SU965603A1 - Apparatus for centring by axis - Google Patents

Description

(54) DEVICE FOR CENTERING PRODUCTS ON AXIS

one

The invention relates to measuring devices, in particular for centering products along the axis when installed on metal-cutting machines.

A device for centering the product axially is known, consisting of a lever system in the form of a hinged parallelogram mounted on a supporting element in the form of a rotating ring. At one end of the parallelogram, a probe is mounted, and at the other end, a base element in the form of a ground ring, matching with the tip of the indicator 1.

However, the known device does not allow to determine the magnitude and direction of the beating of the centered surface directly without performing calculations. In addition, it is difficult to perform the base element, which needs to be installed without a gap strictly along the axis of the device during the processing of the outer surface of the base element.

The purpose of the invention is to expand the technological capabilities of the device.

The goal is achieved by the fact that the device is equipped with a hollow shaft, cantilever and coaxially arranged rotatably in the mandrel, the support ring is mounted on the shaft, and the base element is designed as a bar with an emphasis and a pair of double-arm levers interconnected by a rod by sex

5 to a shaft, with one lever mounted on the shaft and intended to interact with the support of the bar, and the other lever mounted on the mandrel and intended to interact with the indicator.

FIG. 1 presents proposed

° device design for centering the product axially; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows an embodiment of a device that provides an increase in the readings on the indicator while extending, 5 times, the displacement of the axis of the test surface of the part to the axis of the device in the plane of the probe.

The device consists of a hollow mandrel 1 with a shank 2 installed in the clamp or quill 3 of the machine, or a fixture, a cantilever hollow shaft 4 mounted coaxially into the hollow mandrel 1 rotatably and fixed with a screw 5 from axial movement.

On the cantilever shaft 4 there is a support element 6 on which a parallelogram lever system is hinged, consisting of two long links 7 and 8, two short links 9 and 10, and a spring 11. On the short link 10 a holder 12 is fixed for fastening the probe 13 in contact with the surface of the product 14. The link 9 is a base element made in the form of a bar with a stop 15 passing inside the groove 16 of the hollow shaft 4. Inside the hollow shaft 4 there is a movably central rod 17 that cooperates with the stop 15 of the base element 9 and that the tip of the indicator 18 with two double-armed levers 19 and 20 are disposed on. axis x respectively in the groove of the cantilever shaft 4 and in the groove 21 of the mandrel 1. The indicator 18 is fixed in the bracket 22 mounted on the mandrel 1.

In the embodiment of the device for centering the product axially (FIG. 3), the device is additionally equipped with a spring 23 acting on the double shoulders lever 20 and ensuring the backlash-free contact of the lever system from the probe 13 to the tip of the indicator 18 when the double shoulders lever 20 is positioned so that the indicator tip 18 lifts the lever arm 20 from the central rod 17.

The centering of the product along the axis is as follows.

Select from the set of probes along the length of the probe 13, corresponding to the hole of the product 14 (the probe length must be less than the diameter of the hole) and insert it into the holder 12.

Then the device is inserted into the hole of the machine tool shaft 3 and, by moving the table or the spindle head (not shown), roughly visually install the device along the axis of the product 14. The probe can be installed 13 after the device is installed in the machine spindle 3.

By axially moving the product 14 or quill 3 of the machine, a part of the device with a probe 13 is inserted into the hole of the product 14.

Under the influence of the spring 11, the parallelogram lever system rotates around the hinges on the support element 6 until the probe 13 touches the surface of the product 14.

When the probe 13 is located in the horizontal plane, the lever system in the form of a parallelogram occupies a new position. At the same time, the position of the stop of the 15-base element 9 changes. In accordance with this, the double-arm lever 19 rotates, the central rod 17 moves along the axis, which is acted upon by the double-arm lever 20 installed with tension, the indicator tip 18. When the central rod 17 moves and turning the two shoulders of the lever 20 on the indicator 18, the arrow of the indicator 18 is set to a certain position. In this position, by rotating the scale of the indicator 18, the zero division is combined with the arrows and the moving part

devices (articulated parallelogram) for support element 6 by 180 °. The resulting value on indicator 18 is halved and the product 14 is moved until the indicator 18 is divided in half. By re-turning the movable

0, the parts of the device at 180 ° confirm that the indications of the indicator 18 are equal in the horizontal plane.

Then turn the movable part of the device by 90 ° (probe 13 is located in

vertical plane) and repeat the above centering vertically. By continuously rotating the movable part of the device, the indicator arrow 18 remains in the zero position. Centering spindle 3 (or

quill) of the machine along the hole axis ends here.

With equal arms, the levers 19 and 20 from the axes on the supporting element 6 to the axes of attachment of the links 9 and 10, the movement of the tip of the indicator 18 corresponds to the movement of the probe 13 on the surface of the part 14 in the radial direction, which allows using the device for centering also the non-circularity of the surface of the part, which expands its technological capabilities.

In the device (Fig. 1), with increasing displacement of the axis of the surface of the part 14 from the axis of the device in the plane of the probe location, the indications on the indicator 18 decrease. And this circumstance must be taken into account to determine the direction of displacement during centering.

In some cases, devices are more convenient (Fig. 3), in which, with an increase in the displacement of the axis of the test surface from the axis of the device (in

0, the probe positioning planes increase and the readings on the indicator. For this, the lever 20 will be thrown 90 °, and in order to ensure constant contact of parts 15, 19, 17 and 20 on one arm of the lever 20, a spring 23 acts, the axial force of which is greater than the axial force of the spring on the indicator 18, but less than the force of the spring 11.

Centering the product axially with the device (Fig. 3) is similar to that described for the device on

0 fig. one.

Using the invention to center the product axially creates significant convenience for workers, does not pipe recalculations, expands technological capabilities and speeds up the alignment process.

5 products.

Claims (1)

The invention The device for centering products along the axis, containing the mandrel, lever