KR100786851B1 - Cathode ray tube - Google Patents

Abstract

A panel having a screen formed on an inner surface thereof, and a funnel connected to the panel and equipped with a deflection device on an outer circumference thereof, and a neck connected to the funnel and inserted with an electron gun inserted therein, wherein the funnel and the neck are welded. The portion of the cathode ray tube is called a neck seal line (A), and when a straight line is connected to one point of the tube axis from the opposite ends of the screen with the tube axis of the cathode ray interposed therebetween, the angle formed by two straight lines is the maximum deflection of the cathode ray tube. The position on the tube axis to be an angle is referred to as a reference line (B), and when the external shape of the funnel is viewed along the tube axis from the panel side to the neck side, the inflection point portion that is the boundary between the convex portion and the concave portion is thio In the case of an egg (TOR: Top of Round) C, the funnel thickness T1 and the reference from the neck seal line to the reference line The funnel thickness T2 from the line to the thioal is made different.

Cathode ray tube, funnel, cone section, reference line, thickness

Description

Cathode Ray Tube {CATHODE RAY TUBE}

1 is a cross-sectional view showing a cathode ray tube according to an embodiment of the present invention,

Figure 2 is a cross-sectional view showing the main part of the cathode ray tube according to an embodiment of the present invention,

3 is a diagram illustrating a funnel of a typical cathode ray tube.

TECHNICAL FIELD The present invention relates to a cathode ray tube, and more particularly, to a funnel which is a back glass forming an outer appearance of a cathode ray tube.

Cathode ray tubes, as is well known, are electron tubes that produce images by deflecting the electron beam emitted from the electron gun in the horizontal and vertical directions with respect to the screen so that the electron beam lands on the phosphor of the screen.

The cathode ray tube is usually formed of a tube made of glass, wherein the tube is formed by combining a panel of front glass and a funnel and neck of rear glass. Among these funnels, as shown in FIG. 3, the funnel has a substantially funnel shape and seals the neck 1 to which an electron gun is built.                         

The funnel 3 is described in detail by region. First, the funnel 3a is equipped with a body 3a connected to the panel side and a deflection device connected to the body 3a and not shown on the outer circumference thereof. It consists of the cone part 3b.

The part where the funnel 3 and the neck 1 are sealed in the vitreous body is generally called a neck seal line A, and a point where the body 3a and the cone part 3b meet. It is called TOR (Top of round) (B).

In the thioal (B), the convex portion (the body portion) and the concave portion (the cone portion) are viewed from the body 3a along the tube axis Z. The inflection point site meets. In addition, a reference line (R / L), also referred to as a deflection reference position, is set on the cone portion 3b, and the reference line C is formed from both ends of the diagonals of the screen formed on the inner surface of the panel. When a straight line is connected to any one point on the tube axis Z, the angle formed by these two straight lines indicates the position on the tube axis Z such that the angle of deflection of the cathode ray tube is the maximum.

In order for such a funnel 3 to be applied to a cathode ray tube substantially, it should be manufactured in consideration of the following points, and this includes securing a margin of electron beam (BSN) (hereinafter referred to as BSN) and securing productivity. And anti-explosion protection.

The BSN of the electron beam is that the electron beam generated from the electron gun should not hit the inner wall of the neck when the electron beam is scanned into the screen formed on the inner surface of the panel. In order to prevent the breakage of the point (approximately 10 mm) into the line, the anti-explosion is ensured that the specific part of the funnel is heated due to the BSN problem and the production line problem, This means that it cannot endure the high vacuum (10 ^-7 Torr) state inside the vacuum tube.

However, in the related art, when designing a funnel in consideration of the above points, the funnel is manufactured in consideration of only one part without satisfying all of the above characteristics.

For example, if the funnel is manufactured in consideration of the BSN problem of the electron beam, it is difficult to manufacture and manufacture the funnel because the specific part becomes weak during the actual manufacturing and production. On the contrary, when the funnel is manufactured by reinforcing the specific part, the electron beam is produced. This is because the probability of causing problems in the BSN increases.

For this reason, conventionally, a cathode ray tube is provided with a funnel satisfying only one of the above conditions, and there is a problem in that it does not provide the consumer with optimization of characteristics of the cathode ray tube.

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to secure the BSN margin of the electron beam, to secure the production productivity of the cathode ray tube, and to secure the explosion proof property of the cathode ray tube, and so on. To provide a cathode ray tube designed to satisfy all parts evenly.

In order to realize the above object,

A panel having a screen formed on an inner surface thereof; A funnel connected to the panel and equipped with a deflection device on an outer circumference; And a neck connected to the funnel and installed with an electron gun inserted therein.

The portion where the funnel and the neck are welded is called a neck seal line (A),

When the straight line is connected to any one point of the tube axis from the opposite ends of the screen with the tube axis of the cathode ray tube in between, the position on the tube axis such that the angle formed by two straight lines becomes the maximum deflection angle of the cathode ray tube. Called (B),

When looking at the shape of the funnel along the tube axis from the panel side to the neck side, the inflection point portion that is the boundary between the convex portion and the concave portion is called thial (TOR: Top of Round) (C),

The funnel thickness T1 from the neck seal line to the reference line and the funnel thickness T2 from the reference line to the thioal are provided to provide a cathode ray tube.

At this time, the relationship between said T1 and T2 is made thicker than T2.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a cathode ray tube according to an embodiment of the present invention. As shown in the drawing, the cathode ray tube is shaped as a tube made of glass, and the tube is formed in a substantially rectangular shape as in a typical cathode ray tube, and the panel 20 is formed on an inner surface thereof. 22 and a funnel-shaped funnel 26 connected to the panel 22 and mounted with a deflection device 24 at a predetermined position on the outer circumference thereof, and being connected to the rear of the funnel 26, It consists of a tube containing the neck 30 to which the electron gun 28 is installed.

When the cathode ray tube implements a color image in addition to the screen 20 described above, the shadow mask 32 serving as a color screening means includes a mask frame 34 and an assembly inside the panel 22. In addition, the mask frame 32 is provided with an inner shield 36 which functions as a geomagnetic shielding means.

Dividing the configuration of the funnel 26 in such a cathode ray tube in more detail, the funnel 26 is a body that is connected to the panel 22 on the basis of the thioal (C) set on the funnel (26). 26a and the cone portion 26b connected to the neck 30, the deflecting device 24 is installed on the cone portion 26b.

Since the definition of the thioal C and the reference line B set on the cone portion 26b is the same as in the related art, a detailed description thereof will be omitted, and reference numeral A denotes the cone portion 26b. And a neck seal line A in contact with the neck 30.

In such a cathode ray tube, the present invention allows the cathode ray tube to satisfy the following conditions. That is, the cathode ray tube is configured to satisfy all of the above conditions without satisfying any one of the conditions such as securing the BSN margin of the electron beam, securing the productivity, and ensuring the explosion protection. This configuration is made possible in the funnel 26 area, in particular, by forming the cone portion 26b as follows.

FIG. 2 is an enlarged cross-sectional view of the funnel 26 around the cone portion 26b. As can be seen from the drawing, the cone portion 26b is referred to the reference line B as a reference. When viewed, the cone portion 26b has a thickness T1 from the neck seal line A to the reference line B and a thickness T2 from the reference line B to the thioal C. To be made different, that is, the thickness T1 is made thicker than the T2.

Accordingly, by applying the funnel 26 satisfying the above conditions to the cathode ray tube, it is possible to secure the BSN margin, productivity, and anti-explosion of the electron beam for each corresponding cathode ray tube.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, this also belongs to the scope of the present invention.

As described above, the cathode ray tube according to the present invention varies the thickness of the portion of the funnel cone portion on which the deflection device is mounted based on the reference line set on the cone portion, thereby securing the BSN margin of the electron beam, which has been a problem during the production of the cathode ray tube, and ensuring productivity. In order to secure high anti-explosion properties, it is possible to satisfy all of them without providing any weight and to provide them as high quality products.

Claims (2)

A panel having a screen formed on an inner surface thereof; A funnel connected to the panel and equipped with a deflection device on an outer circumference; And Neck connected to this funnel and having an electron gun inserted inside In the cathode ray tube comprising: The portion where the funnel and the neck are welded is called a neck seal line (A), When the straight line is connected to any one point of the tube axis from the opposite ends of the screen with the tube axis of the cathode ray tube in between, the position on the tube axis such that the angle formed by two straight lines becomes the maximum deflection angle of the cathode ray tube. Called (B), When looking at the shape of the funnel along the tube axis from the panel side to the neck side, the inflection point portion that is the boundary between the convex portion and the concave portion is called thial (TOR: Top of Round) (C), And a thickness of the funnel thickness T1 from the neck seal line to the reference line and the thickness of the funnel thickness T2 from the reference line to the thiol. delete

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