KR910007655Y1 - Electron gun of crt - Google Patents

Abstract

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Description

Electron gun for cathode ray tube

1 is a view showing the electrode constituting the electron gun for the cathode ray tube according to the present invention, (a) is a front view of the electrode (b) is a cross-sectional view along the line A-A 'of the electrode shown in (a).

2 is a front view of an electrode constituting a conventional electron gun for cathode ray tubes.

3 is a view showing the trajectory of an electron beam according to the thermal convolutional drift phenomenon of a conventional electron gun for cathode ray tubes.

* Explanation of symbols for main parts of the drawings

GG: electrodes R ', G', B 'according to the present invention: electron beam through hole

D: Emboss

The present invention relates to a triode tube part of an electron gun for a cathode ray tube, and more particularly, to an improvement in a thermal convergence drift phenomenon caused by thermal expansion of an electrode constituting a triode part due to heat generated by a heater.

In general, in the color cathode ray tube, in order to accelerate and focus the (R) (G) (B) electron beam emitted from the cathode, their orbits are individually or totally modified so that accurate convergence at the fluorescent surface can be achieved. The concentration device is provided.

However, the thermal convergence drift phenomenon to be improved in the present invention is because the G ₁ electrode, G ₂ electrode and G ₃ electrode adjacent to the heater is expanded by the heat generated in the heater, so the electron electron beam passing hole in the center The path of the electron beam is changed as the outer electron beam through hole moves outwards, and the quality of the screen is degraded.

Referring to FIG. 3 in detail, the left and right electron beams incident on the fluorescent surface before the electrode is thermally expanded are moved along a normal path such as A and A ', but the G ₁ electrode, the G ₂ electrode, and the G electrode. _{As the three} electrodes thermally expand, the path of the electron beam changes to B and B '.

That is, as the G ₁ electrode, the G ₂ electrode, and the G ₃ electrode gradually expand due to the heat of the heater embedded in the cathode, the electron beams A and A 'of the normal path move in opposite directions. Will occur. The occurrence degree of this phenomenon depends on various conditions such as the coefficient of thermal expansion of the metal material forming the electrode pieces and the shape of the electron beam through hole formed in the electrode.

Conventionally, as shown in FIG. 2, in order to improve such a drift phenomenon, an independent circular embossing part P ₁ (P ₁ ) (P) around the electron beam through hole R (G) (B) is shown. ₂ ) (P ₃ ) was formed to mitigate the expansion of the electrode (GG ') due to heat, but it was not possible to obtain a sufficient effect, and the electrode was bent like a bow by replacing the electrode with a low thermal expansion material. Although the thermal convergence drift phenomenon is improved, it also does not completely improve the drift phenomenon due to the material's inherent coefficient of thermal expansion.

On the other hand, each electrode constitutes an electron gun through an assembly process. In this assembly process, the electrodes are pressed by heating and forming glass, and the electrodes are deformed by the pressure, thereby deforming the color CRT. It was also a cause of deterioration of image quality.

The object of the present invention is to provide an electron gun for cathode ray tube which greatly improves the convergence drift phenomenon and improves the picture quality of CRT.

The present invention for achieving the above object is characterized in that the uneven portion (Emboss) is formed between the electron beam through hole of the electrode forming the triode in the electron gun.

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

1 shows an electrode GG to which the present invention is applied, which is an I-shaped unevenness between an electron beam passing hole G 'at the center and an electron beam passing hole R' (B ') formed at left and right sides. It was made by forming the part (Emboss) (D).

As described above, the I-shaped concave-convex portion (Emboss) formed in the electrode serves to suppress the lateral movement of the electron beam through holes R 'and B' by relieving the expansion of the electrode by the heat generated from the heater.

That is, the portion where the heat is concentrated from the heater built in the cathode is the electron beam through hole R ', (G'), (B ') periphery P' ₁ (P ' ₂ ) of the electrode GG. Since P ' ₃ is increased, the amount of expansion of the electrode due to heat is larger than the periphery of the electrode P ₄ than the periphery of the electron beam passing holes P' ₁ (P ' ₂ ) and P' ₃ .

Here, the thermal convergence drift phenomenon due to the expansion of the electrode pieces is affected by the expansion of the left and right sides rather than the upper and lower sides, so that the amount of expansion of the left and right sides is absorbed by the I-shaped uneven portion. Referring to this in more detail by (b) of FIG. 1, the amount of expansion due to heat around the electron beam through hole R '(G') is increased to the left side L ₁ and the right side L ₂ of the uneven portion D. It is applied to further curvature to prevent the left and right movement of the electron beam through hole (R ') (G') (B ') to minimize the thermal convergence drift due to heat.

In addition, by forming the I-shaped uneven portion on the electrode GG ', the strength of the electrode can be supplemented to prevent deformation during assembly of the electron gun.

As described above, the electron gun according to the present invention minimizes the thermal convergence drift phenomenon and improves spherical aberration, thereby resulting in a clear image quality.

Claims (1)

Cathode, G ₁ electrode of the electron gun is configured parts of the triode, G ₂ electrode, and in cathode-ray tubes the electron gun having a G ₃ electrode opposite to the G ₂ electrode, wherein G _1, G _2, G ₃ electrode electron beam passage hole of the ( An electron gun for cathode ray tubes, characterized in that an elongated I-shaped concave-convex portion (Emboss) is formed between R ') (G') (B ').