KR960000265Y1 - Auto wound machine of crt - Google Patents

Abstract

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Description

Horizontal winding machine for CRT deflection yoke coil

1a, b is a perspective view of an embodiment of a coil wound in a horizontal winding machine for a CRT yoke coil of the present invention

2 is a partial front view of a horizontal winding machine for CRT yoke coils to which the present invention is applied.

3 is a timing diagram illustrating a control method of a horizontal winding machine for a conventional CRT deflection yoke coil.

4 is a timing diagram illustrating a control method of a horizontal winding machine for a CRT yoke coil of the present invention.

5 is an operation diagram of a pin control disk used in a horizontal winding machine for the CRT yoke coil of the present invention.

6 (a) and 6 (b) are a perspective view and an attached state diagram of a pin control disk used in a horizontal winding machine for a CRT yoke coil of the present invention;

* Explanation of symbols for main parts of the drawings

1,1 coil 2: winding mold

3: Round Guide 4: Pin

5: air cylinder

The present invention relates to a device for winding coils of complex shape, such as horizontal winding machines for CRT coils, in particular deflection coils such as CRT tubes.

In recent years, the horizontal deflection coils for controlling CRTs such as TVs and computer monitors have become more complicated in their shape, and since these coils have a three-dimensional shape, most of them have a lot of control in winding. Productivity is also an important control factor.

For example, in order to wind the coil 1 of the shape shown in FIG. 1 a, b, and the coil 1 'which is a more complicated three-dimensional shape, the metal mold | die of a special shape and a winding method are calculated | required.

As an example of such a winding machine, a winding machine having the same configuration as that of the second drawing is used, and will be described in the same way as the control method.

Each of the winding molds 2 rotating about the shafts 11 and 11 'is configured such that the inner shape of the winding coil to be manufactured coincides with the contour of the winding mold 2 and freely rotates.

On the opposite side of the winding mold (2), a round guide (3) is formed to guide the winding (not shown) while rotating along the outer circumference of the winding mold (2), and the round guide (3) and the winding The mold 2 is supplied with a winding while being rotated in close proximity to each other to form a shape suitable for a mounting portion of a CRT tube such as a three-dimensional shape.

During this rotational molding, due to the time interval corresponding to the winding rotation value, the pin 4 on the round guide 3 emerges by the operation of the air cylinder 5 to change the curvature of the shape of the coils 1 and 1 '. Winding is carried out at the portion, that is, the bent portion, and the winding is wound on the winding mold 2 to form the coils 1 and 1 '.

In addition to the above-described mechanical automatic electrical control is to be made, it is usually controlled using a PLC (Programmable Logic Controller) in conjunction with the added mechanism.

Fig. 3 shows a timing chart of a conventional control method for controlling the appearance of such pins 4.

Conventionally, control is performed only by the control of the PLC itself.

That is, while the counter pulse CPS is generated at a predetermined time interval, and the pin insertion signal SPIN is generated by sending a continuous signal based on the counter pulse CPS, the insertion signal SPIN of the pin 4 is generated. Decreases the speed of the motor at the time of application.

The air cylinder 5 is actuated by the pin insertion signal SPIN, and the pin 5 is temporarily raised.

For the mechanical stability of the operation as described above, at the start of the constant speed signal CSIN, the speed of the motor is slowed down and after the pinch is completed, the speed of the motor is increased again so that normal winding is made.

Therefore, the control by the single pulse of the winding mold (2) is made as described above, and in the winding method, the motor becomes constant speed and then becomes high speed again. Occurrence and deterioration of work accuracy, mechanical reliability, and productivity were also a problem.

The appearance control of the pin 4 is controlled by the air cylinder 5 by a programmable PLC or the like, but the appearance of the pin is very short, so that the shape of the coil is broken and mechanical shock is applied a lot.

Therefore, in the present invention, a device for adding a control signal of a separate pin to a horizontal winding machine for a conventional CRT yoke coil performs a high speed rotation, and the appearance of the pin is not a mechanical instantaneous appearance, but a constant rotation angle. It is intended to provide a new type of horizontal winding machine for CRT yoke coils which has been formed and wound up.

The pin control disk used in the horizontal winding machine for the CRT yoke coil of the present invention of FIG.

The pin control disk 20 is a disk of thin thickness, such as ordinary metal, and the semicircle has a large diameter, and the semicircle has a somewhat small diameter.

The pin control disk 20 is mounted at a suitable position on the coaxial axis of the horizontal winding machine for the Braun tube deflection yoke coil, and acts like a sensing sensor 21 such as a proximity switch.

The coils 1, 1 'wound on the winding mold 2 are shown together, indicating their relative positions, and the coils 1, 1' are not wound on the pin control disk 20. As shown in FIG.

The detection sensor 21 is applied or extinguished with the diameter-expanded part 22 as a boundary.

When a signal is sensed by the sensor 21, this signal is applied to the PLC to determine the position and time of the pin's appearance. This timing diagram is shown in FIG.

The BCD signal is generated by the detection signal PPS sensed by the detection sensor 21, and the pin protrudes at the start of this signal due to the approach or detachment of the diameter expansion unit 22, and then after winding. At the end of the signal, that is, at the end of the binary number, the winding is terminated and the pin is pulled out.

Unlike the conventional apparatus, the process is driven by a separate PLC circuit, so that the speed of the motor is always maintained at a constant speed.

In other words, the horizontal winding machine for the CRT yoke coil of the present invention does not depend on the signal of the PLC itself but constitutes control by a device (pin control disk) which gives a signal for a separate pin-out time. Regardless of the signal, the number of windings and the number and position of the operating pins are controlled.

The number and position of the actuation pins are programmed according to the shape of the coil to be wound.

In addition, the appearance of the pin 4 is not performed in a short time, but is maintained for a predetermined period (during the time when the binary number is given).

In FIG. 5, when the coils 1 and 1 'are placed in the vertical direction, they are configured to coincide with the center line C of the pin control disk 20. However, the angles may be different depending on the shape of the coil.

In addition, the appearance of the pin according to the rotation angle can be arbitrarily corrected by the PLC counter program, so that coils of any shape can be easily wound up.

6 is a perspective view and a state of attachment of a horizontal winding machine for a CRT yoke coil of the present invention, which shows a method of being attached on an axis (mould-attachment shaft or a shaft on the side of a round guide) in a direction and constituted together with a sensing sensor. do.

In the figure, reference numeral 23 denotes a limit switch, 24 a fixing disk, 25 a winding machine spindle, and 26 a fastening bolt.

Since the position and timing of the pins are determined by setting the generated pulses of the PLC itself as a reference, separate programming is required according to the position of the initial winding and the shape of the windings, but the horizontal for the CRT yoke coil of the present invention Since the type winding machine is controlled by a separate pin control disk 20, it is possible to control the appearance of the pin by a constant sequence regardless of the shape of the coil to be wound.

In addition to the disk method of the present invention, the same effect can be obtained by using an encoder or by installing a wire in a semicircular shape instead of the disk diameter expansion part.

When comparing the performance of the conventional horizontal winding machine for the brown tube deflection yoke coil and the horizontal winding machine for the brown tube deflection yoke coil of the present invention,

Since the configuration of the horizontal winding machine for the CRT yoke coil of the present invention is a useful design that greatly improves productivity and imparts mechanical stability.

Claims (1)

(Correction) In order to wind-form a CRT coil, etc., it wound-wound on the winding mold 2 which rotates about the shafts 11 and 11 ', and the said winding mold 2 is made into the inner shape of a root winding coil, and the like. The outer shape (Contour) of the winding mold (2) is configured to match, and the opposite side of the winding mold (2) round guide that is wound around the winding while guiding the winding along the outer periphery of the winding mold (2) In the rotational molding, due to the time interval corresponding to the winding rotation value, the pin 4 on the round guide 3 emerges by the operation of the air cylinder 5 so that the coils 1 and 1 ' In a horizontal winding machine for a CRT yoke coil, in which a winding in a curvature change portion of a shape is made to produce a deflection yoke of a specific shape; It is attached to a separate shaft to determine the time and period of appearance of the pin (4), the semicircle has a large diameter portion and the semicircle is a plate-like pin control disk 20 of the small diameter portion, Further comprising a detection sensor 21 for detecting the time and period of appearance of the pin 4 in conjunction with the pin control disk 20, Braun tube deflection yoke coil, characterized in that the protruding state of the pin 4 is maintained as a mutual sensing signal between the sensor 21 and the pin control disk 20 by a separate PLC from the PLC for the rotational drive control. Horizontal winding machine for the dragon.