KR20030049155A - Deflection coil for deflection yoke - Google Patents

Abstract

PURPOSE: A deflection coil is provided to achieve improved reliability by enhancing characteristics of screen by bending sections of the deflection coil toward the window. CONSTITUTION: A deflection coil(20) comprises an upper flange(20a) tightly contacting a neck part of a coil separator; a lower flange(20b) tightly contacting a screen part of the coil separator; and a body(20c) interposed between the upper flange and the lower flange, and which has, at the center thereof, a window(w) where the coil does not exist, and a plurality of sections(20d) formed at both sides of the window. Each of sections has a bent point(21) formed by bending the intermediate portion of the section toward the window so as to allow for ease of adjustment of deflection characteristics of electron beams.

Description

Deflection Coil for Deflection Yoke

The present invention relates to a structure of a deflection yoke of a deflection yoke. More specifically, a deflection yoke deflection for improving a screen characteristic by bending a section of a deflection coil to a window at a predetermined angle to form a vent point. It is about a coil.

In general, a deflection yoke used in a cathode ray tube (CRT) of a TV receiver or a monitor is provided with a deflection yoke as a device for accurately deflecting three-color beams scanned from an electron gun to a fluorescent film coated on the screen surface of the cathode ray tube.

The deflection yoke is the most important element of the magnetic device of the cathode ray tube. In order to reproduce an electric signal transmitted in a time series as an image in the cathode ray tube, the electron beam emitted from the electron gun is deflected two-dimensionally on the image plane. The deflection yoke is the deflection of the electron beam.

That is, since the electron beam emitted from the electron gun goes straight onto the screen by the high voltage, only the central phosphor of the screen emits light, so the deflection yoke is deflected to reach the screen in the order of scanning from the outside. The yoke forms a magnetic field so that the electron beam is precisely deflected to the fluorescent film coated on the screen of the cathode ray tube by using a force that is changed when the electron beam passes through the magnetic field.

FIG. 1 is a side view showing a typical cathode ray tube, and as shown therein, the deflection yoke 4 is positioned at the electron gun portion 3 of the cathode ray tube 1 and scans an RGB electron beam scanned from the electron gun 3a on the screen surface 2. ) To the fluorescent film applied to the.

Such a deflection yoke 4 has a pair of coil separators 10 which are symmetrical upward and downwardly coupled as shown in the drawing.

The coil separator 10 is provided to insulate the horizontal deflection coil 15 and the vertical deflection coil 16 and to assemble their positions to a sufficient degree. The screen separator 2 of the cathode ray tube 1 Neck portion 13 which is integrally formed from the screen portion 11 and rear cover 12 coupled to the rear side and the center surface of the rear cover 12 and coupled to the electron gun portion 3 of the cathode ray tube 1 Is formed.

The inner and outer circumferential surfaces of the coil separator 10 are provided with horizontal deflection coils 15 and vertical deflection coils 16 for forming a horizontal deflection magnetic field and a vertical deflection magnetic field by power applied from the outside. In addition, the coil separator 10 is provided on the outer circumferential surface, that is, to surround the vertical deflection coil 16, so that the ferrite core 14 is configured to reinforce the vertical magnetic field.

The deflection yoke 4 configured as described above is mounted on the cathode ray tube 1, and when a sawtooth pulse is applied to the horizontal deflection coil 15 and the vertical deflection coil 16, a magnetic field is generated based on Fleming's left hand law. The red (R), green (G), and blue (B) electron beams emitted from the electron gun 3a of the CRT are deflected by a predetermined angle to determine dice on the screen.

On the other hand, in the deflection yoke as described above, the deflection coil is wound by a pair of coil winding molds. At this time, the coil winding mold is a winding portion in which a coil is wound as shown in FIG. 2, and guides to both sides of the winding portion. It is a structure in which an addition is formed.

The winding part is curved to have a predetermined curvature and a slope to wind the deflection coil, and the deflection coil is shaped to have a substantially semi-conical shape. In addition, the guide part serves to guide the entry of the coil by providing tension to the coil wound around the winding part, and a plurality of pins are provided at equal intervals on the interface between the winding part and the guide part to hold the coil shape. It is a structure provided.

The deflection coil wound by the coil winding mold is molded in a structure in which a window is formed in the body in a substantially semi-conical shape as shown in the drawing.

However, in recent years, due to the planarization and wide angle of the cathode ray tube, as shown in FIG. 4 and FIG. 5, distortion on the screen is generated. That is, as shown in Fig. 4, the upper and lower magnetic fields of the Y axis are bent outwards, and as shown in Fig. 5, the PQH is negative (-) so that B and R in the diagonal direction are centered on the Y axis. It will happen.

Since such distortion on the screen is a direct cause of deterioration of the reliability of the product, conventionally, the magnetic field distribution of the section part is changed and corrected by finely adjusting the spacing or dispersion of the pin p to correct such distortion characteristics.

However, when the magnetic field distribution by the conventional method as described above is difficult to work, causing the increase in the time required for work, as a result, product development time increases.

In addition, there is a problem that the standardization of the product is difficult because the correction characteristics vary depending on the skill of the operator.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and an object of the present invention is to provide a deflection yoke deflection coil that can improve the screen characteristics by bending the section of the deflection coil toward the window.

1 is a side view showing a typical cathode ray tube.

Figure 2 is a plan view showing a coil winding mold according to the prior art.

3 and 4 are diagrams illustrating a misconvergence pattern on a screen in a deflection yoke according to the related art.

5 is a plan view showing a coil winding mold according to the present invention.

6 is a view showing a deflection coil according to the present invention.

<Explanation of symbols for the main parts of the drawings>

1: cathode ray tube 2: screen surface

3: electron gun 3a: electron gun

4: deflection yoke 10: coil separator

11 screen portion 12 rear cover

13 neck portion 14 ferrite core

15: horizontal deflection coil 16: vertical deflection coil

20: deflection coil 20a, 20b: flange

20c: body 20d: section

21: vent point 30: coil winding mold

31: winding part 32: guide part

33: pin 34: bending pin

The deflection yoke deflection coil according to the present invention for achieving the above object includes an upper flange in close contact with the neck of the coil separator, a lower flange in close contact with the screen of the coil separator, and between the upper flange and the lower flange. And a body formed in the center to form a window in which coils are not distributed, and having a plurality of sections in which coils are wound on both sides of the window, wherein the section portion is bent at a predetermined angle toward the window side to deflect the electron beam. It is characterized by forming a vent point which makes the characteristic adjustment easy.

The vent point of the present invention is characterized by strengthening the magnetic field on the window side.

The vent point of the present invention is characterized by being formed by a plurality of bending pins provided on the coil winding mold.

Hereinafter, a preferred embodiment of a deflection yoke deflection coil according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a plan view showing a coil winding mold according to the present invention, Figure 6 is a perspective view showing a deflection coil according to the present invention. Hereinafter, a description will be given with reference to FIG. 1, but the same reference numerals are given to the same parts.

As shown in the drawing, the deflection yoke 4 includes a coil separator 10 having a substantially conical shape, wherein the coil separator 10 has a large diameter screen portion coupled to the screen side of the cathode ray tube 1. 11) and the rear cover 12, and a small neck portion 13 extending integrally from the center face of the rear cover 12 and coupled to the electron gun portion 3a of the cathode ray tube 1.

The coil separator 10 is provided with horizontal and vertical deflection coils 15 and 16 which form deflection magnetic fields in the horizontal and vertical directions by power applied from the outside to the inner and outer surfaces.

At this time, the deflection coil is shaped by a coil winding mold to have a substantially semi-conical shape, an upper flange closely contacting the neck portion 13 side of the coil separator 10, and a screen portion 11 of the coil separator 10. The lower flange is in close contact with the side and consists of a body provided between the upper and lower flanges.

This configuration is similar to the structure of the deflection coil for deflection yoke. However, the present invention is characterized by improving the quality by improving the screen controllability of the deflection coil.

6 and 7, the deflection coil 20 according to the present invention is largely composed of an upper flange 20a, a lower flange 20b and a body 20c, wherein the upper flange 20a is It is a part in close contact with the neck portion 13 side of the coil separator 10 having a conical shape, and the lower flange 20b is a part in close contact with the screen part 11 side of the coil separator 10. The body 20c has a substantially conical curved surface as a winding portion connecting the upper flange 20a and the lower flange 20b.

On the other hand, the body (20c) has a shape in which a window (w) is not wound around the coil (w) is formed in the center, the section portion (20d) in which the coil is wound to a predetermined thickness on both sides of the window (w), At this time, the section portion 20d has a shape provided in plural at predetermined intervals.

The deflection coil 20 having such a shape is formed by bending the section 20d at a predetermined angle to form a bent point 21 in order to facilitate screen adjustment and magnetic field adjustability of a specific portion.

That is, the section portion 20d has a vent point 21 in which an intermediate portion is forcibly pulled inward and bent at a predetermined angle, and the vent point 21 is a magnetic field distribution diagram of the deflection coil 20. To adjust the to improve the overall magnetic field characteristics of the deflection coil (20).

As a result, the magnetic field characteristics make it easy to adjust the distortion on the screen as shown in FIGS. 4 and 5, which are caused by the planarization and the wide angle of the cathode ray tube.

As described above, the deflection coil 20 in which the vent point 21 is formed is formed by the coil winding mold 30 as shown in FIG. 6, and the coil winding mold 30 at this time is largely wound around the winding part 31. And a guide portion 32.

The winding portion 31 is a portion in which the coil is substantially wound, and is curved to have a predetermined curvature and a slope to wind the deflection coil 20. The winding part 31 is shaped to have a substantially semi-conical shape, and the guide part 32 is provided at both sides of the winding part 31 to provide tension to the coil wound around the winding part 31 to enter the coil. It serves as a guide to make this happen smoothly.

In addition, a plurality of pins are provided on the interface between the winding part 31 and the guide part 32 at equal intervals, and in the middle of the winding part 31, the deflection coil 20 described above. A plurality of bending pins 34 for forming the vent point 21 in the section 20d protrudes. At this time, the bending pin 34 is preferably provided at a position for optimizing the deflection characteristics of the deflection coil 20.

Meanwhile, in the present invention, the vent point 21 is formed by the bending pin 34 of the coil winding mold 30. However, the present invention is not limited thereto, and one end of the section 20d may have a window w. If a structural feature is bent by a predetermined angle to the side), the mechanism for forming the vent point 21 may be variously changed.

In addition, the above-described embodiments are merely illustrative of preferred embodiments of the present invention, and the scope of application of the present invention is not limited to the above, and may be appropriately changed within the scope of the same idea. For example, the shape and structure of each component shown in the embodiment of the present invention can be modified.

The deflection yoke deflection coil according to the present invention constructed and operated as described above can achieve deflection characteristic correction according to the magnetic field strengthening of the window side by forming a vent point of bending the bent section portion to the window side. Therefore, since the distortion on the screen can be stably corrected, there is an advantage of improving the reliability of the product.

Claims (3)

An upper flange in close contact with the neck portion of the coil separator; A lower flange in close contact with the screen portion of the coil separator; A body provided between the upper flange and the lower flange and having a center in which a coil is not distributed, and a body having a plurality of section portions in which coils are wound on both sides of the window; And the section portion is formed by forming a vent point in which an intermediate portion is bent at a predetermined angle to the window side to facilitate adjustment of a deflection characteristic of the electron beam. The deflection yoke deflection coil according to claim 1, wherein the vent point strengthens a magnetic field on the window side. The deflection yoke deflection coil according to claim 1, wherein the vent point is formed by a plurality of bending pins provided on a coil winding mold.