RU1781663C - Focusing device for optical systems - Google Patents

Abstract

Usage: for controlling mirrors or optical systems, Summary of the invention: a focusing device comprises a lens, a first movable reflector made in the form of a trihedron of three separate mirror elements with internal reflective surfaces, the last mirror of the trihedron is located outside the optical axis a lens, a second fixed reflector, in the form of a flat mirror, mounted perpendicular to the optical axis during the rays reflected from the trihedron, mark, oculus p. 2 ill.

Description

The invention relates to optical instrumentation, in particular to autocollimators.

The closest technical solution is a focusing device comprising a lens, a brand, an eyepiece, a system of mirrors with two reflectors, the first movable reflector, made in the form of a trihedron with internal reflective surfaces, the second stationary reflector, made in the form of a flat mirror.

The disadvantage of this design is the withdrawal of the line of sight that occurs during operation of the device.

The aim of the invention is to increase the accuracy of the device by reducing the drift of the line of sight.

This goal is achieved in that in a focusing device for optical systems containing a lens, a first movable reflector made in the form of a trihedron with internal reflective surfaces, a second stationary reflector made in the form of a flat mirror and mounted perpendicular to the optical axis during the rays reflected from the trihedron, the mark, the eyepiece r, the trihedron is made in the form of three separate elements of the mirrors, while the last along the beam mirror of the trihedron is placed outside the optical axis of the lens.

FIG. 1 is a perspective view of a focusing device: FIG. 2 - the course of the rays in the focusing device.

The optical system consists of a prism P90 ° 1 located on the optical ocv (lens 2, grade 3, representing the crosshair. Lens 2 and grade 3 are centered relative to the optical axis of lens 2. Behind mark 3 along the optical axis of lens 2 is a first movable reflector 4 made in the form of jpex mutually perpendicular to the grain, 42, 4z with internal reflective surfaces located at an angle of 45 ° to the axis of symmetry of the first reflector 4. The second fixed reflector 5 is made in the form of a flat mirror and a perpendicular is installed angles to the optical axis in the beam path reflected from the first reflector 4 is disposed along the axis of the lens 6 controlled mirror observed through the eyepiece 7 autocollimation.

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A focusing device for an optical system operates as follows. The radiation from the backlight from the autocollimation eyepiece with the light cube through the prism P90 ° 1 passes the centered lens 2, illuminates the centered brand 3, passes through the first reflector 4 so that the rays; the feeds to it are reflected sequentially from the mirrors 4i, and exit parallel to themselves, are reflected from the second reflector 5 and the first reflector 4 passes by diverging radiation, as from the focal point of the lens 2, which forms the radiation in a parallel beam.

A parallel beam is reflected from the controlled mirror 6, is formed by the lens 2 into a converging beam, the first reflector 4 passes, the second reflector 5, builds an image of mark 3 in the plane of the intersection of mark 3 and is viewed into the autocollimation eyepiece p 7 through the prism P90 ° 1. When you move the first reflector 4, placed along the rays between the brand 3 and the lens 2, the position of the image of the brand 3 will change

space objects from 2f lens 2 to infinity.

Claims (1)

The use of this device makes it possible to increase the accuracy of instrumentation by reducing the line of sight drift that occurs when the elements of the focusing system are inaccurate with respect to the optical axis, when the first reflector is rotated or tilted during refocusing, and when the reflective surfaces are inaccurate in the trihedron. SUMMARY OF THE INVENTION A focusing device for optical systems comprising a lens, a first movable reflector made in the form of a trihedron with internal reflective surfaces, a second fixed reflector made in the form of a flat mirror and mounted perpendicular to the optical axis during the beam reflected from the trihedron, brand , eyepiece r, characterized in that, in order to increase the accuracy of the device, the trihedron is made in the form of three separate elements - mirrors, while the last mirror of the trihedron is placed outside the optics axis of the lens. R Thebes. 7 k 3pc 90 R