SU123718A1 - Method for measuring large hole diameters - Google Patents

Description

Methods for measuring large diameters of orifices using an optical goniometric device (theodolite), in which the cylindrical surface of the aperture is used as the base surface for the sighting marks mounted on it, are known.

A distinctive feature of the proposed method of measuring the diameter with the help of the same measuring means is to install an Optical goniometric device approximately in the middle of the measured diameter with subsequent measurement from this position of two diameter segments located on both sides of the device; These segments are equal to the distance from the axis of the device to the base rail, arbitrarily installed in the same plane and pressed to the cylindrical surface in two positions.

Such an implementation of the proposed method is intended to improve the accuracy of measurement of both the hole diameter and ovality, as well as its taper.

FIG. 1 is given the measuring scheme of the proposed method; in fig. 2 and 3 are the basic rake, in plan and on the side, and in FIG. 4 is the same, view along arrow A of FIG. 3

The basis of the proposed pololseio method is the sequential measurement by optical means of several linear segments constituting a controlled diameter D:

D (a, + a2) + (ho + ho)

The relatively small size of these segments leads to the fact that the errors of their measurements are also relatively small. As a result, the mean square error of measuring the diameter D is about one and a half times less (ceteris paribus) the error of directly determining the diameter.

The goniometric optical device / fix approximately

JJb 123.718-2 -

the middle (center () of diameter D, for example, the tool holder 2 (if the part is not removed from the face of the processing machine) or on a pedestal (if the part is outside the machine). Measuring marks S n 4 located on the base rail 5 are fixed relative to the cylindrical surface of the hole 6.

Using the optical device 1 and marks 3 and 4, the measurement of the segment a is taken. Then, turning the device through 180 °, using the marks 3, 4, the segment a is determined.

AO and Lo segments are measured using conventional mechanical means, such as a micrometer screw.

In the horizontal plane, the installation of the device / and the base rail 5 is carried out using levels.

By moving the tool holder 2 of the machine along the vertical axis, it is possible to measure the internal diameters in the required horizontal sections and thereby determine the taper of the hole. By turning the part on the machine plate and measuring the diameter D in several vertical sections, it is possible to point the ovality of the hole in the part.

Goniometers such as theodolites and range finders can be used to measure dimensions a and a. The latter can provide higher accuracy, but require special calibration.

When using, for example, a universal theodolite, it is inserted into a bearing, which is fixed in a steel beam 7. The latter is clamped in the tool holder 2 of the machine. For convenience of turning the instrument through 180 °, a lock can be installed in the indicated beam.

The base rail 5 can be made in the form of an Invar tube, at the ends of which the strips 8 with the target marks 5 and 5 are attached. In the middle of the tube there is a mirror 9, the plane of which is aligned parallel to the planes of marks 5 and 4. This mirror serves to set the base rail 5. From the device 1 so that the angles Pi (.

The knee stops 10 and 11 are fixed on the tube in such a way that the axes of these stops coincide with the marks 3 vi 4.

The base rail 5 is pressed against the cylindrical surface of the measured hole 6 by means of springs 12 and magnets 13. The base rail 5 is held at a given height I relative to the end of the product, for example, using a magnet 14 and a cable 15. The base rail 5 is installed horizontal and vertical planes are carried out respectively at level 16 and micrometric screw 17. The latter also serves to measure the value of the segment AO.

Subject invention

The method of measuring large bore diameters using an optical angle gauge (theodolite) using the cylindrical surface of the hole directly on the target marks installed on it as a base, characterized in that, in order to improve the measurement accuracy of both the diameter and ovality, as well as the taper of the hole , an optical goniometric tool is set approximately in the middle of the diameter to be controlled, and from this position, it measures the size of the diameter beat the sides of the device from the axis of the latter to arbitrarily installed in two positions in the same plane of the base rail, pressed against the inner cylindrical surface of the product.