Glass manufacturing – Processes – With glass reclaiming – repairing or crack run interruption
Reexamination Certificate
2002-07-10
2004-11-23
Group, Karl (Department: 1755)
Glass manufacturing
Processes
With glass reclaiming, repairing or crack run interruption
C501S070000, C501S071000
Reexamination Certificate
active
06820443
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a method of producing funnel glass for a CRT (cathode ray tube).
An envelope of a CRT comprises a panel portion for projecting video images, a tubular neck portion with an electron gun arranged therein, and a flare-shaped funnel portion connecting the panel portion and the neck portion with each other. The panel portion, the neck portion and the funnel portion are of glass. Electron beams emitted from the electron gun excite phosphors arranged on an inner surface of the panel portion to emit light so that the video images are projected on the panel portion. At the same time, X-rays are produced inside the CRT. X-rays adversely affect human bodies when leaked to the exterior of the CRT through the envelope. Therefore, the envelope is required to have a high X-ray absorbability.
CRTs are classified broadly into black-and-white CRTs and a color CRTs. Generally, the panel portion of a black-and-white CRT (hereinafter referred to as “black-and-white panel”) requires that its glass is not colored due to electron beams and X-rays. Black-and-white panels are made of glass containing about 5 mass % of PbO. The panel portion of color CRTs (hereinafter referred to as “color panel”) is used at higher voltages as compared with the black-and-white panel, and thus the requirement that its glass is not colored due to electron beams and X-rays is higher. Therefore, the color panel is made of glass containing no PbO but containing SrO and BaO. The funnel portion is required to have a high X-ray absorption coefficient, and thus is made of glass containing no less than 10 mass % of PbO. The panel portion and the funnel portion are joined together by welding in case of the black-and-white CRT, and by using a PbO frit made of glass containing PbO as a bonding agent in case of the color CRT.
In recent years, recycling of CRT glass members has been widely practiced. For this purpose, the glass members are first classified into black-and-white glass members and color glass members, which are then further classified into groups of panel glass members, funnel glass members and neck glass members. Then, the glass members of each group are immersed into a chemical liquid to remove phosphors, carbon DAGs, frits and so on. Subsequently, the glass members of each group are comminuted and the comminuted glass members are used as a recycled glass material for producing glass members of the same group.
The reason why the glass members should be strictly classified as described above is that, for example, if the glass members containing PbO, such as the black-and-white panels, are mixed into a glass material of the color panels, the color panels made of this glass material are subjected to coloration due to electron beams and X-rays.
Further, if the frits are not removed completely from the color panels, the same problem will arise.
However, the complete classification of the glass members into groups as described above requires much time and labor, and thus leads to an increase in production cost. Further, there is also the problem that demand for the black-and-white CRT glass is small and thus the production amount thereof is limited, so that complete recycling cannot be achieved with respect to the black-and-white CRT glass.
In view of the above, the color panels with the adhering frits and the black-and-white panels are now being recycled as a material of the funnel glass which is required to be PbO glass as described above.
The black-and-white panels, the color panels and the frits respectively contain colorants, such as NiO, Co
3
O
4
, MnO
2
and Cr
2
O
3
. Thus, if such recycling is performed, these colorants are mixed into the funnel glass. Even if CRTs are produced using funnel glass with those colorants mixed therein, no particular problems will arise in view of the characteristics thereof.
However, since the amount of the black-and-white panels, the color panels and the frits to be recycled is not fixed, the rate of the recycled glass contained in a material of the funnel glass changes and, following this, the amount of the contained colorants also changes. As a result, the infrared ray transmittance of the funnel glass is not fixed, so that upon producing the funnel glass in a glass melting furnace, the temperature at the bottom of the furnace fluctuates. Therefore, the flow of molten glass material is not stable, resulting in the possibility that the numbers of seeds and devitrifying stones increase to lower the product yield.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a method of producing CRT funnel glass suitable for recycling glass containing a colorant.
Other objects of the present invention will become clear as the description proceeds.
The present inventors have found that even if a colorant contained in a frit, a color panel or a black-and-white panel enters into funnel glass, the infrared ray transmittance of the glass can be stabilized by adding a given amount of Fe
2
O
3
, depending on the amount of the colorant.
According to the present invention, there is provided a method of producing CRT funnel glass comprising the steps of preparing a glass material from at least one of CRT panel glass and CRT frit containing at least one colorant selected from the group consisting of NiO, Co
3
O
4
, MnO
2
, Cr
2
O
3
, adding Fe
2
O
3
in a range of 0.05 to 1 mass %, depending on the amount of the colorant, to produce a mixture of the glass material with Fe
2
O
3
, melting the mixture to produce a glass melt, and producing the CRT funnel glass from the glass melt such that, at a thickness of 10 mm, the CRT funnel glass has a fluctuation of transmittance of light having a wavelength of 1,050 nm of 10% or less.
Specifically, by adding a given amount of Fe
2
O
3
depending on the amount of a colorant contained in the glass material, the infrared ray transmittance of the CRT funnel glass is stabilized. As a result, there can be obtained the CRT funnel glass whose infrared ray transmittance is stable, while its composition contains one or more of the colorants. Naturally, the obtained CRT funnel glass contains Fe
2
O
3
in a range of 0.05 to 1 mass %.
As a result, the fluctuation of the temperature at the bottom of the melting furnace is suppressed to stabilize the flow of the molten glass material, so that the CRT funnel glass with less seeds and devitrifying stones can be obtained.
If the added amount of Fe
2
O
3
is less than 0.05 mass %, the fluctuation of the infrared ray transmittance of the glass cannot be stabilized within 10% or less when the colorant amount fluctuates largely. On the other hand, if the added amount of Fe
2
O
3
is greater than 1 mass %, the infrared ray transmittance of the glass becomes so low that the heat cannot reach the bottom of the melting furnace, thereby increasing the seeds and devitrifying stones. Preferably, the added amount of Fe
2
O
3
falls within a range of 0.08 to 1 mass %, and more preferably, within a range of 0.1 to 0.9 mass %. For suppressing generation of the seeds and devitrifying stones by increasing the infrared ray transmittance of the glass to allow the heat to reach the bottom of the melting furnace, it is desirable that the transmittance of light with a wavelength of 1,050 nm in a thickness of 10 mm of the glass is set at 50% or greater, preferably 60% or greater, and more preferably 70% or greater.
The foregoing composition of the CRT funnel glass contains PbO in a range of 10 to 30 mass %. This produces an X-ray absorption coefficient of 40 cm
−1
or greater at 0.6 Å to provide the glass with a high X-ray shielding capability, and further achieves a viscosity of the glass suitable for the formation.
Preferably, the composition of the glass contains, in mass, 48 to 58% SiO
2
, 0.5 to 6% Al
2
O
3
, 10 to 30% PbO, 0 to 5% MgO, 0 to 6% CaO, 0 to 9% SrO, 0 to 9% BaO, 3 to 9% Na
2
O
4
, to 11% K
2
O, 0 to 3% ZrO
2
, 0 to 5% ZnO, and 0.05 to 1% Fe
2
O
3
. The reason for this glass composition will be explained hereinbelow.
SiO
2
is a comp
Komori Hiroshi
Yamazaki Hiroki
Bolden Elizabeth A.
Collard & Roe P.C.
Group Karl
Nippon Electric Glass Co. Ltd.
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