RU2032160C1 - Device for diagnosing and rejection of ball bearings - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device comprises flexibly secured mandrel for installation of shaft with bearing to be tested. Outer race is driven by rotating or pulsating electric field generated by the winding of a stator encompassing the bearing. Mandrel is mounted on an adjusting means with two degrees of freedom in horizontal plane. This enables axial and radial loads to be applied to the bearing under test. EFFECT: improved design. 1 dwg

Description

 The invention relates to mechanical engineering and can be mainly used for the diagnosis and rejection of ball bearings by vibration and noise.

 A device is known for rejecting ball bearings by vibration and noise, comprising a housing and a mandrel elastically fixed thereto for mounting the inner ring of the test bearing, as well as an outer ring rotation drive in the form of a multipolar stator winding covering it to create a rotating electromagnetic field, and vibration and noise measuring devices means [1].

 The disadvantage of this device is the inability to create radial and axial loads on the test bearing.

 The aim of the invention is to improve the accuracy of diagnosis of rolling bearings by creating axial and radial loads on the bearing during the diagnosis process, improving the accuracy of bearing testing.

 The goal is achieved in that a device for diagnosing and rejecting ball bearings for vibration and noise, comprising a housing and a mandrel elastically mounted in it to install the inner ring of the test bearing, as well as an outer ring rotation drive in the form of a multi-pole stator winding covering it to create a rotating electromagnetic field and vibration and noise measuring means, equipped with adjusting means with two degrees of freedom for moving the test bearing in the stator.

 The drawing shows the proposed device.

 A device for diagnosing and rejecting ball bearings for vibration and noise comprises a housing 1, on the basis of which a stator 2 with a multipolar electric winding is mounted, generating a rotating or pulsating electromagnetic field, an adjusting means 3 with two degrees of freedom in the horizontal plane to move the test bearing 4. On the adjusting The tool 3 has an elastically mounted mandrel 5 for mounting the shaft 6 with the test bearing 4. The axes of the stator 2 and shaft 6 are centered relative to the base of the housing CA 1. The test bearing 4 is placed in the cavity of the stator 2. To measure the vibration level of the shaft 6, a vibration transducer 7 is attached to the stud 7. To measure the noise inside the stator 2, a microphone 8 is attached.

 The device operates as follows. Electric power is supplied to the stator winding 2. The stator 2 generates a rotating or pulsating electromagnetic field, eddy currents are induced in the outer ring of the bearing 4 and magnetization of the steel of the outer ring occurs. There are electromagnetic forces from eddy currents, a hysteresis moment, leading to the rotation of the outer ring of the bearing.

 At a certain voltage supplied to the stator winding, the frequency of rotation of the outer ring of the bearing depends only on the frequency of the electric current.

 By shifting the bearing 4 in the bore of the stator 2 relative to the common axis in the radial direction, a radial load is created on the outer ring of the test bearing. The axial load on the test bearing is created when the bearing is located on the verge of the end face of the stator 2.

 This device has a lower level of mechanical interference, the presence of adjusting means allows you to create axial and radial loads on the test bearing. Based on the proposed device, you can create an automated line for the rejection of ball bearings of one size.

Claims (1)

 DEVICE FOR DIAGNOSTIC AND DISPOSAL OF BALL BEARINGS for vibration and noise, comprising a housing and a mandrel elastically mounted in it for mounting the inner ring of the test bearing, as well as an outer ring rotation drive in the form of a multi-pole stator winding covering it to create a rotating electromagnetic field and vibration and noise means, characterized in that it is equipped with adjusting means with two degrees of freedom for moving the test bearing in the stator.

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