A device for level adjustment for a motor vehicle includes a ball screw. The screw nut of the ball screw is driven by an electric motor. The spindle of the ball screw is displaceable with respect to a housing. The ball screw is supported with respect to the housing using two axial self-aligning bearings with a common pivot point such that the housing can pivot with respect to the spindle, thereby avoiding loads on the balls of the ball screw.

Disclosed is a rotary indexing table (10) having an output flange (12) which is suitable for receiving a workpiece, mounted on a housing (14) of said rotary indexing table (10) for rotation about an axis of rotation (A) and drivingly connected to at least one drive element (24) which engages a driving groove (22) in a cylindrical cam (20) which can be driven by a motor, the cylindrical cam (20) being disposed asymmetrically to the axis of rotation (A) of the output flange (12).

The invention provides a caster comprising a bracket, a first transmission device and two wheels. The two wheels are connected by a transmission screw and are fixed to the bracket. The first transmission device comprises an annular retaining portion and a plurality of first balls, the plurality of first balls are equiangularly arranged in a circumferential direction of the annular retaining portion, and opposite sides of the annular retaining portion are respectively embedded in the respective wheels. The caster of the invention can solve the problems in the prior art that it is difficult to control the gap between the two wheels, the resistance generated between the two wheels is large and noise is easily generated.

A suspension thrust bearing device that provides a lower support cap, an upper bearing cap and at least one bearing arranged between the caps. The upper bearing cap includes an outer skirt radially surrounding the lower support cap. The lower support cap ha at least one annular flange extending towards the outer skirt of the upper bearing cap while remaining radially spaced apart from the outer skirt. The upper bearing cap further includes at least one annular rib extending axially towards an upper surface of the flange of the lower support cap while remaining axially spaced apart from the lower support cap. The annular rib is radially located between the outer skirt of the upper bearing cap and the bearing.

A suspension thrust bearing device providing a lower support cap, an upper bearing cap and at least one bearing arranged between the caps. The upper bearing cap includes an outer skirt radially surrounding the lower support cap. The lower support cap having at least one annular deflector flange extending towards the outer skirt of the upper bearing cap while remaining radially spaced apart from the outer skirt, the deflector flange having a lower inclined surface extending obliquely downwards.

A suspension thrust bearing device providing a lower support cap, an upper bearing cap and at least one bearing arranged between the caps. The upper bearing cap includes an outer skirt radially surrounding the lower support cap. The lower support cap having at least one annular deflector flange extending towards the outer skirt of the upper bearing cap while remaining radially spaced apart from the outer skirt, the deflector flange having a lower inclined surface extending obliquely downwards.

A gas turbine engine component includes a bearing configured to support a shaft for rotation about an axis, wherein the bearing includes an outer race and an inner race, and a bearing housing spaced radially outwardly of the outer race. A curved beam centering spring is positioned between the outer race and the bearing housing. A cylindrical wall is radially outward of the bearing housing and engages the outer race and the bearing housing.

A gas turbine engine component includes a bearing configured to support a shaft for rotation about an axis, wherein the bearing includes an outer race and an inner race, and a bearing housing spaced radially outwardly of the outer race. A curved beam centering spring is positioned between the outer race and the bearing housing. A cylindrical wall is radially outward of the bearing housing and engages the outer race and the bearing housing.

A gas turbine engine component includes a bearing configured to support a shaft for rotation about an axis, wherein the bearing includes an outer race and an inner race, and a bearing housing spaced radially outwardly of the outer race. A curved beam centering spring is positioned between the outer race and the bearing housing. A cylindrical wall is radially outward of the bearing housing and engages the outer race and the bearing housing.

A gas turbine engine component includes a bearing configured to support a shaft for rotation about an axis, wherein the bearing includes an outer race and an inner race, and a bearing housing spaced radially outwardly of the outer race. A curved beam centering spring is positioned between the outer race and the bearing housing. A cylindrical wall is radially outward of the bearing housing and engages the outer race and the bearing housing.