SU1522031A1 - Method of monitoring prisms - Google Patents

Abstract

The invention relates to a measurement technique and can be used to measure angles of rigid angular measures. The aim of the invention is to improve the accuracy of the control. The angle sensor 1 and the controlled prism 6 are rotated by angles equal to 360 ° / N, ranging from 0 to 360 °, where N is the number of faces of the prism 6, the controlled prism 6 is rotated relative to its reference plane by an angle equal to 180 °, a second series of readings is made from the autocollimator 4, corresponding to the rotation of the controlled prism 6 at angles equal to 360 ° / N, in the range from 360 to 0 °, the results of two series of measurements determine the error of production of the controlled prism 6. 1 Il.

Description

V

SP

to

OP

3152

This invention relates to an angle measurement technique and can be used to measure angles of rigid angular measures.

The purpose of the invention is to improve the accuracy of control.

The drawing shows the scheme of the mouths of the device, implementing the method.

The device includes an angle sensor 1, shaft 2, drive 3 of shaft rotation 2, auto collator 4, a reading device 5 and a monitorable prism 6 as a corner sensor using a reference rotary dial.

The prism control is implemented in a given manner.

The stator of the angle sensor 1 is washed down with alternating current and turned to the zero position, i.e. the position at which the reading device 5 is set to zero.

The controlled prism 6 is positioned by the reference plane on the shaft 2 and rotated relative to the shaft 2 to a position in which the crosshair reflected from the first face of the controlled prism 6 is set to zero count of the autocollimator 4, rotate the shaft 2 clockwise by an angle multiple to the pole division of the angle sensor 1 and equal to the working angle of the controlled prism 6 to the position at which zero reading is set on the reading device fs. With the autocollimator 4, the reflection from the second facet of the prism 6 is removed. Then turn the shaft 2

360 ° at angles, multiples of -

ranging from

0

five.

0

O up to 360 °, where p r is the number of faces of the prism to be monitored 6, and remove the countdown from the autocollimator 4. Unroll the controlled prism 6 relative to its reference plane at an angle of 180 and produce a second series of readings corresponding to the rotation of the shaft 2 on

angles equal to between 360

to 0: The half-sum of readings from the autocollimator 4 during the forward and reverse course of the controlled prism 6 for the corresponding turns is equal to the error of making the face of the prism 6.

Claims (1)

Claim The method of controlling the prism, which is V.TOM, which makes a sequential rotation at angles equal to 360 P ranging from O to 360, where n is the number of faces of the prism, the reference circular scale and the prism, find the difference between the readings corresponding to the rotation of the scale and the prism, and determine the error of the production of the prism, characterized in that, in order to increase the accuracy of control, the prism is rotated relative to its reference plane by an angle equal to 180 5, a second series of readings is taken, corresponding to a turn in the corners, equal -, ranging from 360 to O, the results of two series of measurements determine the error in the manufacture of the prism.