CS197136B1 - Device for measuring the diameter of inner circular surfaces and deviations thereof from the roundness - Google Patents

Description

(54) Equipment for measuring the diameter of internal spherical surfaces and their spherical deviations

AND

The invention relates to a device for measuring the diameter of inner spherical surfaces and their spherical deviations, in particular the raceways of the outer rings of tilting ball and ball bearings, which are particularly suitable for operating purposes.

In practice, the measurement of such surfaces appears most often necessary in the production of spherical and spherical roller bearings, where they are spherical in the raceway of the outer rings. Under operating conditions, these surfaces have so far been measured by universal gauges consisting of a base plate with one fixed measuring and one fixed abutment, a foil parallelogram carrying a movable measuring abutment, and a abutment in contact with the tip of the microcoder or dial indicator. The microcontroller or dial indicator is in this case fixed in a base frame which is fixedly connected to the base plate. The contact points are located on a line passing approximately the center of the raceway in the case of the outer race of the bearing and parallel to its face. The disadvantage of the measurement on these devices is that the diameter of the spherical surfaces and their deviations in the different sections that pass through the center of the surfaces and in the case of the bearing rings there is then different end faces of the bearing rings.

In the outer rings of these bearings, the absence of a suitable spherical deviation meter often leads to the fact that the orbits are not made spherical but torus. In the case of own bearings, this is subsequently manifested by a burn-out, or sometimes even a disabling of the possibility of tilting the inner and outer ring relative to each other. The necessary spherical measurements were due to a lack of 197 136

197 136 measuring instruments should be performed only in the laboratory, which shows sufficient accuracy, but lacks the necessary operability that the operating meters must have.

The device according to the invention mainly removes the above mentioned disadvantages and its essence is that on the frame of the device is mounted in particular a vertical axis a circular support whose diameter is smaller than the diameter of the measured spherical surface, while approximately perpendicular to the axis of the circular support is to the axis There are two remote measuring faces which are movable with a remote deviation gauge arranged between them. The longest is that on the axis perpendicular to the axis of symmetry of the circular support lies the point of the abutment, which is spaced from the oey symmetry of the circular support by the axial distance of the center of the measured spherical surface. Preferably, the β is arranged on the frame of the device.

The device according to the invention makes it possible to measure the diameter of the spherical surfaces as well as the deviations of the machine gun on a single gauge of approximately the same design intensity as the previous operating gauges.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is further illustrated by way of example of an apparatus according to the invention, which is schematically shown in the accompanying drawing, in FIG. 1 in front view with a measured ring in axial section and in FIG. 2 in plan view with measured ring in axial section.

An annular support 2 β by a vertical axis is fastened to the frame JL of the device. This support 2 is smaller in diameter than the belt height of the spherical surface to be measured, in this case the raceway 9 of the outer ring, 3 of the spherical non-tilting or spherical roller bearing. The orbit 9 rests on the weight of the ring 6 on an annular support 2 whose axis extends through the center O of the spherical surface 9 of the orbit 9 of the ring. In the bearing plane of the ring 3 on the annular support 2, the ring 3 is supported by one face on the tip of the abutment 5. This tip lies on an axis that extends through the plane of the bearing 3 on the annular support 2. Thus, two inverted measuring tips 6, 7 are displaceable along this axis. It is firmly connected to the remote deviation meter 8, which may be, for example, a cross micrometer or a dial gauge. The second measuring tip 7 abuts the sliding portion of the length deviation meter 8.

During the measurement, the bearing ring 3 is suspended from the annular support 2 and arrives at an abutment on the abutment 5, the tip of which is spaced from the oey symmetry of the annular support 2 by the distance of the respective bearing ring 3 from the plane 7. In order to be able to suspend the ring 3, when the bearing ring 3 is suspended, the ring 2 is not moved towards one another by the measuring contacts 6, 7 so that the spacing of their spikes is smaller than the opening of the outer bearing ring 3. In the actual measurement, ee rotates around the symmetry ring o, the ring rest 2e rotates about the axis of the ring 3, while ee follows the relative movement of the measuring pins 6, 7 on the length deviation gauge 8, which determines the diameter of the spherical surface e. The length deviation gauge B is adjusted to the desired value with a standard ring, measured by a suitable exact method.

Claims (2)

SUBJECT OF THE INVENTION 1. Apparatus for measuring the diameter of internal spherical surfaces e Their deviations in sphericality, in particular the raceways of the outer rings of non-percussion ball and spherical roller bearings, characterized by the fact that an annular support (2) is fastened to the frame (1). is smaller than the diameter of the spherical surface to be measured, wherein two inverted, movably mounted measuring faces (6, 7) are arranged perpendicular to the axis of symmetry of the annular support (2) on the axis passing through the center of the spherical surface to be measured. 8) length deviations. Apparatus according to claim 1, characterized in that the tip of the abutment point (5) lies on the axis perpendicular to the axis of symmetry of the annular support (2), which tip is spaced from the axis of symmetry of the annular support (2) the spherical surface from the end face of the component having the spherical surface to be measured, the support contact (5) being arranged on the frame (1) of the device.