A rotary device is disclosed. The rotary device includes a first rotor, a centrifugal element, and a tilt preventing mechanism. The first rotor is disposed to be rotatable. The centrifugal element is supported to be axially movable with respect to the first rotor. The tilt preventing mechanism prevents the centrifugal element from tilting.

A rotary device is disclosed. The rotary device includes a first rotor, a centrifugal element, and a tilt preventing mechanism. The first rotor is disposed to be rotatable. The centrifugal element is supported to be axially movable with respect to the first rotor. The tilt preventing mechanism prevents the centrifugal element from tilting.

An engine valve actuation system includes a camshaft, rotatable in an engine, and a compound collar including a mounting sleeve, a guide sleeve, and a bridge cantilevering the guide sleeve to the mounting sleeve. A first valve lifter is interference-fitted in the mounting sleeve, and a second valve lifter is slip-fitted within the guide sleeve. First and second lifter bores receiving the first and second valve lifters are congruent, and the first and second valve lifters may be substantially identical. The compound collar reciprocates with the interference fitted first valve lifter, slidably receives the slip-fitted second valve lifter, and limits in-service rotation of both.

An engine valve actuation system includes a camshaft, rotatable in an engine, and a compound collar including a mounting sleeve, a guide sleeve, and a bridge cantilevering the guide sleeve to the mounting sleeve. A first valve lifter is interference-fitted in the mounting sleeve, and a second valve lifter is slip-fitted within the guide sleeve. First and second lifter bores receiving the first and second valve lifters are congruent, and the first and second valve lifters may be substantially identical. The compound collar reciprocates with the interference fitted first valve lifter, slidably receives the slip-fitted second valve lifter, and limits in-service rotation of both.

An engine valve actuation system includes a rotatable camshaft, a first valve lifter, and a second valve lifter, structured to actuate valves in an engine in response to rotation of cams of the camshaft. The engine valve actuation system includes an anti-rotation device having a collar with a sleeve portion and a boss portion, and a bridge connector structured to couple with one of the valve lifters. Another one of the valve lifters is slidably received in the sleeve portion. The anti-rotation device reciprocates with the one of the valve lifters, and each of the valve lifters is restricted from rotation during service.

An engine valve actuation system includes a rotatable camshaft, a first valve lifter, and a second valve lifter, structured to actuate valves in an engine in response to rotation of cams of the camshaft. The engine valve actuation system includes an anti-rotation device having a collar with a sleeve portion and a boss portion, and a bridge connector structured to couple with one of the valve lifters. Another one of the valve lifters is slidably received in the sleeve portion. The anti-rotation device reciprocates with the one of the valve lifters, and each of the valve lifters is restricted from rotation during service.

A cam follower is provided. The cam follower includes a polycrystalline diamond element, including an engagement surface. The engagement surface of the polycrystalline diamond element is positioned on the cam follower for sliding engagement with an opposing engagement surface of a cam. The cam includes at least some of a diamond reactive material.

A cam follower is provided. The cam follower includes a polycrystalline diamond element, including an engagement surface. The engagement surface of the polycrystalline diamond element is positioned on the cam follower for sliding engagement with an opposing engagement surface of a cam. The cam includes at least some of a diamond reactive material.

A system for adjusting a rake of a steering column includes a rake actuator. The system also includes a jacket assembly. The system further includes a first bracket operatively coupled to the jacket assembly, the first bracket defining a first slot. The system yet further includes a second bracket defining a second slot, the second bracket fixed in a stationary position relative to the first bracket, the first and second slots oriented at different angles, but partially aligned. The system also includes a cam follower operatively coupled to the rake actuator, the cam follower having an arm extending through the first slot and the second slot, wherein translation of the cam follower adjusts the angular position of the first bracket and the jacket assembly.

A system for adjusting a rake of a steering column includes a rake actuator. The system also includes a jacket assembly. The system further includes a first bracket operatively coupled to the jacket assembly, the first bracket defining a first slot. The system yet further includes a second bracket defining a second slot, the second bracket fixed in a stationary position relative to the first bracket, the first and second slots oriented at different angles, but partially aligned. The system also includes a cam follower operatively coupled to the rake actuator, the cam follower having an arm extending through the first slot and the second slot, wherein translation of the cam follower adjusts the angular position of the first bracket and the jacket assembly.