JPH05258956A - Inductor - Google Patents

Abstract

PURPOSE:To realize an inductor where inductance can be efficiently obtained. CONSTITUTION:A coil 10 as an inductor is equipped with a drum-type ferrite magnetic core 12 provided with a column at its center, where a flange is provided to both the sides of the column, and coil lead wire 14 is wound on the column. A first resin layer 18 containing no magnetic substance is formed so as to cover the coil lead wire 14. A second resin layer 20 mixed with magnetic substance is formed on the first resin layer 18 between the flanges of the drum- type ferrite magnetic core 12. Furthermore, the second resin layer 20 is formed covering the peripheries of the flanges.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an inductor, and more particularly to an inductor such as a coil or a transformer formed by forming a winding on a drum type magnetic core.

[0002]

2. Description of the Related Art FIG. 3 is a perspective view showing a coil which is an example of a conventional inductor. The coil 1 includes a drum type magnetic core 2. The drum-shaped magnetic core 2 has a columnar portion formed at the center and flange portions at both ends thereof. A coil conductor 3 is wound around the columnar portion of the drum-shaped magnetic core 2. Both ends of the coil lead wire 3 are connected to the electrodes 4.

FIG. 4 is an illustrative view showing a coil which is another example of the conventional inductor. In this coil 1, a resin 6 in which powder of a magnetic substance such as ferrite is mixed is filled between the brim-shaped portions of the drum-shaped magnetic core 2 to cover the coil lead wire 3. Further, the resin 6 covers one side of the collar portion. In such a coil 1, a closed magnetic circuit is formed by the drum-shaped magnetic core 2 and the resin 6, and a shield effect can be obtained.

[0004]

In the coil 1 shown in FIG. 4, the first magnetic flux A and the second magnetic flux B as shown in FIG.
Occurs. The first magnetic flux A passes through the drum-shaped magnetic core 2. In addition, the second magnetic flux B is generated around a part of the coil 1 so as to pass through a portion having a small magnetic resistance. However, since the second magnetic flux B does not flow so as to interlink with the entire coil 1, the inductance cannot be efficiently obtained.

Therefore, a main object of the present invention is to provide an inductor which can efficiently obtain an inductance.

[0006]

SUMMARY OF THE INVENTION According to the present invention, a drum-shaped magnetic core having a columnar portion formed in the central portion and flange portions at both ends thereof, and a columnar portion of the drum-shaped magnetic core are wound. A first resin layer that does not contain a magnetic material and is formed between the coil conductor and the two collar-shaped portions and that does not contain a magnetic material, and a first resin layer between the two collar-shaped portions. And a second resin layer containing a magnetic material formed so as to cover the outer periphery of the collar-shaped portion.

[0007]

The magnetic resistance of the first resin layer containing no magnetic substance is large, and the magnetic resistance of the second resin layer containing the magnetic substance is small. Then, the drum-shaped magnetic core and the second resin layer form a closed magnetic circuit.

[0008]

According to the present invention, it is difficult for magnetic flux to pass through the first resin layer portion having a large magnetic resistance. Therefore, the magnetic flux passes through the closed magnetic circuit formed by the drum-shaped magnetic core and the second resin layer. Therefore, the magnetic flux interlinking with all the conductors for coils becomes large, and the inductance can be efficiently obtained. That is, the coupling coefficient can be increased in the transformer and the inductance can be increased in the coil.

The above-mentioned objects, other objects, features and advantages of the present invention will become more apparent from the following detailed description of embodiments with reference to the drawings.

[0010]

1 is a schematic view showing a coil which is an example of an inductor according to the present invention, and FIG. 2 is a schematic cross sectional view of the coil shown in FIG. Coil 10 includes a drum-type ferrite magnetic core 12 formed of a magnetic material such as ferrite. The drum-shaped ferrite magnetic core 12 has a columnar portion formed at the center and flange portions at both ends thereof.
A coil lead wire 14 is wound around the columnar portion of the drum-type ferrite magnetic core 12. Both ends of the coil wire 14 are
It is connected to the electrode 16 and terminated.

Further, so as to cover the coil lead wire 14,
The first resin layer 18 is formed. This first resin layer 18
Does not include a magnetic material. On the first resin layer 18, between the flange-shaped portions of the drum-type ferrite magnetic core 12, the second
The resin layer 20 is formed. Further, the second resin layer 20
Is formed so as to cover one side of the collar-shaped portion. The second resin layer 20 contains a magnetic material such as ferrite.

In this coil 10, the drum type ferrite magnetic core 12 and the second resin layer 20 form a closed magnetic circuit.
The magnetic resistance of this closed magnetic circuit is small. On the other hand, the first resin layer 18 does not contain a magnetic substance, and thus has a large magnetic resistance. Therefore, in this coil 10, the magnetic flux A mainly shown in FIG. 2 is generated. The magnetic flux A passes through the drum-shaped ferrite magnetic core 12. That is, the magnetic flux A links the entire coil 10. On the other hand, the first
Since the magnetic flux does not easily pass through the resin layer 18, the magnetic flux interlinking only with a part of the coil conductor 14 is unlikely to be generated. That is, most of the magnetic flux generated by the current flowing through the coil conductor 14 passes through the inside of the drum-type ferrite magnetic core 12.

The self-inductance L is determined by how many magnetic fluxes are linked to the coil as expressed by the following equation. L = N ¢ (N ¢ ... number of magnetic flux linkages)

Therefore, according to the present invention, most of the generated magnetic flux links the entire coil, so that the inductance can be efficiently obtained.

That is, if the magnetic cores of ferrite and the like have the same size, a larger inductance can be obtained.
Further, if the same inductance is obtained, the number of windings can be reduced and the DC resistance can be reduced, so that the current that can be passed can be increased. Further, if the structure of the present invention is applied to a transformer, the coupling coefficient can be increased.

In this embodiment, the second resin layer 20
Is formed so as to cover one of the collar-shaped portions, but it may be formed so as to cover both of the collar-shaped portions. Further, in this embodiment, ferrite is mixed in the first resin 18, but any magnetic material may be used. Furthermore, drum type ferrite core 1
The terminal treatment of 2 may be either a lead wire drawing type or a surface mounting type. Further, in this embodiment, the case of the coil has been described, but the same applies to the case of the transformer.

[Brief description of drawings]

FIG. 1 is an illustrative view showing a coil which is an example of an inductor according to the present invention.

FIG. 2 is a schematic sectional view of the coil shown in FIG.

FIG. 3 is a perspective view showing a coil which is an example of a conventional inductor.

FIG. 4 is an illustrative view showing a coil which is another example of the conventional inductor.

5 is a schematic sectional view of the coil shown in FIG.

[Explanation of symbols]

 10 Coil 12 Drum Type Ferrite Magnetic Core 14 Coil Conductor Wire 18 First Resin Layer 20 Second Resin Layer

Claims (1)

[Claims] 1. A drum-shaped magnetic core having a columnar portion formed at a central portion and flange portions formed at both ends thereof, a coil wire wound around the columnar portion of the drum-shaped magnetic core, and the two A first resin layer that does not contain a magnetic material and is formed so as to cover the coil lead wire between the flange portions;
And an inductor including a second resin layer containing a magnetic material formed between the two collar-shaped portions to cover the first resin layer and further to cover an outer periphery of the collar-shaped portion.