JPS62274531A - Color cathode-ray tube - Google Patents

Abstract

PURPOSE:To suppress thermal defomation in a shadow mask and eliminate misconvergence, by coating a one-sided surface (electron beam inpinging side) of the shadow mask with a material whose mass is large and whose thermal expansion coefficient is smaller than that of a shadow mask material. CONSTITUTION:When an electron beam strides a shadow mask, some part of the beam is elastically reflected, and does not give any energy to the shadow mask, but inelastic reflection electrons and absorption electrons are converted into thermal energy in the shadow mask to cause temperature rise in the shadow mask and the shadow mask is the deformed. This phenomenon causes a trouble in which mutual position of each aperture of the shadow mask is changed to generate misconvergence. In order to prevent this trouble, the shadow mask surface is coated with a material whose mass is large and whose thermal expansion coefficient is smaller than that of a shadow mask material, so that the thermal deformation due to the absorbing energy can be suppressed in the minimum by enhancing reflection coefficient of the electron beam and minimizing the energy absorption. The material employed is PbTiO3 powder, Ta2O5 powder, or the like.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a color cathode ray tube having a shadow mask. More specifically, the present invention relates to a color cathode ray tube in which a film of a substance that suppresses thermal deformation is formed on the electron beam irradiation surface side of the shadow mask in order to reduce doming of the shadow mask.

[Prior art] In order to increase the size of color cathode ray tubes, increase their resolution, and improve visual perception, the panel is made flat. The local thermal deformation caused by this causes color shift on the screen. One way to prevent color shift due to thermal deformation of the shadow mask during electron beam irradiation is to coat the surface of the shadow mask with a material that has a high electron beam reflectance to suppress the temperature rise of the shadow mask. , for example, JP-A-57-5
It is disclosed in Japanese Patent No. 0745.

In addition, in order to achieve the same effect, a method has been devised in which the shadow mask is made from a metal with a low expansion coefficient, instead of the normally used steel, to suppress thermal deformation. .

That is, the conventional color CRT color shift prevention method uses a color CRT structure as shown in FIGS. A method of applying substance (4) to suppress electron beam absorption of shadow mask (3), minimizing heat generation of shadow mask (3), and suppressing its deformation, or a method of applying thermal expansion to the material of shadow mask (3) itself. This is a generally known method of manufacturing a shadow mask using a metal with a low ratio. (1) is a panel, (2 is a funnel part, (5) is an electron gun, and (6) is a deflection yoke.

[Problems to be Solved by the Invention] Among the above-mentioned improvement measures, the method of coating the surface of the shadow mask with a material having a high electron beam reflectance is effective and desirable in terms of cost. The effect of suppressing the deformation of shadow masks is expected, and using a metal with a low expansion coefficient as the material of the shadow mask itself is effective, but it is more expensive than iron, which is the conventional material for shadow masks.

[Means for Solving the Problems] The present invention is characterized in that the surface of the shadow mask is coated with a material that has a smaller coefficient of thermal expansion and a larger mass than the material of the shadow mask used in color cathode ray tubes. The purpose of this invention is to suppress thermal deformation of a shadow mask caused by electron beam irradiation and to minimize color shift in color cathode ray tubes.

[Operation] When a shadow mask is hit by an electron beam, a part of the electron beam is elastically reflected and does not impart energy to the shadow mask, but inelastic reflected electrons and absorbed electrons become thermal energy within the shadow mask. , causing a temperature increase in the shadow mask and causing deformation. This changes the relative position of the through holes in the shadow mask, causing color shift. In order to prevent this, the present invention coats the surface of the shadow mask with a material that has a large mass and a coefficient of thermal expansion smaller than that of the shadow mask material, thereby increasing the reflectance of the electron beam and minimizing energy absorption. This aims to minimize thermal deformation due to absorbed energy.

[Example] As the material having a smaller coefficient of thermal expansion and larger mass than the material of the shadow mask used in the present invention (hereinafter referred to as an electron beam reflecting material), PbTiO3 powder, Ta205 powder, etc. are used.

A thin iron plate is generally used as a material for a shadow mask, and its thermal expansion coefficient is 1.5xio-a”C-1.
It is. On the other hand, PbTiOs powder, for example, has a coefficient of thermal expansion of about 2.times.10 DEG C.-1 and contains lead and has a large quality m.

The shadow mask used in the present invention may be one used in conventional color cathode ray tubes.

Next, a method for manufacturing a color cathode ray tube according to the present invention will be explained.

The electron beam reflective material is preferably ground to have an average particle size of 0.5 to 15 mm. The fine costume that was obtained 1
For example, water glass,
A suitable inorganic binder such as a commercially available inorganic adhesive 0.2
~0.4 parts and 0.6 to 0.8 parts of water are mixed using a ball mill or the like, and the coating material thus obtained has a thickness after drying that is at least as thick as the penetration depth of the electron beam. It is applied to one surface of the shadow mask using a spray gun or the like so that the thickness is usually 1 ρ or more and preferably less than 3 ρ. Thereafter, the color cathode ray tube of the present invention is manufactured by going through the usual steps for manufacturing color cathode ray tubes.

Next, the effect of suppressing color shift of the color cathode ray tube of the present invention was investigated. For example, the color cathode ray tube of the present invention in which PbTi0g powder is applied to the surface of the shadow mask has a color shift suppression effect of 15% or more compared to a conventional color cathode ray tube that uses a shadow mask made only of ordinary iron material. achieved. The effect of suppressing color shift was determined by comparing the amount of movement of the light emitting point from the initial light emitting point of the electron beam passing through the shadow mask and the initial light emitting point after a certain period of time between the conventional method and the present invention.

Also, instead of PbTiO3, about 2.5X10'℃-1
In the color cathode ray tube manufactured by applying Ta205 powder with a coefficient of thermal expansion of , on the surface of an iron shadow mask,
A color shift suppression effect of 15% or more was achieved compared to a conventional color cathode ray tube using a shadow mask made only of ordinary iron material.

[Effects of the Invention] As described above, thermal deformation of the shadow mask can be prevented by coating one side of the shadow mask (electron beam irradiation side) with a material that has a large mass (and a coefficient of thermal expansion smaller than that of the shadow mask material). It is possible to suppress and improve color shift, and a significant color shift suppressing effect was achieved without causing a large increase in cost.

[Brief explanation of drawings]

FIG. 1 is a partial sectional view showing the structure of a normal color cathode ray tube, and FIG. 2 is an enlarged view of the shadow mask portion of FIG. 1. Agent Masu Oiwa Yusai 1 Illustrations 2 Illustrations

Claims (1)

[Claims] (1) A color cathode ray tube characterized in that the surface of the shadow mask is coated with a material having a lower coefficient of thermal expansion and a larger mass than the material for the shadow mask used in color cathode ray tubes.