KR20000074644A - A coil winding apparatus of deflection yoke - Google Patents

Abstract

PURPOSE: A coil winding device of a deflection yoke is provided to simultaneously perform winding, molding and bleeding on a turn table rotating at regular period by three deflection yoke blocks. CONSTITUTION: A coil winding device of a deflection yoke comprises; a turn table(100) rotatable by an actuating device; three deflection yoke fixing blocks(200) fixed on the upper portion of the turn table(100) at equal intervals, concluded with a pair of deflection yokes in one surface of the exterior side thereof and mounted with a wire clamping device and a cutting device in the lower portion thereof; a winding part comprising a wire feeding device for winding the wire on the deflection yoke and facing the one surface of the exterior side having the deflection yoke of the first deflection yoke fixing block(200), and a clamp actuating device for actuating the wire clamping device; a molding part comprising a heating device for heating by providing a power supply to the wound coil through the wire clamping device and located at the lower portion of the second deflection yoke fixing block(200), and a cooling device for cooling the heated coil; and a bleed part comprising a demolding device for demolding the deflection yoke from the third deflection yoke fixing block(200) and facing the exterior side having the deflection yoke of the third deflection yoke fixing block(200), and a bleeding device for bleeding the coil from the demolded deflection yoke.

Description

A coil winding apparatus of deflection yoke

The present invention relates to a coil winding device of a deflection yoke for producing a deflection yoke coil while simultaneously winding and forming and taking out a winding in a turntable rotating at a constant cycle.

In general, the coil winding device of the deflection yoke refers to a device for forming a horizontal deflection coil and a vertical deflection coil applied to the deflection yoke.

Usually, the deflection yoke provided in the net portion of the cathode ray tube is provided with a horizontal deflection coil on the inner circumferential surface of the cylindrical coil separator, and a vertical deflection coil is disposed on the outer circumferential surface.

In addition, in order to reinforce the magnetic field of the vertical deflection coil, a cylindrical ferrite core is covered on the outer circumferential surface of the coil separator.

Such a deflection yoke deflects the electron beam emitted from the electron gun of the cathode ray tube in the left, right, up and down directions to impinge on the fluorescent surface of the cathode ray tube, thereby displaying a necessary image.

On the other hand, a device for winding the horizontal deflection coil and the vertical deflection coil formed in the deflection yoke is called a winding device, and this winding device is mostly configured to have the same configuration as in FIG. 1.

That is, the rotating shaft 1 is provided to correspond to each other, and the pair of the windings 2 are fixedly mounted to the ends of the rotating shafts 1 facing each other, respectively, and the pre-supply portion in the direction perpendicular to the pair of the windings 2. (3) and the tension part 4 to be provided side by side.

In the tension part 4, the wire to be wound is guided, and the wire guided to the tension part 4 causes the tip of the wire to be fed between the pair of windings 2 in the line supply part 3.

At this time, in order to allow the wire to be wound on the winding (2) to rotate the rotating shaft (1) on both sides, the wire fixed to the end of the winding (2) is necessary by the rotation of the rotating shaft (1) and the winding (2) The coil is formed by winding the coil in the winding as much as the number of windings.

On the other hand, the coil wound on the winding 2 is supplied with power so that the coils are firmly coupled to each other by fusion of the coils wound around the coil, and after cooling again, the coils are taken out from the winding 2, Will be produced.

However, in the winding device as in the past, a process for manufacturing a coil, that is, winding, molding, and taking out is continuously performed in one device, so it takes a long time to manufacture the coil through all of these processes, and therefore, mass production In order to provide a plurality of the above-described winding device for this, there is a disadvantage that is very uneconomical and low productivity, thereby causing a serious problem that the cost is increased to manufacture the coil.

The present invention is to compensate for the above problems, the winding of the coil by the three winding blocks provided at an equilibrium in the turntable is rotatably provided, and the coil winding and forming and take out simultaneously, so that the productivity is faster It is a primary object of the present invention to provide a coil winding of a deflection yoke that is intended to be enlarged.

In addition, the winding of the coil, and forming and taking out of the extraction is performed completely automatically, so that the coil manufacturing cost can be drastically reduced.

1 is a schematic diagram showing a conventional coil winding apparatus,

2 is a plan view of a turntable according to the present invention;

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a schematic side view of a winding support block according to the present invention;

5 is an enlarged view of a main portion showing an example of cutting means;

Figure 6 is a side cross-sectional view showing a winding portion of the present invention,

7 is a front view showing a molding portion of the present invention,

8 is a side view showing a take-out part of the present invention;

9 is a plan view showing the demolding means of FIG.

10 is a plan view showing the operating state of the take-out part of the present invention.

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

100: turntable 110: motor

200: winding support block # 300: wire supply means

400: clamp driving means 500: molding part

600: ejection unit 610: demolding means

620: means of extraction

The present invention is a turntable rotatably provided by a drive means for achieving the above object;

Three winding support blocks fixed to the top of the turntable at equal intervals, each of which has a pair of windings fastened to an outer surface thereof, and on which a wire clamping means and a cutting means are mounted;

A winding part including a wire supply means for winding a wire in the winding and a clamp driving means for driving the wire clamping means, the windings of the first winding support block being opposed to each other;

A molding part provided at the bottom of the second winding support block and including heating means for heating by supplying power to the coil wound through the wire clamping means and cooling means for cooling the heated coil;

It is characterized in that it is provided as a take-out part which is provided so as to face from the outer side to which the winding of a 3rd winding support block is fastened, and which consists of demolding means for demolding a winding from a 3rd winding support block, and taking-out means for taking out a coil from the demolded winding.

This will be described in more detail with reference to the accompanying drawings.

Figure 2 is a plan view showing a turntable of the present invention, the turntable 100 is a circular plate provided to be rotatable by the drive means.

That is, as shown in FIG. 3, the turntable 100 may be rotated between the turntable 100 and the motor 110 by using a power transmission means 120 such as a gear or a belt by driving the motor 110. At this time, the rotation angle of the turntable 100, which is rotated every time by the motor 110, is 120 °.

As described above, the turntable 100 has three wound support blocks 200 mounted on the outer periphery at equal intervals as shown in FIG. 2.

As shown in FIG. 3, the pair of windings 210 are fastened to one side of the winding support block 200, and one of the windings 211 is fastened to the main body 220 of the winding support block 200. The other winding 212 is inserted into the winding 211 and fixed to the shaft 230 to prevent it from being separated.

The winding 212 fixed to the shaft 230 is supported by the bracket 231 fastened to the end of the shaft 230, as shown in the drawing, and pinned back to the center pin 232, thereby maintaining the shaft ( 230 to prevent departure.

In addition, the bottom of the wound support block 200 is provided with a wire clamping means 240 and a cutting means 250 for holding the front end and the end of the wire as shown in FIG.

That is, the wire clamping means 240 is composed of two clampers 241 and 242 which hold the front end and the end of the coil wound around the winding 210, respectively, and the slide lever 243 to the clamper 241 and 242. ) Are integrally extended downwards so that the wire bites or bites are released by an operation of selectively moving the slide lever 243 forward and backward.

Cutting means 250 is simultaneously provided in the clamper 242 for holding the end of the wire as shown in Figure 5 to perform the function of clamping the wire and breaking the wire at the same time.

In addition, the winding part includes a wire supply means 300 and a clamp driving means 400. The wire supply means 300 includes a winding 210 of the first winding support block 200, as shown in FIG. 6. It is a configuration provided to face each other with the outer surface of one side.

The wire supply means 300 is provided with a cylindrical cam 310 formed with a cam groove 311 of the waveform on the outer circumferential surface, so that a passage 321 through which the wire 360 passes is formed at the center of the cylindrical cam 310. One rotation shaft 320 is rotatably inserted, one end of the rotation shaft 320 is fastened to the ply 330 in the radial direction of the shaft, the end of the ply 330 is fastened to the holder 331, holder 331 At the end of the ply 330 corresponding to the balance weight 332 is formed.

In addition, the long axis cam rod 340 is inserted into the holder 331 to be slidably movable in parallel with the rotation shaft 320, but one end of the cam rod 340 is inserted into the cam groove 311 of the cylindrical cam 310. Advancing along the cam groove 311, the other end of the cam rod 340 is configured to fasten the guider 350.

In this case, the wire 360 inserted through the passage 321 of the rotating shaft 320 is coupled to the rotating shaft 320 of the ply 330 and guides such as rollers provided at the holders 331 and the guider 350, respectively. Withdrawn by means 361.

The wire 360 drawn out from the wire supply means 300 is connected to the clamp driving means 400 via the winding 210.

The clamp driving means 400 is further divided into a first cylinder 410, a second cylinder 420, and a third cylinder 430, and the first cylinder 410 is a wire drawn out from the wire supply means 300. The tip of the wire 360 is configured to hold the tip of the wire 360 at a predetermined position so that the tip of the 360 can be easily gripped by the clamper 241.

In addition, the second cylinder 420 selectively contacts the clampers 241 and 242 by allowing the rod ends to be pulled out and selectively contact the ends of the slide levers 243 extending from the pair of clampers 241 and 242, respectively. The third cylinder 430 serves to advance and retract the second cylinder 410 selectively connected to the slide lever 243 of the clampers 241 and 242.

As shown in FIG. 7, the molding part 500 provided as the bottom of the second winding support block 200 includes a heating means 510 for heating a coil wound on the winding 210 and a coil fused by heating. As a configuration consisting of cooling means 520 to cool, the heating means 510 is a slide lever 243 so as to extend downward from the pair of clampers 241 and 242 provided at the bottom of the second winding support block 200, respectively. ) And a power supply 512 for energizing power through the terminal, and the cooling means 520 is directed toward the winding 210 of the second winding support block 200. The nozzle 521 is provided at a position facing the two winding support blocks 200, and the cold air supply device 522 is configured to supply cold gas through the nozzle 521. Cooling the welded coil while ejecting to the coil in 210 .

In this case, the heating means 510 transmits a high pressure power to the coil through the slide lever 243 and the respective clampers 241 and 242 to melt the coating portion of the coil to be coupled between the coils.

The take-out part 600 is provided on the outside facing the winding 210 of the third winding support block 200, and is largely divided into a demolding means 610 and a taking-out means 620.

The demolding means 610 is a configuration in which the coil 212, which is formed inside the coil 210 formed on the shaping part 500, is drawn out from the shaft 230, in particular, on the inner side of the coil 210, which is shown in FIGS. 8 and 9. As shown, the demounting means 610 is a guide plate 611 supporting the bottom of the winding 211 in a direction facing the winding support block 200 and jaws for holding the outer circumferential surface of the winding 211 to the top thereof. A fourth cylinder 613 having a single body 612 is provided, and the fourth cylinder 613 together with the guide plate 611 is configured to be advanced back and forth by the transfer cylinder 614 at the rear thereof.

And the shaft 230 of the winding support block 200 by the chuck 616 is provided to the bottom of the guide plate 611 so that the fifth cylinder 615 is mounted to penetrate the guide plate 611 to be moved up and down. The bracket 231 and the center pin 232 fastened to the) to be separated from the shaft 230.

Meanwhile, like the guide plate 611 and the fourth cylinder 613, the fifth cylinder 615 is also advanced back and forth by the transfer cylinder 614.

In addition, the take-out means 620 is provided between the third winding support block 200 and the demolding means 610, as shown in Figure 8 is a coil formed from the winding 212 demolded by the demolding means 610 It is a configuration to separate the bay to be transferred to the next process.

That is, the cylinder 623 is attached to the rotating plate 622 which is rotatable about the main shaft 621 of the bottom and is spaced forward and backward to be spaced apart from each other by a predetermined height so as to be attached between the cylinders 623. The grippers 624 are mounted on the drawn rod ends facing each other, and thus the distance between the upper and lower grippers 624 is narrowed by the driving of the cylinder 623, and is already removed by the demolding means 610. It is a configuration that can be drawn out by holding only the coil wound on the outer circumferential surface of the winding 212 is firmly fixed.

Meanwhile, in the present invention, as shown in FIGS. 2 and 3, the fixed shaft 700 is provided to penetrate the center of the turntable 100 to protrude upward of the turntable 100, and Two cylinders 710 and 720 respectively supporting the second winding support block and the third winding support block from the rear side are fixed in turn at the top.

Such cylinders 710 and 720 respectively pressurize the adjust bolt 221 of the second winding support block or press the upper block connected to the adjust bolt 221 of the third winding support block. Do it.

In addition, three inner cylinders of the turntable 100 have three cylinder stoppers 130 between the wound support blocks 200 to firmly support the rear ends of the cylinders 710 and 720 for pressing and supporting the wound support blocks 200. Make sure to equip each side at equal intervals.

At the same time, the outer periphery of the turntable 100 forms a positioning hole 140 at an angle of 120 °, and a positioning cylinder 800 is mounted directly under the turntable 100 so that the turntable 100 is connected to the motor 110. ) Rotate only by an angle of exactly 120 ° when rotating by driving.

Hereinafter will be described the operational relationship of the present invention according to the above configuration.

As described above, the turntable 100 in the present invention is rotated by a predetermined angle by the motor 110, the rotation angle of which is the position angle between the winding support blocks 200 mounted on the turntable 100 is 120 °.

That is, the winding support blocks 200 mounted at equal intervals on the turntable 100 are each provided with a pair of windings 210 formed on the outer side, and the same winding support is always supported even when the tentable 100 is rotated by an angle. Block 200 is a configuration that is in place.

Since the wire is not connected to the first winding support side 200 once at the time of initial driving, the winding 210 is drawn out from the wire supply means 300 by an operator to be coupled to the first winding support block 200. The wire is pulled out by the first cylinder 410 of the clamp driving means 400 so that the wire end can be bitten by the clamp integrally formed with the rod end.

In this state, when the device is driven, the second cylinder 420 and the third cylinder 430 of the clamp driving means 400 interlock with each other and one clamper 241 of the pair of clampers 241 and 242. While the operation is to bite the front end of the wire 360 was bitten by the first cylinder 410 again.

Once the front end of the wire 360 to the clamper 241 of one side, the rotary shaft 320 of the wire supply means 300 is rotated while the ply 330 is eccentrically rotated, at this time from the wire supply means 300 As the wire 360 is continuously drawn out, the wire 360 is wound around the winding 210.

Immediately after the wire 360 is wound by the required number of turns, the wire supply means 300 stops driving once. At this time, the clamper 242 other than the clamper 241 biting the front end of the wire 360 is second. While operating by the three cylinders 420 and 430, the wire 360 is pulled out from the guider 350 of the wire supply means 300, and at the same time, the first cylinder 410 is interlocked with the guider 350. The wire 360 will bite.

As such, the wire 360 that is simultaneously bitten by the clamper 242 and the first cylinder 410 is cut by the driving of the cutting means 250 integrally provided in the clamper 242, and then a pair of wires 360 are cut. By the clampers 241 and 242, the front end and the end of the coil wound around the winding 210 are bitten, and the first cylinder 410 of the wire 360 is supplied from the wire supply means 300. The tip is being bitten.

On the other hand, in the wire supply means 300, one end of the cam rod 340 fitted to the holder 331 of the end of the ply 330 is inserted into the cam groove 311 of the cylindrical cam 310 so that the cam groove when the ply 330 is rotated ( Sliding along the 311 flows back and forth, and thus, the wire 360 drawn through the guider 350 provided at the other end of the cam rod 340 also has a pair of windings 211 as the cam rod 340 moves. Winding between 212.

The wire 360 is wound by the required number of turns, and once the wire 360 is cut by the cutting means 250, the coil winding operation is finished.

In this state, when the turntable 100 rotates 120 °, the winding support block 200 equipped with the coil 210 wound around the coil moves to the position of the second winding support block, and the second winding support block is moved to the third position. Moving to the position of the winding support block, the third winding support block is moved to the position of the first winding support block.

When the winding support block 200 moves in order to be in position, the winding unit winds a coil between the pair of windings 211 and 212 as described above, and the winding support block 200 moved from the winding unit. In the molding to be formed by fusion and cooling between the wound coils.

That is, the winding support block 200 which is moved from the winding part has an end portion of the slide lever 243 which extends downward from the two clampers 241 and 242 respectively holding the both ends of the wire 360 in the forming part. By being connected to the terminal 511 of the power supply 512, the power supplied from the power supply 512 is transmitted to the slide lever 243 through the terminal 511.

When a high-voltage current flows in the state where the terminal 511 is connected, power is supplied to the coil in the winding 240 through the slide lever 243 and the two clampers 241 and 242, thereby melting the coating on the coil. When the coating is melted, the coils are fused to each other while being bonded to each other.

After supplying power for a predetermined time to fusion between the coating of the coil is cut off the power, and from this time the cold air is ejected from the cooling means 520, the nozzle is formed toward the winding to cool the fused coil.

As such, after the wire winding and the coil molding are performed in the winding part 400 and the molding part 500, the turntable 100 is rotated 120 ° again to turn the winding support block 200 in the molding part into the outlet part 600. To be moved, and the wound support block 200 in the winding part 400 is moved to the forming part 500 while the wound support block 200 in the takeout part 600 is moved to the winding part 400. .

At this time, the coil of the winding support block 200 which has been moved from the winding part 400 to the forming part 500 is formed by the heating means 510 and the cooling means 520 as described above, and the takeout part. A wire 360 is wound around the winding 210 of the winding support block 200 that has been moved from the winding portion 400 to the winding portion 400, and the winding that has been moved from the forming portion 500 to the takeout portion 600. From the support block 200 to perform the demolding of the winding 210 and the extraction process of the coil.

That is, in the winding support block 200 which has been transferred to the take-out part 600, the bottom of the winding 212 in which the guide plate 611 is supported on the shaft 230 by driving the conveying cylinder 614 of the demolding means 610. When the fourth cylinder 613 is driven, the jaw 612 grips the outer circumferential surface on which the coil of the winding 212 is wound.

When the chuck 616 separates the bracket 231 and the center pin 232 fastened to the front end of the shaft 230 by the driving of the fifth cylinder 615, the jaw 612 when the transfer cylinder 614 is reversed. The winding 212 caught on the shaft can be released from the shaft 230.

As described above, when the winding 212 is demolded by the deforming means 610, the coil wound on the winding 212 together with the winding 212 is demolded at the same time, and the extraction means 620 is removed from the wound 212. Drive to separate the coil.

That is, once demolding the winding 212 from the winding support block 200 by the demolding means 610, the take-out means 620 provided between the winding supporting block 200 and the demolding means 610 is operated. The operation of the take-out means 620 is first gliders 624 of the upper and lower cylinders 623 provided on the rotating plate 622 by sliding the rotating plate 622 from the main shaft 621 to an appropriate position and then rotating. ) Are positioned at the top and bottom of the winding 212 already demolded by the demolding means 610.

When the upper and lower cylinders 623 are driven in such a state, the gap between the upper and lower grippers 624 attached to the front end of each cylinder 623 is narrowed, and the winding 212 is formed by the grippers 624. The coil portion of the is pressed.

Therefore, the winding 212 is fixed by the jaws 612 of the demolding means 610, and the coil wound around the outer circumferential surface of the winding 212 is pressed and fixed by the gripper 624 of the takeout means 620. 9 and 10, when the rotating plate 622 of the take-out means 620 having the coil fixed as shown in FIGS. 9 and 10 is slid in front of the main shaft 621, that is, in the direction of the winding support block 200, the winding 212. Only the coil is separated from the coil, and the coil thus separated is firmly fixed between the upper and lower grippers 624 by rotating the rotation plate 622 about the main shaft 621 again. After the transfer to the position to be transferred to the next process is released by the gripper 624.

When the coil is released from the gripper 624 in this manner, the coil is transferred to the next process, and in the demolding means 610, the winding 212 held by the jaws 612 is again driven by the forward driving of the transfer cylinder 614. Inserted to the shaft 230 of the winding support block 200, and after continuing to combine the bracket 231 and the center pin 232 is back to the original position all the work in the take-out unit 600 Is done.

Therefore, the winding 400 of the turntable 100, the shaping part 500 and the take-out part 600 simultaneously perform coil windings, coil-to-coil fusion, and coil take-off from the windings simultaneously, respectively. The main feature is that the fabrication of the deflection yoke coil can be fully automated while being able to be performed.

In addition, the fixed shaft 700 provided through the center portion of the turntable 100 and the cylinders 710 and 720 mounted on the fixed shaft 700 are respectively formed on the molded part 500 side wound support block 100. And welding between coils wound in the winding 210 by pushing the adjust bolt 221 of the winding support block 100 on the take-out part 600 side or the adjust plate interlocked with the adjust bolt 221. It can be made to be made in close or the coil 210 in the winding 210 is easily acted to be released.

On the other hand, when the cylinder stopper 130 mounted on the inner circumference of the turntable 100 pushes the adjust bolt 221 or the adjust plate by the cylinders 710 and 720 mounted on the upper end of the fixed shaft 700. The cylinders 710 and 720 are no longer pushed backward so that more stable cylinder driving can be performed.

In addition, by the positioning cylinder 800 provided at the bottom of the turntable 100, the end of the rod from which the turntable 100 is drawn upward is turned on the turntable 100 whenever the turntable 100 rotates at an angle of 120 °. It is inserted into the formed positioning hole 140 to prevent any further flow so that the stable winding and forming and taking out operation can be performed.

According to the configuration and action as described above, in the past, when the coil winding process was completed in one winding machine, the forming process was performed after the coil winding process was completed. In the present invention, the coil winding and molding and taking out are performed at the same time, and thus the turntable 100 is a fully automated device using a simultaneous progression method in which the finished product can be continuously taken out every 120 ° rotation.

Therefore, according to the present invention as described above, while the winding process, the molding process and the extraction process of the deflection coil is performed at the same time to provide a fully automated winding device to continuously perform this manufacturing process, the time required for manufacturing the coil significantly There is an advantage that is reduced to.

In addition, in the first winding 400, the wire from the wire supply means 300 to the wire clamping means 240, and only then, since the coil is made completely automatically, there is an advantage that the required manpower is hardly required.

Therefore, the present invention has a very useful effect of improving the productivity of the coil, thereby increasing the price competitiveness of the product and at the same time realizing the complete automation of the deflection yoke.

Claims (11)

A turntable rotatably provided by the drive means; Three winding support blocks fixed at equal intervals on an upper side of the turntable, and having a pair of windings respectively fastened to an outer surface thereof, and having a wire clamping means and a cutting means mounted on a bottom thereof; A winding part including a wire supply means for winding a wire in the winding and a clamp driving means for driving the wire clamping means, the windings of the first winding support block being opposed to each other; A molding part provided at the bottom of the second winding support block and including heating means for heating by supplying power to the coil wound through the wire clamping means and cooling means for cooling the heated coil; A take-out part provided facing each other from the outside of which the winding of the third winding support block is fastened, the extraction portion including a release means for demolding the winding from the third winding support block and a takeout means for taking out a coil from the demolded winding; Coil winding device of the deflection yoke provided with. The method of claim 1, wherein the wire clamping means It is formed as two clampers provided on the lower portion of the first winding support block to hold each of the front end and the end of the coil wound on the winding, wherein the slide lever is integrally extended downward downward, respectively, the slide lever is selectively A coil winding device of a deflection yoke in which the wire is bitten or bitten while being moved back and forth. The method of claim 1, wherein the wire supply means A cylindrical cam having a corrugated cam groove formed on an outer circumferential surface thereof, a rotary shaft rotatably inserted in the center of the cylindrical cam so as to form a passage through which the wire passes, a ply fastened in a radial direction of the shaft at one end of the rotary shaft, and the ply A holder fastened to one end of the holder, a balance weight formed at the other end of the ply corresponding to the holder, and provided in parallel with the rotation shaft in the holder, one end of which is inserted into the cam groove of the cylindrical cam and is along the cam groove. A coil winding device for a deflection yoke, comprising a cam rod fitted to be slidably movable and a guider fastened to the other end of the cam rod. The method of claim 1, wherein the clamp driving means A coil winding device for a deflection yoke, wherein a clamper for holding the front end and the rear end of the wire drawn out from the wire supply means is formed at the front end. The clamper of claim 4, further comprising a clamper for holding a rear end of the clamp driving means. Coil winding device of the deflection yoke is provided with cutting means for delivering the wire at the same time. The method of claim 1, wherein the heating means And a pair of terminals in contact with the slide lever of the second winding support block, and a coil winding device for the deflection yoke, the power supply device supplying power to the terminals. The method of claim 1, wherein the cooling means A coil winding device for a deflection yoke, comprising a nozzle provided to face the winding of the second winding support block and a cold air supply device for supplying cold air through the nozzle. The method of claim 1, wherein the demolding means A fourth cylinder integrally having a guide plate for supporting the bottom of the wound in a direction facing the third wound support block, a jaw for gripping the outer circumferential surface of the wound thereon, and the fourth cylinder together with the guide plate; The bracket and the center pin which are fastened to the shaft of the wound support block are interlocked by interlocking the transfer cylinder to move forward and backward and the chuck mounted on the bottom of the guide plate so as to be movable while penetrating the guide plate up and down. Coil winding device of the deflection yoke consisting of a fifth cylinder. The method of claim 1, wherein the extraction means A pair of rotary plates provided between the third winding support block and the demolding means, the rotary plates being rotatable about the main axis of the bottom and sliding forward and backward and spaced apart from each other by a predetermined height on an upper portion of the rotary plate; As a glyph that is mounted on the cylinder and the drawn rod end of the pair of cylinders, the separation distance is narrowed by the driving of the cylinder to grip only the coil wound on the outer circumferential surface of the winding, which is firmly fixed by the demolding means. A coil winding device of a deflection yoke, which is configured to separate only the coil formed from the winding wound by the demolding means and to be transferred to the next process. A turntable rotatably provided by the drive means; Three winding support blocks fixed at equal intervals on an upper side of the turntable, and having a pair of windings respectively fastened to an outer surface thereof, and having a wire clamping means and a cutting means mounted on a bottom thereof; A winding part including a wire supply means for winding a wire in the winding and a clamp driving means for driving the wire clamping means, the windings of the first winding support block being opposed to each other; A molding part provided at the bottom of the second winding support block and including heating means for heating by supplying power to the coil wound through the wire clamping means and cooling means for cooling the heated coil; A take-out part provided facing each other from the outside of which the winding of the third winding support block is fastened, the extraction portion including a release means for demolding the winding from the third winding support block and a takeout means for taking out a coil from the demolded winding; A fixed shaft provided to protrude upward through the center of the turntable while two cylinders respectively supporting the second winding support block and the third winding support block from the rear thereof are fixed to the upper end in turn; Coil winding device of the deflection yoke provided with. A turntable rotatably provided by the drive means; Three winding support blocks fixed at equal intervals on an upper side of the turntable, and having a pair of windings respectively fastened to an outer surface thereof, and having a wire clamping means and a cutting means mounted on a bottom thereof; A winding part including a wire supply means for winding a wire in the winding and a clamp driving means for driving the wire clamping means, the windings of the first winding support block being opposed to each other; A molding part provided at the bottom of the second winding support block and including heating means for heating by supplying power to the coil wound through the wire clamping means and cooling means for cooling the heated coil; A take-out part provided facing each other from the outside of which the winding of the third winding support block is fastened, the extraction portion including a release means for demolding the winding from the third winding support block and a takeout means for taking out a coil from the demolded winding; A fixed shaft provided to protrude upward through the center of the turntable while two cylinders respectively supporting the second winding support block and the third winding support block from the rear thereof are fixed to the upper end in turn; Positioning holes are formed on the outer circumferential bottom of the turntable at an angle of 120 °, and a positioning cylinder 800 is mounted directly below the rotary table to rotate the turntable only by an exact angle of 120 °. Coil winding device of the deflection yoke provided with.