KR100246283B1 - A circular multi-layer separative windings deflection coil of crt and the method thereof and the apparatus therefor - Google Patents

Abstract

The present invention provides a circumferential multi-layer separation winding deflection coil of a cathode ray tube capable of moving a magnetic field center, and a winding method and apparatus thereof.

The deflection coil with the cathode line is constituted by a plurality of circumferential coil layers (H ₁₁ , H ₁₂ , H ₂₁ , H ₂₂ ) of at least two or more layers separated in the circumferential direction and each having a connection end drawn out, The coils of each layer may be wound with two to five strands of coils different from each other.

Accordingly, different currents can be applied to the respective circumferential coil layers, so that the center of the magnetic field can be easily moved. Therefore, even if the deflection coils that are unevenly wound can be easily controlled The convergence of the R, G, and B electron beams can be aligned, and productivity and quality can be improved.

Description

Circumferential multi-layer separating winding deflection coil of cathode-ray tube and its winding method and apparatus

The present invention relates to a circumferential multi-layered separator winding deflection coil and a winding method and apparatus for a cathode ray tube, and more particularly to a deflection coil for deflection of a cathode ray tube electron beam by a plurality of separated layers substantially parallel to a horizontal axis, And more particularly, to a circumferential multilayer separator winding deflection coil of a cathode ray tube which is capable of moving a magnetic field center of a deflection coil by applying a current different from each other.

1 shows a panel 12 having a fluorescent screen 20 formed on the back face of a face plate 18 and an electron gun 11 for forming electron beams 19a and 19b and emitting the electron beams 19a and 19b toward the screen 20 A color cathode ray tube 10 including a neck 14, a funnel 13 connecting the neck 14 and the panel 12, and a deflection yoke assembly 17 mounted on the neck- .

An internal conductive layer (not shown) is formed in the funnel 13 to be in contact with the cathode terminal 15. The shadow mask 16 in which a plurality of apertures or slits 16a are formed in a predetermined arrangement is detachably mounted on the panel 12 at a predetermined interval from the screen 20. [

The deflection yoke assembly 17 normally has a horizontal deflection coil and a vertical deflection coil. When the horizontal deflection current is applied, the horizontal deflection coil forms a horizontal deflection magnetic field to horizontally deflect a movement path of the electron beams 19a and 19b. On the other hand, when a vertical deflection current is applied, And forms a vertical deflection magnetic field so as to vertically deflect the movement of the electron beams 19a and 19b.

The electron beams 19a and 19b are scanned over the entire surface of the screen 22 by changing the deflection magnetic field by changing the current flowing through each deflection coil to form a two dimensional image on the cathode ray tube panel 12. [

The winding methods of the horizontal and vertical deflection coils are toroidal type winding method and saddle type winding method. A saddle-type coil is mainly used for the horizontal deflection coil, a saddle type coil is used for the vertical deflection coil, and a coil of the toroidal type is used.

FIG. 2 is a graph showing the distribution of a pair of cathode lines and saddle-shaped horizontal deflection coils H ₁ and H _{2. In} the graph, more coils are distributed on the X axis side and upper and lower coils H ₁ and H ₂ Are arranged close to each other to form a pincushion magnetic field as shown in the drawing. Conventionally, two to five coils are wound at once to change the current, but the magnetic field center does not change.

FIG. 3 is a graph showing the distribution of saddle-shaped vertical smoothing coils (V ₁ , V ₂ ) of a cathode ray tube. In the graph, coils V ₁ , V ₂ are distributed more distantly from the X- the above-described horizontal deflection coil (H _1, H ₂₎ is to form the barrel type magnetic field, such as that shown as being disposed far away from the Y-axis different from that of the above-described pincushion-shaped horizontal deflection coil (H _1, H ₂₎ and The electron beams of the inline type electron gun are easily converged. In this case, conventionally, even if two to five coils are wound all at once to change the current, the magnetic field center does not change.

FIG. 4 is a perspective view showing an example of a saddle type deflection coil of a conventional cathode ray tube having the above-described distribution and structure, in which the upper saddle type horizontal deflection coil 33 is wound as shown in FIG. 4, The coils 33a and 33b can flow currents in opposite directions to each other. Similarly, the lower saddle-shaped horizontal deflection coils can also allow current to flow in opposite directions to the left and right coils, When the horizontal deflection coil is vertically assembled, a current can flow in the left coil and the right coil in the reverse direction, and a predetermined deflection magnetic field can be obtained.

In FIG. 4, the saddle-shaped horizontal deflection coil 33 is formed by winding at least one strand of a coil in a continuous manner, and in addition to side windings 33a and 33b forming a horizontal deflection magnetic field, And has a front opening portion 33f and a rear opening portion 33e for predetermined convergence characteristics.

FIG. 5 shows a strategic arrangement of a winding apparatus for a saddle type deflection coil of a conventional cathode ray tube. A plurality of coils are drawn from a plurality of bobbins 39 and passed through the nozzle 35 through the guide rollers 36 and 38 and the tension roller 37 to supply the coil to a predetermined position. When the nozzle 35 moves left and right and up and down so that one end of the coil is fixed to the pin P at the time of winding the coil and the nozzle 35 moves to the coil feeding position, And the lower winding metal molds 31 and 32 rotate so that the coil is wound along the coil inlet 34 in the space of the predetermined shape between the both molds. When the winding is completed in this manner, the other end of the coil is cut by the connecting end forming means (not _shown ) so as to form predetermined first and second connecting ends C ₁ and C ₂ together with one end of the above- The bond layer being the outermost layer of the coil is melted and melted by the resistance heat by passing current through the coated first and second connection ends C ₁ and C ₂ to maintain the wound shape, Glued and cooled. After cooling down, the upper and lower winding metal molds 31 and 32 are disengaged to unload the wound deflection coil, thereby completing the fabrication of the deflection coil.

As shown in FIG. 4, in order to satisfy convergence, the horizontal deflection coil 30 having completed winding is required to have a complicated coil density along with the openings 33e and 33f and uniformity in FIG. 4, The deflection magnetic field becomes non-uniform due to non-uniformity of winding, misalignment of the winding, and the like, as well as the change of the tension at the time of winding according to the change of the shape of the winding metal mold, Resulting in various misconvergence.

6 and 7 are circuit diagrams showing, as an example, the parallel connection of the conventional horizontal deflection coils H ₁ and H ₂ and vertical deflection coils V ₁ and V ₂ , Although the variable balance coils B ₁ to B ₄ are provided for correcting the misconvergence, the movement of the magnetic field center G as shown in FIG. 4 with only the variable balance coils B ₁ to B ₄ And thus, the above-mentioned nonuniformity is complemented by the method of attaching the pieces separately, resulting in a great decrease in creativity and a decline in quality.

In order to solve the above-described problems, the present invention provides a method of manufacturing a cathode ray tube, comprising winding a deflection coil for deflecting an electron beam of a cathode ray tube into a plurality of separated circumferential layers, Which is capable of moving the magnetic field center of the deflection coil by applying different currents, and a method and an apparatus for winding the circumferential multilayer separator winding deflection coil of the cathode-ray tube.

FIG. 1 is a plan view of an axial partial sectional view showing a schematic structure of a color cathode ray tube. FIG.

FIG. 2 is a graph showing the distribution of the saddle type horizontal deflection coil of the cathode ray tube. FIG.

3 is a graph showing the distribution of the saddle-shaped vertical flat coil of the cathode-ray tube.

FIG. 4 is a perspective view showing an example of a saddle type deflection coil of a cathode ray tube. FIG.

FIG. 5 is a schematic view showing a configuration of a winding apparatus of a saddle type deflection coil of a conventional cathode ray tube. FIG.

FIG. 6 is a circuit diagram showing a parallel connection of a conventional horizontal deflection coil; FIG.

FIG. 7 is a circuit diagram showing a serial connection of a conventional vertical deflection coil; FIG.

FIG. 8 is a graph schematically showing the structure and distribution of a circumferential multi-layered separator winding deflection coil according to the present invention; FIG.

FIG. 9 is a schematic view showing a configuration of a winding apparatus for explaining a winding method according to the present invention; FIG.

FIG. 10 is a circuit diagram showing an example of wiring of a circumferential multi-layer separating winding deflection coil according to the present invention; FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

10: cathode ray tube 11: electron gun

12: Panel 13: Funnel

14: Neck 15: Bipolar terminal

16: shadow mask 17: deflection yoke assembly

18: face plate 19a, 19b: electron beam

20: Screen 30: Saddle type deflection coil

31: upper winding metal mold 32: lower winding metal mold (core)

32 ': Slider 32' ': reciprocating means

33: coupling portion 34: coil inlet

35: Nozzles 36, 38: Rollers

37: tension roller C ₁ to C ₆ : connecting end

B ₁ to B ₇ : balance coil H ₁ , H ₂ : horizontal deflection coil

H ₁₁ , H ₂₁ : first coil layer H ₁₂ , H ₂₂ : second coil layer

V ₁ , V ₂ : vertical deflection coil

According to an aspect of the present invention, there is provided a deflection coil of a cathode ray tube for deflecting an electron beam over a horizontal axis or a vertical axis of a screen, comprising: at least two deflection coils which are substantially parallel in the circumferential direction, The present invention provides a circumferential multilayer separator winding deflection coil of a cathode ray tube, which comprises a plurality of coil layers in the circumferential direction of the cathode ray tube.

The coils of the respective layers of the circumferential multilayer can be wound into two to five strands of coils different from each other and an adjustable current is applied to the connecting ends of the coils of the respective layers of the plurality of circumferential coil layers, The position of the magnetic field center of the winding deflection coil can be changed.

The present invention also provides a method for manufacturing a deflection coil of a cathode ray tube by drawing a coil from at least one bobbin around which a coil is wound and winding a coil in a winding space portion between upper and lower winding metal molds, A first connecting end fixing step of the first coil layer fixing the end portion of the coil to the fixing pin; A primary coil winding step of raising the slider of the lower winding metal mold to rotate the winding space portion to the first coil layer to wind the coil; Lowering the slider of the lower winding metal mold to secure a space of the second coil layer when the winding to the first coil layer of the primary coil is completed; A coil connecting part fixing step of pulling and fixing the winding end of the primary coil to the negative fixing pin of the winding metal mold; A primary coil winding step of winding the secondary coil by rotating the winding metal mold to a second coil layer of the winding space portion; After completion of the winding of the second coil layer, the coil end of the fixed coil and the connecting portion and the coil end of the second coil layer are cut and the coil covering layer of the cut portion is raised to form first and second connection ends ; And applying a predetermined current to each of the connection ends to fuse the bonding layer of the coil by resistance heat and to cool the coil so as to maintain the shape of the wound coil, A method of manufacturing a winding deflection coil is provided.

Further, the present invention is characterized in that a coil is drawn out from at least one bobbin around which a coil is wound, and an end portion of the drawn coil is fixed by a fixing means, and a coil is supplied to the winding space portion between the upper and lower winding metal molds, A deflection coil winding apparatus for a cathode ray tube which winds a coil by rotating a metal mold, the deflection coil winding apparatus comprising: at least two or more circumferential coil layers, A lower winding metal mold having a slider having an outer circumference capable of being raised and a center core forming a space portion of the two coil layers; A reciprocating means for raising and lowering the slider so as to form a space portion of the first coil layer when the slider is lifted and forming a space portion of the first and second coil layers when the slider descends, Coil drawing means for drawing out the coil to the outside when the first coil layer is wound by the coil; Coil fixing means for fixing the drawn coil; And connection end forming means for applying current to each of the coil layers for cutting out at least one of the portions of the drawn coil and removing the coating to form a connection end for connection of the deflection coil and solidify by resistance heat And a deflection coil winding device for a cathode ray tube.

Hereinafter, the embodiment (s) according to the present invention will be described with reference to the drawings.

In FIG. 8, the deflection coil according to the present invention comprises at least two layers of separated multiple coil layers H ₁₁ , H ₁₂ , H ₂₁ , and H ₂₂ separated substantially parallel in the circumferential direction and each having a connection end withdrawn .

The coils of the plurality of coil layers H ₁₁ , H ₁₂ , H ₂₁ , and H ₂₂ are wound in coils of two to five strands, and different coils may be wound.

FIG. 10 shows an example in which the coil layers H ₁₁ , H ₁₂ , H ₂₁ and H ₂₂ of the casting are applied to the circuit, and the variable balance coils B ₅ to B ₈ are connected to each other, It is possible to move the magnetic field center G to any position G 'on the XY plane in FIG. 8 by adjusting the inductance value by adjusting the cores of the balance coils B ₅ to B ₈ . In this way, and may use a variable resistor to the variable capacitor in addition to the variable balanced coil (B ₅ to B ₈₎ for moving the magnetic field center (G), it is also possible to apply an electric current controlled by a different method.

5 and FIG. 9, a description will be made of the production of a deflection coil according to an embodiment of the present invention and the apparatus for manufacturing the same, as follows.

Unlike the conventional winding apparatus shown in FIG. 5, the coil winding apparatus according to an embodiment of the present invention includes coil fixing means for fixing a coil drawn from each coil layer, that is, fixing pins P and P ') Are provided. Although not shown, a connecting end forming means or a coil supplying means (bobbin, guide roller, tension roller, nozzle, etc.) may also be provided for each of the pair of coil layers.

When the coil fixing means, the connection end forming means, and the coil supplying means are provided separately for each coil layer, it is possible to further customize each coil layer according to the configuration of the circuit.

The coil pulling means may be a movable nozzle 35 for pulling the coil from the bobbin and guiding the coil to the winding mold as in the prior art. The coil fixing means may also include a fixing pin P projecting outward from the winding metal mold, And the connection end forming means is formed by clamp heater means for cutting and gripping and heating the movable connection between the coil layers fixed by rotating the movable nozzle around the fixing pin (P) . It is preferable that the clamp heater means has a structure capable of applying a predetermined current to the connection end portion after formation of the connection end portion, and it is also possible to separately provide the power supply means.

Raising the slider (32 ') by the above-mentioned structure unit holding, as in the prior art in the first coil layer (H _11, H _21), winding and its back, fixed to the ends of the primary coil (h _1), the pin ( fixed to the side take-off P) and to lower the slider (32 ') causes rotation of the winding wound on the back molds 31 and 32, the second coil layer (H _12, H _22).

When the winding is completed in this manner, after the connection end is formed by the clamp heater means, a predetermined current is passed through each of the connection ends thereof to fuse the bond layer of the coil wound in a predetermined shape by the resistance heat, Air, water or the like to be solidified into the shape of the song. After solidifying in this manner, the manufacturing of the deflection coil according to the present invention is completed by separating the upper and lower winding metal molds and unloading the deflection coil.

8, the connecting ends of the primary and secondary coils h1 and h2 are pulled out in the circumferential multi-layer separating winding deflection coils of the cathode ray tube according to the present invention, a magnetic field oriented as shown by the variable balanced coil (B ₅ to B ₈₎ by adjusting the core to control the inductance it is possible to change the current in each of the primary and secondary coils (h1, h2) in the eighth diagram of ( G) can be moved to any position G 'on the XY plane.

According to the embodiments of the present invention as described above, the circumferential multi-layer separating winding deflection coil of the cathode ray tube and the winding method and apparatus thereof can apply a different current to each of the separated coil layers, So that the convergence of the R, G, and B electron beams can be easily adjusted even if the deflection coils are uniformly wound by adjusting the currents to the coil layers, thereby improving the productivity and the image quality. have.

Claims (8)

A deflection coil of a cathode ray tube for deflecting an electron beam over a horizontal axis or a vertical axis of a screen, characterized by comprising: a plurality of circumferential coil layers (H ₁₁ , H ₁₂ , H ₂₁ , and H ₂₂ ) in the circumferential direction of the cathode ray tube. The cathode ray tube according to claim 1, wherein the coils of the respective layers of the plurality of circumferential coil layers (H ₁₁ , H ₁₂ , H ₂₁ , and H ₂₂ ) are wound with two to five strands of coils different from each other Circumferential multi - layer separation winding deflection coil. 2. The method of claim 1, wherein an adjustable current is applied to the connection ends of the coils of each layer of the plurality of circumferential coil layers (H ₁₁ , H ₁₂ , H ₂₁ , H ₂₂ ) And the center position of the cathode-ray tube can be changed. A method of manufacturing a deflection coil of a cathode ray tube which draws a coil from at least one bobbin (39) wound with a coil and winds a coil in a winding space portion between upper and lower winding metal molds, the method comprising: Fixing the first coil layer to the fixing pin (P); Raising the slider 32 'of the lower winding metal mold 32 to form the winding space portion only of the space of the first coil layer; A primary coil winding step of winding the coil by rotating the winding metal mold on the first coil layer (H ₁₁ , H ₂₁ ) of the winding space portion; (Core) 32 in order to ensure the space of the second coil layers H ₁₂ and H ₂₂ when the winding of the primary coil to the first coil layers H ₁₁ and H ₂₁ is completed Lowering the slider 32 '; A step of fixing the coil connection part for fixing the winding end of the primary coil by the fixing pin P 'outside the winding metal mold; A primary coil winding step of winding the secondary coil by rotating the winding metal mold to a second coil layer (H ₁₂ , H ₂₂ ) of the winding space portion; After completion of the winding of the second coil layer, the coil end portions of the fixed coil and the connecting portion and the coil portions of the second coil layers H ₁₂ and H ₂₂ are cut and the coil covering layer of the cut portion is removed, 1 and a second connection end (C ₁ to C ₆ ); And applying a predetermined current to each of the connection ends (C ₁ to C ₆ ) to fuse the bonding layer of the coil by resistance heat and to cool the coil so as to maintain the shape of the coil wound. (Method for manufacturing a deflection coil in the circumferential direction of a tube). The cathode ray tube according to claim 4, wherein the first and second coil layers (H ₁₁ , H ₂₁ : H ₁₂ , H ₂₂ ) are supplied with coils by different sets of coil supply devices, (Method of manufacturing a circumferential multilayer separator winding deflection coil). A coil is drawn from at least one bobbin (39) wound with a coil to fix an end portion of the coil drawn by the fixing means (P), and a coil is supplied to the winding space portion between the upper and lower winding metal molds, A deflection coil winding apparatus for a cathode ray tube which winds a coil by rotating a metal mold, the deflection coil winding apparatus comprising: at least two or more circumferential coil layers, A slider 32 'that can be raised and lowered to form a space portion of the two coil layers and a lower winding metal core (core) 32 made of a core; A reciprocating means (32 ") for raising and lowering the slider (32 ') so as to form a space portion of the first coil layer when the slider is lifted and forming a space portion of the first and second coil layers when the slider descends; The first coil layer coil withdrawal means 35 for withdrawing a coil to the outside when a winding (H _11, H ₂₁₎ into a coil; Coil fixing means P " for fixing the drawn coil; And connection end forming means for cutting the portions of at least one of the drawn coils and removing the coating to form connection ends for connection of the deflection coils and applying current to each coil layer to solidify them by resistance heat Characterized in that the deflection coil winding device of the cathode ray tube. 7. The apparatus according to claim 6, wherein the coil drawing means (35) is a movable nozzle (35) for drawing the coil from the bobbin (39) and supplying it to the winding metal mold; The coil fixing means is a fixing pin (P ') protruding to the outside of the winding metal mold; The connection end forming means is a clamp heater means for cutting and gripping and heating the movable portion between the fixed coil layers by rotating the movable nozzle about the fixing pin; Characterized in that after the connection end is formed, the clamp heater means is energized with a predetermined current so that the bond layer of the coil is fused and cooled by the resistance string of the coil of each coil layer, thereby solidifying the shape of the coil wound by the cathode. Winding device. 7. A device according to claim 6, characterized in that the coil comprises at least one bobbin (39), a fixing means (P), a coil pull-out means (35) for fixing different coils for each coil layer, Wherein the coil fixing means P 'and the connecting end forming means are a pair of deflection coil winding devices.