KR100280703B1 - Display system emitting anion - Google Patents

Abstract

The present invention provides a display system having a panel, a cathode ray tube having a funnel sealed to an end of the panel, an anion layer having a case on which the cathode ray tube is mounted, and an anion coating layer formed on a predetermined portion of the cathode ray tube and the case. In the present invention, an anion coating layer is formed on a cathode ray tube or a case predetermined portion to generate an anion beneficial to a human body.

Description

Display system having an anion layer {Display system emitting anion}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display system, and more particularly, to a display system having an anion layer coated on a predetermined portion of a case or a cathode ray tube in which a coating layer that emits anions.

An ion is an atom with a charge. Among them, ions charged with a positive charge value are called cations, and charged with a negative charge value are called anions.

When the cations are inhaled by the human body, the active oxygen in the blood is not controlled, and the ability to pass through electrolytes and waste products such as sodium and potassium worsens, and toxins accumulate in the body. Accordingly, not only cancer but also adult diseases and ageing progress. In addition, since exhaust gas emitted from an automobile or the like is charged with positive ions, symptoms such as dizziness, nausea and anxiety may occur.

On the other hand, when negative ions are inhaled into the human body, the cells of the living tissue are activated to activate the metabolism of transport and exchange of electrolytes and waste products such as sodium and potassium across the cell membrane. Therefore, it is known that the natural therapeutic ability is increased and the exercise of autonomic nerves is also activated. Representative negative ion effects include increased immunity, mental stability, improved body function, waste discharge, respiratory function, and fatigue.

Recently, our daily life is decreasing anions and increasing cations. This is due to the vehicle's exhaust and artificial living environment. The friction generated by the flow of air between the building and the building in a complex, the cation is generated, the small dust in the air traps the anion.

In particular, display systems such as computers and televisions generate large amounts of cations. In a display system mainly used indoors, it emits approximately 550 or more cations and no anion. In particular, the increase in cation is further increased in a fully enclosed office.

Recently, a separate negative ion generator is installed in the display system to neutralize the charge. As such an anion generator, the apparatus using a corona discharge system is mentioned. The corona discharge method uses a device composed of an ionization needle and a dust collecting plate on which a gold plated layer is formed, and when a high voltage is applied to the device, a corona discharge is generated therebetween. By this discharge, a large amount of electrons fly out of the ionization needle toward the dust collecting plate, diffuse into the air, and the surrounding air molecules, particularly oxygen molecules, are negatively ionized. If this is expressed as a chemical formula, it is the same as

O ² → O ² + e ^-

O ² + e ^- → O ^3-

The problem at this time is ozone which is generated together with the generation of ions. Due to the generation of ozone and nitrogen oxides that are harmful to the human body, the legal restrictions on the amount of ozone are strict, and some of the oxygen molecules produced by the corona discharge method are chemically changed by the discharge energy. Has a discomfort to the user.

In addition, the negative ion generating device using the corona discharge method generates hundreds of thousands of negative ions, but since there are at most thousands of negative ions near waterfalls and forests, which are known to exist in nature naturally, hundreds of thousands of negative ions are human. It is also questionable whether it can be argued that it is beneficial to the health of people, and in order to install it in the display system, it has to have a separate space part, and it causes another harmful factor due to the electromagnetic wave generated when the power is applied.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a display system having an anion layer whose structure is improved to form a coating layer that emits anions at a predetermined portion of the display system.

1 is an exploded perspective view showing a display system according to a first embodiment of the present invention;

Figure 2 is an exploded perspective view showing a display system according to a second embodiment of the present invention.

<Brief description of symbols for the main parts of the drawings>

10,20. Display System 11,21. Cathode ray tube

12,22. Case 13,23. panel

14,24. Funnel 14a, 24a. Neck

14b, 24b. Khonbu 15,25. Electron gun

16,26. Deflection yoke 100,200. Anion coating layer

In order to achieve the above object, a display system having an anion layer according to an aspect of the present invention includes a panel having a surface material layer coated on its front surface, and a funnel having an outer graphite layer formed on an outer circumferential surface thereof and sealed with an end of the panel. Cathode ray tube having a; A case having a space in which the cathode ray tube is mounted; And an anion coating layer formed on a predetermined portion of the cathode ray tube and the case.

Alternatively, the anion coating layer is made of at least one material selected from aluminum oxide, silicon oxide, titanium oxide, zirconium oxide.

Here, the anion coating layer is formed by mixing a predetermined ratio with the raw material of the surface material layer of the panel.

Alternatively, the anion coating layer is formed on the outer circumferential surface of the funnel, characterized in that formed in a predetermined ratio in the raw material to form the outer graphite layer.

Alternatively, the anion coating layer has a predetermined thickness inside or outside the case, or is contained in a predetermined ratio in the raw material of the case.

Hereinafter, a display system having an anion layer according to an aspect of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a display system 10 according to a first embodiment of the present invention.

Referring to the drawings, the display system 10 is provided with a cathode ray tube 11 to form an image by receiving power, and a case 12 on which the cathode ray tube 11 is mounted.

The cathode ray tube 11 includes a panel 13 having a surface material layer coated on its front surface, and a funnel 14 sealed to an end of the panel 13. The neck portion 14a of the funnel 14 is provided with an electron gun 15 for exciting the phosphor formed on the inner surface of the panel 13, and the cone part 14b of the funnel 14 is mounted from the electron gun 15. A deflection yoke 16 for deflecting the scanned electron beam is provided. The cathode ray tube 11 may be mounted to a case 12 having a space part.

Here, the coating layer 100 for emitting negative ions according to the features of the present invention is formed in a predetermined portion of the display system 10. The anion coating layer 100 is applied to the outer surface of the cathode ray tube 11, such as the front surface of the panel 13, the outer circumferential surface of the funnel 14, or the inside and the outside of the case 12 with a thickness of a thin film.

At this time, the main component constituting the anion coating layer 100 is aluminum oxide (Al ₂ O ₃ ), silicon oxide (SiO ₂ ), zirconium oxide (ZrO), titanium oxide (TiO ₂ ) that can emit a predetermined amount of anions in a natural state ), And the anion coating layer 100 is made of a mixture prepared with a certain ratio thereof.

In addition, the anion coating layer 100 may be manufactured by combining the main components in various ratios in consideration of the interference on the image of the display system 10 and the particle diameter of each particle.

In addition, the anion coating layer 100 is prepared in the form of a paste or a liquid such as a coating liquid to be applied to the outer surface of the cathode ray tube 11 or the inside and outside of the case 12.

2 is a display system 20 showing a second embodiment of the present invention.

Referring to the drawings, the display system 20 is provided with a cathode ray tube 21 and a case 22 for mounting it. As illustrated in FIG. 1, the cathode ray tube 21 includes a panel 23 having a surface material layer coated on its front surface, and a funnel 24 sealed to an end of the panel 23.

An electron gun 25 for exciting the phosphor of the panel 23 is inserted into the neck portion 24a in the funnel 24, and the electron beam emitted from the electron gun 25 is deflected horizontally and vertically in the cone portion 24b. The deflection yoke 26 is mounted. On the outer circumferential surface of the funnel 24, an outer graphite layer 27 is applied to a predetermined portion to stabilize the anode (not shown) to which a high pressure of 25 kV is applied by acting as a capacitor and a built-in graphite layer applied therein.

Here, an anion coating layer 200 composed mainly of aluminum oxide, silicon oxide, zirconium oxide, titanium oxide, or the like is mixed with the raw material of the cathode ray tube 21 or the case 22 to provide the display system 20. It can manufacture.

In other words, the case 22 is produced by mixing the anion coating layer 200 with a raw material at a desired ratio during manufacture. This means that an anion coating layer 200 having a property of spontaneously emitting tens to thousands of anions is present as a material of the raw material constituting the case 22.

In addition, in the case of the cathode ray tube 21, the anion coating layer 200 may be, for example, at a predetermined ratio in the exterior graphite layer 27 applied to the surface material layer of the panel 23 or the outer circumferential surface of the funnel 21. It can also manufacture by mixing.

The display system 10 or 20 of the present invention manufactured as described above may be provided with tens or hundreds of hundreds of hundreds or hundreds of Negative ions generate neutralization of charge.

As described above, the display system having an anion layer of the present invention forms an anion coating layer on a cathode ray tube or a predetermined case to generate an anion beneficial for the human body, thereby purifying the blood, active metabolism and cell activation, and disease. High resistance and control of the autonomic nervous system are possible.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (7)

A cathode ray tube having a panel coated with a surface material layer on a front surface thereof, and a funnel sealed to an end of the panel and having an outer graphite layer formed on an outer circumferential surface thereof; A case having a space in which the cathode ray tube is mounted; And And an anion coating layer formed on the cathode ray tube and the case. The method of claim 1, The anion coating layer is a display system having an anion layer, characterized in that made of at least one material selected from aluminum oxide, silicon oxide, titanium oxide, zirconium oxide. The method of claim 2, The anion coating layer is a display system having an anion layer, characterized in that formed by mixing the raw material of the surface material layer of the panel. The method of claim 2, The anion coating layer is formed on the outer peripheral surface of the funnel display system. The method of claim 2, The anion coating layer is a display system having an anion layer, characterized in that formed in the raw material forming the outer graphite layer. The method of claim 2, The anion coating layer is a display system having an anion layer, characterized in that formed on the inside and outside of the case. The method of claim 2, And the anion coating layer is formed by being contained in the raw material of the case.