KR200162820Y1 - Cathode ray tube - Google Patents

Abstract

The present invention discloses an improved final electrode of an inline color electron gun.

In the case of attaching a quadrupole to the conversion cup, the final electrode is composed of a rim electrode, but has no control effect.

In the present invention, the extra 4-pole is omitted by extending the 4-pole portion from the rim of the rim electrode so that the rim electrode itself forms a 4-pole.

Description

Final electrode of in-line color electron gun

1 is a plan view of a fluorescent surface showing a beam spot shape of an inline type electron gun,

2 is a front view of an electrode for correcting a beam spot shape,

3 is a cross-sectional view showing a conventional electron gun having a quadrupole in the convergence cup,

Figure 4 is an exploded perspective view showing the configuration of the final electrode according to the present invention,

5 is a cross-sectional view of the coupled state.

* Explanation of symbols used in the main part of the drawing

C: convergence cup 10: rim electrode

11: rim 1: quadrupole

[Detailed Description of Design]

The present invention relates to the electrode constituting the electron gun of the CRT, and more particularly to the final electrode of the in-line type color electron gun.

The CRT is a device for selectively emitting a fluorescent surface by deflecting an electron beam emitted from an electron gun. Since the fluorescent surface does not form a perfect sphere from the electron beam emission center, the beam spot outside the fluorescent surface becomes larger than the center side.

However, since the inline type electron guns are arranged side by side with three guns R, G, and B, the distance of the fluorescent surface from the outer gun, that is, the R and B guns, varies greatly from the left and right sides of the fluorescent surface. Deflection causes mis-convergence in the fluorescent image projection of the outer gun, which becomes a crushed trapezoid.

Accordingly, a self-convergence yoke (SCY) type of deflection yoke that provides a non-uniform magnetic field is used. This SCY provides a pin-cushion type horizontal magnetic field and barrel type vertical magnetic field to project the image of the outer gun. Will be corrected to square.

However, when looking at the beam spot B on the fluorescent surface S, as shown in FIG. 1, a halo (H) is formed to be diffused in a diagonal direction around a core C, which is flat from side to side, as shown in FIG. Appears in a distorted form with

Here, the flat core (C) is mainly due to the SCY over-focusing the outer beam in the vertical direction than the central beam, halo (H) is a boiling point (non-point that the electron beam is distorted by the non-uniform magnetic field of SCY) Iv) a combination of aberrations, spherical aberrations in which the fluorescent surface is aspherical, and spherical aberrations in which the magnification of the electron lens is too large for the aperture or the intensity of the external lens is weakened by end effects, etc. Is caused by.

As a method of correcting the distortion of the beam spot B, a method of correcting the correction magnet in the deflection yoke of the SCY method, a method of changing the size and shape of the electron beam through hole of the outer gun, and landing of the fluorescent surface Dynamic focusing method that adjusts the focal length according to the position, electrostatic lens formed between electrodes such as quadrupole or quadrupole lens, and gives a negative astigmatism to the electron beam in advance to close the electron beam. Various methods are used, such as a long form correction method.

FIG. 2 is a configuration in which the electron beam passing holes A2 on the outside of the electron beam passing holes A1 and A2 of the electrode G are extended in the horizontal direction as an example of the beam spot correction method. If the electrode G is the low pressure side electrode, the electron beam passing through the outer electron beam passage hole A2 extends up and down to correct the shape of the electron beam in a vertical shape.

At this time, if a high-side electrode having an elongated electron beam through hole in the center or an elongated electron beam through hole is arranged adjacent to the electrode G, a quadrupole lens is formed between the electron beam through holes of both electrodes to form an electron beam. This gives a larger negative astigmatism.

By the way, a plurality of electrodes of the electron gun are arranged and coupled coaxially, the assembly rod (A: dashed line) is inserted into the electron beam through holes (A1, A2) to be matched (aling) and temporarily supported. However, there is a problem that the assembling degree of the electron gun is greatly deteriorated such that the assembly rod R may not be in close contact with the horizontal or vertical electron beam passing hole A2, such that tilt or rotation occurs.

If only one such quadrupole lens is placed on the main lens forming electrode, the size thereof is excessive and there is a problem of other distortion or aberration in the electron beam. Preferably, the weak quadrupole lens is formed in multiple stages ( It is preferable to arrange.

To this end, in recent multi-stage focusing electron guns, some configurations have been adopted to form quadrupole lenses on the final electrode, and one of the electrodes forming a convergence cup is used to avoid an increase in the number of electrodes.

The cup-shaped convergence cup (C) shown in FIG. 3 (a) (b) shields the magnetic field effect from deflection yoke that is subsequently named under the name "shield cup" and thus the path of the electron beam. It supports the electron gun assembly to the neck by the bulb spacer (S) attached to the outer periphery, and also applies the high pressure from the anode button to the electron gun assembly. Perform.

On the rear surface of the convergence cup C, a quadrupole Q having an approximately "c" shaped cross section for the formation of the quadrupole lens is attached. On the other hand, a similar "c" shaped part is also attached to the inner surface of the convergence cup (C), which is a dasher to avoid confusion because it is an enhancer (E) that has a different role from the quadrupole (Q).

However, since the convergence cup C is supported by being bonded to the final electrode, when the 4-pole Q is attached, the final electrode cannot use a general cylindrical electrode, and as a result, the rim electrode 10 is shown. It must be composed of.

The rim electrode 10 has a convergence cup C such that the rim 11 faces the convergence cup C (FIG. 3A) or the flange 12 side (FIG. 3B). Is bonded with.

However, the rim electrode 10 exhibits a control effect necessary for forming a main lens mainly, such as a large-diameter effect, and adopting the rim electrode 10 in the final electrode is special in addition to accommodating the quadrupole Q projecting from the convergence cup C. It is difficult to exert control effect.

In view of such a conventional problem, an object of the present invention is to provide a final electrode that can be attached to a convergence cup to form a quadrupole lens without a separate quadrupole electron.

The electrode of the present invention to achieve the above object is characterized in that to form a quadrupole portion respectively extending to the opposite side of the convergence cup on the upper and lower portions of the rim to which the convergence cup is attached.

According to this configuration, since the final electrode itself plays a role of quadrupole without a separate quadrupole, the configuration of the electron gun is simplified.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 and 5, the upper and lower portions of the rim 11 of the rim electrode 10, which constitutes the final electrode and the convergence cup C is bonded to the rim 11 side, according to the characteristics of the present invention. Two quadrupole portions (1) are formed in the opposite directions.

When the convergence cup C is attached to the rim electrode 10 of the present invention, the quadrupole portion 1 extends above and below the electron beam through hole A of the bottom of the convergence cup C to serve as a quadrupole. do.

The present invention reduces the manufacturing and assembly cost of the quadrupole (Q) by forming a quadrupole by the rim electrode 10 itself without a separate quadrupole (Q in FIG. 3 (a), (b)), and special control. By giving the role of forming the quadrupole lens to the final electrode that did not work, it increases the efficiency of the electron gun.

Accordingly, the present invention has the effect of providing a high-performance electron gun at low cost.

Claims (1)

In the final electrode of the in-line color electron gun composed of a rim electrode, the convergence cup is attached to the figure, The quadrupole portion 1 extending in the opposite direction of the convergence cup C, respectively, is formed above and below the rim 11. Final electrode of the in-line color electron gun, characterized in that