction threshold, wherein the limiter means comprise an oblong slot formed in the nut and having the end of the stop finger engaged therein, thereby limiting a stroke of movement in translation of the nut to a distance corresponding to the longitudinal dimension of the oblong slot and consequently limiting a compression of the spring. 2. A friction device according to claim 1, including compensation means for automatically taking up the wear of the contact part and the control member providing the determined friction force. 3. A friction device according to claim 1, wherein the control member is a cyclic stick of a rotorcraft of a helicopter type. 4. A friction device according to claim 1, including means for adjusting the level of the friction force. 5. A friction device according to claim 1, wherein the contact part has a female fitting of hemispherical shape for coming to bear against a male fitting of complementary hemispherical shape fastened on the control member in order to establish friction. 6. A friction device according to claim 1, including compensation means for automatically taking up the wear of the contact part and the control member providing the determined friction force, and wherein the compensation means comprise firstly a fitting support slidably mounted and prevented from moving in rotation on an end portion of the nut, which end portion presents a diameter smaller than the diameter of the remaining portion of said nut, and secondly a spring mounted on the end portion of the nut between the fitting support and a shoulder formed by the remaining portion, said spring being compressed when friction is established. 7. A flight control system for an aircraft having at least one moving member for varying aircraft attitude, the system comprising: at least one manual control member acting on at least two control axes of the aircraft, wherein the manual control member is a cyclic stick and wherein the attitude-varying moving member is a swashplate controlled by servo-controls, the control axes thus comprising a roll control axis (R) and a pitch control axis (T) of the aircraft; andat least one control linkage (Cr, Ct, Cc, Cl) for each control axis, each control linkage (Cr, Ct, Cc, Cl) connecting a control member to at least one attitude-varying moving member of the aircraft,wherein the system includes a friction device for maintaining the at least one manual control member of the aircraft in a determined position in at least one control linkage (Cr, Ct, Cc, Cl), the friction device comprising: a contact part movable between a declutched stable position and a clutched stable position, and vice versa, said clutched stable position corresponding to a position in which the contact part bears against the control linkage in such a manner as to establish a determined friction force, the contact part having a female fitting of hemispherical shape for coming to bear against a male fitting of complementary hemispherical shape fastened on the control member in order to establish friction,electromechanical drive means for moving the contact part between the two stable positions, andremote control means for activating and deactivating the drive means;wherein the flight control system has two cyclic sticks connected together by a pitch interlink tube to which the two cyclic sticks are hinged, the friction device constituting an extension at one end of said pitch interlink tube mounted to rotate relative to a longeron of the aircraft structure, and the center of the male hemispherical fitting coinciding with a point of intersection between the axis of said pitch interlink tube and the roll axis of rotation of the cyclic stick situated on the same side as said extension. 8. A flight control system according to claim 7, wherein the remote control means are installed on the control member for manual activation of the electromechanical drive means. 9. An aircraft of the rotorcraft or helicopter type including the flight control system in accordance with claim 7. 10. A flight control system according to claim 7, wherein the remote control means comprise a switch installed on a handle of the control member. 11. A flight control system according to claim 7, including means for increasing the stability of the aircraft. 12. A flight control system according to claim 11, wherein the means for increasing the stability comprise: actuator means having amplitude-limited authority, the actuator means being mounted in series in at least one control linkage (Ct, Cr, Cc, Cl) so as to act on the attitude-varying moving member as a function of a flight setpoint;means for determining an amplitude margin of the actuator means having amplitude-limited authority;an indicator informing a pilot when the amplitude margin is less than a determined value and informing the pilot of a direction in which to move the manual control member in order to restore a margin of sufficient amplitude, said indicator thus providing long-term information about attitude or trajectory control; andmeans for restoring the amplitude margin while conserving a positioning of the attitude-varying moving member. 13. A flight control system according to claim 7, including pedals as a control member for acting on an antitorque rotor, one of the control axes thus representing a yaw control axis (L) of the aircraft. 14. A flight control system according to claim 7, including a collective stick as a control member for acting on the collective pitch of a main rotor, one of the control axes thus representing a collective pitch control axis of the aircraft. 15. A flight control system according to claim 7, including means for adjusting a level of the determined friction force on at least one control linkage in order to optimize the piloting comfort parameter, in particular on cyclic control linkages. 16. A flight control system according to claim 15, wherein the means for adjusting a level of the determined friction force are associated with a remote adjustment member provided on the control member.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (9)
Althof Jon B. ; Tsai Shan-Chin ; Jones Teddy L., Air driven turbine including a blade pitch control system.
Cartmell Daniel H. ; Borgens David B. ; Buus Henning ; Duffy Keith S. ; Gast Mark E. ; Huynh Neal V. ; Lochtie David W. ; Piersbacher Clifton A., Autopilot automatic disconnect system for fly-by-wire aircraft.
Gregory William W. (St. Petersburg FL) Lance Wayne E. (Largo FL) Hegg Jeffrey W. (North Redington Beach FL), Variable servo loop compensation in an active hand controller.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.