JPH1186757A - Cathode-ray tube panel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow bacteria and mildews to be scarcely reproduced, even when a large quantity of dust is stuck to the outer surface of a cathode-ray tube panel and to make it sanitarily preferable by forming a film which applies an antibacterial property on the outer surface of the cathode-ray tube. SOLUTION: A film which contains antibacterial metallic ions and gradually eluting them on its surface is preferable, and antibacterial metal ions are contained in silicone resin or polyester resin, for example. One or two or more kinds of Ag, Cu, Zn, Pb, Hg, Sn, Pt, Au can be used as the antibacterial metal. By forming an electrification conductive film on the outer surface of a cathode- ray tube panel, the antibacterial metal ions are contained in the electrification conductive film, moreover dust is hardly stuck to it, and the reproduction of bacteria and mildews can be restrained. The electrification conductive film is formed on the outer surface of the panel, an antireflection film having a refractive index lower than that of the electrification conductive film may be formed on it, and the antibacterial metal ions may be contained in the antireflection film.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to CRT glass.

[0002]

2. Description of the Related Art A cathode ray tube is composed of a panel on which an image is projected, a funnel and a neck tube which form the back of the panel, and when a high voltage is charged on the panel, dust adheres to the outer surface of the panel to cause an image. The quality may be degraded, or electric discharge may occur with the human body.

In a cathode ray tube, an electron beam emitted from an electron gun mounted in a neck tube is deflected by a deflection coil mounted around a funnel. In particular, unnecessary electromagnetic waves generated from the deflection coil leak, thereby causing the cathode ray tube to be deflected. Malfunctioning other electronic devices around you,
There is a possibility that it has a bad effect on the human body.

Therefore, conventionally, it has been attempted to form a conductive antistatic film such as tin oxide (SnO ₂ ) on the outer surface of the panel, thereby preventing charging and shielding electromagnetic waves.

However, since SnO ₂ has a refractive index of 2.0, which is higher than the refractive index (1.536) of a glass panel, when a SnO ₂ film is formed on the panel, the surface reflection becomes large, and an image is formed. It is hard to see.

In order to suppress surface reflection, S
After forming the nO ₂ film, thereon may be formed a lower antireflection film refractive index than SnO ₂ film, an antistatic film made of SnO ₂ is formed by CVD on the outer surface of the example panel, on which It has been attempted to form an antireflection film made of a low refractive index material such as SiO ₂ by spin coating.

[0007]

SUMMARY OF THE INVENTION As described above, SnO ₂
By forming an antistatic film consisting of, it is possible to reduce the amount of dust adhering to the outer surface of the panel, but when used for a long time, a certain amount of dust adheres like other electric appliances and furniture. .

In recent years, awareness of safety and health has been rapidly increasing. However, if the panel surface of a television or a personal computer is left for a long time with dust adhered to it, it may be heated moderately during operation. And mold quickly grow easily and are unsanitary.

Particularly in a home where infants are present, when watching a television program or video, the panel surface is often touched or licked. Undesirable from.

An object of the present invention is to provide a panel for a cathode ray tube in which bacteria and mold are difficult to propagate even if dust adheres to the outer surface.

[0011]

The CRT panel of the present invention is characterized in that an outer surface of the CRT panel is provided with a coating providing antibacterial properties.

The CRT panel of the present invention is characterized in that the coating contains an antibacterial metal ion, and the antibacterial metal is composed of Ag, Cu, Zn, Pb, Hg, Sg,
It is characterized by being one or more of n, Pt and Au.

Further, the CRT panel of the present invention is characterized in that the coating is an antistatic film, an antireflection film or a film having fine irregularities.

[0014]

The CRT panel of the present invention has a coating that imparts antibacterial properties formed on the outer surface, so that it can be incorporated into a television, and even if a large amount of dust adheres to the outer surface, bacteria and mold can propagate. However, it is preferable in terms of hygiene.

The coating of the present invention preferably contains an antibacterial metal ion, and the antibacterial metal ion gradually elutes on the surface of the coating. For example, the coating is excellent in strength, adhesion to glass, and transparency. An antibacterial metal ion may be contained in a silicone resin, a polyester resin, or the like.

As antibacterial metals, Ag, Cu, Zn,
One or more of Pb, Hg, Sn, Pt, and Au can be used.

In the case of the antistatic film made of SnO _2, since the Sn ions are hardly eluted, it is impossible to impart a sufficient antibacterial property to the panel. On the other hand, attempts have been made to impart conductivity to the panel by coating a resin in which a metal such as Ag or Cu is dispersed, but it is a metal ion that has an antibacterial effect, and a metal that has not been ionized. Cannot expect much antibacterial action.

Further, when a charged conductive film is formed on the outer surface of the panel of the present invention and the antistatic film contains antibacterial metal ions, it is difficult for dust to adhere thereto, and the growth of bacteria and mold can be suppressed. Therefore, it is preferable.

Further, when an antistatic film is formed on the outer surface of the panel, an antireflection film having a lower refractive index than the antistatic film is formed thereon, and the antireflection film contains antibacterial metal ions. In addition to the above-described effects, the surface reflection is reduced, and the image is easily viewed.

Further, an antistatic film is formed on the outer surface of the panel, an antireflection film having a lower refractive index than the antistatic film is formed thereon, and a film having fine irregularities is formed thereon. When the coating contains antibacterial metal ions, in addition to the above-mentioned effects, diffuse reflection upon irradiation with a light beam from the outside increases, and conversely, regular reflection decreases, so that an antiglare effect can also be obtained.

As the antistatic film, a conventionally used film such as SnO ₂ or ITO can be used. However, a film containing fine particles of a highly conductive substance, ruthenium oxide or metal ruthenium, has excellent electromagnetic wave shielding properties. Is preferred.

As an antireflection film, SiO ₂ , Mg
Films such as F ₂ , CaF ₂ and Al ₂ O ₃ can be used,
Considering material cost and film strength, a SiO ₂ film (refractive index: 1.46) is preferable.

In the present invention, the coating for imparting antibacterial properties to the panel may be a film-like one which is previously adhered to the panel, or the coating material may be applied to the panel and then dried for coating. . As a method of forming an antistatic film or an antireflection film, a spin coating method, a dip coating method,
Known methods such as a spray coating method and a brush coating method are employed, and as a coating having finer irregularities, a film formed by spray coating a solution containing Si alkoxide to form a SiO ₂ film having irregularities on the surface is used. It is suitable.

[0024]

The CRT panel of the present invention will be described in detail below with reference to examples and comparative examples.

Example 1 First, the outer surface of a glass panel (refractive index: 1.536) was washed to remove dirt, dust, oil, etc., and then a silicone-based film containing Ag ⁺ ions in a resin (2 μm thick) ) Was thermocompression-bonded.

In order to evaluate the antibacterial property of this CRT panel, the glass panel 10 was cut into a size of 50 × 50 mm to obtain a test piece. Next, two types of bacteria, Escherichia coli and Staphylococcus aureus, were prepared and processed into gelatin sheets each having a concentration of 2 × 10 ³ / cm ^2. Each was pasted.
Thereafter, the cells were subjected to a culture test at 35 ° C. for 48 hours.

Thereafter, as a result of counting the number of bacteria, the number of viable bacteria in both Escherichia coli and Staphylococcus aureus was sharply reduced to less than 10.
It was found to have good antibacterial properties.

(Embodiment 2) As shown in FIG.
An antistatic film (refractive index: 1.75) 11 containing metal ruthenium fine particles, having a transmittance of 60% and a thickness of 150 nm is formed on the outer surface of the same glass panel 10 as described above, and then Ag is formed thereon. A SiO ₂ film (refractive index: 1.46) 12 containing ⁺ ions and having a thickness of 100 nm was formed.

The antistatic film 11 is obtained by washing and drying a glass panel, rotating the glass panel in a preheated state, and then, further comprising metal ruthenium fine particles and a silicate in an organic solvent, in a weight ratio of Ru 20: SiO _2. After the solvent dispersed at a ratio of 1 was dropped, the mixture was naturally dried, and then fired to form a film.

The SiO ₂ film 12 is rotated while the glass panel is preheated again, an alcohol solution containing SiO ₂ and silver nitrate (AgNO ₃ ) is dropped on the antistatic film, air-dried, and then fired. Formed.

When the antibacterial properties of the thus obtained CRT panel were evaluated, the number of viable bacteria was less than 10 for both Escherichia coli and Staphylococcus aureus. When the surface resistance of this panel was measured, it was as low as 6 × 10 ² Ω / □.
It had excellent electromagnetic wave shielding properties.

(Comparative Example) The antibacterial property of the same glass panel as in Example 1 was evaluated without any treatment on the outer surface. As a result, viable bacteria increased in both Escherichia coli and S. aureus.
It was found to have no antibacterial properties.

The reflectance of the CRT panel of Example 2 at a wavelength of 400 to 700 nm was measured.
As shown in FIG. 2, it had a low reflectance over a wide range, and also had excellent antireflection properties. Further, when the luminous transmittance of this panel was measured, it was about 50% as shown in the graph of FIG.

The above surface resistance value is measured by a super insulation resistance meter manufactured by Toa Denpa Co., Ltd. The reflectance is measured by MCPD1000 15 ° regular reflection manufactured by Otsuka Electronics Co., Ltd. And a U-4000 spectrophotometer manufactured by Hitachi, Ltd.

[0035]

As described above, since the CRT panel of the present invention has antibacterial properties, even if dust adheres to the outer surface, bacteria and fungi do not multiply and are preferable in terms of hygiene.

Further, an antistatic film is formed on the outer surface of the panel,
By forming an antireflection film containing an antibacterial metal thereon, not only antibacterial properties but also electromagnetic wave shielding properties and antireflection properties can be imparted.

[Brief description of the drawings]

FIG. 1 is a schematic longitudinal sectional view showing a CRT panel of the present invention.

FIG. 2 shows a wavelength of the CRT panel of Example 2 of 400 to 400 nm.
It is a graph which shows the reflectance curve in 700 nm.

FIG. 3 shows a wavelength of the CRT panel of Example 2 of 400 to 400 nm.
It is a graph which shows the transmittance curve in 700 nm.

[Description of Signs] 10 Glass panel 11 Antistatic film 12 SiO ₂ film

Claims (6)

[Claims] 1. A CRT panel comprising an outer surface on which a film for imparting antibacterial properties is formed. 2. The CRT panel according to claim 1, wherein the coating contains an antibacterial metal ion. 3. The antibacterial metal is Ag, Cu, Zn, P
3. The CRT panel according to claim 2, wherein one or more of b, Hg, Sn, Pt, and Au are used. 4. The CRT panel according to claim 1, wherein the coating is an antistatic film. 5. The CRT panel according to claim 1, wherein the coating is an anti-reflection coating. 6. The CRT panel according to claim 1, wherein the coating is a film having fine irregularities.