Electric lamp and discharge devices – Cathode ray tube – Shadow mask – support or shield
Reexamination Certificate
1999-01-20
2001-06-26
Patel, Ashok (Department: 2879)
Electric lamp and discharge devices
Cathode ray tube
Shadow mask, support or shield
Reexamination Certificate
active
06252343
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATION
This application claims priority of Korean Patent Application No. 98-1854, filed Jan. 22, 1998.
FIELD OF THE INVENTION
The present invention relates to a shadow mask for a cathode ray tube (CRT) and a method of manufacturing the same. More particularly, the present invention relates to a shadow mask for a CRT and a method of manufacturing the same in which a carburization process is used to produce the shadow mask, thereby realizing improvements in tensional strength and the elongation rate.
BACKGROUND OF THE INVENTION
A conventional shadow-mask-type CRT comprises an evacuated envelope having therein a viewing screen comprising an array of phosphor elements of three different emission colors arranged in a cyclic order, means for producing three convergent electron beams directed towards the screen, and a color selection structure or shadow mask comprising a thin multi-apertured sheet of metal precisely disposed between the screen and the beam-producing means. The shadow mask shadows the screen, and the differences in convergence angles permit the transmitted portions of each beam to selectively excite phosphor elements of the desired emission color.
The conventional CRT shadow mask is typically manufactured by first coating a photoresist on a thin metal plate made of Invar or aluminum-killed (AK) steel. The plate is then exposed to light, developed and etched to form a plurality of holes therein. Thereafter, the plate formed with the holes is annealed using a heat-treating process in a hydrogen atmosphere at a high temperature, thereby removing residual stress and providing malleability to the plate. The plate is then formed into a predetermined mask shape by the use of a press, after which the plate is cleaned to remove all contaminants from the surface thereof including fingerprints, dust and other foreign substances. Finally, a blackening process is performed on the shaped plate to prevent doming of the same, thereby completing the manufacture of the shadow mask.
The shadow mask acts as a bridge between electron beams emitted from three electron guns (means for producing three convergent electron beams) and red, green and blue phosphor pixels formed on the panel, ensuring that the electron beams land on the correct phosphor pixels. Accordingly, any deviation of the shadow mask from its original position acts to mis-direct the electron beams to excite the unintended phosphor pixels.
The shadow mask can be repositioned in the CRT if the same receives external shock or vibrations, or as a result of the impact from speakers mounted in the system to which the CRT is applied. That is, if the CRT receives a substantial degree of such forces, the shadow mask moves in the CRT such that electron beams passing therethrough land on the wrong phosphor pixel, thereby deteriorating color purity. This will be described in more detail hereinbelow.
FIG. 1
shows a partial sectional view of a conventional CRT used to describe the shifting of a shadow mask caused by an external shock. As shown in the drawing, the CRT includes a panel
1
, a phosphor screen
2
formed on an inner surface of the panel
1
, and a shadow mask
6
fixedly suspended a predetermined distance from the phosphor screen
2
and having a plurality of apertures (not shown) formed therein. The shadow mask
6
is mounted to a side wall of the panel
1
. That is, a mask frame
5
joined to a periphery of the shadow mask
6
is coupled to a spring
4
, and the spring
4
is connected to a stud pin
3
protruding from the side wall of the panel
1
. An electron gun
11
is mounted in a funnel (not shown) of the CRT and emits electron beams
10
in a direction toward the shadow mask
6
.
When the CRT receives a substantial external shock or vibrations, the shadow mask
6
is shaken and moves from its initial position to a deviated position
7
. As a result, the electron beams
10
emitted from the electron gun
11
pass through an incorrect aperture of the shadow mask
6
. That is, an electron beam that is intended to pass through a predetermined aperture
8
of the shadow mask
6
, comes to pass through an incorrect aperture
9
as a result of the shadow mask
6
moving to the deviated position
7
. Accordingly, a position P
1
on the phosphor screen
2
on which the electron beam
10
lands is altered to deviated position P
2
, resulting in the excitation of the wrong phosphor pixel. This causes shaking of the displayed picture, a reduction in color purity and other picture quality problems.
Furthermore, in the case where the CRT receives an extreme shock, for example if the system in which the CRT is installed is dropped, it is possible for the shadow mask
6
to become deformed. An example of this is shown in
FIG. 2
in which a deformed area
12
is illustrated. When electron beams
10
pass through the deformed area
12
, the above problems of shaking of the displayed picture and a reduction in color purity occur, in addition to the generation of spurious colors.
To remedy the above described problems, Japanese Patent Laid-Open No. Sho 62-223950 discloses a technique of improving tensional strength of the shadow mask by forming a plating layer thereon. However, aperture size is decreased when using this technique.
Also, Japanese Laid-Open Nos. Sho 56-121257 and Hei 1-276542 each disclose a technique of improving tensional strength of the shadow mask by heat treating the same in a gaseous atmosphere. However, in these conventional methods, the shadow mask is thermally deformed as a result of heat treating the same for long periods during the manufacturing process.
SUMMARY OF THE INVENTION
The present invention has been made in an effort to solve the above problems.
It is an object of the present invention to provide a shadow mask for a cathode ray tube (CRT) in which improvements in tensional strength and the elongation rate of the shadow mask are realized such that deformation of the shadow mask caused by external shock is prevented.
It is another object of the present invention to provide a shadow mask for a cathode ray tube (CRT) in which an improvement in the modulus of elasticity for the shadow mask is attained so that the same is not negatively influenced by external vibrations and vibrations caused by the operation of speakers in a system to which the CRT is used.
It is still another object of the present invention to provide a method of manufacturing a shadow mask for a CRT in which no thermal deformation of the shadow mask occurs during the manufacture of the same.
To achieve the above objects, the present invention provides a shadow mask for a CRT and a method manufacturing the same, the shadow mask includes a solid solution hardening material and a precipitation hardening material. The method includes the steps of heat-treating a metallic plate having a plurality of apertures formed therein using a carburizing gas, and press-forming the metallic plate into a shadow mask shape.
According to a feature of the present invention, the solid solution hardening material and the precipitation hardening material comprise carbon.
According to another feature of the present invention, the amount of carbon contained in the shadow mask is 0.01 to2.0 parts by weight based on the weight of the shadow mask.
According to yet another feature of the present invention, the shadow mask is made of a low thermal expansion material.
According to still yet another feature of the present invention, the shadow mask is made of AK steel or Invar.
According to still yet another feature of the present invention, the carburizing gas comprises an RX gas and a propane gas.
According to still yet another feature of the present invention, the temperature of the heat-treating step ranges from 600 to 1000° C.
According to still yet another feature of the present invention, the heat-treating step is conducted for a period of 0.1 to 5 hours.
REFERENCES:
patent: 3777203 (1973-12-01), Yamada et al.
patent: 5396146 (1995-03-01), Nakamura et al.
patent: 5752755 (1998-05-01), Rho et al.
patent: 5811918 (1998-09-01),
Han Dong-hee
Han Seung-kwon
Moon Sung-hwan
Christie Parker & Hale LLP
Patel Ashok
Samsung Display Divices Co., LTD
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