DE518791C - Device for the production of characters and symbols by electrolytic means - Google Patents

Description

GERMAN EMPIRE

ISSUED AIW
20th FEESUARY 1231

REICH PATENT OFFICE

PATENT LETTERING

CLASS 15k GROUP

General Electricity Society in Berlin *)

Devices for the production of prepaid cards have become known, inter alia. also those in which the different content-containing prepaid cards are ge-S which consists of a large number of tightly isolated wires lying next to each other. The current-carrying electrodes then produce on an electrolytically prepared paper their cross-section corresponding points from which, depending on the choice of electrodes, the Have a wide variety of texts etc. produced. Should such an electrode block for manufacture If a larger number of different cards are used, those for the different inscriptions required circuits extremely complicated and for so different Cards, such as those required in railway operations, for example, come in handy no longer executable.

The switching organs could indeed in a known manner by radiation-sensitive organs such. B. Selenium cells that are irradiated and energized by projecting the cards to be printed will be replaced. A selenium cell suitable for the purpose would have to be very small and would be difficult to manufacture. In addition, the large number would make the apparatus more expensive Selenium cells are uneconomical.

In the following, therefore, an apparatus is described in which, in a new way, the electrodes flowing through currents through variable irradiation of spark gaps through application of the so-called light wax effect be managed.

Fig. Ι shows an arrangement to show how a lettering comes about when spark gaps are brought into the area of the light rays. In this case, a cell is exposed to ultraviolet rays that hit the space between points 13 and 14 and create a transition for the current flowing from battery E via pen 15, character carrier 16, electrode 17 and back to battery E , whereby a point is created on the paper 16 by chemical decomposition.

The simplest way of irradiation is to use a photographic type Negative produced images. The individual electrodes are then beam-sensitive Links connected which are arranged in the same manner as the writing electrodes and which, when irradiated, allow the current required for electrolysis to pass through the electrodes. In this way, the irradiated electrodes create dots on the paper, while the non-irradiated electrodes are ineffective stay. Because the spark gaps in the ratio of the light distribution corresponding to the original image are irradiated, only those come

*) The patent seeker stated as the inventor:

Heinrich Diehl in Berlin-Lichterfelde.

Electrodes that correspond to the image and create one with the original matching pressure.

In Fig. 2 it is shown in more detail how the change in the irradiations of the Spark gap is made possible.

2 with an electrode block is designated, which are opposite a row of 5 designated electrodes. Between the electrode block and

ίο the electrodes are marked with ι, Electrolytically prepared carrier for the visualization of writing and images Paper or cloth. This carrier can have different dimensions and at the same time as an electrode block. trained Roller are guided in such a way that sheets or cards of any dimensions are automatically separated after printing. The electrodes 5 are one below the other isolated and attached to a frame 4 which is arranged so as to be able to swing about an axis 3. the The ends of the electrodes are pointed and touch the carrier to be printed. At the opposite end of the frame 4 are arranged with 6 designated light receivers, which are in a row. These light receivers are in conductive connection with the electrodes 5.

The irradiation device consists, for. B. from a photographic negative 7, the lenses 8 and 9, in order to transmit the image field enlarged, also from the light source 10. The irradiation device is arranged in such a way that the entire image field is brought into the area of the light receiver can be.

The labeling process now takes place as follows:

From the light source 10, the light rays penetrate the photographic negative 7 and act on the light receiver 6 in such a way that when moving this back and forth by means of the Frame 4 the conductivity of the cells 6 due to fluctuating exposure corresponding Is subject to fluctuations. Since the light receiver 6, furthermore the electrodes 5 and the Plate 2 for the character carrier 1 are arranged in a circuit, so are on the electrolytic character carrier 1 characters come into existence that exactly match the inscription of the photographic negative 7 correspond.

In order to be able to produce prepaid cards with different contents in larger quantities, you will, as Fig. 3 shows, use a cylindrical body 11, which on its outer Extensive recording of photographic negatives with different labels is permitted. The cylinder can be moved axially and radially so that the desired Negative remains at a certain point. This point marked 12 or the The negative in question is, as already described above, from the light rays of a light source 13 interspersed, the z. B. can be housed inside the cylinder.

Digit 12 corresponds to the negative 7 in Fig. 2. The image is taken by the mirror 20, through the beam of rays the cell carrier 21 is excited. Similarly, as mentioned earlier, the transmission occurs the writer. With such a facility one could not only Quickly make cards with any inscription, but any number.

Claims (4)

Patent claims: 1. Device for the production of writing and symbols, in particular for the production of electrolytic prepaid cards Ways in which the electrodes are assigned to organs sensitive to radiation and the electrodes required to produce a particular mark by exposure the organs assigned to them are brought into effect, characterized in that that spark gaps are used as radiation-sensitive organs. 2. Apparatus according to claim 1, characterized in that for the writing process certain writing electrodes by irradiation by means of one of the to be produced Value card corresponding image with an electrplytischen process effecting Power source are in conductive connection. 3. Apparatus according to claim 1 and 2, characterized in that the radiation-sensitive Organs and writing electrodes are each arranged in a row, and that the receiving organs in front of the image and the electrodes in front of the printing surface or both conversely, are movable in such a way that this movement creates the overall picture. 4. Apparatus according to claim 1 to 3, characterized in that for receiving of originals to be reproduced, an expediently cylindrical body is used the circumference of which a large number of originals are attached, and the body is thus moved and it can be determined that always the desired location of the light beam is enforced. For this purpose ι sheet of drawings