RU2003959C1 - Autocollimator - Google Patents

Abstract

Usage, the invention relates to alignment of optical resonators. The essence of the invention consists in introducing into the aligned system through a spherical mirror with an internal radiation aperture obtaining its self-collimating image. In this case, the radius of curvature of the spherical mirror is selected, proceeding from the condition of obtaining an autocolpation image 1 id

Description

The invention relates to optical instrumentation and can be used to align an optical system with a closed optical-mechanical path (OMT).

Known quotation devices contain an autocollimator (Danilevich F.M. et al. Assembly and adjustment of optical instrumentation. L .: Mashinostroenie, 1979, p. 49, MM Rusinov. Adjustment of optical instruments M: Nedra, 1969 (and not applied They are found in optical systems (OS) with inaccessible OMT.

The closest technical solution is an autocollimation device for aligning optical resonators containing at least two spherical reflectors, and. including autocollimator (AK). The device cannot be used for a closed-access OS with 0MB without loss of accuracy. (Kreopalova G.V. et al. Optical measurements. M.: Mashinostroenie. 1987, p.22).

The aim of the invention is to expand the functionality of the device by providing alignment of closed type optical resonators.

The goal is achieved by the fact that in the known device behind the autocollimator, a spherical mirror with an inner hole is mounted on the axis of the resonator at an angle of 45 ° to it.

The device diagram is shown in the drawing.

The device contains an autocollimator 1. Behind the AK on the axis of the resonator containing at least two spherical reflectors 2 and 3 with radii of curvature Ra and R3, a spherical mirror 4 with a radius of curvature RI with an internal hole 5 is installed at an angle of 45 ° to the axis. The hole can be both round (for axisymmetric reflectors) and rectangular (for other reflectors).

The device operates as follows. As usual, in the autocollimation method, a beam of light from the light source is introduced through the test object and the AK lens into the adjusted OS and the autocollimation image of the test object constructed by the rays reflected from the reflector surface is examined through its eyepiece. Next, the test object is combined with its image by the movement of the reflectors and when they are combined, the relative position is fixed

reflectors

In order to use the device without loss of accuracy to OS containing at least two reflectors 2 and 3 with OMT closed for direct access, it is necessary before the beam introduction

in the OS from the AK, slide mirror 4 into it with the hole 5. Then, the optical cent of the mirror 4 is aligned with the optical axis of the AK and mirror 4 is set at an angle of 45 ° to the optical axis of the AK in the plane of symmetry of the optical system (usually mirror 4 is pushed

through the OS hatch ok to its optical

axis and also orient the axis AK). Further

combine the optical center of mirror 4 with

Assembly structural axis of the OS, after

which includes a light source in the AK and directing the beam from the AK lens to the mirror 4. After reflection from the mirror 4, the beam is introduced into the OS. Then, by setting reflectors 2 and 3 and fixing their relative position, mirror 4 is removed from the OS.

An example of a specific implementation. The distance between reflectors 2 and 3 is 5600 mm, between reflector 2 and the optical center of mirror 4 is 1000 m, radius

the input beam was 25 mm, the height of the extreme beam on reflector 2 was 36.37 mm, on reflector 3 it was 26.72 mm. The radius of curvature Ra is 16666 mm, RS 8400 mm, Rt 800 m, the outer diameter of mirror 4 is 85, and the inner is 64 mm. The luminous marker and the input beam were set by the quotation system US-127-01. Adjustment accuracy “6.

The device with the highest efficiency can be applied to an OS with closed OMT for direct access and containing at least two reflectors and, in particular, for aligning unstable resonators. For this device

allows using the high precision AK method of adjustment without losing its accuracy. The device is easy to implement.

(56) Creopaloea G, B. et al. Optical measurements. M .: Mechanical Engineering, 1987, p. 22.

Claims (1)

The claims AUTOCOLLIMATION DEVICE for aligning optical resonators containing at least two spherical reflectors, including an auto-collimator, characterized in that, with In order to expand the functionality by providing alignment of closed type optical resonators, a spherical mirror with an internal hole is installed behind the autocollimator at the axis of the resonator at an angle of 45 to it.