JPH0416347Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] This invention relates to a color picture tube, and particularly to an improvement of its internal magnetic shield.

[Technical background of the invention]

Conventionally, a color picture tube is constructed as shown in FIG. 4, and includes a phosphor screen 2 formed on the inner surface of the face portion 1 of an envelope consisting of a face portion 1, a funnel portion 5, and a neck portion 7; The above network part 7
an electron gun structure 6 disposed within the phosphor screen 2 that emits a plurality of electron beams that excite the phosphor screen 2 to emit light; a substantially rectangular color selection electrode 3 having an electron beam passage hole;
The electron gun structure 6 is directly or indirectly engaged with the color selection electrode 3 and extends along the inner surface of the funnel portion 5.
The electron beam trajectory is finely adjusted by an externally added magnet (not shown) provided outside the funnel portion 5. In the figure, 4 is a frame that supports the color selection electrode 3, 8 is a deflection yoke, and 11 is an opening of the magnetic shield 9 on the electron gun structure 6 side.

As shown in FIGS. 5 to 7, the magnetic shield 9 has a substantially pyramidal shape and is made of a low carbon Fe material. Such a magnetic shield 9 prevents the trajectory of the electron beam from being disturbed by the influence of external magnetic fields such as earth's magnetism.

[Problems with background technology]

As described above, conventionally, the magnetic shield 9 is made of a low carbon Fe material. However, considering only the magnetic shielding property, since the magnetic permeability μ is small in the low carbon Fe material, the magnetic shield 9 is not magnetized by changes in the external magnetic field (about 0.5G), and therefore, the magnetic shield 9 is not magnetized in the color picture tube. No magnetic field is formed. As a result, it is affected by an external magnetic field, causing a landing error. Therefore, after receiving a change in the external magnetic field, it is necessary to apply a strong external magnetic field using a degausser or the like to forcibly magnetize the magnetic shield 9 to prevent the landing from shifting.

In addition, when Fe-Ni permalloy material, which is a material with a large magnetic permeability μ, is used, the magnetic shield 9 is magnetized by changes in the external magnetic field, forming a demagnetizing field inside the color picture tube, and using a degausser. Even without it, it is possible to prevent landing errors.

However, if the magnetic permeability μ increases, on the other hand, if an additional magnet is attached to the outside of the funnel part 5,
The correction magnetic field emitted from this additional magnet is focused on the magnetic shield 9, and in order to finely adjust the trajectory of the electron beam, the magnetic field is weakened to the necessary part, and the correction of mislanding, which is the function of the additional magnet, is
It becomes difficult to do so. Therefore, considering the correction of mislanding using the additional magnet,
The smaller the magnetic permeability μ, the better.

[Purpose of invention]

The purpose of this invention is to provide a color picture tube having a magnetic shield that improves magnetic shielding properties and allows correction of mislanding caused by an externally added magnet.

[Summary of the idea]

In this idea, the material of the magnetic shield is mainly Fe-Ni permalloy material, and the magnetic shield is located at a position where the magnetic field from an externally added magnet can be focused to finely adjust the electron beam trajectory. , a color picture tube partially made of Fe material.

[Example of idea]

The color picture tube of this invention is an improved version of the magnetic shield, and only the magnetic shield will be explained below.

That is, there are various shapes of the magnetic shield as described above (see Figures 5 to 7), but in this invention, the material of the magnetic shield is Fe with a thickness of about 0.1 to 0.2 mm. -Mainly made of Ni-based permalloy material. Although color picture tubes are normally designed so that mislanding does not occur, some color picture tubes do suffer from mislanding due to variations in manufacturing conditions, used parts, and the like. Therefore, conventionally, in order to correct the mislanding from the outside, an externally added magnet is attached to the outside of the funnel section 5 to perform the correction. material is used. As a result, compared to permalloy material,
Since Fe material has a small magnetic permeability μ, it becomes difficult for the magnetic field of the additional magnet to be focused on the magnetic shield, and the influence on the electron beam becomes large, making it possible to correct mislanding.

Specifically, the magnetic shield according to this invention is constructed as shown in FIGS. 1 to 3, and is made of Fe-Ni
Each magnetic shield 1 mainly made of permalloy material
0, the hatched parts 10a, 10b, 10
c, 10d, and 10e are made of Fe material.

That is, in the case of FIG. 1, the side 10a of the magnetic shield 10 on which the deflection yoke 8 (see FIG. 4) is attached
In this case, Fe material is used. With this, it is possible to perform landing correction on the periphery of the screen.

Further, in the case of FIG. 2, Fe material is used only in the corner portions 10b and 10c of the magnetic shield 10. This is to strongly correct the corner portions 10b and 10c, which particularly require mislanding correction.

Furthermore, the case shown in FIG. 3 is a combination of those shown in FIGS. 1 and 2, and the corner portions 10b,
Fe material is used for the deflection yoke side 10c and the deflection yoke side 10a, which has both the effects of FIGS. 1 and 2.

The color picture tube of this invention has the same structure as the conventional example (FIG. 4) except for the above, so a detailed explanation will be omitted.

[Effect of idea]

According to this invention, the magnetic shield 10 is made of Fe-Ni
It is mainly made of permalloy material, and Fe material is used in the area where mislanding caused by additional magnets is corrected, so the overall magnetic shielding properties are significantly improved, and mislanding caused by additional magnets etc. can be easily corrected. I can do it.

[Brief explanation of the drawing]

Figures 1 to 3 are plan views showing the main parts (magnetic shield) of the color picture tube of this invention, Figure 4 is a sectional view showing a conventional color picture tube, and Figures 5 to 7 are conventional FIG. 3 is a perspective view and a plan view showing three types of magnetic shields used in the color picture tube of FIG. 1... Face part, 2... Fluorescent screen,
3... Color selection electrode, 4... Frame, 5... Funnel part, 6... Electron gun structure, 7... Network part,
8... Deflection yoke, 10... Magnetic shield.

Claims (1)

[Claims for Utility Model Registration] A phosphor screen formed on the inner surface of the face portion of an envelope consisting of a face portion, a funnel portion, and a neck portion, and a phosphor screen disposed within the neck portion. an electron gun assembly that emits a plurality of electron beams that cause excited light emission; and a substantially rectangular color sorter that is disposed in close opposition to the electron gun assembly side of the phosphor screen and has a large number of electron beam passage holes. an electrode, and a magnetic shield that is stopped directly or indirectly on the color selection electrode and extends along the inner surface of the funnel toward the electron gun structure, and is configured to finely control the trajectory of the electron beam from outside the funnel. In a color picture tube that uses an externally added magnet for adjustment, the material of the magnetic shield is mainly Fe-Ni permalloy material, and the magnetic shield is made of a material that focuses the magnetic field from the externally added magnet. At the position where the electron beam trajectory can be finely adjusted,
A color picture tube characterized by partially using Fe material.