A rotor hub assembly includes a yoke and a high capacity laminated (HCL) bearing, comprising layers of elastomeric material and layers of metal. The HCL bearing is affixed to the yoke to prevent separation of the HCL bearing from the yoke.

A rotor hub assembly includes a yoke and a high capacity laminated (HCL) bearing, comprising layers of elastomeric material and layers of metal. The HCL bearing is affixed to the yoke to prevent separation of the HCL bearing from the yoke.

Embodiments are directed to a double Hooke's joint gimbal in a rotor system. An upper Hooke's joint has four arms extending radially outward to define first and second axes, and a lower Hooke's joint has four arms extending radially outward to define third and fourth axes. A pair of connectors couple the upper Hooke's joint and the lower Hooke's joint. A first set of bearings are positioned between arms on the upper and lower Hooke's joints and the connectors. The first set of bearings comprise an elastomer, such as elastomeric journal bearings. The upper Hooke's joint is coupled to a yoke and rotor blades by a driver assembly that allows rotor blade flapping. The lower Hooke's joint is coupled to and driven by a mast. A spherical bearing allows the upper Hooke's joint to move laterally along the mast.

Embodiments are directed to a double Hooke's joint gimbal in a rotor system. An upper Hooke's joint has four arms extending radially outward to define first and second axes, and a lower Hooke's joint has four arms extending radially outward to define third and fourth axes. A pair of connectors couple the upper Hooke's joint and the lower Hooke's joint. A first set of bearings are positioned between arms on the upper and lower Hooke's joints and the connectors. The first set of bearings comprise an elastomer, such as elastomeric journal bearings. The upper Hooke's joint is coupled to a yoke and rotor blades by a driver assembly that allows rotor blade flapping. The lower Hooke's joint is coupled to and driven by a mast. A spherical bearing allows the upper Hooke's joint to move laterally along the mast.

A radially divided elastomeric bearing assembly is for mounting between a helicopter pylon and transmission. The bearing assembling includes first and second bodies that, respectively, have a first and second plurality of alternating elastomeric and metallic laminae nested coaxially about a center bore and a center line. The first and second plurality of alternating elastomeric and metallic laminae extend radially and axially relative to the center line and are conical. The first and second plurality of alternating elastomeric and metallic laminae are inside a housing and separated by a central spacer and housing spacer extending from the internal surface of the housing towards the centerline and between the first and second bodies.

A radially divided elastomeric bearing assembly is for mounting between a helicopter pylon and transmission. The bearing assembling includes first and second bodies that, respectively, have a first and second plurality of alternating elastomeric and metallic laminae nested coaxially about a center bore and a center line. The first and second plurality of alternating elastomeric and metallic laminae extend radially and axially relative to the center line and are conical. The first and second plurality of alternating elastomeric and metallic laminae are inside a housing and separated by a central spacer and housing spacer extending from the internal surface of the housing towards the centerline and between the first and second bodies.

An example of a hub for a tail rotor includes a body configured to couple to a mast of a rotor system, a trunnion disposed within the body, first and second shafts disposed on opposite sides of the trunnion, first and second end plates secured to the body, and first and second end bearings, the first end bearing disposed between the first shaft and the first end plate and the second end bearing disposed between the second shaft and the second end plate.

An example of a hub for a tail rotor includes a body configured to couple to a mast of a rotor system, a trunnion disposed within the body, first and second shafts disposed on opposite sides of the trunnion, first and second end plates secured to the body, and first and second end bearings, the first end bearing disposed between the first shaft and the first end plate and the second end bearing disposed between the second shaft and the second end plate.

A rotor hub assembly that includes a yoke configured to attach blades thereto, a universal joint configured to attach to, and transmit forces between, a mast and the yoke, and an elastomeric member configured to attenuate vibrations transmitted from the universal joint to the mast.

A rotor hub assembly that includes a yoke configured to attach blades thereto, a universal joint configured to attach to, and transmit forces between, a mast and the yoke, and an elastomeric member configured to attenuate vibrations transmitted from the universal joint to the mast.