DE4308491A1 - - Google Patents

Abstract

A cathode ray tube comprises: an electron gun for emitting an electron beam; a deflecting coil unit 24 for deflecting the electron beam emitted from the electron gun; and a conductive layer 34 covering a lower region of the deflecting coil unit and electrically grounded and having a resistance of less than 10<3> OMEGA per unit area to provide a shield for the alternating fields generated by the deflection coils. Preferably a diaphragm-like insulating layer 33 is inserted between the conductive layer 34 and the deflecting coil unit 24 and the conductive layer 34 is connected to loss resistance layer 27. With this arrangement, in a CRT used such as in a color television, it is possible to adequately shield the alternating field, which might have adverse effects on the human body. <IMAGE>

Description

The invention relates to a cathode ray tube the preamble of claim 1.

Fig. 2 shows the cross section of a known cathode ray tube, which is disclosed, for example, in Japanese Patent Publication No. Sho 57-47 544.

Referring to FIG. 2, the known cathode ray tube, a vacuum vessel 11 which is composed, are arranged in a display window 12, a cone portion 14 and a neck portion 15 in which electron guns.

A display screen 13 is located on the inner surface of the display window 12 . In a cathode ray tube used for ordinary color television, the display screen 13 has many lines or dots of luminous areas, three each in a set.

In the neck section 15 , three electron guns 16 , 17 and 18 are attached. From these electron guns emitted electron beams 19 , 20 and 21 go through an opening 22 in a shadow mask 23 and then hit the illuminated areas of the display screen 13 to individually produce colors. These three electron beams 19 , 20 , 21 are deflected together in both the image and the line deflection directions by using a deflection coil unit 24 .

The deflection coil unit 24 is arranged around a connection area with a small diameter between the neck section 15 and the cone section 14 . A surface of the vacuum vessel on a lower part of the deflection coil 24 is usually made of glass, which forms the vessel itself, and its resistance is infinite. However, in the special case, a conductive layer 25 with a resistance of 10⁶ to 10 ¹⁰ Ω per unit area is provided on the surface of the vacuum vessel for the purpose of a shield, which is located outside the cone section 14 and is electrically provided with a layer 27 with low resistance connected is.

The operation of this known cathode ray tube is described below. For the operation of the cathode ray tube, the electron beams 19 , 20 and 21 emitted by the electron guns attached in the neck section 15 are electromagnetically deflected by the deflecting coil unit 24 , and a high voltage is applied to the display screen 13 located on the inner upper surface of the display window 12 to accelerate the electron beams, generating energy to excite the luminous surface which emits light.

Although the conductive layer 25 is formed with a resistance of 10⁸ to 10 ¹⁰ Ω per unit area in the lower region of the deflection coil unit 24 , it is intended to serve as an electrostatic shield against a potential generated between the deflection coil 24 and the vacuum vessel. Furthermore, although the conductive layer 25 is connected to the low resistance layer 27 and is grounded, a substantially adequate insulation between the conductive layer 25 and the deflection coil unit 24 is ensured, since the conductive layer 25 has a resistance of considerable size.

However, it has recently started to have adverse effects electromagnetic waves on the human body reported by. Regarding the display screen (Anzei gemonitor) of a cathode ray tube Note that this is mainly from the deflection coils generated alternating field a harmful effect has the human body. As a result of this change des in an effort to protect the human body any adverse influence of electromagnetic world len, which are emitted by the display monitor protect, in 1991 at least the Swedish national Committee for Measurement and Testing Technology (NPR-II) and the Swedish Central Laboratory (TCO) standards regarding the permissible radiated by a display monitor electromagnetic waves. The content these standards are shown in Table 1.

As can be seen from Table 1, according to Nor of the Swedish Central Laboratory (TCO) wrote that the permissible electromagnetic Waves for the alternating field from 2 kHz to 400 kHz (i.e. the VLF band) emitted by the display monitor are less than 1.0 V / m, and continues to be prescribed that the permissible electromagnetic waves for the alternating field from 5 Hz to 2 kHz (i.e. the ELF band) are less than 10 V / m.

It was difficult against the AC field, in particular that of the VLF band from 2 kHz to 400 kHz, which by through the CRT display window goes and a harmful influence on the body of a viewer could have a suitable ab to achieve shielding.

Given the problems outlined above, it is the Object of the present invention, a cathode to create a ray tube that relates to a shield Lich an alternating field in the VLF band from 2 kHz to 400 kHz from those emitted by a display monitor electromagnetic waves through the front surface pass through the cathode ray tube and cause damage can have an effect on the human body ten, enables.

According to the invention, there is provided a cathode ray tube comprising: an electron gun for emitting an electron beam; a deflection coil unit for deflecting the electron beam emitted by the electron gun and a conductive layer which covers a lower region of the deflection coil unit and is electrically grounded, and which has a resistance of less than 10 ³ Ω per unit area. It is advantageous to insert an insulating layer between the conductive layer and the deflection coil unit.

With this cathode ray tube, it is possible partly because the interference radiation from the conductive layer located in a lower region of the deflection coil unit is electrostatically shielded with a resistance of less than 10 ³ Ω per unit area, and partly because the conductive layer is electrical is grounded to form a field shield to shield the alternating field in the VLF band, which could pass through the display window of the CRT and could have an adverse effect on the human body. This field escapes from the deflection yoke through the vacuum vessel and the display window. In order to ensure the effect of the present invention, it is important that a shadow mask with a shielding effect should be arranged within the display window.

The invention is based on one in the Drawing illustrated embodiment closer explained. It shows

Fig. 1 is a cross-sectional view of a cathode ray tube according to an embodiment of the invention, and

Fig. 2 is a cross-sectional view of a known cathode ray tube.

The cathode-ray tube shown in FIG. 1 has, like the known cathode-ray tube, a vacuum vessel 11 which is composed of a display window 12 , a cone section 14 and a neck section 15 , in which electron guns described below are attached. On the inner surface of the display window 12 there is a display screen 13 . The display screen 13 has a plurality of lines or dots of lighting areas, each in a set.

In the neck area 15 , three electron guns 16 , 17 and 18 are attached. From these electron guns emitted electron beams 19 , 20 and 21 go through an opening 22 in a shadow mask 23 and then hit the illuminated areas of the display screen 13 to individually generate colors. These three electron beams 19 , 20 and 21 are deflected together in both the image and the line deflection device by using a deflection coil unit 24th

The deflection coil unit 24 is arranged around a small-diameter connection area between the half section 15 and the cone section 14 . A portion of the vacuum vessel located in a lower portion of the deflection coil 24 is covered by a conductive layer 34 that has a resistance of less than 10 ³ Ω per unit area, and is also electrically connected to a low resistance layer 27 , which is located outside the cone section 14 . The conductive layer 34 is covered with a membrane-like insulating layer 33 . Furthermore, the low resistance layer 27 is connected to a frame and thereby electrically grounded.

The operation of this cathode ray tube is described below. For the operation of the cathode ray tube - as in the known cathode ray tube - the electrons emitted by the electron guns fixed in the neck portion 15 rays 19 , 20 and 21 are electromagnetically deflected by the deflection coil unit 24 , and a high voltage is applied to the inner surface of the Display window 12 located display screen 13 is applied to accelerate the electron beams, whereby energy is generated to excite the luminous surface so that it emits light.

In the cathode ray tube according to this execution example, the ent-softening of the deflection coil 24 alternating field through the conductive layer 34 is shielded, the coil unit in a lower portion of the deflector 24 is formed and has a resistance of less than 10 ³ Ω per unit area. Thus, it is possible, in part because the alternating field generated by the deflection coil 24 to the conductive layer yaws 34 with low resistance Conver, and partly connected because the conductive layer 34 was electrically connected to the layer 27 of low reflection and therefore a reasonable nied resistance is grounded sufficiently to shield the alternating field (VLF band), which could have harmful effects on the human body.

Since the deflection coil unit 24 and the conductive layer 34 are arranged very close to each other, sufficient insulation cannot be expected with the wires covered with an insulating film used in the known deflection coil unit 24 . Accordingly, in the cathode ray tube of this embodiment, a membrane-like insulating layer 33 is formed between the deflection coil unit 24 and the conductive layer 34 , so that a rollover between them is prevented.

Since a conductive layer with a resistance of less than 10 ³ Ω per unit area is formed and electrically grounded in a lower region of the deflection coil unit, it is possible in the cathode ray tube according to the invention to adequately shield the alternating field from electromagnetic waves emitted by the deflection coil unit, that could go through the display window of a cathode ray tube and have adverse effects on the human body.

Claims (3)

1. cathode ray tube with an electron gun for emitting an electron beam and egg ner deflection coil unit for deflecting the electron beam emitted by the electron gun, characterized in that a lower region of the deflection coil unit ( 24 ) covering conductive layer ( 34 ) is provided, which is electrically grounded and has a resistance of less than 10 ³ Ω per unit area. 2. A cathode ray tube according to claim 1, characterized in that a membrane-like insulating layer ( 33 ) between the conductive layer ( 34 ) and the deflection coil unit ( 24 ) is inserted. 3. A cathode ray tube according to claim 1 or 2, characterized in that a shadow mask ( 23 ) with an opening ( 22 ) through which the electron beam ( 19 , 20 , 21 ) passes, and a branch screen ( 13 ) with lighting areas by the electron beam ( 19 , 20 , 21 ) that has passed through the opening ( 22 ) and generate individual colors are provided.