KR100338030B1 - Cathode ray tube - Google Patents

Abstract

A cathode ray tube having a funnel with lead content removed to favor regeneration of a closed cathode ray tube, wherein the cathode ray tube is fixed to the neck and emits a three-stage electron beam toward the fluorescent membrane screen. A funnel that connects the electron gun, the panel and the neck and forms a lead oxide layer for shielding X-rays on the inner surface or the outer surface, a deflection yoke mounted on the outer circumferential surface of the funnel and deflecting the electron beam by electric field formation, and a plurality of upper beam passing uppers And a shadow mask that forms a contour and separates and lands the three-stem electron beam emitted from the electron gun to the phosphor in the phosphor screen.

The lead oxide layer can be easily removed by hydrofluoric acid cleaning when the waste cathode ray tube is regenerated. In addition, the funnel contains little or no amount of lead and can be mixed and regenerated with the panel, and can be easily regenerated for other uses than the funnel, thereby effectively improving the regeneration efficiency of the waste cathode ray tube.

Description

Cathode ray tube {Cathode ray tube}

The present invention relates to a cathode ray tube, and more particularly, to a cathode ray tube having a means for shielding X (X) rays instead of removing lead content contained in the funnel to favor regeneration of the waste cathode ray tube. .

In general, a cathode ray tube is a display device that emits a fluorescent screen by using an electron beam emitted from an electron gun to realize a predetermined image. The cathode ray tube is mainly used for home TVs and computer monitors because it is cheaper than other display devices and has excellent image quality. .

As a result, the consumption of cathode ray tubes increases, generating about 100 million waste cathode tubes every year, which is recognized as a serious industrial waste, and recycled glass materials, that is, panels and funnels, are used in waste cathode ray tubes.

However, panels and funnels are made of different glass components and cannot be mixed in the regeneration process. The main problem in the difference between the panels and funnels is lead. In other words, the funnel contains approximately 27-30% of lead oxide (PbO) to shield the X-rays generated from the cathode ray tube, while the panel contains extremely small amount of lead oxide of 0-0.25%.

Therefore, when the waste cathode ray tube is disassembled, the frit is removed and the panel and the funnel are separated and regenerated, respectively, thereby reducing the recycling efficiency of the waste cathode ray tube, and the funnel is recycled for other uses due to the lead content contained in the funnel. There is no limit.

Accordingly, the present invention has been devised to solve the above problems, and an object of the present invention is to provide a funnel containing almost no lead component while effectively shielding X-rays generated from a cathode ray tube by separately providing means for shielding X-rays. The present invention provides a cathode ray tube with improved recycling efficiency of a closed cathode ray tube by allowing a mixed regeneration of the panel and the funnel.

1 is a cross-sectional view of a cathode ray tube according to the present invention.

2 is an enlarged view of a portion A of FIG. 1;

3 is a partially enlarged view of a cathode ray tube according to another embodiment of the present invention;

In order to achieve the above object, the present invention,

A panel for forming a fluorescent screen on the inside;

An electron gun which emits three stem electron beams toward the fluorescent screen and is fixedly mounted to a neck portion;

A funnel for connecting the panel and the neck and having an X-ray shielding means;

A deflection yoke mounted on an outer circumferential surface of the funnel and deflecting an electron beam emitted from an electron gun by forming an electric field;

Provided is a cathode ray tube including a shadow mask forming a plurality of beam passing apertures to separate three stem electron beams emitted from an electron gun into corresponding phosphors in a fluorescent film screen.

The X-ray shielding means consists of a lead oxide layer applied to the inner surface or the outer surface of the funnel, and the formation of the lead oxide layer causes the funnel to contain little or no amount of lead oxide to be mixed with the panel during regeneration of the waste cathode ray tube. It has the advantage that it can be easily recycled for other uses than the funnel.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of a cathode ray tube according to the present embodiment, and FIG. 2 is an enlarged view of portion A of FIG. 1. As shown in the drawing, the cathode ray tube includes a panel 4 that forms a fluorescent film screen 2 on its inner surface, a neck portion 8 that mounts an electron gun 6 on its inner circumferential surface, and a panel 4 and a neck portion ( 8 and a deflection yoke 14 mounted on an outer circumferential surface of the funnel 10 and deflecting the electron beam 12 emitted from the electron gun 6, and parallel to the fluorescent film screen 2; It includes a shadow mask 16 mounted inside the panel 4.

The panel 4, the funnel 10, and the neck portion 8 are integrally sealed by the frit 18 to form a body of a cathode ray tube, and the inside of the cathode ray tube is maintained in a high vacuum state by an exhaust process.

The fluorescent screen 2 formed on the inner surface of the panel 4 is a plurality of green, blue, and red fluorescent films 20 and a black matrix film 22 that separates the respective fluorescent films to improve the contrast of the screen. Is done.

Towards the fluorescent film screen 2 of such a configuration, when the electron gun 6 emits a three-strip electron beam 12 whose current density is controlled by the screen signal, the emitted electron beam 12 causes the deflection yoke 14 to It is deflected by the generated horizontal and vertical magnetic fields to draw a raster on the fluorescent screen 2.

At the same time, the electron beam 12 emitted from the electron gun 6 is focused on the beam passing aperture 16a formed in the shadow mask 16, and passes through the beam passing aperture 16a while the fluorescent film screen 2 The landings are separated into the corresponding green, blue, and red fluorescent films 20 to realize accurate colors.

At this time, the electron beam 12 emitted from the electron gun 6 hits the inner surface of the funnel 10, the shadow mask 16, and other metal parts to generate harmful X-rays to the human body. The cathode ray tube according to the present embodiment is a funnel Instead of including the lead component in (10), a funnel having separate X-ray shielding means and containing little lead component is provided.

In more detail, the X-ray shielding means is composed of a lead oxide layer 26 formed between an inner surface of the funnel 10, that is, between the inner surface of the funnel 10 and the embedded graphite film 24, and the embedded graphite film 24. Prior to forming), the lead oxide powder may be spin coated on the inner surface of the funnel 10 to have a thickness favorable for X-ray shielding.

The lead oxide layer 26 effectively absorbs X-rays in the wavelength region of 0.4 to 0.7 GHz, and the embedded graphite film 24 receives the high voltage applied to the anode button 30 by the fluorescent film screen 2 and the electron gun 6. It serves to deliver to the final grid electrode 6a.

In another embodiment, the X-ray shielding means is made of a lead oxide layer 26 formed between the outer surface of the funnel 10, that is, between the outer surface of the funnel 10 and the exterior graphite film 28, as shown in FIG. 3. Before the exterior graphite film 28 is formed, lead oxide powder may be applied to the outer surface of the funnel 10 so as to have a thickness favorable for X-ray shielding.

Here, the exterior graphite film 28 forms a capacitor having the funnel 10 glass together with the internal graphite film 24 to stabilize the high voltage applied to the anode button 30 in the cathode ray tube set.

As such, the lead oxide layer 26 formed on the inner surface or the outer surface of the funnel 10 to shield the X-rays can be easily removed by hydrofluoric acid cleaning during the regeneration of the waste cathode ray tube.

By such a lead oxide layer 26, the funnel 10 may contain very little lead oxide or contain a very small amount of lead oxide of 0.25% or less so as to allow mixed regeneration with the panel 4, and the panel 4 It can be made of glass of similar or identical components.

As a result, during the regeneration of the waste cathode ray tube, the lead oxide layer 26 formed on the inner surface or the outer surface of the funnel 10 may be removed by hydrofluoric acid cleaning, and then the panel 4 and the funnel 10 may be regenerated and used together. Therefore, the regeneration efficiency of the waste cathode ray tube can be improved, and the funnel 10 has the advantage of being easily regenerated for other uses than the funnel.

As a frit 18 which integrally attaches the panel 4 and the funnel 10, if a lead-free frit mainly composed of tin or the like instead of lead oxide is used, the frit 18 together with the panel 4 and the funnel 10 is used. ) Can be mixed and regenerated, further improving the regeneration efficiency of the closed cathode ray tube.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the range of.

As described above, the cathode ray tube according to the present invention forms a lead oxide layer on the inner surface or the outer surface of the funnel to effectively shield X-rays generated from the cathode ray tube, and provides a funnel containing almost no lead component. As a result, when the waste cathode ray tube is regenerated, the lead oxide layer can be removed by hydrofluoric acid washing, and then the funnel can be mixed and regenerated with the panel, thereby effectively improving the regeneration efficiency of the waste cathode ray tube.

Claims (6)

A panel forming an inner surface of the fluorescent film screen; An electron gun which emits three stem electron beams toward the fluorescent screen and is fixedly mounted to a neck portion; A funnel connecting the panel and the neck part and having a lead oxide layer for X-ray shielding; A deflection yoke mounted on an outer circumferential surface of the funnel and deflecting an electron beam emitted from an electron gun by forming an electric field; A cathode ray tube comprising a shadow mask forming a plurality of beam passing apertures to separate three stem electron beams emitted from an electron gun into a corresponding phosphor in a fluorescent film screen. The method of claim 1, The funnel is a cathode ray tube containing less than 0.25% of lead oxide (PbO). The method of claim 1, Cathode ray tube is the lead oxide layer is formed on the inner surface of the funnel. The method of claim 3, wherein Cathode ray tube is a graphite film is formed on the surface of the lead oxide layer. The method of claim 1, Cathode ray tube is the lead oxide layer is formed on the outer surface of the funnel. The method of claim 5, Cathode ray tube is formed on the surface of the lead oxide layer exterior graphite film.