CS256644B1 - Equipment for bearing testing - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for testing bearings enabling verification of the operational properties of bearings, in particular their durability and limit of rotation speed.

The existing testing machines are arranged in such a way that in the cylindrical cavity of the frame there are two outer bushings at its front walls and between them with a radial clearance with respect to the fracture cavity a middle bushing adjoining the thrust pin of the device. In each outer sleeve, one bearing is mounted by the outer ring and one or two bearings in the middle sleeve are fitted by the outer ring. The inner rings of all bearings are mounted on a common rotating shaft either directly or via carriers. The disadvantage of this arrangement is that at higher shaft speeds, due to the radial runout of the inner rings of the bearings and / or carriers, the oscillations occur in a plane perpendicular to the axis of the load pin, which adversely affects the test result. A further disadvantage is that in a single bearing arrangement clamped in the center housing, the bearings can be deflected and thus unevenly distributed in the load force.

These weaknesses are largely eliminated by a bearing testing device consisting of a two-piece fringe in which the cavity is either mounted directly or through bushings of at least three bearings, of which the middle bushing or bearing is supported with play in the fringe cavity and is in contact with the mechanism. exerting a radial load force and further from a shaft for receiving the inner rings of the bearings preferably by means of carriers connected to the drive mechanism of the test machine according to the invention. SUMMARY OF THE INVENTION The present invention is based on the fact that one front wall of the frame is provided on the one hand with a guide on which the disc is slidably mounted and on the other with at least two other guides in which they are displaceable in the direction of the shaft axis.

- 2 25В 644 arranged gliders adjacent to one of the outer shells. A resilient member is arranged between the disc and each glider. It is a further object of the invention that at least one return member of the return device is arranged between the disk and the end wall of the frame.

By using the bearing test device according to the invention, vibration in the center housing is prevented and the bearing rings are permanently preloaded in the desired position during the test.

An exemplary embodiment of the bearing testing device according to the invention is shown in axial section in the accompanying drawing.

The illustrated device consists of a two-piece fraction D, in the cavity of which the outer sleeves 14, the outer rings of the two outer bearings 14, and the central sleeve 14, which are in contact with the thrust pin of the radial load force one central bearing 10, in the illustrated case needle needle, is mounted thereon. In another possible embodiment, the outer bearings 14 can be mounted in the hollow cavity 6 directly by their outer rings and two middle bearings 10 can be arranged in the middle bushing 15. Both outer bearings 14 are supported on the shaft 11 by means of carriers 12. The middle bearing 10 is the shaft 11 is supported directly by its inner ring. The shaft 11 is connected to a test machine drive mechanism not shown. The front wall 2 Fremy £ is formed as a removable unit, equipped with both the guide on which is slidably mounted disc £ and secondly at least two further lines 13. In the illustrated case cylindrical, in which two sliders are arranged přestaviteině _F adjacent one end to a distal housing j. and a second end extending into the opening in the disc 6. Between the disc 6 and each glider 2 a compression spring member 6, in the illustrated case a helical spring, is deflected. The disk 8 is further provided with a return device 8, in the illustrated case, as a stud with a nut and a return member 8 formed, for example, as a screw spring and arranged between the disk 6 and the front wall 2 of the frame 4.

- 3,258,844

In the installation of the device according to the invention, the end wall D with the gliders 2 and the return device 8 is in a relaxed position, in which the disc 6 is pushed away from the front wall 3 of the fringe 4 and the gliders 2 away from the outer casing 1. Then the return device 8 is tightened, the disc 6 is thus pushed against the end wall of the frame 4. and the gliders 2 are adjacent to the outer casing.

In operation of the device, the faces of the middle bushing 15 and the outer bushings 1 are pushed together by gliders 2 on which the resilient members 2 act. The correct alignment of the middle bushing 15 with the middle bearing 10 is achieved and friction between the faces is suppressed

It is advantageous to use the device according to the invention for testing, in particular, radial roller bearings.

Claims (2)

1. A bearing testing device consisting of a two-piece fringe in which the cavity is housed either directly or by means of bushings of at least three bearings, of which the middle bushing or bearing is supported with clearance in the fringe cavity and is in contact with the radial load application mechanism and from a shaft for receiving the inner rings of the bearings, for example by means of carriers connected to the drive mechanism of the test machine, characterized in that one front wall (3) of the fringe (4) is provided with a guide (5) on which it is slidably arranged disc (6), on the one hand at least two further guides (13), in which sliders (2) adjacent to one of the outer bushings (1) are displaceable in the direction of the shaft axis (11), and between the disc (6) and each glider (2) a resilient member (7) is provided. Apparatus according to claim 1, characterized in that at least one return member (9) of the return device (8) is arranged between the disc (6) and the end wall (3) of the frame (4).