JPH1186754A - Glass funnel for cathode-ray tube - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a glass funnel for a cathode-ray tube, wherein without increasing a glass thickness, that is glass weight, mechanical strength of a yoke-mounting part necessary for thinning of thickness from the view point on scanning of an electron beam, while improving desired strength, and yet superior mechanical strength is provided. SOLUTION: In a glass funnel 1 for a cathode-ray tube of a funnel shape, having a wide opening end part 2 connecting a panel and a narrow opening end part 3 connecting a neck pipe, in an inner/outer surface of the glass funnel 1 for the cathode ray tube, a compression stress layer C is formed, in the compression stress layer C, when σ1 is assumed for compression stress value of a yoke mounting part 1a in a side of the narrow opening end part 3 of the glass funnel 1 and σ2 for compression stress value of a body part 1b in a side of the wide opening end part 2 to be broader than that of the yoke mounting part 1a, a relation of σ1 >σ2 exists.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glass funnel for a cathode ray tube.

[0002]

2. Description of the Related Art After molding a glass funnel for a cathode ray tube,
It is conveyed to a lehr, and is gradually cooled according to a predetermined temperature schedule in the lehr. The glass funnel after slow cooling
A layer of compressive stress is formed on the inner and outer surfaces, and a layer of tensile stress having a magnitude half the absolute value of the compressive stress is formed on an intermediate inner layer. In general, the compressive stress for glass is known to make it difficult to break the glass and to strengthen it.
Such a compressive stress is formed as a larger stress as the thickness of the glass is larger. That is, as the thickness of the glass increases, the temperature difference between the surface layer and the inner layer of the glass when the glass is cooled increases, and as a result, the compressive stress in the surface layer of the glass increases.

As shown in FIGS. 1 and 2, a glass funnel 1 for a cathode ray tube has a wide opening end 2 for joining a panel and a narrow opening end 3 for joining a neck tube. However, the thickness of the glass is usually not uniform over the entire glass funnel 1. After the panel and the neck tube are joined to the glass funnel 1 in a later tube process, outside the rear portion (narrow opening end 3 side) of the glass funnel 1 from the electron gun in the neck tube to the panel inner surface. A deflection yoke for deflecting the electron beam emitted toward the fluorescent film is attached. If the glass thickness of the yoke attachment portion 1a is large, the passage of the electron beam emitted from the electron gun is blocked. In order to cause a phenomenon called neck shadow, the glass thickness of the yoke mounting portion 1a is usually thinned. That is, in the glass funnel 1, the glass wall thickness of the narrow opening end portion 3 side of the yoke attachment portion 1a and t _1, the thickness of the body 1b of the wide open end 2 side of the yoke attachment portion 1a and t ₂ Then, the relationship of t ₂ > t ₁ is established, and the thickness t ₁ of the yoke mounting portion 1a is １ ／ of the thickness t ₂ of the body portion 1b.
The thickness is reduced at a rate of 1/5. Therefore, the compressive stress value of the compressive stress layer C at the above-mentioned two portions of the conventional glass funnel 1 is larger than that of the yoke mounting portion 1a by the body portion 1b.
Has a larger value.

[0004]

Since the mechanical strength of glass is proportional to the square of the glass thickness, in the case of a conventional glass funnel for a cathode ray tube, the mechanical strength of the yoke mounting portion is the mechanical strength of the body portion. 1/4 to 1 / compared to strength
The ratio is extremely low at a rate of 25, and improvement in strength at such a yoke mounting portion is desired.

However, when the thickness of the glass funnel in the yoke mounting portion is increased, the above-mentioned problem of the neck shadow occurs. In addition, the increase in the thickness of the glass funnel increases the weight of the glass and makes handling inconvenient. In addition, it causes high cost and is not preferable in terms of workability and economy.

Accordingly, an object of the present invention is to provide a yoke mounting for which it is necessary to reduce the thickness from the viewpoint of electron beam scanning without increasing the glass thickness, that is, the glass weight, but to improve the strength. Improve the mechanical strength of the part,
An object of the present invention is to provide a glass funnel for a cathode ray tube having higher mechanical strength.

[0007]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems and objects, and has a funnel having a wide opening end to which a panel is joined and a narrow opening end to which a neck tube is joined. In the glass funnel for a cathode ray tube, a compression stress layer is formed on an inner surface and an outer surface of the glass funnel for a cathode ray tube, and the compression stress layer compresses a yoke mounting portion on a narrow opening end side of the glass funnel. When the stress value is σ ₁ , and the compressive stress value of the body portion on the side of the wide opening end from the yoke mounting portion is σ ₂ , a relationship of σ ₁ > σ ₂ is satisfied. Funnel.

[0008]

According to the present invention, a compressive stress layer is formed on the inner surface and the outer surface of a glass funnel for a cathode ray tube, and the compressive stress layer determines the compressive stress value of the yoke mounting portion of the funnel and the compressive stress value of the body portion. By being greater than
In particular, it is possible to improve the mechanical strength of the yoke mounting portion where the strength needs to be improved while the thickness thereof is required to be reduced, and thus it is possible to impart higher mechanical strength to the glass funnel.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a glass funnel for a cathode ray tube according to the present invention will be described based on embodiments.

The drawings will be described with reference to FIGS. 1 and 2 described above.

The glass funnel 1 for a 29-inch cathode ray tube of the present embodiment has a wide opening end 2 to which a panel is joined and a narrow opening end 3 to which a neck tube is joined. the average thickness t ₁ of part 3 side of the yoke mounting portion 1a, the average thickness t ₂ of the body 1b of the yoke attachment portion 1a than the wide open end side 2 are each t ₁ = 3 mm, t ₂
= 10 mm.

A compressive stress layer C is formed on the inner and outer surfaces of the glass funnel 1 for a cathode ray tube, and the compressive stress value σ ₁ of the yoke mounting portion 1a is 60 kg / cm ² ,
The compressive stress value σ ₂ of the body part 1b is 30 kg / cm ² .

Such a glass funnel 1 for a cathode ray tube comprises:
After molding, only the yoke mounting portion 1a of the slowly cooled glass funnel 1 can be manufactured by raising the temperature to 500 ° C. by electric heating and quenching, but depending on the manufacturing process, after the neck tube is joined to the glass funnel 1 Alternatively, the yoke mounting portion 1a of the glass funnel 1 and the neck tube may be simultaneously heated and quenched.

The glass funnel 1 thus obtained,
A conventional glass funnel obtained by being directly conveyed to an annealing furnace after molding was subjected to a strength test by the following method.

The test method is based on a boil shock test. Ten glass funnels 1 of the present embodiment and ten conventional glass funnels are prepared, and 15 parts are attached to the yoke mounting portion.
No. 0 abrading was performed, and then the glass funnel was immersed in a bath set at 30 to 50 ° C. for 5 minutes, and then subjected to a cold water shower immediately after being taken out of the bath to check whether the glass funnel was broken.

As a result, in the conventional glass funnel, three pieces were damaged in the test using the 40 ° C. bath, and seven pieces were damaged in the test using the 50 ° C. bath, but no damage was found in the glass funnel 1 of this embodiment. No good results were obtained.

[0017]

As described above, the glass funnel for a cathode ray tube according to the present invention needs to be thinner from the viewpoint of electron beam scanning without increasing the glass weight, while improvement in strength is desired. This improves the mechanical strength of the yoke mounting portion, and has an excellent effect of having more excellent mechanical strength.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a glass funnel for a cathode ray tube.

FIG. 2 is a partially enlarged explanatory view of a glass funnel for a cathode ray tube.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Glass funnel for cathode ray tubes 1a Yoke attaching part 1b Body part 2 Wide opening end 3 Narrow opening end C Compressive stress layer

Claims (1)

[Claims] 1. A funnel-shaped glass funnel for a cathode ray tube having a wide opening end to which a panel is joined and a narrow opening end to which a neck tube is joined, wherein an inner surface and an outer surface of the glass funnel for a cathode ray tube have: A compressive stress layer is formed. The compressive stress layer has a compressive stress value of σ _{1 at} the yoke mounting portion on the narrow opening end side of the glass funnel, and compresses the body portion on the wide opening end side than the yoke mounting portion. A glass funnel for a cathode ray tube, characterized by having a relationship of σ ₁ > σ ₂ when a stress value is σ ₂ .