A cam follower assembly includes a ball bearing having an outer ring and an inner assembly which includes two or more segments. The inner assembly is disposed in the outer ring with a full complement of balls disposed therebetween. The outer ring and inner assembly each include a race having a gothic arch cross sectional configuration that causes the balls to roll on two portions of each race.

A steering console system for a machine includes a longitudinally-extending rail configured to be fastened to a surface of the machine, the rail including a pair of convex-shaped edges, a steering console, and a console carriage slidably connected to the rail, the console carriage including a bracket, a plurality of rollers connected to the bracket, a support arm connected to the bracket to support the steering console, and a vertical pivot connected to the bracket and to the support arm. Each of the rollers has a concave groove configured to roll along the convex shaped edges, and each of the rollers is configured to rotate about an axis of rotation extending approximately normal with respect to the rail.

A linear transport system for conveying an object, wherein the linear transport system comprises at least one stationary guide rail and at least one movable conveying device, wherein the conveying device comprises a first guide unit having a first track roller, a second track roller and a first turntable, wherein the first track roller and the second track roller are mounted in a rotatable manner at the first turntable and lie against the guide rail, wherein the guide rail comprises a longitudinal rail axis extending in the longitudinal direction, wherein the first turntable is mounted about a turntable axis in a rotatable manner, wherein the turntable axis is arranged in an inclined manner, in particular perpendicular, to the longitudinal rail axis.

Linear guides for shafts are disclosed The linear guides comprise housings having a main opening to receive the shaft and multiple contact guiding elements, such m bearings or sliders, arranged on the housing and around the opening, each contact guiding element to contact the shaft at a different point The linear guides further comprise thermal compensation blocks affixed to the housing and in contact with a portion of a contact guiding element of the multiple contact guiding elements.

A drawer slide including a base member, a roller support, ball bearings and roll pins. The base member a track base and first and second walls. The first and second walls and the track base define a first channel. The first wall has a first race and the second wall has a second race. The roller support is within the first channel. The roller support has first and second side walls and a center section disposed between the first and second side walls. The first and second side walls are disposed adjacent the first and second walls. The center section is disposed adjacent the track base. The first and second side walls have bearing apertures. The center section has roller openings. The ball bearings are disposed the first and second races. The roll pins are in the roller openings in rolling contact with the track base.

Embodiments of the disclosure include an extended length core sample scanning apparatus that enables the imaging of extended length core samples using medical-type CT scanners. The extended length core sample scanning apparatus has a frame that defines a U-shaped receptacle that receives core housing containing the core sample when the core sample is placed in a CT scanner. The extended length core sample scanning apparatus may have two or more rollers located in the U-shaped receptacle to enable translation of the extended length core sample through a CT scanner during scanning. The rollers may also provide for a minimum clearance between the core housing and the walls of the U-shaped receptacle. Methods of imaging an extended length core sample are also provided.

A drawer pull-out guide including a first guide rail, a second guide rail displaceably supported relative to the first guide rail, and a running carriage having load-transmitting rolling bodies and which is displaceably supported between the first guide rail and the second guide rail. The running carriage includes at least three rolling bodies, and each of the at least three rolling bodies has a cylindrical from and is rotatable about a horizontally extending axis in a mounted position of the drawer pull-out guide. The at least three rolling bodies of the running carriage, in the mounted position of the drawer pull-out guide, are arranged in at least three running planes lying above one another.

A drawer pull-out guide includes a first guide rail, a second guide rail displaceably supported relative to one another, and a running carriage having load-transmitting rolling bodies displaceably arranged between the first guide rail and the second guide rail. The running carriage includes at least two rolling bodies rotatable about a rotational axis, and the at least two rolling bodiesin a view onto a plane perpendicular to a longitudinal direction of the guide railsare arranged so as to be laterally offset to one another. Each of the at least two rolling bodies has a cylindrical form and is rotationally supported about a horizontally extending rotational axis in a mounted position of the drawer pull-out guide, the rotational axes of the at least two rolling bodies are arranged in the same running plane, and the at least two rolling bodies have the same diameter.

A rail-based floor conveyor system, with a floor conveyor with concavely grooved wheels and rails having a surface which, when in contact, dips at least partially into the grooved area of the wheels, thereby producing at least two load-bearing lines during the movement of the floor conveyor, wherein a wheel holder is provided for each wheel, with at least one horizontal axis of rotation for each wheel and a vertical axis of rotation to a bearing connected to the floor conveyor, and wherein the wheels can be moved by drives or manually on the rail, bearing including a first bearing part and a second bearing part, wherein one of the bearing parts has a concave surface section, which is at least partially in contact with a convex surface section of the respective other bearing part, and wherein both bearing parts are movable relative to one another while maintaining contact.

Embodiments of the disclosure include an extended length core sample scanning apparatus that enables the imaging of extended length core samples using medical-type CT scanners. The extended length core sample scanning apparatus has a frame that defines a U-shaped receptacle that receives core housing containing the core sample when the core sample is placed in a CT scanner. The extended length core sample scanning apparatus may have two or more rollers located in the U-shaped receptacle to enable translation of the extended length core sample through a CT scanner during scanning. The rollers may also provide for a minimum clearance between the core housing and the walls of the U-shaped receptacle. Methods of imaging an extended length core sample are also provided.