KR940005265Y1 - Inner shield structure for color braun tube - Google Patents

Abstract

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Description

Inner Shield Structure of Color Brown Tube

1 is a schematic cross-sectional view of the inner shield of the color brown tube according to an embodiment of the present invention.

2 is an explanatory diagram showing a partial structure of the present invention.

* Explanation of symbols for main parts of the drawings

1: CRT 2: Panel

3: shadow mask 4: high permeability

5: low permeability part 6: neck part

7: electron gun 8: magnet

The present invention relates to an inner shield structure of a color brown tube, and more particularly, to an inner shield structure of a color brown tube in which metals having different permeability are welded to each other at a predetermined ratio.

In general, a color brown tube includes a shadow mask that separates the color of the electron beam emitted from the electron gun disposed at the neck portion of the color brown tube, and an inner shield of a single material that blocks the influence of the geomagnetic field on the path of the electron beam. It is supported on the frame.

The electron beam emitted from the electron gun passes through the through-hole of the shadow mask and reaches the screen front surface. At this time, the inside of the color brown tube. Since the path of the electron beam is affected by the external magnetic field around the outside, the inner shield is installed in the frame inside the color CRT to shield the influence of the magnetic field as much as possible.

However, the conventional inner shield constructed as described above is made of low permeability or high permeability single material, so the inner shield made of low permeability material has high shielding effect against the geomagnetic field due to its characteristics. Since the magnetic field is blocked, it is difficult to make local landing adjustment or convergence adjustment of the electron beam by the magnet piece installed in the neck portion of the color brown tube.

Therefore, the present invention was devised to solve the above-mentioned shortcomings, and an object of the present invention is not only to improve the shielding effect of the geomagnetic field, but also to improve the national landing correction and the convergence characteristics of the electron beam. It is to provide the inner shield structure of CRT.

In order to achieve the above object, the present invention provides a shadow mask of a color brown tube and an inner shield structure of a color brown tube having an inner shield installed on a frame of the shadow mask to shield the geomagnetic field, wherein the inner shield A high permeability part made of a material with high permeability to shield the earth's magnetic field flowing into the surroundings of the panel and the shadow mask, and a low permeability to smooth the local landing correction or the convergence adjustment of the electron beam formed on the screen surface of the color CRT. It is made of a material and characterized in that it consists of a low permeability portion integrally welded against the high permeability portion.

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

The present invention has a high permeability part 4 made of a material of high permeability to shield the earth's magnetic field flowing into the panel 2 and the shadow mask 3, as shown in FIG. It is made of a material of low permeability to facilitate local landing correction or convergence adjustment of the electron beam formed on the screen surface, and the low permeability part 5 welded integrally against the high permeability part 4. Consists of. The high permeability part 4 and the low permeability part 5 are contained so that the sum of each permeability component may be 100 weight%.

That is, as shown in FIG. 2, the formation rate of the high permeability part 4 and the low permeability part 5 should be 10% by weight. For example, when the molding ratio of the high permeability part 4 is about 70% by weight, the molding ratio of the low permeability part 5 is about 30% by weight, and when the formation ratio of the high permeability part 4 is about 90% by weight, The formation ratio of the low permeability part 5 is formed to an extent.

Next, the effect of the present invention configured as described above will be described.

In the present invention, as shown in FIG. 1, the high permeability part 4 is installed toward the front end of the CRT 1, and the low permeability part 5 is directed toward the neck part 6 of the CRT 1. Since the electron beam emitted from the electron gun 7 of the CRT 1 reaches the screen surface of the CRT 1, the permeability of the material is high in the high permeability section 4 so that the CRT ( It shields the earth magnetic field flowing around the panel 2 and the shadow mask 3 of 1). That is, according to the Will's equation, the geomagnetic shielding effect (S) is

T: thickness of the magnetic shield, R: radius of the cylinder, μr: specific permeability (permeability to air), Ho: magnetic field outside the cylinder, H ₁ : magnetic field inside the cylinder

According to Equation (A), the larger the relative permeability μr, the greater the geomagnetic shielding effect, and the smaller the permeability μr, the less the geomagnetic shielding effect. Therefore, in the high permeability part (4) based on the Wils equation, the material has a high permeability. Since it is formed, it greatly shields the geomagnetic field flowing around the front end of the CRT (1).

On the other hand, in the low permeability part 5, the magnetic permeability of the material is formed small on the basis of Equation (A) of the equation of Wils, so that the magnetic field shielding effect is reduced. Therefore, the magnet piece 8 attached to the neck portion 6 of the CRT 1 is hardly affected by the geomagnetic shielding characteristics of the low permeability portion 5, and the electron gun 7 of the CRT 1 The mis-landing of the electron beam emitted by the magnetic field can be corrected by changing the direction of travel as a magnetic field, or the convergence characteristics can be improved.

As described above, the inner shield structure of the color brown tube according to one embodiment of the present invention has an integral structure in which two kinds of metals having different permeabilities are welded to each other at a predetermined rate, and thus are different from each other. Therefore, it is possible to improve the shielding effect of the geomagnetic field as well as to improve the local landing adjustment of the electronic beam and the characteristics of the convergence.

Claims (1)

In the inner shield structure of the color brown tube having a shadow mask 3 of the color brown tube 1 and an inner shield supported on the frame of the shadow mask 3 to shield the geomagnetic field, the inner shield is a panel ( 2) and local landing correction of the electron beam formed on the screen surface of the high-permeability part 4 made of a material of high permeability to shield the geomagnetic field flowing into the periphery of the shadow mask 3 and the color-brown tube 1 or An inner shield structure of a color-brown tube made of a material having a low permeability to facilitate the adjustment of the convergence and consisting of a low permeability part (5) integrally welded against the high permeability part (4).