KR100297694B1 - Cathode assembly of electron gun for cathode ray tube - Google Patents

Abstract

The cathode assembly includes a sleeve for supporting an electron emitting portion, a heat shield member that surrounds and supports the sleeve, and both ends thereof connect an outer circumferential surface of the sleeve and an upper end portion of the heat shield to suspend the sleeve inside the heat shield member. A plurality of ribbons and a holder for supporting the heat shield member.

Description

Cathode assembly of electron gun for cathode ray tube

The present invention relates to an electron gun for a color cathode ray tube, and more particularly to a cathode assembly of an electron gun which is a source of hot electron emission of an electron gun.

Typically, the cathode assembly of an electron gun is roughly classified into a direct type cathode for directly heating a hot electron radiating material and a heat radiation type cathode for indirectly heating an electron emitting material according to the structural characteristics of the electron gun.

Figure 1 shows an example of a heat dissipating negative electrode assembly of such a cathode assembly.

As shown in the drawing, the cathode assembly is installed adjacent to the electron beam passing hole of the control electrode (not shown), and the base member 11 to which the electron radiating material 100 is applied, and the sleeve 12 supporting the base member from below. ), A holder 13 wrapped around the outer circumferential surface of the sleeve 12 at a predetermined interval, and having a flange portion 13a formed thereon, and an end thereof supported by the lower end of the outer circumferential surface of the sleeve and the flange portion of the holder. Three ribbons 14 are suspended within the holder of the sleeve 12. In addition, a heater 15 for heating the electron-emitting material 100 is installed in the sleeve 12.

In the conventional cathode assembly 10 configured as described above, the heater 15 is heated as a predetermined potential is applied to the terminal of the heater 15, and the sleeve 12 and the base member 11 are heated by this heat. The electron emitting material 100 is heated by heating. When the electron emitting material 100 is heated, hot electrons are emitted therefrom. The emitted hot electrons are not shown in the figure, but are focused and accelerated by the electron lens formed by the electrodes of the electron gun, and then selectively deflected by the deflection yoke to land on the fluorescent film to excite the phosphor.

The image formed by excitation of the phosphor is sufficiently hot electrons are emitted from the electron-emitting material 100 to obtain the brightness and color purity of the image when landing on the fluorescent film, so the electron-emitting material should be heated within a short time.

However, in the conventional cathode assembly 10 configured as described above, since the sleeve 12 is suspended by the ribbon 14 inside the holder 13, the heat radiation efficiency of the sleeve 12 is increased. If the heat dissipation efficiency is increased, the temperature deviation between the sleeve and the holder surrounding it increases. The temperature deviation is a large heat loss of the cathode assembly requires a heater with a large heat generating capacity is a high power consumption, it is difficult to apply when a high heating temperature, such as impregnated cathode assembly is required.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a cathode assembly for a color cathode ray tube that can reduce the capacity of the heater by improving the heating efficiency of the electron-emitting material by the heater.

1 is a partial ablation perspective view showing a cathode assembly of a conventional electron gun electron tube,

2 is a cross-sectional view of the cathode assembly shown in FIG. 1, FIG.

3 is an exploded perspective view illustrating a cathode assembly of an electron gun for a cathode ray tube according to the present invention;

4 is a cross-sectional view of the cathode assembly shown in FIG. 2.

5 is a cross-sectional view showing a cathode assembly of a cathode ray tube electron gun according to the present invention.

In order to achieve the above object, the present invention, the sleeve for supporting the electron emission portion, and the support of the sleeve wrapped around the heat shield member, both ends connected to the outer peripheral surface of the sleeve and the upper end of the heat shield member inside the heat shield member It characterized in that it comprises a plurality of ribbons for suspending the sleeve, and a holder for wrapping and supporting the heat shield member.

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

The cathode assembly for cathode ray tube forms a triode with a control electrode and a screen electrode of an electron gun, and emits hot electrons. An embodiment is illustrated in FIGS. 3 and 4.

As shown in the drawing, the cathode assembly 20 has a cylindrical sleeve 22 for supporting the electron emitting portion 21, and a heat shield member 23 coupled to a lower portion of the sleeve 22 to surround the sleeve. And a plurality of ribbons fixed to one end of the sleeve 22 and the other side of which is fixed to an end of the heat shield member 23 to suspend the sleeve 22 inside the heat shield member 23. (24). Here, the ribbon 24 is preferably installed on the outer peripheral surface of the sleeve 22 three at intervals of 120 degrees.

The electron emission unit 21 is formed by applying an electron emission material on the upper surface of the cap-shaped base metal 21a. Herein, the electron emitting unit is not limited to the above embodiment and may be manufactured in various structures according to the characteristics of the cathode assembly. For example, the impregnated cathode may be equipped with a cathode gas impregnated with an electron emission material.

The heat shield member 23 is positioned inside the holder by coupling an extension portion 23a extending radially outwardly with a flange portion extending inward to an upper end portion of the holder 25 to an upper end portion of the heat shield member 23. do. The holder 25 is formed in a cylindrical shape to surround the heat shield member.

In another embodiment of the present invention, the sleeve 22 may be integrally formed from the end of the holder as shown in FIG. 5 and the sleeve 22 may be positioned inside the heat shield as described above. .

In the cathode assembly 20 configured as described above, as the heater 25 is heated, the electron emission unit 21 is heated to emit hot electrons therefrom. In this process, the heat generated from the heater 26 Not only the electron-emitting part 21 but also the sleeve 22 and the heat shield member 23 and the holder 25 are transmitted. At this time, since the sleeve 22 and the electron-emitting part 21 is wrapped by the heat shield member 23, heat transfer is performed in steps and temperature deviation between parts can be reduced. This temperature deviation can reduce the amount of heat lost from the heater.

Thus, the cathode assembly of the present invention has the advantage of reducing the capacity of the heater can be carried out by the heat transfer step by step in the outer peripheral surface of the sleeve and the temperature deviation between the parts can be reduced.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary and those skilled in the art will understand that various modifications and variations are possible from this. Therefore, the present invention will be defined by the technical spirit of the appended claims the true technical protection scope of the present invention.

Claims (2)

A sleeve for supporting the electron emitting portion, a heat shield member wrapped around the sleeve, and a plurality of ribbons at both ends connecting the outer circumferential surface of the sleeve and the upper end of the heat shield member to suspend the sleeve in the heat shield member; And a holder for supporting the heat shielding member, the cathode assembly of the cathode ray tube electron gun. The method of claim 1, A cathode assembly of a cathode ray tube electron gun, characterized in that the holder and the heat shield member are integrally formed.