KR20050081697A - Winding frame and method for winding coil using the same - Google Patents

Abstract

The present invention relates to a winding frame and a coil winding method using the same to improve the quality of the winding frame by improving the structure by removing the asymmetry caused by the handwork and improving the precision when the characteristics of the deflection yoke are improved. The winding frame is composed of a rotating plate member rotated by an external power source, a guide member assembled to the rotating plate member to guide the coil, and a winding member assembled to the guide member to wind the coil, The curved member includes a body portion divided into a plurality of sections, fastening means for firmly fixing the sections, and a coupling piece installed on at least one side of the body section.

Description

Winding frame and coil winding method using same {{WINDING FRAME AND METHOD FOR WINDING COIL USING THE SAME}

The present invention relates to a winding frame and a coil winding method using the same, and more particularly, to improve the structure of the winding frame to exclude the asymmetry caused by the hand when adjusting the characteristics of the deflection yoke and to improve the quality. The present invention relates to a winding frame and a coil winding method using the same.

In general, the deflection yoke is a device mounted on the rear of the cathode ray tube to generate a deflection magnetic field by applying a sawtooth pulse to deflect the electron beam, thereby accurately scanning the electron beam on each pixel of the screen.

The deflection yoke is one of the most important elements of the cathode ray tube magnetic device, and serves to deflect the electron beam emitted from the electron gun so that the 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 its traveling direction is changed.

The deflection yoke is made up of a pair of coil separators that are largely symmetrical and combined into one.

The coil separator is provided to insulate the horizontal deflection coil and the vertical deflection coil and to precisely assemble their positions. The coil separator is vertically deflected from the horizontal deflection field by a power source applied from the outside to the inner and outer circumferential surfaces of the coil separator. Horizontal deflection coils and vertical deflection coils for forming magnetic fields are provided, respectively.

In addition, a pair of ferrite cores are mounted to surround the vertical deflection coil and formed of a magnetic material to reinforce the vertical deflection magnetic field generated in the vertical deflection coil.

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

On the other hand, one of the most important elements in such a deflection yoke is to wind the horizontal deflection coil in a uniform distribution to the left and right.

The horizontal deflection coil uses a saddle type, that is, a saddle type coil, depending on the winding structure of the coil. The mold installed in the winding machine for winding the saddle-shaped coil is called a winding, that is, a winding frame, and the winding is largely wound while the winding surface and the coil having the same curved surface as the shape of the coil in which the winding is completed are wound. Consists of a guide surface. The shape and structure of the winding are directly related to the winding accuracy of the coil and are the main factors that determine the characteristics of the screen.

When the winding machine is operated by forming a guide surface on the left and right sides of the winding surface, the winding is rotated together with the operation of the winding machine, and the coil wound on the bobbin wound around the coil is released and introduced into the winding machine.

The coil introduced into the winding machine is sequentially wound on the winding surface of the winding, which is rotated while flowing along the guide surface of the winding by the rotation of the winding.

At this time, the coil comes out from the winding surface to adjust the inner shape of the coil during winding. The coil is wound from the inner pin by the position of the pin during the winding. This is done.

As shown in FIG. 1, the general deflection coil winding machine 200 draws a coil wound around a coil bobbin (not shown) and wound winding 210 and a dark winding 240 to form a saddle-shaped deflection coil. The male winding 210 is composed of a male disc member 220 which is rotated by an external power source, and a male saddle 230 which is assembled to the male disc member 220. The winding 240 is composed of an arm disc member 241 rotated by an external power source, and a arm winding saddle 242 assembled to the arm disc member 241.

At this time, the male winding 210 and the female winding 240 are rotated clockwise and counterclockwise by an external power source to wind the coil supplied through the coil bobbin into a saddle shape to form a desired deflection coil. Will be.

On the other hand, the male winding 210 is described in more detail with reference to FIG.

FIG. 2 is an exploded perspective view illustrating a male coil structure of a deflection coil winding machine according to the prior art. As illustrated therein, the male coil 210 structure of the deflection coil winding machine 200 according to the prior art is connected to an external power source. It consists of a male disc member 220 that is rotated by, and a male saddle 230 that is assembled to the male disc member 220. The male saddle 230 is assembled to the male disc member 220. It is composed of a guide member 231 of the dog and the curved member 232 is assembled between the guide member 231 is fitted and coupled to the female winding saddle 242.

On the other hand, the curved member 232 is a body portion having a plurality of coupling rods (232a) to be fit and coupled to the female winding saddle 242, and a coupling groove (232c) for embedding the coupling rod (232a) ( 232b).

The body portion 232b is provided with a winding surface having the same curved surface as the shape of the coil.

When the saddle coil is wound around this winding type, when a current having a very high value is applied to the saddle coil, the saddle coil generates heat by the applied high current. Since each coil is fusion bonded, it has the form of a fixed saddle-shaped coil.

However, in the conventional winding type of the winding machine, the body part 232b, which determines the quality of the product, is integrally formed, and the welding and polishing processes are repeated on the body part 232b when adjusting the characteristics of the deflection yoke. Since it was necessary to adjust the characteristics of the deflection yoke, there was a problem that the asymmetry caused by the process occurs in this process.

Therefore, the accuracy of the coil is lowered, which is a problem of lowering the quality of the deflection yoke, and it is difficult to return to the original state, which causes a failure to secure smooth quality characteristics.

Accordingly, the present inventors have come up with the present invention to improve the quality characteristics by allowing the machining process in a short time without going through the process.

The present invention has been made to solve the above problems, a winding frame that can prevent asymmetric components from occurring during adjustment of the winding distribution, to ensure a smooth quality characteristics due to the degree of freedom and the coil winding method using the same The purpose is to provide.

The above object of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

An object of the present invention as described above is a curved member having a rotating plate member rotated by an external power source, a guide member assembled to the rotating plate member to guide the coil, and a winding surface assembled to the guide member to wind the coil. The curved member comprises a body part divided into a plurality of segments, a fixing means for firmly fixing the fragments, and a coupling frame installed on at least one side of the body portion. Is achieved by providing

Here, the segments are formed by dividing in the vertical direction at the winding surface on which the coil is wound.

 In addition, the fixing means is composed of a through hole formed to penetrate through the sections, and a coupling member coupled to the through hole to fix the sections, wherein the coupling member is a bolt and a nut.

The through-holes are formed on both sides of the body portion, it may be of a long hole having a predetermined length in the vertical direction.

In addition, the coupling piece is formed with an insertion groove so that the end of the body portion is inserted by a predetermined depth.

In addition, the coil winding method for achieving the object of the present invention as described above, the curved surface member having a winding surface for winding the coil is divided into a plurality of pieces, and is provided with fixing means for firmly fixing the pieces, When adjusting the characteristics of the deflection yoke, the respective pieces are machined, and the processed pieces are fixed with the fixing means, and then the coil is wound.

Hereinafter, a winding frame of the present invention and a coil winding method using the same will be described in detail with reference to the accompanying drawings.

The winding coil, which winds the coil wound around the coil bobbin (not shown) in the deflection coil winding machine and winds it into a saddle-shaped deflection coil, that is, a winding frame, is clockwise and counterclockwise by an external power source. By rotating and winding the coil supplied through the coil bobbin in a roughly saddle shape to form a desired deflection coil, the winding frame according to the present invention, as shown in Figure 3, the rotating plate member is rotated by an external power source ( 120, a guide member 121 assembled to the rotating plate member 120 to guide a coil (not shown), and a curved member having a winding surface assembled to the guide member 121 to wind a coil ( 130).

The rotating plate member 120 is usually manufactured in a disc shape, and the guide member 121 is assembled to one surface of the rotating plate member 120 in two sets, and the curved member 130 is disposed between the guide members 121. ) Is assembled.

The curved member 130 is coupled to fit to the other side of the winding, attached Figure 4 is a perspective view showing an embodiment of the curved member 130 according to the present invention.

As shown in this, the curved member 130 according to the present invention is provided with a body portion 131 is formed with a winding surface having the same curved surface as the shape of the coil, in the present invention, the body portion 131 is divided into predetermined intervals It is characterized by consisting of a plurality of pieces (131a).

That is, while the conventional body portion 232b is configured in one piece, the body portion 131 of the present invention is divided into predetermined intervals and is composed of a plurality of fragments 131a.

The fragments 131a are formed by dividing in a vertical direction from a winding surface on which coils are wound. In this case, the body portions 131 are preferably divided at regular intervals so that each of the fragments 131a has a constant thickness.

In addition, the section 131a is symmetrically formed with respect to the center of the body portion 131 so that the asymmetry can be excluded when adjusting the characteristics of the deflection yoke.

On the other hand, the curved member 130 of the present invention is provided with a fixing means for firmly fixing the section (131a), in the embodiment of the present invention as the fixing means penetrating formed through the section (131a) And a coupling member coupled to the hole 132 and the through hole 132 to fix the fragments 131a.

Here, the coupling member is firmly fixed to be inserted into the through-hole 132 so as not to leave the combined state (131a), a variety of applications can be applied in various ways, but Figure 4 As seen from, it consists of a bolt 140 and a nut 141.

As described above, the coupling member composed of the bolt 140 and the nut 141 may fasten the bolt 140 to the through hole 132 and then tighten the nut 141 to fix the segment 131a. The fixed state is very solid.

On the other hand, the through hole 132 is preferably formed on both sides of the body portion 131 so as to firmly fix the section (131a).

In addition, the coupling piece 133 is provided at one side of the body 131.

The coupling piece 133 is formed separately from the body portion 131, so that the curved member 130 can be coupled to the guide member 121 in contact with the guide member 121.

As shown in FIG. 5, the coupling piece 133 has an insertion groove 133a formed on one surface of the coupling piece 133 that contacts the piece 131a such that an end portion of the piece 131a is inserted by a predetermined depth.

Accordingly, the curved member 130 may be more firmly coupled to the body portion 131 and the coupling piece 133 because the pieces 131a are inserted into the insertion groove 133a.

Here, in one embodiment of the present invention, the coupling piece 133 is provided only on one side of the body part 131, but the present invention is not limited thereto, and the coupling piece 133 may be formed on the body part 131. It may be provided on both sides.

Referring to the method of winding the coil using the winding frame of the present invention as follows.

First, when the winding machine is operated, the winding is rotated together with the operation of the winding machine, and the coil wound on the bobbin wound around the coil is released and introduced into the winding machine.

The coil introduced into the winding machine is sequentially wound on the winding surface of the winding that is rotated while flowing along the guide surface of the winding guide member 121 by the rotation of the winding.

At this time, in order to adjust the inner shape of the coil during winding, the pin comes out from the winding surface, and when all the outermost pins are wound out, the winding is terminated and the deflection coil is completed.

At this time, if it is necessary to adjust the characteristics of the deflection yoke during winding of the coil, as shown in Figure 6, after loosening the bolt 140 and the nut 141, the required section 131a is drawn out and machined.

Therefore, the winding frame of the present invention does not need to be manually welded or polished, and can easily modify the curved surface of the body portion 131.

In addition, in the winding frame of the present invention, since the section 131a has a predetermined thickness and is symmetrically formed, the winding frame is adjusted in the related art by drawing out and modifying the section 131a which is symmetrical when correcting a required curved surface. Eliminates the problem of asymmetrical components in time.

After that, the machined piece 131a is inserted into the coupling piece 133, and the coil 140 is wound after fixing the bolt 140 and the nut 141.

After winding the saddle coil in this way, if a current having a very high value is applied to the saddle coil, the saddle coil generates heat by the applied high current, and each coil of the saddle coil is generated by the generated heat. Since is fusion bonded, it has the form of a fixed saddle coil.

As seen from the above, the winding frame of the present invention is able to improve the basic quality of the deflection yoke by removing the asymmetry and improving the precision by extracting and machining the section 131a of each part at a predetermined curved surface. .

On the other hand, Figure 7 is a perspective view showing another embodiment of the present invention, the same reference numerals are given to the same parts as the winding frame of one embodiment, and description thereof will be omitted.

The curved member of another embodiment of the present invention is a body portion 131 divided into a plurality of sections 131a, fastening means for firmly fixing the sections 131a, and at least one side of the body section 131. It is configured to include a coupling piece 133 is installed in the through-hole 150 is formed through the section 131a by the fixing means, and coupled to the through-hole 150 to the section (131a) It is composed of a bolt 140, a nut 141 to be fixed.

The through hole 150 has the same diameter as the diameter of the bolt 140, and has a long hole shape having a predetermined length in the vertical direction.

In addition, the coupling piece 133 has not only an insertion groove formed on one surface thereof, but also an upper surface of the body portion 131 so that a predetermined space is formed between the upper surface of the body portion 131 and the coupling piece 133. And the engaging piece 133 is formed to be slightly spaced apart so as not to contact.

In the curved member having the above configuration, since the through hole 150 has a long hole shape, the curved surface can be corrected by moving the pieces 131a upward and downward by a predetermined height when adjusting the characteristics of the deflection yoke.

On the other hand, the present invention is not limited to the shape of the through hole, it is also possible to form the through hole in the longitudinal direction of the body portion.

The horizontally formed through-holes can withdraw the sections without loosening the bolts, so that the curved surfaces can be easily modified by drawing out the sections and machining the deflecting yokes.

The description above is directed to specific embodiments and, of course, the technical spirit of the present invention is not limited thereto, and unless the invention essentially changes the spirit of the present invention as defined in the claims, the preferred embodiments of the present invention described It will be apparent to those skilled in the art that various changes in embodiments can be made.

As seen above, the winding frame of the present invention is composed of a plurality of sections of the body portion, by removing the section of the body portion during the adjustment of the characteristics of the deflection yoke to prevent the occurrence of asymmetrical components in the adjustment of the winding distribution As a result, it can be processed in a short time, which shortens the development period.

In addition, there is an effect that can improve the precision of the coil to improve the quality of the deflection yoke.

In addition, since it is possible to return to the original state, there is an effect that can ensure a smooth quality characteristics by ensuring freedom.

1 is a perspective view schematically showing a deflection coil winding machine according to the prior art,

Figure 2 is an exploded perspective view showing a male winding structure of a deflection coil winding machine according to the prior art,

3 is a perspective view showing an embodiment of a winding frame of the present invention,

4 is a perspective view showing an embodiment of a curved member according to the present invention;

5 is a cross-sectional view taken along the line A-A in FIG.

6 is a perspective view showing a state of use of the curved member of the present invention,

7 is a perspective view showing another embodiment of the curved member of the present invention.

♣ Explanation of symbols for main part of drawing ♣

120: rotating plate member 121: guide member

130: curved member 131: body portion

131a: intercept 132: through hole

133: coupling piece 133a: insertion groove

140: bolt 141: nut

Claims (8)

A rotating plate member rotated by an external power source; A guide member assembled to the rotating plate member to guide the coil; It is composed of a curved member having a winding surface for winding the coil is assembled to the guide member, The curved member has a body portion divided into a plurality of segments; Fastening means for firmly fixing the fragments; Winding frame, characterized in that it comprises a coupling piece installed on at least one side of the body portion. The method of claim 1, The sections are winding frames, characterized in that formed by dividing in the vertical direction in the winding surface of the coil winding. The method of claim 1, The fixing means has a through hole formed through the fragments; Winding frame, characterized in that consisting of a coupling member coupled to the through-hole fixing the fragments. The method of claim 3, The coupling member is a winding frame, characterized in that the bolt and nut. The method of claim 3, The through-holes are formed on both sides of the body portion winding frame. The method according to claim 3 or 5, The through-hole is a winding frame, characterized in that the long hole having a predetermined length in the vertical direction. The method of claim 1, The coupling piece is a winding frame, characterized in that the insertion groove is formed so that the end of the body portion is inserted by a predetermined depth. A curved member having a winding surface for winding a coil is divided into a plurality of sections, and a fixing means for firmly fixing the sections is provided. The sections are machined and machined when the characteristics of the deflection yoke are adjusted. Coil winding method characterized in that the winding the coil after fixing them with the fixing means.