DE683576C - Arrangement for the projection of television images by means of a cathode ray tube - Google Patents

Description

Arrangement for the projection of television pictures by means of a cathode ray tube It is known to take television pictures with the aid of a screen consisting of light valves to produce the elements of which are controlled by a modulated cathode ray. The screen is then z. B. as a slide. Imaged on the viewing surface. With such a. The screen can be arranged from inside the tube Grids of small tongues or flaps are made up, depending on the direction of the beam applied charge more or less close. In another known arrangement are arranged outside of the tube electro-optical control elements by the the beam impacting the inner wall of the tube.

The invention relates to an arrangement with on the outer wall Mechanical light valves attached to the tube, which through the on the inner wall hitting cathode ray can be controlled. According to the invention, there are light valves from double leaflets that spread more or less apart according to the charge and each connected to a capacitor assignment attached to the tube outer wall are. This training has the advantage that the elements, although they are not from Beam are hit, do not need to be connected to any potential. The electrical one located on a double leaf and the associated capacitor coating Charge remains constant. Depending on the strength of the generated by the beam on the inner wall Charging divides it into a more or less large one due to the influence of the influence .portion going into the capacitor layer and an equal amount in the leaflets going charge of opposite prefix. In addition, the advantage is obtained that no polarized light is required. - To carry out the invention you can metallic coatings can also be applied to the inner vessel wall. Multiple it will be advisable to use a suitable metal from a radiation source for this purpose au: fzuda.mpfen. Another advantage of the claimed arrangement over conventional ones Cathode ray tubes are that the piston crown need not be transparent. Instead of the glass tubes used throughout, tubes can therefore be used, which consist entirely or at least for the most part of ceramic material.

The inner coverings can be made directly by the cathode ray to be charged to a negative potential, or else one uses the emission of secondary electrons that occurs in many substances by means of this a positive call charge. Between two overpaints the generated Charge is removed again. This can be done by known means, e.g. B. durcleinen Base layer of low conductivity on the piston crown. The conductivity is then tuned in such a way that the charge falls to a specific one within a period Fraction has dropped. However, other means are also possible, by means of whose charge z. B. is suddenly returned to its zero value.

In the drawing, FIGS. I and 2 show an exemplary embodiment Schematic arrangement for the enlarged projection of television images.

The tube of Fig. I has a flat. trained piston crown. The vacuum vessel 5 is made entirely of ceramic material. The deflection electrodes 6 are applied directly to the wall. The end wall 7 works with yours Cover 8 together so that a narrow gap 9 is formed. On each of the outer assignments two leaflets are attached to each, similar to the ones known from electrometers. In the uncharged state, the leaflets hang loosely next to each other, as shown at io. The second leaf should be thought of behind the first. If now the inner occupancy by the cathode ray z. B. negatively charged, so the external occupancy is positively charged, while a corresponding negative Charge flows into the leaflets. These will then repel and spread apart. While they covered the gap in the uncharged state, one of the embossed ones is now being made Charge corresponding part of the gap released for the passage of light. Will the cathode ray modulates according to the picture content of a television broadcast, so the call charge of each pair of leaflets corresponds to the ability of the one transferred Pixel. The gap g thus represents an adjusted line of dots.

FIG. 2 shows how a complete television picture can be generated by means of such a line of dots. The tube 5 is drawn from the side this time. Since the deflection is only in one direction, the tube can be made flat. One of the outer assignments is designated with ii. The leaves are on her. 12 attached. The gap 9 caused by the tube 5 and the diaphragm 8 is constantly illuminated with the aid of a light source 14 and an optical system 15. The controlled light beam passing through the gap falls onto a mirror wheel 16 and from there onto an optical system 17. This forms the gap g onto a projection screen 1 8 . When the mirror wheel is rotated, the projected image of the line of dots moves across the projection surface, so that a complete image is created.

The light valves can also be designed in such a way that; one the leaflet is fixed, the other is movable to this, the movable leaflet receives a reflective surface and reflects the light beam so that it has a fixed aperture more or less illuminates.

Claims (6)

PATENT CLAIMS: i. Arrangement for the projection of television images by means of a cathode ray tube, in which light valves are arranged on the outer wall of the bulb, which are controlled by the cathode ray striking the inner wall, characterized in that the light valves consist of double leaflets which are more or less depending on the call charge Spread apart and each connected to a capacitor layer attached to the tube outer wall. 2. Arrangement nasch claim i, characterized by the use of a vacuum tube with opaque flask ode. 3. Arrangement according to claim i, characterized through the use of a material consisting essentially of ceramic material Tube. 4. Arrangement according to claim i, characterized in that the piston head as a one-sided boundary of a constantly illuminated, corresponding to an image line Light gap serves. 5. Arrangement according to claim i, characterized in that the Uurch Eats tube formed flat. 6. Arrangement according to claim i, characterized in that that the light valves are formed by a large number of individual elements, which are arranged on the piston wall without strict regularity.