Method for fabricating cathode structure for cathode ray tube

Electric lamp or space discharge component or device manufacturi – Process – With assembly or disassembly

Reexamination Certificate

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Details

C029S025020, C029S424000

Reexamination Certificate

active

06626726

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a method for fabricating a cathode structure for a cathode ray tube, and more particularly, to a method for fabricating an indirectly-heated cathode structure.
2. Description of the Related Art
An indirectly-heated cathode structure, as shown in
FIGS. 1 and 2
, is constructed such that a heater
3
, which is a heat source, and a cap
1
a
or
1
b
, on which an electron emitting substance
4
is coated or installed, are separated, unlike a directly-heated cathode structure, in which a cathode material is directly heated by a filament.
In detail, a cathode structure shown in
FIG. 1
includes a cap
1
a
, a sleeve
2
, and a heater
3
. The cap
1
a
is coated with a cathode material
4
, which is an electron emitting substance, and the cap
1
a
fits over the top end of the sleeve
2
, in which the heater
3
is disposed. The heater
3
has a filament
3
a
having a double helix structure coated with a heat-resistant insulating material such as alumina.
The cathode structure shown in
FIG. 2
is constructed such that the cap
1
b
is inserted into the top end of the sleeve
2
.
In the aforementioned cathode structures, the operating temperature of the cathode is in a range between 700° C. and 900° C. in the case of an oxide cathode material, while the temperature of the cathode is in a higher range between 1400° C. and 1500° C. in the case of a metallic porous body or a metal alloy.
Thus, the metal cathode structure requires a high current because high temperature must be generated by the heater
3
. However, the metal cathode structure operating at such a high temperature is liable to cause a leakage current between a heater and a sleeve due to a breakdown in an insulating material
3
b
which protects the filament
3
a
. In particular, when the heater
3
is positioned in the center of the sleeve
2
and is deviated to one side rather than being equally spaced apart from the inner surface of the sleeve
2
and the cap
1
a
or
1
b
, there is a high probability of a breakdown. Also, in the case where the heater
3
is deviated toward one side within the inner space of the sleeve
2
, the thermal distribution is not uniform throughout the sleeve
2
and the cap
1
a
or
1
b
, thereby increasing a local difference in the electron emitting density of the electron emitting source.
Therefore, it is very essential that the heater is properly positioned at the center of a sleeve after inserting the heater into the sleeve. However, conventionally, there has been no particular step or measure taken for positioning the heater in the center of the sleeve.
SUMMARY OF THE INVENTION
To solve the above problems, it is an object of the present invention to provide a method for fabricating an indirectly-heated cathode structure which can prevent current leakage from being generated due to a breakdown in a heater by positioning the heater at a desired position on a sleeve.
It is another object of the present invention to provide a method for fabricating an indirectly-heated cathode structure which can reduce a local difference in the thermion emission density by uniformly heating a sleeve and a cap.
Accordingly, to achieve the first object, there is provided a method for fabricating an indirectly-heated cathode structure, including the steps of inserting a heater formed in a predetermined shape into a space of a mold, injecting a thermoplastic resin into the space of the mold to mold the heater by the thermoplastic resin, inserting the heater molded by the thermoplastic resin into a sleeve having a cap on its top end, connecting the sleeve and the heater by means of a support body to assemble a cathode structure, and heating the cathode structure to remove the thermoplastic resin used for molding the heater.
Preferably, the space of the mold is shaped so as to correspond to the inner space of the sleeve. In particular, a protrusion for a spacer, locally contacting the sleeve, for positioning the heater at a desired position of the inner space of the sleeve, is preferably provided on the outer surface of a thermoplastic resin for molding the heater.


REFERENCES:
patent: 4210988 (1980-07-01), Turnbull et al.
patent: 5107583 (1992-04-01), Gustafsson

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