Constant-velocity drive system for gimbaled rotor hubs
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64D-035/00
B64C-027/52
출원번호
US-0301191
(2006-05-19)
등록번호
US-8336815
(2012-12-25)
국제출원번호
PCT/US2006/019388
(2006-05-19)
§371/§102 date
20081117
(20081117)
국제공개번호
WO2008/045011
(2008-04-17)
발명자
/ 주소
Rauber, Richard
Stamps, Frank B.
Braswell, Jr., James Lee
출원인 / 주소
Bell Helicopter Textron Inc.
대리인 / 주소
Walton, James E.
인용정보
피인용 횟수 :
2인용 특허 :
7
초록▼
A constant-velocity drive system for a rotary-wing aircraft rotor comprising a differential torque-splitting mechanism and a gimbal mechanism is disclosed. A rotary-wing aircraft having a rotary-wing aircraft rotor comprising a differential torque-splitting mechanism and a gimbal mechanism is disclo
A constant-velocity drive system for a rotary-wing aircraft rotor comprising a differential torque-splitting mechanism and a gimbal mechanism is disclosed. A rotary-wing aircraft having a rotary-wing aircraft rotor comprising a differential torque-splitting mechanism and a gimbal mechanism is disclosed.
대표청구항▼
1. A constant-velocity drive system for a rotary-wing aircraft rotor, the constant-velocity drive system comprising: a differential torque-splitting mechanism configured to interface with a mast about a longitudinal mast axis of rotation, the differential torque-splitting mechanism having: a drive d
1. A constant-velocity drive system for a rotary-wing aircraft rotor, the constant-velocity drive system comprising: a differential torque-splitting mechanism configured to interface with a mast about a longitudinal mast axis of rotation, the differential torque-splitting mechanism having: a drive disk located coaxial with the mast axis of rotation and configured to be integral in rotation with the mast;an inner driven member having: an inner base portion coaxial with the mast axis and adjacent the drive disk;an inner riser portion coaxial with the mast axis and extending away from the inner base portion; andinner drive arms extending from the inner riser portion generally radially and spaced a substantial distance along the mast axis away from the inner base portion;an outer driven member comprising: an outer base portion coaxial with the mast axis and adjacent the drive disk;an outer riser portion coaxial with the mast axis and extending from the outer base portion and toward the inner drive arms; andouter drive arms extending generally radially from the outer riser portion and spaced along the mast axis away from the outer base portion; andtriple joint pins each having three joint connections, each joint connection pivotally engaging the drive disk, the inner base portion, or the outer base portion; anda gimbal mechanism configured to be driven in rotation by the inner drive arms and the outer drive arms, the gimbal mechanism being configured to connect with a rotor hub for allowing the rotor hub to gimbal with respect to the mastwherein the gimbal mechanism is axially displaced from the differential torque-splitting mechanism such that the gimbal mechanism rotates about a first rotational plane relative a second rotational plane of the torque-splitting mechanism. 2. The constant-velocity drive system according to claim 1, at least one of the triple joint pins further comprising: opposing end ball joints; anda central cylindrical joint having a central cylindrical joint axis;wherein the central cylindrical joint pivotally engages the drive disk;wherein the central cylindrical joint axis is substantially radial to the mast axis; andwherein the at least one pivot pin is configured for translation along the central cylindrical joint axis. 3. The constant-velocity drive system according to claim 1, at least one of the triple joint pins further comprising: at least one elongated joint wherein a longitudinal axis of the elongated joint is disposed generally radial to the mast axis. 4. A constant-velocity drive system for a rotary-wing aircraft rotor, the constant-velocity drive system comprising: a differential mechanism, the differential mechanism having: a drive disk configured to be integral in rotation with a mast;an upper member at least partially located above the driven disk;a lower member at least partially located below the driven disk;at least one link connecting the upper member and the lower member to the drive disk such that the drive disk drives the upper member and the lower member in rotation with the drive disk and that the upper member and the lower member are allowed to rotate differently with respect to the drive disk; anda gimbal device for driving a rotor hub and for allowing gimbaling of the rotor hub with respect to the mast, the gimbal device being axially spaced from the differential mechanism along a length of the mast;wherein the upper member and the lower member are adapted to drive the gimbal device in rotation; andwherein the upper and lower members each comprise a tubular portion, and wherein the tubular portions are concentric. 5. The constant-velocity drive system according to claim 4, wherein the gimbal device comprises a first drive path portion and a second drive path portion, and wherein the upper member is attached to the first drive path portion and the lower member is attached to the second drive path portion. 6. The constant-velocity drive system according to claim 4, the at least one link comprising: opposing end joints; anda central joint;wherein the central joint pivotally engages the drive disk; andwherein each of the end joints pivotally engage one of the upper member and the lower member. 7. The constant-velocity drive system according to claim 6, wherein each of the opposing end joints are ball joints and wherein the central joint is a generally cylindrical joint having a central cylindrical joint axis, the central cylindrical joint axis being substantially radial to the mast, and wherein the at least one link is configured for translation along the central cylindrical joint axis. 8. The constant-velocity drive system according to claim 4, wherein the link includes at least one elongated joint and wherein a longitudinal axis of the elongated joint is disposed generally radial to the mast. 9. A rotary-wing aircraft rotor with constant velocity drive, comprising: a rotor mast capable of being driven in rotation about a longitudinal axis of said mast;a hub connected to said mast by a constant velocity drive mechanism and by a tilting arrangement, allowing pivoting of the hub as a whole about any flapping axis converging with the axis of the mast and perpendicular to said axis of the mast, in such a way that said hub is capable of being driven in constant velocity rotation by said mast, about a geometrical axis of rotation of the hub which may be inclined in any direction about the axis of the mast; andat least two blades, each linked to said hub by a coupling retaining and hinging the blade in pitch;wherein said constant velocity drive mechanism comprises a differential mechanism for splitting static torque and allowing relative movement, in a plane perpendicular to said axis of the mast, between at least two devices for driving the hub, said differential mechanism comprising a set of three disks placed substantially one above another and substantially coaxial about said axis of the mast, a first disk of which, arranged between second and third disks of the set along said axis of the mast, is a driving disk, integral in rotation with said mast and connected to each of the second and third disks, which are driven, by at least one connecting pin having a longitudinal geometrical axis substantially parallel to said axis of the mast, and hinged to each of the disks in the set by one respectively of two opposing end ball joint connections and a central cylindrical joint connection, each joint being substantially centered on the longitudinal geometrical axis of said connecting pin, each of the second and third disks being connected to the hub by at least one of said at least two driving devices which are each also hinged to the hub, so as to drive said hub in rotation about said geometrical axis of rotation of the hub;wherein said at least two driving devices are substantially spaced from said differential mechanism along said axis of the mast. 10. A convertible aircraft comprising at least one tilting rotor movable from a first position in which the or each tilting rotor operates as an airplane propeller to a second position in which the or each tilting rotor operates as a helicopter main lifting rotor, the or each tilting rotor comprising: a rotor mast capable of being driven in rotation about its longitudinal axis;a hub connected to said mast by a constant velocity drive mechanism and by a tilting arrangement, allowing pivoting of the hub as a whole about any flapping axis converging with the axis of the mast and perpendicular to said axis of the mast, in such a way that said hub is capable of being driven in constant velocity rotation by said mast, about a geometrical axis of rotation of the hub which may be inclined in any direction about the axis of the mast; andat least two blades, each linked to said hub by a coupling retaining and hinging the blade in pitch;wherein said constant velocity drive mechanism comprises a differential mechanism for splitting static torque and allowing relative movement, in a plane perpendicular to said axis of the mast, between at least two devices for driving the hub, said differential mechanism comprising a set of three disks placed substantially one above another and substantially coaxial about said axis of the mast, a first disk of which, arranged between second and third disks of the set along said axis of the mast, is a driving disk, integral in rotation with said mast and connected to each of the second and third disks, which are driven, by at least one connecting pin having a longitudinal geometrical axis substantially parallel to said axis of the mast, and hinged to each of the disks in the set by one respectively of two opposing end ball joint connections and a central cylindrical joint connection, each joint being substantially centered on the longitudinal geometrical axis of said connecting pin, each of the second and third disks being connected to the hub by at least one of said at least two driving devices which are each also hinged to the hub, so as to drive it in rotation about said geometrical axis of rotation of the hub; andwherein said at least two driving devices are substantially spaced from said differential mechanism along said axis of the mast. 11. A rotary-wing aircraft rotor with constant velocity drive, comprising: a rotor mast capable of being driven in rotation about a longitudinal axis of said mast;a hub connected to said mast by a constant velocity drive mechanism and by a tilting arrangement, allowing pivoting of the hub as a whole about any flapping axis converging with the axis of the mast and perpendicular to said axis of the mast, in such a way that said hub is capable of being driven in constant velocity rotation by said mast, about a geometrical axis of rotation of the hub which may be inclined in any direction about the axis of the mast; andat least two blades, each linked to said hub by a coupling retaining and hinging the blade in pitch;wherein said constant velocity drive mechanism comprises a differential mechanism for splitting static torque and allowing relative movement, in a plane perpendicular to said axis of the mast, between at least two devices for driving the hub, said differential mechanism comprising a set of three disks placed substantially one above another and substantially coaxial about said axis of the mast, a first disk of which, arranged between second and third disks of the set along said axis of the mast, is a driving disk, integral in rotation with said mast and connected to each of the second and third disks, which are driven, by at least one connecting pin, each of the second and third disks being connected to the hub by at least one of said at least two driving devices which are each also hinged to the hub, so as to drive said hub in rotation about said geometrical axis of rotation of the hub;wherein the connecting pin comprises three joint connections in which no more than two of said joint connections are ball joint connections substantially centered on a longitudinal geometrical axis of said connecting pin; andwherein said at least two driving devices are substantially spaced from said differential mechanism along said axis of the mast. 12. A convertible aircraft comprising at least one tilting rotor movable from a first position in which the or each tilting rotor operates as an airplane propeller to a second position in which the or each tilting rotor operates as a helicopter main lifting rotor, the or each tilting rotor comprising: a rotor mast capable of being driven in rotation about its longitudinal axis;a hub connected to said mast by a constant velocity drive mechanism and by a tilting arrangement, allowing pivoting of the hub as a whole about any flapping axis converging with the axis of the mast and perpendicular to said axis of the mast, in such a way that said hub is capable of being driven in constant velocity rotation by said mast, about a geometrical axis of rotation of the hub which may be inclined in any direction about the axis of the mast; andat least two blades, each linked to said hub by a coupling retaining and hinging the blade in pitch;wherein said constant velocity drive mechanism comprises a differential mechanism for splitting static torque and allowing relative movement, in a plane perpendicular to said axis of the mast, between at least two devices for driving the hub, said differential mechanism comprising a set of three disks placed substantially one above another and substantially coaxial about said axis of the mast, a first disk of which, arranged between second and third disks of the set along said axis of the mast, is a driving disk, integral in rotation with said mast and connected to each of the second and third disks, which are driven, by at least one connecting pin, each of the second and third disks being connected to the hub by at least one of said at least two driving devices which are each also hinged to the hub, so as to drive it in rotation about said geometrical axis of rotation of the hub;wherein the connecting pin comprises three joint connections in which no more than two of said joint connections are ball joint connections substantially centered on a longitudinal geometrical axis of said connecting pin; andwherein said at least two driving devices are substantially spaced from said differential mechanism along said axis of the mast.
Neathery William D. (Fort Worth TX) Broekhuizen Willem (Arlington TX) Schellhase Ernst C. (Forth Worth TX), Constant velocity elastomeric bearing joint.
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