DE858355C - Sensitized diazotype sheet for raster reflectography - Google Patents

Description

The invention relates to a sensitized diazotype sheet for scanning reflectography which contains a grid that except for parts necessary for that Light to which the diazo compound is sensitive are essentially transparent, only Has parts that are opaque to said light, the latter being in the manner of a skin are connected that in the removal of the skin essentially all of the last-mentioned parts removed. This sheet is referred to below as the grid sheet and the associated sheet Skin as a grid skin, which is described elsewhere.

For raster reflectography, the raster should, as already stated, consist exclusively of parts which are substantially opaque to light to which the sensitized layer is sensitive are, and parts that are essentially transparent to this light, without every every transition. Since the copy light used in practice is always more or less is scattered, the contact between the grid and the sensitized layer must be high Meet requirements. The requirement for firm contact is particular in the case of diazotype sheets This is important because nitrogen is evolved during exposure, which causes the tendency to reduce the contact is considerably increased, especially for sheets with a grid skin. After the exposure, the grid skin must be removed from the

The rest of the sheet must be separated, an operation that is very important in practice. Heretofore, the skin has been stripped dry, which requires a thick and consequently expensive skin of at least 10 g / m ² , or by using adhesive surfaces, which incurs additional costs.

The sensitized Diazotypierasterblatt of the present invention is characterized by a crease resistance 3-15 ^0, measured as the angle between the legs of the Schieferflexometers (Research Paper No. 555, Bureau of Standards), wherein the vertex of the curved grid sheet with befindlicher on the inside raster skin at a distance of 2.5 cm from the joint of the flexometer. These grid sheets meet the high demands of diazotype grid reflectography. The grid skin sheets of the present invention are particularly satisfactory when the crease resistance mentioned is between 6 and 10 °. Most suitable is a grid skin with a weight between 2 and 8 g / m ² , preferably between 4 and 6 g / m ² . The application of the present invention therefore does not require a thick grid skin.

The main advantage of the diazotype screen sheet of this invention is that the screen skin for practical purposes, especially when treating and exposing the grid sheet, sufficient adheres, while on the other hand it can be de-rasterized in a hitherto unknown simple manner can, such as B. by mechanical FaIt, curvature, Twisting, bending or bending process, for example by cutting the sharply bent Grid sheet pulls its grid skin side over a sharp edge and pulls the detached grid skin removed.

In these documents, under wrinkling is the resistance to a visible reduction in the to understand firm contact between the grid skin and the rest of the sheet, which is similar to the detect visible cracking or cracking in bending or kink tests with common materials gives. The wrinkle resistance of the sheet, i.e. H. the bend in which a Visible reduction in contact occurs is due to the angle between the fixed The leg and the leg of the flexometer that causes the sheet to bend, which is characteristic of any given grid sheet. To have comparable values for the crease resistance it is necessary to keep the grid sheet always in the same way between the legs to put the flexometer, in such a way that the apex of the curved grid sheet with the The grid skin on the inside is at a distance of 2.5 cm from the joint of the flexometer is located.

The invention relates to both grid sheets with a flat contact surface between the Grid skin and the rest of the sheet as well as grid sheets, where the contact area has a relief that matches the grid structure. In terms of the benefits that the has the latter type, this is preferred.

example 1

On the surface 1 of a cylinder (Fig. 1) there is a relief shown in Fig. 2, which consists of the elevations 2, which have a height of 15 μ, a horizontal dimension of 40 X 40 μ and a period of 80 μ .

The slowly rotating cylinder at 3 has a filler with 20% carbon black, 4% asphalt and 1.75% diethylene glycol in toluene. This dries up instantly. At 4, the top surfaces of the bumps 2 are cleaned. The carbon black-asphalt mixture that remains in the depressions (cavities) has a weight of about 2 g / m ² . At 5 a thin layer of lacquer, consisting of 4% cellulose acetate butyrate in ethyl acetate and 1% diethylene glycol, is applied, which at 6 and 7 is dried by heat rays to form a grid skin weighing about 5 g / m ² , including soot and asphalt will. At 15, an adhesive layer consisting of 0.3% polyvinyl acetate resin in toluene is applied to this grid skin, which is dried and heated at 16.

A sensitized diazotype film is now introduced at 8. The film consists of a cellulose acetate film of 75 g / m ² , the surface of which was saponified and then sensitized with an aqueous solution of 5% 3-chloro-4-dimethylaminobenzene diazonium chloride, 1% alum and 10% ethyl alcohol.

At 8 the film enters with its sensitized side facing the cylinder. At 9 it is pressed and leaves the cylinder at 10 after the now complete grid sheet has cooled down.

If the crease resistance is measured in a slate flexometer (Fig. 3), the grid sheet is bent with the grid skin side inward and the apex of the bent sheet is a distance 11 (2.5 cm) from the joint 12, it can be observed that, when the legs 13 and 14 of the flexometer form an angle of 15 ^0, occurs a substantial reduction of the fixed contact of the raster skin. As the angle becomes smaller, the contact also decreases, which is clearly visible when the angle is approximately 10 °. As a result, the grid sheet obtained has a crease resistance of 15 to 10 °. The weight of the grid skin is 5 g / m ² .

The grid sheet is at a distance of 5 cm with the light of a high pressure mercury vapor lamp exposed with a power consumption of about 20 watts per centimeter of luminous length of the lamp, the raster skin side facing the light source and the other side facing the one to be copied Original is brought into contact. After exposure, which requires about 1 minute, the grid sheet is sharply bent under tension and pulled over a sharp edge. This dissolves the grid skin and can be removed by hand

will. On the other hand, it is practically impossible to remove the grid skin by simply wiping it off.

The de-screened film is then developed, for which a layer of 10 g / m ^{2 of} an aqueous developer having the following composition is applied: 0.8% phloroglucinol, 0.8% resorcinol, 3% sodium carbonate, 6% sodium thiosulphate, 2 % Urea sulfur, ι ° / o potassium rhodanide, 0.2% of the sodium salt of isopropylnaphthalenesulfonic acid. 10

Example 2

A cellulose acetate film of 75 g / m ² , which bears a relief on one side, as shown in FIG. 2 for the surface of the cylinder 1, was superficially saponified on the relief side and then with an aqueous solution of: 6% 3 - methyl ^ -dimethylaminobenzoldiazoniumchlorid, 2 ° / o oxalic acid, 1% phenol, 20 ⁰ / o ethyl alcohol sensitized. A toluene mixture with 20% carbon black, 4% Syrian asphalt and 1.75% diethylene glycol was then applied to the relief. After drying, the raised areas of the relief were cleaned with a soft leather. Then the screen side was provided with a thin layer of varnish consisting of 4 parts by weight of cellulose acetate butyrate, 100 parts by weight of ethyl acetate, 2 parts by weight of ethylene glycol and dried again, so that a screen skin of about 4 g / m ² , including the soot and asphalt components in the sensitized diazotype film Paint film, was formed. The grid sheet obtained in this way has a crease resistance of about 7 to 8 ° in the slate flexometer. After exposure and descreening as in Example 1, development is carried out in ammonia vapor.

The crease resistance values given in the examples can, however, also be reduced, by adding small amounts of a substance that increases plasticity to the grid skin, while on the other hand it increases by increasing the cellulose acetate butyrate content of the varnish can be. In practice, however, it has been found that the crease resistance is between 3 and 15 ° (slate) should be.

Claims (5)

Patent claims. 1. Sensitized diazotype sheet for raster reflectography with a raster skin, the raster of which, in addition to parts that are essentially permeable to light to which the diazo compound is sensitive, only has parts that are essentially impermeable to said light characterized in that the grid sheet has a crease resistance of 3 to 15 ⁰ , measured as the angle between the legs of the slate flexometer, the apex of the curved grid sheet with the grid skin on the inside at a distance of 2.5 cm from the joint of the flexometer is located. 2. grid sheet according to claim 1, characterized in that that the grid sheet has a crease resistance of 6 to 10 °. 3. grid sheet according to claim 1 or 2, characterized in that its grid skin has a weight of 2 to 8 g / m ² , preferably 4 to 6 g / m ² . 4. grid sheet according to claim 1 to 3, characterized in that the contact surface zwisehen the grid skin and the rest of the sheet have the shape of a grid structure corresponding Has reliefs. 5. A method for removing the raster from the raster sheet according to claim 1 to 4, characterized in that that the grid skin from the rest of the sheet by pulling the sharply curved Detached grid sheet over a sharp edge and removed the detached grid skin will. 1 sheet of drawings 1 5518 11.52