KR200142303Y1 - Terminal pin insulation structure of flyback transformer - Google Patents

Abstract

[purpose]

An object of the present invention is to provide a high pressure bobbin that can increase the insulation between the pin and the low pressure bobbin of the high pressure bobbin.

[Configuration]

The high pressure bobbin according to the present invention is a cylindrical body in which an empty space into which a low pressure bobbin is inserted is formed, and a coil is wound around the outer circumference to induce high pressure, and is installed to protrude outward at both ends of the body and wound around the outer circumferential surface of the body. Pin support for installing the pin connected to the coil and the diode for commutation, and pin support having a groove formed between the low voltage bobbin and the pin coupling portion and insulation for filling the groove and increasing the insulation performance between the low voltage bobbin and the pin It consists of a resin-containing construction, which makes it possible to make flyback transformers with excellent insulation.

Description

Terminal Pin Insulation Structure of Flyback Transformer

The present invention relates to a terminal pin insulating structure of a flyback transformer, and more particularly, it is possible to fill epoxy insulating resin inside a pin support of a high voltage bobbin that fixes a plurality of terminal pins to which a diode for rectifying a coil is connected. The present invention relates to a terminal pin insulation structure of a flyback transformer that can be molded into a structure capable of maximizing insulation and reliability of a product.

In general, a flyback transformer refers to a single winding transformer for obtaining a high pressure for a water pipe using pulses generated during a return period of a horizontal deflection output in a television receiver, and accommodates a high pressure bobbin having a low pressure bobbin and the high pressure bobbin. It consists of a molding case for protection and a focus pack mounted on the outer periphery of the molding case, and a high voltage current is generated, so insulation according to its high voltage is required.

Referring to FIGS. 1 and 2, a terminal pin insulation structure of a flyback transformer according to the related art requiring insulation as described above is as follows.

1 is a bottom view showing a high pressure bobbin fitted with a low pressure bobbin for explaining the terminal pin insulation structure of the flyback transformer according to the prior art, and FIG. 2 is a view for explaining the terminal pin insulation structure of the flyback transformer according to the prior art. It is an enlarged view of the main part.

1 shows a high pressure bobbin 100. This high pressure bobbin 100 has a cylindrical body 110. An empty space 111 is formed inside the body 110. The outer periphery of the body 110 is wound with a coil for inducing high pressure through the insulating film. The body 110 is made of an insulating plastic mold or the like.

In addition, a plurality of pin supports 112 are formed at both ends of the outer circumference of the body 110. The pin support 112 is disposed in a shape facing each other at both ends of the outer periphery of the body 110 and is formed to protrude outward. The terminal pin 113 is provided at the end of the pin support 112.

As can be seen in Figure 2, the terminal pin 113 is a part of the pin support 112 is inserted into and fixed. The terminal pin 113 is connected with a diode (not shown) for rectifying the coil wound around the outer periphery of the body 110.

Meanwhile, a low pressure bobbin 200 having a plurality of section ribs 210 formed on an outer circumference thereof is inserted into the inner empty space 111 of the high pressure bobbin 100.

In FIG. 1, the insulation between the low pressure bobbin 200 and the terminal pin 113 is a body of the high pressure bobbin 100, a pin support from the outer circumference of the body 110 to the bottom of the terminal pin 113 ( It is dependent on the injection of the plastic mold which constitutes 112).

By the way, the terminal pin insulating structure of the flyback transformer according to the prior art, in the flyback transformer having a coupling structure of the low-pressure bobbin 200 and the high-pressure bobbin 100 of the type shown in Figures 1 and 2 Since the insulation between the low pressure bobbin 200 and the terminal pin 113 of the high pressure bobbin 100 depends only on the injection molding of the plastic mold, its insulation is greatly reduced, and the terminal pin 113 of the high pressure bobbin 100 and the low pressure bobbin ( There was a big disadvantage that the flyback transformer could be damaged if a very high voltage was applied between 200).

Therefore, the present invention was devised to solve the above problems, and its purpose is to insulate a resin inside a pin support of a high-voltage bobbin that fixes a plurality of terminal pins to which a diode for rectifying the coil is connected. The present invention provides a terminal pin insulation structure of a flyback transformer that can be molded into a structure that can be filled to improve the insulation and reliability of the flyback transformer.

1 is a bottom view showing a high-pressure bobbin fitted with a low-pressure bobbin for explaining the terminal pin insulating structure of the flyback transformer according to the prior art.

Figure 2 is an enlarged view of the main portion for explaining the terminal pin insulating structure of the flyback transformer according to the prior art.

Figure 3 is a bottom view showing a high-pressure bobbin fitted with a low-pressure bobbin for explaining the terminal pin insulating structure of the flyback transformer according to the present invention.

Figure 4 is an enlarged view of the main part showing a high-pressure bobbin fitted with a low-pressure bobbin for explaining the terminal pin insulating structure of the flyback transformer according to the present invention.

* Explanation of symbols for main parts of the drawings

100: high pressure bobbin 110: body

111: empty space 112: pin support

112a: insulation groove 113: terminal pin

114: insulating resin 200: low pressure bobbin

210: section rib

The present invention for achieving the above object is a plurality of pin supports protruding the outer circumferential end of the cylindrical body in which the coil is wound a plurality of times to fit a plurality of terminal pins to which a diode for rectifying the coil is fitted. In the terminal pin insulating structure of a flyback transformer including a high-pressure bobbin provided, the insulating groove recessed and molded in the interior of the plurality of pin support in the direction in which the plurality of terminal pins are fitted, and is filled in the insulating groove What consists of insulating resin is the basic characteristic in technical configuration.

Hereinafter, a preferred embodiment of the terminal pin insulating structure of the flyback transformer according to the present invention will be described with reference to FIGS. 3 and 4.

3 is a bottom view showing a high pressure bobbin fitted with a low pressure bobbin for explaining the terminal pin insulation structure of the flyback transformer according to the present invention, and FIG. 4 is a view for explaining the terminal pin insulation structure of the flyback transformer according to the present invention. The enlarged main part which shows the high pressure bobbin by which the low pressure bobbin was inserted, and the same name and the same code | symbol are used about the same structure which has the same function as the conventional structure.

First, the flyback transformer according to the present invention is a high-pressure bobbin (100) having a built-in low-pressure bobbin 200, as shown in FIG. And a focus pack mounted on an outer circumference of the molding case.

At this time, the high-pressure bobbin 100 is a cylindrical body 110, the coil for inducing high pressure through the insulating film is wound a plurality of times, and protruded on both ends of the outer periphery of the body 110 to rectify the coil It consists of a plurality of pin support 112 for fitting a plurality of terminal pins 113 are connected to the diode, the outer periphery of the low-pressure bobbin 200 is provided with a plurality of section ribs 210, The section rib 210 maintains a constant distance from the inner circumference of the high pressure bobbin 100 and performs a function of allowing the coil to be partitioned and wound.

On the other hand, the plurality of pin support 112 is formed in the insulating groove 112a recessed in the direction in which the plurality of terminal pins 113 are inserted, the insulating resin 114 is filled in the insulating groove (112a). In order to overcome the insulation breakdown caused by the high voltage caught from the plurality of terminal pins 113.

At this time, the insulating resin 114 is suitable for epoxy (epoxy), the dielectric breakdown strength of this epoxy is 26 ~ 28kV / mm which is the dielectric breakdown strength of 30 ~ 33kV / mm plastic mold material at 25 ℃ as is commonly known It is much higher than that.

In addition, the plastic mold has a sensitive characteristic in which the efficiency of insulation breakdown greatly decreases as the temperature increases, but the insulation resin 114 of epoxy is insensitive to temperature and does not significantly affect the strength of the breakdown. Therefore, when the insulating resin 114 of epoxy is filled in the insulating groove 112a of the pin support 112, it is possible to greatly compensate for the weakness of the plastic mold forming the high-pressure bobbin 100.

Here, as can be seen from the comparison value of the dielectric breakdown strength, the epoxy insulating resin 114 is filled into the insulating grooves 112a formed in the pin support 112 in the direction in which the terminal pins 113 are fitted. Insulation effect in this case is satisfactory and it can be seen that there is a useful action to further increase the reliability of the flyback transformer.

As described above, according to the terminal pin insulation structure of the flyback transformer according to the present invention, the pin support 112 of the high-voltage bobbin 100 is fitted with a plurality of terminal pins 113 connected to the diode for rectifying the coil. The terminal pins 113 are formed by recessing and molding the insulating grooves 112a in the direction in which the plurality of terminal pins 113 are fitted, and filling the insulating grooves 112a with epoxy resin 114. It is possible to easily overcome the breakdown of the insulation due to the high voltage applied from the) has an excellent effect that can greatly improve the insulation and reliability of the flyback transformer.

Claims (1)

A plurality of pin support 112 for protruding the outer peripheral edge of the cylindrical body 110, the coil is wound a plurality of times to fit the plurality of terminal pins 113 connected to the diode for rectification of the coil In the terminal pin insulation structure of the flyback transformer comprising a high-pressure bobbin 100 having a, it is formed recessed inside the plurality of pin support 112 in the direction in which the plurality of terminal pins 113 are fitted Insulation groove (112a) and the terminal pin insulating structure of a flyback transformer comprising a insulating resin (114) filled in the insulating groove (112a).