KR101639594B1 - Coil for transformer using laminating structure and manufacturing method therof - Google Patents

Abstract

The present invention relates to a transformer coil using a laminate structure, which is usable as a primary coil or a secondary coil of a transformer, and a manufacturing method thereof. According to the present invention, the transformer coil comprises: a base layer which has a core hole formed in a center thereof; a first coil pattern layer which includes coil patterns made of a conductive material and is formed on one surface of the base layer so that a magnetic path is formed by applied power; a first insulating layer which is coated with a certain thickness on the one surface of the base layer on which the first coil pattern layer is formed, so that the first insulating layer covers the coil patterns; a second coil pattern layer which is laminated so as to be electrically connected to the first coil pattern layer; a second insulating layer which is coated with a certain thickness and is laminated, so that the second insulating layer covers coil patterns of the second coil pattern layer; and a terminal unit which electrically connects the first coil pattern layer and the second coil pattern layer to an external circuit.

Description

[0001] The present invention relates to coils for transformers using a laminate,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transformer coil that can be used as a primary or secondary coil of a transformer and a method of manufacturing the same. More particularly, the present invention relates to a transformer coil manufactured by stacking a plurality of layers on a printed circuit board.

Transformer is a widely used electronic component used in power supply to regulate AC voltage. It is a structure in which the primary and secondary coils are wound around the bobbin and the core is integrated in the center.

The transformer generates an induced electromotive force in the secondary coil by a power source applied to the primary coil. The induced electromotive force of the secondary coil is adjusted according to the voltage applied to the primary coil and the turns ratio of the primary coil and the secondary coil .

Conventional transformers have a burden of winding a coil around a core or a bobbin during manufacture, and there is a limit to the miniaturization of parts due to the thinning and shortening of electronic equipment. Recently, a transformer using a printed circuit board has been proposed.

Korean Patent Laid-Open Publication No. 2011-0138576 and Japanese Patent Application Laid-Open No. 2014-0117835 disclose a transformer manufactured by forming a first coil and a second coil pattern on a printed circuit board and assembling the core into a core. Such a transformer has a merit that a coil pattern is formed on a printed circuit board, thereby eliminating a coil winding operation and reducing the size and volume of a device due to a coil pattern printed on a plane.

However, since the printed circuit board transformer uses an insulating sheet (or insulating paper) for insulation of the coil, it is burdensome to process the center or both ends of the thin insulating sheet for coupling with the core, There is a problem that the coil pattern is damaged or damaged by friction between the insulating sheet and the surface of the substrate.

Further, as the insulating paper and the printed circuit board are coupled by the cores fastened to the upper and lower portions, the contact surface between the insulating sheet and the printed circuit board is not uniformly contacted by the uniform pressure applied by the core, There is a limit to be used for precise power control. In addition, when a plurality of printed boards are stacked, there is a burden of aligning and bonding the insulating sheets between the substrates.

Korean Patent Laid-Open Publication No. 2011-0138576 (entitled: Planar Transformer 2012.12.28) Korean Patent Laid-Open Publication No. 2014-0117835 (Title: Transformer manufactured by printed circuit board. 2014.10.08)

SUMMARY OF THE INVENTION The present invention has been developed in order to solve the above technical problems, and it is an object of the present invention to provide a transformer, which protects a coil pattern formed on a surface from being damaged or damaged, It is an object of the present invention to provide a coil for a transformer that can be used.

According to an aspect of the present invention, there is provided a transformer coil comprising: a base layer having a core hole formed at a center thereof; a coil pattern formed of a conductive material to form a magnetic path on an upper surface of the base layer by an applied power source A first coil pattern layer, a first insulating layer coated to a predetermined thickness so as to cover the coil pattern on one surface of the base layer on which the first coil pattern layer is formed, a second coil pattern electrically connected to the first coil pattern layer, And a terminal layer electrically connecting the first coil pattern layer and the second coil pattern layer to an external circuit, wherein the first coil pattern layer and the second coil pattern layer are laminated by a predetermined thickness so as to cover the coil pattern of the second coil pattern layer, .

According to the present invention, the second coil pattern layer may be laminated on one surface of the base layer on which the first coil pattern layer is formed or on the other surface of the base layer.

Also, according to the present invention, the base layer, the first insulating layer, and the second insulating layer may be made of the same synthetic resin material.

According to the present invention, the base layer, the first insulating layer, and the second insulating layer may be formed of any one of a phenol resin, an epoxy resin, a polyimide resin, and a polyester resin.

Also, according to the present invention, the coil pattern may be formed in a shape of a circle, an ellipse, or a polygon around the core hole.

According to another aspect of the present invention, a coil pattern layer and an insulating layer may be further formed on the first insulating layer or the second insulating layer.

A method of manufacturing a transformer coil according to the present invention includes the steps of forming a core hole in a base layer, laminating a first coil pattern layer by forming a coil pattern of a conductive material on one surface of the base layer, Stacking a first insulating layer on one surface of a base layer on which a coil pattern layer is formed to coat the coil pattern with a predetermined thickness to cover the coil pattern, and laminating a second coil pattern layer electrically connected to the first coil pattern layer, Forming a terminal portion electrically connecting the first coil pattern layer and the second coil pattern layer to an external circuit by forming a second insulating layer by coating the first coil pattern layer with a predetermined thickness to cover the coil pattern of the second coil pattern layer; .

According to the present invention, since the insulating layer is coated in a laminated structure to cover the coil pattern formed on the printed circuit board, the coil pattern due to the external friction is prevented from being damaged or damaged, And the transformer can be fabricated by simple combination of coil and core.

1 is a perspective view of a transformer coil according to an embodiment of the present invention.
2 is a view showing a coil pattern formed on a coil according to an embodiment of the present invention.
3 is a cross-sectional view of a coil for a transformer according to an embodiment of the present invention.
4 is a cross-sectional view of a coil for a transformer according to another embodiment of the present invention.
5 is a flowchart showing a method of manufacturing a coil for a transformer according to an embodiment of the present invention.
6 is an exploded perspective view of a transformer in which a coil according to the present invention is used.

Hereinafter, a coil for a transformer according to the present invention and a method of manufacturing the same will be described with reference to FIGS. 1 to 6 attached hereto.

The present invention is used as a primary or secondary coil for a transformer. When power is applied to a primary coil assembled with a core and connected to an external power source, a power source induced by the secondary coil is supplied to a circuit connected to the transformer , And a light emitting diode (LED) power supply.

FIG. 1 is a perspective view of a transformer coil according to one embodiment of the present invention, FIG. 2 is a view showing a coil pattern formed on a coil of the present invention, and FIG. 3 is a sectional view of the coil of the present invention. 1 to 3, a coil 100 according to an embodiment of the present invention includes a base layer 110, a first coil pattern layer 120, a first insulating layer 130, A first insulating layer 140, a second insulating layer 150, and a terminal portion 160.

The base layer 110 is formed in a plate shape having a predetermined thickness and has a core hole 100a through which the core is inserted. The base layer 110 may be made of a thermosetting resin such as phenol resin or epoxy resin so as not to bend well. The base layer 110 may be made of polyimide or polyester, which is a thermoplastic resin, and may be easily bent.

The first coil pattern layer 120 is a layer in which a coil pattern P is formed on one side of the base layer 110. The coil pattern P corresponds to a coil wound on the core in the prior art, Generates a magnetic path. The first coil pattern layer 120 is made of a conductive material for forming a magnetic path. As the conductive material, a conductive paste such as a metal foil such as a copper foil, an aluminum foil or an aluminum foil or an ink in which a metal oxide is dispersed may be used. When a metal foil is used, the coil pattern P can be formed by a photolithography method using a photomask and an etching solution. When a conductive paste is used, a coil pattern P is formed using a printing electron method such as a screen printing method . The coil pattern P may be formed in a circular shape, an elliptical shape, or a polygonal shape having a starting point and an ending point around the core hole 100a.

The first insulating layer 130 is coated to a predetermined thickness with an insulating material so as to cover and protect the coil pattern P on one surface of the base layer 110 on which the first coil pattern layer 120 is formed. It is preferable that the first insulating layer 130 is formed on the first coil pattern layer 120 to have a thickness of at least 6 to 10 μm. If the thickness is less than 6 μm, the thickness of the coating film is too thin, There is a risk of exposure to the outside, and if it exceeds 10 mu m, the total volume of the transformer becomes large. For example, when the thickness of the first coil pattern layer 120 is 10 mu m, the first insulating layer 130 has a thickness of 16 to 20 mu m and the thickness of the first coil pattern layer 120 is 20 mu m The first insulating layer 130 preferably has a thickness of 26 to 30 mu m.

The second coil pattern layer 140 is a layer that is electrically connected to the first coil pattern layer 120 on the upper surface of the first insulating layer 130 on which the first coil pattern layer 120 is formed, A pattern P is formed. The first coil pattern layer 120 and the second coil pattern layer 140 are electrically connected through a via hole 100b coated with a conductor. Therefore, according to the present invention, since the coil patterns P are laminated and connected to each other, the first coil pattern layer 120 and the second coil pattern layer 140 can be sequentially laminated without increasing the substrate area, The winding ratio of the coil surrounding the coil can be increased.

The second insulating layer 150 is a layer laminated on the upper surface of the first insulating layer 130 to have a predetermined thickness so as to cover the coil pattern of the second coil pattern layer 140. The first insulating layer 120 ) And the same film thickness.

The second coil pattern layer 140 and the second insulating layer 150 may be formed on the other surface of the base layer 110 where the first coil pattern layer 120 is not laminated. 110 are formed on the other surface of the transformer.

The base layer 110, the first insulating layer 130, and the second insulating layer 150 are preferably made of the same synthetic resin material, so that the interfacial contact between the base layer 110 and the second insulating layer 150 can be improved, . Accordingly, when the base layer 110 is hardened, the first and second insulating layers 130 and 150 are preferably formed of a phenol resin or an epoxy resin coating layer. In the case where the base layer 110 is softly formed, It is preferably formed of an ester. As described above, according to the present invention, since the coil pattern P is coated with a sufficient coating film thickness, it can be protected from the outside as it is integrated, and excellent insulating performance is exerted as it is uniformly coated over the entire surface of the base layer 110 or the insulating layer . It is needless to say that the winding ratio of the coil surrounding the core can be further increased by further stacking the coil pattern layer and the insulating layer mutually connected by the via hole on the insulating layer 130 or the second insulating layer 150.

The terminal portion 160 electrically connects the first coil pattern layer 120 and the second coil pattern layer 140 to an external circuit. The inner wall surface is coated with a conductor to form terminal holes 160a and 160b . The terminal holes 160a and 160b are formed at the ends of the coil patterns P of the first coil pattern layer 120 and the second coil pattern layer 140 that are not connected to each other, Lt; / RTI >

5 is a flowchart showing a method of manufacturing a coil for a transformer according to an embodiment of the present invention. 5, a method of manufacturing a transformer coil according to an exemplary embodiment of the present invention includes forming a core hole 100a in a base layer 110, A coil pattern P is formed on one surface of the base layer 10 on which the first coil pattern layer 120 is formed in step S120 to form a coil pattern P on the first coil pattern layer 120 (S140) of stacking the first insulating layer 130 and a second coil pattern layer 140 electrically connected to the first coil pattern layer 120 (S140) A step S150 of laminating the second insulating layer 150 by coating the first coil pattern layer 120 and the second coil pattern layer 140 with a predetermined thickness to cover the coil pattern P of the second coil pattern layer 140, And forming a terminal portion 160 electrically connecting the coil pattern layer 140 to an external circuit (S160).

The step S110 of forming the core hole 100a in the base layer 110 is a step of forming a core hole 100a into which a core of a transformer to be described later is inserted, (110) at a predetermined size.

A step S120 of laminating the first coil pattern layer 120 on the base layer 110 is performed by adhering a metal foil such as a copper foil, a silver foil or an aluminum foil to the base layer 110 and etching the core foil The coil pattern P may be formed in the form of a circle, an ellipse, or a polygon around the center layer 100a, or an electronic printing method such as screen printing or gravure printing may be applied to the base layer 110 using conductive ink And then the coil pattern P is printed and fired.

The step S130 of laminating the first insulating layer 130 on the base layer 110 may be performed so as to cover the coil pattern P on one surface of the base layer 110 on which the first coil pattern layer 120 is formed Coating liquid is applied and cured.

Step S140 of laminating the second coil pattern layer 130 may be performed on the upper surface of the first insulating layer 130 on which the first coil pattern layer 120 is formed or on the other surface of the base layer 110, P, which is the same as the step of forming the first coil pattern layer 120 described above. Here, the starting point of the coil pattern P of the first coil pattern layer 220 and the second coil pattern layer 221 is punctured and the inner wall surface is coated with a conductor to form a via hole 100b.

The step S150 of laminating the second coating layer S150 may be performed on the upper surface of the first insulating layer 130 or the upper surface of the base layer 110 so as to cover the coil pattern P of the second coil pattern layer 140. [ A coating solution is coated on the other surface and cured. The coating liquid is preferably the same synthetic resin as the base layer 110 and the first insulating layer 130, as described above.

In the step S160 of forming the terminal portion 140, the end points of the coil patterns P of the first coil pattern layer 220 and the second coil pattern layer 221 are drilled and the inner wall surface is coated with a conductor Terminal holes 160a and 160b are formed.

6 is an exploded perspective view of a transformer in which a coil according to the present invention is used. 6, a coil according to the present invention is sequentially stacked with a primary coil 101 and a secondary coil 102, and the core 103 is joined to a core hole 100a formed at the center of the coils 101 and 102 The terminal pins 170 are inserted into the terminal holes 160a and 160b of the primary coil 101 and the secondary coil 102 and are electrically connected to the substrate 300 having the circuit pattern formed thereon.

As described above, according to the present invention, it is possible to fabricate a transformer by stacking a coil with a primary coil and a secondary coil without using a separate insulating sheet when assembling the transformer, The insulation layer is coated in a laminated structure so that the coil pattern due to the external friction during assembly can be prevented from being damaged or damaged, and excellent insulation performance can be exhibited when the primary and secondary coils are combined.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Therefore, it is to be understood that, within the scope of the appended claims, the invention may be practiced with other modifications within the spirit and scope of the appended claims. .

100, 200: coil for transformer 100a: core hole
100b: via hole 101: primary coil
102: secondary coil 103: core
110: base layer 120: first coil pattern layer
130: first insulating layer 140: second coil pattern layer
150: second insulating layer 160: terminal portion
160a, 160b: Terminal hole 170: Terminal pin
300: substrate P: coil pattern

Claims (7)

1. A transformer coil using a printed circuit board,
A base layer having a core hole formed at the center thereof;
A first coil pattern layer having a coil pattern formed of a conductive material so as to form a magnetic path by an applied power source on one surface of the base layer;
A first insulation layer coated on one surface of the base layer to cover the first coil pattern layer to a thickness of 6 to 10 탆 and coated with the same synthetic resin material as the base layer and stacked;
A second coil pattern layer electrically connected to the first coil pattern layer and stacked thereon;
A second insulation layer formed on one surface of the base layer so as to cover the second coil pattern layer with a thickness of 6 to 10 mu m coated with the same synthetic resin material as the base layer; And
And a terminal portion electrically connecting the first coil pattern layer and the second coil pattern layer to an external circuit. The method according to claim 1,
Wherein the second coil pattern layer is laminated on one surface of the base layer on which the first coil pattern layer is formed or on the other surface of the base layer. The method according to claim 1,
Wherein the base layer, the first insulating layer, and the second insulating layer are formed of any one of phenol resin, epoxy resin, polyimide resin, and polyester resin. The method according to claim 1,
Wherein the coil pattern is formed in a shape of a circle, an ellipse, or a polygon around the core hole. 3. The method of claim 2,
Wherein a coil pattern layer and an insulating layer are further provided on the first insulating layer or the second insulating layer. A method of manufacturing a transformer coil using a printed circuit board,
Forming a core hole in the base layer;
Stacking a first coil pattern layer by forming a coil pattern of a conductive material on one surface of the base layer;
Laminating a first insulation layer on one surface of the base layer to cover the first coil pattern layer with a thickness of 6 to 10 탆 using the same synthetic resin material as the base layer;
Stacking a second coil pattern layer electrically connected to the first coil pattern layer;
Laminating a second insulation layer on one surface of the base layer so as to cover the second coil pattern layer with a thickness of 6 to 10 탆 using the same synthetic resin material as the base layer; And
And forming a terminal portion electrically connecting the first coil pattern layer and the second coil pattern layer to an external circuit. delete

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