DE684619C - Light-sensitive system for the electrolytic production of photographic images with the aid of resistance photocells - Google Patents

Description

GERMAN EMPIRE

Oiar. inc !, t. \ ^

ISSUED ON
!. DECEMBER 1939

REICH PATENT OFFICE

PATENT LETTERING

CLASS 57 b GROUP

Ώ 77971 IVaI57 b

3) r.-3itg. Ulrich Schmieschek in Berlin-Wilmersdorf and Dr. phil. Fritz Klutke in Berlin

have been named as inventors.

German Aviation Research Institute in Berlin -Adlershof

Photosensitive system for the electrolytic production of photographic images with the help of resistance photocells

Patented in the German Empire on May 14, 1938 Patent granted, November 9, 1939

It is known to produce photographic images on layers which do not need to be inherently sensitive to the rays to be used for image formation. Such images can be produced in such a way that a so-called 5-layer system is used, the first layer facing the objective consisting of a rigid, transparent carrier plate. This is followed by an electrically conductive layer that is as thin as possible and as transparent as possible (hereinafter referred to as the first electrode), to which one pole of a direct current source is to be applied during the recording. This is followed by the third layer, which consists of a material that changes its electrical resistance in accordance with the illuminance and is referred to below as the resistance layer. Further, followed by a layer consisting of a carrier \ material and therein finely distributed chemical and colored from the by current passage according to the local current intensity or colorless products are formed that make up either directly constituting the image or can be constructed by additional treatment. This layer is called the image layer. The end of the 5-layer system is formed by an electrically conductive terminal electrode, called the second electrode, to which the other pole of the direct current source is connected during recording.

The image generation using such a 5-layer system takes place in in the following way:

The object to be recorded is imaged on the layer via optics. If you now switch on the current for a short time, the system becomes light-sensitive, and so does it

an image emerges in the image layer; being the degree of change in the layer depends on the corresponding local change in the conductivity of the resistance layer, their conductivity in turn depends on the intensity of the incident Light.

Although such methods are already known, they have not been put into practical use will. The reasons which stand in the way of the use of such a method are essentially as follows: It is difficult, time consuming and costly to build such a system so that all five layers run parallel to each other and ideally electrical and mechanical To be in contact with each other. Furthermore, such a 5-layer system is itself in the laboratory difficult to handle because the system has to be rebuilt and adjusted for each new recording. Furthermore, the production and utilization of the image layer after recording because of its small thickness and thus easy vulnerability extremely difficult. Finally, the rapid manufacture multiple recordings in a row not possible.

In order to remedy these inconveniences, the following measures are proposed according to the invention: Divide such a 5-layer system into three units, with two Units, although replaceable, but more frequently usable components of the recording device or represent the recording camera, while the third unit is the actual recording material represents that in the recording camera in a similar way as at the time Film or sheet material is used. The first unit consists of the transparent one Carrier layer, the first electrode and the resistance layer. The third unit consists of the second electrode, which is in the form of a rigid, highly conductive layer, for example made of metal, and with the usual aids film-like Has to press recording material against the first electrode. The second unit consists from the film-like recording material, which consists of a metallically conductive carrier layer, so z. B. of thin-rolled metal foils and a thin one located on it Image layer consists. The main advantage of such a division is that that you can make a series of recordings in a row in a similar way to the use of normal recording equipment and normal film. Another advantage over the known method, in which the five layers are a constructive Forming unity consists in the excellent contact between the electrolytic Image layer and the electrically conductive substrate, which thus the role of the second Electrode in the 5-layer system has taken over and even with incomplete electrical contact with the pressure plate, the image quality is not endangered. Such Films can be made in a manner similar to conventional photographic plates or films be used. When used in place of photographic plates, the flexibility of the conductive support layers can be relied on construction reasons, omission of a special pressure plate, can be dispensed with. A An example of the production of such an arrangement is described below:

The first structural unit consists of a thin, transparent, relatively strong glass plate c, a thin metal layer d and a subsequent formed, thin selenium layer. The second main part, the actual film, consists of a thin, solid metal band & about 0.01 mm thick and a thin, about 0.01 to 0.05 mm thick image layer α, made of 10 parts by weight of gelatin, 5 parts by weight of starch , 5 parts by weight of potassium iodide. The third unit / consists of a flat-ground, rigid metal plate, which is to be pressed against the film and thus the first unit _{by means of springing go during the recording.} The picture is taken in that, after the object to be imaged has been brought into focus on the resistive layer e, a current surge is sent through the system from a direct current battery with the aid of a suitable switch. Since the picture comes about by the fact that iodine is excreted at the anode, where it combines with the starch to iodine starch ioo and its typical color results, and since the picture should be created as close as possible to the border between α and b , one will in the case of the present example connect the positive pole of the DC battery with / and apply the negative pole to d .

It should be noted that, of course, _{a 1 ο} organic compounds may be used in place of gelatin, other binder and instead of starch iodide all other inorganic or who suffer visible at a current passage at the cathode or anode or Curtain by suitable post-treatment bare changes . In addition, images colored by the electrolytic evolution of hydrogen can be obtained from leuco bases, for example, or the coupling of azo or diazo components of organic substances can be initiated by electrolysis. The decolorization of colored substances by means of electrolysis can also be used for the process.

Claims (1)

Claim:
Light-sensitive system for the electrolytic production of photographic images with the aid of resistance photocells, whose resistance, which is variable according to the local light intensity, controls a current which causes visible or developable changes in a thin, electrolytic layer, characterized in that the thin, electrolytic Layer (a) is on an electrically conductive flexible band (b) , which - during the recording, lies between two parallel, rigid plates (g, f) , the rigid plate of which is formed from three layers in relation to the recording, the first from a transparent, relatively strong stiff. Layer (c), the second from a metallically conductive, also as transparent as possible layer (d) and the third from a thin layer (e), e.g. B. selenium, and the rear rigid plate (/) is formed from any highly conductive, preferably metallic substance. 1 sheet of drawings