CS276096B6 - Partial roller bearing - Google Patents

Abstract

Swing plate (1) of axial piston the machine is stored on a partial roller a bearing whose internal raceway (11) is formed on a pivot plate (1) and outer a rolling track (31) on the bearing segment (3) housed in the piston housing (4) machine. The essence of the solution is that radius (R) of the outer rolling track (31) reduced by the outer diameter (D) of the rollers (2) The bearings are smaller than the inner radius (r) orbit (11). Bearing Rollers (2) having a cylindrical opening (21) formed, which is coaxial with their outer cylindrical flat.

Description

The invention relates to a partial roller bearing intended to accommodate a pivoting plate in the housing of an axial piston machine and to solves the mutual relations between the individual parts of the bearing and the design of the rollers.

In known embodiments of mounting the pivot plate in the housing of a piston machine, the pivot plate is mounted by means of an inner circumferential path of a partial rolling bearing on solid rollers which roll along an outer circumferential path formed either on the outer ring or on a pelvis mounted on the front cover of the piston machine. In these bearings, the radius of the outer orbit is reduced by the diameter of the rollers equal to or greater than the radius of the inner orbit. This means that even with the maximum radial retraction of the bearing, the end rollers can be without retraction at the expense of the rollers mounted in the middle part, which must carry a high retraction. The consequence of such a condition is an increase in bearing noise caused by the repeated pulling of the end rollers from dynamic forces at high frequency. In addition, in the mode where the tilt angle of the pivot plate does not change for a long time, the geometry of the raceways is disturbed due to the high contact pressures of the rollers in the middle part and repeated shock loading and unloading of the rollers in the bearing edge. As a result of the rollers sliding relative to the raceways, caused by a kinematic error of the existing synchronizing mechanisms, rollers with a high contact load form flats on the outer diameter of the rollers, which impairs the operation of the bearing.

These disadvantages are eliminated in part by a roller bearing for accommodating the pivot plate of the piston machine, where the inner race of the bearing is formed directly on the pivot plate and the outer roller on a bearing segment mounted in the housing of the piston machine according to the invention. the travel of the bearing segment reduced by the outer diameter of the bearing rollers is smaller than the radius of the inner circumferential travel on the pivot plate. The bearing rollers are provided with a continuous cylindrical bore coaxially formed with their outer cylindrical surface.

The advantage of the bearing arrangement of the pivoting plate on the partial roller bearing according to the invention is the reduction of vibrations in the bearing and thus the reduction of the noise of the piston machine. As the distribution of the load on the individual rollers is considerably more uniform in the area of the higher to maximum load of the pivoting plate, it thus also increases the durability of the bearing with the usual demands on production accuracy. In addition, due to the lower values of the contact pressure, a synchronizing mechanism is not required for the angular guidance of the rollers relative to the pivot plate, but it is sufficient to limit the position of the cage in the extreme positions.

The attached drawing shows in longitudinal section an example of an embodiment of a partial roller bearing according to the invention, used for mounting the pivot plate of an axial piston machine.

The pivot plate 1 is mounted in the housing £ of the axial piston machine on a partial roller bearing, the inner race 11 of which is formed on the pivot plate £ and the outer roller path 31 on the bearing segment £. The bearing segment £ is located in a bearing hole 41 formed in the housing £. The radius R of the outer roller track 31 is equal to the radius R 1 bearing bore 41 reduced by the thickness h of the bearing segment 3, the radius R of the outer roller race 31 reduced by the outer diameter D of the rollers 6 being smaller than the radius r of the inner circumferential race 31. The bearing rollers 6 have a continuous cylindrical bore 21 which is coaxial with their outer cylindrical surface.

During operation, the swing plate £ is retracted from the pistons of the axial piston machine by a force F. When operating the piston machine without retraction, when the value of the force F is lower, the swing plate £ is mounted on four rollers £ located at the outermost parts of the bearing. During the increase of the force F, further rollers 6 are gradually retracted so that when the maximum retraction force F, given by the maximum working pressure of the piston machine, is reached, all the rollers 2 are retracted. The retraction F1 of the rollers 2 is 1.5 to 1 for the maximum retracted roller £ and the minimally retracted roller £, even at a certain point of the tolerance pole, the values of the radial retraction F1 are practically the same.

This has a favorable effect on the contact load of the rollers 6 and on the tension on the diameter d of the continuous cylindrical bore 21. In particular embodiments of piston machines, this is manifested by the fact that e.g. for transmitter size 71 cm ³ / rev. with max. With a working pressure of 42 MPa, it was necessary to select the production tolerances of the bearing for acceptable loads of full rollers £ so that the total radial clearance was in the range of max. 0.025 mm. By using hollow rollers £ which have a radial stiffness 50% lower than solid rollers £, it is possible to select the manufacturing tolerances of the radial play in the range of up to 0.055 mm, with the same roller loads £ and the same nominal bearing dimensions as in the first case.

Claims (2)

PATENT CLAIMS A partial roller bearing for accommodating a pivot plate of an axial piston machine, wherein the inner race of the bearing is formed directly on the pivot plate and the outer roller race on a bearing segment housed in the housing of the piston machine, characterized in that the radius (R) of the outer roller the path (31) of the bearing segments (3) reduced by the outer diameter (D) of the roller (2) of the bearing is smaller than the radius (r) of the inner race (11) on the pivot plate (1). 2. Partially roller bearing according to item 1, characterized in that the rollers (2) are provided with a continuous cylindrical hole (21) coaxially formed with their outer cylindrical surface.