KR920006866Y1 - Deflection yoke - Google Patents

Abstract

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Description

Deflection yoke

1 is a connection diagram of the deflection yoke of the present invention.

1 is a view showing the magnetic field distribution between the blocking of the leakage magnetic field and the main magnetic field by the deflection yoke of the present invention.

3 is a connection diagram of a conventional magnetic leakage circuit breaking circuit.

* Explanation of symbols for main parts of the drawings

1: horizontal coil 2: blocking coil

3: coil 4 for adjustment: main magnetic field

5: control magnetic field

The present invention is a deflection yoke for a deflection yoke for a cathode ray tube, so that even when the deflection size is different, the coil can be used without circuit modification, and the deflection yoke can be easily adjusted while removing the loss coil. will be.

It is known that about 70% of the leakage magnetic field of the cathode ray tube is generated in the deflection yoke of the cathode ray tube. The leaky magnetic field affects various electronic components or wiring lines distributed around the cathode ray tube, which causes noise to occur in the cathode ray tube. Ideally, unnecessary magnetic fields are not leaked in the cathode ray tube. It can be said.

The deflection yoke has a saddle-saddle type and a saddle-toroidal type according to the winding type of the magnetic field generating coil. When comparing the deflection size according to the winding type of the coil, the saddle- The saddle type has a horizontal deflection of about 10% and the vertical deflection of 30-40%. However, in recent years, the saddle type has been changed from a saddle-toroid type to a saddle type with a good deflection effect. Is in. However, in a cathode ray tube using saddle-toroid type deflection yoke, it is easy to adjust the vertical deflection yoke when using the saddle- saddle type yoke, but the horizontal problem cannot solve the problem of difference in deflection size without circuit correction. It will not be used.

In addition, conventionally, as shown in FIG. 3, the external leakage magnetic field blocking coil B is connected in series to the horizontal coil A of the deflection yoke. (B) and a Loss-Coil (C) were attached in series to adjust the Loss Coil (C) to prevent excessive deflection.

However, as described above, there is a problem in that an assembly of a loss coil C is required in addition to the deflection yoke, thereby increasing the size of the deflection yoke.

The present invention has been made to solve the above problems, and solves the problem of increasing the size of the deflection yoke due to the attachment of the low coil, and the coil winding of the deflection yoke is a circuit correction to the cathode ray tube used the saddle-toroid type It is an object of the present invention to provide a deflection yoke that can be used in a cathode ray tube in which a saddle-saddle type can use a deflection yoke without having a different deflection size.

To this end, the present invention connects a coil having two functions of external leakage magnetic field interruption amount control and deflection size control in series to the coil in two in series to generate a magnetic field for blocking external leakage magnetic field in series with a horizontal coil. In addition, the coil is symmetrically attached to the outer circumference of the coil bundle of the deflection yoke, and according to the conditions, the predetermined coil current is adjusted while flowing, so that the blocking and deflection size can be effectively adjusted.

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

1 is a connection diagram of the present invention, in which an external leakage magnetic field blocking coil 2 is divided into two in series with each horizontal coil 1, and each of the leakage magnetic field blocking coils 2 Is connected in series with the external leakage magnetic field interruption amount control and deflection size control, and the coils are connected in parallel with each other in pairs in the same connection. The symmetrical sides are attached in predetermined ways.

FIG. 2 shows the correlation between the horizontal deflection magnetic field 4 and the external leakage blocking magnetic field 5, and the leakage magnetic field blocking magnetic field 5 with respect to the horizontal deflection magnetic field 4 is the horizontal deflection magnetic field 4 ) Act in the direction of offsetting each other, resulting in reducing the leakage magnetic field radiated to the outside. In addition, if the magnetic field for blocking external leakage is larger than necessary, the main magnetic field 4 is affected, which affects the electron beam, which causes problems with burns of the cathode ray tube.

The external leakage magnetic field blocking magnetic field 5 cancels the main magnetic field 4 while being formed opposite to the reflection of the horizontal deflection main magnetic field 4, and acts in the same direction depending on conditions to increase the deflection effect. The external leakage magnetic field blocking amount and the deflection magnitude control coil may be used to offset or increase the magnetic field in each direction under ideal conditions by blocking the magnetic field leaking to the outside and flowing a current to optimally fit the deflection size. Done.

In other words, when the deflection size of the main magnetic field is called 'A' and the deflection size required by the cathode ray tube is 'B', the deflection becomes excessive when A> B becomes the case. It is most desirable when the condition of A = B is satisfied.

By adjusting the adjusting coil 3 in a predetermined manner to satisfy the above conditions, the external leakage magnetic field is blocked or increased to have an optimum deflection size. Therefore, the adjustment coil 3 of the present invention has a function of easily adjusting the deflection and blocking the magnetic field even when the deflection difference is large according to the winding form of the coil of the deflection yoke.

As described above, while eliminating the problem that the deflection yoke becomes larger according to the attachment of the loss coil, the main magnetic field 4 is blocked when it leaks to the outside, and when the main magnetic field 4 is weak, the amplification role is blocked. Since the adjustment is made by the coil 2 and the adjustment coil 3, the deflection size can be optimally adjusted.

In addition, even if the coil winding structure of the deflection yoke is changed from saddle-toroid type to saddle-saddle type by using such an effect, it is an advantage of the present invention to have compatibility that can be easily used in a cathode ray tube without circuit modification.

Claims (1)

The leakage magnetic field blocking coil 2 divided into two is connected in series to the horizontal coil 1 of the deflection yoke, and the control coil 3 is connected in series to the two blocking coils 2 in series. One regulating coil 3 is composed of a pair and is symmetrically attached to the outer circumference of the coil bundle of the deflection yoke, and is adjusted in the main magnetic field 4 by adjusting a predetermined current to the regulating coil 3 according to the condition. The deflection yoke is configured to generate a magnetic field (5) having a predetermined direction and size in the blocking coil (2) according to the strength of the magnetic field to adjust the deflection size while amplifying or detailing the main magnetic field (4).