KR100338022B1 - Shadow mask for color picture tube and fabricating method thereof - Google Patents

Abstract

PURPOSE: A shadow mask for a color picture tube and a fabricating method thereof are provided to improve color purity of a screen by restraining a doming phenomenon due to thermal deflection. CONSTITUTION: A shadow mask(10) includes a plurality of apertures(11), an edge portion(13), and an effective portion. The apertures(11) are formed on a shadow mask in order to pass electron beams. The edge portion(13) is formed between the apertures(11). The effective portion has a rectangular shape. A bead and a skirt portion are formed on an outer circumference of the effective portion. A ceramic layer(15) is formed on one side of the edge portion(13). The ceramic layer(15) has a low thermal expansion rate. The ceramic layer(15) is formed with B2O3.

Description

Shadow mask for color water pipe and manufacturing method

[Industrial use]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shadow mask for a color receiving tube and a method of manufacturing the same, and more particularly, to a shadow mask and a method for manufacturing the same, capable of suppressing the deterioration of the phenomenon and color purity caused by an electron beam.

[Prior art]

In general, a shadow mask type color tube consists of at least a panel consisting of a panel, a funnel, and a neck, and an electron gun is applied to the neck, and phosphors of R, G, and B are coated on the inner surface of the panel. The shadow mask is placed at a certain distance away

Here, the shadow mask allocates three electron beams emitted from the electron gun to land on corresponding phosphors of R, G, and B applied to the inner surface of the panel, and is coupled to a frame to form a shadow mask structure. It is installed inside the panel by the corner spring.

A schematic structure of a conventionally known shadow mask structure is shown in FIG.

This shadow mask structure includes an aperture 1 through which an electron beam passes and is approximately rectangular, a bead 2 for strength reinforcement formed around the effective portion 1, and a weld with a frame. A shadow mask 4 comprising a skirt portion 3 which is bent almost vertically for the purpose; A frame 6 having an upright portion 5 to which the skirt portion 3 is welded and a curved portion at which corner springs are disposed; It is comprised by the corner spring 7 for suspending the shadow mask structure to the corner pin arrange | positioned inside a panel.

3, the structure of the shadow mask 4 described above is enlarged. In the electron beam passing hole, that is, the aperture 8, the incident side of the electron beam is formed smaller than the screen side.

In this case, the shadow mask 4 is usually made of AK (Aluminum Killed) steel, and in recent years, it is also known to use an Invar material in a large model.

[Problem trying to solve the invention]

On the other hand, the electron beam emitted from the electron gun passes through the aperture 8 formed in the shadow mask 4 and lands on the fluorescent surface. Substantially, the beam passing through the aperture 8 is only 15-25%. . The remaining electron beam impinges on the shadow mask 4 surface and acts to raise its temperature to approximately 80 to 90 ° C.

As a result, the shadow mask 4 exhibits a doming phenomenon in which the thermal mask is thermally expanded in the screen direction. The thermal deformation of the shadow mask 4 is particularly large (12 to 13x10 ^-6 /). ℃) AK steel shadow mask is severely appeared.

In addition, the above-mentioned domming phenomenon causes mis landing of the phosphor and the electron beam on the screen, which leads to deterioration of color purity called Purity Drift.

As a remedy to overcome this problem, Korean Patent Publication No. 93-1182 (February 20, 1993) proposes a method of sequentially depositing an aluminum film and an aluminum nitride film on the surface of a shadow mask to suppress the above-mentioned domming. It is.

However, in the above-described manufacturing method, after depositing aluminum on the surface of the shadow mask, nitrogen gas is added at the end of the deposition process to form an aluminum nitride film on the aluminum film. Not only is difficult to form, but also increases the manufacturing cost.

[Means to solve the problem]

The present invention has been made to overcome the above-mentioned problems of the prior art, an object of the present invention is to provide a shadow mask for a color receiving tube to improve the color purity of the screen by suppressing the doming phenomenon caused by thermal deformation.

In addition, another object of the present invention is to provide a method for producing a shadow mask that can suppress the doming phenomenon and improve the color purity.

Accordingly, the present invention relates to a shadow mask for screening the color of the electron beam emitted from the electron gun through the aperture and landing on the fluorescent substance of the screen, including an aperture through which the electron beam passes, and having an approximately rectangular shape; The structure comprising a bead formed around the effective portion and a skirt portion bent substantially perpendicularly to the effective portion, characterized in that the ceramic layer is further formed on at least one front surface of the effective portion excluding the aperture.

Here, the ceramic layer may be made of B ₂ O ₃ having a thermal expansion rate of 4 × 10 ⁻⁶ / ° C. or less.

In addition, the present invention dissolves boric acid solid powder in pure water to make a 30% by weight of boric acid suspension, the boric acid suspension is applied to at least one side of the shadow mask effective portion and dried, and the funnel with the shadow mask mounted on the panel The present invention proposes a method for producing a shadow mask which is put into a furnace together with the sealing process of the panel and the funnel and at the same time performs the firing process of the ceramic layer.

In this case, the boric acid suspension is applied by spray or vibration spraying, and the firing temperature of the furnace is set at 450 ° C or lower.

[Example]

Best Mode for Carrying Out the Invention Preferred embodiments of the present invention will now be described in detail with the accompanying drawings.

1 shows a partial cutaway sectional view of the shadow mask according to the present invention, and reference numeral 10 in the drawing indicates the entire shadow mask.

As can be seen from the drawings, the shadow mask of the present invention includes a plurality of apertures 11 formed to pass through the electron beam, and a holeless portion 13 formed between the apertures 11, The effective part which consists of a rectangle is included.

In addition, the outer periphery of the effective portion is formed with a strength reinforcing bead and a skirt portion, as in the prior art, which is well known bar is omitted.

Here, a ceramic layer 15 having a low coefficient of thermal expansion is formed on the entire surface of one side of the effective portion, that is, the non-porous portion 13, except for the aperture 11, and the material of the ceramic layer 15 is 4 × 10 ^{−. It} may be composed of B ₂ O ₃ having a coefficient of thermal expansion of ⁶ / ℃ or less.

The ceramic layer 15 is formed in the effective portion of the shadow mask 10 on the side of the electron gun to which the electron beam is incident, and can also be formed on the screen side effective portion on the back side.

In this case, the ceramic layer 15 forms a low thermal expansion film on at least one side of the shadow mask 10 formed of AK steel, in particular, which acts to suppress thermal expansion of AK steel having a high coefficient of thermal expansion. It can be seen that.

More specifically, the shadow mask 10 in which the ceramic layer 15 according to the present invention is formed has a thermal strain of 30% compared to the shadow mask formed of a conventional AK steel as a result of a number of experiments by the applicant. It turns out that it can reduce abnormally.

In addition, the anti-doming effect as described above is to prevent the mis landing of the phosphor and the electron beam on the screen, it is possible to substantially improve the color purity of the color image tube.

Meanwhile, the method of manufacturing the ceramic layer 15 will be described in more detail as follows.

First, water-soluble boric acid (HBO ₃ ) solid powder is dissolved in pure water to 30% by weight to make a boric acid suspension. The boric acid suspension is applied to at least one entire surface of the shadow mask effective portion and dried in a furnace at 150 ° C.

At this time, the boric acid suspension is applied to the shadow mask by the spray method by vibration using the principle of spray or humidifier.

A shadow mask coated with a boric acid suspension is mounted on the panel as described above, and the funnel is put into a furnace for carrying out a firing and sealing process, which is a bulb manufacturing process of a color water tube together with a funnel. In this case, the furnace maintains a temperature of 450 ° C. The boric acid suspension is formed of a ceramic layer 15 through the firing process.

More specifically, the boric acid (HBO ₃₎ suspension furnace and injected initially is decomposed into _{H 2 ↑ + B 2 O 3} ( solid) in (less than 300 ℃), the end of B ₂ O ₃ (solid) in (less than 450 ℃) → B ₂ O ₃ (liquid) is changed, and the liquefied B ₂ O ₃ forms a dense ceramic layer 15 film in the cooling process.

On the other hand, since the B ₂ O ₃ can liquefy B ₂ O ₃ to flow when the furnace temperature exceeds 450 ℃ to block the aperture of the shadow mask, the temperature should always be maintained at 450 ℃ or less .

1 is a partial cutaway cross-sectional view showing a shadow mask according to the present invention,

2 is a perspective view showing a conventionally known shadow mask structure,

3 is a partial cutaway cross-sectional view showing a conventional shadow mask.

As in the above-described embodiment, it can be seen that the shadow mask for the color image tube according to the present invention can suppress thermal deformation, that is, the phenomenon of domming, by the electron beam collision, and ultimately improve the color purity of the screen.

In addition, the ceramic layer according to the present invention also has the effect of substantially removing the howling phenomenon due to the structural stability, as well as the thickening of the shadow mask.

Claims (5)

It includes an aperture through which the electron beam passes and is formed in a substantially rectangular shape, and an intensity reinforcing bead and skirt portion formed around the effective portion. In the shadow mask for color water pipes, A shadow mask for color receiving tubes, characterized in that a ceramic layer is further formed on at least one front surface of the effective portion excluding the aperture. The shadow mask of claim 1, wherein the ceramic layer comprises B ₂ O ₃ having a coefficient of thermal expansion of 4 × 10 ⁻⁶ / ° C. or less. The shadow mask for a color receiving tube according to claim 1, wherein the ceramic layer is formed on the entire surface of the effective portion on which the electron beam is incident. The boric acid solid powder is dissolved in pure water to make a 30% by weight boric acid suspension, and the boric acid suspension is applied to at least one surface of the shadow mask effective portion and then dried, and the shadow mask is put on the furnace together with the funnel with the shadow mask mounted on the panel. And a step of sealing the panel and the funnel while simultaneously performing a firing process of the ceramic layer. The method for producing a shadow mask for color water tubes according to claim 4, wherein the firing step of the ceramic layer is performed at a temperature of 450 deg.