JPS62278738A - Color picture tube - Google Patents

Abstract

PURPOSE:To make temperature during operation of a frame restrainable, by making a heat radiation rate of the mask frame large than that in the same temperature of a shadow mask. CONSTITUTION:At a position proximately opposed to a phosphor screen 4, plural slitlike openings, being supported of their peripheral parts by a mask frame consisting of iron material and about 1.2 X 10<-5> deg<-1> in its thermal expansion coefficient, are disposed in a vertical direction. Likewise, a lot of shadow masks 5 disposed in a horizontal direction are supported via elastic members 12. This shadow mask 5 is composed of a 36% Ni-Fe alloy, namely, a so-called fan bar material as in 1.2X 10<6> deg<-1> smaller as compared with the iron material. With this constitution, any partial deformation in the shadow mask 5 during operation by a thermal expansion difference between the shadow mask 5 and the mask frame 7 can be prevented.

Description

[Detailed description of the invention] 3. Detailed description of the invention [Purpose of the invention] (Industrial application field) The present invention relates to a color picture tube.

(Prior Art) In general, a color picture tube consists of a vacuum envelope consisting of a panel, a funnel, and a neck. A phosphor screen consisting of a striped phosphor layer is adhered to the inner surface of the panel, and the neck is covered with a phosphor screen consisting of a striped phosphor layer. A so-called in-line electron gun that emits three electron beams is provided. Further, in a position close to the phosphor screen, a shadow mask having a large number of slit-like openings and whose peripheral portion is supported by a mask frame is supported via an elastic member.

The three gunshot beams are deflected by a deflection device outside the funnel and scan a rectangular range corresponding to a rectangular panel, thereby reproducing a color image.

In addition, when the electron beam is affected by external magnetic fields such as geomagnetism,
A magnetic shield is secured inside the funnel to prevent the color purity of the reproduced image from deteriorating.

In such a color picture tube, the number of horizontal arrangement pitches of the slit-like openings in the shadow mask must be equal to the pitch number of 173 in the striped phosphor layer. Therefore, less than 1/3 of the effective electron beam passes through the slit-shaped aperture, and the remaining electron beam impinges on the shadow mask and frame, sometimes heating the shadow mask and frame to about 80 degrees Celsius. become. Also,
In special color picture tubes used for indications in aircraft cockpits, the temperature of the shadow mask and frame sometimes rises to around 200°C. Such a shadow mask is generally formed of a thin plate approximately 0.2 m thick whose main component is iron, which has a relatively large coefficient of thermal expansion, and the peripheral portion is fixed by a strong mask frame approximately 1 m thick. .

The surface of this shadow mask and frame is 1, for example I+2
50 in an atmosphere such as O-N2 or CO□-N2
It is heated to 0° C. to 600° C., and a blackened film mainly composed of iron oxide is formed. However, the electron beam hitting the shadow mask and frame heats and expands the shadow mask and frame, changes the distance between the phosphor screen and the shadow mask (hereinafter referred to as the q value), and this q
If the change in value exceeds a permissible value, the electron beam will not land accurately on the striped phosphor, causing so-called mislanding and deteriorating color purity. In order to suppress the displacement of the landing position of the electron beam due to such thermal expansion of the shadow mask, a shadow mask material using a 36% Ni--Fe alloy, a so-called invar material, has been put into practical use. The thermal expansion coefficient of this invar material is about 1710, which is smaller than that of conventional cold-rolled steel sheets whose main component is iron, so that the thermal expansion of the shadow mask can be significantly suppressed. However, low thermal expansion metals such as amber alloy are generally more expensive than iron materials, and using low thermal expansion metals for the heavy frame as well as the shadow mask leads to a significant increase in costs. Therefore,
It is desirable to use a low thermal expansion metal only for the relatively lightweight shadow mask, and to use an inexpensive iron material for the heavy frame.

(Problems to be Solved by the Invention) However, according to a structure in which a low thermal expansion metal is used only for the shadow mask and the shadow mask is welded to the inner surface of the frame at multiple locations, the entire shadow mask structure is assembled during operation. When exposed to high temperatures (e.g. 200°C), the shadow mask made of low thermal expansion metal and the frame made of iron have different thermal expansions, so as shown by the dotted line in Figure 5, the shadow mask 0 The frame ω pushes and expands the tube in a direction perpendicular to the tube axis. As a result, the peripheral portion (5a) of shadow mask 0 is locally deformed.

The electron beam passing through the transmission hole of this deformed shadow mask (5b) causes mislanding. the result,
Color shift occurs and regular color reproduction is not possible.

There was a problem in that the effect of using a low thermal expansion material for Shadow Mask 0 could not be obtained.

The present invention was made in view of the above points, and an object of the present invention is to suppress the temperature during operation of the frame in a color picture tube equipped with a shadow mask structure using a low thermal expansion material only for the shadow mask. be.

[Structure of the invention]

(Means for Solving the Problems) The present invention provides a shadow mask structure in which a shadow mask made of a low thermal expansion material is welded to a frame made of iron material at a plurality of locations, and the thermal emissivity of the frame is the same as that of the shadow mask. This is a color picture tube equipped with a shadow mask structure whose thermal emissivity is larger than that at high temperatures.

(Function) Even if the shadow mask and frame are exposed to high temperatures during operation of the color picture tube, large thermal deformation does not occur because the frame has high heat dissipation properties.

(Embodiments) Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. That is, as shown in FIG.

A vacuum envelope is composed of a substantially rectangular panel (2), a funnel (2), and a neck (2).

A phosphor screen (A) consisting of a striped phosphor layer that emits red, green, and blue light is adhered to the inner surface of the panel (■), and is arranged in a line along the horizontal axis of the panel (■) on the neck (■). A so-called in-line type electron gun 0 is arranged and emits three electron beams (14) corresponding to red, green, and blue.

In addition, in a position close to and facing the phosphor screen,
Made of iron material and has a coefficient of thermal expansion of approximately 1.2 x 10-'de
A shadow mask (■) whose periphery is supported by a mask frame (-1), in which a large number of slit-like openings are arranged vertically, and in which a large number of holes are arranged horizontally, is inserted through an elastic member (12). It is supported by nine people.

This shadow mask ■ has a thermal expansion coefficient of 1.2×10-@
den-' is a 36% Ni-Fe alloy that is smaller than iron materials.

It is made of so-called amber material.

The three in-line array electron beams (14) are deflected by a deflection device (■) external to the funnel (■), scan a rectangular area corresponding to the rectangular panel (■), and pass through the apertures of the shadow mask (■). The light is sorted by color and landed on a striped phosphor layer to reproduce color images. Also.

The electron beam (14) is affected by external magnetic fields such as the earth's magnetism, and may not land accurately on the striped phosphor layer.In order to prevent the color purity of the reproduced image from deteriorating, a ferromagnetic metal is placed inside the funnel. A magnetic shield (8) made of a plate is secured via the frame (2).

On the surface of this mask frame ■, as shown in Figure 2,
A ceramic layer (io) containing metal oxides of silicon and zirconium is formed. This ceramic layer (10) is formed by a first-order advanced method.
Can be done. That is, zircon (ZrS) is used as a filler.
A suspension of silicon containing iO,) and a zirconia alkoxide compound 1 such as ZrSi (OC411s) 4 was coated to a film thickness of 15 mm by a spraying method.

Example Zircon Father [
Cut r silicon and zirconia alkoxide compound 100
Sir isopropyl alcohol 400
Spray the 1F suspension at a pressure of about 3 kg/a+ from a distance of 20C11 to 30cm. When sprayed on the surface of the mask frame, the amount of about
Can be formed in seconds. In this way, a ceramic layer (10) as shown in Fig. 2 is obtained by heating a shadow mask in which a suspension containing an alkoxide compound of silicon and zirconia is coated on the frame surface in an atmosphere of 70°C or higher. Ta. In other words, the alkoxide compound of silicon and zirconia applied to the surface of frame 0 is 70
Hydrolysis is caused by moisture in the air in an atmosphere of 0.degree. In the above example, the suspension was heated after being applied, but in order to shorten the manufacturing time, the subsequent heat treatment step can be omitted if the suspension is applied before heating at 70° C. or higher. In addition, this alkoxide compound of silicon and zirconia has good absorption characteristics of electromagnetic radiation in the infrared region, so when hydrolyzing it, it should not be done in an atmosphere of 70°C or higher, but rather in the frame to which the alkoxide compound of silicon and zirconia is applied. It was also confirmed that after applying a suspension containing an alkoxide compound of silicon and zirconia to the surface while irradiating the surface with infrared rays, sufficient hydrolysis occurred even at room temperature. Furthermore, it is also possible to irradiate with infrared rays after coating.

The mask structure completed as described above is inserted into a panel, joined by a funnel and frit glass, and after exhaust sealing, a color picture tube is obtained through a predetermined process.

Here, the present inventors conducted a detailed experimental study on the temperature rise of the frame (2) when a 21-inch, 90° C. deflection type color picture tube was operated using a deflection device to which the present invention was applied. Third
The figure shows the results. The horizontal axis shows the thickness of the ceramic layer (1o) containing metal oxides of silicon and zirconium, and the vertical axis shows the temperature rise during operation of the Freno, (2) when the ceramic layer (lO) is not formed, that is,
Relative values are shown based on the case where the surface of the frame (3) is coated only with a blackening film mainly composed of iron oxide, similar to the surface of the shadow mask. From this figure, it was found that by forming the ceramic layer (10) on the surface of the frame (2), the temperature rise of the frame (2) was suppressed. This means that the specific surface area of the ceramic layer (10) formed on the surface of the frame (■) is approximately 50% of the specific surface area of the frame (■).
In other words, the surface area of Ceramic M (10) is about 50 times that of Frame (2), which greatly improves heat dissipation. Therefore, the temperature rise is significantly suppressed compared to a shadow mask having a blackened film mainly composed of oxides of iron. The specific surface area is measured using BET, which is calculated from the amount of nitrogen gas adsorbed at low pressure.
It was done according to the law.

On the other hand, in FIG. 3, when the thickness of the ceramic layer (10) becomes approximately 10 μs or more, the temperature suppression effect is saturated.

This is because when the thickness of the ceramic layer (10) increases, the ceramic layer (10) near the surface of the frame 0, in other words, the lower layer of the ceramic layer (10) does not contribute much to improving heat dissipation, and the ceramic layer This is thought to be because only the surface layer region (10) greatly contributes to heat dissipation.

Furthermore, since ceramics such as those used in the embodiments of the present invention generally have high electrical insulation properties, when using such materials, as shown in FIG. Mask frame surfaces (7a) and (7b)
) is preferably not provided with a ceramic layer (10). In addition, in the embodiment of the present invention, as shown in FIG.
As shown.

It goes without saying that the same effect can be obtained even if the shadow mask (2) is fixed to the outside of the frame (2).

〔Effect of the invention〕

As mentioned above, even if a low thermal expansion material is used for the shadow mask and an inexpensive pure iron is used for the mask frame, the thermal emissivity of the mask frame can be improved. It is possible to prevent local deformation of the electron beam and keep mislanding of the electron beam sufficiently small for a long period of time from the initial stage of operation, thereby providing a color picture tube with good color reproducibility and excellent industrial mass production.

[Brief explanation of drawings]

FIG. 1 is a sectional view of a color picture tube according to the present invention. FIG. 2 is a schematic sectional view showing one embodiment of the present invention, FIG. 3 is a characteristic diagram showing the temperature rise during operation of the mask frame according to the present invention, and FIG. 4 is a schematic diagram showing another embodiment of the present invention. FIG. 5 is a schematic cross-sectional view showing the deformation of a conventional shadow mask during operation. (G)...Panel ■...Funnel■・
・Neck (A)... Screen 0... Shadow mask ■... Electron gun ■... Mask frame
(10) Ceramic layer agent Patent attorney Norio Chika Yudo Norio Ogo Figure 1 Figure 4 Figure 2 Figure 3 Figure 5

Claims (4)

[Claims] (1) A vacuum envelope in which a substantially rectangular panel, a funnel-shaped funnel, and a neck are connected; a phosphor screen formed on the inner surface of the panel; A color picture tube comprising an electron gun that emits a plurality of electron beams for exciting and emitting light, and a shadow mask suspended by an elastic member via a rectangular mask frame so as to closely face the phosphor screen, A color picture tube characterized in that the thermal emissivity of the mask frame is higher than the thermal emissivity of the shadow mask at the same temperature. (2) The color picture tube according to claim 1, wherein the mask frame has a porous layer on its surface. (3) The color picture tube according to claim 1, wherein the mask frame has a ceramic layer containing metal oxides of silicon and zirconium on its surface. (4) The color picture tube according to claim 1, wherein the mask frame has a thermal expansion coefficient larger than that of the shadow mask at the same temperature.