DE19823451A1 - Color picture tube, useful for a TV receiver, has improved contrast - Google Patents

Abstract

A color picture tube has its contrast improved by providing a zeolite layer on both faces of the shadow mask (M). An Independent claim is also included for production of the above color picture tube involving application of the zeolite coating by a high volume low pressure (HVLP) process in which an aerosol of a zeolite suspension in an air stream is sprayed onto the shadow mask.

Description

The invention relates to a new color picture tube, the an increased compared to previous color picture tubes Has contrast ratio and a method too their manufacture. For this, a specially coated Shadow mask used. By choosing the Coating material can be caused by scattering electrons caused background radiation can be greatly reduced. The solution presented is in principle for everyone Picture tubes can be used without additional design changes stanchions.

When asked about good information reproduction from Displays and especially the color picture tubes comes the contrast value is of crucial importance. At When used in a bright environment, the contrast in the essentially by the proportion of the reflected Ambient light determined.

To reduce the reflection of light and therefore to improve the contrast are with color picture tubes a number of measures are known and will be used commercially.  

Embedding the fluorescent strips in black streaking (black matrix technology) leads to a Improvement of the contrast by absorption of the incident light in the black stripe areas.

A strong coloring of the screen glass leads to a Improvement of the contrast because the ambient light Screen has to go through twice while that of the Fluorescent layer only emitted light on the screen happened once.

A strong pigmentation of the phosphor leads to wavelength selective absorption of the environment light in the fluorescent layer and thus also to an increase in contrast.

In darkened rooms where the ambient light cannot influence the contrast other phenomena that affect contrast. Realizing a number of Precautions taken to improve contrast to serve.

So one ensures the phosphor layers over covering aluminum layer not only a substantial one Improvement of the image brightness, it ensures also that the light emitted to the rear is not in the Tube bulb is sprinkled and then the entire screen brightening leads to a considerable loss of contrast.

Another phenomenon that affects contrast is arbitrary excitation of the phosphors in the picture tube by scattered electrons. The scattering of the electrons takes place once on the one in front of the screen Shadow mask (approx. 80% of the electrons of the electro meet the shadow mask), on the other  some of the electrons from the inside of the Screen scattered.

While reflection, diffraction and scattering effects of Electrons on the mask cause it to unwanted brightening of the entire screen comes since the electrons, no longer directed, the Mask slits can happen, it comes through Reflection on the screen for local brightening and Contrast loss. Because the light generation by reflected electrons are no longer color selective occurs, it occurs in addition to the contrast deterioration also a deterioration in the color saturation values. A direct impression of the contrast ratios you get when only part of the screen is bright is controlled while the other part is blanked is. The contrast ratio, defined as the ver ratio of the luminance in the bright area Luminance in the dark area essentially becomes determined by the proportion of scattered electrons. This is done the measurement of course in a darkened room.

When viewing wide screens in television receivers preferably with 4: 3 format Contrast deterioration immediately recognizable by the upper and lower black stripes that are not appear completely dark.

As is known, the shadow mask is often coated with a Bi ₂ O ₃ coating in picture tubes. This coating serves to reduce the heating of the shadow mask by means of increased electron backscattering and thus to counteract the so-called doming effect, which leads to landing errors. It turns out that the contrast is significantly worse with such tubes than with tubes that do not have an anti-doming coating.

A method for improving the contrast ratio under the described operating conditions of a color picture tube is described in the publication "Society for information display (SID), May 1997, by Oekel, Improving Contrast and Colar Saturation of CRTs by Al ₂ O ₃ Shadow-Mask Caating", in which the all-round coating of the shadow mask with an Al ₂ O ₃ layer minimizes the electron scattering and improves the contrast and color saturation.

The process for producing the Al ₂ O ₃ layers is relatively complicated and is not classified in the normal production process.

The invention is therefore based on the object To create color picture tubes with improved contrast, which is easy and inexpensive to manufacture and in the conventional production process easily integrated can be. It is also an object of the invention an effective and environmentally friendly manufacturing process drive for the color picture tube with improved contrast specify.

This object is achieved by the Features in the characterizing part of claims 1 and 8, by covering the shadow mask with a porous material, Zeolite. Such zeolite will for example in large quantities for washing manufactured in the medium-sized industry and according to the invention an HVLP (High Volume Low Pressure) spray process, in which a zeolite suspension in the head of a Sprayer mixed with a warm air stream and as an aerosol, surrounded by an air jacket onto which Sprayed shadow mask.  

Surprisingly, the use of masks produced in this way shows contrast improvements of the order of 50% compared to the values when using untreated iron masks. The contrast improvement is higher compared to Bi ₂ O ₃ coated masks.

The particular advantage of the invention is that Spraying procedures are very simple and in the picture tube production are usually already used. Furthermore, the material costs for the zeolite extremely low. The procedure is for both Iron masks can also be used for invar masks.

The solution according to the invention is to be further described with From at least partially shown in the figures management examples are described in more detail.

Show it:

Fig. 1 is a schematic representation of the scattering processes of electrons in the color picture tube,

Fig. 2 is a diagram showing the dependence of the contrast on the treatment of the mask surface.

Compared to previously manufactured color picture tubes, the color picture tube shown in FIG. 1 differs with improved contrast in that the shadow mask M used, regardless of whether it is made of iron or Invar, is bilateral, that is, both the side facing the screen S and the side facing the beam system. is covered with a layer consisting of a zeolite / water glass mixture. In the present exemplary embodiment, these layers are applied using an HVLP (High Volume Low pressure) spraying method.

Further improvements will be achieved, though Inner shields S and the mask frame R a covering obtained with zeolite, the main effect of which Mask treatment is achieved.

The aforementioned parts of the color picture tube shadow mask M, inner shield IS and mask frame R are spray-coated with a zeolite suspension, the zeolite in the present exemplary embodiment NA-4 zeolite having the composition Nal ₂ (AlO ₂ ) 12 (SiO ₂ ) × 27 H ₂ O with an average grain size of <5 microns. Deionized water is used as the solvent, the binder is sodium water glass {(Na ₂ o ₃ ) 0.3 + SiO ₂ } or potassium water glass. The composition of the suspension in the present exemplary embodiment is zeolite: binder: solvent = 20% by mass: 4% by mass: 76% by mass.

The resulting layer thickness is preferably in the Range from 1.5 µm-15 µm.

The HVLP has chosen to apply the zeolite layer (High Volume Low Pressure) process as advantageous proven. This is a suspension of the above specified composition in the head of the spray Device mixed with a warm air flow and as Aerosol surrounded by an air jacket on which Shadow mask M sprayed. The shadow mask M is called Mask frame assembly on the spray device or a spray gun. The final fixation of the zeolite through the binder takes place in the downstream process steps, e.g. B. soldering.

The contrast ratio depending on the surface quality or coating can be seen in FIG. 2.

The worst contrast values result from a Bi ₂ O ₃ coating, the best contrast values from the zeolite coating. Zeolite A4 has proven to be particularly suitable.

The invention is not limited to that here illustrated embodiments. Rather it is possible by combining and modifying the Means and features mentioned further execution to implement variants without the scope of the invention to leave.  

Reference list

E primary electron beam
M shadow mask
IS inner shield
L phosphor layer
R mask frame
S umbrella

1

Reflection of the electrons on the mask

2nd

Backscattered electrons, undirected

3rd

Reflection of the electrons on the coated inner wall of the screen

4th

Backscattered electrons from the mask

Claims (12)

1. Color picture tube consisting of a structured screen, a cone with a beam system and a shadow mask as a color selection element between the beam system and the screen, characterized in that the shadow mask (M) on both sides, ie the th facing the beam system and the screen (S ) facing side is coated with a zeolite layer. 2. Color picture tube according to claim 1, characterized in that the zeolite layer consists of zeolite A4. 3. Color picture tube according to claim 2, characterized in that the zeolite A4 Na-4 zeolite of the composition Na ₁₂ (AlO ₂ ) ₁₂ (SiO ₂ ) x 27 H ₂ O with an average grain size of <5 microns. 4. Color picture tube according to claim 1, characterized in that the shadow mask (M) made of AKS (Aluminum Killed Steel). 5. Color picture tube according to claim 1, characterized in that the shadow mask (M) consists of Invar. 6. Color picture tube according to claim 1, characterized in that Mask frame (R) and inner plate (IS) also with are covered with a zeolite layer.   7. Color picture tube according to claim 1 or 6, characterized in that the zeolite layer has a thickness in the range of Has 1.5 µm to 15 µm and the average grain size the zeolite is <5 µm. 8. Process for the production of color picture tubes with improved contrast by coating the Shadow mask and possibly other parts of the Color picture tube, characterized in that the shadow mask on both sides with a zeolite Layer using an HVLP (High Volume Low Pressure) process is coated, one Zeolite suspension mixed with an air stream and sprayed onto the shadow mask as an aerosal. 9. The method according to claim 8, characterized in that the airflow is warmed up. 10. The method according to claim 8, characterized in that the zeolite suspension of zeolite, solvent and binder. 11. The method according to claim 10, characterized in that the zeolite is a Na-4 zeolite, the solvent deianized water and the binder Sodium water glass or potassium water glass is and that Zeolite binder solvent ratio 20 mass%: 4 mass%: 76 mass%.   12. The method according to claim 1, characterized in that the final fixation of the zeolite layer in one downstream soldering step takes place.