KR100189616B1 - Magnet shielding structure of cathode ray tube - Google Patents

Abstract

The present invention relates to a magnetic shield structure for a cathode ray tube, and in particular, a slot of the magnetic shield is formed asymmetrically with respect to the horizontal or vertical axis of the magnetic shield for observation, so that a specific portion having a large amount of landing change when the external magnetic field changes or when the direction of the CRT changes. By reducing the amount of change in landing, it is possible to improve the magnetic shielding effect of the CRT and increase the turning margin. The magnetic shield has at least one magnetic resistance slot in the long side or short side of the magnetic shield. The size or position is asymmetric with respect to the vertical axis or the horizontal axis.

Description

Magnetic Shield Structure of Cathode Ray Tube

1 is a block diagram of a typical cathode ray tube.

2 is a barrel-type magnetic field state generated inside the CRT by an external magnetic field.

3 is a vertical and horizontal component magnetic field state diagram at a corner of a cathode ray tube by a barrel type magnetic field.

4 is a mis-landing state generated by the vertical component of the barrel-type magnetic field.

5 is a conventional magnetic shield,

(a) is a construction plan view.

(b) is a perspective view of the configuration.

6 is a state diagram of a barrel-type magnetic field caused by a slot of a conventional magnetic shield.

7 is a horizontal and vertical component diagram of a barrel-type magnetic field by a slot of a conventional magnetic shield.

8 is a mis-landing state generated by the vertical component of the barrel-type magnetic field of the conventional magnetic shield.

9 is a magnetic shield of the present invention,

(a) is a construction plan view.

(b) is another embodiment.

(c) is a perspective view of the configuration.

(d) is a detailed configuration diagram of the slot.

10 is a view of the barrel-type magnetic field change by the magnetic shield of the present invention.

11 is a horizontal and vertical component diagram of a barrel-type magnetic field according to the magnetic shield of the present invention.

12 is a mis-landing state generated by the vertical component of the barrel-type magnetic field of the magnetic shield of the present invention.

* Explanation of symbols for main parts of the drawings

101: magnetic shield 102, S1, S2, S3: slot

The present invention relates to a magnetic shield structure of a cathode ray tube, and in particular, to solve a misregister due to asymmetrical magnetic field change by an external magnetic field with respect to the horizontal and vertical centers of a CRT.

In the conventional color CRT, a panel 4 having a shadow mask frame assembly having a shadow mask 1 coupled to the frame 2 mounted therein as shown in FIG. And an inner magnetic shield 8, a neck portion 5 formed around a deflection yoke 3 for deflecting the electron beam, and a funnel 7 in which an electron gun 6 is enclosed in the neck portion 5. It is configured and the inside is vacuumed.

In the conventional CRT configured as described above, the CRT is activated by emitting an electron beam emitted from the electron gun 6 through the hole of the shadow mask 1 to form a phosphor on the inner surface of the panel 4, thereby emitting light, and the electron beam is applied to the magnetic field. The path is changed by force, and the redirection of the CRT and the change of the geomagnetic field according to the region cause misregister, which is the mismatch between the electron beam and the phosphor.

That is, a barrel-type magnetic field is formed inside the CRT under a horizontal magnetic field as shown in FIG. 2, and the barrel-type magnetic field can be divided into vertical and horizontal components as shown in FIG. 3, and the vertical component of the barrel-type magnetic field is the fourth in the TV tube. It causes misregisters like tiles.

In order to reduce this misregister, a magnetic shield 8 made of magnetic material is installed inside the CRT as shown in FIG. 5 to form a closed circuit together with the shadow mask 1 and the frame 2 to form an external magnetic field. In order to reduce the vertical component of the barrel-type magnetic field formed inside the CRT, the magnetic shield 8 is formed to act as a magnetic resistance by forming the slot 10 symmetrically with respect to the vertical axis or the horizontal axis.

The slot 10 forms a space having a higher magnetic resistance than the magnetic shield 8, which is a magnetic material, by drilling a hole in the magnetic shield 8.

As a result, the barrel-type magnetic field forms a magnetic field as shown in FIG. 6, and FIG. 7 shows a change in the barrel-type magnetic field due to the symmetrical slot 10, showing a decrease in the vertical component and an increase in the horizontal component. .

FIG. 8 shows the decrease of the misregister due to the decrease of the vertical component of the barrel magnetic field due to the symmetrical slot, which shows that the amount is decreased from a to b of FIG.

Miss registers generated in the CRT due to the influence of an external magnetic field are not symmetrical with respect to the CRT horizontal or vertical axes due to factors such as asymmetry in the design of each part or errors in manufacturing process.

That is, the case where the barrel-type magnetic field remains as shown in part A of FIG. 6 remains undecreased. Unlike other corners in which the vertical component of the barrel-type magnetic field is reduced, the part A of the barrel-type magnetic field remains as it is. As a, there was a problem of causing a misregister having a larger value than the misregisters b of other corners.

In view of this, the present invention forms a slot of the magnetic shield asymmetrically with respect to a horizontal axis or a vertical axis with respect to the tube axis, thereby partially changing the magnetic field change of the CRT and a large portion of the misregister change when the external magnetic field is changed or when the CRT direction is changed. The purpose is to reduce the

The present invention will be described in detail with reference to FIGS. 9 to 12.

First, an example of the structure of the magnetic shield 101 according to the zone invention will be described with reference to FIG.

FIG. 9 (a) is a plan view of the magnetic shield 101 according to the present invention. When the vertical axis (Y-Y ') of the magnetic shield 101 is the center axis, the magnetic shield 101 is formed at the long side portion of the magnetic shield 101. FIG. The shape and the number of the slots 102 are formed asymmetrically with respect to the vertical axis Y-Y '.

(C) of FIG. 9 is a perspective view of the magnetic shield 101, (d) is an enlarged view of the long side of the magnetic shield 101, (b) is another embodiment of the magnetic shield 101 according to the present invention This is a flat side view.

The magnetic shield 101 according to the present invention has asymmetrical positions, sizes, and shapes of slots formed on the short or long sides of the magnetic shield with respect to the horizontal axis (X-X ') or the vertical axis (Y-Y') of the magnetic shield. will be.

Slot formation will be described in detail with reference to FIG. 9 (d).

The height P1 of the first slot S1 closest to the vertical axis Y-Y 'of the magnetic shield is formed to be 60 to 90% of the total height L2 of the magnetic shield, and the height of the third slot S3 is The height P2 is formed to be 60 to 90% of the height P1 of the first slot S1.

The height P2 of the second slot S2 is formed to be 60 to 90% of the height L2 of the second slot S2 in the same manner.

The reason for limiting the height of the slot as described above is to sequentially reduce the vertical components of the barrel-type magnetic field formed inside the CRT at the corners of the CRT and to prevent the strength of the magnetic shield itself from being excessively weakened.

Further, the widths K1, K2 and K3 of the slots are formed to be equal to or less than the height P1, P2, P3 of each slot.

If the width of each slot is formed to be greater than or equal to the height of each slot, the magnetic shielding role cannot be properly performed for the vertical magnetic field, and the strength of the magnetic shield is weakened, which may cause deformation during transportation or assembly process.

As described above, the magnetic shield of the present invention having a slot formed asymmetrically with respect to the vertical axis of the magnetic shield has the problems of the prior art described in FIGS. 7 and 8, that is, a partial imbalance of the magnetic field inside the CRT and other resulting It is possible to effectively reduce the misregister (a in FIG. 8) larger than the portion. That is, if more or larger slots are formed in the magnetic shield portion corresponding to the portion which is formed larger in the vertical magnetic field than other portions and causes a larger miss register (a in FIG. 8), as shown in FIG. As a result, a part of the vertical component of the barrel-type magnetic field formed inside the CRT is converted into a horizontal component and the size of the vertical component is reduced.

Therefore, as shown in FIG. 12, a small amount of miss register (as with other portions) is formed by a magnetic shield having a slot formed by a large amount of miss register as shown in FIG. B) of FIG.

As described above, according to the present invention, the slot of the magnetic shield is formed asymmetrically with respect to the horizontal axis or the vertical axis of the magnetic shield, so that the amount of change in landing of a specific portion having a large amount of landing change when the external magnetic field changes or when the direction of the CRT is changed can be reduced. The magnetic shielding effect of CRT can be improved.

Claims (4)

A color brown tube formed in a neck portion comprising an electron gun for oscillating an electron beam, a deflection yoke for deflecting an electron beam from the electron gun, and a magnetic shield for reducing the influence of the geomagnetic field of the electron beam, wherein the magnetic shield is at least one; The magnetic shield structure for a cathode ray tube, wherein the magnetic resistance slots are formed in the long side portion or the short side portion thereof in an asymmetrical size or position with respect to a vertical axis or a horizontal axis with respect to the center of the magnetic shield. The magnetic shield structure according to claim 1, wherein the slot is configured such that the height of the first slot is about 60 to 90% of the height of the magnetic shield about the central axis. The magnetic shield structure according to claim 2, wherein the slot is configured such that the height of the outer slot is 60 to 90% of the height of the inner slot with respect to the central axis. The cathode shield tube magnetic shield structure according to claim 1, wherein a width of the slot is configured to be equal to or less than a height of each slot.