Electric lamp and discharge devices – Cathode ray tube – Envelope
Reexamination Certificate
2002-07-19
2004-03-16
Vo, Tuyet T. (Department: 2879)
Electric lamp and discharge devices
Cathode ray tube
Envelope
C313S461000
Reexamination Certificate
active
06707245
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a glass panel that constitutes a cathode ray tube used to a television, display tube or the like.
Typically, as shown in
FIG. 5
, a glass bulb for a cathode ray tube comprises a front glass panel
1
on which images are displayed, a funnel
2
which is sealingly coupled to the glass panel
1
at the back thereof and externally provided with a deflection yoke, and a neck
3
, welded to the funnel
2
, for accommodating an electron gun therein.
For a color cathode ray tube, the glass panel
1
and the funnel
2
are sealingly coupled to and thus integrated with each other at their seal end surfaces
11
and
21
with a frit glass
4
disposed therebetween. In addition, since the cathode ray tube is internally exhausted to a high degree of vacuum for operation, the glass bulb is subjected to vacuum stress due to the difference in pressure between the inside and outside of the glass bulb.
Therefore, the glass bulb is designed to have a shape and thickness sufficiently enough to bear the vacuum stress caused by the difference in pressure between the inside and outside of the glass bulb. In particular, the glass panel
1
which is susceptible to external impacts was made thick in thickness, and among other things, a face portion
12
was made thick in thickness at edge portions of an effective screen thereof to disperse and thereby alleviate the vacuum stress.
However, when the glass panel is simply made thicker in thickness, the conventional glass panel for a cathode ray tube increases in its weight. This caused a tendency to worsen its ease of handling and workability, and increase the manufacturing costs thereof with regard to glass material.
The larger the effective screen size in a diagonal direction of the face portion of the glass panel, and the larger the average radius of curvature on the outer surface of the face portion, that is, the higher in the degree of flatness, the more the weight increases synergistically. Accordingly, the aforementioned tendency becomes more noticeable.
Additionally, X-rays may be produced in the cathode ray tube when the fluorescent substance coated on the inner surface of the glass panel is excited with electron beams to emit light. The glass panel is required of a predetermined capability of absorbing X-rays to prevent the leakage of the X-rays out of the cathode ray tube through the glass bulb, which would otherwise have an adverse influence on the human body.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide especially a large-sized glass panel, incorporated into a cathode ray tube, having an outer surface of a face portion with a high degree of flatness, in which the glass panel is reduced in weight and has a predetermined capability of sufficiently absorbing X-rays while maintaining a predetermined mechanical strength.
To achieve the foregoing object, the present invention provides a glass panel for a cathode ray tube comprising a substantially rectangular face portion on which images are displayed, and a skirt portion continuous to the face portion through a blend R portion. In this constitution, an effective screen size of the face portion in a diagonal direction is 500 mm or more, an average radius of curvature of an outer surface of the face portion is 10000 mm or more in all radial directions from a face center portion, and a difference in height between the face center portion and an edge portion of the effective screen in the diagonal direction on an inner surface of the face portion is in a range from 9 mm to 17 mm.
In the above-mentioned constitution, it is preferred that an X-ray absorption coefficient A (cm
−1
) of the glass panel at a wavelength of 0.06 nm satisfy a condition of A≧1750 t/D, where D (mm) is the effective screen size of the face portion in the diagonal direction, t (mm) is a thickness at the face center portion.
The present invention intends particularly the glass panel for a cathode ray tube having a large-size in which the effective screen size of the face portion in the diagonal direction is 500 mm or more, and also having a high degree of flatness in which the average radius of curvature of the outer surface of the face portion is 10000 mm or more in all radial directions from the face center portion. Then the present invention provides the optimum range from 9 mm to 17 mm of the difference in height between the face center portion and the edge portion of the effective screen in the diagonal direction on the inner surface of the face portion, from the viewpoints of mechanical strength and reduction in weight of the glass panel.
In a case where the difference in height between the face center portion and the edge portion of the effective screen in the diagonal direction on the inner surface of the face portion is less than 9 mm, a so-called arch effect is not sufficient which is provided by increasing the difference in height from the face center portion to the edge portion of the effective screen (by increasing the thickness). Since it is necessary to be thick in thickness from the face center portion to maintain a predetermined mechanical strength, the glass panel cannot be made light in weight.
On the other hand, in a case where the difference in height between the face center portion and the edge portion of the effective screen in the diagonal direction on the inner surface of the face portion is more than 17 mm, a sufficient arch effect is obtained, thereby making it possible to make the thickness thin at the face center portion. However, even in this case, since a certain thickness is required to maintain a predetermined mechanical strength, the glass panel cannot be made light in weight, neither.
In a case where the entire glass panel is reduced in weight by providing the optimum range of the difference in height as described above so that there may be a possibility of an X-ray leakage due to a reduced thickness of the face center portion, the X-ray absorption coefficient of the glass panel can be made such that A≧1750 t/D, thereby making it possible to satisfy the predetermined capability of absorbing X-rays. On the other hand, there is a possibility for the glass panel to dissatisfy an X-ray leakage dosage of 36 pA/kg defined under the EIAJ standards (ED2113A) when the condition is A<1750 t/D.
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patent: 2002/0017851 (2002-02-01), Watanabe et al.
patent: 199 59 694 (2000-06-01), None
patent: 1 089 313 (2001-04-01), None
Daiku Nobutaka
Makio Hajime
Miwa Yoshiharu
J.C. Patents
Nippon Electric Glass Co. Ltd.
Vo Tuyet T.
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