KR19990018605U - Getter fixing structure for cathode ray tube - Google Patents

Abstract

The present invention relates to a getter fixed inside to maintain the inside of the cathode ray tube in a high vacuum state in the cathode ray tube. The getter for deflecting the inside of the cathode ray tube in a high vacuum state in a state in which the panel and the funnel are fused together. It is designed to be secured to a part that is not affected by the magnetic field of the yoke.

To this end, in the cathode ray tube in which the electron gun 3 is enclosed in the neck portion 2a of the panel 1 and the fixed funnel 2, the magnetic field of the deflection yoke 7 provided on the outer circumferential surface of the funnel 2 is fixed. A fixing hole 11 formed at a point not affected by the support member, a support member 15 for closing the fixing hole in a state where the getter 12 is positioned inside the cathode ray tube through the fixing hole, and the fixing hole and the support hole It consists of the frit glass 16 which is a sealing means which seals the connection surface of a member.

Description

Getter fixing structure for cathode ray tube

The present invention relates to a cathode ray tube, and more particularly, to a getter fixed therein for maintaining the cathode ray tube in a high vacuum state.

In general, as shown in FIG. 1, a cathode ray tube is formed with a red, green, and blue phosphor coated on an inner surface of the panel 1, and a funnel 2 having a neck portion 2a integrally formed behind the panel 1. ) Is fused by frit glass, and the neck portion is filled with an electron gun 3 for scanning the electron beam toward the phosphor coated on the inner surface of the panel.

In addition, a shadow mask 4 is provided at a position close to the phosphor coated on the inner surface of the panel 1 to serve as a color screen of the electron beam due to numerous holes.

Therefore, when power is applied to the electron gun 3 enclosed in the neck portion 2a to scan the electron beam toward the phosphor side, the scanned electron beam passes through the hole formed in the shadow mask 4 to emit the phosphor, so that a predetermined image is reproduced. .

In order to effectively land the electron beam scanned by the electron gun 3 on the phosphor, the inside of the cathode ray tube must maintain a high vacuum of about 10 ⁻⁶ to 10 ⁻⁷ Torr.

However, during the manufacturing process of the cathode ray tube, the inside of the cathode ray tube is approximately 10 ^-4 to 10 ^-5 Torr by a mechanical method only in the exhaust process performed after enclosing the electron gun 3 in the neck portion 2a of the funnel 2. It will be kept out of vacuum.

If the inside of the cathode ray tube cannot be maintained at a desired vacuum, the electron beam scanned by the electron gun 3 cannot be effectively landed on the phosphor.

Therefore, while the inside of the cathode ray tube is maintained in a vacuum state of about 10 ^-4 to 10 ^-5 Torr by a mechanical method, the residues remaining in the interior of the cathode ray tube and the gases released from the components when the cathode ray tube is driven are continuously. A chemical method of absorbing and maintaining a high vacuum state is further carried out to maintain a set degree of vacuum.

In the chemical method, the barium (Ba) contained in the gettering is scattered while the cathode ray tube is sealed, so that the barium is dispersed and chemically reacts with the gases to absorb and make the inside of the cathode ray tube into a set vacuum state. .

That is, the degree of vacuum inside the cathode ray tube is rapidly improved since the chemical reaction is actively performed by ionizing in the aging process to impart the electron emission ability of the cathode.

As shown in FIG. 1, there is an antenna getter 6 fixed to the shield cup 5 of the electron gun 3 assembled to the neck portion 2a as shown in FIG. 1.

The antenna getter 6 described above is mainly used for cathode ray tubes for television receivers.

However, when the antenna getter 6 is installed inside the cathode ray tube, the getter is located within the magnetic field influence area of the deflection yoke 7, so in the case of a cathode ray tube requiring high resolution such as a cathode ray tube for a computer, the deflection yoke is operated during operation. As the magnetic field force increases, the nickel (Ni) contained in the getter is affected.

As a result, nickel is ferromagnetic and changes the path of the electron beam emitted from the electron gun.

In addition, when the electron gun 3 is mounted on the neck portion 2a of the funnel 2, the antenna gun getter 6 is connected to the inner surface of the funnel so that the electron gun is biased to one side. Occurred.

A getter used to ameliorate the above problem is a pretable getter.

Unlike the antenna getter, as shown in FIG. 1, the preppable getter 8 is a support frame which is not affected by the magnetic field of the deflection yoke 7 or the getter is fixed to the anode 9.

However, this structure is also pre-fixed getter 8 is fixed to the support frame or the anode (9) before the panel 1 and the funnel (2) is fused by frit glass, the panel and the funnel is fused with bead glass In order to pass through the sealing furnace, the getter is oxidized by the high temperature of the atmosphere (about 450 ° C. or so) to form an oxide film. Thus, when the getter is pressed, the oxide film is evaporated together with scattering to act as a gas. Therefore, not only adversely affects the emission characteristics of the electron gun cathode, but also causes a decrease in lifespan.

The present invention has been made to solve such a problem in the prior art, and the getter for high vacuum inside the cathode ray tube in a state in which the panel and the funnel are fused to each other securely in a region not affected by the magnetic field of the deflection yoke. Its purpose is to allow it to be fixed.

According to a form of the present invention for achieving the above object, in the cathode ray tube in which the electron gun is enclosed in the neck of the panel and the fixed funnel, formed at a point not affected by the magnetic field of the deflection yoke installed on the outer circumferential surface of the funnel There is provided a getter fixing structure for a cathode ray tube comprising a fixing hole, a support member for closing the fixing hole in a state where the getter is positioned inside the cathode ray tube through the fixing hole, and a sealing means for sealing a connection surface of the fixing hole and the supporting member. do.

1 is a partial longitudinal cross-sectional view of a state where a conventional getter is fixed inside a cathode ray tube;

Figure 2 is a longitudinal cross-sectional view showing a part of the funnel of the present invention

Figure 3 is a side view showing a getter applied to the present invention

4 is a state in which the getter of the present invention is assembled to the cathode ray tube

5 is a state in which the getter of the present invention is fixed to the cathode ray tube

Explanation of symbols for main parts of the drawings

1 panel 2 funnel

7: deflection yoke 11: fixing hole

12: getter 15: support member

16: frit glass

Hereinafter, with reference to Figures 2 to 5 showing the present invention as an embodiment in more detail as follows.

Figure 2 is a longitudinal sectional view showing a part of the funnel of the present invention, Figure 3 is a side view showing a getter applied to the present invention and Figure 5 is a state diagram of the getter of the present invention is fixed to the cathode ray tube.

The present invention provides a fixed hole larger than the diameter of the getter ring 10 so that the getter ring 10 can be inserted into the inner surface of the funnel not affected by the magnetic field of the deflection yoke 7 installed on the outer circumferential surface of the funnel 2. 11) form.

The getter 12 applied to the present invention includes a getter ring 10 having barium embedded therein, a spring 13 and a spring fixing pin 14 fixed to the getter ring in turn, and fixed to the spring fixing pin. Consists of a support member 15 coupled to.

The fixing hole 11 is composed of the out hole (11a) and the inner hole (11b) and the support member 15 coupled to the fixing hole is composed of the inner support (15a) and the out support (15b).

This is to form a connection surface of the fixing hole 11 and the support member 15 in multiple stages to more securely seal these connection surfaces.

The supporting member 15 seals the connection surface between the fixing hole and the supporting member by sealing means such as the frit glass 16 in the state of being fitted into the fixing hole 11.

Since the installation position of the getter assembly can be any position as long as it is not affected by the magnetic field caused by the deflection yoke 7, it is not necessary to limit the formation position of the fixing hole 11.

Referring to the operation of the present invention configured as described above are as follows.

First, the funnel 2 is fused by frit glass to the panel 1 on which the shadow mask 4 is assembled, and the electron gun 3 is enclosed in the neck portion 2a.

Thereafter, the getter ring 10 is positioned inside the cathode ray tube through the fixing hole 11 formed at a predetermined position of the funnel 2, and then the support member 15 is inserted into the fixing hole 11 as shown in FIG. Put it in.

As a result, the inner supporting portion 15a of the supporting member 15 is fitted into the inner hole 11b of the fixing hole 11 and the out supporting portion 15b is connected to the outer hole 11a.

After the getter 12 is assembled to the funnel 2 as described above, the connection surface of the support member 15 and the fixing hole 11 is melted and melted with a spark from the outside of the funnel, or the frit glass 16 as shown in FIG. 5. ) To heat up the sealing surface.

After the getter 12 is fixed to the funnel 2 by the above operation, the inside of the cathode ray tube is maintained in a vacuum state of about 10 ⁻⁴ to 10 ⁻⁵ Torr through a mechanical exhaust process.

Then, in order to keep the inside of the cathode ray tube at a predetermined vacuum, heat is applied to the getter 12 located inside the cathode ray tube from the outside of the funnel 2 while the barium contained in the getter ring 10 is scattered. It absorbs by causing a chemical reaction with the inside of the cathode ray tube is a set vacuum state.

As described above, the present invention does not exist as a case of scattering of barium because the oxide film is not formed during the fusion operation of the panel and the funnel like the preable getter. In addition, the inclination phenomenon is prevented in advance, and the magnetic field caused by the operation of the deflection yoke is not affected, thereby improving the performance characteristics of the cathode ray tube.

That is, when the residual current of the cathode current after 20,000 HRS acceleration was examined, it was found that the improved result was about 10%, and it was hardly affected by the deflection yoke magnetic field.

Claims (2)

In a cathode ray tube in which an electron gun is enclosed in a neck portion of a panel and a fixed funnel, a fixed hole formed at a point not affected by the magnetic field of a deflection yoke installed on an outer circumferential surface of the funnel, and inside the cathode ray tube through the fixing hole. And a support member for closing the fixing hole in a state where the getter is positioned, and a sealing means for sealing a connection surface of the fixing hole and the supporting member. The method of claim 1, A getter fixing structure for cathode ray tubes, in which a connection surface between a fixing hole and a supporting member is formed in multiple stages.