SU1728651A1 - Device for certifying protractors - Google Patents

Abstract

The invention relates to opto-electronic measurements and can be used in the metrological assurance of autocollimators and other goniometers. The aim of the invention is to ensure uniformity of measurements and to improve the accuracy of certification of goniometers. This is achieved in that the device consists of an angular measure 1. installed on the platform 2 with a vertical axis of rotation, turning links 3,4,5, reflectors 6 and 7, Kersters prism 8, optically connected with reflectors 6 and 7 facing them the base and the certified device 9, the readout unit 10, mechanically fastened to the rotary link 5, the spiral track 11, and the spiral track 12 mechanically connected to the rotary links 3 and 4 of the reference system 13 Il.

Description

The invention relates to opto-electronic measurements and can be used in the metrological assurance of autocollimators and other goniometers.

The aim of the invention is to ensure uniformity of measurements and improve the accuracy of certification of goniometers,

The drawing shows a block diagram of the device.

The device consists of an angular measure 1 installed on platform 2 with a vertical axis of rotation, rotary links 3-5, reflectors 6 and 7, Kersters prism 8, optically coupled to reflectors 6 and 7, facing the base and a certified device 9. a readout unit 10 mechanically fastened to the pivot link 5, a spiral track 11 in contact with the readout unit 10, and a spiral track 12 mechanically connected to the pivot links 3 and 4, and the reference system 13.

The device works as follows.

The angular measure 1, made in the form of a disk with spiral tracks 11 and 12 applied to its surface with a given profile, is mounted on platform 2, and the rotary links 3.4 and the reading unit 10 are brought into contact with the working surface of the angle measure 1. Before one From the lateral faces of the Kesters prism 8, a rotatable device 9 is installed. certified device 9 image brand image.

When the platform 2 rotates, the rotary links 3 and 4 move along the spiral track 12 of the angular measure 1, deflecting the reflector b and 7 angular turns. This causes the combined image of the mark to rotate in the horizontal plane relative to the stationary object being turned 9.

The corner rotations of the reflectors 6 and 7 are recorded with the aid of the readout unit 10 and the reference system 13. Since spiral track 11 is made with

by applying a transverse pattern, when the readout unit 10 is moved along it, the latter produces an electrical signal in the form of a sinusoidal oscillation. This signal is sent to the 13 countdown system.

and is converted into a signal proportional to the angle of rotation of the reflectors 6 and 7.

The resolution of the reproducible angle report is determined by the formula r R / an / Lf,

where n is the frequency of rotation of the measure when recording the signal, and is the pitch of the helix;

L is the distance from the axis of rotation to the point of contact;

f is the frequency of the recorded signal, Hz; P 3 / lg.

Due to the fact that the disk measure is identical to the profile of the matrix, the device ensures the uniformity of measurements.

Claims (1)

Invention Formula A device for certifying goniometer devices containing two reflectors, one of which is rigidly connected with a pivot link, a Kersters prism located behind the reflectors and facing them with a base, and a reference system, characterized in that in order to ensure repeatability of measurements and increase the accuracy of certification of goniometers, The device is equipped with an angular measure in the form of a disk with two spiral tracks on its surface, a platform with a vertical axis of rotation, a reading unit, a second and a third turning link, one of which is fastened to the second reflector, and the other is fastened to the readout assembly, the angular measure is installed on the platform with the ability to interact with spiral tracks with rotary links, one of the tracks is made with a transverse pattern, and the electrical output of the readout assembly is connected to the reference system input.