SU265713A1 - A METHOD OF INCREASING THE CONTRAST OF THE OPTICAL IMAGE - Google Patents

Description

There are known methods for enhancing image contrast based on the addition of the density of several images.

The efficiency increase in the proposed method achieves the use of 1m electrographic image for dosing the intensity of ultraviolet rays, radiation and luminescence of the phosphor deposited on the electrographic layer, and summing up the densities of the Images obtained on several optically coupled electrographic plates.

The drawing schematically shows the proposed device.

A light source 1 with a condenser 2 illuminates a negative or (Positive 3, which through a semitransparent mirror 4 is projected by lens 5 onto an electrographic plate 6.

The photo-semiconductor layer of the electrophotographic plate is coated with a thin layer of phosphor, or a layer is used that contains the phosphor. The surface of the phosphor is covered with a protective, for example lacquer, layer.

which is then developed by one of the known methods.

To increase the contrast, the image obtained on the plate 6 is illuminated by a source of ultraviolet radiation 7 (with the source off /) and irotsiiut using a mirror 8 and a lens 9 on the ohm fixed electrographic plate 10, similar to ilastina 6. At the same time, the rays pass

through the image on plate 6 twice.

On the way to the phosphor layer, the ultraviolet rays are attenuated depending on the densities of different regions of the image. The visible light is attenuated on the reverse side.

emitted by the excited phosphor.

In order to eliminate the influence of scattered and reflected ultraviolet rays on the image contrast, the exposure of the plate 10 is carried out through a mpius ultraviolet filter, which transmits visible and retarding ultraviolet rays.

The electrostatic image obtained on plate 10 is shown in a “positive-positive” pattern and an image is obtained that is much more contrast than the image on plate 6. For even greater contrast enhancement, an artificial ω-image on the plate / O is illuminated with ultraviolet rays from source 11 and projects with nomographic plate 13, similar to plates 6 and 10.

In the process of exposing the plate 13 (as in the previous case), a filter is used to transmit visible and delayed ultraviolet rays. The image on plastip 13, developed by the software scheme, is “positive-positive, much more contrast than the image on plate 10.

The drawing shows three plastic tapes 6, 10, and 13 with corresponding optical-lighting systems for consistently increasing the contrast. However, their number can be increased or decreased. Each of the images taken on these plates can be used for viewing, and for obtaining a print. The contrast of each image obtained later is greater than the previous one.

However, the greatest contrast can be achieved by adding the three inclusions of all three (in this case) images taken on plates 6, 10 and 13. For this last, the image developed on nlastin 13 is intensely illuminated with ultraviolet rays from the source 14. Passage through the layer , ultraviolet rays. cause the phosphor to glow.

The resulting visible image through the filter, which transmits visible and retarding ultraviolet rays, is projected using lens 12 onto plate 10 and with lens 9 and mirror 8 onto plate 6.

The combined contrast image obtained on plate 6 can be projected with the help of lens 5 and mirror 4 into the optical channel / 5 c here considered, taking a picture 1 or used for printing another image.

After removing the loose images on the plates 6, 10, 13 with any known technique or changing the electrographic material, the device is again ready for operation.

Subject invention

A method for enhancing the contrast of an optical image based on the addition of densities of several images, characterized in that, in order to increase the efficiency of the method, an electrotraptic plastip covered with a layer of phosphor is impregnated with an optical image, but obtained an electrographic image from the dosage of the intensity of ultraviolet rays, exciting a candle, using an excitatory ultraviolet ray, using a stimulating image, using an electrophotography and

to compensate for the brightness of this luminescence, the densities of images taken on several optically electrographic electrolytes are summed, and to eliminate the scattering of ultraviolet rays by exposing each subsequent nlastina, except the nerve, and adding all the images in the reverse direction of the rays, the light flux is passed through minus - ultraviolet filter.