DE2025609A1 - Screen for prod of printing forms - Google Patents

Abstract

Screen comprises disc or film with uniform transparent plane elements surrounded by opaque elements whose centres are distributed among the crossing point of the lines of two coordinate systems forming an acute angle with each other (15-60 degrees). Plane elements have form of rhombus with part protruding over angle parts. Screen can be turned about a variety of angles in colour printing, thereby avoiding moie-effect.

Description

Designation: Grid for the production of a printing form for image reproduction purposes The invention relates to a grid for use in the production of a printing form for image reproduction purposes, consisting of a disc or a pilm with individual, like one another, transparent surface elements, those of opaque Area parts surround and with their midpoints at all intersection points between the lines of two coordinate line systems are evenly distributed, with the lines of each system are equidistant from each other.

The grid according to the invention is essentially characterized by this that each plate element consists mainly of a rhombus shape Primary part and at least one of the two pointed corners of the rhombus from one there is secondary part passing into this corner, which over the rhombus corner and the adjoining rhombus sides protrudes that the lines of the one or the other coordinate line systems include an acute angle of 15-60 ° with each other, and that each surface element has a longest dimension that is at least the same is as long as the mentioned distance between the lines of one coordinate system.

In comparison with the known grids with square, rhombic or circular, transparent surface elements are offered by the invention Grid several significant advantages.

With multi-color printing, the printing forms for the different Partial color images are known to be produced with the grid in different rotations.

With the known grids, only a few such rotations are possible, where moiré is sufficiently suppressed in the multi-color composite image is, while the raster according to the invention in a larger number such a moiré formation preventive rotations can be set. Both with the monochrome as well as leg The multi-color process leads to the raster according to the invention to less coalescence of the picture elements in the dark dild parts and fewer picture elements per unit area in the brightest parts of the image than the above, known raster at one and the same grid page. In the case of rubber printing, the means of the inventive The elongated dots of the printing form produced in the grid are firmer, i.e. they become deformed and bent away less easily by the pressure than during use the known grid for lierstellun the printing form. When using silk screen printing the elongated image points produced by means of the grid according to the invention better held on the sieve than those produced by means of the known grids Pixels. In certain embodiments of the invention, further advantages can be achieved, as can be seen from the following.

The invention is now described in more detail below with reference to the drawing.

In the drawing, FIGS. 1 and 2 represent part of two according to the invention executed Haster, and Fig. 3-5 three different modifications of the transparent surface elements of the grid according to the invention.

Fig. 1 shows part of a geiriä.ss of the invention embodied Raster consisting of a transparent disc or film that is on one side Side has a surface pattern formed by means of an opaque material, that from the opaque Material free, individual, among each other same, transparent surface elements 1 and made of the opaque material formed, the surface elements surrounding surface parts 2 consists.

The surface elements 1 are with their centers 3 at all intersection points evenly distributed between lines 4 and 5 of two x-coordinate systems, whose lines are at the same distance from each other. Those crossing each other Lines 4, 5 of the two coordinate line systems thus form a rhombic field network, and the rhombuses in this embodiment have a corner angle at their pointed corners A of about 300.

Each surface element 1 consists in Fig. From a primary part 6, which essentially has the rorm of a rhombus, and of two secondary parts 7, which also are essentially rhombic and have the same shape and size as the primary part 6 have as well as with one of their pointed corners with overlap in one or the other Pass over the pointed corner of the rhombic primary part 6. The longest diagonal each Sckundärteilrhombus 7 lies in the extension of the longest diagonal of the rhombic Primary part 6.

So that the desired effect of the invention is essential is, the length of the surface elements 1 must be at least as great as the Distance between lines 4 (or 5), and conveniently the length is the Surface elements even bigger.

Each surface element 1 thus has a length which is greater than half of the longest diagonal in the line systems 4 and 5 formed by the silk rhombic fields. As a result, the ends of the surface elements 1 are in a horizontal position Row in Fig. 1 between the ends of the surface element 1 of the next horizontal Row in Fig. 1 protrude. In FIG. 1, the lines formed by the system of lines 4, 5 have Rhombus fields a longest diagonal of fourteen units of length, and the surface elements 1 have a length of eight units of length. It can often be useful to use the surface elements 1 to give a length that is much larger than half of the longest diagonal in the systems of lines 4, 5 formed rhombus fields. the Surface elements 1 also have a length that is at least twice and is expediently at most four times as large as the maximum width of the surface elements. -In Fig. 4, the maximum width of the surface elements 1 is thus two units of length, i.e. a quarter of the length of the surface elements. Though it is often preferable that the rhombic primary and secondary parts forming each surface element 1 6, 7 are congruent with the rhombus fields formed by the line systems 4, 5, so in Fig. 1 the ratio between the largest and smallest diagonal is the Diamonds 6, 7 slightly smaller than the ratio between the largest and smallest Diagonals of the rhombus fields formed by the line systems 4, 5. The diagonal ratio for the rhombus parts 6, 7 of the surface elements 1 in Fig. 1 is thus 3: 2, while the diagonal ratio of the rhombus fields formed by the line systems 4, 5 7: 2 is.

Although the angle A in Fig. 1 is about 300 st, it can be in the range of 15-60 ° be changed. At an angle of more than 60 °, the invention achievable improvements compared to a conventional grid with square, rhombic or circular, transparent surface elements are not so noticeable, and if the angle A is less than 150, the surface elements will ground for most Purposes too elongated, and moiré and other, undesirable pattern effects in the printed reproductions made by means of the grid It is difficult to avoid printing forms. In most areas of use of the grid, an angle of between 30 ° and 45 ° gives the best results.

When using known grids with square, rhombic or circular, transparent surface elements, their centers at all Crossing points between the lines of two coordinate line systems of the one in question here Art, the eye can see in the intermediate tones and the dark tones of images, which have been reproduced by means of such a grid, lines understand which are free of ink and are parallel to between the ink dots lines extending through the centers of the ink dots, which correspond to lines 4 and 5 in FIG. 1, respectively. In addition, the eye can occasionally Conceive moiré-like diffuse "pattern lines" which are horizontal with respect to FIG between the horizontal rows of the intersection points of the line systems in this figure 4, 5 extend. These line effects of the reproduction images become in use a grid constructed according to the invention "fooled away" so that the eye she cannot grasp. This is due to the fact that the abutments 7 of the surface elements 1 spreads of the printing ink dots in the reproductions within those areas where the eye can see the line effects mentioned above who seeks reproductions, and these expansions thus exchange the line effects path. This assumes that the angle A between the lines 4, 5 within the above-mentioned limits, and that the surface elements 1 according to the invention be formed.

FIG. 2 corresponds to FIG. 1, with the exception that the lines 4 of the one coordinate line system at a somewhat greater distance are from each other than the lines 5 of the other coordinate line system, so that the fields formed by lines 4 and 5 are not rhombuses, but parallelograms are. The surface elements 1 in FIG. 2 are exactly the surface elements in FIG. 1 the same, i.e. they have purely rhombic primary and secondary parts 6, 7 but you could modify these primary and secondary parts into a parallelogram shape. However, it is emphasizes that both the shape of the lines formed by the systems of lines 4, 5 is important Fields as for the shape of the primary and secondary parts of the surface elements are not should deviate significantly from the purely rhombic form, so that one can also see in Fig 2 can speak of a mainly rhombic shape, the transparent surfaces elements of the grid do not necessarily need to be exactly as described in connection with Fig. 1 described way be constructed. Thus, Fig. 3 shows a transparent one Grid surface element with a primary part 8 in the shape of a rhombus, the tip of which of secondary parts 9 overlapped corners have an angle of 300, for example. Each secondary part 9 has the shape of a rhombus, the longest diagonal in the Extension of the longest diagonal of the rhombic primary part 8 is and the Primary part 8 expediently overlaps up to about half of its longest diagonal. The pointed corners of the rhombic secondary parts 9 have a larger angle than the angle of the acute corners of the primary part 8. In the present case, the Angle of the acute corners of the abutments 9 45 °. The shortest diagonal of the rhombic Secondary parts 9 can be as long or preferably shorter than the length of the shortest Be the diagonal of the primary part 8. The two parts 9 can optionally be of different sizes be.

The secondary parts of the transparent grid surface elements need not necessarily in the shape of a rhombus. For example, Fig. 2 shows a grid element with a rhombic primary part 10 and triangular secondary parts 11. The rhombic Primary part 10 has pointed corners with an angle which are overlapped by secondary parts 11 of e.g. 300. Each secondary part 11 has the shape of an isosceles triangle, the height of which lies in the extension of the longest diagonal of the rhombus 10, and whose base part overlaps the relevant pointed rhombus corners and over the protrudes from the rhombus sides bordering the pointed rhombus corner. Although the corner of the chest of the triangle 11 can be any angle, one will in most cases prefer an angle which is larger than the angle of the acute corners of the Rhombus 19. In the present case, the breast angle of the triangle is 11 450. The The base of the triangle 11 can be longer than the shortest diagonal of the rhombus 10 or, -, as is more advantageous to be equal to this diagonal, but is shown in Fig. 2 shown shorter than the shortest diagonal of the rhombus. The triangles 11 can possibly be formed on the same side, and both can possibly be of different sizes.

Fig. 5 shows an embodiment in which only one of the tips Gaps of the rhombic primary part 12 of a rhombic secondary part 13 overlaps that in this trap e.g. sharp ticks with the same angle as the sharp ones Corners of the part 12 has. The diamonds 12 and 13 should preferably be of the same size but can also be of different sizes.

The grid according to the invention can be used in the same way as a conventional one Grid can be used in a reproduction camera, and it can also be used in itself is known to be more continuous in contact copying of a transparent image Tint can be used on a photosensitive layer, this image and the layer are conveniently in contact with each other while the grid is some distance from the interface between the transparent image and the photosensitive layer is located, and the exposure occurs through the grid and the transparent image with light from a single light source, or preferably with intersecting bundles of light from several adjacent light sources. When contact copying, it is useful that the surface elements of the raster disk or of the screen film have an outwardly bulging outside in order to have a lens effect to give, whereby the picture elements generated on the photosensitive layer an advantageous distribution of the exposure with the greatest exposure in the center each picture element obtained so that the picture elements after the development of the photosensitive Layer get a good etchability. Since it is possible to change the tonal values of the manufactured To regulate an image by etching, one has to use a negative, transparent one for contact copying Continuous toning image used so that it is on the photosensitive layer generated image is positive, thereby etching the picture elements of the positive image and thus converts the image towards brighter tonal values. Be it In this context, another advantage of the grid surface elements according to e.g. Fig. 3 and 4, namely that the parts corresponding to the secondary parts 9 and 11 of the picture elements of the positive in front of the main part of the primary parts 8th or 10 corresponding picture elements are etched, so that the adaptation of the Xtz time does not become so critical. A complete etching of the secondary parts of the picture elements advantageously occurs in the brightest parts of the positive at the earliest, whereby you get the desired effect, namely that the brightest parts of the positive fewer picture elements per unit area than the intermediate tones and the dark tones seem to contain the positive. It should be noted that this complete cauterization the secondary parts of the picture elements do not have any noticeable pattern effects of those Art brings about, which by the arrangement of secondary parts on the transparent Area elements of the grid is avoided, since this complete etching of the Secondary parts of the picture elements only occur in the brightest parts of the positive, where the picture elements are very small and have relatively wide, non-image areas are separated from each other and therefore do not cause the pattern effects mentioned can.

The grid surface elements shown in the drawing The created picture elements of the reproduction picture are in their form similar to the grid surface elements, but they are slightly rounded off. It is therefore possible to use the surface elements of the grid with slightly rounded corners to train without the desired effect of the invention deteriorating.

As already mentioned, when using a grid according to the Invention for the production of. Printing forms for the various partial colors in the case of multi-color printing, the grid in a larger number of different rotations for the different printing forms than the previously normal grids with square, rhombic or circular, transparent surface elements, without one thereby causes disturbing moiré formations in the finished multicolor reproduction.

The rotations, which are useful in each case, can easily be passed through Attempts noted. Often times it can be useful for different Printing forms different rasters according to the invention for the partial color images of a multicolor image with different angles A to use for the lines of the coordinate system. It is also possible to use the grid according to the invention in combination with conventional Grids with square, rhombic or circular, transparent grid surface elements to use in the production of printing forms by means of the inventive Raster it is possible to intentionally create certain types of moiré in the means of the printing forms produced reproductions, which moiré formations For example, banknotes and postage stamps can be used for security printing suitable. An imperceptible forgery of such securities by taking a photo counterfeit printing forms is practically impossible.

Claims (12)

P a t e n t a n s p r ü c h e: Grids for use in the production of a printing form for image reproduction purposes, consisting of a disc or a film with individual, mutually identical, transparent surface elements surrounded by opaque surface parts and with their centers at all points of intersection between the lines of two Coordinate line systems are evenly distributed, with the lines each Systems are at the same distance from each other, d ad u r c h e k e n n z e i c h n e t that each surface element (1) consists of a mainly the shape of a rhombus having primary part (6, 8, 10, 12) and at least on one of the two tips Corners of the rhombus from a secondary part merging into this space (7, 9, 11, 13) exists, which protrudes over the rhombus corner and the adjoining rhombus sides, that the lines (4, 5)) of one or the other coordinate line system one Include acute angles of 15-60 ° with each other, and that every surface element has a longest dimension that is at least as long as said Distance between the lines of one coordinate system. 2. Grid according to claim 1, d a d u r c h g e k e n n z e i c h n e t that each surface element (12) has only one secondary part (13), and that the primary part and the secondary part have the same shape and size. 3. Grid according to claim 1, d a d u r c h g e k e n n z e i c h n e t that both pointed corners of the primary part (6, 8, 10) of each surface element one Secondary part (7, 9, 11) and that the two secondary parts are the same Have shape and size. 4. Grid according to claim 3, d a d u r c h g e k e n n z e i c h n e t that each secondary part (11) has the shape of an isosceles odei equilateral Triangle whose height is the extension of the longest diagonal of the rhombic Primary part (10) lies, and its base part overlaps the nhombusecke and over the rhombus sides adjoining the rhombus corner protrudes. 5. Grid according to claim 4, since d u r c h g e k e n n z e i c h n e t that the chest angle of the triangular secondary part (11) is greater than the angle the pointed rhombus corners. 6. Grid according to claim 3, d a d u r c h g e k e n n z e i c h n e t that each secondary part (7, 9) has the shape of a rhombus, its longest diagonal lies in the extension of the longest diagonal of the rhombic primary part (6, 8). 7. Grid according to claim 6, d n d u r c h g e k e n n z e i c h n e t; that the angle of the sharp corners of the secondary part diamonds (9) is greater than the angle of the acute corners of the rhombic primary part (8). 8. Grid according to one of the preceding claims, d a d u r c h G e k It is noted that the corners of the surface elements are rounded. 9. Grid according to one of the preceding claims, d a d u r c h g It is not noted that the surface elements are on the disc or the film have an outward bulging outside to give a lens effect. 10. Grid according to one of the preceding claims, d a d u r c h it is not noted that each surface element has a length that is at least twice and expediently at most four times as large as that Maximum width of the surface element. 11. Grid according to one of the preceding claims, d a d u r c h notify that the distance between the lines (4) of the one Coordinate line system with the distance between the lines () of the other coordinate line system is equal to. 12. Grid according to one of the preceding claims, d a d u r c h It is not shown that the distance between the lines of one coordinate system is greater than the distance between the lines of the other coordinate system. .13. Grid according to claim 11 or 12, d u r c h e k e n n z e i c h n e t that each surface element has a length which is greater than half of the longest diagonal in those fields that cross from those that cross each other Lines of the two coordinate line systems are formed. L e r s e i t e