KR100195933B1 - Ferrite core inside of coil adherent to cathode ray tube - Google Patents

Abstract

The present invention relates to a coil support for supporting an upper coil guide and a lower coil guide while covering an outer surface of a ferrite core, and a deflection yoke for a CRT having a local coil indentation attached to the inside of a ferrite core. The purpose of the present invention is to obtain a high-resolution deflection yoke characteristic by attaching a local coil indentation to a deflection yoke in which a vertical deflection coil local magnetic field can be generated.

An electron gun 11 emitting three electron beams, a screen 12 that hits the beams to reproduce light, and a shadow mask 13 that distinguishes the three electron beams, and the electric electron beams into a predetermined location of the electric screen 12 In a CRT composed of a deflection yoke 14 or the like for deflecting, the deflection yoke 14 includes a ferrite core 3 in which two vertical deflection coils are divided, and an upper coil guide 1 formed in a hook shape for winding the coil. And a coil guide support 4 for supporting the lower coil guide 2, an upper coil guide and a lower coil guide attached to the coil guide support, and a ferrite core installed inside the coil guide support, and vertical coils being vertically A deflection yoke for a CRT tube, which is locked to a side coil guide.

Description

Deflection yoke for CRT tube with local coil indentation inside ferrite core

1 is an external view of a conventional deflection yoke.

2 is an assembly view of a conventional deflection yoke.

3 is an external view of the deflection yoke of the present invention.

4 is an assembly view of the deflection yoke of the present invention.

5 is an assembly diagram of a conventional CRT and a deflection yoke.

6 is a detailed view of the coil guide and the coil guide support.

7 is a detail view of a local coil indentation.

* Explanation of symbols for main parts of the drawings

1: upper coil guide 5: local coil inlet

4 coil guide support 9 flange guide

11: electron gun 12: screen

13: shadow mask 14: deflection yoke

15: horizontal deflection coil 16: vertical deflection coil

17: holder 31: neck of ferrite core

32: opening of ferrite core 33: inner surface of ferrite core

34: outer surface of ferrite core 41: hole portion of the coil guide support

The present invention relates to a coil guide support for supporting an upper coil guide and a lower coil guide while covering an outer surface of a ferrite core, and a deflection yoke for a CRT attached to a local coil indentation in a ferrite core. The purpose of the present invention is to obtain a high resolution deflection yoke characteristic by attaching a local coil indentation therein to realize a deflection yoke in which a vertical deflection coil local magnetic field can be generated.

The deflection yoke for conventional CRTs uses an electron gun 11 that emits three electron beams, a screen 12 that strikes these beams to reproduce light, and a shadow mask 13 that distinguishes the three electron beams, and an electric electron beam. In a CRT as shown in FIG. 5 composed of a deflection yoke 14 or the like which deflects to a predetermined place of the screen 12, in particular, the deflection yoke 14 is an electric gun 11 inside the CRT as shown in FIG. A horizontal deflection coil 15 for deflecting the electron beam emitted from the horizontal direction, a vertical deflection coil 16 for deflecting the electric electron beam in the vertical direction, an electric horizontal deflection coil 15, and a vertical deflection coil 16 In order to reduce the loss of the magnetic force generated in the) to increase the magnetic efficiency, the conical ferrite core (3) and these coils (15, 16) and the core (3) fixed in a fixed position, the electric horizontal deflection coil (15) ) And vertical plane Coil is composed of main components such as the holder 17 for the insulation between the 163. In the saddle saddle deflection yoke winding in the conventional slit method, the vertical deflection coil has two divided ferrite cores 3 and the upper coil guide 1 and the lower coil formed in the shape of hooks for winding the coil as shown in FIG. The upper coil guide 1 and the lower coil guide 2 formed in the hook shape are directly attached to the phenite core 3 so that the upper coil guide 1 and the lower coil guide 2 are formed of the guide 2. The deflection coil is configured to wind the vertical deflection coil directly to the ferrite core inner surface using

The operation description of the conventional deflection yoke configured as described above is as follows.

The winding method of the vertical deflection coil in the saddle saddle yoke, which is wound in the above-described slit method, is the upper coil guide 1 of the coil guides each formed in the shape of hooks in two divided ferrite cores 3 as shown in FIG. ) Is inserted into the neck side 31 of the ferrite core, the lower coil guide 2 is inserted into the opening side 32 of the ferrite core, and then the coil 7 is inserted into the predetermined slits of the upper coil guide 1. It is possible to wind the vertical deflection coil in a saddle shape by inserting it inside and winding it along the inner surface of the ferrite core from the upper side to the lower side, and then rotating it in the circumferential direction along the lower ring-shaped flange guide 9.

As described above, the method of winding the vertical deflection coil directly on the inner surface of the ferrite core by using the coil guides of the upper and lower sides in the saddle saddle deflection yoke wound by the slit method has the following two problems.

Firstly, since the coil is wound directly on the inner surface 33 of the ferrite core, the shape of the vertical deflection coil is determined by the upper coil guide 1 and the lower coil guide 2. Winding the coil in an electrical manner makes it impossible to wind the vertical deflection coil into a local shape when locally changing the magnetic field distribution of the vertical deflection coil in order to improve the characteristics of the deflection yoke.

Such a phenomenon is becoming a bigger problem because the higher the CRT, the more the magnetic field distribution required for the deflection yoke increases the need for a synthetic magnetic field of the local magnetic field distribution.

Second, when winding the coil by inserting only the upper coil guide 1 and the lower coil guide 2 directly into the ferrite core 3 on the upper side and the lower side of the ferrite core 3, respectively. Since a strong tension is applied to the part, the tension inserted into the ferrite core is likely to deviate in the direction of the inner surface of the ferrite core, thereby increasing the winding failure rate.

Therefore, the present invention has been made in order to improve and supplement the conventional technology, as described in detail above, there are a number of problems and will be described in detail the configuration and operation of the invention based on the accompanying drawings.

In the present invention, in order to solve the conventional problems as described above, in the saddle saddle yoke that is wound in the slitting method, a vertical deflection coil is divided into two ferrite cores 3 and a hook for winding the coil as shown in FIG. The upper coil guide 1, the lower coil guide 2, and the coil guide support 4, the local coil indentation 5, and a double-sided tape 6 for attaching the same to the ferrite core 3 are formed. It is.

As described above, the winding method of the vertical deflection coil in the saddle saddle yoke, which is wound in the slit method, has guide supports 4 formed in the shape of hooks in the ferrite core 3 divided into two as shown in FIG. The upper coil guide 1 of the coil guide is inserted into the neck side 31 of the ferrite core and the lower coil guide 2 is inserted into the opening side 32 of the ferrite core and the local coil indentation 5 is implemented. After attaching to the ferrite core inner surface 33 capable of forming a magnetic field with double-sided tape 6, the coil 7 is inserted into a predetermined slit of the upper coil guide 1, and the ferrite core is directed from the upper side to the lower side. After inserting and winding the upper coil 51 of the local coil indentation part along the inner surface, the circumferential direction is rotated along the lower ring-shaped flange part guide 8, and then the coil is inserted into a predetermined slit again. Vertically by inserting the windings into the lower side 52 of the local coil indentation portion along the ferrite core inner surface 33 from the lower side to the upper side, and rotating them in the circumferential direction along the upper ring-shaped flange portion guide 9. The deflection coil can be wound in a saddle shape.

In addition, since the coil guide support portion 4 adopts a method of wrapping the ferrite core outer surface 34, the heat dissipation capacity may be deteriorated. Therefore, the unnecessary portion of the coil guide support portion 4 may be treated by the holes 41. The heat dissipation ability of the ferrite core 3 generated during the kink operation was improved.

The effects of the present invention configured as described above are as follows.

When applying the winding method of the vertical deflection coil in the saddle saddle deflection yoke winding in the slit method according to the present invention can obtain the following two effects.

First, since the coil is wound directly on the inner surface 33 of the ferrite core, it is difficult to realize the magnetic field distribution of the local vertical deflection coil due to the defect of the shape of the vertical deflection coil by the upper guide 1 and the lower guide 2. The conventional problem is that the local coil indentation portion 5 is attached to a predetermined position on the ferrite core inner surface 33 by using the double-sided tape 6, so that the local vertical deflection magnetic field can be easily implemented, so that the better resolution deflection for the higher resolution is possible. You can get yoke.

Second, since only the upper coil guide 1 and the lower coil guide 2 are directly inserted into the ferrite core 3 at the upper side and the lower side of the ferrite core 3, the coil guide inserted into the ferrite core is ferrite during winding. The coil guide support 4 for supporting the upper and lower coil guides is wrapped around the ferrite core outer surface 34 to solve the deviation problem in the core inner direction, thereby obtaining stable winding characteristics when the coil is wound. You can get it.

Claims (2)

An electron gun 11 emitting three electron beams, a screen 12 that collides with the beams to reproduce light, and a shadow mask 13 separating the three electron beams, and an electric electron beam to a predetermined location of the electric screen 12 In a CRT composed of a deflection yoke 14 or the like for deflecting, the deflection yoke 14 includes a ferrite coil core 3 divided into two vertical deflection coils, and an upper coil guide 1 having a hook shape for winding the coil. ), A coil guide support 4 supporting the lower coil guide 2, an upper coil support and a lower coil guide attached to the coil guide support, and a ferrite core installed inside the coil guide support, and a vertical coil Upper and lower coil guides are wound around the deflection yoke for the CRT. The braided yoke for CRT according to claim 1, wherein a coil recess is formed on an inner surface of the ferrite core.