SU1237628A1 - Device for quality control of optical system image - Google Patents

Abstract

The invention relates to the control of optical imaging systems and can be used in an extraordinarily; ULI system for monitoring the image quality of these systems by optical transfer function. The purpose of the invention is to increase the accuracy of control by performing a test object in the form of a knife diaphragm. The radiation from the light source 1 passes through the condenser 2, the filter 3, the frosted plate 4, which creates uniform illumination of the test object 5. The test object 5 is evenly moved across the optical axis with the help of the objective holder 6. The parallel beam formed by the collimator falls on the test lens . The luminous flux transmitted through the analyzing blade diaphragm 8 is recorded by the photodetector 9, the received signal is amplified by the amplifier 10 and fed to the calculator 11. The device allows monitoring the image quality in a certain spectral region and at a given field angle, 1 sludge. from S IK I o 00 05 to 00 A ::

Description

1 I

Testing for monitoring optical imaging systems and using the advantages of the HC.fiiio to control the image quality of these systems in optical transfer function.

The aim of the invention is to improve the accuracy of control by dusting the test object in the form of a knife diaphragm.

The drawing shows a diagram of an image quality control device.

The device contains successively located illuminator, which includes light source 1, condenser 2 and filter 3, matte plate A, test object 5, objective holder 6, collimator 7, analyzing aperture diaphragm 8 installed with interchangeability in the direction perpendicular to the optical axis the photo-recording unit in the form of a photo-receiver 9 and an amplifier 10 and a calculator 11, whose input is connected to the output of the photo-recording unit, and the test lens 12, and the test object 5 is made in the form of a knife bottom of a fragment installed to, that its edge is parallel to the edge of the analyzing knife diaphragm 8 and intersects the optical axis of the device.

The device works as follows.

The radiation from the light source 1 passes through the condenser 2, the filter 3, the frosted plate 4, which

Editor L. Dolinich

Compiled by L. Zabolotsky

Tehred L..0leynikKorrektor M.IhapoiMH

Order 3253/27 Circulation 670 Subscription

V11IIPI State Committee f; (;; CP for inventor 1st and discoveries 113035, Moscow, Zh-35, Raushsk nab., D. / 5

Proizvodstpenns) -p1; lygraphic enterprise, Uzhgorod, ul. (to gia,.

G, b; 81

creates early rus pg-iogtsssk gm; | - object 5. Тe1: t-1block W | | mgrPP 1 is moved across the optical axis with the help of the object holder 6. 5 A parallel beam, formed n, 1st collimator 7, falls on the test lens 12. The luminous flux passed through the analyzing knife the diaphragm 8 is recorded by the photoreceiver 9, the received signal

amplified by amplifier 10 and fed to calculator 11. The device allows you to control the image quality in the 1st spectral region 15 and at a given angle of view.

Formula

the invention

A device for monitoring the image quality of optical systems, containing successively installed illuminator, filter, test loop, object holder, analyzing a knife diaphragm mounted for movement in a direction perpendicular to the optical axis, phototransmitting unit and the calculator, whose input is connected to the output of the photoreceiver block, is routing it so that, in order to increase the accuracy of control, the test object is made in the form of a knife diaphragm installed so that its edge pair It is located on the edge of the analyzing knife diaphragm and crosses the optical axis of the device.

Claims (1)

Claim A device for monitoring the image quality of optical systems, containing a sequentially installed illuminator, filter, test object, lens holder, analyzing a knife 25 aperture, mounted to move in the direction perpendicular to the optical axis, a photo-recording unit and a computer, the input of which is connected to the output of photo 30 recording block, and with the fact that, in order to increase the accuracy of control, the test object is made in the form of a knife diaphragm mounted so that its edge is parallel and analyzing the knife edge aperture and intersects the optical axis of the device.