KR930011452B1 - Convergence drift improving method for color cathode-ray tube - Google Patents

Abstract

The method gets rid of the major problem in the color cathode ray, the convergence drift, which is the irregular formation of the electric field. The method comprises the induction scheme which enforces the electric field be uniform around the surface of neck; the decentralization step the ununiform electric field formed the inside neck (N); and the selected material from graphite or aluminum.

Description

How to improve convergence drift of colored cathode ray tubes

1a and b show an embodiment related to the present invention.

2 is a diagram showing an example of distribution of electric fields formed in the neck inner circumferential surface due to the potential difference between electrodes of the electron gun.

* Explanation of symbols for main parts of the drawings

G1 to G4: First to fourth electrodes N: Neck

F: conductive thin film

The present invention relates to a method for improving convergence drift of a color cathode ray tube.

The electron gun is generally configured by arranging the fourth electrode coaxially side by side in the first electrode, and each electrode has an electron beam hole through which R, G, and B electron beams emitted from the cathode pass.

The R, G, and B electron beams are connected through a plurality of electrodes and are scanned on the screen to form a pixel. The pixel is formed by concentrating R, G, and B electron beams at one point. Convergence that concentrates the R and B electron beams on both sides should be achieved with the electron beam as the axis.

This convergence is caused by the main focus lens formed by shifting the rear axis of the third electrode and the R, G, B electron non-pores of each of the fourth electrodes asymmetrically in the electron gun.

On the other hand, the electron gun is sealed inside the neck N in the color cathode ray tube as shown in FIG. 2 so that the first electrode G1 is 0 to 300V, the second electrode G2 is 300 to 500V, and the third electrode is in operation. (G3) is a voltage of 5 ~ 7KV, the fourth electrode (G4) is applied to a voltage having a different potential of 20 ~ 30KV to form an electron lens, due to the voltage difference between each electrode of the neck surrounding them On the inner circumferential surface, negative charges of non-uniform distribution are induced.

It is known that the non-uniform negative charge causes a convergence drift by forming a very irregular pattern that is formed toward the fourth electrode which is subjected to high voltage. .

In order to solve the above convergence drift, the inventors have devised a method of flattening or essentially eliminating an irregularly formed electric field inside the neck.

Accordingly, an object of the present invention is to provide a method for improving convergence drift of a color cathode ray tube which can eliminate the influence of negative charges formed on the inner circumferential surface of the neck in which the electron gun is enclosed.

According to the above object, the present invention uniformly distributes the electric field charged to the outer circumferential surface by negative charges formed on the inner circumferential surface of the neck by covering the conductive thin film on a predetermined portion of the outer circumferential surface of the neck in which the electron gun is enclosed. In addition, the negative charge formed on the inner circumferential surface of the neck is induced by a uniform electric field charged on the outer circumferential surface of the neck.

In addition, by connecting the conductive thin film with the vertical coil of the deflection coil to change the electric field of the conductive thin film according to the potential of the coil, the electric field formed on the inner circumferential surface of the neck is extinguished, or the electrically conductive thin film is grounded by the chassis. It can be done.

In the present invention described above, graphite or an aluminum thin plate may be used as a material that can be easily formed of a conductive thin film. Among them, the aluminum thin plate is most preferable because it has an advantage of easy handling and a simple process.

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

As shown in FIG. 1A, the present invention covers the conductive thin film F in a range corresponding to the fourth electrode G4 from the second electrode G2 of the electron gun enclosed therein at the outer circumferential surface of the neck N. As shown in FIG. I'm making it.

Therefore, since the neck N is itself an insulator, the inner circumferential surface and the outer circumferential surface form a structure that can be naturally charged with each other.

Therefore, as shown in FIG. 1B, when the electric field is formed on the inner circumferential surface of the neck N, the corresponding electric field is charged on the outer circumferential surface thereof.

Since the electric field charged on the outer circumferential surface is uniformly distributed through the conductive thin film F, the outer circumferential surface of the neck N may extend from the second electrode G2 to the fourth electrode G2 unlike the irregular electric field of the inner circumferential surface. The uniform electric field is formed, and thus the uniform electric field is inverted to influence the electric field on the inner circumferential surface side, thereby inducing the uniform distribution of the electric field formed on the inner circumferential surface of the neck (N) to solve the main cause of the convergence drift.

Convergence drift improvement effect of the present invention as described above can be further improved by connecting the conductive thin film (F) to the vertical coil of the deflection yoke or earth through the chassis.

In the former case, when the vertical coil of the deflection coil is operated, the uniform electric field of the conductive thin film pulsates according to the AC potential of the coil, thereby reducing the electric field of the inner circumferential surface of the neck N. In the latter case, the conductive thin film F As the uniform electric field induced by the effluent flows out through the chassis and disappears, the electric field formed on the inner circumferential surface of the neck is also extinguished, thereby eliminating the inner circumferential axis of the neck (N), which is the main cause of the convergence drift. .

In the present invention as described above, the conductive thin film F is suitable for smoking or aluminum, and in the case of the former, it is applied by spraying with only the coating part exposed so as to be exposed on the outer peripheral surface of the neck N, and then the neck N. The conductivity can be inserted into the outer circumference of the structure to enable electrical connection with the vertical coil or chassis. The latter may be deposited, but a thinner film may be coated on the outer circumference of the neck (N). Not only is it convenient for the manufacturing process, it can also be easily connected to the vertical coil or the electrical connection to the chassis without requiring any special parts.

As described above, the present invention fundamentally solves the main cause of convergence drift by uniformizing or attenuating the non-uniform electric field formed on the inner circumferential surface of the neck by covering the conductive thin film on the outer circumferential surface of the neck due to the potential difference between each electrode of the electron gun. As a result, the image quality of the color cathode ray tube can be improved.

Claims (4)

In a typical cathode ray tube, the inner circumferential surface of the neck (N) is uniformly distributed so that the electric field charged to the outer circumferential surface of the neck is uniformly distributed by the conductive thin film (F) covered by a predetermined portion of the outer circumferential surface of the neck (N) in which the electron gun is enclosed. A method of improving the convergence drift of a color polar polar tube, characterized in that it is induced to distribute the negative charge formed in the uniform. The thin film cathode ray tube according to claim 1, wherein the conductive thin film F is connected to a deflection coil to receive an alternating electric potential of the vertical coil to attenuate an uneven electric field formed on the inner circumferential surface of the neck N. How to improve version drift. The method for improving a color cathode ray tube convergence drift according to claim 1, wherein the conductive thin film (F) is earthed so that the electric field formed on the inner circumferential surface of the neck (N) disappears. The method according to any one of claims 1 to 3, wherein the conductive thin film (F) is made of a material selected from graphite or aluminum.