SU1608416A1 - Device for measuring radial clearances in rearing units - Google Patents

Abstract

The invention relates to a measurement technique and can be used in mechanical engineering for measuring radial clearances in bearing assemblies. The aim of the invention is to improve the measurement performance by increasing the accuracy of the base. The device includes a housing, a meter 5 installed in it, a lever and a tared loading mechanism connected to one lever arm, locking elements 3 mounted on the housing for attaching the device to the bearing assembly, and at the other end of the lever a prismatic notch 12 designed to interact with the bearing a knot. The lever is set so that the prismatic notch of the lever contacts the surface of the shaft. The tip is led to the protruding end of the shaft. Using a lever handle, the shaft end is deflected and gauge 5 determines the size of the gap. 3 il.

Description

The invention relates to a measurement technique and can be used in mechanical engineering for measuring radial clearances in bearing assemblies.

The purpose of the invention is to increase the measurement performance by increasing the accuracy of the base.

FIG. 1 and shows the device, the general view; figure 2 is the same, top view; fig.Z - calibration device.

The device contains an overhead arcuate housing 1 with openings 2 for fastening the fixing elements 3 of the housing 1 to the glass 4, a gauge 5 fixed to the bracket 6 of the housing 1 by a strap 7 and a screw 8 having a remote measuring tip 9 on the rod 10. The outer arm 11 has a prismatic a notch 12 and a through longitudinal groove 13 for the axis 14 of the lever 11; an axis 14 connects the lever 11 to the housing 1 with two brackets 15. At the end of the loading lever 11 and the handle 16, connected by an axis 17, a calibration device is mounted, comprising a ball 18, pressed by a spring 19, a pusher 20 and a calibration screw 21.

The device works as follows. Before measuring on the loading lever 11 set the normalized force. Fix the housing 1 of the instrument to the bearing assembly. If the shaft of the latter protrudes slightly, then the lever 11 is set so that the axis 14 is in its notch 12 in the position 16 nearest to the handle. If there is a nut at the end of the shaft,

Then the lever 11 is mounted so that its prismatic notch 12 abuts against the shaft. By pressing the lever 11, the end of the shaft is deflected in a vertical plane, the prismatic notch 12 of the lever 11 does not allow the shaft to move in another plane, and the meter 5 indicates the amount of movement of the end of the shaft. The amount of movement of the shaft end is linearly dependent on the radial clearance in the bearing assembly. A clearance can be determined from the regression line for a particular bearing assembly.

Claims (1)

The housing 1 is fixed to the cup 4 of the bearing assembly with locking elements 3. The lever 11 is mounted so that the shaft lies with the entire surface on the prismatic notch 12 of the lever 11. The remote tip 9 of the meter 5 is guided to the protruding end of the shaft. Using handle 16 of lever 11, the shaft end is deflected and gauge 5 determines the size of the gap. Claims An instrument for measuring radial clearances in bearing assemblies, comprising a housing, a meter installed therein, a lever, and a tared loading mechanism associated with one end of the lever, which is characterized by the fact that, in order to increase the measurement performance, it is equipped with fixing elements for fastening it to the bearing assembly, and at the other end. the lever is made prismatic cutout designed to interact with the bearing unit. 03g year fr fv