SU1064346A1 - Two gun projection tube - Google Patents

Description

The invention relates to television technology and can be used in television converters with a traveling beam. The projection kinescope is known, the socionations of the electron-static system from one spotlight placed in that (“e glass bulb and forming an image on a fluorescent screen of the kinescope with the help of an opaque electromagnetic focusing system and electron beam deflection) that it is impossible to form on the screen two geometrically identical half-lines that are at a certain distance from each other. This disadvantage is due to the fact that half-lines on the screen of the kinescope With an electronic spotlight by nearly doubling the beam deflection angle by mixing a P-about (a) articulation into the frame deflection circuit. The closest to the proposed is a projection kinescope containing a glass flask with a phosphor screen, two electronic chargers. and systole fszhusirovka and deflection of electron beams 2J. The disadvantages of the known kinescope are the geomete () distortion of the generated images and the geometric nonidentity of the two rasters created on the screen. These disadvantages are due to the fact that the deflection of the electron beam is produced by two deflecting systems. The purpose of the invention is to improve the quality of the image of a two-way kinescope on-screen receiver (years {identical annually identical half-stars, as well as reduction of geometric distortions. This goal is achieved by the fact that in a projection kinescope with two projectors, a glass flask with a luminoform) screen, two electronic spotlights, a focusing system and deflection of electron beams, the spotlights are equipped with a dynamic and static centering of the beams and set at an angle to the axis of the bulb in a vertical flat STI, where A is the distance from the center of the electron beam deflection to the screen plane; H is the half-height, and the focusing and deflection system is made electromagnetic and as a single node for both electronic projectors. It has a rectangular shape with a radius of curvature in the direction perpendicular to the direction of the lines of the raster and equidistant from the center of the deflection of the electron beams to the screen plane. FIG. 1 schematically shows the proposed kinescope; in fig. 2 location of electronic spotlights; in fig. 3 - comparison of focusing uneven kinescopes. A projection kinescope will support two identical electronic projectors 1 and 2 with elements 3 of static and dynamic alignment of electron beams, an ultrasound screen 4 applied from the inner surface of a glass bulb 5, and an electromagnetic system for focusing and deflecting electron beams located on the neck of bulb 5. Projection kinescope works as follows. The sweep of both beams of the projection kinescope is carried out by a common electromagnetic deflecting system of current-frequency fields and rows of current-toothed sawtooth. When etsm, the first electronic searchlight 1 is unlocked during the working stroke-frame scan of the odd decomposition floor, and the second searchlight 2 is unlocked during operation. the cadre of the frame scan of an even half decomposition. The required displacement of the rasters, which are formed by the first and second searchlights, is provided by the arrangement of the electronic searchlights relative to the longitudinal axis of the projection kinescope and the corresponding centering of the electron beams. Using a projection tube ensures the raster identity of even and odd fields due to that deviation. both beams are produced with a single deflection system. In an oscilloscopic two-beam kinescope, the beam deflection is performed with the PS of the two separate deflecting systems, and the deviation of both beams cannot be identical due to the technological variation of the deflector parameters. In addition, the above knnesx can be implemented based on the use of electrostatic deflection systems, which are not suitable for design kinescopes, where a good focusing of the beam is required for a beam current of up to 200 µA and an accelerating voltage of up to 25 kV. Consider the nature of non-uniformity of focusing across the field for the known and proposed picture tubes in adjacent fields.

Claims (2)

1. A PROJECTIVE KINESCOPE WITH TWO PROJECTORS / containing a glass flask with a luminoform screen, two electronic projectors, a system for focusing and deflecting electron, rays, and so on, in order to improve image quality, by receiving on the screen of the projection kinescope two geometrically identical floors in the rasters and reducing geometric distortions, the spotlights are equipped with a system of dynamic and static alignment of the rays and are installed at an angle οί to the axis of the bulb in the vertical plane, select from the corresponding oi = arcty y ^ < where A is the distance from the center of deviation of the electron beams to the plane of the screen; . • Н - the height of half-rasters, and the Focus and deviation system is electromagnetic and in the form of a single-node for Both electronic searchlights. . 2. Kinescope in π. 1, I want to know that the screen of the projection picture tube has a right angle ι shape with a radius of curvature 'in the direction perpendicular to the direction of the lines of the raster, equal to the distance from the center of deviation of the electron beams to the plane of the screen. SU ,,,. 1064346 V t