SU640241A1 - Film screen manufacturing method - Google Patents

Description

one

The invention relates to the field of printing and relates to a method for producing an ilepoch raster, which can be used to convert a halftone image to a micro-dye.

A known method of making a film raster involves exposing a raster image to a halogen film and the subsequent appearance of the image on it 1.

The resulting film raster is used to convert a halftone image to a microstriche.

However, when using the specified raster in the reproduction process, it is impossible to obtain a raster slit that is required for offset printing, as well as in the electrophotographic reproduction process, this raster cannot be used because the latter is in contact with the charged electrophotographic layer.

In addition, the process of making a raster on a halogen-silver film is quite long (3-4 hours).

The purpose of the invention is to expand the technological capabilities of the film raster and to streamline its manufacturing process.

This is achieved by using a vesicular film as the film material and showing the image by heating.

A vesicular film is a non-silver photographic material on which, as a result of instantaneous heating, a vesicular image is formed, consisting of microscopic bubbles in the thermoplastic binder layer, which create the optical density of white translucent raster points.

The film raster obtained according to the invention is used as a contact raster for projection photography.

original photographic film; in the process of reproduction on the photo semiconductor layers; in the projection method of obtaining a rasterized image from a negative.

The advantages of the method of making a film raster on a vesicular film compared to receiving it on halogen-silver films consist in a reduction in the time of production of a contact raster.

(3-4 minutes on the vesicular film and 3-4 hr and halogen-silver film), in the absence of chemical reagents for the manifestation, the possibility of changing the area of the raster point by changing the exposure time at

contact printing.

Example 1. A contact raster with an optical density interval of 1.2 and a lineature of 24 lines (see the used to convert the α-half-tone image to a micro-stroke in letterpress) is copied onto a VZ-1 vesicle film in an aggregate CRC-3 installation. Exposure is carried out for 5 minutes with a fluorescent light source. After exposure, the film is developed in boiling water for 1-2 seconds. White (in reflected light) raster points and transparent gaps between them are obtained on the vesicular film. The diffuse optical density of the raster point in transmitted light is 0.45-0.55. The resulting film raster is used to produce a screened negative, which is subsequently used for both letterpress and offset printing.

Example 2. All operations for obtaining a film raster are similar to Example 1. The resulting raster is used to obtain rasterized images in an electrophotographic process, for which exposure of the film raster is carried out on a photo semiconductor layer deposited on an aluminum substrate, after the image is formed, on

which receive a positive image, subsequently used in the manufacture of an offset printing plate or transferred to paper.

Example 3. All operations for the production of a film raster are similar to those described in Example 1. The resulting film raster is used to obtain a raster transparencies used later for the manufacture of an offset printing form.

Claims (1)

Invention Formula A method of manufacturing a film raster, which includes exposing the image of a raster to a film of this image on the film material, characterized in that, in order to expand the technological capabilities of the film raster and simplify its manufacturing process, a vesicular film is used as the film material by heating. Sources of information taken into account during the examination 1. Zernov V. А. Photographic processes in the reproduction technique. “Book, 1969, p. 157.