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    Tail Rotor Integrated Damper Attachment
    1.
    发明申请
    Tail Rotor Integrated Damper Attachment 审中-公开

    公开(公告)号:US20180327089A1

    公开(公告)日:2018-11-15

    申请号:US15590736

    申请日:2017-05-09

    Applicant: Bell Helicopter Textron Inc.

    Inventor: Glenn Alan Shimek Nathan Patrick Green Robert Alan Self Mark Adam Wiinikka

    IPC: B64C27/51 B64C27/39

    Abstract: A system and method for attaching a damper to a tail rotor blade includes a cuff that is integral with the rotor blade. The cuff has upper and lower lugs formed by extending a skin over a blade core of the rotor blade. The skin extends past the blade core to the root end of the rotor blade. The rod end of the damper is inserted into an opening between the lugs. The rod end of the damper is coupled to the blade with a bolt through aligned holes in the lugs. The cuff also couples the rotor blade to the grip inside the cuff. The cuff includes a same material as that forming the skin. Sacrificial buffer pads are applied to interior faces of the lugs. The buffer pads permit a distance between the lugs to be machined within a tolerance without removing skin from the cuff.

    Method of blade fold for tiltrotor aircraft
    2.
    发明授权
    Method of blade fold for tiltrotor aircraft 有权

    公开(公告)号:US10858094B2

    公开(公告)日:2020-12-08

    申请号:US16030406

    申请日:2018-07-09

    Applicant: Bell Helicopter Textron Inc.

    Inventor: Amarjit Kizhakkepat Glenn Alan Shimek

    IPC: B64C27/50 B64C29/00 B64C3/56

    Abstract: A method of blade fold for a tiltrotor aircraft includes configuring the tiltrotor aircraft in a flight ready position with a rotor system in an inverted-Y position, unlocking a first rotor blade of the rotor system to permit the first rotor blade to pivot relative to a yoke of the rotor system, restraining the first rotor blade to allow the first rotor blade to pivot relative to the yoke as the yoke is rotated, rotating the rotor system in a first direction so that the first rotor blade pivots closer to a second rotor blade, rotating the rotor system in a second direction to orient the rotor system into a modified inverted-Y position, unlocking a third rotor blade to allow the third rotor blade to pivot relative to the yoke as the yoke is rotated, and rotating the rotor system in the second direction so that the third rotor blade pivots closer to the second rotor blade.

    Inboard Bearing Assemblies with Anti-Rotation Features
    5.
    发明申请
    Inboard Bearing Assemblies with Anti-Rotation Features 审中-公开

    公开(公告)号:US20190017543A1

    公开(公告)日:2019-01-17

    申请号:US15698796

    申请日:2017-09-08

    Applicant: Bell Helicopter Textron Inc.

    Inventor: Glenn Alan Shimek Amarjit Olenchery Kizhakkepat Ken Shundo Michael Dean Dearman Kyle Thomas Cravener Michael Christopher Burnett

    IPC: F16C27/06 B64C29/00

    Abstract: A bearing assembly for coupling a proprotor blade to a yoke in a proprotor system. The bearing assembly is positionable within an inboard pocket of a blade arm of the yoke. The proprotor system is operable for use on a tiltrotor aircraft having helicopter and airplane flight modes. The bearing assembly includes a centrifugal force bearing and a shear bearing having an inboard beam coupled therebetween. The centrifugal force bearing has a mating surface, a lateral movement constraint feature and at least one radially extending anti-rotation feature. The inboard beam has a mating surface in a contact relationship with the mating surface of the centrifugal force bearing, a lateral movement constraint feature operably associated with the lateral movement constraint feature of the centrifugal force bearing and at least one radially extending anti-rotation feature that corresponds with the at least one radially extending anti-rotation feature of the centrifugal force bearing.

    Semi-automatic rotor blade fold mechanism
    6.
    发明授权
    Semi-automatic rotor blade fold mechanism 有权

    公开(公告)号:US10787244B2

    公开(公告)日:2020-09-29

    申请号:US16011721

    申请日:2018-06-19

    Applicant: Bell Helicopter Textron Inc.

    Inventor: Ken Shundo Glenn Alan Shimek

    IPC: B64C11/28 B64C27/50 B64C11/04 B64C27/02

    Abstract: A blade-fold bushing system includes a splined bushing comprising a first plurality of teeth, a castellated bushing comprising a second plurality of teeth and a shaft portion configured to coaxially fit within the splined bushing, and a lock bushing coaxially aligned with the castellated bushing. A support tool for use with a blade-fold bushing system includes an outer head comprising a third plurality of teeth configured to mesh with the first plurality of teeth of the splined bushing, and an inner head comprising a fourth plurality of teeth configured to mesh with the second plurality of teeth of the castellated bushing.

    SEMI-AUTOMATIC ROTOR BLADE FOLD MECHANISM
    7.
    发明申请
    SEMI-AUTOMATIC ROTOR BLADE FOLD MECHANISM 审中-公开

    公开(公告)号:US20190382100A1

    公开(公告)日:2019-12-19

    申请号:US16011721

    申请日:2018-06-19

    Applicant: Bell Helicopter Textron Inc.

    Inventor: Ken Shundo Glenn Alan Shimek

    IPC: B64C11/28 B64C11/04 B64C27/50

    Abstract: A blade-fold bushing system includes a splined bushing comprising a first plurality of teeth, a castellated bushing comprising a second plurality of teeth and a shaft portion configured to coaxially fit within the splined bushing, and a lock bushing coaxially aligned with the castellated bushing. A support tool for use with a blade-fold bushing system includes an outer head comprising a third plurality of teeth configured to mesh with the first plurality of teeth of the splined bushing, and an inner head comprising a fourth plurality of teeth configured to mesh with the second plurality of teeth of the castellated bushing.

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