KR100431263B1 - Tenssion system and tenssion control method of winding machine - Google Patents

Abstract

The present invention discloses a tension system of a coil winding machine for deflection yoke.

The present invention includes a tension brake for supplying a coil to a coil winding mold composed of a set of molds by introducing a coil from a plurality of bobbins wound around the coil and adjusting the tension amount of the coil. It is provided at one side of the coil winding angle detection means for detecting the angle during operation of the coil, and receives a predetermined electric signal from the angle detection means to adjust the current and voltage supplied to the tension brake according to a predetermined set value of the coil It consists of a controller that controls the amount of tension.

Description

Tension system and tenssion control method of winding machine for deflection yoke coil winding machine

The present invention relates to a mold for winding a deflection yoke of a deflection yoke, and more particularly, for a deflection yoke for forming a deflection coil having a reduced winding dispersion by maintaining an appropriate tension amount according to the shape of a coil winding die. It relates to a tension system of the coil winding machine and a tension adjusting method.

In general, deflection yokes used in cathode ray tubes (CRTs) in television CRTs or monitors are provided with deflection yokes to precisely deflect three-color beams scanned from the electron gun to the fluorescent film applied to the screen surface of the cathode ray tube.

This deflection yoke is the most important element of the cathode ray tube magnetic device, and serves to deflect the electron beam emitted from the electron gun so that an electric signal transmitted in time series can be reproduced as an image on the cathode ray tube screen. do.

On the other hand, the deflection yoke has horizontal and vertical deflection coils for generating deflection force for deflecting the electron beam in the horizontal and vertical directions. That is, in the deflection yoke, the deflection coil receives a predetermined electric signal from the control unit of the display device and deflects the electron beam to a desired position on the screen.

Such a deflection coil is wound by a coil winding mold set, wherein the coil winding mold set is composed of two molds engaged with each other.

1 is a configuration diagram showing a conventional coil winding machine, and as shown therein, a coil winding mold for winding a coil substantially and a tension system for adjusting a tension of a coil supplied to the coil winding mold.

The coil winding mold is roughly divided into two molds that operate in large engagement with each other, that is, the A-type 100 and the B-type 150, wherein the A-type mold 100 has a winding portion 110 located at the center and its shape. It is composed of guide parts 120 located on both sides.

Here, the A-type mold at this time is provided on the plate (100a) of the disc, the winding portion 110 having a semi-conical shape is located in the center as described above, the guide portion 120 having a curved surface on both sides is It is a structure provided.

In this case, the winding unit 110 is curved to have a predetermined curvature and slope to wind the deflection coil, the curved surface and the slope of the winding unit 110 at this time so that the deflection coil has a substantially semi-conical shape. Molded. Therefore, when the coil is wound around the winding unit 110 as described above, the coil is wound along the curved shape of the winding unit 110, thereby forming a semi-conical shape.

In addition, the guide part 120 provided at both sides of the winding part 110 serves to guide the entry of the coil by providing tension to the coil wound around the winding part 110. On the other hand, the inside of the guide portion 120 is provided with a plurality of pins at equal intervals to hold the shape of the coil, the pin at this time is configured to be operated by a separate control device.

The A-type coil winding mold 100 configured as described above is rotated in engagement with the B-type coil winding mold 150 to form a deflection coil.

As shown in the drawing, the tension system 200 introduces a coil c wound around a plurality of bobbins 300 to adjust its tension, and the tension-controlled coil c enters the coil winding mold. As a plurality, the tension roller 210 and the elastic body 220 and the tension brake 230 is composed of.

The tension roller 210 is provided to be moved in the left and right directions, and adjusts the tension of the coil (c) flowing into the coil winding mold on the outer circumference, the elastic body 220 to the tension roller 210 It adds an elastic force to increase the tension controllability.

In addition, the tension brake 230 adjusts the tension amount of the coil c flowing on the outer circumference under the control of a controller (not shown).

However, such a conventional tension system 200 is configured to continue to hold only a certain amount of tension while winding, so that the tension amount does not change even when the coil winding mold rotates at a low speed and a high speed. In this case, the coil winding mold has a sleeve shape as shown in the drawing, and thus impact tension occurs every 90 degrees. In this case, the tension amount does not change. As a result, the coil (c) and the tension spring (220) load the load. The deflection coil formed by the coil winding die is wound unevenly.

In this way, if the deflection coil is unevenly wound, the deflection characteristics become poor, resulting in a problem that the reliability of the product is greatly reduced.

The present invention was created in order to solve the conventional problems as described above, an object of the present invention is to detect the angle during the operation of the coil winding mold to properly adjust the amount of tension according to the shape of the coil winding mold winding of the deflection coil The present invention provides a tensioning system and a tension adjusting method of a coil winding machine for deflection yoke that can reduce dispersion.

1 is a block diagram showing a coil winding machine according to the prior art.

Figure 2 is a schematic diagram showing a tension system of the coil winding machine according to the present invention.

Figure 3 is a flow chart illustrating a tension adjustment method of the coil winding machine according to the present invention.

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

1, 2: coil winding mold 10: tension system

11 tension roller 12 elastic body

13: tension brake 20: bobbin

30: angle detection means 40: controller

In the tension system of the coil winding machine for the deflection yoke according to the present invention for realizing the above object, a coil is introduced from a plurality of bobbins wound around the outer circumference and the tension of the coil is adjusted to constitute a set of molds. A tension brake for feeding the coil to the winding mold,

An angle detecting means provided at one side of the coil winding mold to detect an angle during operation of the coil winding mold, and receiving a predetermined electric signal from the angle detecting means to supply current and voltage supplied to the tension brake according to a predetermined value. It is characterized by consisting of a controller for controlling the tension amount of the coil by adjusting.

The angle detecting means of the present invention is characterized in that it detects the angle every 90 degrees during the operation of the coil winding mold to apply a predetermined electrical signal through the output terminal.

The angle detecting means of the present invention is characterized in that the angle sensor for detecting the angle.

The tension adjustment method of the coil winding machine for the deflection yoke according to the present invention includes the steps of: detecting an angle during operation of a coil winding mold for winding a coil, receiving data detected in the step and comparing it with arbitrary reference data; Adjusting the tension amount of the coil by adjusting the current and voltage supplied to the tension brake when the data detected in the step is not suitable for the reference data; and performing coil winding by the tension amount of the coil adjusted in the step. It is characterized by consisting of steps.

In the step of comparing the angle detected data of the present invention with any reference data, it is characterized in that it proceeds to the step of winding the coil when the detection data is suitable for the reference data.

In the step of detecting the angle of the coil winding mold of the present invention, the angle detection is characterized by detecting every 90 degrees during the operation of the coil winding mold.

Hereinafter, a preferred embodiment of a tension system and a tension adjustment method of a deflection yoke coil winding machine according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in this figure, the coil winding machine for the deflection yoke can be largely classified into a winding system for winding the coil (c) and a coil supply unit for supplying the coil to the winding system.

The winding system is a coil winding mold which rotates in a form in which a set of molds (1) and (2) are meshed with each other, in which the mold (1) has a winding portion (1a) having a semi-conical shape in the center, It is a structure provided with the guide part 1b which has a curved surface at both sides.

The coil supply unit includes a plurality of bobbins 20 in which a coil c is wound around the outer periphery, and a tension system 10 for adjusting a tension amount to receive a coil from the bobbin 20 and to have a constant tension. .

Here, the tension system 10 is composed of a plurality of tension rollers 11, an elastic body 12 and the tension brake 13, the tension rollers 11 at this time is usually provided with a plurality of predetermined intervals. The coil c is wound around the periphery. The tension roller 11 is provided to be able to flow in the left, right direction as seen in the drawing, it is configured to receive a predetermined elastic force from the elastic body 12.

On the other hand, the tension brake 13 is configured to adjust the tension amount of the coil by the current and voltage supplied from the outside.

This configuration is substantially the same as the structure of the conventional winding coil for deflection yoke. However, the present invention is characterized by improving the quality of the product by reducing the winding dispersion of the deflection coil by adjusting the tension of the coil according to the angle and shape of the coil winding mold.

Figure 2 is a schematic diagram showing a tension system of the coil winding machine according to the present invention.

As shown in the drawing, the tension system 10 of the present invention compares the angle between the angle detecting means 30 for detecting the angles of the coil winding dies 1 and 2, and the detected angle with an arbitrary reference value. And controller 40 for controlling the current and voltage supplied to 13).

That is, the angle detecting means 30 is provided on one side of the coil winding molds 1 and 2, and a controller connected to an output terminal by detecting an angle every 90 degrees when the coil winding molds 1 and 2 are operated. It is configured to apply a predetermined electric signal to the 40 side.

The angle detecting means 30 may be used a conventional angle sensor, it may be configured to detect any angle during the operation of the coil winding mold (1), (2).

On the other hand, a controller 40 is connected to the output terminal of the angle detecting means 30, in which the controller 40 compares the signal input through the angle detecting means 30 with the preset reference data to obtain a tension break ( 13).

That is, the controller 40 has a coil tension amount value for setting the deflection coil wound through the coil winding mold to have an optimal deflection characteristic. When the controller 40 is inadequate by comparing the set value with the input data value, The current and voltage supplied to the tension brake 13 are adjusted to tighten or loosen the coil tension so as to be consistent with the reference data.

At this time, the reference tension amount value preset in the controller 40 is set by the experimental value.

The tension system of the coil winding machine for the deflection yoke according to the present invention made as described above is to adjust the tension amount of the coil through the performing step as shown in FIG.

First, during operation of the coil winding molds 1 and 2 winding the coil c, the angle detecting means 30 provided at one side thereof detects the angles of the coil winding molds 1 and 2.

In this case, the angle detecting means 30 detects an angle when the nose winding molds 1 and 2 rotate every 90 degrees and applies a predetermined electric signal to the controller 40 connected to the output terminal. That is, the angle detecting means 30 is the coil winding mold (1), (2) is in the shape of a sleeve so that the impact tension is generated every 90 degrees during operation, to detect the angle at which the impact tension occurs Will be.

Subsequently, the controller 40 receiving the signal detected through the angle detecting means 30 compares the preset reference data value. In the case where the compared values are inappropriate, the tension amount of the coil is adjusted to match the reference value by adjusting the current and voltage supplied to the tension brake 13.

On the other hand, when the signal detected by the angle detecting means 30 is matched with the reference value, the subsequent process is performed sequentially without any control process.

As described above, if the coil winding is performed while the tension amount is adjusted to match the reference value, the deflection coil having the optimal deflection characteristics can be manufactured.

On the other hand, the above embodiment is only a description of the preferred embodiment of the present invention, the scope of application of the present invention is not limited to this, and can be changed as appropriate within the scope of the same idea. For example, the shape and structure of each component shown in the embodiment of the present invention can be modified.

According to the tension system and the tension adjusting method of the coil winding machine for the deflection yoke according to the present invention configured and acted as described above, by detecting the angle of the coil winding die, the tension amount according to the sleeve shape of the coil winding die according to the detected data By adjusting, the nonuniform distribution of the deflection coil can be greatly reduced.

Therefore, the quality of the deflection coil can be improved, thereby providing an advantage of ensuring the reliability of the coil winding machine for the deflection yoke.

Claims (6)

It includes a tension brake for supplying the coil to the coil winding mold composed of a set of molds by adjusting the tension amount of the coil is introduced from a plurality of bobbin winding the coil on the outer periphery, An angle detecting means provided at one side of the coil winding mold and configured to detect an angle every 90 degrees during operation of the coil winding mold and output an electric signal; The tension amount of the coil is adjusted by receiving a predetermined electric signal from the angle detecting means and adjusting the current and voltage supplied to the tension brake according to a predetermined set value. A controller for controlling; Tension system of the coil winding machine for the deflection yoke, characterized in that consisting of. delete delete Detecting an angle during operation of the coil winding mold winding the coil; Receiving the data detected in the step and comparing it with arbitrary reference data; Adjusting the tension amount of the coil by adjusting a current and a voltage supplied to the tension brake when the data detected in the step is inappropriate to the reference data; Performing coil winding by the tension amount of the coil adjusted in the step; Tension adjustment method of the coil winding machine for the deflection yoke, characterized in that consisting of. 5. The coil winding machine for deflection yoke according to claim 4, wherein in the step of comparing the angle detected data with arbitrary reference data, if the detection data are suitable for the reference data, the winding of the coil is performed. How to adjust tension. 5. The method of claim 4, wherein in detecting the angle of the coil winding mold, the angle detection is detected every 90 degrees during the operation of the coil winding mold.