SU363009A1 - 5IB.PIO; RCD - Google Patents

Description

DEVICE FOR MEASURING AXIAL VIBRATION OF BALL BEARINGS

The invention relates to the field of instrumentation and bearing industry, in particular to devices for measuring bearing vibrations.

A device is known for measuring the axial vibration of ball bearings containing its body, a rotor with a vertical axis of motion mounted on supports, one of which is a spherical aerodynamic bearing and the other a bearing under study, a spherical thrust bearing in which a stationary outer ring of the bearing being studied is located, the loading device and the vibration sensor, which interacts with the fixed outer ring of the studied support in the measurement process.

However, in such a device, only the outer ring of the bearing under study, which is stationary during the measurement, can be self-adjusting. The movable inner ring cannot be self-installed, which causes ring misalignment, which increases the vibration of the bearing.

The described device is characterized in that it is provided with a spherical bolster, in which the inner ring of the next subgun is installed, and a spherical hole is made at the rotor butt end, which is conjugated with the spherical bushing of the internal ring of the next subgun, and the centers of the radii

the curvatures of the spherical plates lie on the rotor axis.

This eliminates the effect of skewing the rotating inner ring of the bearing when measuring vibration.

The drawing shows the described device.

It has a body Y and a rotor 2 mounted on two supports. One support, spherical

aerodynamic, consists of a sphere 3 fixed on the rotor, and a sub 4, n-installed in the housing /, it also houses the stator of the engine 5, which rotates the rotor. The other support of the rotor is the underlay 6 under study, the inner ring of which is fastened on the supporting plate 7, which joins the rotor along a spherical surface with its center on the axis of rotation of the rotor. The bearing ring 6 is mounted in bolster 8, centered on the support 9 also on a spherical surface.

The stop 9 on the springs W is suspended in a glass //, which is mounted for movement by nuts 12 and 13 relative to the body. The combination of the stop 9, the springs 10, the cup // and the indicator 14 is a dynamometer designed to create an axial load on the bearing under study. The vibration of bearing 6 is measured by a vibration sensor.

15.

The device works as follows. The test bearing 6 is installed in the 7 7 fasteners. After that, nuts 12 and 13 lift the cup // and install the bearing 6 with tongs 7 and 8 on the rotor 2. Then nuts 12 and 13 lower the cup /) until the stop 9 touches tnik 8. The rotor 2 spins up to the required speed. Moving nuts 12 and 13 stakap //, create a given axial load on the bearing 6. Vibration is measured by a vibration sensor 15.

Subject and use of the device for measuring axial vibration of ball bearings, containing 1 case, rotor with a vertical axis of rotation, mounted on supports, one of which is a spherical aerodynamic bearing, and the other is a bearing under study, a spherical bearing in which (there is a fixed outer ring of the bearing under study, a loading device and 1k sensors: vibrations, interacting in the measurement process with a fixed outer ring of the investigated bearing, characterized in that, for the purpose of exclusion and the effect of skewing the rotating internal

bearing rings when measuring vibration, it is equipped with a spherical suppressor, in which the inner ring of the bearing under test is installed, a spherical hole is made at the rotor end face, conjugated with

the spherical support of the inner ring of the bearing under study, and the centers of the radii of curvature of the spherical supports, lie on the rotor axis.