KR100265778B1 - Electron gun for crt - Google Patents

Abstract

PURPOSE: An electron gun for color cathode ray tube is provided to prevent the distortion of an inner electrode and an outer electrode by improving a shape of an inner electrode and a shape of an outer electrode for forming a main lens. CONSTITUTION: An electron gun for color cathode ray tube comprises a cathode(20), a control electrode(30), a screen electrode(40), a focus electrode(50), a final acceleration electrode(60), an outer electrode(51,61), and an inner electrode(52,62). A large-sized electron beam passing hole(53,63) is formed on an upper face of the outer electrode. A multitude of small-sized electron beam passing hole is formed on the inner electrode. An inner sidewall is enlarged from an upper portion of the inner electrode to a lower portion of the inner electrode. The outer electrode has a sloped sidewall corresponding to the sidewall of the inner electrode.

Description

Electron gun for colored cathode ray tube

1 is a side cross-sectional view of a conventional electron gun for color cathode ray tubes.

2 is a view showing another example of the electrode forming the main lens in the conventional electron gun for color cathode ray tube.

3 is a view for explaining a problem of an electrode forming the main lens shown in FIG.

4 is a side cross-sectional view of an electron gun for a color cathode ray tube according to the present invention.

5 is a view showing another embodiment of an electrode forming a main lens in the electron gun of the present invention.

6 is a view showing another embodiment of an electrode forming a main lens in the present invention.

* Explanation of symbols for the main parts of the drawings

20: cathode 30: control electrode

40: screen electrode 50: focus electrode

60: final acceleration electrode

51, 51 ', 51 ", 61, 61', 61": external electrode

52, 52 ', 52 ", 62, 62', 62": internal electrode

55, 65: 1st side part 55, 66: 2nd side part

The present invention relates to an electron gun for color cathode ray tube, and more particularly, to an inline type cathode ray tube electron gun in which the shape of an electrode forming the main lens is improved.

In general, as shown in FIG. 1, the electron gun for the color cathode ray tube is formed by a bead glass (not shown) at a predetermined distance in front of the cathode 2 of green, red, and blue emitting hot electrons and the front side thereof. When it is fixedly supported, the electron beam passing holes of green, red, and blue are provided with a plurality of electrodes formed inline, so that hot electrons emitted from the cathode are formed into an electron beam and focused and accelerated to collide with the fluorescent surface. That is, the conventional electron gun 1 for color cathode ray tubes focuses and accelerates the cathode 2, the control electrode 3 and the screen electrode 4, and the initial electron beam from the three poles, which form a triode for forming the initial electron beam. The focus electrode 5 and the final acceleration electrode 6 constituting the main lens system are arranged in sequence, and the cathode 2 emits hot electrons, and the control electrode 3 and the screen electrode 4 The electron emission amount is controlled by an external signal. The electron beam passing through the control electrode 3 and the screen electrode 4 is preliminarily focused by a preliminary focusing lens formed by the screen electrode 4 and the focus electrode 5. The final focusing and acceleration by the main lens formed by the focus electrode 5 and the final acceleration electrode 6 collide with the fluorescent surface to form a single pixel, and these pixels gather to form a screen. Unexplained reference numeral 7 shows a shield cup.

In the cathode ray tube, various conditions, for example, the state of formation of the fluorescent film, the state of electron beam deflection by the deflection yoke, and the focusing state of the electron beam by the electron beam are improved and the spherical aberration of the main lens is reduced to obtain a clear image. It is desirable to form the cross-sectional area of the electron beam as small and uniform as possible.

To this end, in the conventional inline type cathode ray gun electron gun, the main lens has a large diameter, which is an external electrode having one large diameter electrode on the output side of the focus electrode forming the main lens and the incident side of the final acceleration electrode. And is located in the external electrode and consists of an internal electrode formed separately from the electron beam through hole of red, green, blue.

FIG. 1 illustrates that the external electrode 5a and the internal electrode 5b are integrally formed, and since the external electrode 5a and the internal electrode 5b are integrally formed, the defect rate during the press working is not only high but also the upper part. Since the space of the mold is required to form the rim, the diameter of the common large diameter cannot be increased and it is difficult to secure the flatness of the upper surface of the external electrode. 2 shows the external electrodes 5a, 6a and the internal electrodes 5b, 6b separately provided to insert the internal electrodes 5b, 6b inside the external electrodes 5a, 6a. Although the diameter of the electron beam through hole can be increased or the parallelism between the external electrode and the internal electrode can be improved, such a common large diameter external electrode is a deep-drawn electrode, and as shown in FIG. Since the spring (back) phenomenon appears, there is a problem that the flatness of the upper surface of the external electrode is not good or the internal electrode is distorted due to the variation of the side wall when the internal electrode is inserted.

In general, since the external electrode has a relatively high position compared to the internal electrode and a single large electron beam through hole is formed on the upper surface thereof, the deformation resistance is extremely weak. Therefore, when the internal electrode is assembled, the large diameter opening of the external electrode is easily deformed to the outside. When the amount of deformation is 0.02 mm or more, the focus characteristic of the electron beam is greatly weakened.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and during or after assembling the external electrode and the internal electrode forming the main lens forming the main lens, that is, the flatness of the upper surface of the external electrode and the distortion of the internal electrode An object of the present invention is to provide an electron gun for a color cathode ray tube which improves the focusing characteristics of a cathode ray tube employing the same by improving assembly precision and weldability of an external electrode and an internal electrode.

The present invention for achieving the above object, the cathode, the control electrode and the screen electrode, the focus electrode and the final acceleration electrode constituting the triode is arranged in sequence, the output side and the final acceleration electrode of the focus electrode forming the main lens In the electron gun for a color cathode ray tube provided with an external electrode having a large diameter electron beam through hole formed on an upper surface of the incident side, and an inner electrode inserted into the external electrode and formed with a plurality of small diameter electron beam through holes formed on an upper surface thereof,

The inner electrode has an inclined side wall widening toward its open end, and the side wall of the outer electrode has the same shape as that of the inclined side wall of the inner electrode, or inclines a portion in contact with the inner electrode so that the contact area thereof is enlarged. There is a characteristic in that.

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

As shown in FIG. 4, the electron gun 10 for a color cathode ray tube according to the present invention includes a cathode 20, a control electrode 30, a screen electrode 40, and a focus electrode 50 forming a main lens system. And the final acceleration electrode 60 is arranged in sequence, the cathode 20 emits hot electrons, the control electrode 30 and the screen electrode 40 controls the electron emission amount by an external signal to generate an electron beam The electron beam passing through the control electrode 30 and the screen electrode 40 is preliminarily focused by a preliminary focusing lens formed by the screen electrode and the focus electrode, and then focused on the focus electrode 50 and the final acceleration electrode 60. The main lens formed by the main lens is focused and accelerated to collide with the fluorescent surface to form one pixel, and these pixels are gathered to form a screen.

A characteristic element of the present invention, the electron beam exit side of the focus electrode forming the main lens symmetrically and the electron beam incident side of the final accelerating electrode are composed of the external electrodes 51, 61 and the internal electrodes 52, 62, respectively. . The external electrodes 51 and 61 have a cup shape having a skirt or a side wall formed at a predetermined height around the electron beam passing plane, and a single large-diameter electron beam passing hole 53 through which red, green, and blue electron beams pass together. 63 is provided, and the side wall becomes wider toward the open end. The inner electrodes 52 and 62 have a smaller cup shape than the outer electrodes, and on the upper surface thereof, separate electron beam passing holes 54 and 64 through which red, green, and blue electron beams pass, are arranged inline, and the sidewall thereof is It is formed in the same shape corresponding to the side wall of the external electrode and is inserted into the inner surface of the external electrode and welded. In this case, the welding is usually performed by laser welding, and the welding point is preferably located below 1/2 of the internal electrode.

FIG. 5 shows another embodiment of an electrode forming a main lens employed in an electron gun for a color cathode ray tube according to the present invention. Referring to this, the external electrodes 51 'and 61' have red and green colors on their upper surfaces. In addition, a single large-diameter electron beam passing hole through which the electron beam of blue passes is provided, and the side wall thereof is formed in the shape of a django which is wider than the center and wider than the top. Inner electrodes 52 'and 62' have a separate electron beam through hole through which red, green, and blue electron beams pass, respectively, on the upper surface thereof, and the sidewalls are formed to be widened toward the lower side thereof. It is inserted into the inner surface of the lower part and welded. In this embodiment, welding is usually performed by laser welding, but the welding point is preferably located below 1/2 of the internal electrode.

FIG. 6 shows another embodiment of an electrode forming a main lens employed in an electron gun for a color cathode ray tube according to the present invention. Referring to this, the external electrodes 51 ", 61" have red, A single large-diameter electron beam passing hole through which green and blue electron beams pass together is provided, and sidewalls thereof are formed on the first side portions 55 and 65 perpendicularly to the upper portion thereof, and on the lower portion thereof, the second side portion portion to be widened toward the lower portion. 56 and 66 are provided. The inner electrode has a separate electron beam through hole through which the red, green, and blue electron beams pass, respectively, in an inline shape, and the sidewall is inserted into the second side portion of the outer electrode and welded thereto. In this embodiment, welding is usually performed by laser welding, but the welding point is preferably located below 1/2 of the internal electrode.

As described above, the electron gun for the color cathode ray tube according to the present invention is assembled by improving the shapes of the electrodes forming the main lens, that is, the inner electrode, the outer electrode or the inner electrode on the exit side of the focus electrode and the incident side of the final acceleration electrode. After the assembly or assembly, the focusing characteristics of the cathode ray tube can be improved by minimizing the shape deformation of the electrode, that is, the flatness of the external electrode and the distortion of the internal electrode, thereby improving the assembly accuracy and weldability of the external electrode. .

Claims (4)

The cathode, the control electrode and the screen electrode, the focus electrode, and the final acceleration electrode, which form the triode, are sequentially arranged, and the focus electrode forming the main lens passes through the large-diameter electron beam on the top surface of the emission side and the incident side of the final acceleration electrode, respectively. In the electron gun for a color cathode ray tube provided with an external electrode formed with a ball, and an internal electrode inserted into the external electrode and formed with a plurality of small diameter electron beam passing holes on the upper surface thereof, Sidewalls of the internal electrodes 52, 52 ', 52 ", 62, 62', 62 " And the outer electrode has a sidewall inclined to correspond to the sidewall of the inner electrode. The method of claim 1, The side wall of the outer electrode is a central portion, the upper portion is wider and the lower portion is formed in the shape of a wider than the upper, the inner electrode is an electron gun for a color cathode ray tube, characterized in that inserted into the lower portion of the outer electrode. The method of claim 1, The external electrode includes first side parts 55 and 65 vertically formed at an upper portion thereof, and second side parts 56 and 66 formed to be inclined to widen downwardly at a lower portion thereof. Electron gun for color cathode ray tube, characterized in that inserted into the second side portion of the external electrode. The method according to any one of claims 1 to 3, Electron gun for a color cathode ray tube, characterized in that the lower end of the side wall of the inner electrode is welded to the inner surface of the side wall of the outer electrode.