DE2302177B2 - - Google Patents

Description

The invention relates to a color display tube according to the preamble of claim 1. SS

In recent years, there have been various types of color display tubes for color television receivers has been developed. In one of these constructions, the color display tube is provided with a color selection component or with a color selection electrode (in the following always color selection component) is provided which has a Has a plurality of strip-shaped perforations. As in a color display tube of this type an adjustment of the electron beam or the electron beam gun in one direction, usually in the direction of vertical deflection, is not required images of higher color purity can be produced with a simpler electronic circuit, than is the case with known color display tubes with shadow masks. Because a large number of strip-shaped perforations must be provided in the color selection component of this type of tube, their Perforations extend essentially over the entire vertical or horizontal width of the component, the color selection component tends to vibrate due to mechanical shocks or noise, the latter being caused by the loudspeaker built into the color television receiver could be a

One path taken to solve these problems is, transversely to the strip-shaped perforations thin metal wires, z. B. steel wires to tension, the wires being held at a distance from one another in the longitudinal direction of the perforations are. But since it is necessary in this case, the To attach steel wires to the color selection component e.g. by spot welding, the the steel wires subdivided strip-shaped perforations deformed, so this method does not occur a spherically shaped color selection component is applicable to other color display tubes such as them z. B. from DT-OS 20 12 046. US-PS 31 86 884 and U.S. Patent Application 1 26 360 are known transversely to the perforations extending in the direction of the vertical deflection bridges are formed so as to to manufacture the color selection component. Of course, dcranige bridges can also be used for color selection components be provided whose strip-shaped perforations extend in the direction of the horizontal deflection, as known e.g. from DT-AS 10 25 003 and US-PS 28 63 079. As from the said Printed publications can also be found, the bridges of adjacent strip-shaped perforations lie on the straight line perpendicular to the direction of position of the perforations or offset from one another be arranged.

When photosensitive material applied to the inner surface of the front panel of a color display tube Material exposed using light passing through a color selection component of this type is to build up strip-shaped phosphor areas, the parts of the photosensitive Material corresponding to the bridges is not sufficiently exposed, so that an uneven Exposure occurs, which affects the quality of the image to be reproduced. In addition, the An electron beam emerging from an electron gun is reflected through the side walls of the bridges, so that it comes to halation (Haüation)

The invention is therefore based on the object to provide a color display tube in which a Adjustment of the image in the vertical or horizontal direction is not necessary. while but at the same time stable images with high color purity can be obtained.

Furthermore, the color display tube should be strip-shaped on the inner wall of the front shell Phosphor areas are provided which are continuous between the opposite ends, and at the the halation caused by the electron beam is kept to a minimum.

At the same time, the color selection component should have sufficient mechanical strength. This task is achieved according to the invention with the features in the characterizing part of claim 1

Examples of the invention will now be based on the figure

be described in more detail. It shows

F i g. 1 is an enlarged plan view of part of a first embodiment of a color selection component;

2 shows an enlarged plan view of a second Embodiment of the color selection ba? !part,

3 shows a longitudinal section through the color selection component according to FIG. 1 along the line IH-III,

F i g. 4 shows a cross section through the in FIG. 1 shown Color selection component along a line IV-IV and

Fig.5 one of the Schnkt shown in Fig.3 An appropriate section through a further embodiment of the color selection component.

With reference to Figs. 1, 3 and 4, the color selection member 1 will now be described. It has a series of spaced parallel rows of strip-shaped perforations. The individual perforation 2 is divided into a plurality of slit-shaped sections 2a by several transverse bridges 3 The bridges 3 in each strip-shaped perforation 2 are spaced apart in the longitudinal direction of the perforation of the color selection component 1. so that the opening 2b of each slit-shaped section 2a facing the electron gun is smaller than the opening 2c on the side facing the luminescent screen. In other words, adjacent openings 2c merge into one another to form a single opening. The height of each bridge can be equal to, smaller or larger than half the thickness of the color selection component I. The bridges can be produced by etching in such a way that the parts of the bridges 3 facing the luminescent screen are completely removed, while they are not etched on the side facing the electron beam gun.

If the photosensitive material applied to the inner surface of the front plate is exposed to light that passes through the strip-shaped perforations 2, the areas of the photosensitive material corresponding to the bridges are also sufficiently exposed, since the exposure light represented by the rays 4 also obliquely through the corresponding sections 2a of the strip-shaped perforation 2 can pass, as shown in FIG. 3 is shown. This advantage is made possible by the reduced height and the tapering construction of the bridges. The height of the bridges is determined by taking into account the mechanical strength of the color selection component on the one hand and the extent to which halation is avoided on the other.

For example, a steel sheet with a thickness of 0.15 mm from that facing the phosphor screen Etched side to side with strip-shaped perforations a pitch of 0.6 mm in which the bridges were spaced 1 mm apart. The width of the slit-shaped sections 2a of the strip-shaped perforations was 0.14 mm and up on the side facing the electron gun the sight facing the luminescent screen 03 mm. the The width of the bridges was 0.05 mm on the side facing the electron beam gun. The high of Bridges was 0.06 mm. Although in the case of the above with reference to FIG. 1,3 and 4 described embodiment the bridges of the individual strip-shaped Perforations 2 are aligned with one another in the horizontal direction, this alignment is missing in the horizontal direction Direction in the case of the FIG. 2, where the bridges are rather against one another offset Such an arrangement of the bridges increases the mechanical strength of the color selection component in comparison to the strength that is used in the case of the FIG. 1 shown embodiment can be achieved

As with the one in FIG. 5 shown embodiment, the bridges can be easily over protrude the surface of the color selection member facing the electron gun

Although in the embodiments described so far, the strip-shaped perforations are in are shown extending in the vertical direction, 'it should be clear that the perforations are also in In the direction of the horizontal deflection

35 nen.

As already described above, it is not only possible with the color selection component according to the invention, to produce steady and uniform fluorescent strips on the inner surface of a color picture tube, but rather rather, the halation caused by the electron beam can also be avoided, which is reflected by the side walls of the bridges. In addition, resilience can of the color selection member are increased in mechanical shock or vibration, so that the color picture tube can stably reproduce images of high color purity.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: ₊ 1.Color display tube with a color selection component which is provided with a plurality of strip-shaped perforations extending parallel to one another S, each strip-shaped perforation being divided by bridges into a plurality of slit-shaped sections, with a luminescent screen which includes a plurality of strip-shaped phosphor areas, and with an electron gun, characterized in that the height of the bridges (3) measured in a direction perpendicular to the surface of the color selection component is smaller than the thickness of the remaining areas of the color selection component (1), so that adjacent slit-shaped sections (2a) on the one facing the electron gun Side of the component are separated from each other by the bridges, while they merge into one another on the side facing the luminescent screen. 2. Color display tube according to claim 1, characterized in that the strip-shaped Perforations (2) extend in a manner known per se in the direction of the vertical deflection. 3. Color display tube according to claim 1, characterized in that the strip-shaped Perforations (2) extend in a manner known per se in the direction of the horizontal deflection. 4. color display tube according to claim 1, characterized in that the cross-sectional area of each bridge (3) continuously from the side facing the electron gun to the side facing the fluorescent screen facing side decreases 5. Color display tube according to claim 1, characterized in that the bridges (3) are adjacent strip-shaped perforations (2) in a manner known per se on the to the orientation of the Perforations lie perpendicular straight lines. 6. color picture display tube according to claim l characterized in that the bridges (3) of adjacent strip-shaped perforations in per se known Way are arranged offset from one another. 7. color display tube according to claim 1, characterized in that the bridges (3) slightly above the surface of the color selection component (1) on the side facing the electron gun is facing. 50