KR100198292B1 - Upper and lower sides comacoil of cathode ray tube - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a winding of a distortion correction auxiliary coil for correcting up and down distortion of a cathode ray deflection yoke, and more particularly to a horizontal deflection coil of a deflection yoke for a color cathode ray tube having an inline electron gun.

In the case of the conventional flat color CRT, the upper and lower pincushion type distortion cannot be corrected in the deflection yoke, but the electronic circuit is corrected in the chassis.

According to the present invention, in winding the coil from the middle portion of the CRT holder to the opening portion, the opening side coil is wound in a direction opposite to the horizontal coil to form a magnetic field in a direction opposite to the magnetic field direction of the horizontal coil. By winding in the same direction as the horizontal coil to form a magnetic field in the same direction as the horizontal coil, it is possible to easily create the magnetic field to be designed without being limited to the shape of the coil, so that the upper and lower pincushion distortions in the flat color CRT It provides a winding structure of the up-and-down distortion correction coil of the CRT yoke, which can be corrected by using the up and down pincushion distortion correction coil in the deflection yoke.

Description

Vertical distortion correction coil of CRT deflection yoke

1 is a view showing a configuration of a deflection yoke of a conventional CRT.

2 is a view showing a winding structure of a horizontal deflection coil of a conventional CRT.

3 is a diagram showing vertical distortion of a CRT.

(A) is a figure which shows a uniform magnetic field, (b) is a figure which shows a pincushion type magnetic field, and (c) is a figure which shows a barrel type magnetic field.

5 is a view showing a winding structure of the horizontal deflection coil of the CRT of the present invention.

6 (a) and 6 (b) show correction magnetic fields generated by the present invention.

7 is a diagram showing differential distribution on a deflection yoke axis according to the present invention.

* Explanation of symbols for main parts of the drawings

3: horizontal coil 11: window part

11a: projection 12: opening flaw

13: opening coil 14: middle coil

15: Pincushion type magnetic field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a winding of a distortion correction auxiliary coil for correcting up and down distortion of a cathode ray deflection yoke, and more particularly to a horizontal deflection coil of a deflection yoke for a color cathode ray tube having an inline electron gun.

The deflection yoke for the general color CRT is a horizontal coil 3 for deflecting the electron beam from the electron gun 2 of the CRT 1 in the horizontal direction, as shown in FIGS. Vertical coils (4) for deflecting the magnets, the magnetic force generated in the horizontal and vertical coils to reduce the loss to increase the magnetic efficiency of the ferrite core (5) and to fix the coils and the core in a fixed position and horizontal coil And a holder 6 or the like that insulates the insulation from the vertical coil.

The horizontal coil 3 and the vertical coil 4 are wound to form a pincushion type magnetic field 7 and a barrel type magnetic field, respectively, for the distortion of the screen distortion (distortion) and the outer electron beams (R and B beams). In the case of the slit type horizontal coil, winding is performed in the order of a1 → a2 → a3 → a4 in FIG. 2, and when winding, the top, bottom, left and right pincushion distortions, and misconvergence of the opening, the middle part, and the neck part are considered.

FIG. 3 shows vertical distortion 8 and left and right distortion 9 appearing on the screen of the CRT 1 in the case of a uniform magnetic field.

Meanwhile, the horizontal coil 3 is classified into saddle coils, split coils, and slit coils according to the winding type, and the pincushion type magnetic field and barrel type magnetic field are the neck part and the middle part. It is a trend to develop a lot of slit type horizontal coil to be able to easily change partially, such as openings.

The slit-type horizontal coil makes sections in the neck part, the middle part, and the opening part of the holder 6, respectively, and allows the coils to be wound in this section.

The uniform magnetic field, the pincushion type magnetic field, and the barrel type magnetic field have magnetic field shapes as shown in Figs. 4A, 4B, and 4C by the winding distribution of the coil.

The uniform magnetic field in (a) is the coil 3 and the winding distribution center of gravity (C) is 30 degrees, the pincushion type magnetic field in (b) is the center of gravity (C) of the coil 3 is less than 30 degrees, (c In the barrel-type magnetic field of), the center of gravity C of the coil 3 is greater than 30 degrees.

The uniform magnetic field shown in Fig. (a) shows the screen distortions (8) and (9) as shown in Fig. 3. To correct this, the horizontal deflection magnetic field of the screen-side opening of the deflection yoke is the shape of the pincushion type magnetic field shown in (b). Should have

This is because the electron beam B is subjected to a force F with respect to the magnetic field, and for this reason, the pincushion type magnetic field shown in (b) is advantageous in correcting up and down pincushion type distortion.

However, the conventional method of correcting pincushion type distortion in a monitor is corrected in the deflection yoke as above in the case of vertical distortion, and in the electronic circuit in the chassis in the case of left and right distortion.

The upper and lower pincushion type distortion (8 in FIG. 3) corrected by the deflection yoke compensates for the horizontal coil 3 opening magnetic field by making a pincushion type magnetic field as shown in FIG. In the negative and neck portions, miss convergence is corrected.

However, the monitor deflection yoke cannot use auxiliary parts such as magnets, cross arms and the like as the deflection yoke for TVs.

The reason is that the use of the auxiliary component results in a local magnetic field at the deflection yoke opening, which causes a large amount of miss convergence.

In other words, the use of auxiliary parts such as magnets and cross arms can correct upper and lower pincushion distortion, but not miss convergence.

By the way, although the above-mentioned pincushion distortion correction method can be used in a general CRT monitor, when the panel radius of the CRT is large, the upper and lower pincushion distortions 8 are difficult to correct.

As an example, in the case of the FTM brown tube, the upper and lower pincushion type distortions 8 cannot be corrected in the deflection yoke, so they are corrected in the chassis.

This is because it is impossible to make a coil capable of correcting the misconvergence in the middle part while correcting the upper and lower pincushion type distortion 8 by making a strong pincushion type magnetic field as shown in FIG. 4 (b) in the opening of the horizontal coil 3. .

That is, the horizontal coil 3 is a slit-type horizontal coil, in which the opening, the middle part, and the neck part must be flexibly connected to wind the coil. In the opening, all coils are wound within 30 degrees to create a strong pincushion type magnetic field. In order to correct the convergence, the neck and the middle part should be wound around 30 degrees to correct the upper and lower pincushion type distortion and miss convergence.However, when winding the coil to the actual holder, the opening is wound within 30 degrees, and the middle and neck parts are If the winding is near 30 degrees, the winding is impossible because the coil is not flexible.

Therefore, in the case of flat color CRTs, the upper and lower pincushion type distortion cannot be corrected in the deflection yoke, but is corrected by the electronic circuit in the chassis.

The present invention provides a cathode tube deflection yoke capable of easily creating a magnetic field to be designed without being limited to the shape of the coil so that the upper and lower pincushion type distortions in a flat color CRT can be corrected by using the upper and lower pincushion distortion correction coils in the deflection yoke. It is an object of the present invention to provide a winding structure of a vertical distortion correction coil.

The present invention to achieve the above object can be applied to the slitting horizontal, vertical coil.

The embodiment is illustrated in FIG. 5.

A plurality of protrusions 11a of vertical symmetry are formed on the left part 11 of the horizontal coil in the holder, and the protrusions 11a have a ring structure on the curved surface of the holder so that the coil can be easily wound.

Then, the opening grooves 12 are formed in the holder so that the coils can pass, and the horizontal coils are wound. For example, if the total number of turns of the horizontal coils is 30 turns, a part of these is 3 to 10 turns, that is, In the total number of turns of the horizontal coil, 1/3 to 1/10 turns are wound up and down symmetrically in the order a → b → e → f → g → h → i → j → k → l → c → d → a. The remaining turns are wound up-down symmetrically in the order a → b → c → d → a.

With this winding, the upper and lower pincushion distortion correction coils are positioned in the inner side of the horizontal coil 3, as shown in Fig. 6A, and the direction of the current is It is applied in the opposite direction to the current.

Therefore, since the opening side coil 13 cancels the magnetic field produced by the horizontal coil 3 at an angle greater than 30 degrees, a very strong pincushion type magnetic field 15 can be made, and this pincushion type magnetic field is raised and lowered. Pincushion distortion can be corrected.

When the upper and lower pincushion distortion is corrected by the opening coil 13 as described above, the miss convergence is greatly deteriorated as described above, so that the middle coil 14 corrects this.

That is, the middle coil 14 is wound like the opening coil 13, but since the actual winding direction is in the opposite direction, it creates a magnetic field in the opposite direction to the opening coil 13.

That is, as shown in (b) of FIG. 6, the middle coil 14 creates a magnetic field in the same direction as the magnetic field of the horizontal coil 3 at an angle greater than 30 degrees, thereby making it possible to correct miss convergence. Will be.

Looking at the axial differential distribution of the deflection yoke in the magnetic field in the above structure, as shown in Figure 7, by using the auxiliary coil of the present invention to compensate for the up and down pincushion distortion in the opening in the conventional magnetic field distribution (16) The strong pincushion-type magnetic field distribution 17 can be made, and in the middle part, the pincushion-type magnetic field distribution can be made weak, thereby making it possible to correct miss convergence.

As described above, according to the up-and-down distortion correction coil of the CRT yoke of the present invention, since the magnetic field to be designed can be easily made without being limited in the shape of the coil, it is possible to correct the up and down distortion in a flat color brown tube.

That is, in recent years, the color CRT for monitors is being flattened, and in the case of a flat like FTM CRT, the upper and lower pincushion distortions cannot be corrected in the deflection yoke. However, the present invention corrects the upper and lower pincushion distortions. The effect can be corrected in the yoke.

Claims (3)

In the deflection yoke of a color CRT, in the winding of the coil from the middle part of the CRT to the opening, the opening coil is wound in a direction opposite to the horizontal coil to form a magnetic field in a direction opposite to that of the horizontal coil. The middle coil is wound in the same direction as the horizontal coil to form a magnetic field in the same direction as the magnetic field of the horizontal coil, the up and down distortion correction coil of the CRT. 2. The vertical distortion correction coil of the CRT of claim 1, wherein a plurality of protrusions are formed in the window portion of the holder symmetrically for the winding of the holder, and an opening groove through which the coil passes. . The CRT of claim 1 or 2, wherein the coil winds a part of the total number of turns of the horizontal coil in a direction opposite to the horizontal coil in the opening portion and in the same direction as the horizontal coil in the middle portion. Vertical distortion correction coil.