RU2039393C1 - Color cathode-ray tube without internal screen - Google Patents

Abstract

FIELD: color cathode-ray tubes. SUBSTANCE: color cathode-ray tube has bulb built up of funnel and panel mounting electron gun and shadow mask. Internal surface of funnel carries conducting layer of alloy having the following composition, mass percent: Fe 10-87; Ni 11-89; Mn - 0.38-0.58. Conducting layer may contain, in addition, high- resistance material, or high-resistance material, such as titanium, may be placed in region of anode cap and/or electron gun holder contact to transmit voltage from anode cap to electron gun holder contact. EFFECT: improved design. 5 cl, 4 dwg

Description

 The invention relates to a color cathode ray tube (CRT) without an internal screen and, in particular, to an improved color CRT that has a sufficient shielding effect against the geomagnetic field even without an internal screen, which is used in shielding a geomagnetic field.

 Known color CRTs with an inner screen to protect the electron beam from the geomagnetic field [1] The introduction of such a screen in a CRT, in addition, the presence of a graphite layer on the inner surface of the CRT flask can lead to contamination of the inside of the tube, it is possible clogging holes in the shadow mask or phenomenon arc discharge.

Known color CRT without an internal screen containing a balloon obtained by a combination of a panel and a funnel, an electronic searchlight, a shadow mask frame assembly and a conductive layer formed on the inner surface of this funnel and made of a material selected from the group consisting of high permeability metals or its alloys [2]
The technical result of the invention is the achievement in a color CRT without a magnetic screen, the screening effect of the geomagnetic field is no worse than in the case of using a magnetic screen.

 Figure 1 shows a cathode ray tube, in cross section, corresponding to the present invention (example 1); in FIG. 2 plot A in figure 1 (enlarged); in Fig.3 plot B in Fig.1 (enlarged); figure 4 is a cross section of a cathode ray tube corresponding to the present invention (example 2).

 PRI me R 1. Color CRT 1 (figure 1) without a magnetic screen contains a funnel 2, a panel 3, an electronic spotlight 4, a frame 5 and a shadow mask 6, the inner surface of the funnel 2 is covered with a metal layer 7.

The inner metal layer 7 (FIG. 2) is electrically connected to the anode cap 8, to which a high voltage is applied from the outside. Layer 7 serves as a conductor for conducting high voltage from the anode cap 8 to the electronic spotlight 4 through the holder 9 of the electronic spotlight. Layer 7 contains the following components, wt. Steel (Fe) 10-87 Nickel (Ni) 11-89 Manganese (Mn) 0.38-0.58
The metal coating layer 7 contains the following components, wt. Steel (Fe) 10-15 Nickel (Ni) 70-85 Manganese (Mn) 0.38-0.48
It is desirable that these elements are deposited under vacuum in an alloy state, and the heater for heating during deposition should preferably be a bornite furnace containing boron as the main component, while the method of microwave induction heating can be adopted depending on the circumstances. The deposition limits should cover the entire area that surrounds the deviation region of the electron beams, not excluding the cervical portion of the funnel, where the electronic searchlight 4 is installed.

 The area where the anode cap 8 of the funnel 2 is exposed, and part of the areas surrounding the aforementioned area, must not be covered with a metal coating layer, as shown in FIG. 2, while the metal coating layer 7 and the anode cap 8 must be electrically connected through a separate layer of high resistance R1. The contact portion of the holder 9 of the electronic spotlight 4, placed near the cervical portion, and part of the surrounding area must also be covered with a high-resistance layer R2 of the same kind as shown in FIG. 3, so that the metal coating layer 7 and the electronic spotlight 4 must be electrically connected through a layer of high resistance R2. However, the high-resistance layers R1 and R2 can be selectively formed in any of the sections depending on its resistance value.

PRI me R 2. In contrast to the case of example 1 in the color CRT 1a in figure 4, the elements of metals Fe, Ni and Mn are mixed with a high resistance material so that the resulting metal coating layer 7a should have a high resistance. The titanium mixture, especially titanium oxide (TiO ₂ ), can be used as a high-resistance material, i.e. the entire inner surface of the funnel 2 is covered with a metal coating layer 7a so that the anode cap and the electronic spotlight must be directly connected through the metal coating layer 7a.

The content of titanium oxide TiO ₂ must be such that it forms the projected resistance between the anode cap and the electronic spotlight, its value can be easily calculated by taking into account the fact that the current level between the two electrodes is usually approximately 150-220 mA and when supplied voltage and the magnitude of the required current.

 According to the present invention, it was confirmed that the proposed cathode ray tube has a geomagnetic field-shielding effect the same as a conventional type of cathode ray tube with an inner screen. Meanwhile, the likelihood of image quality deterioration can be caused by the malfunction of the distribution of electron beams, because the metal coating layer has an external luster, but no visible effect occurs.

 Therefore, according to the present invention, the inner screen, which is a relatively large component and a relatively expensive part in the cathode ray tube, is removed, while the manufacturing cost of the product can be saved and productivity can be increased by simplifying the manufacturing process.

 Since the inner graphite layer is completely removed or deposited in an extremely limited area, the amount of products bound by graphite particles can be reduced and factory dust pollution of graphite can almost be avoided.

Claims (3)

 1. COLORED ELECTRON BEAM TUBE WITHOUT INNER SCREEN, containing a cylinder, consisting of a panel and a funnel, in which an electronic searchlight and a shadow mask frame assembly are located, and on the inner surface of the funnel there is a conductive layer of an alloy containing high permeability metals as the main components , characterized in that, in order to improve the shielding of the geomagnetic field, Fe, Ni, Mn are used as high permeability metals at the following content in the alloy, wt. Fe 10 87
Ni 11 89
Mn 0.38 0.58
2. The tube according to claim 1, characterized in that the alloy contains the following materials as main components, wt. Fe 10 15
Ni 70 85
Mn 0.38 0.48
3. The tube according to claim 1, characterized in that the conductive layer is deposited in the area of the funnel, excluding the exposed region of the anode cap and part of the surrounding area and / or the contact area of the holder of the electronic spotlight and part of the surrounding area, and contains a layer of high-resistance material, deposited on areas not covered by a conductive layer, while high voltage can be transmitted from the anode cap through a layer of high-resistance material to an electronic searchlight.  4. The tube according to claim 1, characterized in that the conductive layer further comprises a high resistance material.  5. The tube according to claim 4, characterized in that the high-resistance material contains titanium and / or titanium component as the main component.

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