DE2217280A1 - PERFORATED SCREEN IN COLOR TUBES - Google Patents

Description

Metallgesellsuhaft Frankfurt a.LI., 7.4.72

Corporation

Prankfurt a.K. Dr.Ml/Htfi

Reuterweg 14

prov.No. 6952 M.

Pinhole in color picture tubes.

The invention relates to a pinhole or shadow mask for producing color images in color picture tubes of color television receivers. In particular, the invention relates to one with Perforated panel made of sheet metal made of ferrous material with a spring holder.

Me according to the invention aperture plate is characterized by a material made of iron alloy having a temperature range of 20 to 80 ⁰ G specific thermal expansion from 0 to 2, preferably 0.6 to 1.2 χ 10 ^"0. C.

The color picture tube of today's color television receiver systems contains three electron guns which are aligned in such a way that their beams pass through one of the about 400,000 holes of about 0.35 now diameter of a pinhole (Shadow mask) through to a group of three (triples) of in the three primary colors red, green and blue light up fluorescent discs (phosphors) fall. These fluorescent discs form about 0.43 mm in diameter overall the color screen. The color screen contains in

3098 ^ 4/0541

regular arrangement three times 400,000 colored luminous points. The distance between the screen and the aperture is now about 11.5, while the distance between the color triples is 0.74 mm. The magnetic deflection common to the three electron beams is designed in such a way that the electron beams also fall together at the edge of the image through the correct aperture onto the correct fluorescent disc. Deviations produce undesirable color fringes. The coverage of the diaphragm holes with the color triplets causes considerable difficulties. The proportion of holes is the shadow mask of the total area of the aperture plate from commonly sheet of iron material in the current normal pinhole not even 50 "/>. Making the electron consequently with fo over 50 of their intensity on the plate of the shadow mask, whereby this is unavoidable and in practice is heated up to about 80 C. This heating, however, results in the sheet metal of the perforated diaphragm, which usually consists of a low-carbon steel, expanding in all directions The consequence of this is color shifts and color acidity, which are perceived as annoying. In order to compensate for this disadvantage of apertured diaphragms made from conventional steel sheets, these are usually attached to at least two, preferably to up to four control elements made of a thermal bimetal have spring properties at the same time adhere so that the aperture plate can be hooked into the holding buttons of the screen glass on them. The thermo-bimetal control elements connected to the perforated diaphragm are also heated by the perforated diaphragm.

-3-

309844/0541

As a result, they bend out and bring the aperture plate perpendicular to the center of the screen surface closer to the luminous dots on the fluorescent screen. As a result, the aperture holes are moved back into the intended electron beam path. It is understandable that the high precision of the aperture diaphragm production also requires high precision in the puncture of the thermobimetallic control elements designed as a spring holder and that these spring or control elements must also be attached to the aperture diaphragm with the greatest accuracy. The movement of the pinhole in sighting the Färbtripelpunkten or away from, namely, is in general only about 0.08 mm, so a total of about 0.16 mm in the temperature range of 20 to 80 ⁰ O.

The invention is based on the object of a pinhole to be made from a Y / er material that makes a high and therefore costly precision of the control technology superfluous, uud avoids the disadvantages of the previously known pinhole diaphragms.

To this end, the invention is based on a perforated diaphragm made of ferrous material, provided with a spring holder, for generating color images in color picture tubes of color television receivers. The invention consists in that the iron material is an alloy with a specific thermal expansion of 0 to 2, preferably 0.6 to 1.2 χ 10 ". ⁰ C" in the temperature range from 20 ° to 80 ° G.

For the perforated diaphragm to be used according to the invention Material are known iron / K ^ ckel alloys or Sisen / tfickel alloys with others Alloy elements such as cobalt, chromium, manganese, silicon, Tungsten. For the perforated diaphragm according to the invention suitable materials made of iron / Niekel alloy generally have the composition:

30984A / 0541

until _4_ ok nickel 30th Il 45 ok manganese 0 Il 2.5 ° / o Silicon 0 ti 2 ok carbon 0 It 2 ok cobalt 0 Il 8th ok chrome 0 It 11 ok tungsten 0 3 iron rest

Iron / nickel alloys with the following composition are particularly suitable:

35 to 37 ° / ° nickel

0.01 "0.1 io carbon

0.3 "0.6 io manganese

0 "0.35 io silicon

Remainder iron

The following composition is preferably suitable for using Invar for a shadow mask:

Ni = 36 io

C = 0.01 to 0.08 ~ 7S

Mn = 0.1-0.5 io

Pb = 0.04 io max

S = 0.05 i ° "

Si = 0.1 io "

Remainder iron

WHERE besides the elements Pb and S no other metals

in the alloy / allowed to be used during manufacture contain

the tube or during operation of the tube from the Invar (selenium, zinc, antimony, arsenic etc.)

Moldings made from these alloys have at room temperature

-6 ο -1 a specific thermal expansion of approx. 1.2 χ 10 .C

309844/0541

-5-

Furthermore, according to the invention, as Y / er material for the Pinhole an iron / tickel alloy composition

30 to 31 ^c ß> Hi disgust 4 to 8 $,

preferably 5 to 7 $ cobalt remainder iron,

suitable. Molded parts made from these alloys have a specific ^{temperature range from 20 to 80 ° C.}

—6 ο -1 thermal expansion of approx. 0.6 χ 10. G

Furthermore, iron / Hickel alloys of the composition are suitable as material for the perforated diaphragm according to the invention

33 until 36 f • Hieke1 4th It 12 io > Ghrom 0.5 Il 2 i '· Carbon 0.5 Ί ■ manganese 0.5 it 2 io Silicon 1 Il "Z (rf,
J i ' ^J > Tungsten Eest Elsen -

Molded parts from these alloys are rust-free and have a temperature range from 20 to 80 ⁰ G

specific thermal expansion τοιί "Jireniger than sa _{0 10} -6 ο -1

\ j

The iron / licfcel alloys to be used as a material according to the invention for the production of perforated diaphragms are, as is known, also used as a material for the production of the passive component of thermobinietals is used.

309844/0541

The production of the apertured diaphragms according to the invention from sheet metal made of practically expansion-free iron / nickel -; Alloys are made in a manner known per se. Raw material from the iron / nickel alloys to be used according to the invention is rolled to the required thickness and width dimensions (sheet thickness approx. 150 / u) in a known manner and the rolled and cleaned sheet metal with the necessary holes by means of the photo-etching process Manufacture of the shadow mask provided.

The perforated diaphragm according to the invention made of material made of iron / nickel alloys can expediently also be subjected to a surface treatment in order to improve the heat dissipation of the material. Although the heating of the pinhole diaphragm (the electron beams contribute about 30 watts to this heating) from the material according to the invention has no significant influence on the image quality due to the low expansion coefficient of the iron / Niekel alloys to be used, the 7 / Heat radiation of the pinhole is improved by a surface treatment. Such surface treatments for the purpose of blackening the surface can in a known manner by, "are made at an elevated temperature oxidative treatment, for example by heating in air at 400 to 700 ⁰ C. Further, the black coloring are brought about by elektrölytische oxidation, as well as further in a known manner Black dyeing or burnishing by chemical means, for example by treating the pinhole diaphragms made of stainless steels mix, for example, chromosulfuric acid.

The conventional pinhole diaphragms are usually equipped with spring holders. These spring retainers are hung in the holding buttons of the screen glass. In the case of previously known perforated diaphragms, bimetal strips must also be used be provided to compensate for the expansion of the material. According to another embodiment

309844/0541 _ ₇ _

of the invention is effected extremely low \ 7armeausdehnung of the inventive perforated diaphragm under Erübrigung of bimetallic by Federhalmngen made of metallic material having a specific linear thermal expansion of 10 to 28, preferably 12 to 20 χ 10 ~. ⁶ ° 0 ^'1.

While, for example, with aperture diaphragms made of conventional unalloyed steel with a coefficient of expansion of 12 x 10 "-. ⁰ C, the aperture diaphragm with an assumed temperature difference of 60 ⁰ C by a total of about 0.16 rom (with a 63 cm picture tube) in the direction of the luminescent screen must be moved, is in a perforated diaphragm according to the invention made of iron / nickel alloy, for example, a coefficient of expansion of

-6 ο -1
1.2 χ 10. C is taken as a basis, a shift of only 0.016 mm in the direction of the luminescent screen is necessary. In order to achieve this slight displacement, it is sufficient that the spring elements used for mounting have an active length of 22 mm if they are made of unalloyed steel. They can also have an active length of 10 mm if they are made from a manganese alloy of the composition

74 per cent

16 / »Hi

10 io Cu

with an expansion coefficient of 28 χ 10 ~. ⁰ C. "The term" active length "is to be understood as the length that is decisive for thermal expansion For this purpose, according to the further embodiment of the invention, alloyed steels are used as metallic materials for the pedal holder

3098ΛΑ / 0541

-8th-

-8 composition

$ 18, chrome $ 8> nickel

up to 0.12 ^c / o carbon up to 2 % manganese up to 1 % silicon, remainder iron,

provided, whose coefficient of expansion is 15 to

-6 ο -1

16 χ 10 .0. Also alloy steels of the composition

22 io nickel 3 io chromium bisO, 12 ^ carbon "2 io manganese

¹¹ 1 io silicon remainder iron,

-6 ο -T which has a coefficient of expansion of about 18 χ 10 own. Finally, alloy steels of the composition are used as the metallic material for the spring holders

20 % nickel 6 ic manganese until 0.1 2io carbon Il 1 ° / o silicon rest Iron,

with an expansion coefficient of 18 to 20 χ 10 "". C " used.

In any case, however, the expansion coefficients of the material of the spring holder are related to the expansion coefficient to match the material to be used according to the invention for the perforated diaphragm.

-9- 309844/0541

The perforated diaphragm according to the invention has a number of advantages. Since the heating of the perforated screen during operation of the color picture tube practically does not cause any expansion or displacement of the holes in the screen plate, additional control devices with Herraobiinetall control elements are not required. The perforated plates according to the invention have the advantage that such a perforated plate can be partially and locally at different temperatures without changing the position of the individual holes in relation to one another and in relation to the luminous points on the luminescent screen. Has the inventive perforated diaphragm from Bisen / JTickel alloys in addition to low thermal expansion in the range of 20 to 80 ⁰ C also has the advantage of the ferromagnetic properties as the non-alloyed steels.

It is therefore ideally suited for magnetic shielding of the tube. Although the saturation magnetization of the iron / nickel alloys to be used according to the invention is lower with about 12 to 13 kG compared to unalloyed steel with 21.5 kG, the maximum permeability of the iron / nickel alloys is (/ u max 6000 - 16,000 G . Oe ") significantly higher than di-a of unalloyed steel ( Ai max 7000-8000 G. Oe") and the corcitive field strength of Ηί »0.2 Oe is significantly lower than that of unalloyed steel with H 0.5 to 1.5 Oe. Finally, those to be used according to the invention also have

Materials for the perforated diaphragm with 45-80 kp / ram a higher one Strength than the material unalloyed steel with

30 - 40 kp / mm for conventional pinhole diaphragms.

-10-

309844/0541

Claims (8)

Claims 1) With the spring holder provided pinhole of iron material for color image forming in color picture tubes of color television receivers, i.e., in ABy that the material of an iron alloy having a specific temperature range of 20 to 80 ⁰ C of thermal expansion from 0 to 2, preferably 0.6 to 1, 2 χ 10 ~ ^6. ° C ~ *. 2) pinhole according to claim 1, ' geken nzeic hnet by a Y / erketoff made of iron / nickel alloy. 3) Orifice plate according to one or both of claims 1 and 2, characterized by a material made of iron / nickel alloy the composition 30th until 45 % • nickel 0 Il 2.5 i > Manganese O Il 2 ic ι silicon 0 It 2 i ι carbon 0 It Q of
O / ο cobalt 0 Il 11 io chrome 0 ti • J I tungsten rest iron 4) pinhole according to one or more of claims 1 to 3, gekennzeichneb by a material made of iron / nickel alloy of the composition $ 35 to $ 37 nickel 0.01 "0.1 io carbon 0.3 " 0.6% manganese 0.35 # silicon Remainder iron -11- 309844/0541 5) pinhole according to one or more of the claims 1 to 3, characterized by a material made of iron / Hickel alloy of the composition Ni = 36 io C = 0.01 to 0.08 4 Mn = 0.1 "0.5 $>. Pb = 0.04 io max S = $ 0.05>" Si = 0.1 ^ « Remainder iron 6) Orifice plate according to one or more of the claims 1 to 3, characterized by an iron / nickel alloy of the composition 30 to 31 io nickel 4 "8, preferably 5 to 7 io cobalt remainder iron. 7) pinhole according to one or more of the claims 1 to 3, characterized by an iron / nickel alloy material of the composition $ 33 to $ 36> Nickel 4 "12 OK chrome 0.5 "2 io carbon 0.5 ^4I 2.5 10 manganese 0.5 "2 io silicon 1 "3 io tungsten Remainder iron 8) Perforated diaphragm made of iron material provided with a spring holder according to one or more of claims 1 to 6, characterized in that the peder holder made of a metallic material with a specific thermal linear expansion of 10 to 28, preferably 12 to 20 χ 10 ~ ^6. ° C " ¹ exists. 309844 / 0S41 ORIGINAL INSPECTED