SU37141A1 - Imaging device - Google Patents

Description

One of the most important parts of image transfer devices is an apparatus for decomposing them into elements. Usually, decomposition is accomplished mechanically by, for example, a Nipkow disk, Weiler wheels, etc. These methods, however, have a number of major drawbacks. Such disadvantages can be considered the need to maintain the synchronism of the rotating parts in the receiving and transmitting devices and the impossibility of obtaining a greater number of image decomposition elements necessary for the artistic reproduction of the latter.

These shortcomings do not have devices for distance viewing, in which electric methods of image decomposition are used, in particular, by means of a traveling electron beam.

The present invention relates to this type of device, in particular, using a Brown tube.

The invention consists in converting said Brown tube into a photocell sensitive to the visible part of the spectrum, using the well-known physical phenomenon discovered by DemberoM.

In order to practice the invention, the Brown cathode tube is designed as

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a metal plate, for example, aluminum, on which the transmitted image is projected and which emits electrons in the illuminated places of the surface only when an electron beam hits them.

The device for the transmission of the arterial vision, shown schematically in the drawing, consists of a modified Brown tube / containing a hot filament 2, an annular anode 3, two pairs of capacitor plates 4 for scanning the electron beam and an aluminum plate 5 attached to the minus of the anode battery 6.

The transmitted image is projected onto the plate 5 with the help of an optical system 7.

The device is based on the Dembera (Die lichtelektrische Zelle R. Fleischer und Teichman and Z. fur Physik for 1925, volume 33, exercise book 7), which, as is well known, consists of the following: an aluminum plate that does not produce a photocurrent when illuminated by solar or by another light, it begins to emit photoelectrons when it is bombarded by an electron beam, in other words, the threshold of photoelectron output at the specified bombardment moves to the region of visible light (up to red rays); In this case, the photocurrent at a constant force of the bombarding electron beam is proportional to the illumination.

In the proposed device, when the plate 5 is illuminated, but in the absence of an electron beam, there is no photocurrent. As soon as the cathode 5 begins to be exposed to electrons flying from the filament 2, current due to the secondary electrons and photoelectrons appears in the anode circuit. The secondary electron current will be the same in magnitude for the entire surface; his presence plays a role in the constant component, easily removable compensation circuit 8.

By circumventing the entire surface of the cathode 5, the electron beam will cause a current in the anode circuit, the shape of which corresponds to the distribution of illumination.

decomposition element will be obvious

determined by focusing the electron beam.

The subject matter of the invention.

An image transmission device with application to decompose an image of a traveling electron beam, characterized in that a metal plate, such as aluminum, is used as the cathode on which the image to be transmitted is designed and which emits electrons in illuminated areas of the surface when an electron beam hits it.

in b;