KR940008099B1 - Electron gun - Google Patents

Abstract

The electron gun includes a triode, and focus and anode electrodes having an inner and outer electrodes, wherein opposite flanges are elongated above and under a common electron beam passing hole of the outer electrode toward an electron beam proceeding axis, thereby improving aberration.

Description

Electron gun for colored cathode ray tube

1 is a schematic vertical cross-sectional view of an electron gun for a conventional color cathode ray tube.

2 is a cross-sectional view taken along line II-II of FIG. 1;

3 is a vertical cross-sectional view of a preferred embodiment of the electron gun for color cathode ray tube according to the present invention.

4 is a sectional view taken along the line IV-IV of FIG.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electron gun for color cathode ray tubes, and more particularly to an electron gun for color cathode ray tubes having a large diameter main lens by an extended electric field.

In general, the electric field extension of the main lens is applied to reduce the influence of spherical aberration caused by the electrostatic lens of the electron gun, an example of which is shown in FIG.

The electron gun shown in FIG. 1 includes focus electrodes G3 (G3a, G3b, G3b, G3a, G3b, G3a, G3b, G3), which focus and accelerate the cathode K, the control grid G1, the screen grid G2, and the initially generated electron beam. G3c) and final acceleration electrodes G4: G4a, G4b. As shown in FIG. 2, the G3b electrode has the independent electron beam through hole G3b 'in addition to the basic two electrode elements G3a and G3b to obtain a large diameter electron beam through hole. The G3c electrode element with a lip (Gipc3 ') in the shape of being covered by the element has a form in which it is further coupled. At the same time, the final accelerating electrode G4 also has a G4b electrode element in which an independent electron beam passing hole G4b 'is formed to obtain a large-diameter electron beam passing hole, and a G4a electrode element having a lip (Lip; G4a') surrounding it.

The conventional electron gun has a large diameter of the main lens due to an extended electric field, and the focus electrode G3 has an independent beam passing through the independent beam passing hole G3b 'of the G3b electrode element and the G4b electrode element of the anode electrode G4. The ball G4b 'is surrounded by the lip G3c' (G4a ') of the G3c electrode element and the G4a electrode element, respectively. Therefore, a large diameter common beam through hole is formed by an extended electric field between the independent electron beam through holes G3b 'and G4b' opposed by the ribs G3c 'and G4a'.

Such a conventional electron gun can correct the aberration for the purpose, but the electric field intensity difference in the horizontal and vertical direction is so severe that the beam spot appearing on the screen has a long horizontal shape. Therefore, the deterioration of image quality due to such a problem is caused, and in order to improve this, it is usually required to provide a burring portion (G3b ") (G4b") around the independent beam through hole, or to shape the independent beam through hole. Although it is intended to be lengthened, this is also disadvantageous in terms of manufacturing productivity because it not only makes the assembly of the electrode difficult but also requires more precise assembly.

It is an object of the present invention to provide an electron gun for a color cathode ray tube having a large-diameter lens by an extended electric field which is designed to structurally reduce the electric field strength difference in the horizontal and vertical directions, and can realize a high quality image while producing high quality images.

In order to achieve the above object, the electron gun of the present invention focuses and accelerates the electron beam initially generated by the cathode, the control grid, the screen grid, and the electric field extended by the lip around the beam passing plane. The electrode element having an independent beam through hole formed therein and an electrode element having an lip enclosing therein are provided with a focus electrode and an anode electrode, wherein the electrode element having the lip of the anode electrode is formed with an independent electron beam through hole. Flanges positioned at predetermined intervals above and below the electron beam through hole of the electrode element of the node electrode extend from the lip so that a vertical electric field with respect to the electron beam passing through the electron beam through hole is provided to the electron beam through the outer electron beam through holes. It is characterized in that the electric field is strengthened divergence power.

According to the present invention as described above, the vertical divergence force in the electron beam divergence section of the main lens is strengthened to lengthen the electron beam passing therethrough, thereby compensating for the distortion of the electron beam transversely shaped by the large-diameter lens by the lip, thereby providing high quality. The image can be realized.

Hereinafter, an embodiment of an electron gun for a color cathode ray tube according to the present invention will be described in detail with reference to the accompanying drawings.

The electron gun of the present invention shown in FIG. 3 includes a focus electrode G3 G3a which finally focuses and accelerates the cathode K, the control grid G1, the screen grid G2, and the initially generated electron beam. , G3b, G3c and final acceleration electrodes G4 (G4a, G4b). The triode forms the hot electrons emitted from the cathode K as an initial electron beam. The focus electrode G3 forming the main lens together with the final accelerating electrode G4 has an independent electron beam passing hole in addition to the basic two electrode elements G3a and G3b to obtain a large-diameter electron beam passing hole as in the conventional art. The G3c electrode element having a lip (G3c ') is additionally bonded to the G3b electrode element having a G3b'. At the same time, the final accelerating electrode G4 also has a G4b electrode element in which an independent electron beam passing hole G4b 'is formed and a G4a electrode element having a lip G4a' surrounding it, in order to obtain a large-diameter electron beam passing hole. In addition to such a conventional structure, the G4a electrode element of the anode electrode is provided with a flange F at a predetermined interval up and down in front of the independent beam through hole G4b ″ of the G4b electrode element to pass through the independent beam through hole G4 ″. Allow to strengthen the vertical electric field for the electron beam. In particular, the middle portion of the flange extends further so that the vertical field in front of the center electron beam through hole is strengthened relative to the field in front of the outer electron beam through hole.

The flange is integrally formed in the process of manufacturing the electrode element, in particular, is formed like a lip through a mold process for forming a lip. The lip is machined into a "c" shape, as shown, with its tip facing the plane of the beam passage through which the independent electron beam through hole is formed, and a flange (F ') having a central projection (F') from this end. ) Is bent at right angles to the beam passage plane.

The electron gun of the present invention can reduce spherical aberration due to large diameter of the main lens as an extended electric field. Moreover, since the electric field in the vertical direction is strengthened inside the anode electrode, which is the diverging section of the electron beam, so that the intensity of the electric field in the horizontal direction becomes as possible as possible, the shape of the beam spot formed on the screen can be brought closer to the normal circle. Furthermore, since the vertical electric field for the central electron beam acts more strongly than the surrounding electron beam, the shape difference between the center electron beam spot and the outer beam spot caused by the astigmatism is reduced.

According to the present invention as described above, the beam spot characteristics are greatly improved, and as a result, a high quality image can be realized, and its application fields are very diverse, and are particularly suitable for an electron gun for reproducing a large screen. In particular, a dynamic focus electron gun that dynamically controls the focus state of an electron beam, including a so-called multi-stage focused electron gun provided with a plurality of focus electrodes, for example, having a more complicated structure than the electron gun in the above embodiment.

As described above, the present invention is characterized in that the spherical aberration caused by the extended electric field and the problems associated with the spherical aberration are improved, thereby realizing a good image with more improved beam spot characteristics.

Claims (3)

A cathode, a control grid, and a screen grid forming a triode; An inner electrode element having three independent beam through holes provided with cylindrical lips around each of them, and a beam passing through the three independent beam through holes in common, have a horizontal cylindrical lip formed around them. A focus electrode and an anode electrode having an external electrode element having a common beam through hole formed therein; In an electron gun for a color cathode ray tube provided, flanges facing up and down at predetermined intervals are formed on the upper and lower sides of the common electron beam through-holes of the external electrode element of the anode electrode to extend along the electron beam propagation axis. An electron gun for a color cathode ray tube, characterized in that the electric field in the vertical direction with respect to the electron beam passing through the beam passing hole is strengthened compared to the electric field in the horizontal direction. The electron gun for a color cathode ray tube according to claim 1, wherein said flange extends from a tip end of a lip formed around a common beam through hole of an outer electrode element of said anode electrode. The electron gun for color cathode ray tube according to claim 1 or 2, wherein a protruding portion corresponding to the center beam through hole of the inner electrode of the anode electrode is formed toward the electron beam propagation axis at the opposite inner edge of the flange. .