DE2555765C2 - Picture display tube - Google Patents

Description

The Ε, -finding relates to a picture display tube with the in the preamble of claim 1 listed features.

Such a picture display tube is known from DT-OS 22 57 '-97, in which the resilient contacts Connection between one of the electrodes of the electron gun and form the electrically conductive layer.

This layer again forms the connection with the screen, which is known to serve as a second anode. the The conductive layer also serves to create a field-free space in an area of the tube in which the Electron beams are not deflected. In the case of color display tubes of the shadow mask type, the ■ Shadow mask connected to the conductive layer via resilient contacts.

It turned out that at the points where the resilient contacts press against the conductive layer, namely at the contact points, electrical flashovers occur in the form of sparks. Through these rollover If the conductive layer around the contact point has splintered after a number of operating hours, whereby the distance over which the flashovers take place increases. This phenomenon can even become visible on the screen. In addition, such flashovers can affect the associated electronic Damage circuits.

The object of the invention is to avoid such flashovers, a good contact ^ to ensure good adhesion of the conductive Keep layer on the flask.

To solve this problem, in a picture display tube of the type mentioned at the outset xler invention measures taken in the characteristic Part of claim 1 are specified in detail.

In a further embodiment of the invention, measures can be taken, as indicated in the characteristic of the Subclaims described in more detail.

Sparks must occur when the contact spring protrudes through a conductive layer Tip of the glass rests on it. Contact is then only maintained by rollover. The roughness of the Glass, which is the cause of the peaks, on the other hand, favors good adhesion of the conductive layer the piston. The construction according to the invention not only ensures good adhesion of the layer, but also a good contact will be maintained so that no more flashovers occur.

The surface roughness of the glass must be below the

ίο conductive layer at the pressure point of the contact spring be at least 25% smaller than the layer thickness of the conductive layer.

The conductive layer preferably has a thickness between 8 and 12 μm. The glass surface preferably has a surface roughness of about 20 μm and less than 3 μm at the point of contact. Surface roughness is to be understood here as the mean value of the absolute values of the deviations from a 100% smooth surface, which indicates the mean level of the surface, measured with a stylus with a radius of curvature R of 3 μm.

The invention will now be explained in more detail, for example with reference to the drawing. It shows

F i g. 1 a picture display tube,
F i g. 2 bad contact,
F i g. 3 the result of a glass roughness measurement,
F i g. 4 shows a contact according to the invention and
F i g. 5 a color display tube.

In Fig. 1 a picture display tube is shown. In the evacuated flask 1 there is a screen 3 and at least one electron gun 4 on the inside of the front glass 2. The last electrode 5 of the mentioned system 4 is placed at a high potential to generate the electron beam to accelerate. This high potential is also applied to a conductive layer 7 via contact springs 6 extending from the electrode 5, which layer is located on a wall part between the screen 3 and the aforementioned system 4.

The part of the piston 1 coated with the conductive layer 7 is relatively rough (see also FIG. 3). Tips of the glass protrude through the conductive layer 7, as in FIG. This is shown in particular

.45 the case when the conductive layer passes through a Injection molding process was applied. If a metal contact spring 6, as shown in FIG. 2 shown on A tip 8 rests on a transport of charge carriers from the conductive layer 7 to the

Contact spring 6 by rollover. As a result, the conductive layer 7 in the vicinity of the tip 8 is chipped off and the path to be traveled by the sparks becomes even longer and the layer damage becomes even bigger.

F i g. 3 shows the result of a glass roughness measurement, the relative horizontal movement d and the vertical movement h of a stylus whose radius of curvature was 3 μm are shown.
If the conductive layer 7 has a thickness of 8 to 12 μm, tips of the glass protrude through the conductive layer.

If, as can be seen from FIG. 4, at the point of contact between the contact spring 6 and the conductive layer 7, the glass surface of the bulb i is made smooth, a good conductive contact is obtained and there are no more sparks.

The invention is, as shown in FIG. 5, can be used particularly well in color picture tubes. In these is namely the

Contact between contact springs IO on a support frame 12 for the color selection electrode 9 (also as Designated shadow mask) as well as for a shielding cap 11 and the conductive layer 7 is particularly important.

The invention can therefore always be used with success in those cases in which a good high-voltage contact over conical springs with a conductive layer is required.

For this purpose 3 sheets of drawings

, ν, V

Claims (2)

Patent claims: 1. Picture tube with at least one Electron gun in the neck of the piston, a screen on the inside of the Front glass, an electrically conductive layer on the between the electron gun and the screen lying wall part of the piston and one with this layer over a Contact spring, which presses against the layer, connected electrode, characterized in that that the glass surface under the conductive layer (7) at the pressure point of the contact spring (6) has a surface roughness that is at least 25% smaller than that of less than 12 μm the thickness of the conductive layer (7). 2. display tube according to claim 1, characterized in that the surface roughness' the Glass surface under the conductive layer (7) at the pressure point of the contact spring (6) less than 3 μπι is and the thickness of the conductive layer (7) is between about 8 and 12 μπι.