SU1578463A1 - Method of measuring derivatives from perpendicularity of surfaces - Google Patents

Abstract

The invention relates to measurement technology, can be used in mechanical engineering and machine tool construction for measuring the non-perpendicularity of two surfaces. The aim of the invention is to improve the performance of measurement processes. Mirror faces 3 and 4 are combined into a prism 2 with a base 5 mounted on the test surface 8 in the radiation flux of the autocollimator 1 in such a way that the stream 6 reflected from the mirror face 3 forms the autocollimation mark along which the axis of the autocollimator 1 is installed and the stream 7 forms an autocollimation label, the position of which is associated with the angular position of the mirror face 11 of the prism 10, located by the base 12 on the surface 9. 1 sludge.

Description

The invention relates to measuring equipment and can be used in the field of mechanical engineering and machine tool industry when measuring surface deviations from perpendicularity.

The purpose of the invention is to increase the productivity of the measurement process.

The drawing shows the location of the optical elements of the device during the measurement.

To measure deviations from the perpendicularity of two surfaces, the axis of the autocollimator is oriented along one of them, taken as the reference one, the first mirror is set perpendicular to the supporting surface so that it covers only part of the light flux, and the autocollimator is oriented / forged until the autocollimation mark coincides with the crosshair at an angle 135 ° to the first mirror, a second mirror is installed in the radiation flux of the autocollimator, forming a radiation flux in the direction perpendicular to the optical axis of the autocollimator ^ governmental support surface. On the second controlled surface on a movable base, a third mirror is installed perpendicular to the controlled surface and the rotated radiation flux of the autocollimator. The radiation flux reflected from this mirror returns to the autocollimator and forms an autocollimation mark, relative to its position. crosshairs judge deviations from perpendicularity.

A device that implements this method · contains an autocollimator 1, a prism 2 with mirror faces 3 and 4, the base of the prism 5, radiation fluxes 6 and 7, surfaces 8 and 9, a prism 10 with a mirror face 11 and. reason

12.

The device operates as follows.

Mirror faces 3 and 4 are structurally combined in prism 2 with the base of prism 5. Prism 2 is mounted on surface 8 on the base of prism 5. Mirror faces 3 and 4 of prism 2 are located relative to each other at an angle of 135 °. The autocollimator 1 can be located either on the surface 8 or outside it. The optical axis of the autocollimator is directed along surface 8. Prism 2 is located in the radiation flux of the autocollimator so that stream 6 falls on the mirror face 3 and stream 7 on the mirror face 4. The autocollimator is set according to the autocollimation mark formed by the measurement stream reflected from the mirror . face 3, before combining it with a crosshair. By virtue of constructive features. When prism is reflected from the mirror face 4, it will rotate by 90 ° and will be directed parallel to surface 9. On surface 9, prism 10 is mounted on base 12, which forms a 90 ° angle with mirror face 11. Reflected from the mirror face 11, the radiation flux 7 forms an autocollimation, the position of which is determined by the deviation from perpendicularity.

Claims (1)

Claim The method of measuring deviations from the perpendicularity of the surfaces behind. It is concluded that the axis of the autocollimator is aligned parallel to the optical surface by means of the optical system, the radiation is directed simultaneously along two apparently perpendicular surfaces, and the deviation from perpendicularity is measured, such as -. in order to increase productivity, we use a block in the form of an optical prism with two mirror faces and a base as an optical system, the angle between the mirror faces is 135 °, the angle between one of the mirror faces and the base is 90 °, and the flow the radiation from the autocollimator is sent simultaneously to both mirror faces and the position of the auto-collimation images is used to judge angular deviations from perpendicularity.