CS234071B1 - Measuring equipment of orbit position and axial run-out against ball bearing cup's principal face - Google Patents

Abstract

The device according to the invention solves the measurement the position of the orbit together with the axial throwing the raceway bearing rings with angular contact, especially with incomplete ones orbits. On the instrument's measurement board two support members are fastened from above for measured rings and bottom two planzet parallelograms with moving Fixed and Measured Touch Members. Second a foil parallelogram is provided to the measuring probe tip attached to the movable cannon of the first planchet paralelogram. The device can be used for operational measurements listed parameters for both outer and inner rings bearings.

Description

The invention relates to a device for measuring the position and axial runout of a raceway with respect to the base face of angular contact ball bearing rings, which is particularly suitable for rings with incomplete raceways.

AO 216 758, which reassesses, complements and expands in terms of technical solution.

At present, the above parameters on rings with incomplete tracks are determined on the equipment according to MS.

AO 216 758. However, in this device, intermittent jerky rotational movements of the measured rings occur during measurement due to the high friction between the measuring plate and the base face of the collars and between the fixed contact and the support bar and the raceway of the rings. The effect of friction is even more pronounced when measuring large rings, where, due to the increased weight of the rings and the increasing contact area between the measuring plate and the load face of the ring being measured, the spinning ring can stop and thus make measurement impossible. Another disadvantage of the existing device is that the measuring circuit is part of the bearing elements of the device. This implies that any deformation or other change in the stiffness of the bearing elements is directly transmitted to the measuring circuit, thereby distorting the measurement results.

The aforementioned drawbacks are largely eliminated by the device for measuring the position and axial runout of the raceway relative to the base face of the angular contact ball bearing rings, especially with incomplete raceways. SUMMARY OF THE INVENTION A measuring plate is provided on the base frame of the device on which a support member for the measured outer bearing ring and a further support member for the measured inner bearing ring are mounted from above.

- 2,234,071

At the bottom of the measuring plate there is a foil parallelogram fitted with a movable member arranged parallel to the measuring plate. This movable member is provided with a fixed contact. Further, on this movable member there is mounted another foil parallelogram with a second movable member arranged perpendicular to the measuring plate and provided with a measuring contact and an abutment. This support abuts the tip of the measuring sensor attached to the movable member of the foil parallelogram. It is a further object of the invention that the support members are formed by contact or prisms.

The device according to the invention makes it possible to measure the position and axial runout of the raceway with respect to the base face of angular contact ball bearings under operating conditions, both for the outer and the inner rings on a single device.

The effect of friction between the fixed contact and the support member and the raceway of the measured rings is minimized with this device. Compared to the existing equipment according to MS. AO 216

758, where the measuring ring has been pushed firmly on and between the fixed contact and the support member by hand or away from the mechanical spinning device, the measured ring is rotated manually in the prism or on the mechanical spinning device by a small force tangentially pressed against the support member; the fixed contact located on the bogie parallelogram 8 by horizontal movement of the movable member with only a slight contact force follows the orbit of the measured ring simultaneously with the measuring contact placed on the bogie member of the bogey parallelogram with the vertical movement of the mobile member. Simultaneously with the reduced friction value between the fixed contact and the support member and the race of the measured rings, the influence of the firmness of the fixed contact is eliminated due to the low pressure between the fixed contact and the race of the measured rings. A significant improvement over the existing device is that the measuring circuit is not part of the bearing elements of the device, but is supported on a planar parallelepiped with a movable member whose direction of movement is parallel to the measuring plate. This implies that any deformation or other change in the stiffness of the bearing elements is not directly transmitted to the measuring circuit of the device. This increases the accuracy of the 3 234 071

../ ření. The device according to the invention is simple to manufacture and easy to operate and evaluate.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows an arrangement for measuring the position and axial runout of a raceway relative to a base face of an outer ring; and FIG. 2 an arrangement for measuring said parameters of an inner ring of a angular contact and incomplete raceway. runways.

The device consists of a base frame X and a measuring plate 2 arranged thereon for receiving the measured bearing ring. The measuring plate 2 is provided with two abutment members X, 6, either in the case of mechanical spinning of the measured bearing rings, or prisms in the case of manual spinning of the measured bearing rings. The support member J contacts the outer cylindrical surface in the case of the outer rings and the support member A ^{in the} case of the inner rings the flange. On the base frame 1 is placed at the bottom a foil parallelogram 6, the movable member 51 of which moves parallel to the measuring plate 2. The movable element 51 of the foil parallelogram 6 is provided with a fixed contact 6 which follows the raceway of the bearing ring to be measured. spot. Furthermore, the movable member 51 £ planžetového parallelogram provided with a further parallelogram planžetovým 2, the movable member 71 oo »moving perpendicular to the measuring plate 2. The movable member 71 of the parallelogram planžetového 2 3 ^e comprises measuring pins 8 which contacts the raceway of the bearing ring measured K1. K2 at the point of theoretical contact of the orbit with the balls. The movable member 71 of the further foil paralelogram 2 is further provided with a support 2 which contacts the probe tip 10, for example, of a sensor or indicator mounted on the movable member 51 of the foil paralelogram 6. The measuring sensor 11 monitors the movement of the measuring contact 8 and is connected to an evaluation device (not shown).

The measurement procedure is carried out by placing a standard bearing ring on the measuring plate 2. The fixed contact 6 is set at the deepest point in the raceway of the standard bearing ring. The support member J is measured when measuring the outer bearing

- 4 23 «071“ rings set to the diameter of the outer cylindrical surface of the standard bearing ring. When measuring the inner bearing rings, the support member 6 is adjusted to the collar diameter of the standard bearing ring. The measuring contact 8 touches the race of the standard bearing ring at the point of theoretical contact of the race with the balls. The sensed value of the raceway position relative to the base face of the standard bearing ring is transmitted to the tip 10 of the measuring sensor 11, either of the indicator or of the sensor associated with the evaluation apparatus. By setting this value on this measurement sensor 11 or on the evaluation apparatus to zero, the device is ready for measurement. By replacing the standard ring with the measured bearing ring K1, K2, a deviation of the raceway position relative to the base face of the measured bearing ring is detected on the measuring sensor 11 or on the evaluation apparatus when the measured bearing ring is rotated manually or axial runout of the raceway to the base face of the measured bearing ring.

Claims (3)

A device for measuring the position and axial runout of a raceway relative to the base face of angular contact ball bearings, in particular incomplete raceways, characterized in that a measuring plate (2) is arranged on the base frame (1) of the device on which a support member (3) fastened from above for the measured outer ring (K1) of the bearing and a further support member (4) for the measured inner ring (K2) of the bearing, while the bottom plate of the measuring plate (2) 51) arranged parallel to the measuring plate (2) and provided with a fixed contact (6) and further mounted on this movable member (51) another foil parallelogram (7) with a second movable member (71) arranged perpendicular to the measuring plate and provided with the measuring a contact (8) and an abutment (9) adjacent to the tip (10) of the measuring sensor (11) connected to the movable member (51) of the foil aralelogram (5). Device according to claim 1, with mechanical rotation of the measured rings, characterized in that the support members (3, 4) are formed by contact. 3. Apparatus according to claim 1, with manual turning of the measured rings, characterized in that the support members (3, 4) are formed by attachments.