In the case of an electronically commutated motor with a disc-shaped rotor which has an associated magnetization means and a rotor shaft, and with an annular stator, on which a plurality of stator teeth are provided, wherein each stator tooth is provided with a stator tooth winding, each of which is configured to interact magnetically with the magnetization means of the rotor, and wherein the rotor shaft reaches through the stator in the axial direction, the rotor shaft is mounted rotatably via at least two bearings which are arranged on the rotor shaft directly next to one another in the axial direction of the rotor shaft.

An assembly to restrict fluid flow through the bearing section of a positive displacement or progressive cavity pump or motor. The assembly fits within the bearing chamber and includes an upper ring member, a lower ring member, an outer ring member and a floating member. The floating ring member is axially disposed between the upper and lower ring members. The floating ring member is also disposed at least partially around a drive shaft and is radially movable and constrained inwardly of the outer ring member. The floating ring member has a radial clearance between the drive shaft and a floating ring member inner surface with the radial clearance varying depending on the relative position of the floating ring member to the outer ring member.

A continuously variable ball planetary variator comprising a main shaft, an input ring, an output ring, carriers and planets, and further comprising an improved idler support bearing capable of handling axial movement and higher differential rotational speeds between the main shaft and the idler assembly inner race. One improvement includes a continuously variable ball planetary variator comprising a main shaft, an input ring, an output ring, carriers and planets with an improved idler support bearing comprising; an idler bearing with an inner bearing race and an outer bearing race, wherein one bearing race is a split bearing race and one bearing race is a cylindrical bearing race, wherein the split bearing race has a preload between the bearings, and wherein the cylindrical bearing race allows axial movement of the idler assembly, and wherein the idler bearings comprise radial ball bearings to achieve said axial movement.

Disclosed is a torque limiter having driver mandrel and driven axially aligned mandrels, a piston movable into and out of an engaged position wherein the driver and driven mandrels are coupled together to transmit torque there between. Hydraulically locking the movable piston in an engaged position. Disengaging the hydraulic lock when during rotation when a specified torque magnitude is exceeded to allow relative rotation between the mandrels. Resetting the torque limiter by hydraulically locking the piston in the engaging position when relative rotation ceases or is reduced.

In a toroidal continuously variable transmission including at least one transmission unit including: an input disc and an output disc disposed coaxially; and a power roller tiltably interposed between the input disc and the output disc and configured to transmit a driving force from the input disc to the output disc, an integrally rotating member disposed so as to be spaced apart in an axial direction from at least one disc of the input disc and the output disc of each transmission unit and configured to rotate together with the at least one disc, and an annular interposed member provided between the at least one disc and the integrally rotating member and configured to rotate together with the at least one disc, are provided, and the interposed member is formed with a balance adjustment portion capable of adjusting weight balance in a circumferential direction.

In a continuously variable transmission including: a first transmission unit including a first input disc and a first output disc disposed coaxially and a power roller tiltably interposed between these discs; and a second transmission unit disposed coaxially with the first transmission unit, including a second input disc and a second output disc disposed coaxially and a second power roller tiltably interposed between these discs, and disposed such that a back surface of the second input disc is opposed to a back surface of the first input disc, a tubular back surface cylinder wall is provided on each of the back surfaces of the first input disc and the second input disc so as to project therefrom.

A bearing system for dynamically varying loads and load vectors comprising a plurality of bearing assemblies interference fit to a stationary component and interface fit to a rotatable component to establish relative rotational movement between the components. Each bearing system configured to establish a lubrication pathway through the bearing assemblies.

A gas turbine engine including a rotating shaft and a bearing assembly. The bearing assembly is configured to support the rotating shaft. The bearing assembly has a first bearing and a second bearing. The first bearing is configured to support an axial load of the rotating shaft when a forward thrust of the rotating shaft is greater than ten percent. The second bearing is configured to support the axial load of the rotating shaft when a thrust of the rotating shaft is between ten percent forward thrust and ten percent aft thrust, inclusive of the end points.

A state diagnosis method for a bearing device including a plurality of rolling bearings which are electrically connected, the method includes measuring an impedance of the plurality of rolling bearings as a whole by applying a voltage to the plurality of rolling bearings by an AC power supply while changing a frequency, deriving an impedance of each of the plurality of rolling bearings by fitting the impedance measured in the measurement step based on an equivalent circuit in which the plurality of rolling bearings are connected in series, and diagnosing a state of each of the plurality of rolling bearings based on the impedance of each of the plurality of rolling bearings derived in the derivation step.