Abstract: A rotational bearing system incorporates a ball bearing to support a freely rotatable shaft or housing through rolling contact with the ball bearing, the rotational bearing system comprises: vibratory elements adapted to excite in resonant vibration a fixed shaft or a fixed housing in rolling contact with the ball bearings to lower the frictional resistance of the ball bearing.

Abstract: A rotating union for supplying compressed air to the end of a journal of a rotating part of a printing press including a rotor disposed on the rotational axis of the journal and a tubular housing disposed in surrounding relation about the rotor. A plurality of ball bearings each having inner and outer bearing races are disposed between the rotor and tubular housing member for defining a plurality of axially spaced annular air chambers corresponding in number to the air supply lines connected to the tubular housing. Sealing discs are disposed adjacent an axial end of the bearings which in response to communication of pressurized air to the annular air chambers sealingly engage the axial ends of the inner and outer bearing races to effect sealing of the annular air chambers. In pressureless operation, the sealing discs are retained by sealing rings.

Abstract: A bearing system for high speed spindles of machine tools, particularly grinding machines, comprises at least one front bearing arranged close to the spindle flange and a rear bearing, which in each case have three support rolls acting equiangularly on the spidle and having a larger diameter than the latter. In order to obtain a clearance-free bearing system in the case of speeds up to 150,000 rpm satisfying the precision requirements made on precison machine tools, the support rolls are fixed and mounted with roll journals provided on either side in small diameter precision ballbearings in the casing receiving the spindle and the support rolls. The spindle has as bearing surfaces conical portions inclined against one another and with resepct to which the axis of the support rolls is parallel. At least the support rolls of one bearing are adjustable axially parallel to the spindle for prestressing or pretensioning purposes.

Abstract: A rotary structure adapted to be used as a spindle unit for a miniature motor or miniature rotor or as a tape guide roller for a VTR. In the structure of the rotary mechanism, instead of a conventional expensive radial ball bearing, a groove of a semicircular cross-section is formed in a shaft itself so as to hold balls between this groove and the ball receiving concave surface of an outer race provided around the groove.

Abstract: A high-spped anti-friction bearing particularly useful for airplane power plants, the bearing having an outer ring and an inner ring. The inner ring is axially split at the rolling elements into two axial sections. The axial sections are each generally L-shaped in cross section, with one arm of each L backed against the other. To enable the bearing rings to be relatively thin walled in the radial direction and to prevent undesirable deformation thereof during the manufacture or installation, each of the rings is provided on at least one axial side and preferably on both axial sides with projecting axial extensions. Each extension preferably tapers narrower in its radial thickness axially outward. Each extension includes a cylindrical portion and a frustoconically shaped portion, usually with the cylindrical portion axially more inward and the frustoconical portion axially more outward.

Abstract: A roller bearing unit comprising an inner race element having a homokinetic coupling at one end and a coaxial extension forming a gudgeon at the other end whereby two rotating tracks for two rows of rolling elements are provided on the outer surface of the inner race, an outer race having a conical shape surrounding the rolling elements and being integral with an attachment flange, whereby the rotating tracks for the rolling elements have different diameters, the larger diameter track being at the homokinetic coupling end and being closest to the attachment flange, the larger diameter track being formed directly on the inner race.

Abstract: A rotation-damping rolling bearing is provided with a damping element between a cover or sealing disk and a row of rolling elements. The damping element can be integrally formed with a cover disk, vulcanized on the support body of the sealing disk, integrally formed with the support, or connected to the sealing disk separate from the support. The sealing disk is provided with a flexible sealing lip. The damping element contacts the rolling bodies with axial prestress.

Abstract: A maintained self-centering clutch release bearing comprises an operating sleeve moved axially by clutch release control means. There is radial clearance between the sleeve and a bearing comprising a non-turning race, a turning race and rolling members between the races. A clutch cover assembly operating boss is fastened to the turning race. There are respective and adjacently disposed rims on the non-turning race and the operating sleeve, both perpendicular to the axial direction. An elastic clamping ring bears against bearing means on the operating sleeve and acts axially on the rim of the non-turning race to urge its rim axially towards the rim of the operating sleeve, so that the rims are clamped axially together, with friction. This assembles together the bearing and the operating sleeve and provides for maintained self-cerntering of the clutch release bearing relative to the clutch cover assembly.

Abstract: The swivel bearing comprises a cup secured on a part of the apparatus and provided with a cylindrical wall which is bent inwardly to hold the outer bearing against the flange on another member, which flange rests upon another set of bearings in the cup.

Abstract: A cam controlled grinding machine in one embodiment of which the spindle is supported for rotation and lateral movement within a nest of three annular rings. Advantageously, roller bearing arrays between the spindle and the first annular ring, the first and second annular ring, and the second and third annular ring permit the spindle and first and second annular rings to rotate relative to one another while the third annular ring is fixed in position. In order to permit lateral movement of the spindle, the centers of each roller bearing array are non-coincident. In a second embodiment the spindle is in effect mounted on an articulated arm having two degrees of freedom. As a result, the spindle can be moved laterally in two dimensions in response to movement imparted to it by the action of a drive follower and cam. In a third embodiment, an annular bearing plate is attached to the spindle and is supported for lateral movement by a plurality of balls contained underneath the bearing plate.

Abstract: This invention concerns an isostatic device (10) to provide rolling and support with revolvable bodies which comprises an inner ring (12), an outer ring (11), a cage (13) and three revolvable bodies (14) fitted substantially at angles of one hundred and twenty degrees from each other, in which device (10) the revolvable bodies (14) are kept in position by the cage (13), the mean circumference of which is offset in relation to the median circumference of rolling of the revolvable bodies (14), and one ring is substantially stiff and the other ring is resilient with a suitable degree of contact with the revolvable bodies (14) so that, after being fitted, the resilient ring tends to take up a three-lobed conformation, thus providing a pre-set pre-load for the revolvable bodies (14).The invention also concerns a device which has adjustable braking means and which can be used as a rotatable ring.

Abstract: A high speed spindle preferably of the motorized type is described having means for axially preloading the spindle bearings and hydraulic preload locking means for locking the preload against diminution by expected axial pull-out forces exerted on the spindle shaft counter to the preload during machining. The hydraulic locking action is released in the event unexpectedly high, potentially damaging axial pull-out forces are encountered during machining.

Abstract: A grounding device for preventing electrolytic corrosion in the bearings of rotary electric machines including a bearing which supports the shaft of a rotor in a stator which is grounded, an electrically conductive end cover which is mounted on the stator so as to surround the bearing and a centrifugal contact point which is mounted on the shaft, which is in contact with the end cover when the machine is standing still or rotating at low speeds to short-circuit the shaft and the end cover, and which breaks the short-circuited condition as the running speed of the shaft increases.

Abstract: A bearing member (10) having a series of carbon separators (16, 16' . . . 16.sup.N) with semi-spherical pockets (52, 52' . . . 52.sup.N) on the end thereof and semi-spherical ribs (20) and (22) on its inner and outer periphery. The ribs (20) and (22) are located in grooves (50) and (58), respectively, of races (44) and (43). Balls (14, 14' . . . 14.sup.N) are located between pockets 52, 52' . . . 52.sup.N and maintained in radial alignment in the grooves (50 and 58) of the races (43) and (44). Initially separators (16, 16' . . . 16.sup.N) are separated from each other but as the bearing (10) is used the separators (16, 16' . . . 16.sup.N) wear by providing balls (14, 14' . . . 14.sup.N) and races (43 and 44) with lubrication. At a predetermined wear condition, the separators (16, 16' . . . 16.sup.N) engage each other to provide controlled ball spacing thereafter protecting bearing member (10) from premature wear or total failure.