KR800000961Y1 - Explosion proof type cathode ray tube - Google Patents

Abstract

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Description

Explosion-proof cathode ray tube

1 is a side view of a partial cross-sectional view showing an example of a conventional cathode ray tube for the purpose of description of the present application.

2 is a cross-sectional view of the main portion showing an example of the explosion-proof cathode ray tube of the present application.

3rd is its front view.

In the color cathode ray tube, various reinforcement treatments are given to the cathode ray tube in order to prevent the crashing of the tube. One of them is a cathode ray tube which is reinforced by injecting a transparent resin such as a polyester resin or an epoxy resin between the front faceplate of the CRT and a protective panel (for example, a glass panel) to be disposed in front of the CRT. . By the way, since the high voltage of about 20KV is normally applied when the color cathode ray tube is used, the screen is charged, and the human body does not disappear on the screen as well as during and immediately after use. If touched, electric shock may occur. Although the degree of electric shock varies depending on individual differences, room temperature, and humidity, it is hard to say that it is dangerous in a word. However, children or people with a particular physical condition susceptible to shock cannot be treated as in the case of ordinary adults.

Such charging may also occur in an explosion-proof cathode ray tube in which resin is injected into the entire faceplate.

On the other hand, several antistatic cathode ray tubes are also proposed. For example, as shown in FIG. 1, the transparent conductive layer (for example, tin oxide film) 3 is heat-compressed on the face plate front surface 2 of the CRT tube 1, and the transparent conductive layer 3 is, for example, fixed band 4. Although grounding is prevented and screen charging is prevented, in this case, when a transformer circuit is used, a commercial voltage is applied to the transparent layer 3, which causes a risk of electric shock and cannot be used for practical use. .

In view of this, this manuscript attempts to reduce the electric shock by ensuring the explosion-proof of the CRT in a simple configuration and effectively drawing the charge on the screen to the ground. .

Next, based on FIG. 2 and FIG. 3, an example of the explosion-proof cathode ray tube in this manuscript is demonstrated.

In the drawing, reference numeral 5 denotes an explosion-proof cathode ray tube according to the present document as a whole, and reference numeral 6 denotes a face plate of the CRT tube, and a fluorescent surface 7 is deposited on the inner surface thereof and an electron beam facing the inner face of the face plate. The arrival positioning electrode 8 is arranged.

In this manuscript, a transparent protective panel 9 such as a glass panel is disposed on the front surface of the face plate 6 so as to face the front plate 6, and the transparency between the protective panel 9 and the front plate surface is not impaired. The explosion-proof body 11 is comprised by inject | transmitting the transparent conductive resin layer 10 which disperse | distributed an electroconductive substance so that electric resistance was small, and not having a small electric resistance. In the outer peripheral surface of the face plate 6, a part is interposed between the conductive resin layer 10 and the face plate surface at one or plural places (four in this example) to form the conductive resin layer 10. The conductive layer 12 in electrical contact with the film is deposited, and the resin layer 10 is grounded through the conductive layer 12. As the conductive layer 12, a conductive tape such as aluminum tape, copper tape or the like, or a conductive paint can be used. In the case of aluminum tape, for example, a pressure-sensitive adhesive on one side with a width of 25 mm and a thickness of 0.1 mm Can be used. The conductive layer 12 is formed over the back of the faceplate 6 in an ineffective screen portion, and the front end is interposed between the surface of the faceplate 6 and the resin layer 12, and the rear end is also provided. It extends to the position of the metal fixing band 13, and the fixing band 13 is wound directly on this rear end. The fixing band 13 is provided with the fitting metal fittings 14 integrally with the four upper parts thereof, and is grounded through suitable means. In particular, a conductive tape such as an aluminum tape may be brought into electrical contact with the conductive resin layer 10 when the conductive resin layer 10 is injected and cured if the adhesive tape is adhered to the face plate 6 in advance. There is no need to heat-press the conductive paint such as paint.

On the other hand, the conductive resin is preferably formed by adding a metal soap to an unsaturated polyester resin, the resistance value is a low resistance value of 10 ⁶ ~ 10 ⁸ kPa.

EXAMPLE

100 parts of unsaturated polyester resin (weight ratio)

Potassium fatty acid 0.2-1 part

0.2-1 part water

Triethylene glycool 0.6-3 part

Methyl ethyl ketone peroxide 0.1-1 part

(硬化 觸媒)

Alternatively, in another embodiment, 1 to 2% of heavy metal soap mainly containing calibinate, metal chelating agent and surfactant may be added to the distributed polyester.

According to the experiment, when the conductive resin layer 10 was used as the resin layer constituting the explosion-proof agent and grounded through the conductive layer 12 and the fixing band 13, charging of the entire CRT surface during operation was remarkable. It was confirmed that the electrical shock was remarkably reduced. In addition, even when the low-resistance resin layer 10 was used, it was not possible to reduce the electric shock when the ground was not grounded.

As described above, according to the present manuscript, the explosion-proof body 11 is formed as the conductive resin layer 10 and the protective panel 9 on the entire faceplate of the CRT. The resin layer 10 significantly reduces the charge on the entire surface of the CRT during or immediately after use, and avoids an electric shock accident to the human body even if the human body is inadvertently approached or touched the CRT surface. . In addition, the charge on the front of the CRT is remarkably small, so that dust does not get on the screen and there is no deterioration in image quality.

In addition, even if a transformer circuit is used, a part to which a commercial voltage is applied, that is, a fixed band and a conductive resin layer 10, is present in the cabinet, and the front surface is covered with an insulator glass panel 9, so that an electric shock may occur. Therefore, it can be applied to a cathode ray tube using a transformer circuit.

In addition, since the electrostatic resin layer 10 is used, the electrostatic capacity of the CRT increases by about 200 to 300 PF, so that the capacitor used for the smoothing circuit can be reduced in capacity.

In addition, as the grounding means of the conductive resin layer 10, the conductive tape is attached to a suitable place around the face plate 6, or the conductive paint is heated and pressed to contact the conductive tape or the conductive paint ( 10) is injected and the fixing band 13 which is to be grounded directly on the conductive tape or the conductive paint is wound so that the fabrication and assembly thereof are simplified and workability is improved.

Claims (1)

As shown in the drawing and described in the text, an explosion-proof body made of a transparent conductive resin layer 10 and a protective panel 9 is deposited on the face plate of the cathode ray tube, and a face plate (a part of the outer periphery of the face plate is formed). 16) An explosion-proof cathode ray tube formed by grounding the resin layer 10 through a conductive layer 12 interposed between a surface and the resin layer 10.