KR101503453B1 - Transformer - Google Patents

Abstract

The present invention relates to a transformer. The present invention includes a bobbin having multiple coil winding parts divided by multiple coil partitions, having a fixing plate, in which a connection pin is fixed by being separated in a longitudinal direction, formed in a lower part of the outermost coil partitions among multiple coil partitions, and having an insertion hole formed to fix a ferrite core in the center of the coil winding parts; and the ferrite core fixed on the insertion hole penetrating the center of the coil winding parts. Through the formation of the transformer, in which the ferrite core is formed in the same length as the insertion hole or predetermined longer length to protrude to both sides of the insertion hole so that the ferrite core is inserted into the insertion hole to be fixed and installed by tight-fit, the ferrite core is easily fixed and installed without an extra fixing member, and damage to an electronic circuit or transformer, caused by current leak between the ferrite core and a coil, or malfunction of the electronic circuit, caused by electromagnetic wave, is stably prevented. And as the exposure of the ferrite core is minimized to minimize the influence of external temperature on the ferrite core, the output fluctuation of the transformer, caused by the influence of external temperature, is stably prevented.

Description

Transformer

The present invention relates to a transformer, and more particularly, to a transformer which is easy to fix and install to a ferrite core without a separate fixing member unlike the prior art, and a transformer or an electronic circuit is damaged due to current leakage between the ferrite core and the coil, Thereby minimizing the influence of the external temperature on the ferrite core, thereby stably preventing the output fluctuation of the transformer according to the influence of the external temperature. To a transformer.

Generally, a transformer is attached on an electronic circuit board in an electronic product such as a PDP, a TFT-LCD TV, or a cluster ion generator or an electronic circuit board in an electronic device to receive a low voltage and provide a high voltage in an electronic circuit, It is a role to change.

Such a transformer is usually manufactured by winding an outer circumferential surface of a bobbin made of a heat-resistant and insulating resin with a coil, surrounding the coil with an insulating film, and inserting and fixing a ferrite core into the bobbin on which the coil is wound .

1 is an exemplary view showing a conventional transformer.

The coil winding portion of the transformer bobbin 10 in the conventional transformer as shown in FIG. 1 is composed of a low-voltage coil winding portion and a high-voltage coil winding portion separated by a coil barrier 17.

In the conventional transformer constructed as described above, after a coil (not shown) is wound around the coil winding portion and connected to the connecting pin 18 provided on both sides of the bobbin 10, The insulating film 12 is wrapped around the wound coil.

As shown in the figure, when a ferrite core 15 having an E shape is inserted from both sides of the bobbin 10 and the ferrite core is fixed with a tape or the like, a transformer is completed.

Furthermore, the bobbin 10 has a structure in which the insertion port 16 penetrates the ferrite core 15 so that the ferrite core 15 can be inserted from both sides.

Meanwhile, in the conventional transformer, the ferrite core is preferably provided in an 'E' shape as shown in FIG. 1, but may also be provided in a generally 'C' shape.

For example, in a conventional transformer, a ferrite core is provided in a 'C' shape as shown in Korean Registered Patent No. 340419 (registered May 30, 2002).

As described above, in the conventional transformer provided in the 'E' shape or the 'C' shape, the ferrite cores are inserted and fixed on the bobbin so as to face each other in pairs so that the outer surface is covered with a tape or a groove is formed on the outer surface, And fixed with a fixing member such as a clip.

However, since the conventional transformer as described above is provided with a ferrite core in an 'E' shape or a 'C' shape, a separate fixing member such as a tape or a clip is required for fixing the ferrite core to the ferrite core. The fixing operation of the core is troublesome.

Further, there is a problem that a transformer or an electronic circuit is damaged due to the occurrence of sparks due to current leakage between the ferrite core and the coil of the transformer, or a phenomenon that the electronic circuit malfunctions due to the generation of electromagnetic waves.

Further, since the ferrite core is installed so as to be exposed to one side or both sides of the bobbin, the exposed area of the ferrite core is affected by the external temperature to a large extent, There was a problem.

Therefore, unlike the prior art, it is easy to fix and install the ferrite core without a separate fixing member, and stably prevents the malfunction of the electronic circuit due to the damage of the transformer or the electronic circuit or the generation of the electromagnetic wave due to the leakage of current between the ferrite core and the coil. Research and development of a transformer that minimizes the influence of the external temperature on the ferrite core by minimizing the exposure of the ferrite core and stably prevent the output fluctuation of the transformer according to the influence of the external temperature is required .

Registration No. 333721 of the Republic of Korea Registered on November. Korean Registered Patent No. 340419 Registered May 30, 2002. Registered.

In order to solve the above problems, the present invention provides a ferrite core which is easy to be fixedly installed on a ferrite core without a separate fixing member, and which can prevent damage to a transformer or an electronic circuit due to leakage of current between the ferrite core and the coil, And it is an object of the present invention to provide a transformer which can stably prevent a malfunction of a circuit.

Another object of the present invention is to minimize the influence of the external temperature on the ferrite core by minimizing the exposure of the ferrite core, thereby stably preventing the output fluctuation of the transformer according to the influence of the external temperature.

The present invention for achieving the above-mentioned objects is as follows. That is, the transformer according to the present invention has a coil winding portion divided into a plurality of coil barriers by a plurality of coil barrier ribs, and at the lower side of the coil barrier ribs disposed outermost among the plurality of coil barrier ribs, And a ferrite core fixedly installed on the insertion hole formed at the center of the coil winding portion of the bobbin, wherein the ferrite core is fixed to the center of the coil winding portion, The ferrite core is formed to have a length equal to the length of the insertion hole or to be protruded to both sides of the insertion hole, and inserted into the insertion hole and fixedly installed.

In this case, the insertion hole formed at the center of the coil winding portion is formed in a circular shape, and the ferrite core is formed to extend in a cylindrical shape corresponding to the insertion hole.

Further, the insertion hole formed at the center of the coil winding portion may be formed in a polygonal shape, and the ferrite core may be formed to have a predetermined length corresponding to the insertion hole in the shape of a polygonal column.

It is preferable that the ferrite core is inserted into the insertion hole and fixedly installed, but is preferably fixed by interference fit.

The effects of the transformer according to the present invention are as follows.

First, since the ferrite core is provided in a cylindrical or polygonal shape and is fixed to the insertion hole of the bobbin by interference fit, it is easy to fix the ferrite core to the ferrite core without a separate fixing member, It is possible to stably prevent a malfunction of an electronic circuit due to damage of a transformer or an electronic circuit or generation of an electromagnetic wave due to the electromagnetic wave.

Secondly, since the ferrite core is provided in a cylindrical or polygonal shape and is fixedly installed on the insertion hole of the bobbin by interference fit, the influence of the external temperature on the ferrite core can be minimized by minimizing the exposure of the ferrite core, It is possible to stably prevent the output variation of the transformer from being influenced by the temperature.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an illustration of a transformer in accordance with the prior art;
FIG. 2 is a perspective view showing a transformer according to the present invention. FIG.
3 is a perspective view showing a transformer according to the present invention.
4 is a cross-sectional view showing a transformer according to the present invention.

Hereinafter, a preferred embodiment of a transformer according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a transformer according to the present invention, FIG. 3 is a perspective view showing a transformer according to the present invention, and FIG. 4 is a sectional view showing a transformer according to the present invention.

2 to 4, a transformer according to a preferred embodiment of the present invention roughly includes a bobbin 100 and a ferrite core 200.

The bobbin 100 has a coil winding part 110 divided into a plurality of coil partitions 120 by a plurality of coil partitions 120. The coil partitions 120 disposed on the outermost part of the plurality of coil partitions 120, A fixing plate 130 spaced longitudinally and fixing the connection pins 131 is formed.

In other words, the fixing plate 130 is provided at the lower end of the coil partition 120 disposed on the outermost side of the coil partition 120, and the connection pin 131 protrudes downward So as to be fixedly installed in a plurality of units.

The bobbin 100 having the above-described structure is configured such that the insertion hole 111 is formed so that the ferrite core 200 can be fixed to the center of the coil winding part 110.

The ferrite core 200 is fixed on the insertion hole 111 formed at the center of the coil winding portion 110 of the bobbin 100.

At this time, the coil winding portion 110 of the bobbin 100 to which the ferrite core 200 is fixed is divided into a plurality of coil bobbins 120 and the coil C is wound on the outer surface.

The coil C is wound on the outer surface of each of the coil windings 110 divided by the coil partition 120 while the free end of the coil C is wound around a plurality of connecting pins (131).

In the transformer according to the present invention, the ferrite core 200 is inserted into the insertion hole 111 so as to protrude from both sides of the insertion hole 111, And inserted into the insertion hole 111 and fixedly installed.

It is preferable that the insertion hole 111 formed at the center of the coil winding part 110 is formed to be selectively formed in a circular or polygonal shape and the ferrite core 200 is formed to correspond to the insertion hole 111 So that a certain length of the cylindrical or polygonal shape is selectively formed.

For example, the ferrite core 200 may have a cylindrical shape as shown in the drawing and may have a predetermined length. The ferrite core 200 may have various shapes such as square, pentagonal, hexagonal, octagonal, It may be a column type with a certain length.

In this case, it is preferable that the insertion hole 111 is formed in the center of the coil winding part 110 of the bobbin 100 as a circular through hole type as shown in the figure corresponding to the ferrite core 200 .

Of course, the insertion hole 111 corresponds to the ferrite core 200 and is not shown in the drawing, but may be a square, pentagonal, hexagonal, octagonal, And may be formed through the center.

Furthermore, the ferrite core 200, corresponding to the insertion hole 111 and extending in a cylindrical or polygonal shape, is inserted and fixed on the insertion hole 111, As shown in Fig.

That is, in the transformer according to the present invention, the ferrite core 200 is provided as a pair of conventional 'E' shape or 'E' shape and is closely attached to the insertion hole so as to face each other, A cylindrical or polygonal prismatic type, and is fixedly installed on the insertion hole 111 by interference fit, unlike the case where the fixing member is fixed by a fixing member such as a clip.

Therefore, according to the present invention, the ferrite core 200 is provided in a cylindrical or polygonal shape and is fixedly installed on the insertion hole 111 of the bobbin 100 by interference fit, The ferrite core 200 can be fixedly installed without a separate fixing member such as a tape or a U clip.

In addition, the ferrite core 200 is provided in a cylindrical or polygonal shape and fixedly installed on the insertion hole 111 formed at the center of the coil winding portion 110 of the bobbin 100 by interference fit The ferrite core 200 is provided in the form of a single column so that the ferrite core 200 is provided between the ferrite core 200 and the coil C unlike the ferrite core which is provided in the conventional ' It is possible to stably prevent the malfunction of the electronic circuit due to the damage of the transformer or the electronic circuit or the generation of the electromagnetic wave due to the leakage of the electric current.

Further, the ferrite core 200 is provided in a cylindrical or polygonal shape and fixedly installed on the insertion hole 111 of the bobbin 100 by interference fit, thereby minimizing the exposed portion of the ferrite core 200, The influence of the external temperature on the core 200 can be minimized, and the fluctuation of the output of the transformer according to the influence of the external temperature can be stably prevented.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited thereto. Various modifications may be made by those skilled in the art. Are included in the scope of the present invention.

100: Bobbin
110: coil winding part 111: insertion hole
120: Coil bulkhead
130: fixing plate 131: connecting pin
200: ferrite core
C: Coil

Claims (4)

And a plurality of coil winding parts 110 divided by a plurality of coil partitions 120. The coil partitions 120 are arranged on the outermost side of the plurality of coil partitions 120, A bobbin 100 in which a fixing plate 130 to which the pin 131 is fixed is formed and an insertion hole 111 is formed so that the ferrite core 200 can be fixed to the center of the coil winding unit 110, And a ferrite core (200) fixedly mounted on the insertion hole (111) formed through the center of the coil winding part (110) of the transformer (100)
The ferrite core 200 is formed to have a length equal to the length of the insertion hole 111 or to be protruded to both sides of the insertion hole 111 and inserted and fixed on the insertion hole 111, Is fixedly installed by means of a bolt.
The method according to claim 1,
The ferrite core 200 is formed in a cylindrical shape corresponding to the insertion hole 111 and is formed to have a predetermined length. The ferrite core 200 is inserted into the insertion hole 111 through the center of the coil winding part 110, .
The method according to claim 1,
The ferrite core 200 is formed in a polygonal shape so that the ferrite core 200 is formed to correspond to the insertion hole 111 and has a predetermined length in a rectangular prism shape .
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