KR200155630Y1 - Cathode structure for cathode ray tube - Google Patents

Abstract

The present invention relates to a cathode structure for a cathode ray tube, the upper surface of the inner sleeve is impregnated with an electron-emitting material, the outer sleeve of the inner sleeve and the outer surface of the electron-emitting material is attached and fixed, the lower portion of the inner sleeve In the cathode structure for cathode ray tube welded to a position and fixed to the cylinder, the structure is spaced apart from the outer sleeve to form a space between the inner sleeve in a state in which the outer sleeve provided between the cylinder and the inner sleeve extends downwardly to a predetermined length. As an outer sleeve, the heat shielding shields the heat emitted from the coil to improve thermal efficiency, thereby increasing the amount of electrons emitted, thereby maximizing the quality and performance of the beam focusing characteristic and the beam landing characteristic.

Description

Cathode Structure for Cathode Ray Tube

The present invention relates to a cathode structure for a cathode ray tube, and more particularly, to a cathode structure for a cathode ray tube, in which an out sleeve is extended and formed to improve thermal efficiency, and accordingly, an amount of electrons is emitted to maximize performance. .

In general, the negative electrode structure used is impregnated with an electron emission product consisting of BaO, CaO, Al ₂ O, etc. in the space portion of a high melting point porous metal gas such as tungsten or molybdenum, and has a higher electron emission than a conventional oxide cathode. Its ability and long life make it a promising high performance cathode structure.

In addition, in recent years, as high current and long life are required in ultra-large CRTs, HDTVs, and projection TVs, the development is being actively developed, but the research is being further developed to suppress unnecessary electron emission caused by grid emission phenomenon. to be.

As shown in FIG. 1, the cathode structure is first impregnated with an electron emitting material 12 on an upper surface of the inner sleeve 10, and an outer surface of the inner sleeve 12 and an electron emitting material 12. An outer sleeve 14 is attached to the outer surface of the inner sleeve 10. The outer sleeve 14 is provided with a heater 18 having a coil 16 wound thereon, and an inner sleeve 10 has a cylinder 18 formed therein. 20) and position and welded to fix

Cathode structure for a cathode ray tube configured as described above, the electron beam is emitted by heating the electron-emitting material 12 with heat emitted from the heater 18 to form an electron beam, which will be described in more detail as follows.

In the cathode structure, power is applied to a heater 18 connected to a power source, and heat generated from the heater 18 is transferred to the coil 16, and heat emitted from the coil 16 is transferred to the electron-emitting material ( 12) is heated to emit an electron beam.

However, in the conventional cathode structure as described above, first, heat generated from a heater installed in the inner sleeve is transferred to the coil to emit heat, thereby heating the electron emission impurity to form an electron beam. The outer surface of the inner sleeve Since there is no member for shielding heat emitted from the coil, there is a problem that the thermal efficiency is lowered by dispersing the heat.

In addition, the amount of electron beam radiation decreases due to the decrease in the thermal efficiency, thereby reducing the beam focus characteristic and the beam landing characteristic, which makes it difficult to improve the high brightness and the high resolution.

The present invention was devised to solve the above problems, and extends and forms the outer sleeve to shield the heat emitted from the heater, and also increases the amount of electrons emitted by improving the thermal efficiency, thereby increasing the beam focus characteristic and the beam. This is to maximize the performance of the landing characteristics.

The present invention as described above relates to a cathode structure for a cathode ray tube, the upper surface of the inner sleeve is impregnated with an electron-emitting material, the outer sleeve of the inner sleeve and the outer surface of the electron-emitting material is attached and fixed, the inner A cathode structure for a cathode ray tube welded to a position and fixed with a cylinder in a lower portion of the sleeve, wherein the out sleeve forms a space between the inner sleeves while the out sleeve provided between the cylinder and the inner sleeve extends downward in a predetermined length. As the spaced-out structure, the out sleeve shields heat emitted from the coil to improve thermal efficiency, and accordingly, the amount and quantity of electrons emitted can be maximized to maximize the quality and performance of the beam focus characteristic and the beam landing characteristic. There is a characteristic.

1 is a cross-sectional view showing a cathode structure for a conventional cathode ray tube

2 is a cross-sectional view showing a cathode structure for a cathode ray tube of the present invention

* Explanation of symbols for main parts of the drawings

10: inner sleeve 12: electron-emitting material

14,22: Out sleeve 16: Coil

18: heater 20: cylinder

24: space part

2 is a view showing a cathode structure for a cathode ray tube according to the present invention, and the same reference numerals as those of FIG. 1 denote the same parts, and thus description thereof will be omitted and only different points from FIG. 1 will be described. .

Referring to FIG. 2, first, an outer sleeve 22 is attached to the outer surface of the inner sleeve 10 and the outer surface of the electron-emitting material 12. The outer sleeve 22 is fixed to the lower surface of the inner sleeve 10. It is welded with 20 to fix and position.

Here, the present invention is spaced apart from the cylinder 20 and the inner sleeve 10 to form the space portion 24 in a state in which the outer sleeve 22 extends downward in a predetermined length.

In the cathode ray tube cathode structure configured as described above, the electron beam is radiated by heating the electron-emitting material 12 with heat emitted from the heater 18 to form an electron beam, and the present invention is shown in the accompanying drawings of FIG. As shown in the drawing, when the heat is released from the heater 18, the outer sleeve 22 extends downwardly to a predetermined length between the inner sleeve 10 and the cylinder 20, and is discharged from the outer surface of the inner sleeve 10. Heat can be shielded by the out sleeve 22 to prevent heat loss, thereby increasing the emission efficiency of the electron beam by improving thermal efficiency, thereby improving brightness and resolution.

As described above, the present invention extends and forms the outer sleeve to increase the amount of electrons emitted by the improvement of the thermal efficiency emitted from the coil, thereby maximizing the product quality and performance by improving the beam focus characteristic and the beam landing characteristic. It has an effect.

Claims (1)

The upper surface of the inner sleeve is impregnated with an electron emitting material, and an outer sleeve is attached and fixed to the outer surface of the inner sleeve and the outer surface of the electron emitting material. In the cathode structure, the cathode structure for cathode ray tube, characterized in that the out sleeve is spaced apart to form a space between the inner sleeve in a state in which the out sleeve provided between the cylinder and the inner sleeve extends downward to a predetermined length.