KR100839416B1 - Deflection apparatus for cathode ray tube having section winding type deflection coils - Google Patents

Abstract

There is provided a deflection apparatus for a cathode ray tube having a deflection coil of a section winding type, comprising: a horizontal deflection coil; a vertical deflection coil disposed outside the deflection coil; And a core provided on the insulator, the core being made of an insulator and a magnetic body interposed between the horizontal deflection coil and the vertical deflection coil, the core being provided with a sphere and an introducing hole which are generally opposed to each other, and at least one of the deflection coils Wherein one deflection coil includes a plurality of section coil sections arranged at regular intervals along the introduction port in the sphere, and the number of the section coil sections arranged on the sphere side is generally arranged on the introduction port side The number of the section sections to be formed becomes larger.

Cathode ray tube, deflection coil, branch, heat dissipation, deflection device, section

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a deflection device for a cathode ray tube having a deflection coil of a section winding type,

1 is a partial side sectional view of a cathode ray tube according to an embodiment of the present invention,

2 is a perspective view showing a horizontal deflection coil of the deflection apparatus according to the embodiment of the present invention,

3 is a front view showing a deflection apparatus according to an embodiment of the present invention,

FIG. 4 is a side view schematically showing a horizontal deflection coil and a vertical deflection coil according to an embodiment of the present invention,

5 is a view showing a conventional deflection apparatus for a cathode ray tube having a deflection coil of a section winding type.

The present invention relates to a cathode ray tube deflector, and more particularly, to a cathode ray tube deflector having a deflection coil formed in a section winding manner.

As is well known, a cathode ray tube is an electron tube that implements a predetermined image by deflecting an electron beam emitted from an electron gun in horizontal and vertical directions with respect to a screen, and causing the electron beam to land on a desired phosphor of the screen. Here, the deflection of the electron beam is performed by a deflector mounted on the outer periphery of the funnel of the cathode ray tube to form horizontal and vertical magnetic fields.

The deflection device is provided with horizontal and vertical deflection coils for forming the horizontal and vertical magnetic fields. In recent years, along with technological development of a color television and a computer monitor to which a cathode ray tube is applied, Accordingly, the deflection coils are formed so that the magnetic field formed in the deflection coils can more precisely deflect the electron beam.

According to such a technical trend, a configuration of a deflection apparatus which has been conventionally proposed so as to adjust a convergence characteristic of an electron beam or the like by adjusting the winding distribution to provide a higher quality image is characterized in that the deflection coil is formed by a so- .

The section winding type deflection coil means that when the deflection coil is disposed inside or outside the separator which is an insulator, the deflection coil is configured so as to be further divided on the separator and wide.

According to a known technique, when the deflection coil is constituted by a section method, it is usually sectioned by being wound along a slit formed on the separator, and a related art is disclosed in Japanese Patent Application Laid-Open No. 5-182500 .

On the other hand, in the conventional deflecting device, the deflection coil and the separator are generally formed with an introduction hole corresponding to the neck side of the cathode ray tube and a so-called trumpet shape in which the spheres corresponding to the funnel side of the cathode ray tube face each other .

Under such a condition, the deflecting device having the deflection coil of the section winding type including the above-mentioned Japanese patent is sectioned by one line along the introduction port and the sphere of the separator when the deflection coil is sectioned.

5, the deflection device described above is constituted by winding a coil 5a on a slit 3 formed by being partitioned into a certain section within a separator 1 to form a deflection coil 5 ). Here, the deflection coil 5 is a horizontal deflection coil provided inside the separator 1.

As described above, the separator 1 has a shape having the introduction hole 1a and the sphere 1b, and one coil 5a in the deflection coil 5 is divided into two parts, Are arranged in one line along the side of the sphere (1b) on the side of the sphere (1a).

As described above, in the cathode ray tube deflecting apparatus, when the deflection coil is sectioned and arranged, the deflection coil is finely distributed in a wide area, thereby providing an advantage that the deflection to the electron beam can be more precisely achieved.

However, the deflector also has various disadvantages in comparison with the above-mentioned advantages. Unlike the conventional separator of the cathode ray tube deflector, the slit must be separately formed at the time of manufacturing the separator. Therefore, And a rise is caused.

A disadvantage of the deflecting device is that the heat dissipating ability of the deflecting device due to the slit is low during operation, and the problem of erroneous operation due to an increase in the temperature of the deflecting device. That is, in the deflection apparatus, heat is generated according to the action of the deflection coil, and heat radiation to the heat needs to be smoothly performed for effective self-operation. However, in the deflecting device of the above structure, when the deflection coil generates heat, the slit disposed between the sectioned coil and the coil serves as a shielding barrier against heat radiation, thereby deteriorating the overall function of the deflecting device.

As described above, when the deflection coils are arranged in a one-to-one arrangement relationship, that is, in a single line, and are sectioned, the separator has a relatively large space in the separator, The number of coil sections disposed on the sphere side is limited. Therefore, the strength of the deflection magnetic field formed on the sphere side can not be maximized, thereby deteriorating the deflection capability of the electron beam.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to improve the deflection capability of the cathode ray tube when the deflection coil is configured as a section.

Another object of the present invention is to provide a cathode ray tube apparatus and a cathode ray tube apparatus which can prevent the deterioration of the cathode ray tube due to adverse influences Deterioration of performance, etc.) in advance.

In order to achieve the above object,

A horizontal deflection coil, a vertical deflection coil positioned outside of the horizontal deflection coil, and an insulator and a magnetic body interposed between the horizontal deflection coil and the vertical deflection coil, Wherein at least one deflection coil of the deflection coils includes a plurality of section coil portions arranged at an arbitrary interval and generally sectioned along the introduction hole in the sphere, The number of section coil parts arranged on the side of the introduction hole is larger than the number of section parts arranged on the introduction hole side.

In the present invention, the portion of the section coils disposed on the sphere side is formed in a branched shape from the one section coil portion on the side of the introducing port.

In the present invention, the one section coil portion, which is usually disposed on the sphere side, is formed in connection with at least two or more section coil portions disposed on the introduction port side.

Further, it is preferable that the both deflection coils are formed by arranging the section coil portions of the other side in the space between the respective section coil portions in the sphere side.

Further, in order to realize the above object,

A panel having a fluorescent screen formed on its inner surface, a funnel connected to the panel and mounted with a deflecting device for deflecting an electron beam on an outer periphery thereof, and a neck connected to the funnel and having an electron gun for generating the electron beam therein, Wherein the deflecting device comprises a horizontal deflection coil, a vertical deflection coil positioned outside of the horizontal deflection coil, and an introducing hole disposed generally toward the funnel side and toward the neck, And a core provided on the insulator, the core being made of an insulator and a magnetic body interposed between the deflection coils, wherein at least one of the deflection coils is sectioned along the introduction hole in the generally- And a plurality of section coil portions disposed on the sphere side, The number of offers a number of the tube than the number of section portions that are arranged in the introduction side, obtain.

In the present invention, the cathode ray tube may include not only a conventional cathode ray tube for generating an image by generating three electron beams from the electron gun, but also a plurality of index-use fluorescent substances on the fluorescent screen, And a beam index type cathode ray tube in which a detector for detecting light emitted from the cathode ray tube is further installed.

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

1 is a partial side sectional view showing a cathode ray tube according to an embodiment of the present invention. As shown in the figure, the cathode ray tube includes a panel 20 having a fluorescent screen 22 formed on its inner surface, and a deflector 24 for deflecting an electron beam on the outer circumference thereof while being connected to an opening of the panel 20 And a neck 30 in which an electron gun 28 for generating the electron beam is installed in the inside of the funnel 26 while being connected to the rear of the funnel 26 .

In the present embodiment, the cathode ray tube is constituted by a so-called beam index type cathode ray tube (BIT). The beam-index type cathode ray tube has a structure in which R, G, and B are formed on the fluorescent screen 22 instead of a shadow mask as a color screening mechanism inside the panel 20, unlike a conventional cathode ray tube, A plurality of index phosphors 32 for distinguishing the phosphors are arranged between the R, G and B phosphors, and a detector (not shown) for detecting light emitted from the index phosphors 32 is disposed on the outer periphery of the funnel 26, And a color image is implemented by emitting one electron beam from the electron gun.

In this cathode ray tube, the electron beam is deflected in the horizontal or vertical direction of the cathode ray tube and is scanned to the periphery of the fluorescent screen 22. The deflection device 24 provided for this purpose is used for horizontal and vertical deflection of the electron beam. A horizontal deflection coil 24a and a vertical deflection coil 24b that form respective magnetic fields and an insulator 24c in the form of a trumpet disposed between the deflection coils 24a and 24b, And a ferrite core 24d disposed on the ferrite core 24d.

In the present embodiment, the deflection device 24 is configured such that the horizontal deflection coil 24a and the vertical deflection coil 24b are disposed inside and outside the insulator 24c, respectively, and the ferrite core 24d, Called saddle-saddle type deflecting device disposed outside the insulator 24c while surrounding the insulator 24b. However, the present invention is not necessarily limited to the structure of the deflecting device.

In the present invention, the deflection device 24 includes the deflection coils 24a and 24b in a section winding manner, and in order to more precisely deflect the electron beam when deflecting the electron beam, And deflection coils 24a and 24b as shown in FIG.                     

2 is a perspective view showing a horizontal deflection coil 24a among the deflection coils 24a and 24b. In the present invention, the deflection coils 24a and 24b All of the deflection coils 24a and 24b will be described taking the horizontal deflection coil 24a as an example.

First, the horizontal deflection coil 24a is formed in a semi-frustum shape having a generally square 240a disposed toward the funnel 26 side and an introducing hole 242a disposed toward the neck side. As described above, since the horizontal deflection coil 24a is formed in a section winding manner, a plurality of section coil portions 244a are formed between the sphere 240a and the introduction sphere 242a at an arbitrary interval And these section coil portions 244a are disposed in a circumferential shape in the region of the sphere 240a and the introducing sphere 242a.

The above section coil sections 244a are formed by drawing a line in a direction substantially perpendicular to the tube axis Z of the cathode ray tube at an approximate center of the horizontal deflection coil 24 and dividing the horizontal deflection coil 24 The number of strands disposed on the side of the sphere 240a is different from the number of strands disposed on the side of the introduction sphere 242a. That is, in the present invention, the section coil sections 244a are formed while the number of strands disposed on the side of the sphere 240a is larger than the number of strands disposed on the side of the introduction sphere 242a.

Accordingly, in the present embodiment, a total of sixteen element coil sections are arranged on the side of the sphere 240a, and a total of ten section coil sections are arranged on the side of the introduction sphere 242a, thereby forming the horizontal deflection coil 24a , The number of the section coil sections 244a in the present invention is not limited thereto but may be appropriately adjusted according to the specifications of the cathode ray tube.

The section coil sections 244a are disposed between the sphere 240a and the introducing sphere 242a so as to extend from the introducing sphere 242a toward the sphere 240 toward the sphere 240, It is divided into more than two strands, that is, branched. That is, one section coil section 244a disposed on the side of the sphere 240a is connected to at least two section coil sections 244a disposed on the introduction sphere 242a side.

3, the horizontal deflection coil 24a and the vertical deflection coil 24b formed as described above are respectively arranged on the inner and outer sides of the insulator 24b in such a manner that the upper, , And right (drawing reference). Of course, at this time, since the insulator 24c is formed corresponding to the overall shape of the deflection coils 24a and 24b, the insulator 24c is usually formed by a pair of the opposed sphere 240c and the introducing sphere 242c Shaped separator. In addition, the ferrite core 24d has a shape corresponding to the overall shape of the deflection coils 24a, 24b and the insulator 24b, which is not shown in FIG. 3 for convenience.

In the present invention, when the deflection coils 24a and 24b, and particularly, the horizontal deflection coil 24a are provided on the insulator 24c, (For example, a slit disposed at a predetermined interval in the insulator). In other words, in the insulator 24c, no member is disposed in the space between the section coil portions 244a of the horizontal deflection coil 24a. For such a configuration, the horizontal deflection coil 24a is wound so as to have a self-supporting force. For example, a method of fixing the horizontal deflection coil 24a by applying a momentary current while a press is applied to the coil constituting the horizontal deflection coil 24a . Of course, this manufacturing process is also applicable to the vertical deflection coil 24b.

The cathode ray tube constructed as described above can control the deflection efficiency with respect to the electron beam very efficiently when the electron beam generated from the electron gun 28 is scanned by the fluorescent screen 22. [

This action is effected in a larger number of times toward the funnel 26 side than the side of the neck 30 when the electron beam is generated from the electron gun 28 and passes through the cathode ray tube portion where the deflection device 24 is located This is because the section coil portions of the biased deflection coils 24a and 24b arranged therein change the harmonic component of the magnetic field more efficiently than in the prior art.

In the above, the harmonic component is a component appearing when the distribution of the coil is decomposed using the harmonic function sin (n?) Or cos (n?) As a basis function, and each component according to n has a different deflection action depending on its position .

In other words, it is necessary to change the magnetic field component abruptly according to the position so that effective deflection control can be performed. For example, the amount corresponding to the cos ([theta]) is designed to be negative on the neck 30 side. On the funnel 26 side, It can be designed to be positive, while at the same time the cos (3θ) term can be designed to be minimal, which can easily be obtained through a branch-like sectioned coil distribution.

Since the funnel 26 is spatially bulky, a large number of sections are required to control the harmonic component. For this purpose, the coil sections at the side of the neck 30 are branched, .

On the other hand, in the present invention, in order to achieve the above-described action more effectively, it is preferable to add the following configuration to the deflection device 24.

3, when the horizontal deflection coil 24a and the vertical deflection coil 24b are respectively disposed on the insulator 24c, the respective section coil portions 244a, The portion between the section coil portions 244a of the horizontal deflection coil 24a is arranged in the space portion formed by the vertical deflection coil 244a, The section coil sections 244a of the horizontal deflection coil 24a are arranged in the space between the section coil sections 244b of the vertical deflection coil 24b, ) Is disposed.

4, when the deflection coils 24a and 24b are arranged as described above, a part of the vertical deflection coil 24b is wound around the funnel 26 at about the horizontal deflection coil 24a So that the sensitivity of the deflection coils can be improved by densifying the deflection coils in a space with less deflection energy.

In the present embodiment, the cathode ray tube is a beam-index cathode ray tube as described above, but the present invention is applicable not only to the cathode ray tube of this beam index type, but also to the inside of the panel, The present invention is applicable to a conventional cathode ray tube that mounts a mask and generates three electron beams corresponding to R, G, and B from an electron gun.                     

Also, the present invention is applicable to a so-called multi-neck cathode ray tube in which not only a cathode ray tube having one electron gun in one neck but also a corresponding electron gun is installed in a plurality of necks for shortening the length of the cathode ray tube .

In addition, although the present invention is applied to both the horizontal deflection coil and the vertical deflection coil in the present embodiment, the present invention may be applied to at least one deflection coil among the horizontal deflection coil and the vertical deflection coil.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that they belong to the scope of the present invention.

As described above, according to the present invention, the distribution of the section coils of the deflection coil disposed toward the funnel side of the cathode ray tube is controlled to improve the deflection efficiency with respect to the electron beam, thereby improving the quality of the cathode ray tube.

Furthermore, since the deflection coil is sectioned without disposing a separate member such as a slit for sectioning the deflection coil on the insulator of the deflection device, it is possible to prevent reduction in the heat radiation efficiency derived from the slits conventionally.

In addition, it is possible to reduce the manufacturing cost of the cathode ray tube as well as the deflection apparatus, and to provide the cathode ray tube manufacturing method to the consumer with advantages of manufacturing the slit on the insulator at the time of manufacturing the deflection apparatus.

Claims (9)

A horizontal deflection coil; A vertical deflection coil positioned outside the horizontal deflection coil; An insulator interposed between the horizontal deflection coil and the vertical deflection coil while having a sphere and an introduction hole arranged to face each other; And A core provided on the insulator and made of a magnetic material, Lt; / RTI > Wherein at least one deflection coil of the horizontal deflection coil and the vertical deflection coil includes a plurality of section coil parts arranged to be sectioned along the introduction hole in the generally spherical shape with an interval therebetween, The number of the section coil sections being larger than the number of the section sections arranged on the introduction hole side. The method according to claim 1, Wherein the portion of the section coils generally disposed on the sphere side is formed in a branched shape that is separated from one section coil portion on the side of the introduction hole. The method according to claim 1, Wherein one section coil portion disposed on the sphere side is connected to two or more section coil portions disposed on the side of the introduction opening. The method according to claim 1, Wherein the horizontal deflection coil and the vertical deflection coil are formed on the sphere side so that the section coil parts of the other side are arranged in a space between the respective section coil parts. A panel on which a fluorescent screen is formed; A funnel connected to the panel and having a deflection device for deflecting an electron beam mounted on an outer periphery thereof; And And an electron gun connected to the funnel for generating the electron beam, Lt; / RTI > Wherein the deflecting device comprises: A horizontal deflection coil; A vertical deflection coil positioned outside the horizontal deflection coil; An insulator interposed between the horizontal deflection coil and the vertical deflection coil while having an opening disposed generally in the funnel side and disposed on the neck side; And A core provided on the insulator and made of a magnetic material, Lt; / RTI > Wherein at least one of the horizontal deflection coil and the vertical deflection coil includes a plurality of section coil parts arranged in section along the introduction hole in the generally spherical shape with an interval therebetween, Wherein the number of the section coil sections arranged is larger than the number of the section sections disposed on the introduction hole side. 6. The method of claim 5, A plurality of index phosphors on which the cathode ray tube is formed; And a detector disposed on the funnel for detecting light emitted from the index phosphor. 6. The method of claim 5, Wherein the cathode ray tube generates one electron beam from the electron gun. 6. The method of claim 5, Wherein the portion of the section coils generally disposed on the sphere side is formed in a branched shape separated from a portion of one section coil at the introduction hole side. 6. The method of claim 5, Wherein one section coil portion disposed on the sphere side is connected to two or more section coil portions disposed on the introduction port side.

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