KR100313123B1 - Innershield assembly for anti-magnetic field - Google Patents

Abstract

OBJECT OF THE INVENTION The present invention is to provide an inner shield assembly having a structure in which an electron beam is less affected by magnetic flux in a corner portion, thereby reducing degradation of purity characteristics, raster distortion, and change in convergence characteristics.

Configuration: In the present invention, a reinforcing piece is attached between the sides orthogonal to the inside of the corner portion at the incidence side opening of the inner shield that defines the incidence path of the electron beam to serve as a passage for the magnetic flux at the corner portion.

Effect: Inner shield assembly of the present invention minimizes the influence of the magnetic beam leaking to the periphery when the magnetic flux flows from one side to the orthogonal side flows through the reinforcing piece to be affected by the electron beam passing through this portion to deteriorate image quality. There is an advantage that does not occur.

Description

Innershield assembly for geomagnetic shielding {Innershield assembly for anti-magnetic field}

The present invention relates to an inner shield assembly, and more particularly, to an inner shield assembly that shields an electron beam scanned from a color cathode ray tube from being affected by a geomagnetic field.

The in-line electron gun applied to the color cathode ray tube passes three electron beams of red, green, and blue along the converging passage formed in the common plane, and scans the electron beam to the focusing point located near the shadow mask or the screen.

Scanning of the electron beam in the electron gun is scanned into an energetic electron beam as it is focused into a beam via an electron lens formed through a plurality of arranged electrodes.

When the electron beam emitted from the electron gun is landed in any one of the phosphor patterns applied to the inner surface of the face plate, it emits fluorescence that becomes one of R, G, and B, thereby displaying an image.

The electron beam is scanned under the influence of the electromagnetic field generated in the deflection yoke over the entire surface of the face plate. That is, the electron beam is deflected under the influence of the vertical and horizontal magnetic fields generated by the vertical coil and the horizontal coil of the deflection yoke. This action is intended for the purpose of causing the electron beam to land in the phosphor pattern applied to the corner of the screen to generate light. It is.

As such, the electron beam is deflected by the action of the electromagnetic field, which is sensitively affected by the geomagnetic field, thus acting as a cause of deterioration of image quality.

Therefore, conventionally, the inner shield is mounted on the mask frame in order to prevent the electron beam from being affected by the geomagnetic field.

As the inner shield is mounted toward the electron gun at the inlet side of the mask frame, the inner shield is installed to shield the path from which the electron gun is scanned from the geomagnetic field. The inner shield is usually press-molded using a silicon steel sheet.

Earth's magnetic field is generated around the Earth's Antarctic and Arctic = Ｑ ＊ ( × × By changing the path of the electron beam to change the path of the electron beam, the effect of lowering the purity characteristic, the raster distortion, and the change of the convergence characteristic are caused, and the use of the inner shield reduces the effect to 50%. here Where is the force the electron receives, The strength of the electric field, Is the strength of the voltage, Is the external magnetic field.

In the shielding of a geomagnetic field, when a metal material is placed in a magnetic field region in which an external magnetic field exists, a spin moment is formed inside the metal material, and the magnetic conductor is arranged in a certain direction, and the metal conductor becomes a kind of magnetic material. At the same time, the magnetic force is generated in the metal material by the micro-magnet structure formed on the metal material itself, and this magnetic force causes a cancellation or reinforcement interference with the external magnetic force, and as a result, the external magnetic field changes the path of the magnetic field due to the metal material. This phenomenon occurs inside the actual colored cathode ray tube = Ｑ · ( + × d _D + B _T Acts as a force of). here Is the velocity of the electron beam, d _D is the magnetic flux density due to the deflection yoke, B _T Is the magnetic flux density in the tube due to the external magnetic field.

Under the above conditions, the magnetic shielding effect of the inner shield has a characteristic in which the direction of the magnetic field changes toward the inner shield as the permeability increases. In other words, the magnetic shielding effect is proportional to the permeability and the thickness of the material and inversely proportional to the width.

In reality, however, the leakage of magnetic flux is severe at the corner of the inner shield. In general, the inner shield assembly of the known color cathode ray tube has a corner portion as shown in FIG. 3, and when the magnetic flux flowing therethrough is switched to a direction perpendicular to one side, leakage of magnetic flux is severe. The electron beam passing through the part has a problem that is greatly affected.

Accordingly, an object of the present invention is to provide an inner shield assembly having a structure in which an electron beam is less affected by magnetic flux at a corner portion, thereby reducing degradation of purity characteristics, raster distortion, and change in convergence characteristics.

In order to achieve the above object, the present invention is configured to attach a reinforcing piece between the sides orthogonal to the inside of the corner portion in the inlet side opening of the inner shield that defines the incidence path of the electron beam to serve as a passage of the magnetic flux at the corner portion Becomes

In the inner shield assembly of the present invention, the magnetic flux leaking to the surroundings flows through the reinforcing pieces when the magnetic flux flows from one side to an orthogonal side, thereby minimizing the influence of the electron beam passing through this portion. There is an advantage that does not cause degradation.

1 is an external perspective view of an inner shield assembly according to the present invention;

2 is a view for explaining the magnetic shielding effect by the inner shield of the present invention.

Figure 3 is a partial plan view illustrating an example of magnetic field leakage of the corner portion in the conventional inner shield assembly.

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

2 shield 4 mask frame

6: flange 8: extension part

10: fastening hole 12: tooth shape

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention described above will be described in detail with reference to preferred embodiments according to the accompanying drawings.

Fig. 1 is a perspective view showing an outer configuration of an inner shield according to the present invention, and shows a band-shaped rectangular divided mold as an example.

The inner shield shown in the drawing comprises a shield portion 2 having a predetermined shape divided into two or more so as to block the exit front of the electron gun from the geomagnetic field, and the shield portion 2 has a flange which contacts the frame 4. 6) It holds one. The pair of shielding parts 2 formed in the symmetrical form are means for connecting together integrally, and an extension part 8 is formed at one side and a fastening hole into which the extension part 8 is inserted and bent. (10) is open.

The reinforcing pieces 12 are attached to the inner four corner portions of the shielding portion 2 between the sides orthogonal to each other. The reinforcing piece 12 acts to prevent deformation of the shield 2 having a thin thickness, and at the same time, the flow of magnetic flux due to the geomagnetic field flows from one side to a direction perpendicular to one side as shown in FIG. 2. At this time, it acts as a passage of magnetic flux leaking to the surroundings so that the geomagnetic field scattering does not occur inside the inner shield.

Accordingly, the inner shield of the present invention is that the electron beam passing through the inside is completely shielded from the influence of the geomagnetic field so that deterioration of image quality does not occur.

As described above, the present invention has a structure in which the reinforcing piece is connected between the sides orthogonal to the inner corner portion of the shield in the inner shield assembly, so that the magnetic flux leaking from the portion flows to the side perpendicular to the side of the reinforcing piece. The electron beam passing through the inside of the corner portion is not affected by the geomagnetic field, and has an effect of fundamentally eliminating the degradation of the purity characteristics, the raster distortion, and the change of the convergence characteristics.

Claims (1)

An inner shield assembly for a color cathode ray tube, characterized in that a reinforcing piece is provided between sides that are orthogonal to each other inside a corner portion at an incidence side opening of an inner shield defining an incidence path of an electron beam such that a magnetic flux passage is provided at the corner portion.