A bearing element may include a bearing element substrate and a sliding layer applied to a surface of the bearing element substrate. The sliding layer may be formed of a sliding layer material. A surface roughness (Ra) of the surface of the bearing element substrate may be less than 1 m. The sliding layer material may include a polymeric material and iron oxide. The sliding layer may have at least three layers of the sliding layer material.

An internal combustion engine with at least one camshaft and a bearing block for rotationally bearing the camshaft about a rotational axis, an axial bearing element being provided for axially bearing the camshaft, the element engaging with an axial bearing groove of the bearing block. The axial bearing element has a support body resting on an outer peripheral surface of the camshaft, and a retaining projection protruding from the support body, the projection engaging with a retaining recess passing through the outer peripheral surface, so that the axial bearing element is rotationally fixedly to the camshaft, the support body engaging with the peripheral axial bearing groove of the bearing block in the peripheral direction with respect to the rotational axis.

A radial support bearing having a cylindrical cage including a central portion, a first end portion and a second end portion, the central portion defining a plurality of roller pockets, and at least one projection extending radially inwardly from an inner surface of the cage, a plurality of rollers, each roller being disposed in a respective roller pocket, a cylindrical outer sleeve disposed about an outer surface of the cage so that the inner surface of the outer sleeve is adjacent the plurality of rollers, and an o-ring adapted to be axially fixed relative to the shaft. The o-ring is slidably received between the at least one projection of the cage and the central portion of the cage so that the cage is axially fixed with respect to the shaft.

A cam cap is placed on a journal of a camshaft attached to a sprocket to constitute a bearing supporting the journal. The cam cap includes an accommodating groove in which a thrust plate provided on the journal is accommodated, an oil passage having an opening at a position facing a camshaft oil groove of the journal, the oil passage communicating with the accommodating groove, and an oil reservoir provided in a first sidewall of the accommodating groove. The cam cap is placed on the journal such that the accommodating groove is located at a position closer to the sprocket than is the opening of the oil passage. When the thrust plate is accommodated in the accommodating groove, the oil passage and the oil reservoir communicate with each other at a position outward of an outer peripheral edge of the thrust plate in a radial direction of the thrust plate.

A camshaft adjusting device, including a camshaft (1) and a camshaft adjuster (2) having a stator (5) that can be connected to a crankshaft of an internal combustion engine and a rotor (4) that is rotatably mounted in the stator (5) and can be connected to the camshaft (1) and a clamping device (3) for clamping the rotor (4) to the camshaft and a rolling bearing (8) absorbing both axial and radial forces for mounting the camshaft adjusting device in a stationary housing (11), wherein the rotor (4) is clamped to the camshaft (1) by the clamping device (3) via an inner ring (12) or an outer ring (13) of the rolling bearing (6).

The present invention relates to a sliding bearing arrangement for supporting a shaft in a support element, comprising an inner bearing part with a sliding surface and comprising an outer bearing part with a sliding surface, whereas when the shaft is rotating around an axis, the sliding surface of the inner bearing part performs a sliding movement relative to the sliding surface of the outer bearing part. According to the invention, at least one of the sliding surfaces features at least one recess area which is extending in a circumferential direction of the surface over a circumferential angle (1, 2) and which is extending over at least 50% of the axial length of the sliding surface, and the recess area is dimensioned in such a way that over the recess area the clearance distance between the inner bearing part and the outer bearing part is increased.

A bearing apparatus for mounting a camshaft in a cylinder head of an internal combustion engine may include a bearing element that surrounds a bearing ring in which the camshaft is rotatably mounted or mountable. The bearing element may be made of a first material whose expansion coefficient is greater than an expansion coefficient of a second material of which the bearing ring is made. An outer surface of the bearing ring may include a contour that engages in a form-fitting manner with a mating contour formed on an inner surface of the bearing element that surrounds the bearing ring. The contouring formed by the contour and the mating contour may form retaining structures that brace against one another in instances of thermal expansion.

A piston machine with a rotating shaft (106),

wherein the piston machine comprises at least two circular bearings that are radially stacked and rotatable relative each other arranged about said rotating shaft (106).