DE490578C - Device for receiving television pictures with a rotating pixel distributor disc - Google Patents

Description

Device for receiving television pictures with a rotating pixel distributor disc The invention is a receiver for electric television that is based on the well-known principle of synchronous decomposition and reassembly of the image on the transmitter or receiver side and the transmission by electrical telegraph impulses is based. The invention allows with relatively simple means and with little Dimensions of the parts required for the composition of the image on the receiver Production of bright images with sufficiently fine subdivision. With ordinary Nipkow's disk is the simplest known light control arrangement of the The receiver is a neon glow lamp with a glowing cathode that is equal to an area the image field of the @Tipkow disk. Here the light intensity is off individual surface elements successively built up images because of the total amount of light of the glow lamp only a small fraction reach the eye of the beholder can, which is the area ratio of the hole of the Nipkow disk to the image field is equivalent to. The invention seeks the light intensity that can be obtained with the help of glow tubes as a receiving light relay can be improved by having a higher part of the total light emitted onto the individual hole in the image point distributor disk not applicable. This is achieved by the fact that, with a suitable design, the controlled Light source by using the optical means described below Luminous flux on the surface area of approximately one line of images contracts and at the same time moved so that this concentrated light only hits the momentary from the distributor disc scanned image line falls. Details of the invention are given in the following Description of an embodiment according to FIGS.

As FIG. I shows, a perforated spiral disk is used for pixel distribution i, driven by a synchronous motor 2, in synchronism with the corresponding scanning device on the encoder side, is set in rapid rotation. You may z. B. 32 revolutions do in the second. To break down the picture more finely and still the dimensions To keep it small, the holes are arranged in the form of a double spiral, i. H. the whole picture emerges in the course of two circuits. Thus, in the assumed Fall the number of images transmitted 16 per second. For the concentration described and at the same time for the spatial movement of the luminous flux is a drum 3, which carries on its circumference 8 cylindrical lenses parallel to the axis. These are in the Fig. I and 2 only partially, identically with q., Denoted. They have same distance from each other. Parallel to the axis of rotation of the drum .; is one elongated tubular "or slit-shaped glow tube 5 arranged by the television receiver 6 is controlled in their brightness and thereby in known Wise causes the alternation of light and dark within the reception image. These Light source 5, the back of which is expediently mirrored or as a whole in seated in a mirror, through the rotating ring of cylindrical lenses into the - the plane of the holes in disk i is shown, with such a reduction that that their image covers an area which is roughly the product of length and width corresponds to a line of holes. Since the line of holes in the imaginary case is a flat circular arc is, however, that illuminated by the image of the light source 5 on the disk i must The field should be correspondingly wider than a line of holes. But you can use the tube or Slit-shaped light source 5, as shown in FIG. 3, has an arcuate curved shape give and thereby achieve that the image through the cylinder lenses also is curved, in such a way that it hugs the curvature of the image lines. In this way, the light on the disk i can be condensed a little more and make better use of the light source. The cylinder lens ring is now with With the help of the worm gear 8, 9 and the transmission io, 11, 12 (by means of perforated If the tape is set in rotation, the line-like image of the light source moves 5 on the surface of the disk i in the direction of rotation indicated by the arrows a certain distance from top to bottom until the next cylinder lens to the Place the previous one and this game repeats itself. So that this wandering Imaging of the light source 5 on the disk i is always straight at the height of each scanned line falls, must be between the speed of i and that of the lens ring 3 exist in a certain relationship. In the imaginary case, with 16 images in the To be reproduced in the second, the lens ring must just two revolutions in the Make second.

The wandering image of the light source 5 describes in the one shown Arrangement of a circular path in the plane of the drawing. Therefore, the figure should be in each Elevation or image line on the distributor disk i is evenly sharp and bright be, then the disk i must not be a flat surface, but it must, like this Fig. 2 shows, in the peripheral area of the double hole spiral all around bead-like be bent, as indicated at the points indicated by 13 in FIG. 2. However, by eccentric arrangement of 5 (Fig.: 2) one can determine the curvature of the imaging path flatten out so that the bead 13 and thus also the curvature of the image are kept flatter can be. Appropriately, the holes of the disk i with a light-scattering Medium covered or filled in, that within the whole of the moving picture line angle formed with the eye of the observer evenly in all directions shines. The light intensity then appears with the same size of the electrical control pulse in all parts of the picture, above and below, right and left, the fixed one Eye the same.

The light source 5 is as in Fig. 3 as straight or better arc-shaped Form curved fluorescent tube with the end electrodes 6 and 7 and with a strong luminous gases, e.g. B. neon-helium mixture, fill with appropriate pressure. That so The light received is already intense enough at a current strength of a few milliamps to deliver bright images. Different colors can result from other gas fillings be evoked. The diameter of the light tube of 5 is, for. B. if the cylinder lenses work with a reduction of 4: i and the holes of the Distributor disk i have a diameter of i mm, expediently 5 mm. One moves then the disk i slightly out of the plane of the image and thereby achieved longitudinally a whole arc of the hole in the image field uniform light intensity. With arched The curvature of 5 can be disregarded from the blurred image. For security reasons however, you can give the light tube of 5 a slightly larger diameter and will then expediently work with the highest possible current in order to avoid the lower Compensate for the compression of the light. Instead of making the light source tubular and to use the positive pillar of light, it is also possible to use a cathodic glow discharge between two electrodes located close to one another to be used, the length of which corresponds to the length of the light tube or the cylinder lenses 4. A long strip of uniform cathodic glow is then formed in the plane of the disk i. Such a glow lamp with a more or less narrow electrode gap has the advantage of lower ignition and operating voltage, which makes operation easier from the receiving amplifier.

Claims (7)

PATENT CLAIMS: i. Device for receiving television pictures with revolving pixel distributor disc, characterized in that as a light source an elongated, tubular or gap-like glow discharge tube is used, which is parallel to the axis of a rotating ring of cylindrical lenses through the effect of which is the utilized luminous flux on the surface of approximately one line of images is concentrated and at the same time moved relative to the pixel distributor disc in such a way that that the image of the light source just always falls into the scanned image line. 2. Apparatus according to claim i, characterized in that the light source is arcuate is curved, and of such a curvature that its image follows the shape of the The row of holes on the distributor disc fits snugly. 3. Discharge lamp for the device according to claim 2, characterized in that its light tube between the electrodes is arcuately curved. d .. Discharge lamp for the device according to claim 2, characterized in that two elongated electrodes of corresponding Curvature facing each other at a small distance, between which cathodic Glow light is created. 5. Apparatus according to claim i to q., Characterized in that that the pixel distributor disc has several spiral holes, one of which is through the movement of the cylinder lens ring is only illuminated one of the same. 6. Apparatus according to claim i to 5, characterized in that the distributor disc is curved like a bead in the area of the perforated spirals, namely with a curvature, which hugs the path of the image of the light source. 7. Device according to Claim i to 6, characterized in that the holes of the distributor disc with light-diffusing materials are covered or met. B. Apparatus according to claim i to 7, characterized in that the distributor disc is located directly on the axle of the synchronous motor sits and the rotation on the axis of the cylindrical lens ring is transmitted through a worm gear and a perforated belt. G. contraption according to claims i to 8, characterized in that the rear side of the tubular The light source is reflective or sits in a reflector.