DE410829C - Grids for reproduction technology - Google Patents

Description

Grids for reproduction technology. To halftone images in letterpress, To be able to reproduce offset printing, etc., must first be replaced by the »correct« Halftones of the original so-called "false" halftones generated "- ie. H. the closed semitones must be in free-standing or interconnected points be disassembled. This happens during the photograph by switching on a so-called "grid" into the beam path. The one 'for sale of the light, which the tightly arranged small openings of the grid let through, hits in the form of numerous small bundles of rays of larger ones or lower brightness on the photographic plate and forms, on it (at appropriately chosen grid spacing) small, more or less intact slices. if all grid openings have the same shape and size, as is usually the case is the case, so are the small discs of light on the photographic plate likewise all of the same shape and size, but there every disc of light has a bright core, and since the brightness of the light on each disc of decreases inwards outwards, the limit lies, with a suitably chosen exposure for the minimum exposure required to produce complete blackening within of the small slices either close to the core (dark areas of the image) or at some distance from the core (mid-tones) or near the outer border of the disc (bright areas of light). This creates small, medium and large, completely blackened ones Points on the negative.

This process is known as "raster photography".

In practice, so-called;> regular " Grids are used, which consist of two line layers intersecting at an angle. In such a grid, all opaque lines are of the same width. Even the transparent spaces between the lines are equally wide. As a rule, the line width L and the width of the space Z are also available in the ratio i: i to each other. The line ratio L: Z is, however, at times. also another.

The raster image produced by means of such a raster exists from points of different sizes. Where the dots are small are the spaces big between the dots. Large points are only separated by small spaces separated or so united with one another that only small freestanding ones between them Fields (so-called white dots) remain. but are everywhere in the raster image the centers of these points equidistant from each other or, in other words Expressed, the number of picture elements per unit area is in all tone levels same.

But that is a considerable deficiency of the raster technique.

On the other hand, it would be ideal if the transitions from the mid-tone to lighter Tonal values not only through the gradual shrinking of the dots, but also through a reduction in their number allotted to the unit area can be achieved could. Likewise, the number of white dots in the shadow areas should be the same The darker the tone value to be reproduced, the lower it is. Both conditions are Easily met, for example, in woodcuts.

After all, this is how it is in raster technology, if not a gradual one but a sudden change in terms of the number of points per unit area is achievable. Grids and grid methods that are intended to serve this purpose are, too, already known. One has z. B. Grid with a third or with a third and fourth Line position in order to create grid openings of different sizes (patent 885z3). Those that arise in this way, of different shapes and sizes, of different sizes Openings have proven inexpedient. In addition, it is practically impossible to allow four lines of lines to be intersected on a larger surface in such a way that no. A moire-like pattern is created. Attempts have also been made to use two different grids to use one after the other in such a way that part of the raster points through the recording single exposure, another part was created by double exposure (patent i67840). This procedure has not found its way into practice either. The facilities were costly and only worked with the required accuracy when they were new. In addition, there was a decrease in the number of points only in the light sections, but not in your shadow.

In contrast, the grid that fulfills the subject matter of the present. Invention forms all of the conditions mentioned here, without affecting the shortcomings of the previous ones known grid and grid processes to be afflicted.

It consists only of two line layers intersecting at an angle and can be produced to the greatest perfection and in a considerably shorter time like an ordinary grid.

With the new grid, both line positions exist (Dept. i and 3) or also only one of the two line positions (section z) from regularly repeating Pairs of lines. (Combining more than two lines into a group is not appropriate.) The lines of a pair can be of the same width and different spaces (Dept. and z) or @ different widths and different spaces (Dept. 3) or have different widths and equal spaces. In this way arise Groups of grid openings regularly distributed over the entire surface, which are two things (Section a) or three different sizes (Section i, and 3) or four different sizes. at The sizes of the grid openings correspond to the embodiment shown in Fig. 2 like 1: 2 to each other, in Fig. i the ratio is equal to i: 1.4: 44: 2 and in Fig. 3 equals i: 2: 2: 4. In addition, in Fig.3 also take the dotted lines Intersections marked by lines enter a differently sized area.

The way of working is very simple and does not differ of the commonly used methods. In the grid shown in Fig z. B. for the shadow point to be generated by the "Vorbe, ichtung", if correct Exposure time, only the grid openings marked with a (i.e. the fourth part all openings) effective. Similarly, one can choose an appropriately chosen one "Final exposure" make all the points in the bright areas of light disappear with the exception of those that arose behind the crossing points k. That The result is: full number of printing elements in the middle tones (100 percent), reduction of the printing elements in the light and in the shade up to 25 percent. The tone 5 scale becomes thus considerably extended compared to the previous procedure. The consequence of this is a more effective picture effect. In addition, the Druckbarke: t is a bigger one lower demands on the quality of the paper to be used.

In addition, there is another, extremely important benefit, the ability to be tuned of the grid for a particularly desired gradation of the negatives, for example for the red images in the Drei: arbenautotypie or for the special requirements that the offset process represents. This adaptability results from the possibility of the size ratio of the grid openings belonging to a group for each grid to be able to. Behave the four openings belonging to a group like 1:44 : 1.4: 2, the gradation is of course different than if it were 1: 2: 2: 4 restrained. Further variation possibilities or the gradation arise from the already mentioned use of different line widths.

You can use a special plate for each of the two lines and join the two plates together by cementing them together. The Liniatures, as usual, can be brought into contact with one another, they can too keep a distance from each other by a cemented intermediate layer. The distance can also be created by tapping on each of the two surfaces of a plate each draws a line. Both lines can of course also be on the same Surface of a plat. The lines can be deepened and with a opaque '. mass must be filled. The lines can also be raised and translucent, but the fields between them are deepened and opaque Mass must be filled in according to patent 296266. The vert: e "th fields can also be filled with a translucent mass. It just depends the passage of the actinic rays in question through a to prevent suitable coloring of the mass.

Grid for the same purpose can also be used in the same way produce that one is completely opaque or only inactinic Light-permeable enamel that can be burned into glass: applies a layer of paint to a glass plate, the two intersecting layers of lines are drawn into this layer and the one after the ruling on the plate burns in the color particles.

With regard to the production method of the grid, it should also be noted that the lines forming a pair are drawn with either two diamonds at the same time or that each time one line is on the "way there," the second on the "way back" pulls. This means a considerable acceleration in grid production, since with ordinary grids you only draw a line on the "outward" path each time can, while the "way back" cannot be used for the ruling.

Claims (4)

PATENT-AH SPRTICnE: i. Grid for reproduction technology, consisting of two line layers intersecting at an angle, characterized in that that a line position or that both line positions consist of regularly repeating Line pairs exist. 2. Grid according to claim i, in which the lines are the same and the gaps are of different widths. 3. Grid according to claim i, in which the Lines are different and the spaces between them are the same width. 4. Grid according to claim i, in which the lines and the spaces are of different widths.