KR20030062514A - Supporting structure of Deflection Yoke for CRT - Google Patents

Abstract

PURPOSE: A deflection yoke support is provided to prevent degradation of color purity by minimizing change of landing even when an external impact is applied. CONSTITUTION: A color cathode ray tube comprises a panel having an inner surface on which a phosphor screen is arranged; a funnel attached to the rear of the panel through a frit glass, and which includes a body portion, a square-shaped cone portion and a neck portion; a deflection yoke for deflecting R, G and B electron beams; and a deflection yoke support interposed between the funnel and the deflection yoke, and which supports the deflection yoke. The deflection yoke support has a funnel contacting surface which is convex downward.

Description

Deflection yoke support for color cathode ray tubes {Supporting structure of Deflection Yoke for CRT}

The present invention relates to a color cathode ray tube, and more particularly, to a deflection yoke of a color cathode ray tube for minimizing a change in landing by improving adhesion of a rectangular deflection yoke.

FIG. 1 is a view showing a schematic configuration of a general color cathode ray tube. The front glass of the panel 1 and the rear glass of the funnel 2 are combined, and the inner surface of the panel 1 has a fluorescent surface 4 which plays a predetermined light emitting role. ) And a shadow mask (3) for sorting colors to emit a predetermined phosphor, and a frame for supporting the shadow mask (3), the electron gun (11) that is the source of the electron beam (6) that emits the fluorescent surface (4). It consists of an assembly (7), and a reinforcing band (12) wrapped outside the funnel (2) to ensure safety.

A spring (8) for coupling the frame assembly (7) with the shadow mask (3) to the funnel (2), and an inner shield for shielding so that the cathode ray tube is less affected by an external geomagnetic field during operation, is main It is sealed with high vacuum while fixed to the frame.

Referring to the operation principle of the color cathode ray tube disclosed in Figure 1 as follows.

In the electron gun embedded in the neck of the funnel 2, the electron beam 6 strikes the fluorescent surface formed on the inner surface of the panel 1 by the anode voltage applied to the cathode ray tube, before the electron beam reaches the fluorescent surface. The deflection yoke 5 is deflected up and down and left and right to form a screen.

In addition, there are 2, 4, and 6 pole magnets that modify the trajectory of the electron beam 6 so as to strike a predetermined phosphor, thereby preventing poor color purity.

Since the cathode ray tube is made of high vacuum, it can easily be deflated due to external impact. Thus, the reinforcement band 12 is attached to the skirt of the funnel 2 to disperse the stress of the cathode ray tube in a high vacuum state. Secure impact performance.

As described above, the deflection yoke 5 adjusts the trajectory of the electron beam 6, and the color purity is determined by adjusting the trajectory of the electron beam 6 of the deflection yoke 5.

Therefore, when the position of the deflection yoke 5 is changed, the purity is deteriorated by the change of landing, so the deflection yoke 5 should be fixed so that the position is not changed by external impact.

To this end, by inserting the deflection yoke support between the deflection yoke 5 and the funnel 3, the deflection yoke 5 is brought into close contact with the funnel to prevent shaking of the deflection yoke 5 due to external impact.

In general, in a color cathode ray tube having a circular cone portion 2b 'as shown in FIG. 3 (a), the body portion 2a' and the cone portion 2b 'of the funnel 2 are smoothly connected in a circular curved surface to form a funnel ( 2) and the bottom surface of the deflection yoke support 13 without a gap between the deflection yoke support 13 shown in FIG. 4 attached to the portion where the body portion 2a 'and the cone portion 2b' of the funnel 2 are connected. 13a) Since the whole of the funnel 2 is tightly fixed to the portion where the body portion 2a 'and the cone portion 2b' are connected, the shake of the deflection yoke due to external shock does not occur greatly.

However, in the case of using the funnel 2 having a rectangular cone portion 2b as shown in FIG. 3B to improve the deflection feeling of the color cathode ray tube according to the power consumption regulation, the body portion 2a of the funnel Since the rectangular cone portion 2b is sharply bent at the point where it meets, when the conventional deflection yoke support 13 as shown in FIG. 4 is used, both ends of the bottom surface 13a of the deflection yoke support 13 are the body parts of the funnel. The contact portion 2a and the cone portion 2b are in close contact with each other, but a gap is generated in the middle portion.

As a result, the deflection yoke is not completely fixed to the outer surface of the funnel and flow is generated, thereby deteriorating the color purity without maintaining the quality of the color cathode ray tube when the deflection yoke is changed due to the external shock.

Accordingly, an object of the present invention is to solve the conventional problems, and the object of the present invention is to prevent deterioration of the purity caused by a change in landing caused by a change in position of a rectangular deflection yoke for reducing power consumption.

1 is a cross-sectional view of a typical cathode ray tube,

2 is a view showing the name of the funnel,

3A is a view showing a funnel shape having a circular cone portion;

3B is a view showing a funnel shape having a rectangular cone portion;

4A and 4B are side views of a conventional deflection yoke support;

5A and 5B are side views of the deflection yoke support according to the present invention;

Figure 6a is a conventional deflection yoke support is installed in the funnel,

6b is a view in which a deflection yoke support is installed in a funnel according to the present invention;

7a and 7b show another embodiment of the deflection yoke support according to the present invention.

Explanation of symbols on the main parts of the drawings

2: funnel 5: deflection yoke

13, 14: deflection yoke support

The present invention for achieving the object as described above, the panel is provided with a fluorescent surface on the inner surface, fused using a frit glass on the back of the panel, the funnel consisting of a body portion, a rectangular cone portion, and a neck portion, R, G In a color cathode ray tube including a deflection yoke for deflecting three electron beams, and a deflection yoke support disposed between the funnel and the deflection yoke to fix the deflection yoke, the funnel contact surface of the deflection yoke support is downward. It is characterized by consisting of a convex surface.

Hereinafter, with reference to the accompanying drawings, the present invention to achieve the above object will be described in detail.

When the deflection yoke support 13 of Figs. 4A and 4B used in the prior art is coupled to a pennel structure having a rectangular cone portion 2b as shown in Fig. 3B, the body portion 2a and the rectangular cone portion ( As shown in FIG. 6 (a), the portion of the deflection yoke support 13 attached to the outer portion where the body portion 2a of the funnel meets the rectangular cone portion 2b meets the sharp curved surface of the portion where 2b) meets. A gap is generated, which reduces the adhesion between the funnel and the deflection yoke.

Therefore, in order to improve the adhesiveness of the funnel 2 and the deflection yoke 5 of FIG. 1, the present invention has a shape of the funnel contact surface 14a of the deflection yoke support inserted between the funnel 2 and the deflection yoke 5. As shown in FIG. 5A, the non-linear convex surface 14a 'is formed.

Figure 5b is a view showing the structure of the deflection yoke support according to the present invention.

As shown in Figure 5b, the shape of the deflection yoke support 14 according to the present invention when the two ends (a, b) of the funnel contact surface 14a convex in the funnel direction of the deflection yoke support 14, in a straight line, The inflection point c of the funnel contact surface 14a 'and the straight line form a cross-sectional shape of an inverted triangle that forms a vertical d.

And, in Fig. 3b, the inner angle of the inflection point (c) of the contact surface 14a of the funnel of Fig. 5b in which the body portion (2a) of the funnel and the rectangular cone portion (2b) is connected and substantially in close contact with the part forming a sharp curved surface Since the adhesion between the funnel and the deflection yoke is determined by how (θ) is set, the angle (θ) setting at the inflection point c is very important.

The inner angle range of the inflection point c of the deflection yoke support 14 of FIG. 5B applied in the present invention is 110 ^o ≤ θ ≤ 160 ^o .

In FIG. 3B, the inner angle θ of the inflection point c of the deflection yoke support 14, which is in close contact with the portion where the body portion 2a of the funnel is connected to the rectangular cone portion 2b, is the body portion 2a of the funnel. ) And the rectangular cone portion 2b are associated with the engagement angle, and the engagement angle of the body portion 14a and the cone portion 14b is determined according to the deflection angle of the funnel.

The deflection angle of the commonly used electron beam is 102^oTo 120^oAnd the deflection angle is 102^oWhen the angle of the boundary between the rectangular cone and the body portion on the outer surface of the funnel is calculated, the inner angle θ of the inflection point c of the deflection yoke support 14 is 110.^oBecome, The wide angle is 120^oWhen calculating the angle of the boundary portion between the rectangular cone portion and the body portion on the outer surface of the funnel, the inner angle θ of the inflection point c of the deflection yoke support 14 is 160^oHas the value

Therefore, the inner angle θ of the inflection point c of the deflection yoke support 14 has a value of 110 ^o to 160 ^o , and the adhesion of the deflection yoke support attached to the funnel when having the above value is the best.

When the range of the inner angle θ of the inflection point c of the deflection yoke support 14 is 110 ^o <θ <160 ^o , the funnel contact surface convex in the funnel direction of the deflection yoke support 14 of FIG. The vertical distance d between the straight line connecting the two end points a and b of 14a) and the inflection point c has a value of 1.0 mm to 4 mm.

Table 1 below shows the difference in landing variation due to external impact when the deflection yoke support of FIG. 5A and the conventional deflection yoke support of FIGS. 4A and 4B are used.

Table 1

Initial landing value

Y / X -320 0 320 175 -20 -4 13 0 12 0 15 -175 -17 3 -4

Landing value after test

Y / X -320 0 320 175 -5 5 25 0 23 5 30 -175 -3 14 5

Difference

Y / X -320 0 320 175 15 9 12 0 11 5 15 -175 14 11 9

(Landing change when using the deflection yoke support according to the present invention)

Initial landing value

Y / X -320 0 320 175 -14 7 23 0 -7 0 -8 -175 20 4 -19

Landing value after test

Y / X -320 0 320 175 -49 -11 -21 0 -31 -12 -35 -175 -3 -10 -49

Difference

Y / X -320 0 320 175 35 18 44 0 24 12 27 -175 23 14 30

(Landing change when using conventional deflection yoke support)

As can be seen in Table 1, the difference in landing variation during external impact is that when the deflection yoke support 14 of FIG. 5A according to the present invention is used, the deflection yoke support 13 of FIGS. 4A and 4B can be used. It can be seen that the movement amount of landing is less than 29㎛.

When the adhesion of the deflection yoke support is improved as described above, the quality of the color cathode ray tube can be greatly improved by minimizing the change in landing even when an external impact is applied after the ITC (Integrated Tube Component) adjustment.

6B is a view in which a deflection yoke support according to the present invention is attached to a funnel.

As shown in Fig. 6b, the deflection yoke support 14 according to the present invention has a funnel contact surface convex in the funnel direction according to the present invention on an outer portion of the abrupt curved surface where the body portion 2a of the funnel and the rectangular cone portion 2b are connected. A deflection yoke support 14 having a 14a is attached, and the entire underside of the deflection yoke support 14 is brought into close contact with the funnel, thereby increasing the force supporting the deflection yoke, thereby increasing the force of the deflection yoke by an external impact. Positional variation can be improved.

7A and 7B illustrate another embodiment of the present invention.

Another shape of the deflection yoke support 14 for a color cathode ray tube according to the present invention is a deflection yoke support for contacting an outer portion of a sudden curved surface to which the body portion 2a of the funnel of FIG. 6B and the quadrangular cone portion 2b are connected ( The downwardly convex funnel contact surface of 14) may be formed as a plurality of concave-convex portions as shown in FIG. 7A, or may be formed as a convex curved funnel contact surface as shown in FIG. 7B.

Therefore, according to the present invention, by inserting the deflection yoke support having the convex funnel contact surface downward between the rectangular deflection yoke and the funnel to fix the rectangular deflection yoke, the vibration of the deflection yoke occurs due to the minute vibration or external impact. By changing the movement path of the electron beam, it is possible to obtain an effect of preventing the color purity from being lowered on the screen.

Claims (5)

A panel provided with a fluorescent surface on the inner side, a fused glass using a frit glass on the rear side of the panel, and a deflection yoke for deflecting an electron beam of three colors of R, G, and B, including a body portion, a rectangular cone portion, and a neck portion. And a deflection yoke support disposed between the funnel and the deflection yoke to fix the deflection yoke. The funnel contact surface of the deflection yoke support is a color cathode ray tube, characterized in that consisting of a convex surface downward. The method of claim 1, The funnel contact surface of the deflection yoke support is a color cathode ray tube, characterized in that the two planes meet. The method of claim 1, The color cathode ray tube, characterized in that the funnel contact surface of the deflection yoke support is formed in a curved surface. The method of claim 1, A color cathode ray tube, characterized in that a plurality of irregularities are formed on the funnel contact surface of the deflection yoke support. The method of claim 2, A color cathode ray tube, characterized in that the angle between the two planes of the funnel contact surface of the deflection yoke support is 110 ^o ~ 160 ^o .