KR20030053886A - Winding machine thermostat for deflection yoke - Google Patents

Abstract

PURPOSE: A temperature control unit of a winding frame for deflection yoke is provided to form a deflection coil of the uniform quality by controlling automatically the temperature of the winding frame. CONSTITUTION: A temperature control unit of a winding frame for deflection yoke includes a heater coil(30), a temperature detection portion(20), and a controller(40). The heater coil is installed in the inside of a winding frame(10) to generate the heat of the predetermined temperature. The temperature detection portion is installed at one side of the winding frame in order to detect the temperature. The controller receives a detection signal from the temperature detection portion and controls an operation of the heater coil on the basis of an arbitrary setup value. The controller performs the operation of the heater coil if the temperature of the winding frame is lower than the arbitrary setup value or stops the operation of the heater coil if the temperature of the winding frame is higher than the arbitrary setup value.

Description

Winding machine thermostat for deflection yoke {Winding machine thermostat for deflection yoke}

The present invention relates to a winding mold for winding a deflection yoke of a deflection yoke, and more particularly, for improved deflection yoke for controlling the winding mold to maintain a constant temperature so as to prevent winding dispersion of the deflection coil according to temperature deviation. The present invention relates to a winding mold temperature device.

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 perspective view showing a typical winding mold set, as shown in the winding mold set is composed of a pair of winding molds, the pair of winding molds are interlocked with each other type A winding molds (1) and B The mold winding mold (2).

At this time, the A-type winding mold (1) and the B-type winding mold (2) is a configuration in which the winding portion is located approximately in the center and the guide portion is located on both sides, although there is a difference in the shape of the portions engaged with each other.

Since the winding mold has a low temperature, the winding wire is wound in a contracted state, and thus distribution and density characteristics do not reach a uniform value, thereby leading to product defects. On the contrary, when the temperature of the winding mold is too high, the winding wire is expanded, which also causes a problem in that the distribution and density characteristics of the winding coil are poor.

Therefore, such a winding mold has to keep the temperature constant, and conventionally, the winding mold temperature is maintained by manual labor.

Figure 2 is a side view schematically showing the configuration of the temperature device in the winding mold according to the prior art.

First, referring to the winding mold shown, it represents the A-type winding mold 1 of FIG. 1, and the winding mold 100 at this time is provided on a plate having a substantially plate shape as shown, and has a half in the center. The winding part 110 having a conical shape is located, and the guide part 120 is provided at both sides of the winding part 110.

In this case, the winding part 110 is curved to have a predetermined curvature and a slope to wind the deflection coil, and the curvature and the slope of the winding part 110 are shaped so that the deflection coil is wound in a semi-conical shape.

In addition, the guide part 120 is provided at both sides of the above-described winding part 110, and serves to guide the entry of a coil wound around the winding part 110. In the inside of the guide portion 120, a plurality of pins 121 are formed at equal intervals to hold the shape of the coil, and these pins 121 are operated by a separate control device (not shown). It is composed.

As described above, the conventional winding mold 100 maintains the temperature manually.

That is, when the worker measures the temperature of the winding mold 100 and falls short of the set value, the operator uses the hot air blower 200 to increase the temperature of the winding mold 100 until the set value is reached, as shown in the drawing. When the temperature of the winding mold 100 exceeds the set value, the winding operation of the deflection coil is stopped until the temperature of the winding mold 100 drops to the set value.

However, the conventional method of maintaining the temperature of the winding mold 100 as described above is made by hand, which makes it difficult to precisely control the temperature, making it difficult to uniformize the deflection coils produced in large quantities as well as deteriorating productivity due to poor workability. There is this.

That is, the worker has a inconvenience to check the temperature of the winding mold 100 from time to time when winding the deflection coil work is very poor, and when the temperature of the winding mold 100 is high, inevitably stop the work. Therefore, there is a problem in that the productivity is interrupted.

In addition, there is a problem that leads to product defects when the temperature of the winding mold 100 can not be checked inadvertently by the operator.

The present invention was created in order to solve the above-mentioned conventional problems, and an object of the present invention is to automatically control the temperature of the winding mold to uniform the quality of the deflection coil by maintaining the stable temperature of the winding mold. The present invention provides a winding mold temperature device for a deflection yoke.

1 is a perspective view showing a typical winding mold set,

Figure 2 is a side view schematically showing the configuration of the temperature device in the winding mold according to the prior art,

Figure 3 is a plan view schematically showing the configuration of the temperature device in the winding mold according to the present invention,

Figure 4 is a side view schematically showing the configuration of a winding mold according to the present invention.

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

1: A type winding mold 2: B type winding mold

10: winding mold 11: winding part

12: guide portion 13: pin

20: temperature detector 30: heater wire

40: controller

Winding mold temperature device for deflection yoke according to the present invention for realizing the above object is installed inside the winding mold in which the deflection coil is formed and a heater wire for heating to a predetermined temperature, and installed on one side of the winding mold to detect the temperature And a controller configured to receive a detection signal from the temperature detector and to control an operation of the heater wire based on a predetermined set value.

The controller of the present invention is characterized in that the heater wire is operated when the temperature of the winding mold is lower than the set value, and the operation of the heater wire is stopped when the temperature of the winding mold is higher than the set value.

Hereinafter, a preferred embodiment of a winding mold temperature device for a deflection yoke according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a plan view schematically showing the configuration of the temperature apparatus in the winding mold according to the present invention, Figure 4 is a side view schematically showing the configuration of the winding mold according to the present invention.

As shown in the drawing, the winding mold 10 is provided on a plate p having a substantially plate shape, and a winding part 11 in which a coil is wound in a central portion thereof is provided, and coils are provided on both sides of the winding part 11. And a guide part 12 for guiding to the winding part 11 side.

Here, the winding part 11 is curved to have a predetermined curvature and inclination to form a coil in a semi-conical shape, the guide part 12 provided on both sides of the winding part 11 is the winding part 11 The coil is guided to the winding part 11 side while applying tension to the coil wound around the coil.

On the other hand, a plurality of pins 13 are provided on the interface between the winding part 11 and the guide part 12 at equal intervals to hold the coil shape, and these pins 13 are provided in a separate control device. Configured to operate by

This configuration is similar to the structure of the conventional winding mold. However, the present invention is characterized by providing a temperature device for automatically controlling the temperature of the winding mold to achieve uniform quality of the deflection coils produced by keeping the winding mold at a constant temperature at all times and to shorten the work time.

That is, as shown in Figures 3 and 4, the winding mold temperature apparatus for deflection yoke according to the present invention is composed of a heater wire 30, a temperature detector 20 and a controller 40.

The heater wire 30 is installed inside the winding mold 10 in which the deflection coil is formed, and the heater wire 30 in the case is disposed to efficiently increase the temperature of the winding mold 10. The heater wire 30 is a heating element that generates heat at a predetermined temperature, and is configured to generate heat by heat generated by resistance by flowing a current through a metal wire such as nichrome wire or tungsten.

The temperature detector 20 is installed on one side of the winding mold 10 to detect the temperature of the winding mold 10, and the detected temperature is output as a predetermined electrical signal through the output terminal 21. do.

The controller 40 is provided outside the winding mold 10 and configured to receive a predetermined electric signal from the temperature detector 20, and is configured to control the operation of the heater wire 30.

That is, the controller 40 receives an electric signal output from the temperature detector 20 and controls the operation of the heater wire 30 based on a preset value.

In more detail, the controller 40 receives an electrical signal from the temperature detector 20 to recognize the temperature of the winding mold 10, and sets a predetermined value of the temperature of the winding mold 10 thus recognized. In comparison with that, the heater wire 30 is controlled.

In this case, the control method of the controller 40 supplies power to the heater wire 30 when the temperature of the winding mold 10 is lower than a set value so that the heater wire 30 increases the temperature of the winding mold 10 by heating. When the temperature of the winding mold 10 is higher than a set value, the winding mold 10 always stops the operation of the heater wire 30 by stopping the power supplied to the heater wire 30. Control to maintain.

Since the temperature device configured as described above can maintain the temperature of the winding mold 10 at a predetermined value set in the controller 40, that is, a predetermined temperature, dispersion due to contraction or thermal expansion of the coil wound on the winding mold 10. Can be minimized.

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.

The winding mold temperature device for deflection yoke according to the present invention configured and operated as described above operates the heater wire installed inside the winding mold according to the temperature of the winding mold, so that the winding mold can always maintain a constant temperature.

Therefore, since the distribution and density of the deflection coils can be made constant at all times by maintaining the winding mold at a constant temperature, not only can the uniformity of the deflection coils produced be produced, but also the production of the deflection coils having optimum deflection characteristics can be achieved. There is an advantage to enable this.

In addition, since the temperature of the winding mold does not rise above the set value, it is possible to shorten unnecessary work time such as the previous work interruption, thereby providing an effect of greatly improving workability and productivity.

Claims (2)

A heater wire installed inside the winding mold in which the deflection coil is formed and generating heat at a predetermined temperature; A temperature detector installed at one side of the winding mold and detecting a temperature; A controller which receives a detection signal from the temperature detector and controls the operation of the heater wire based on a predetermined set value; Winding mold temperature device for the deflection yoke, characterized in that consisting of. The deflection yoke of claim 1, wherein the controller operates the heater wire when the temperature of the winding mold is lower than the set value, and stops the operation of the heater wire when the temperature of the winding mold is higher than the set value. Winding mold thermostat.