SU1097904A1 - Stand for testing bearings - Google Patents

Abstract

1. A BEARING TEST BENCH, containing a bearing-mounted mounting mechanism for the bearings under test and a radial loading mechanism with a drive bearing, which is characterized by the fact that, in order to expand the operational capabilities by changing the direction of the radial load, it is equipped with a driven support mounted on the base with the ability to interact with the mounting mechanism in the radial direction and the possibility of movement in two mutually perpendicular radial directions. (L about CO

Description

2. A stand according to claim 1, characterized in that at least one of the supports is axially displaceable.

3. The stand according to claim 1, characterized in that

The mechanism for moving the driven support is designed as mounted on the basis of two perpendicularly arranged screw brakes,

one

The invention relates to the bearing industry and can be used primarily for testing bearings.

A stand for testing bearings is known, comprising a mounting mechanism for tested bearings mounted on the base and a radial loading mechanism with a driving support G 1.

However, limestone stand has limited operational capabilities.

The aim of the invention is to expand the operational capabilities by providing a change in the direction of the radial load.

This goal is achieved by the fact that the stand for testing bearings, which contains base-mounted mounting mechanisms for tested bearings and a radial loading mechanism with drive bearing, is provided with a driven support mounted on the base with the ability to interact with the mounting mechanism in the radial direction and the ability to move in two mutually perpendicular radial directions.

At least one of the supports is axially movable.

The mechanism of movement of the driven support is made in the form of mounted on the basis of two perpendicularly arranged screw brakes.

The drawing is given constructive scheme, stand.

The stand contains the guides 2 and 3 of the supports 4 and 5 of the holder 6, which are made in the base 1, of the axle 7 for fastening the inner rings of the test bearing 8, the holder 6 is connected to the stop 9, which creates a radial load P.

Under the axis 7 on the side opposite to the stop 9, the shaft 10 and the supports 11 and 12 are mounted on the support 13. The supports 11 and 12 are connected to the base 1 by means of longitudinal guides 14 allowing movement of the support 13 along axis 7 with selective fixation by means of the latch 15. The shaft 10 is connected with

0 by the engine 16. The follower support 17 is generally offset relative to the drive support 13 along axis 7. The support 18 of the driven support 1 7 is connected to the base 1 by means of a two-stage

5 drives its movement in the plane of rotation. The specified drive can be performed, for example, in the form of screw brakes - horizontal 19 and vertical 20, the screws of which

0 are located at a right angle to each other.

Stand. Works as follows.

The test bearing is fixed on the axis 7 and inserted by means of the holder 6 and guides 2 and 3 in engagement with the support 13, which is installed with the help of the guides 14 and clamps 15 to a certain position along the length of the outer ring of the test bearing 8.

The support 17 is also introduced via a two-stage drive, by means of screw brakes 19 and 20, in cooperation with the housing 21.

The stop 9 is installed in a position corresponding to the required distribution of loads at the points of contact of the housing 21 with the supports 13 and 17, and is connected to the source of power load, the action of the loading device, which can be used as various load loaders, including mechanical load loaders or

, hydraulic pulsators. The reactions in the places of contact with the supports 13 and 17, caused by the action of the force P, equal in the total to the value of P., are the model loads on the tested bearing. When the engine 16 is turned on, the support 13, which is leading from, drives the ring of the tested bearing 8 into rotation. The follower support 17 rotates due to the force contact with the rotating body 21 in the support 18. Thus, the operation of the bearing is simulated according to the test institute at a given speed mode under load created by two speeches, different in size and direction, at the points of interaction with the supports 13 and 17. The distribution of forces on the rolling elements along the axis of the tested bearing depends on the relative position of the supports 13 and 17, o their location relative to the test bearing, of the position of the stop 9, as well as on the size and nature of the load R. Using of any invention allows to improve the technical-operational characteristics by allowing stand the test bearings with rotating outer ring.

Claims (3)

1. A TEST FOR BEARINGS TESTS, comprising a mounting mechanism for the bearings under test and a radial loading mechanism with a drive support mounted on the base, characterized in that, in order to expand operational capabilities by providing a change in the direction of the radial load, it is equipped with a driven support mounted on the base with the ability to interact with the mounting mechanism in the radial direction and the ability to move in two mutually perpendicular radial directions. I 2. Stand by π. 1, with the fact that at least one of the supports is made with the possibility of axial movement. 3. The stand according to claim 1, characterized in that the mechanism for moving the driven support is made perpendicularly in the form of a jointing of two located screw brakes.