DE1462646C - Color picture tube - Google Patents

Description

from Z. B. 30.9 mm while retaining the electron gun units to be eliminated, while the use of individual shields for the three elec-

The invention relates to a color picture tube 35 electron guns in this case an inner diameter

with three electron guns, from the neck part of the knife of about 39.7 mm. would require.

Picture tube are included and each a number of Preferably, the distance between the focus

Contain focusing grid electrodes, which are smaller than the distances between

lateral spacing are kept and an electrical of the electrically conductive plate shield and the

Form focusing lens, as well as one of the three 40 focusing grid electrodes.

Focusing lenses adjoining pole piece cage and The invention is based on the in the drawing

an electrically conductive plate shield, as illustrated in more detail

for example from U.S. Patent 3164737; in it shows

is known. F i g. 1 is a side view of a color picture tube;

The plate shield according to the USA patent 45 Fig. 2 a section (on an enlarged scale) Scripture 3 164 737 serves as a magnetic shield through the essential elements of the neck part of a and therefore consists of soft iron sheets, which are the usual electron guns, as they are in the color picture electron guns individually surrounded. tube according to FIG. 1 is used,

From the United States patent specification 2 083 203 is a · Fig. 3 to 6 sections through various AusF color picture tube with a cylindrical shield 50 guide forms of the essential elements of the known, the neck part formed from two semi-cylindrical parts according to the invention,
stands, soft partially two Wehnelt cylinders with the in F i g. 1 shown color picture tube contains filament coils for the purpose of light control and surrounds a glass jacket 1 with an end face 2. With which are kept at zero potential. This shielding reference number 3 denotes an anode button, so it is not used to shield electrons. conductive coating'4 provided. The one made of glass

On the other hand, it is from the USA patents standing neck part of the tube is with 5 and the base

2 267 038 and 2 003 775 are known, at Schwarz- is designated with 6.

White picture tubes to provide a shield, which I _{n in} the sectional view according to FIG. 2 denotes

the opposite end parts of the electronics 60 7 the inner wall surface of the neck part 5. With

electrodes of an electron optical lens overlapped, reference numerals 8 and 9 are a grid No. 4 and

denotes the same potential as one of the electrodes on a grid No. 3 of an electron gun;

and the electron-optical system opposite these grids form a 2-potential electron

shields the tube neck. A transfer of this focusing lens, through which one of a cathode and

Principle on color picture tubes would lead to the 65 grid electrodes No. 1 and No. 2 (not shown)

three electron guns of the color picture tube with each set) the generated electrode beam is focused,

to provide such a shield, from which the No. 4 grid 8 and the No. 3 grid 9 are on

however, a larger space requirement results, so that a glass rod 10 is attached and insulated from one another.

A pole piece cage 11 is connected to the No. 4 grid 8. The connecting part between 8 and 11 is denoted by 11 α. The pole piece cage 11 is held in contact with an inner, electrically conductive coating 12 by a spring (not shown) which is provided in the head part of the pole piece cage 11 and is furthermore connected to the one shown in FIG. 1 visible anode button 3 connected.

In known color picture tubes according to FIG. 2, the lower edge 12 of the inner, electrically conductive coating on the inner wall 7 of the neck part 5 generally extends only up to the vicinity of the connecting part 11a between the No. 4 grid 8 and the pole piece cage 11 however, the No. 4 grid 8 normally carries a high voltage on the order of 15,000 to 25,000V and the No. 3 grid 9 a voltage on the order of 2000 to 4000 V, lies between the No. 4 grid 8 and No. 3 grid 9 has a voltage in the order of magnitude of about 20,000 V. Discharges from No. 3 grid 9 and other primal things cause the inner wall 7 of the neck part 5, which corresponds to the space between No. 4- Grid 8 and the No. 3 grid 9 opposite, electrically charged. This electric charge, in turn, affects the electric field between the No. 4 grid 8 and the No. 3 grid 9, so that the electron path is changed and color differences occur. Furthermore, since the accumulation of electric charge changes with time, the difference in color also changes with the passage of time.

The color picture tube according to the invention avoids these disadvantages.

In the embodiment shown in FIG is denoted by the reference numeral 13, the inner wall of the neck part 5 of the picture tube. The number 4- and No. 3 grids are denoted by the reference numerals 14 and 15 respectively and form a 2-potential electron focusing lens, those of a cathode and No. 1 and No. 2 grid electrodes (not shown) focus generated electron beam. The No. 4 grid 14 and the No. 3 grid 15 are on one Glass rod 16 attached and isolated from each other. 17 designates a pole piece cage with the No. 4 grid 14 is connected. An inner, electrically conductive coating is designated by 18. The No. 4 grid 14 and the upper part of the No. 3 grid 15 are covered by an electrically conductive shield electrode 19 surrounded. The upper part 19 a of this shielding electrode is attached to the pole piece cage 17 so that together they essentially comprise all three electron guns as a group, and are based on the 4 grid potential held. The No. 4 grid 14 is with the inner, electrically conductive coating 18 connected by a spring (not shown) provided in the head part of the pole piece cage 17 is. The inner, electrically conductive coating 18 is in turn attached to an anode button (not shown) connected.

As can be seen from the above description, according to the invention, not only the No. 4 grid 14, but also the upper part of the No. 3 grid 15 is opposed electrostatically by the shield electrode 19 shielded from the tubular neck portion adjacent to the space between the # 4 and # 3 grids is. This shielding prevents the tubular shark part from being located on its inner surface electrically charges. Accordingly, the color deviations associated with such charge accumulation also become avoided as they occur in known color picture tubes.

The shield electrode can also be electrically connected to the No. 3 grid instead of the No. 4 grid as shown in FIG. 4 is illustrated, in which the same reference numerals are otherwise used as in FIG F i g. 3 find use. The shielding electrode is here with 22 and the bracket supporting it is with 23 designated. The latter also serves as the electrical connection to No. 3 grid 15. The connection is made, for example, by spot welding.

In the embodiment of the invention shown in FIG. 5, the inner wall is again of the neck part 5 of the picture tube containing three electron guns, denoted by the reference numeral 13. Each of the electron guns contains a cathode and a No. 1 and No. 2 grid (not shown), further a single potential type electron focusing lens, composed of the grids no. 3, 4 and 5 denoted by the reference numerals 15, 20 and 21 is. These grids 15, 20 and 21 are connected to a glass rod 16. The No. 3 grid 15 and No. 5 grid 21 are connected to each other so as to have the same potential. The No. 4 grid 20 is given a different potential than No. 3 and No. 5 grids 15 and 21.

A pole piece cage 17 is connected to the No. 5 grid 21. At 18 there is an inner, electrically conductive one Coating referred to, which extends up to the (not shown) anode push button of the picture tube, so that the pole piece cage 17 is connected to the anode via a spring (not shown).

In this embodiment, a cylindrical shield electrode 19 is made of electrically conductive material in the space between the focusing grid electrodes 15, 20 and 21 on the one hand and the neck part of the picture tube on the other hand provided so that the entire outer periphery of the No. 4 and No. 5 grid electrodes and at least the top edge of the No. 3 grid electrode opposite the edge of the No. 4 grid is sufficient is surrounded.

The shielding electrode 19 is effective in this way in the space between the grid electrodes 15, 20, 21 and the inner wall surface 13 of the neck portion 5 of the picture tube arranged so that they have an electrostatic Shielding between the grid electrodes and the tube neck part results, creating an electrical Charging of the inner surface 13 of the neck part 5 is avoided.

According to the invention, the shielding electrode should be electrically connected to one of the focusing grid electrodes being. In the case of the single-potential type electron focusing lens For example, the shielding electrode can be connected to the No. 4 grid instead of the pole piece cage so that it has the No. 3 and No. 4 grid electrodes and at least the bottom edge of the No. 5 grid electrode completely surrounds (as shown in Fig. 6). In FIG. 6, the same reference numerals are used as in FIG. 5 used. With 24 is a shielding electrode and with 25 a holder for the shielding electrode is on No. 4 grid 20 as well as for establishing an electrical connection between the two elements, which is done, for example, by spot welding.

According to the invention, the shielding electrode is so different

ordered that any space between the focusing grid electrodes, i.e. H. in the case of a 2-potential type electron focusing lens between the No. 3 and No. 4 grid electrodes, or in the case of one Single potential type electron focusing lens between the grid electrodes No. 3, No. 4 and No. 5 are smaller than the shortest distance between the focusing electrodes and the shield electrode is.

If instead of the one shown in FIGS. 3 to 6 with shield electrodes 19, 22 and 24 of the inner, electrically conductive film 12 extended to the part corresponding to the shield electrodes the arrangement would not be satisfactory. This is due to the fact that experience shows in the case of using graphite as the electrically conductive wall coating layer, flashovers occur be able. In the case of using a metal film and the like as such a coating layer, a spring member tends to be to hold the electrodes to the metal film when inserting the electrodes in the Peel off the neck part of the tube. Therefore, the use of such coating layers for the purpose of Arrangement of a shield in a manner similar to the invention is unsuitable.

1 sheet of drawings

Claims (2)

1 2 usual neck part inside diameter of current color image patent claims: tubes are no longer sufficient. The principle of individual shielding can be found as magnetic shielding 1. Color picture tube with three electron guns, mung in the aforementioned USA patent which are encompassed by the neck part of the picture tube 5 3 164 737. and each a number of focusing grid electrodes. The object of the invention is to provide one Contain to withstand the ge color picture tube of the type mentioned at a mutual distance are and form an electrical focusing lens that color distortions and temporal color formation, and one of the three focusing lenses changes as a result of electron charges adjoining pole piece cage and an electrically io reason of field emission on the tube inner wall conducting Plate shielding, thereby surface parts that the electron focusing lenses indicates that the electrically conductive face, while maintaining the performance Plate shield (e.g. 19) at least the and dimensions of the electron gun units the tubular neck part (z. B. 5) opposite can be prevented without the usual neck part part every space between the inside diameter of the color picture tube is enlarged opposite end parts of the focus must. surrounding grid electrodes (e.g. 14, 15) and this object is achieved according to the invention these end portions overlap, together essentially dissolving that the electrically conductive plate shield borrowed all three focusing grid electrodes of the three at least those opposite the tubular neck part. Surrounding electron guns as a group, of 20 covering part of each space between the the inner wall surface of the tubular neck part at the opposite end parts of the focusing is electrically isolated and the same potential surrounds grid electrodes and overlaps these end parts, like one (e.g. 14) of the focusing grid electrodes together essentially all three focusing grid or the pole piece cage (17). electrodes of the three electron guns as one 2. Tube according to claim 1, characterized in that it encompasses 25 group from the inner wall surface of the shows that the distance between the focus tube neck portion is electrically isolated and the same grid electrodes (e.g. 14,15) smaller than the potential as one of the focusing grid electrodes or Having distances between the electrically conductive plate of the pole piece cage. shielding (e.g. 19) and the focussing In this way it is possible to grid electrodes is. 30 cranks or shifts in a common Color picture tube with a neck part inside diameter