CS270950B1 - Device for ball bearings' races' orbits parameters measuring - Google Patents

Abstract

The invention applies to the field of measuring technology and applies to equipment for measuring the orbital parameters of ball bearing rings. The equipment is based on a foundation frame, a drive spindle with a carrier of measured ball bearing rings and three sensing units, provided with measuring contacts. The nature of the solution is based on the fact that two oppositely positioned sensing units (4, 5) are clamped in a holder (7) anchored to the foundation frame (1) of the equipment where, furthermore, another holder (8) is anchored with the third clamped sensing unit (6). Its measuring contact (61) is in touch with a table (9) to which the measured ball bearing ring (3) is placed and radially positioned. The table guide rod (91) is embedded in a rectilinear guide way with a rigid part anchored to the foundation frame (1) of the equipment and is set in an oscillating motion by a cam-operated or possibly an eccentric mechanism. The measuring contact (61) of the third sensing unit (6) may be in touch with the face of the measured ball bearing ring (8).<IMAGE>

Description

(54)

The invention relates to the field of measuring technology and solves a device for measuring the parameters of raceways of ball bearing rings. The device consists of a base frame, a spindle with a carrier for the bearing ring to be measured and three sensors with measuring contacts. The essence of the solution is that two opposing sensors (4,

5) are held in the holder (7). which is anchored in the base frame (1) of the device, where the further holder (8) is further anchored, in which the third sensor (6) is mounted. His; the measuring touch (61) is in contact with the table? (9), on which it is supported and radially half-way ·. The measured bearing ring (3) is moved. Guide; The table rod (91) is mounted in a straight guide with a fixed part anchored in the base frame (1) of the device and is oscillated by a cam or eccentric mechanism. Measuring contact ·: (61) of the third sensor (6) can be in tact with the front of the measured ring (8) Ιοί.

CS 270 950 B1

CS 270 950 B1

The invention provides a device for measuring the raceway parameters of ball bearing rings, in particular diameter and ovality, as well as the position and axial runout of the raceway to the base face of the raceway ring at the deepest point of the raceway.

Most of the devices used to measure raceway raceway raceway parameters are designed to measure either raceway diameter and ovality or the raceway distance and axial runout to the base face of the raceway race. Only a small percentage of these devices allow the above parameters to be determined at the deepest point in the raceway of the bearing ring. The most perfect device for measuring raceway raceway raceway parameters is a device that is rotated when measured with a raceway. The surface of the orbit touches the measuring contact of two opposing sensors mounted on the oscillating lever, its movement being perpendicular to the direction of movement of the measuring contact. The oscillating lever swing is monitored by a third sensor. By combining rotary and rocking motion, the bearing ring can be measured in a large number of cuts near the deepest part of the raceway. The disadvantage of the device is that the sensors move with the oscillating lever. Due to the bending of the cables and the inertia forces of the sensor elements, parasitic signal components are created which adversely affect the accuracy of the measurement, in particular the ovality and axial runout of the raceway to the base face of the bearing ring.

The aforementioned disadvantages are largely eliminated by the device for measuring the raceway parameters of the ball bearing rings according to the invention. The device consists of a base frame, a drive spindle provided with a bearing bearing carrier, two opposing sensors with a direction of movement of the measuring points perpendicular to the axis of the bearing bearing ring, in contact with the raceway of the bearing bearing. axis of the measured bearing ring. The principle of the invention is that the two opposing sensors are mounted in a holder which is anchored in the base frame of the device, where a further holder is supported by the third sensor. Its measuring contact is in contact with the table on which the bearing ring to be measured is positioned and radially positioned. The table guide rod is supported in a linear guide with a fixed part anchored in the base frame of the device. The guide rod is connected to a cam or eccentric mechanism, which is anchored by a fixed part to the base frame of the device. The measuring contact of the third sensor is in contact with the face of the measured bearing ring.

The device according to the invention is intended to measure the diameter and ovality of the raceway and further to measure the distance from the base face and the axial runout of the raceway to the base face of the inner and outer ball bearing rings, especially for laboratory purposes. An advantage of the device according to the invention is that the measured parameters are determined at the deepest point of the raceway of the bearing ring where the balls contact the raceways when the bearing is not axially preloaded. The use of the device according to the invention makes it possible to introduce a computer technology which, from the data collected by the sensors, calculates the values of the detected raceway orbit parameters.

An exemplary embodiment of a device for measuring the raceway race of a ball bearing according to the invention is shown schematically in the drawing. »

The device consists of a base frame 6, in which a drive shaft 2 is provided, provided with a lifting device 22, which enables insertion of the measured bearing ring 6 into the measuring point. By means of the carrier 21, the measured bearing ring 6 is rotated. By means of the pressing device 23, the measured bearing ring 6 is positioned relative to the guides 93 of the table 9. A holder 8 is attached to the base frame 6 of the device, on which two opposing sensors 6, 7 are mounted. In the deepest part thereof. The bearing bearing ring 6 is located by a face 32 on a table plate 6 which is provided with a guide rod 91, guided in a rectilinear guide 92 anchored in the base frame 6 of the device. The guide rod 91 with the table 6 is actuated by a cam or exCS 270 950 B1 via a centric mechanism 10 in oscillation which is registered by a measuring contact 61 by a third sensor 6 mounted in another holder 2 connected to the base frame 2 of the device. During the oscillating movement of the measuring contacts 41, 51 of the opposing sensors 2, 2, they alternately enter and exit from the deepest part of the raceway 41 of the bearing ring 2 to be measured. From the data obtained from the sensors 4, 2 &apos;, the electronic unit (not shown) evaluates the basic parameters of the raceway 31 of the measured bearing ring 2 in relation to the deepest part of the raceway 31 of the measured bearing ring 2. An even higher measurement accuracy can be achieved by measuring the contact 61 of the third sensor 6 is a straight-line valve with the face 32 of the bearing ring 3 to be measured.

Claims (2)

SUBJECT OF THE INVENTION 1. Apparatus for measuring raceway parameters of ball bearing rings, in particular diameter and ovality, and the position and axial runout of the raceway to the base face of the raceway ring in the deepest point of the raceway. sensors arranged in the direction of motion measuring probe measured perpendicular to the axis of the bearing which are in con- tact with ^one orbit of the measured bearing ring, and a third sensor measuring contact with the movement in the axial direction of the measured bearing ring, characterized in that two oppositely disposed sensors (4, 5) are mounted in a holder (7) anchored in the base frame (1) of the device, into which is further anchored another holder (8) carrying a third sensor (6) whose measuring contact (61) is in contact with the table ( 9) on which it is mounted and radially positioned m a measured bearing ring (3), the selector rod (91) of the table (9) being mounted in a linear guide (92) with a fixed part anchored to the base frame (1) of the device and connected to a cam or eccentric mechanism (10) a fixed part into the base frame (1) of the device. 2. Device according to claim 1, characterized by. The measuring probe (61) of the third sensor (6) is in contact with the face (32) of the bearing ring (3) to be measured.