KR100201100B1 - Device of measuring deflection characteristic of electron-beam - Google Patents

Abstract

The present invention relates to an ITC (Integrated Tube Component) process that adjusts color purity and convergence according to a user's desire. An electron beam emitted from an electron gun mounted on a base part is generated by the influence of a geomagnetic field. The present invention relates to an apparatus for measuring and compensating for mis-convergence.

The present invention is a vertical or horizontal deflection of the frame for holding the panel side of the tube and the anode socket for applying a high voltage to the anode cup of the tube and the base socket for applying a voltage for electron beam radiation to the base portion, the deflection of the emitted electron beam It comprises a deflection yoke and a control panel for adjusting the vertical or horizontal of the electron beam.

Description

Device for Measuring Deflection Characteristics of Electron Beams

1 is a view showing a deflection characteristic measuring apparatus of an electron beam according to the present invention.

2 is a side view of the use state of the present invention shown in FIG.

* Explanation of symbols for main parts of the drawings

10 measuring device 11 frame

12: anodized socket 13: deflection yoke

14 Base socket 15 Control panel

16: stopper 20: tube

The present invention relates to an integrated tube component (ITC) process for adjusting color purity and convergence of a color-brown tube to a user's desire. In particular, the present invention measures a mis-convergence of an electron beam generated by the influence of a geomagnetic field. The present invention relates to an apparatus for measuring deflection characteristics of an electron beam.

In general, a color CRT emits three electron beams consisting of red (R), green (G), and blue (B) from an electron gun mounted on a base part to reproduce an image on a fluorescent surface. The path is deviated while proceeding to the outside of the screen due to factors outside the branch, that is, the earth's magnetic field.

The path deviation of the electron beam plays a very important role in adjusting the purity and convergence of the color CRT, which is consistent with the quality of the CRT.

In the related art, since a separate device for measuring the path deviation of the electron beam is not installed, color purity and convergence are adjusted by a calibration operation according to continuous iteration in the ITC process. Therefore, there is a problem in that the productivity is lowered due to a large amount of time spent adjusting the color purity and convergence, and the adjustment is performed in a state in which the characteristics of the escape path of the electron beam are not accurately understood.

The present invention has been made in view of the above-described problems, and its object is to improve the reliability of the product by easily adjusting the color purity and convergence by measuring the characteristics of the path deviation of the electron beam radiated from the electron gun toward the outside of the screen. It is to be.

In order to achieve the above object, the present invention is a device for measuring the deflection characteristics of the electron beam, the frame is installed on the front surface to support the panel side of the tube to be measured and connected to a predetermined position in the center of the frame An anode socket coupled with the anode button of the tube to apply a high voltage, a stopper installed at the center of the plane to support the neck portion of the installed tube, and installed at an upper portion of the stopper, from the lower panel to the upper neck of the tube. And a deflection yoke coupled to the base socket coupled to the base portion of the tube, and a control panel provided with a predetermined button for adjusting the deflection characteristic and an adjusting volume. do.

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

1 is a perspective view showing an apparatus for measuring deflection characteristics of an electron beam according to the present invention, and FIG. 2 is a side view showing a state of use of the present invention shown in FIG.

As can be seen from FIGS. 1 to 2, the measuring device 10 of the present invention includes a frame 11, an anode socket 12, a deflection yoke 13, a base socket 14, and an adjustment panel 15. ) And the stopper 16.

The frame 11 is installed on the front of the measuring device 10 and supports the side of the tube 20 to be measured. The anode socket 12 is installed at a predetermined position in the center of the frame 11 and is connected to the anode button of the tube 20 fixed to the frame 11 to apply a high voltage in the tube 20. The stopper 16 is installed at a predetermined position of the flat portion of the measuring device 10, and the deflection yoke 13 is settled, and supports the neck portion of the tube 20 to which the deflection yoke 13 is coupled. The deflection yoke 13 is coupled to a predetermined portion of the lower panel or the upper end of the neck of the fixed support tube 20 so that the direction of the electron beam is changed vertically or horizontally according to the change of current applied from the internal electric circuit of the measuring device 10. Deflect. The socket 14 is connected to a power suppy inside the measuring device 10 to supply the applied voltage to the stem connected to the end of the electron gun inside the neck of the fixed tube 20 which is fixed and supported. do. The adjusting panel 15 has a volume and a switch for measuring and adjusting the characteristics of the electron beam by a user's operation according to spots generated in the panel of the tube 20.

Referring to the operation of the present invention configured to have such a function as follows.

As shown in FIG. 2, the tube 20 to measure the deflection characteristics of the electron beam is installed on the frame 11 with the panel facing the front part, and then the corner part is supported and fixed.

Afterwards, the deflection yoke 13 installed on the stopper 16 is coupled to the lower end of the panel and the neck, and the stem socket 14 and the anode socket 12 are coupled to the stem socket 14.

Then, when a predetermined button of the control panel 15 is operated to apply a voltage to the tube 20 side, three electron beams of red, green, and blue are emitted from the electron gun mounted on the stem to emit a spot on the fluorescent surface. At this time, the predetermined button and volume of the control panel 15 are varied according to the spot state at which the user emits light. Since the current applied according to the change of the predetermined button and the volume is applied to the deflection yoke 13, the deflection yoke 13 controls the vertical and horizontal deflection of the electron beam emitted from the electron gun to move the beam toward the center portion. At this time, it measures the deflection characteristics of the electron gun by measuring the interval for red, green, and blue light emitting at the same point of the user and makes data, and it is used for deflection control in the ITC process. Let's do it.

Claims (1)

Frame 11 is installed on the front of the tube to support the panel side of the measurement to be fixed, and the anode button is connected to a predetermined position in the center of the frame 11 and coupled with the anode cup of the tube to apply a high voltage (12), a stopper (16) installed at the center of the plane to support the neck portion of the installed tube, and a deflection yoke installed at the upper portion of the stopper (16) and coupled to the lower panel or neck upper portion of the tube. 13, a socket 14 coupled to the stem of the tube, and an adjustment panel 15 provided with a predetermined button and an adjusting volume for measuring the deflection characteristics. Device.