DE869153C - Method and device for producing photographic contrasts on light-sensitive material - Google Patents

Description

It is known to heart photographic material by that paper, regenerated cellulose or the like by treatment with an aqueous solution of a photosensitive nitrogen compound, z. B. a diazonium compound, sensitized and then dried by the sensitized material is passed through a heated room.

Since both sensitizing and drying can be done in a very simple way, the manufacture of such a photographic material is inexpensive and hence important for manufacture of 'copy material for image and sound films.

The invention aims to simplify manufacture even further; it enables a very quick implementation of the drying process with the aid of a little space-consuming Apparatus. It was already possible to sensitize quickly and with a small sized one Perform apparatus. The speed of manufacture of the photographic material mentioned and the size of the equipment required for this is essentially dependent on the time of Drying and dependent on the size of the drying room. The application of the invention enables a quick implementation of the whole procedure with a small piece of equipment.

According to the invention, the moistened photosensitive material is treated longitudinally with a gas stream to remove the developed water vapor in an electric field of such a high frequency and strength that an average of at least 15 percent by volume of water is expelled per second until the material has the desired value Has moisture content, after which it is exposed and developed. This means that in every cubic centimeter of the material an energy of at least about 80 cal / sec. is produced. 15 percent by volume of water is to be understood as meaning ^{15 cm 3 of} water per 100 cm ^{3 of the dry material.}

When heating according to the invention for a film strip of regenerated cellulose with a thickness of 40 ^ is used, the after sensitization contains 5 mg of water per square centimeter of surface, it is possible to use the Film strip to dry in about 6 seconds. When the film strip is passed through an electric field that extends over a distance of 45 cm in length, the execution speed can be about 5 m per minute. The speed of the drying used according to the invention can even be increased so far that 30 percent by volume of water are expelled per second.

Surprisingly, it has been found possible to expose the photographic material to a heating of high intensity without impairing the photosensitive compound, which is all the more remarkable since photosensitive nitrogen compounds such as diazonium compounds, azides or the like are very easy when heated decompose and would largely disintegrate with such an intensive supply of heat in a drying room working with heated air, for example. It must be taken into account that, according to the invention W ^T Slee inside the 'material is developed, so that the interior of the material is warmer than its surface. In the case of external heating, e.g. B. by means of heated air, the interior of the material is colder than the heating means. Decomposition of the photosensitive compound can produce a strong fog, especially in the case of photosensitive material, in which the light decomposition product of the photosensitive compound forms metal nuclei from the metal salts present in the material, which are intensified during subsequent physical development; as an example, mention may be made of a material which is made sensitive with a solution of a diazonium compound and a mercury salt or a noble metal salt. In the case of the heating provided according to the invention, however, no haze at all occurs with such a material. With physical development is meant a development process in which not all of the metal required to build up the contrast is present as an anion or a metal compound in the correct place of the contrast before development into a metal image.

The heating of the photographic material is preferably carried out using an electrical one Field that is generated between wire or rod-shaped electrodes that are parallel to the Material plane are arranged and on or between which the material is guided along becomes that the lines of force of the field essentially lend run through the material in this direction of movement. If desired, the Move electrodes and the material be immovable. With such an electrode arrangement the lines of force run through the material over a relatively long distance even and only over a small distance through the means, e.g. B. air, between the electrodes and the material. In this way the efficiency of the field is increased, which affects the dimensions the apparatus has a beneficial effect.

Although with the electrode arrangement mentioned, the field strength in the direction of movement of the Material is not constant, the result of the treatment in this direction is homogeneous, if only the movement takes place at a constant speed. The homogeneity towards the Width is achieved by using electrodes, the length of which exceeds the width of the material.

The amount of gas passed along the material for discharging the removed water vapor, e.g. B. air, is preferably chosen so that it is just sufficient to absorb the developed water vapor without oversaturation occurs; the excess of air can be, for example, ίοοΎο or less. This has the advantage that the possibility of contamination of the photographic material due to dust particles in the air is as small as possible. Preferably, a gas is used that ^{is preheated to about 01} ° C. and as a result is able to absorb a large amount of water vapor. The invention is of great importance for photographic material in which the quality of the photographic contrast depends on the moisture content of the material at the moment of exposure. An example of such a material is regenerated cellulose which has been sensitized with an aqueous solution of a diazonium compound and a mercury salt or a noble metal salt. When such a material is exposed and physically developed on it, it is found that the gamma value of the resulting metal image depends on the moisture content at the moment of exposure. The exposure of such a material, e.g. B. in the production of copies of image and sound films, is preferably carried out in a device that is provided with a (device for applying water to the material, a drying room to adjust the moisture level of the material, an exposure device and means to the If desired, unsensitized material can be used as the starting material in such a device

be used, whereby at the same time with the water the light-sensitive, in it then brought to the solution Compound is applied. By in such a device drying according to the Invention is carried out, the result is a significantly simplified apparatus. This is especially the one Case when the high frequency drying using an electrode assembly as above described takes place. In this way one achieves

ίο a device of practically the same size as that of a copier in which the treatments prior to exposure do not take place. In addition, the above-mentioned electrode arrangement produces a material of great homogeneity. This is important because local differences in moisture content cause differences in gamma. When drying with heated air there is a risk that the edges of the material have a moisture content that is different from that of the central part. Another very important advantage of high-frequency drying in such a case is that as a result of the drying speed and thus as a result of the speed with which the desired humidity state can be set, there is the possibility of changing from one humidity state to the other in a short time with one and the same film tape to switch to another. This can be important when e.g. B. wishes to copy several scenes with different gamma values one after the other on the same film strip, for which purpose different moisture contents are required at the moment of exposure. When applying the invention it is possible to switch a humidity state to another within a distance of 20 cm of the film tape \ ^r on.

Claims (2)

PATENT CLAIMS: 1. Process for the production of photographic contrasts on light-sensitive Material, where the gamma value depends on the moisture content at the moment of exposure especially when using light-sensitive diazonium compounds sensitized, consisting entirely or partially of regenerated cellulose Material, characterized in that the moistened photosensitive material under Longitudinal guidance of a gas flow to remove the developed water vapor in an electrical one Field of so high frequency and such strength is treated that average at least 15 percent by volume of water is removed per second until the material denies has the desired moisture content, after which it is exposed and developed. 2. Apparatus for performing the method according to claim i, wherein a photographic Material successively through a device for applying water, a drying room and an exposure apparatus can be passed through, characterized in that the drying room with electrodes is provided to generate a high-frequency electrical field in the material to be dried. © 5746 2.53