KR20020039077A - Deflection yoke - Google Patents

Abstract

PURPOSE: A deflection yoke is provided to prevent a ferrite core from moving and reduce miss-convergency or distortion on screen. CONSTITUTION: A deflection yoke comprises a coil separator(10), a ferrite core(14), and a fixing boss(20) and fixing groove(30). The coil separator(10) includes a neck part and a screen part, and insulates a vertical deflection coil from a horizontal deflection coil. The ferrite core(14) is coupled to the outer surface of the separator(10) and composed of magnetic material for enhancing a magnetic field. The fixing boss(20) and fixing groove(30) are formed on the position corresponding to the separator(10) and the ferrite core(14) respectively and prevent the ferrite core from moving by an interface press-fit structure when assembling.

Description

Deflection yoke

The present invention relates to a deflection yoke, and more particularly, to a deflection yoke that prevents left and right flow of a ferrite core attached to an outer circumferential surface of a coil separator to improve distortion on a screen.

Generally, the deflection yoke used in the cathode ray tube (CRT) of a TV receiver or monitor is provided with a deflection yoke to precisely deflect the three-color beams scanned from the electron gun to the fluorescent film coated on the screen surface of the cathode ray tube. The yoke is one of the most important elements of the cathode ray tube magnetic device. It acts to deflect the electron beam emitted from the electron gun so that an electric signal transmitted in time series can be reproduced as an image on the cathode ray tube screen.

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 and the traveling direction thereof is changed.

As shown in FIG. 1, the deflection yoke is placed on the neck portion 12 of the cathode ray tube 1, that is, the RGB electron gun 3, so that the electron beam scanned from the electron gun 3 is transferred to the screen surface of the cathode ray tube 1. It is deflected by the fluorescent film applied to 2).

2 is a front view of the main portion of the deflection yoke according to the prior art, the deflection yoke 4 as shown is largely provided on the coil separator 10 and the inner and outer peripheral surfaces of the coil separator 10, the horizontal deflection A horizontal deflection coil 13a and a vertical deflection coil 13b which respectively form a magnetic field and a vertical deflection magnetic field, and a ferrite core 14 for strengthening a magnetic field through these horizontal deflection coils 13a and a vertical deflection coil 13b. Is made of.

The coil separator 10 has a substantially conical shape and is coupled to the large diameter screen portion 11 provided on the screen surface 2 side of the cathode ray tube 1 and the electron gun 3 portion of the cathode ray tube 1. It is provided with a cylindrical neck portion 12 of a small diameter, the screen portion 11 and the neck portion 12 is one end is integrally connected by a fallopian tube-shaped connecting portion.

The coil separator 10 is provided with horizontal deflection coils 13a on the upper and lower sides of the inner circumferential surface of the screen unit 11, and vertical deflection coils 13b along the left and right sides of the outer circumferential surface or the upper and lower sides of the ferrite core 14. ) Is wound.

That is, the horizontal deflection coil 13a is configured to be in close contact with the inner surface at the connecting portion of the coil separator 10 to form a horizontal deflection magnetic field.

The vertical deflection coil 13b is wound to form a vertical deflection magnetic field while being in close contact with the outer surface of the coil separator 10 according to the type of the deflection yoke 4, or on the outer circumferential surface of the coil separator 10. It is configured to be wound along upper and lower sides of the ferrite core 14 provided.

On the other hand, the coil separator 10 is provided with a ferrite core 14 having a substantially cylindrical shape on the outer peripheral surface, the ferrite core 14 serves to strengthen the vertical deflection magnetic field.

However, in such a conventional deflection yoke 4, the ferrite core 14 in which the vertical deflection coil 13b is wound on the outer circumferential surface of the coil separator 10 on which the horizontal deflection coil 13a is mounted is wound on the coil separator 10. In the process of bonding to the outer circumferential surface of the), there was a problem that the flow is generated by the dimensional dispersion of the ferrite core 14 and the winding dispersion of the vertical deflection coil 13b.

That is, the ferrite core 14 also flows in the left and right directions in the coil separator 10 even by a slight external shock, so that the vertical deflection coil 13b is not accurately coaxially positioned and distortion on the screen is generated. Cause problems.

Accordingly, in the conventional deflection yoke 4, a difference occurs in the left and right magnetic fields according to the relative winding distribution of the vertical deflection coil 13b or the magnitude of the relative amount of current, thereby causing misconvergence (Miss-) on the screen. Convergence) and geometric distortion (G / D) occur.

These misconvergences are roughly classified into YV misconvergence and YHC misconversion, and YV misconvergence is a vertical miss in which the horizontal lines of red R deviate from the horizontal lines of blue B at the top and bottom of the screen Y axis as shown in FIGS. 3 and 4. Referencing convergence, YHC misconvergence refers to horizontal misconvergence in which vertical line R and vertical line B intersect as shown in FIG. 5.

As shown in Figs. 6 and 7, G / D refers to a state in which the screen is not normal and is distorted.

In order to solve such a problem, conventionally, as shown in FIG. 2, a plurality of elastic wedges 100 formed of sponges are attached on the outer circumferential surface of the coil separator 10 at equal intervals, and the coil separator ( It is proposed to reduce coarse dispersion by elastically supporting the ferrite core 14 attached to the outer surface of 10) outward.

However, in the axial balancing method of the vertical deflection coil 13b through the elastic wedge 100, since the elastic wedge 100 itself generates a lot of deformation, it is difficult to require high-precision dimensional accuracy, thereby resulting in dimensional dispersion. There is a problem that it is difficult to match the axial balance of the vertical deflection coil 13b by being largely generated.

In addition, since the elastic wedge 100 is applied by applying an adhesive to the outer circumferential surface of the coil separator 10, the bonding position is changed according to the operator, so that the distribution of the attachment position is largely generated, which is also caused by the vertical deflection coil 13b. It is a factor that cannot achieve stable axis balance.

In addition, a plurality of elastic wedges (100) should be provided to increase the unit cost due to the increase in the number of parts, and the work according to the increase in the number of work by requiring a lot of labor involved in the application process of the adhesive for attaching the elastic wedge (100) Many problems are inherent, such as deterioration of productivity and productivity.

The present invention was created in order to solve the conventional problems as described above, an object of the present invention is to allow the ferrite core to be stably fixed while preventing the flow of the ferrite core on the outer peripheral surface of the coil separator, An object of the present invention is to provide a deflection yoke that can prevent a geometric distortion phenomenon.

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

Figure 2 is a front view of the main portion excavation of the deflection yoke according to the prior art,

3 to 7 are diagrams for explaining the misconvergence pattern and the geometric distortion pattern on the screen;

8 is a front view of the deflection yoke according to the present invention;

9 is an exploded perspective view of the deflection yoke according to the present invention.

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

1: cathode ray tube 2: screen surface

3: electron gun 4: deflection yoke

10 coil separator 11 screen portion

12: neck portion 13a, 13b: deflection coil

14: ferrite core 20: fixed protrusion

30: fixing groove

The deflection yoke according to the present invention for achieving the above object consists of a neck portion and the screen portion and the coil separator to insulate each other between the vertical and horizontal deflection coils to deflect the electron beam located in the inner and outer sides in the vertical and horizontal directions, and A ferrite core coupled to an outer circumferential surface of the coil separator and formed of a magnetic material to strengthen the magnetic field, and fixing means formed at mutually corresponding positions of the coil separator and the ferrite core to prevent flow due to the interfitting structure during assembly. It is characterized by that made.

One preferred feature of the present invention, the fixing means is formed at equal intervals on the upper side of the screen portion of the coil separator protruding a predetermined height upward, and formed at equal intervals on the lower side of the ferrite core to accommodate the fixing piece. It is made of a fixing groove, the fixing protrusion is to have a predetermined elastic force to act the elastic support force in the state fitted in the fixing groove.

Another desirable feature of the present invention is that the fixing means is provided on a mating interface between a pair of coil separator and a ferrite core.

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

8 is a front view of the deflection yoke according to the present invention, Figure 9 is an exploded perspective view of the deflection yoke according to the present invention. Hereinafter, a description will be given with reference to FIG. 1.

First, referring to FIG. 1, the deflection yoke 4 is installed in the neck portion 12 of the cathode ray tube 1, and the electron beam scanned from the electron gun 3 is applied to the screen surface 2 of the cathode ray tube 1. Deflects to the fluorescent film.

The deflection yoke 4 is largely provided on the coil separator 10 and the inner and outer circumferential surfaces of the coil separator 10, and the horizontal deflection coils and the vertical deflection coils 13b respectively forming the horizontal deflection magnetic field and the vertical deflection magnetic field. And a ferrite core 14 for strengthening the magnetic field through these horizontal deflection coils 13a and vertical deflection coils 13b.

Here, the coil separator 10 has a left and right symmetrical shape and has a substantially conical shape, and has a large diameter screen portion 11 and a cathode ray tube 1 provided on the screen surface 2 side of the cathode ray tube 1. It is provided with a small diameter cylindrical neck portion 12 coupled to the electron gun (3), one end of the screen portion 11 and the neck portion 12 is integrally connected by a fallopian tube-shaped connecting portion.

On the other hand, the coil separator 10 is provided with a horizontal deflection coil 13a on the upper and lower inner circumferential surface of the screen portion 11, the vertical deflection coil along the left, right or upper and lower sides of the ferrite core 14 of the outer circumferential surface. 13b is wound, and the ferrite core 14, which is a magnetic material having a substantially cylindrical shape in left and right symmetry, is coupled to the outer circumferential surface of the coil separator 10 to strengthen the vertical deflection magnetic field.

The above structure is substantially the same as the structure of the conventional deflection yoke 4. However, the present invention prevents misconvergence and geometric distortion on the screen by preventing the flow of the ferrite core 14 coupled to the outer circumferential surface of the coil separator 10 to ensure stable magnetic field characteristics.

That is, the present invention provides a fixing means to be firmly integrally fixed to each other when the coil separator 10 and the ferrite core 14 are coupled to each other, so that the ferrite core 14 is positioned around the coil separator 10. To prevent it from flowing in the right direction.

The fixing means substantially has the features of the present invention, and as shown in FIGS. 8 to 9, the fixing protrusion 20 and the ferrite core 14 formed on the coil separator 10 largely. It is roughly divided into the fixing groove 30 formed.

Here, the fixing protrusion 20 is formed on the mating interface of the coil separator 10 which is left and right symmetrical, and in the present invention, the fixing protrusion 20 is formed above the screen portion 11 of the coil separator 10.

The fixing protrusion 20 is formed to protrude so as to have a predetermined height parallel to the left and right sides from the upper side of the screen portion 11 about the mating interface of the coil separator 10 in the drawing.

At this time, the fixing protrusion 20, that is, a pair of protrusions located on the left and right sides around the mating interface of the coil separator 10 are formed at a predetermined interval from each other, and the elastic bearing force in the direction spaced from each other. It is desirable to be able to be elastically fitted and fixed when it is inserted into the fixing groove 30 to be described later.

On the other hand, the fixing groove 30 is formed on the upper side at the mating interface of the ferrite core 14 of the left and right symmetry, the size of the fixing protrusion 20 of the coil separator 10 can be firmly fitted. It is made to have.

The fixing groove 30 is formed by connecting a pair of grooves respectively formed on the left and right sides of the mating interface of the ferrite core 14, which is proportional to the size of the width direction of the fixing protrusion 20 described above. It is formed to have a width.

The deflection yoke according to the present invention having such a configuration may be assembled as shown in FIG. 9.

That is, after the ferrite core 14 having left and right symmetry is disposed outside the coil separator 10, the fixing protrusion 20 and the ferrite core 14 formed on the mating interface of the coil separator 10. The fixing grooves 30 formed on the mating interface of the assembly are assembled to be in contact with each other.

Then, the fixing protrusion 20 formed on the mating interface of the coil separator 10 is fitted into the fixing groove 30 formed on the mating interface of the ferrite core 14, so that the ferrite core 14 is the coil separator. The flow in the left and right directions about 10 can be prevented.

On the other hand, when the fixing protrusion 20 of the coil separator 10 composed of a pair of protrusions is formed of an elastic material, the elastic support force is applied outwardly in contact with the fixing groove 30 of the ferrite core 14. Therefore, the flow of the ferrite core 14 can be prevented more firmly and stably.

That is, the fixing means of the present invention is to achieve a stable mutual binding force between the coil separator 10 and the ferrite core 14, the ferrite core 14 in the left, right direction around the coil separator 10 To prevent flow.

In addition, even when an impact is applied to the deflection yoke 4 from the outside, the ferrite core 14 can be stably prevented from flowing around the coil separator 10.

Therefore, since the assembly dispersion of the ferrite core 14 can be greatly reduced, misconvergence and geometric distortion on the screen can be prevented in advance.

On the other hand, the above-described embodiment is merely described one preferred embodiment of the present invention, the scope of application of the present invention is not limited to such, and can be changed as appropriate 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 according to the present invention constructed and operated as described above forms at least one protrusion on the side of the coil separator, and forms a groove corresponding to the protrusion on the ferrite core coupled to the outer circumferential surface of the coil separator, thereby providing a coil separator. When assembling the ferrite core and the protrusion and the grooves are mutually interlocked, it is possible to stably prevent the flow of the ferrite core.

Therefore, the defects on the screen due to the assembly dispersion of the ferrite core, that is, the misconvergence or the geometric distortion phenomenon can be prevented in advance, thereby improving the reliability of the cathode ray tube employing the same.

In particular, since it is possible to remove the work process for attaching a plurality of elastic paper as in the prior art it is possible to reduce the unit cost and improve the assembly workability and standardization, there is an advantage that the productivity is improved.

Claims (4)

A coil separator comprising a neck portion and a screen portion, and insulating the vertical and horizontal deflection coils from each other in a vertical and horizontal direction to deflect the electron beams positioned on the inner and outer sides thereof; A ferrite core coupled to an outer circumferential surface of the coil separator and formed of a magnetic material to strengthen a magnetic field; Fastening means formed at positions corresponding to the coil separator and the ferrite core, respectively, to prevent flow due to the interfitting structure during assembly; Deflection yoke, characterized in that consisting of. The method of claim 1, wherein the fixing means A fixing piece protruding a predetermined height upward at equal intervals above the screen portion of the coil separator; Fixing grooves formed at equal intervals on the lower side of the ferrite core to accommodate the fixing piece; Deflection yoke, characterized in that consisting of. 2. The deflection yoke according to claim 1, wherein said fixing means is provided on a mating interface of a pair of coil separator and a ferrite core. The deflection yoke of claim 2, wherein the fixing protrusion has a predetermined elastic force to exert an elastic support force in a state of being fitted into the fixing groove.