CS251035B1 - Device for measuring of antifriction bearings' rings' functional surfaces shape and position deviations with straight-line contact - Google Patents

Abstract

The proposal relates to a device for measuring deviations the shape and position of the function surfaces of the rings roller bearings. The facility consists of measuring bases provided with positioning supports measured eoučóstl and pianist paralelograaú with measuring contacts a sensors. The essence is that two pianist systems attached to the base with the possibility of movement in the perpendicular direction the axis of rotation of the measured component is in the first measuring distance from the measuring base attached to the measuring contacts and in the second meter sensor distance, always placed radially opposite each other on the wall measured components. Measuring touch and sensors they are arranged in one axial plane passing through the axis of rotation of the measured component the measuring sensors are connected to the evaluation unit associated with the recorder equipment. The device is particularly advantageous for use in the manufacture of bearings for measurement deviations in the shape and position of the roller rings and tapered roller bearings.

Description

The present invention relates to a device for measuring deviations of the shape and position of the functional surfaces of a contact bearing ring.

At present, the measurement of deviations in the shape and position of the functional surfaces of the linear contact bearing rings is performed separately in several stages, in particular the conicity and ovality of the raceway, the runout of the outer cylindrical surface or raceway to the base face and the base face to the hole. The interconnection of the connecting surfaces, i.e. the outer cylindrical surface or the cylindrical bore and the rolling surfaces, is not measured at all, although in some cases it is decisive for the proper functioning of the bearing in the bearing. In the drawings, the interconnection of the connecting and rolling surfaces is usually limited by the permissible values of the runout of the outer cylindrical face to the base face, the base face to the cylindrical bore and the raceway to the base face. In practice, then, there may be a situation where the deviations of the positions of the connecting surfaces and the rolling surfaces are in phase or counter-phase, and there is no known means to enable the precise positioning of these surfaces to be precisely defined and measured.

This deficiency is largely eliminated by a device for measuring deviations of the shape and position of the functional surfaces of the linear contact roller rings, consisting of a measuring base provided with abutments for aligning the workpiece and foil-paralleled parallelograms provided with measuring contacts and sensors according to the invention. SUMMARY OF THE INVENTION In a plane perpendicular to the axis of rotation of the component to be measured at a first measuring distance from the measuring base parallel to the foundation, on the foundation are arranged by means of foil systems adjacent to the outer and inner surface of the component to be measured. mounting of external measuring sensor

251 035 and a radially opposed internal measuring contact having a first internal holder for receiving an indicator having a tip in contact with an external measuring contact stop, and a second internal holder for receiving an internal measuring sensor disposed opposite to the external measuring sensor in a further a plane perpendicular to the axis of rotation of the measured component at a second measuring distance from the measuring base parallel to the base · The measuring contacts and the measuring sensors are arranged in one axial plane through the axis of rotation of the measuring component and the measuring sensors are connected to the evaluation unit connected to the recording device

The device according to the invention makes it possible to measure the external cylindrical surface runout to the base face of the outer bearing rings, the taper of the raceway of the inner bearing rings and the internal measuring sensor. or tapered holes. By adjusting the evaluation unit to determine the mean of the two deviations indicated by the outer and inner measuring sensors in the position of the measuring contacts set up according to the extension piece, it is possible to determine the relative position or conicity of the outer and inner surfaces of the bearing ring.

The device according to the invention is shown schematically in section in the accompanying drawing.

On the base 13, an external measuring contact 4 is disposed by means of an outer foil system 6 adjoining radially to the outer cylindrical surface of the measuring component 4 and against it by means of an internal foil system 2 an internal measuring contact 2. in the illustrated case, a cylindrical roller bearing mounted on the measuring base 2 and secured against radial displacement by fixed supports J. The external measuring contact 43 has a stop 14 on the one hand and an external holder 12 in which the external measuring sensor 8 is attached. cylindrical surface of the workpiece 1. An internal measuring contact 20 ® provided with a first internal holder 16 for receiving an indicator | 2. the tip of which is in contact with the stop 14 and further scalded by a second inner holder 17 for attaching the inner measuring sensor 2 adjacent the inner surface of the measured component 1 radially opposite the tip of the outer measuring sensor 8. The measuring contacts 4, 5 ' plane perpendicular to

251 035 the axis of rotation of the measured component 1 at a first measuring distance 1 from the measuring base 2 and the measuring sensors 8, 2 lies in a second plane similarly oriented at a second measuring distance 18 ° of the measuring base 2, 8 2 ^le "is running in an axial plane through the axis of rotation measured part £ 1 rotated by not shown náhonovým mechanism. The measuring sensors 8, 2 3 ^{8OU are} connected to the inputs of the evaluation unit 10 to which the recording device 11 is connected.

When measuring with the device according to the invention, the component to be measured is positioned on the measuring base 2 with a base face and secured against radial displacement by fixed supports 2 ^{in a} horizontal plane at a first measuring distance 1 from the measuring base 2 against the outer and inner surface. 2, and in a second horizontal plane at a second measuring distance 1 from the measuring base 2 of the measuring sensor 8, 2 While the measuring component 1 is rotated, radial deviations of the outer and inner rotating surface of the measuring component 1 relative to the measuring contact position 4, 6, and further, throwing the raceway and the cylindrical surface to the base face. The indicator 12 allows the radial runout of the raceways to be measured at a first measuring distance 1 from the base face. By adjusting the evaluation unit 10 to calculate the mean value from the data obtained by the measuring sensors 8, after adjusting the measuring contacts 4, 2 of the reference piece at which the mutual relationship of the outer and inner rotational surfaces is measured with sufficient accuracy. In the case of a recording device 11, the measurement results in the amplitude of the graphical record evaluated at the selected vertical magnification.

It is advantageous to use the device according to the invention in particular for measuring deviations of the shape and position of the rings of roller and tapered roller bearings in shop conditions.

Claims (1)

Apparatus for measuring deviations in the form and position of the functional faces of straight-contact ball-bearing rings, consisting of a measuring base fitted with supports for aligning the component to be measured and foil-paralleled parallelograms provided with measuring contacts and sensors; the axis of rotation (o) of the measuring component (1) at a first measuring distance (1) from the measuring base (2) parallel to the base (13) arranged by means of foil systems (6, 7) adjacent to the outer and inner surface ) an external measuring contact (4) provided with a stop (14) and an external holder (19) for receiving an external measuring sensor (8) and a radially opposed internal measuring contact (9) provided with a first internal holder (16) for receiving an indicator (12) ), the tip of which is in contact with the stop (14) of the external measuring contact (4) and further provided ý a second inner holder (17) for receiving an internal measuring sensor (9) arranged opposite to the external measuring sensor (8) in a further plane perpendicular to the axis (o) of rotation of the measuring component (1) at a second measuring distance (1 ₂ ) (2) parallel to the base (13), wherein the measuring contacts (4, 9) and the measuring sensors (8, 9) are arranged in one axial plane passing through the axis of rotation (o) of the measuring component (1) and the measuring sensors (8, 9) ) are connected to an evaluation unit (10) connected to a recording device (11),