DE2105930A1 - Glass for television viewing cathode ray tubes - Google Patents

Description

Dipl.-Ing. HORST AUER

Γ-- E- · - t 7Π VJ Γ

Application «HV r .; _: li? 3 'uLGEIUMPENFABMEKEB

File: PHN 4700 AnmeJdune from "8 ₀ Feb. 1,971th

"Glass for television viewing cathode ray tubes".

The invention relates to glass for a bulb of a television viewing electron beam tube and especially on glass for the window of such a tube. . . .

On glass for the bulbs of color television picture tubes are compared to glass for bulbs of black and white television rendering electron beam tubes particularly stringent requirements.

One of the requirements made until recently was that at a maximum thickness of the Screen glass of 11 mm of an accelerating voltage

109839/1050

PHN ή700

of 27 »5 kV and an anode current of 3 x- 100 / UA in a television display tube, the intensity of the KolatiHonon X-ray radiation is at most 0.5 Mi 1..1 x x-rays per hour (mr / li), at a distance of ¹ Measured S cm from the screen.

The tendency, however, is the safety margin in relation to output from television display tubes X-rays to keep increasing *. In the as yet unpublished German patent application P 20 48 523.8 describes a class of glasses, » those at a maximum thickness of 11 mra and an accelerating voltage of 35 kV and even up to to ^ O kV let through a maximum of 0.5 mr / h.

Other requirements placed on glass for bulbs of color television display tubes and the fully satisfying the above-mentioned glass are the following:

For a good processing of the glass and the pressing of windows from this glass it is necessary that the temperature dependence of the viscosity is not too big «In practice, this means that the temperature difference from the softening temperature, i.e. the temperature at which the viscosity "of the glass is 10 poises and the upper cooling point, i.e. the temperature at which the viscosity

13 h

Glass 10 'poises _r is at least ⁵ C 190- be

109833/1050

PHN 4700

In connection with the usual Herste L toehnik and the particularly strict requirements that the liooha & y.uLiiMsige deformation of the glass parts during the To make the tube, it is necessary that a glass for a color tube has an upper cooling point which is not lower than 485 ° C.

Finally, it is important that a glass for a color television display tube has approximately the same coefficient of expansion as the known glasses (about 100 χ 10 rapid 30 and 300 ^c C), whereby this glass adheres to the / ox ^ ianden fused or fused glass— and metal parts.

Naturally, the glasses shouldn't be disruptive Have a tendency to devitrify.

The glasses described in the aforementioned patent application is the result of a compromise reached with difficulty, can be obtained in which all required properties {transactions.

Yet another range of compositions of glasses has been found in accordance with the invention, all of them meet the requirements set in a satisfactory manner .

The glasses according to the invention are characterized in that their composition in wt. $ is within the following limits:

10SS3S / 1Ö50

PHN 4700

^Κ 2 ° CaO MgO Al ₂ BaO CdO SnO PbO GeO

54 - 69 6th - K)) 5 ~ 9 y 0 - 4th 0 - 2.5 1 J

0-12

0-4

0 - 10) 0-3)

13 -

8 - 18) 0-4)

0 - 4) / BaOj + 2 / ZrO-I + IZnO + 2 I SrO + ' <L _l L 2_ | L J /.J

O- 5) fcdo] +3.6 [snoj +3.1 fpbol +1.1

GeoJ + 3.7 20

[Sb ₂ O ₃ J

0-0.3

If the absorption for X-rays is considered as a function of the accelerating voltage, a decrease in the absorption for CdO, SnO ₂ , PbO, GeO, In O, CeO, Sb O. and BaO is found in the voltage range of 25 - 37.3 kV. In the case of the latter voltage, a discontinuity occurs for BaO: the absorption increases suddenly by about a factor and then decreases again with increasing voltage.

This means that if the transmitted X-rays are at voltages above 37.3 - 40 kV

109839/1050

PHN '»7OO

been kept below dos nonnworlos of 0.5 nir / h is supposed to, the forehandonsoi.il by UaO in the glass is particularly useful so it is preferable to use this oxide. The accelerating voltage just below the discontinuity at 37 »3 kV determines the absorption at lower voltage. If the transmittance is just below 37> 3 kV is still sufficiently low, this is also the case with even lower acceleration voltages the case without further ado. At higher voltages, the presence of a low BaO content, the X-ray permeable text relatively slightly below the permissible limit held.

A preferred range within the above-mentioned composition range in terms of weight is as follows:

109839/1050

PHN J »7OO

SiO ₀ V) - 65 Na ₀ O 8 - 1O)

) JNa ₀ O + JK O total Tj K ₂ O 6 - 8) i- - J LJ

CaO 1-4

MgU O - 2.3

Al ₀ O ₃ 2-5

HaO 10 - 1 ^)

CdO O - k) f ^ aül + · '- £ zx 0 ^ 7 i- j ZnOj + 2 j ^ r ¹ *] + 3.7

SnO ₀ 0 - h) fctifij + Ί, ί> Γ ^ ηΟ _? 1 +3.1 I PbOj + 1.1

PbO O- 3) Igcu _o | +3.7 Γ ^1η ;> ° ₃ 1 ⁺ f ^e0 ₂ J ⁺

GeO ₂ O- 12) JSb ₀ O ₃ I ^ 20

In ₂ OO - 4) jcdoj + | sn0 _o ] + [pboj + Γθθ0 ₀ 1 + Cn ₀ O

CeO ₂ O - 10) + (CeoJ V ϋ, 5

Sb ₂ O ₃ O- 3)

As ₀ O ₃ O - 0.3

For example, are we now agreeing? Glasses after of the invention with the relevant physical quantities explained. They were obtained in a manner customary in glass technology, in that a mixture of Sand, potassium feldspar, sodium carbonate, dojomite, cerium oxide and arium carbonate and, if necessary, potassium carbonate, Cadm ± umo.xyd, tin dioxide, added quantity, germanium— oxide, III-minium oxide, arsenic trioxide and / or antimony trioxide. was melted.

The lower cooling point, the upper cooling point and the softening temperature are with the abbreviations

109839 / 10B0

PIlN '»700

UK, OK and ET denoted.

Dia Austioluu.uigsk.ocffizieiiten the Oläsoi '1 io ^ cn between ^c > 8 uiul 1O;> χ IO / ⁰ C ₁ between 30 and gernesson.

1 2 Composition (G. k 5 ". #> 7th SiO ₂ 62, k 59.2 3 62.6 62.6 6th 58.8 Na ₂ O 9.0 8.5 62.6 9.0 9.0 62.3 8.5 "K ₂ O 6.9 6.6 9.0 6.9 6.9 9.0 6.5 MgO 1.1 1.0 6.9 1.1 1.1 6.9 1.0 CaO 1.8 1.7 1.1 1.8 1.8 1.1 1.7 BaO 12.5 12.5 1.8 12.5 12.5 1.8 12.5 CdO ο, 7 - 12.5 2.0 - 12.5 - SnO ₀ ο, 7 - - - 2.0 - - PbO ο, 8 - - - - - GeO ₂ - 6.6 - - - 2.3 - In ₂ O ₃ - - - - - - - Al ₂ O ₃ 3.3 3.1 2.0 3.3 3.3 - 3.1 Sb ₂ O ₃ 0.6 0.6 3.3 0.6 0.6 3.3 0.6 CeO., O, 2 O ₁ 2 O ₁ 6 0.2 0.2 0.6 £ 1 UK H ₅ BO /, 62 " 0.2 461 ° ^ 72 ° 0.2 l \ 050 OK hS6 ° Ί87 " Ί76 " / 188 " 501 ° r. ^# ) 'ii) ε.τ. 692 ° 677 ° 50Ί " 684 ° 70 ». 715 ° 701 ° 684 °

109839/1050

Claims (1)

PHN 4700 Pa ton tan »precho ; / Iy glass for flasks of television playback ectronium beam tubes, especially for the window of such a tube, which contains SiO ₀ , alkali oxide, barium oxide, calcium oxide, magnesium oxide, aluminum oxide, cerium oxide and arsenic and / or antimony oxide, characterized in that the composition in weight $ is within the following limits:
54-69 Well 0 6th - 10 [Na ₂ O - 4th Γ 7 Jcdo] - - 3) ] ⁺ h °] a total of 15 - 19 K ₂ O 5 - 9 - 2.5 / cdoT - [ ^In 2 ° 3 - P, 3 CaO 0 - 5th ¹ Γ -ι r MgO 0 - 18) - ¹² 1 ⁴ K ¹ Al ₂ O ₃ 1 - 4th 4th BaO 8th - 4th - 10 f. 2 [ZrO ₂ " + [znoj + 2 JsroJ + 3, CdO 0 h 3.6 TsnC ) J +3.1 [Pbol +1.1 SnO ₂ 0 + 3.7 p En ₂ O "J + JCeO ₂ I + PbO 0 3 J ^ r 20 —J .J GeO ₂ 0 H [SnO ₂ ] π - [Pbo] + [GeO ₂ J + In ₂ O ₃ 0 ] ⁺ [ ^Ce0 2 ^ ] ^ o, 5 CeO ₂ 0 J Sb ₂ O ₃ 0 ^As 2 ° 3 0 Glass according to claim 1, characterized. 2, .% by weight in that it has the following composition: 109839/1050 ί ZH-. Dipl .-! Ng. Horst Auer Patent attorney Stone dam 94 P.O. Box 992 Telephone: (0411) 2811 Telex: 2-162098 puhd April 22, 1971 A / JÜ NY Philips ¹ Gloeilampenfabrieken int.Akt.Z .: PHN 4700 New page 9 SiO CaO
MgO BaO
CdO
SnO
PbO
GeO
In ₂ O ₂₃ CeO 59 8 6 1 0 2 10 0 0 0 0 0 0 0 0 - 8] 4 2.5 5 Ol + | k ₂ o | a total of 15-17 - 4, - - jjBao] + 2 I ZrO ₂ J + [Zno] + 2 3.7 [Odd | + 3.6 FSnO ₂ ] + 3.1 1.1 + 3.7 [In ₂ O
> 20 [~ PbO ) ΓΌβο " 10) «- 0, -j + IGeO ₂ + 3.: ™ Li; rbail ei aor F s fcralilröhre, «.'i. ^ s nu-i Gl an imah claim ι ü Ä ^! Ικ-titehh. j ι> 1 at. BAD ORKSNAL