KR20010110599A - Deflection coil - Google Patents

Abstract

The present invention relates to a deflection yoke deflection coil (100), which deflects an electron beam emitted from an electron gun of a cathode ray tube, wherein the deflection coil (100) has a lower round portion (130) protruding upward over a predetermined section of the center thereof. The raised ridge surface 131 forms a magnetic field to improve the brightness of the electron beam, thereby providing an effect of compensating pincushion distortion occurring on the top, bottom, left, and right sides of the screen due to miss landing.

Description

Deflection Coils {Deflection Coil}

The present invention relates to the shape of the deflection yoke of the deflection yoke, and more particularly, to a deflection yoke deflection coil that compensates the amount of change in the pincushion distortion occurring on the four sides of the CRT.

In general, a deflection yoke for deflecting an electron beam emitted from an electron gun of a cathode ray tube includes a vertical deflection coil deflecting an electron beam in a vertical direction, a horizontal deflection coil deflecting the electron beam in a horizontal direction, and the horizontal deflection coil and a vertical deflection coil. It is composed of a separator that can precisely classify the positions of and to be electrically insulated from each other.

At this time, the electron beams of R (Red), G (Green), and B (Blue) emitted from the electron gun of the cathode ray tube are deflected at a predetermined angle by the deflection yoke and pass through the through-holes formed in the shadow mask. By sealing the light on each stripe mounted on the inner circumference and emitting light, a normal image can be realized on the screen of the television.

Among the three electron guns of the color water tube, that is, the cathode ray tube, the green electron gun in the center coincides with the center axis of the cathode ray tube, but the red and blue electron guns on the left and right sides are inclined inwardly with respect to the center axis. On the central axis, the three electron beams must each be designed to focus on the holes in the shadow mask and to simultaneously reach the respective phosphors through the same holes.

In this case, the electron beam is accurately sealed to the inner circumference of the stripe of the panel, which is called landing. On the other hand, if the mis-landing occurs in which the electron beam deviates to the outer circumference of the stripe, the image of the screen is not cleared. Sometimes.

Here, as an example of the mis-landing, the fluorescent surface of the CRT becomes larger from the center of the deflection toward the periphery, and the deflection of the deflection is maximized in the four corners with the greatest distance when the electron beam is deflected. Rasters are distorted.

The raster distortion caused by this is that the more the angle of deflection becomes wider, the more distorted the shape of failure occurs. This is called Pincushion Distortion.

1 is an explanatory diagram showing pincushion distortion.

As shown in FIG. 1, a phenomenon in which a failure of the four sides of the image 12 formed on the screen 10 is bent into a failure shape is pincushion distortion, and the four sides of the image must be compensated by pulling the four sides of the image in the direction of the arrow by the amount of the distortion.

2 is a perspective view showing a conventional deflection coil.

As shown in FIG. 2, the deflection coil 100 is installed inside and outside the separator of the deflection yoke to deflect the electron beam to accurately reach the shadow mask. In general, a sawtooth current is generated when the deflection coil 100 forms a magnetic field. Due to this, the brightness of the electron beam is deteriorated, which causes mis-landing or pincushion distortion. To compensate for this, an electric signal is sent by using a compensation transformer to compensate for the lack of amplitude of the current caused by the sawtooth wave. It forms a special magnetic field and compensates for the up and down failure type distortion, that is, the opposite magnetic field of pincushion distortion.

However, the magnetic attachment to the separator coil spacer or the compensation of the sawtooth current to the deflection coil using a compensation transformer is a secondary compensation. If the luminance of the electron beam due to the vertical deflection coil or the horizontal deflection coil itself is poor, the waveform of the sawtooth wave is poor. As a result, the amount of compensation increases and the amount of compensation increases, resulting in a series of processes, such as overcompensation or shortening of lifespan, and assembly and adjustment of secondary parts. There was also a problem with the reliability of the product due to continuous adjustment because the decrease in productivity and the constant compensation amount could not be assured.

Accordingly, the present invention has been made to solve the above-mentioned problems, the object of the present invention is to deflect the yoke of the deflection yoke deflecting the electron beam emitted from the electron gun of the cathode ray tube, the mis-landing or poor luminance The pincushion distortion caused by the sawtooth wave caused by the sawtooth wave caused by a failure pattern is formed by forming a ridge on the lower round part of the deflection coil attached to the deflector yoke separator, which is primarily opposed to the amount of pincushion distortion. It is to provide a deflection yoke that can compensate for the formation of magnetic field.

1 is an explanatory diagram showing a typical pincushion distortion

2 is a perspective view of a conventional deflection coil.

Figure 3 is a perspective view of the deflection coil of the present invention.

※ Explanation of code about main part of drawing ※

10: screen 12: image

100: deflection coil 110: upper round part

120: body portion 130: lower round portion

131: raised surface

It is provided between the upper round portion 110 in close contact with the neck portion of the separator, the lower round portion 130 in close contact with the flange portion of the separator, and the upper round portion 110 and the lower round portion 130 In the deflection coil 100 consisting of a body portion 120,

The lower round part 130 has a ridge surface 131 protruding upward over a predetermined section of the center thereof, and a deflection coil having a magnetic field pattern for pincushion compensation formed by the ridge surface 130. 100.

Hereinafter, a preferred embodiment of a deflection coil of a deflection yoke according to the present invention will be described with reference to FIG. 3.

3 is a perspective view of a deflection coil according to the present invention.

As illustrated, the deflection coil 100 includes an upper round part 110, a body 120, and a lower round part 130, and a raised surface protruding upward over a predetermined section in the center of the lower round part 130. 131 is formed.

The deflection coil 100 is a deflection yoke attached to the neck portion of the CRT and deflects an electron beam emitted from the electron gun of the cathode ray tube. The upper round portion 110 is disposed on the upper neck portion of the separator to precisely classify and insulate the deflection coil. The lower flange part comprises a lower round 130 and a body part 120 provided on both sides. The deflection coils are combined to be surrounded in a circular shape to form a magnetic field when the electron beam passes, thereby forming a shadow mask of the CRT. The deflection coil 100 deflects to reach the pass fluorescent surface.

The raised surface 131 protruding upward over a predetermined section centered on the lower round part 130 of the deflection coil 100 is circularly coupled to the flange portion of the separator to form a specific magnetic field, which is caused by the cathode ray. By improving the luminance of the electron beam emitted from the electron gun of the tube, the fluorescent surface of the CRT becomes larger from the center of deflection toward the periphery, and the deflection of the deflection is maximized in the four corners of the distance when the electron beam is deflected. The failure-like pincushion distortion caused by this result is compensated by the magnetic field generated at the raised surface 131.

As can be seen from the above description, the present invention relates to the deflection coil 100 of the deflection yoke, and in deflecting the electron beam emitted from the electron gun of the cathode ray tube, the deflection coil 100 lower round part 130 a predetermined section in the center thereof. The raised surface 131 which protrudes upward and rises over to form a magnetic field improves the brightness of the electron beam, thereby providing an effect of compensating pincushion distortion occurring at four sides of the screen due to miss landing.

Claims (1)

It is provided between the upper round portion 110 in close contact with the neck portion of the separator, the lower round portion 130 in close contact with the flange portion of the separator, and the upper round portion 110 and the lower round portion 130 In the deflection coil 100 consisting of a body portion 120, The lower round part 130 has a ridge surface 131 protruding upward over a predetermined section of the center thereof, and a deflection coil having a magnetic field pattern for pincushion compensation formed by the ridge surface 130. 100.