KR950001332Y1 - Magnet of deflection yoke - Google Patents

Abstract

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Description

Magnetic piece of deflection yoke

(A) and (b) of FIG. 1 are a perspective view and a plan view showing a general deflection yoke.

2 is an example of mis convergence appearing on the screen.

(A), (b) of FIG. 3 is a plan view of the state where the conventional one-piece U-shaped and U-shaped magnetic pieces are coupled to the bobbin.

(A) and (b) of FIG. 4 are assembled and separated plan views of a conventional U-shaped magnetic piece coupled to a bobbin.

(A), (b) of FIG. 5 is an assembly and separation plan view of a conventional wedge-shaped magnetic piece coupled to a bobbin.

Figure 6 (a), (b) is an assembled and separated plan view of the state of the detachable U-shaped magnetic piece coupled to the bobbin of the present invention, (c) is a cross-sectional view of the assembled state.

(A) and (b) of FIG. 7 are assembling and separating plane views in which the wedge-shaped magnetic pieces of the present invention are coupled to the bobbin, and (c) is a cross-sectional view of the assembled state.

8 is a cross-sectional view showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: deflection yoke 2: neck part

3: U-shaped magnetic part 4: U-shaped magnetic part

5 bobbin 6 coil

7: coil separator 8: horizontal deflection coil

9: vertical deflection coil 10: ferrite core

11: fixed iron piece

The present invention relates to a magnetic piece of deflection yoke, and more particularly to a magnetic piece of deflection yoke mounted on the neck of the deflection yoke to correct or correct misconvergence of a screen.

Generally, a deflection yoke is installed in a cathode ray tube (CRT) such as a TV brown tube or a monitor to determine the position of an electron beam emitted from an electron gun. As shown in FIG. 1, the neck of the upper side of the deflection yoke 1 is shown. The coil 6 is wound around the bobbin 5 in which the c-shaped or the c-shaped magnetic pieces 3 and 4 are assembled, and both sides of the part 2 are horizontally deflected inside and outside the coil separator 7. The ferrite core 10, on which the coil 8 and the vertical deflection coil 9 are wound, is fixedly installed by the fixed iron piece 11, respectively.

The basic operation of the deflection yoke configured as described above is based on the application of the sawtooth pulses to the horizontal and vertical deflection coils 8 and 9 to generate the magnetic field to determine the position of the beam emitted from the electron gun.

However, since it is difficult to accurately scan the beam at a desired position due to an error due to the mechanical mechanism of the cathode ray tube or an error of the deflection yoke 1 itself, use the magnetic pieces 3 and 4 as this correction means. do.

That is, the U-shaped or U-shaped magnetic pieces 3, ( 4) to assemble the beam position to the desired dice.

At this time, as noted, the c-shaped magnetic strip 3 shown in solid line in (b) of FIG. 1 is to compensate for the green beam in FIG. 2, and the c-shaped magnetic strip 3 is an imaginary line. In the case indicated by the position shown in Figure 2 to compensate for the YH.

On the other hand, the U-shaped magnetic pieces 4 form a six-pole magnetic field to compensate for the above phenomenon. Usually, the U-shaped magnetic pieces 3 and the U-shaped magnetic pieces 4 are used in the same deflection yoke. They are used separately.

However, in assembling the above-described conventional magnetic pieces 3 and 4 to the bobbin 5, an integral c-shaped magnetic piece 3 or a U-shaped magnetic piece in which thin iron pieces are laminated as shown in FIG. After the bobbin 5 is molded by the mold structure in (4), the coil 6 is wound around the bobbin 5, and the magnetic pieces 3 and 4 are assembled to the bobbin 5. It is bad to do, and winding of the coil 6 is also not easy, which causes a lot of trouble to the work.

Further, in order to improve the above problems, as shown in FIG. 4, the U-shaped magnetic pieces 3 are divided into two, and then the coils 6 are assembled on both sides of the bobbin 5 on which the coil 6 is wound or the fifth As shown in the figure, a split type structure in which the U-shaped magnetic pieces 4 are divided into three and then assembled in both directions of each bobbin 5 is used. However, such a structure is provided for each of the magnetic pieces 3 and 4. Due to the large cross-sectional area where the magnetic flux is emitted, the magnetic flux is dispersed, making it difficult to control accurately.

The present invention is to solve the conventional problems as described above, the object of the present invention is to form the assembly length of the both sides of the magnetic piece to be assembled to the bobbin to be the same as the length of the bobbin, and assembling to increase the laminated thickness of the assembly portion It is to provide the magnetic piece of the deflection yoke which increases the permeability (magnetic strength) to increase the correction amount of the misconvergence and at the same time reduces the area where the magnetic flux is emitted to enable accurate control.

A feature of the present invention for achieving the above object is that the magnetic piece is assembled to the coil wound bobbin mounted on the neck of the top of the deflection yoke, horizontal and vertical deflection coils are installed on the inside and outside of the coil separator in the electron gun In the magnetic piece of the deflection yoke for correcting the position of the radiated beam, the length of the assembling portion of both magnetic pieces inserted into the bobbin is formed to be the same as the length of the bobbin so that the stacked assembling parts on both sides are doubled when assembling the magnetic pieces. It is comprised so that it may be laminated.

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

First, the magnetic pieces 3 and 4 provided on the neck portion 2 of the deflection yoke 1 are laminated in a number of pieces compared with one iron core, so that the magnetic permeability of the magnetic pieces 3 and 4 is increased. The higher the magnetic intensity, the larger the correction amount of the misconvergence, and the smaller the cross-sectional area of the portion where the magnetic flux is emitted, the more precise control can be achieved.

In view of this point of the present invention, as shown in (b) of FIG. 6, the length L of the assembling portions of the two c-shaped magnetic pieces 3 is formed to have the same length as the length L 'of the bobbin 5. It is.

Accordingly, when both magnetic pieces 3 are assembled to the bobbin 5, the assembling portion of the magnetic pieces 3 is assembled in accordance with the length L 'of the bobbin 5 as in (a).

Therefore, as in (c), the lamination thickness T of the magnetic pieces 3 assembled to the bobbin 5 is doubled compared with the thickness t of the portion where the magnetic flux is emitted, that is, the magnetic permeability, that is, the strength of the magnetic body. Since the correction amount of misconvergence is increased, the cross-sectional area of the portion where the magnetic flux is emitted becomes small, so that accurate control can be achieved.

In addition, in the U-shaped magnetic piece 4 as in FIG. 7, the length L of the assembled portion of the U-shaped magnetic piece 4 is the same as the length L 'of the bobbin 5, as described above. Since the layer thickness T 'of (4) is larger than the thickness t' of the portion where the magnetic flux is emitted, the correction amount is increased while the cross-sectional area where the magnetic flux is emitted is small, so that precise control can be achieved.

8 shows another embodiment of the present invention, and the magnetic pieces 3 and 4, which are assembled to the bobbin 5, are alternately assembled on both sides, respectively, to achieve the same effect as described above.

As described above, the present invention, the length (L) of the assembly portion of the c-shaped magnetic piece (3) or the U-shaped magnetic piece (4) to be assembled to the bobbin (5) and the length (L ') of the bobbin (5). By forming and assembling with the same length, the laminated thicknesses (T) and (T ') of each assembly portion are made thicker than the thicknesses (t) and (t') of the portion where the magnetic flux is emitted, thereby improving the permeability and correcting the misconvergence. At the same time, the cross-sectional area of the portion where the magnetic flux is emitted is reduced, so that accurate control can be achieved.

Claims (2)

The c-shaped or u-shaped magnetic pieces 3 and 4 are assembled in the bobbin 5 on which the coil 6 mounted on the neck portion 2 of the upper side of the deflection yoke 1 is wound, and the coil separator 7 Horizontal and vertical deflection coils (8) and (9) are provided on the inner and outer sides of the magnetic yoke of the deflection yoke for correcting the position of the beam radiated from the electron gun, wherein both sides are inserted into the bobbin (5). And the length L of the assembling portion of the U-shaped magnetic pieces 3 and 4 is the same as the length L 'of the bobbin 5 so that both sides of the magnetic pieces 3 and 4 are assembled. Magnetic piece of the deflection yoke, characterized in that the laminated assembly is configured to be stacked in duplicate. 2. The magnetic piece of the deflection yoke according to claim 1, wherein the magnetic pieces (3) and (4) assembled to the bobbin (5) are alternately stacked on both sides of the bobbin (5) and assembled.