SU428349A1 - METHOD OF CONTROL OF THE PROCESS OF EXPOSING COPYLAY LAYERS - Google Patents

Description

one

The invention is intended for use in the printing industry when transferring images from negatives and transparencies to copy layers, for example, in offset and letterpress printing processes. The quality of the resulting colium depends on the accuracy of determining the scoop of the layer puncture, i.e., the moment of its full light hardening.

A known method of controlling the process was exposed to copying layers, in which the main source of light was irradiated with a copying layer, a deposited transparent substrate, and the time of the end of copying was determined.

The determination is carried out either visually by subjectively assessing the behavior of the layer in the subsequent processing process (for example, during the development), the operator’s subjective errors are unavoidable, or the determined time delay is set using, for example, a time relay, while taking into account the quality output fluctuations of the working luminous flux in the course of exploring, the instability of the copying layer parameters and the instability of the time relay. In addition, the moment of complete orcoping of the layers is determined by registering the photocurrent in the photodetector by changing the transparency of the copying layer during the exposure. In this case, difficult

accurate fixation of the moment of, the end of the photocurrent change.

In order to improve the accuracy of determining the end of the process of modeling by the proposed method, the copying layer is additionally irradiated from both sides with a light source with a wavelength different from the length of the main measurement wave (rhenium. The moment the procaping is finished is determined by

comparison of two streams reflected from the outer and inner surface of the copy layer.

The proposed method is explained in the drawing of M.

The sensitive copying layer 1 on the additional transparent container 2, applied simultaneously with the application of the layer onto the plate laster, is illuminated by the main source of light 3. During exposure, this layer is hardened and its reflective properties change. The process of duplicating takes place unevenly over the layer thickness, i.e., first part of the layer is tanned, adjacent to the external surface, and then

all its depth.

The determination of the moment of the same degree of tanning of the outer and inner surfaces of the layer takes place with the help of device 4. To do this, nonactinic measuring streams 6 are directed to the outside and inside surfaces of the copying layer from auxiliary light source 5. devices 4. At the beginning of the expansion, the difference in the energy values of both reflected flows is large, due to the (significant difference in the reflective properties of the external and the inner surfaces of the layer. By the end of the exposure, this difference is reduced to the value previously accepted. At this, device 4 generates a signal to turn off the working source 3. To eliminate the mutual influence of the light sources 5 and 5, their radiation has different wavelengths. streams pass through filter 8, eliminating their influence on the copying process.

The control of the exposure process of the copy layers according to the proposed method can be carried out directly on

an opaque form, while it is necessary to provide access to both the surface layers.

Subject invention

The method of controlling the process of exposing copying layers, which means that a copying layer deposited on a transparent substrate is irradiated with the main light source, and the time of the end of the penetration is determined, in order to improve the accuracy of determining the end of the exposure process, the copying layer is additionally irradiated with two

the sides of the light source with a wavelength different from the wavelength of the main radiation, and the end of the copying is determined by comparing the two streams reflected from the outer and inner surfaces of the copying layer.