CZ550188A3 - Cathode-ray tube with recesses in the third grid of in-line electron gun - Google Patents

Abstract

A screen (10) comprising a screen (15) and an electron screen the IN LINE nozzle (19) to form three electron beams (17) impinging on the screen (15), wherein the electron the nozzle (19) comprises a set of cathodes (20), a first grid (22), a second grid (24), a third grid (30), and a combination of grids (32, 34) for forming electrostatic lenses, subsequently arranged and centered with the cathodes (20). Grids they are provided with three holes disposed in the plane of the passage electron beams (17). The essence is that the third grid (30) has recesses on the surface (52) facing the second grid (24) (54) bounded by the rim (56) in which they are located openings (50) for outer electron beams, thereby achieving affecting the electrostatic field (62) around the outermost tracks electron beams and compensation for convergence changes electron beams when changing the focusing voltage.

Description

The invention relates to a screen with depressions in a third grid of an IN LINE electron gun having a suppressed change in the convergence of electron beams on the screen during focusing. The IN LINE electron gun is designed to form three electron beams in a common plane and converge these electron beams to a small common track on the screen.

One known embodiment of an IN LINE electron gun consists of three cathodes and a set of electrodes referred to as the first to sixth grating with numbering ascending from the cathodes. The main focusing electrostatic lens for focusing the electron beams is formed between the fifth and sixth grids. days to each other · Each bottom is provided with three holes that allow the passage of three electron beams forming three separate main electrostatic lenses · Static convergence of the outer electron beams to the central electron beam is usually achieved by shifting the outer holes in the sixth grid against the outer holes in the fifth grid in direction of common axis of holes · It is known that the impact point of the outer electron beams in screens equipped with the above-described electron gun changes with focusing voltage changes and is desirable compensate or at least reduce sensitivity to convergence when focusing ·

In order to reduce the sensitivity of convergence to a change in focusing voltage, a third grid design is known, wherein at the outer openings on the outer sides there are auxiliary holes causing deformation of the electrostatic field between the second and third grids, thereby compensating for convergence changes. Said treatment satisfactorily addresses the reduction of the convergence sensitivity of the outer electron beams when the focusing voltage changes, but a simpler and cheaper to manufacture design is desirable. Another known solution for reducing the sensitivity of convergence to a change in focusing voltage is the construction of a second grid having a recessed portion Uf in the functional region below which the system is

- 2 apertures and this recessed part is surrounded by a peripheral rim located near the outer apertures · This design of the second grid also satisfactorily addresses the sensitivity of convergence to change of focusing voltage, but is less suitable for more composite second grids ·

The above-mentioned drawbacks are eliminated by a screen with depressions in the third grid of an IN LINE electron gun comprising a screen and an IN LINE electron gun to form three electron beams impinging on the screen, the electron gun comprising an electron beam generating cathode array comprising a first grid and a second grid , a third grid and secondly arranged electrostatic lens grids for focusing and converging electron beams, wherein the third grid is provided on a surface facing the second grid with three apertures disposed in the plane of electron beam passage. to the second grid of depressions bounded by flanges in which the outer openings are located near the flanges ·

The advantage of the embodiment according to the invention is in addition to the achieved compensation of changes in electron beam convergence when the focusing voltage changes, also additional astigmatic distortions at the outer electron beams, which partially corrects the distortion of the track due to the magnetic field of the deflection coil and

Fig. 1 is a partial axial section of the screen; Fig. 2 is a schematic axial section of an improved IN LINE electron gun; Fig. 3 is a front elevation and plan view of a third grating according to the invention; Fig. 2 shows the deflected electron beam in a horizontal plane, and Fig. 5 is a front view and a plan view of a third grid of a second exemplary embodiment.

An embodiment of the invention is shown in Fig. 1, where a rectangular color display 10 having a glass bulb 11 forming a front panel 12 cone 13 and a cylindrical neck 14 is provided. A screen 15 is applied to the inner surface of the front panel 12. releasably fastened in a predetermined position relative to the screen 15. The screen 15 typically has a strip or dot structure formed by the luminophores of the respective colors. The improved IN LINE electron gun 19, shown schematically in dashed lines, is located at the center of the throat 14, forming three electron beams 17 that converge through the apertures of the shield mask.

1.6 on the respective screen elements 15, the schematically depicted deflection coils 18 ' surrounding the part played 14 and the cone 11, upon activation, deflect three electron beams 17 with their horizontal and vertical magnetic fields, causing the electron beams to raster horizontally and vertically in rectangular shape screen on the screen 15.

Fig. 2 is a schematic axial section of an improved electron gun having two insulating support rods 21 'on which electrodes are mounted. The electrodes comprise three spaced cathodes 20, a first grid 22, a second grid 24 conductively connected by a strip 26 to a fourth grid 28. The third grid 30 is conductively connected by a strip 46 to a fifth grid 32. The sixth grid is terminated by a shielding roller 36. holes in a row, centered with cathodes to allow the passage of three electron beams.

The main focusing lens is formed by an electrostatic field between the fifth grid 32 and the sixth grid 34. The outer holes 38 in the sixth grid 34 have a greater pitch than the outer holes 40 in the fifth grid 32. thereby forming the electrostatic field for the outer electron beams 17 such that the beams 17 are converged on the screen 15 into a small area for a given potential ratio on the fifth grid 32 and the sixth grid

FIG. 3 shows a third grid 30 according to the invention. It has three openings 30 which are centered. and openings 42 on the opposite portion · On the fetus 52 facing the second grid 24 there are depressions 54 · bounded by flanges 56> In the depressions 54 near the flange 56, extreme openings 50 are located.

4, electrostatic equipotential lines 62 between the third grid 30 and the second grid 24 are shown. The recesses 54 with flanges 56 on the surface 52 of the third grid 30 shape the electrostatic equipotential lines 62 around the outer openings 50 of the third grid 30 so that the outer ducts 17 When the focus changes, i.e. the potential change on the fifth grid 32 ' which is conductively connected to the third grid JO, there is a change in the deflection of the outer electron beams 17 in the region between the second grille 24 and the third lattice JO of the beams 22 in the region of the main focusing lens, between the fifth grid 32 and the sixth grid 34, thereby compensating for the change in the convergence of the outer electron beams 17 on the screen 15.

A further embodiment of the third grid according to the invention is shown in Fig. 5, wherein the depressions 54 are delimited by a rim 56 having the shape of a part of a circle, parabola or triangular with a rounded apex.

The use of IN LINE third tube electron grating screens is in television receivers and monitors, where dynamic focusing of the electron beams during deflection across the screen area can be advantageously used to provide greater resolution of the displayed information · t? C '

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OBJECT OF THE INVENTION

Claims (1)

A O Ύ O N- N- (((((C C A screen with depressions in a third IN LINE electron gun grid comprising a screen and an IN LINE electron gun for forming three electron beams impinging on the screen, the electron gun comprising an electron beam generating cathode array comprising a first grid, a second grid, a third grid and subsequently arranged electrostatic lens gratings for focusing and converging electron beams, wherein the third grid is provided on a surface facing the second grid with three apertures distributed in the plane of electron beam passage, characterized in that the third grid (30) faces the surface (52) facing the a second grid (24) of depressions (54), bounded by flanges (56), in which the outer openings (50) are located near the flanges (56).