KR19980075840A - Deflection yoke for CRT - Google Patents

Abstract

The present invention relates to a deflection yoke for a CRT, in particular, to improve the work efficiency during the manufacture of the product by facilitating the coupling and fine adjustment of the magnetic material to be coupled to the holder of the deflection yoke in order to correct the misconvergence generated during the operation of the CRT. The purpose is to provide a deflection yoke device.

In order to realize this, the present invention provides a vertical and horizontal deflection coil for deflecting the electron beam emitted from the electron gun in a vertical or horizontal direction, a holder for insulation between the vertical and horizontal deflection coils, and the magnetic force of the magnetic force generated in the deflection coil. In the deflection yoke structure in which the ferrite core is mounted to increase the efficiency, the neck portion of the holder is provided with a guide groove having a predetermined slope to facilitate coupling of the magnetic material.

Description

Deflection yoke for CRT

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deflection yoke for a CRT, particularly to improve the insertability and controllability of a magnetic body coupled to a holder of the deflection yoke in order to correct misconvergence due to a manufacturing error.

A typical CRT is an electron gun 4 that emits three electron beams as shown in FIG. 1, a screen 1 that strikes the electron beams to reproduce light, and a shadow mask that performs color selection as the three electron beams pass. (2) and a deflection yoke (3) for deflecting the electron beam to a predetermined place of the screen (1), in particular the deflection yoke (3) is an electron beam emitted from the electron gun (4) inside the CRT. Muscle deflection coil 31 for deflecting the beam in the horizontal direction, muscle deflection coil 33 for deflecting the electron beam in the vertical direction, and deflection coils 31 and 33; The conical ferrite core 34 used to reduce the loss of magnetic force generated in the) to increase the magnetic efficiency, and the coils 31 and 33 and the core 34 to be fixed in a predetermined position and the horizontal deflection coil 31 And vertical deflection coils (33 It consists of main parts, such as the holder 32 for insulating between.

And when the horizontal and vertical deflection coils are muscle type, the holder is composed of the main holder 325 and the neck holder 326, ribs 321 formed in the holder 325 to correct the misconvergence caused by the manufacturing error of the CRT and the deflection yoke. The groove 320 is made in the neck portion of the) and the rod-like magnetic material 3410 as shown in FIG. 2 is used.

The deflection yoke 3 for a conventional CRT configured as described above generally flows a current having a frequency of 15.75 kHz or higher to the horizontal deflection coil 31 and uses a magnetic field generated therein to horizontally transmit the electron beam inside the CRT. In addition, the vertical deflection coil 33 flows a current having a frequency of 60 Hz and deflects the electron beam in the vertical direction by using a magnetic field generated accordingly. In addition, the self-convergence-type deflection yoke, which enables the three electron beams to achieve convergence on the screen without using additional circuits and additional devices, by using non-uniform magnetic fields by horizontal and vertical deflection coils 31 and 33, is mainly used. Is being developed. In other words, by adjusting the winding distribution of the horizontal and vertical deflection coils 31 and 33 to make a barrel or pin-cushion type magnetic field for each part (opening part, middle part, and neck part), three electron beams are different depending on the position. It allows the user to experience the deflection force so that they can be collected at the same point at different distances from the starting point of the electron beam to the arrival point of the screen (1). In addition, in the case of making a magnetic field by flowing current to the deflection coils 31 and 33, it is difficult to deflect the electron beam to the front of the screen only by the magnetic fields by the coils 31 and 33, so that ferrite cores 34 having a high permeability are used. By minimizing the loss on the return path, the magnetic field is increased to increase the magnetic force.

In addition, the groove 320 in the neck portion of the rib 321 to which the muscle-shaped horizontal tendency coil 31 as shown in FIG. 2 of the main holder 325 abuts to correct the misconvergence as shown in FIG. The magnetic field distribution of the polygonal magnetic coil 3410 is inserted, and the magnetic field distribution of the neck portion of the horizontal deflection coil is changed to the magnetic field distribution of the solid line as shown in FIG. 4 to correct the misconvergence as shown in FIG. That is, the magnetic field pattern is distorted by a method of weakening the force applied to the R beam.

However, in the conventional method, in order to correct misconvergence, when the polygonal magnetic material 3410 is inserted into the groove 320 installed in the neck portion of the deflection yoke 3, the main holder of the deflection yoke 3 is shown in FIG. Due to the shape of the neck magnet (4-pole magnet) 35 attached to the neck part and the neck band 36 for fixing the deflection yoke to the neck part of the CRT, it is not only difficult to insert magnetic materials, but also misunderstanding on the screen. When it is necessary to change the position of the correction magnetic material 3410 before and after the deflection yoke due to the difference in the vehicle, the position of the correction magnet 3410 due to the Yumi magnet 35 and the neck band 36 attached to the neck portion of the main holder is changed. It is almost impossible to change.

In particular, in the case of a high-resolution deflection yoke, in order to accurately correct an error amount of misconvergence on the screen, it is absolutely required to move the position of the correction magnetic material 3410 very finely, so that the quality of the deflection yoke is reduced when using the conventional method. This is more problematic and this causes problems such as deterioration of workability of the deflection yoke.

The present invention is invented to solve the problems of the prior art as described above by forming a guide groove of a polygonal shape having an arbitrary height inclined to the neck portion of the holder so that the bar-shaped magnetic body can be coupled, the position of the magnetic body The purpose is to facilitate misconvergence adjustment through adjustment.

1 is a schematic view of a typical CRT.

2 is an assembled state diagram of a conventional deflection yoke.

3 shows a misconvergence pattern of a CRT.

4 is a magnetic field pattern diagram for solving misconvergence.

Figure 5 is a cross-sectional view of the neck portion of the holder of the present invention.

6 is a structure of a muscle deflection coil.

7 is a plan view of the holder of the present invention.

8 is a side view of the holder of the present invention.

9 is a plan view of the neck holder of the present invention.

10 is a coupling diagram of the magnetic body for misconvergence correction and the support of the present invention.

* Description of the symbols for the main parts of the drawings *

3: deflection yoke 31: horizontal deflection coil

32 holder 33 vertical deflection coil

34: ferrite core 321: rib

325: main holder 326: neck holder

327: guide groove 3410: magnetic material

3420: magnetic support

The present invention will be described in detail below with reference to the accompanying drawings.

First, the configuration of the deflection yoke of the present invention is a polygonal guide groove 327 having an arbitrary height inclined at an angle with the neck portion of the rib 321 to which the horizontal deflection coil 31 of the main holder 325 abuts. As shown in FIG. 8, the side of the main holder 325 is installed in the neck-side direction, and the magnetic body 3410 having a polygonal shape as shown in FIG. 10 can be inserted into the groove of the guide groove 327.

In this configuration, the magnetic body 3410 having a polygonal shape is attached to the magnetic support 3420 made of a flexible material in the guide groove 327 installed in the neck portion of the main holder 325 of the deflection yoke. Then, the magnetic support 3420 having the polygonal magnetic body 3410 attached to the guide groove 327 at the side of the main holder 325 has a guide groove 327 having an arbitrary angle with the neck portion of the main holder. The horizontal deflection coil 31 of the main holder is accurately positioned on the neck portion of the rib 321, and the end of the magnetic support 3420 is attached as a guide groove and an adhesive to fix the neck portion of the horizontal deflection coil. As shown in Fig. 4, the magnetic field distribution in the solid line is changed into the magnetic field distribution in the dotted line to correct the misconvergence. That is, the magnetic field pattern is distorted by a method of weakening the force applied to the R beam.

As described above, the deflection yoke structure of the present invention can achieve two effects. First, the deflection yoke can be easily inserted into a groove provided in the neck portion of the main holder of the deflection yoke to correct misconvergence. This improves the operator's work efficiency during the manufacturing process of the yoke.

Secondly, when it is necessary to change the position of the correction magnetic material before and after the deflection yoke due to the difference in the amount of misconvergence on the screen, the neck portion of the main holder and the guide portion having an arbitrary angle are attached to the neck portion of the main holder. The magnet and the neck band has a certain clearance and is formed on the side of the main holder, and since the polygonal magnetic body is attached to the magnetic support, there is an effect that the position of the magnetic body can be precisely moved by using the magnetic support.

Claims (3)

Vertical and horizontal deflection coils for deflecting the electron beam emitted from the electron gun in a vertical or horizontal direction, a holder for insulation between the vertical and horizontal deflection coils, and a ferrite core for increasing magnetic efficiency of the magnetic force generated in the deflection coil. In the mounted yoke structure, The neck of the holder deflection yoke for a CRT tube, characterized in that a guide groove having a slope is installed to facilitate the coupling of the magnetic material. The method of claim 1, The magnetic body is a deflection yoke for the CRT, characterized in that the magnetic material is attached to the support of a flexible material. The method of claim 1, The magnetic body and the guide groove is a deflection yoke for the CRT, characterized in that the polygonal shape.