DE2021051B2 - Process for the production of a fluorescent screen of a color picture tube comprising a plurality of discrete fluorescent elements - Google Patents

Description

The present invention relates to a method of making one of a plurality of discrete fluorescent elements existing fluorescent screen of a color picture tube, in which the individual Phosphor elements by electron irradiation of a contiguous electron-sensitive Layer through a mask provided with corresponding openings, which is located a short distance in front of the Luminescent screen is arranged to be applied photochemically or electrochemically therethrough, wherein an electric field is generated between the mask and the electron-sensitive layer, which the Cross-section of the electron bundle passing through the openings of the mask before striking the electron-sensitive one Layer reduced, so that the phosphor elements produced in their active area are smaller than the cross-sections of the openings in the mask.

The main patent is based on the task of a simplified method for the production of luminous screens indicate where the fluorescent dots are in

'5 their size are smaller than the cross-sections of the Holes in the mask through which radiation is carried out. According to the main patent between the mask and the electron-sensitive layer applied electric field leads in connection with the curved shape of the screen and mask to the fact that compared to the later case of operation of the tube in the Edge zones a shift of the generated luminous phosphorus towards the center of the luminescent screen occurs. This shift is caused by the fact that the electric field mentioned the orbits of the Electron bends accordingly.

As with the usual color picture tubes, an electrical field between the mask and the luminescent screen during operation is not available (only in the case of the so-called post-focus tubes, such a Field generated), the electrons will describe different paths during operation than during production. this leads to color distortions.

The present invention is therefore the object

-15 is the basis for specifying procedures in which the postponement, when producing the phosphor elements with the help of an electron beam through the between electric field applied to the electron-sensitive layer and the mask due to the curvature of The screen and mask are created and corrected.

This object is achieved in that the mask during the application of the phosphor elements serving electron irradiation opposite their position in the finished tube in the direction of the Irradiation source is held displaced or that the deflection plane during the application of the Electron radiation serving for fluorescent elements is displaced in the direction of the luminescent screen.

By shifting the mask or as described

so the deflection plane of the deflection means during manufacture of the luminescent screen, the undesired bending of the electron beam through the between the mask and fluorescent screen largely compensate for the electric field applied for the purpose of reducing the size of the spots, so that then during the later operation of the tube without that applied between the mask and the luminescent screen electric field color distortions due to incorrectly striking electron beams largely avoided will.

In the following, advantageous exemplary embodiments for the compensation according to the invention are shown below Described in more detail with reference to the figure.

As already mentioned in the introduction, the geometrical shape of the mask and the fluorescent screen are related with the electric field applied according to the main patent to the harmful displacement. the The figure shows this shift, whereby it is initially assumed that the mask i is in the position

is located as it is later in operation. The luminescent screen 2 is positioned in front of the mask 1; through a An electron beam 4 falls through the hole 3 of the mask 1 and, as indicated, passes through it as it passes through > The mask under the influence of the electric field between the mask 3 and the luminescent screen 2 towards the center of the luminescent screen is bent.

A layer 11 of the mask is now shown in dashed lines 1, in which, as can be seen from the electron path 41, which is also calculated as a dashed line lets, the described shift of the Ltuchtphosphorpunktes on the luminescent screen 2 no longer in Appearance occurs.

The described displacement of the mask 1 in the direction of the electron source can be particularly advantageously cause when it is a mask with temperature compensation. Such Masks are suspended from bimetallic elements which, when heated, expand and thus the Position of the mask depending on the temperature changes. This compensation is necessary because the masks have a considerable effect during operation Experience heating by the fact that a significant proportion of the emitted electrons are not caused by the Holes of the mask passes through to the fluorescent screen, but is caught by the mask and there leads to heating of the same. This heating leads to expansion of the mask and Tensions, which are compensated by the fact that the mask closer jo through the bimetallic elements mentioned is moved towards the luminescent screen.

Correspondingly, because the bimetallic elements are strongly cooled, a displacement can now be achieved the mask in the opposite direction, i.e. in the direction of the electron beam source.

A shift of the mask in the direction of the electron beam source corresponds, as can be seen lets shift the plane of deflection forwards, that is, towards the fluorescent screen. Such a shift in the The easiest way to deflect the plane is to move the deflection coil or coils in In the direction of the luminescent screen.

According to the above exemplary embodiments, the compensation is achieved by changing the causes geometric relationships. If necessary, it can also be activated by an external magnetic field achieve that covers at least the edge zones of the luminescent screen and the mask and in these areas the electron beam paths are deformed in such a way that the above-mentioned bending is almost eliminated will.

The examples described apply the invention in such a way that in the production of the luminescent screen Conditions are brought about which correspond to the later conditions in the operational case. Conversely, however, the operating case can also be adapted to the conditions in the manufacture, e.g. B. by that correction electrodes are attached to the finished tube, with the help of which an electrostatic 1-eld is generated that the field ratios in the Manufacturing imitates.

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Claims (4)

Patent claims: 1. A method of making one consisting of a plurality of discrete phosphor elements Fluorescent screen of a color picture tube in which the individual fluorescent elements are irradiated with electrons a coherent electron-sensitive layer by a corresponding Openings provided mask applied photochemically or electrochemically therethrough are, which is arranged at a small distance in front of the luminescent screen, with between the Mask and the electron-sensitive layer an electric field is generated, which the cross-section the electron bundle passing through the openings of the mask before striking the electron-sensitive one Layer is reduced, so that the phosphor elements produced in their active surface area are smaller than the cross-sections of the openings in the mask, according to patent 19 52 082, characterized in that the mask is used during the application of the phosphor elements serving electron irradiation opposite their position in the finished tube in the direction of the Irradiation source is held displaced. 2. The method according to claim 1, characterized in that when using masks that Have means for a mechanical displacement for the purpose of temperature compensation, the shift is generated in that at least this means is a correspondingly low one Temperature. 3. A method of making one composed of a plurality of discrete phosphor elements Fluorescent screen of a color picture tube in which the individual fluorescent elements are irradiated with electrons a coherent electron-sensitive layer by a corresponding Openings provided mask applied photochemically or electrochemically through are, which is arranged at a small distance in front of the luminescent screen, with between the Mask and the electron-sensitive layer an electric field is generated, which the cross-section the electron bundle passing through the openings of the mask before striking the electron-sensitive one Layer reduced, so that the phosphor elements produced in their active area are smaller than the cross-sections of the openings in the mask, according to patent 19 52 082, characterized in that the deflection plane during the application of the phosphor elements serving electron irradiation is shifted in the direction of the luminescent screen. 4. The method according to claim 3, characterized by a displacement of the deflection coil (s) in Direction towards the fluorescent screen.