KR0116346Y1 - Arm for correcting pin cushion of deflection yoke - Google Patents

Abstract

The present invention is to adjust the position of the arm (Arm) installed in the deflection yoke opening in order to correct the pin cushion distortion of the screen, by adjusting this to obtain an optimal correction magnetic field pattern, deflection It is a pin cushion correction arm of the deflection yoke, comprising a magnetic field transfer plate attached to the opening of the yoke and having a sliding guide portion, and a magnetic field diverging plate having a fitting portion movably fastened to the guide portion of the magnetic field transfer plate. .

Description

Pin cushion correction arm of deflection yoke

1 is a partial cross-sectional view of a deflection yoke for a typical cathode ray tube.

2 is a perspective view showing a pin cushion correction arm of a conventional deflection yoke.

3 is a state diagram showing the comparison of magnetic field characteristics inside the deflection yoke in the case of mounting and unmounting the pin cushion correction arm.

4 is a state diagram showing the magnetic field change by the pin cushion correction arm.

5 is a perspective view showing a pin cushion correction arm of the present invention deflection yoke,

6 is a cross-sectional view showing the fastening structure of the magnetic field transfer plate and the magnetic field diverging plate of the pin cushion correction arm of the present invention deflection yoke.

* Explanation of symbols on the main parts of the drawings

50: magnetic field transfer plate 51: guide part

52: guide groove 60: magnetic field diverging plate

61: fitting 62: fitting

62a: Breakaway jaw.

The present invention relates to a deflection yoke for a cathode ray tube, and more particularly, to a pin cushion correction arm of a deflection yoke for obtaining an optimal correction magnetic field pattern in correcting pin cushion distortion by enabling a position change. .

The deflection yoke for a general cathode ray tube is a vertical deflection coil (1) which is assembled to the outside while vertically deflecting the beam emitted from the electron gun, and magnetic field strengthening located inside the vertical deflection coil (1), as shown in FIG. A high permeability ferrite core (2), a horizontal deflection coil (3) assembled inside and horizontally deflected, and positioned between the vertical deflection coil (1) and the horizontal deflection coil (3) to electrically insulate It consists of a holder (4), and an auxiliary device for correcting mis-convergence and raster distortion of the screen has been added.

In the general deflection yoke, as shown in FIG. 1, the triangular wave current corresponding to the screen position is supplied to the vertical deflection coil 1 and the horizontal deflection coil 3, and when the vertical and horizontal magnetic fields are formed by this current, Fleming's left-hand law deflects the electron beams (red, green, blue) emitted from the cathode ray tube's electron gun to the top, bottom, left and right of the screen.

Here, the horizontal deflection field is formed in a pin shape throughout the deflection yoke, and the vertical deflection field is formed in a barrel shape to minimize miss convergence. The raster is distorted in the shape of a pin in the part, and this is called pin cushion distortion, and a pin cushion correction arm called CROSS (Cold-Rolled Silicon Steel) arm made of magnetic pieces is installed on the deflection yoke to correct this pin cushion distortion. It was.

Figure 3 shows the change in magnetic field characteristics inside the deflection yoke of a before and after the pin cushion correction arm is mounted.The vertical deflection field is changed to A at the neck of the deflection yoke to correct the pin cushion distortion. As a barrel shape, and a pin shape like B is used on the opening side, such a deflection yoke is called a pincushion free deflection yoke. This is because the influence on the miss convergence is strong in the neck of the deflection yoke, so it is possible to solve the miss convergence by the barrel-type vertical magnetic field. It is to solve the pin cushion distortion. The pin cushion correction arm of the conventional deflection yoke is fixed to the opening of the deflection yoke as shown in FIG. 2, and has a magnetic field transfer plate (5) in which the external leakage magnetic field of the vertical deflection coil is collected, and the magnetic field transfer plate (5). It is composed of a magnetic field diverging plate 6 which is integrally connected to and extends to the magnetic field. The pin cushion correction arm of the conventional deflection yoke has an external leakage magnetic field of the vertical deflection coil gathered in the magnetic field transfer plate 5 and pins like a solid line through the magnetic field diverging plate 6 as shown in FIG. As the correction magnetic field diverges into the shape, the pin-shaped magnetic field is added to the array-shaped basic magnetic field indicated by the dotted line by the vertical deflection field, and the barrel tendency is weakened or corrected by the pin tendency.

However, the pin cushion correction arm of the conventional deflection yoke cannot be readjusted even if the mounting position is out of the fixed position due to assembly errors because the magnetic transfer plate and the magnetic field diverging plate are integrally formed. The optimum position of the magnetic field diverging plate is different from each other, but it cannot be variably coped with, and thus a new model must be newly designed, and it is difficult to find and attach the optimum position.

The purpose of the present invention is to adjust the position of the arm installed in the deflection yoke opening to correct the pin cushion distortion of the screen, thereby adjusting the deflection yoke to obtain the optimum magnetic field pattern. To provide a pin cushion correction arm.

Hereinafter, the technical configuration of the present invention in detail.

The pin cushion correction arm of the present invention deflection yoke is attached to the opening of the deflection yoke, the external leakage magnetic field of the vertical deflection coil is gathered, and the slide guide part 51 has one side short end as shown in FIG. A magnetic flux for dissipating and absorbing the external leakage magnetic field having a magnetic field transfer plate 50 continuously formed on the magnetic field transfer plate and a fitting portion 61 movably fastened to the guide portion 51 of the magnetic field transfer plate 50. The configuration of the plate 60 is characterized by its technical configuration.

The guide part 51 is a guide groove 52 in which one side end of the magnetic field transfer plate 50 is bent, and the fitting portion 61 has one side end of the magnetic field diverging plate 60 at an escape stop 62a. And a fitting end 62 bent.

As shown in FIG. 5, the pin cushion correction arm of the present invention deflection yoke collects the external leakage magnetic field of the vertical deflection coil on the magnetic field transfer plate 50 and the external leakage magnetic field through the magnetic field diverging plate 60. Correcting the pin cushion distortion by diverging and absorbing as a correction magnetic field inside of is conventional.

However, according to the present invention, the magnetic field diverging plate 60 which is fastened through the fitting portion 61 of the slide guide part 51 of the magnetic field transfer plate 50 slides in the direction of the arrow, that is, the circumferential direction of the opening of the deflection yoke. Move and find the best position for pin cushion distortion correction

(A), (b), and (c) of FIG. 6 are cross-sectional views of specific examples of the part of FIG. 5, and the fitting ends of the guide groove 52 and the magnetic field diverging plate 60 of the magnetic field transfer plate 50 are shown. Figure 62 shows the various types of fastening structure in which the fastening is engaged with each other. As can be seen in this fastening structure, the magnetic field diverging plate 60 is fastened to be movable along the guide groove 52 of the magnetic field transmitting plate 50, thereby finding an optimal position for correction.

In addition, due to the manufacturing characteristics of the deflection yoke, a very large assembly error occurs in one model. Since the number of magnetic field diverging plates 60 fastened to the magnetic field transfer plate 50 can be arbitrarily adjusted, the asymmetry is caused by the position change and the number adjustment. Various changes, such as fastening in a mold, can be corrected according to various assembly errors, and the optimum position can be found by adjusting the position of the magnetic field diverging plate 60 between different models. This eliminates the need to manufacture a new pin cushion correction arm for the new model, thereby reducing the development time of the new model of the deflection yoke.

As described above, the pin cushion correction arm of the present invention deflection yoke forms a guide portion on the magnetic field transfer plate, and a fitting portion formed thereon is formed on the magnetic field diverging plate so that the position adjustment of the magnetic field diverging plate and adjustment of the number of fastenings are possible. Therefore, it is useful to obtain an optimal correction magnetic field pattern in response to various assembly errors and variations caused by various models of deflection yokes occurring in one model.

Claims (2)

The pin cushion correction arm of the deflection yoke, comprising: a magnetic field transfer plate attached to the opening of the deflection yoke and having a sliding guide portion formed therein, and a magnetic field diverging plate having a fitting portion movably fastened to the guide portion of the magnetic transfer plate. . The pin of the deflection yoke of claim 1, wherein the guide portion is a guide groove having one side end of the magnetic field transfer plate being bent, and the fitting portion has one end portion of the magnetic field diverging plate having a release prevention jaw. Cushion correction arm.