CS196255B2 - Apparatus for measuring the straightness of the surface of objects particularly the elements of the antifriction bearings - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to an apparatus for measuring the surface straightness of objects, in particular rolling element bearing elements.

The presently known design of surface straightness measuring instruments comprises a measuring table on whose plate the object to be measured is placed. If the parallelism of the tapered surfaces is measured by shifting the measuring probe, they are placed under one end of the gauge block and the alignment of these surfaces is achieved by adjusting the screw and clamping the slide that moves the measuring probe together with the base gauge.

These devices have the disadvantage that they always require the most accurate alignment of the sample surface with respect to the surface to be measured and thus also the displacement of the measuring sensor. This manipulation requires a lot of expertise and is very laborious.

In addition, in known apparatuses, the measurement result is written on a registration tape, the displacement of which is not tied to the displacement of the measuring sensor, which leads to considerable errors in determining the shape deviation of the measured surface from straightness.

For this reason, the known devices are used in a small number of pieces only for laboratory tests, but have not been introduced for workshop tests in large-scale production.

The aforementioned drawbacks are eliminated by an apparatus for measuring the straightness of the surface of objects, in particular rolling element bearing elements, consisting of a stand with a measuring table and a sliding assembly according to the invention, which consists in that the measuring table is rotatably mounted articulated with the stand, the axis of rotation of the measuring table and the direction of travel of the measuring sensor are in the same plane of displacement and the arm is supported near the axis of rotation of the measuring table by a ball movable on an inclined plane by a screw. In addition, the measuring sensor, which is in contact with the test item, is connected to the potentiometer by means of belts, a shaft and a coupling.

The instrument created in this way greatly reduces the measurement time, thanks to the simplified adjustment of the controlled surface to the displacement of the sensor and a more accurate reproduction of the test surface due to the direct connection of the displacement. A sensor with a horizontal displacement of the light point determining the image of the surface to be controlled on the screen of the oscilloscope screen.

An exemplary embodiment of the invention is illustrated in the accompanying drawing, which is an apparatus for measuring the surface straightness of objects in a schematic drawing. :,

As can be seen from the drawing, the apparatus consists of a measuring table 1 which is pivotally mounted on one edge on the arm 3, the other end of which is articulated to the stand 4. Near the support point 2, the arm 3 is supported by a ball 5 slide on inclined plane 6 by means of slide 7 and bolt 8 with gagged handle.

A guide track 9 is attached to the side stand 4, in which the slide 10 is moved in a vertical plane. A measuring sensor 11 is mounted on the slide, one measuring element of which is guided along the straightness standard 12 and the other measuring element over the test item 19. from the electric motor 13 through the shaft 14 and the belt 15, which, through the coupling 16 and the connecting belt 17, ensure simultaneous rotation of the potentiometer 1β. , ·

The object to be measured 19 is placed on a measuring table 1 which, when measuring a conical surface. In turn, the detection of this parallelism is carried out by means of a screw 8 which, by means of the slide 7, moves the ball 5 on the inclined plane 6 and thereby The instrument according to the invention does not require precise alignment of these surfaces, because the reading device is provided with a rotary scale which allows the measurement result to be detected even at angular inclination.

The measuring element moving along the profile of the controlled surface is connected in a known manner to a core sliding in an induction coil which is connected in the bridge. An electrical signal is produced in the bridge in the form of changes in the amplitude of the AC voltage, which signal, after passing through the phase-sensitive detector and amplified, is applied to the osciloscope's vertical deflection plates, thereby deflecting a light point along its vertical axis.

The displacement of the slide 10 on which the measuring sensor 11 is clamped causes a mechanical distribution to the axis of the potentiometer 18 to change the voltage distribution at the terminals of the potentiometer 18.

After amplification, the voltage from the potentiometer 18 is applied to the horizontally deflecting plates of the oscilloscope screen, causing the light point to be deflected horizontally on its screen. In this way, an image of the surface to be inspected in a rectangular coordinate system is obtained on the screen of the oscilloscope screen of the reading device.

Thanks to the simplified projection of the surface to be controlled, the device thus created makes it possible to shorten the sensor considerably. required measurement time, and also achieve higher measurement accuracy of the controlled surface profile.

Claims (2)

, SUBJECT 1. Apparatus for measuring the surface straightness of objects, in particular rolling element bearing elements, consisting of stands with a measuring table and a slide support, as well as an electronic measuring device and an electronic reading device, characterized in that the measuring table (11) is rotatably mounted on one edge ) of the arm (3), the other end of which is articulated to the stand (4), the axis of rotation of the measuring gallery (1) and the direction of travel of the measuring sensor (11) being in the same feed plane; The table (1) is supported by a ball (5), sliding on the inclined plane (6) by means of a screw (8). Apparatus according to claim 1, characterized in that the measuring sensor (11) in contact with the object to be inspected (19) is connected by means of belts (15, 17), a shaft (14) and a coupling (16). with potentiometer (18).