KR20080004825U - Coil line filter and trans - Google Patents

Abstract

The present invention relates to a coil, a line filter, and a transformer, and more particularly, in a coil, a line filter, and a transformer in which the wire is wound, when the wire is oxidized while surrounding an inner core made of aluminum material and the surface of the inner core, The present invention relates to a coil, a line filter, and a transformer including a coating made of a metal material having an melting point of oxide of 1100 degrees or less.

Inner core, sheath, insulator

Description

Coil, line filter and trans

1 is a conductive wire according to the prior art.

FIG. 2 is a II-II cross-sectional view of FIG. 1. FIG.

3 is a coil, a line filter, and a transformer according to the present embodiment.

4 is a conductive wire used in the coil, line filter and transformer of FIG.

5 is a cross-sectional view taken along line IV-IV of FIG. 4.

<Detailed Description of Drawings>

1 ... conductive wire 10 ... inner core

20 ... sheath 30 ... insulator

40 ... coil 50 ... coil

60 line filter 70 transformer

The present invention relates to a coil, a line filter, and a transformer, and more particularly, to a coil, a line filter, and a transformer in which a conductive wire using an aluminum material is wound therein.

In general, the conductive wire 100 used for coils, line filters, and transformers to flow current may be made of only one metal material as shown in FIGS. 1 and 2.

For example, the conductive wire 100 may be made of only copper. However, since copper is expensive and heavy in weight, it is not preferable to use the conductive wire 100 only with copper.

On the other hand, although aluminum has a lower electrical conductivity (also referred to as electrical conductivity in an amount that indicates a good current flow in a material) than copper, it has been attempted to use aluminum having a light weight per unit volume as the conductive wire 100. Although aluminum is more expensive than copper for the same weight, it is known that it is economical to use aluminum for the same volume because the specific gravity of aluminum is lower than that of copper.

That is, since the specific gravity is 8.9 for copper and the specific gravity is 2.72 for aluminum, when the conductive wire 100 is produced to have the same volume by using copper and aluminum, the conductive wire 100 of aluminum material is made of copper material. It has a weight about 1/3 less than the conductive wire 100. Accordingly, it is economical to use aluminum if it is not more than three times more expensive per unit weight than copper.

However, when a conductive wire using only aluminum is used for the coil, the lil filter, and the transformer, there are the following problems.

In the case of aluminum, the bonding performance of each other is lower than that of copper. That is, when soldering to connect two disconnected conductive wires, aluminum has a high melting point and is not easy to join each other. The reason for this is as follows.

In general, soldering is an operation in which a separate metal or alloy having a lower melting point than a metal to be joined is melted with the metal of the base material, that is, an operation of joining metal pieces of the base material by melting lead using lead. Say

In this soldering, the part of the base material in contact with lead must be melted and alloyed together with lead so that the lead and the base material can be bonded to each other. Therefore, soldering becomes difficult when the melting point of the base material is too high.

In the case of aluminum, the melting point is about 660 ° C, but when oxidized at a high temperature, the melting point of the oxide is considerably high, about 270 ° C. Therefore, in order to melt aluminum, a considerable amount of high temperature heating must be performed.

In addition, aluminum has a large expansion coefficient, a large deformation, easy to crack, and easy to absorb gas, so that soldering is difficult.

Therefore, as described above, when the conductive wire is produced using only copper, the manufacturing cost and the weight thereof are increased, and when the conductive wire is produced using only aluminum, there is a problem in that the bonding between them is not easy. In addition, the production of such a conductive wire has a problem of increasing the manufacturing cost and weight of the coil, line filter and transformer using the conductive wire.

The present invention has been made to solve such a problem, it is an object of the present invention to provide a coil, a line filter and a transformer using a conductive wire that is easy to join each other while reducing the weight.

In the coil, line filter and transformer wound wire to achieve this purpose, the wire is made of an inner core made of aluminum material and a metal material having a melting point of oxide of 1100 degrees or less when it is oxidized covering the surface of the inner core. It consists of the coating which consisted of.

In the coil, the line filter and the transformer, the metal material constituting the coating is preferably copper.

In the coil, the line filter and the transformer, the weight ratio of the inner core and the covering is preferably 55:45 to 65:35.

In the coil, line filter and transformer, it is preferable that an insulator is coated on the surface of the covering.

In the coil, line filter and transformer, the insulator is preferably enamel.

Hereinafter, an embodiment according to the present invention will be described with reference to the drawings.

3 is a coil, a line filter, and a transformer according to the present embodiment, FIG. 4 is a conductive wire used in FIG. 3, and FIG. 5 is a cross-sectional view taken along line IV-IV of FIG. 3.

The conductive wire 1 wound around the coil, the line filter, and the transformer according to the present embodiment includes an inner core 10, a cover 20, and an insulator 30.

The inner core 10 is made of aluminum, has a circular cross section and has a shape extending in one direction. The cross-sectional shape of the inner core 10 may also have a cross section of a square or other polygons, if necessary, in addition to the circular shape.

The covering body 20 surrounds the surface of the inner core 10. The covering body 20 is provided to extend along the longitudinal direction of the inner core (10). The material forming the coating 20 is preferably made of a metal material having a melting point of 1100 ° C. or less when oxidized with lead for soldering. Specifically, the metal material is preferably copper, but other copper-nickel alloys and other copper alloys may be used.

It is preferable that the inner core 10 and the cover 20 have a weight ratio of 55:45 to 65:35, more preferably 60:40. In this case, when the weight of the inner core 10 has a ratio less than 55% of the weight of the entire conductive wire 1, since the amount of aluminum is small and the amount of copper is large, it may be difficult to sufficiently reduce the manufacturing cost. In addition, the total weight of the conductive wire 1 increases, which is undesirable.

In addition, when the weight of the inner core 10 has a ratio higher than 65% of the weight of the entire conductive wire 1, the amount of aluminum is large and the amount of copper is small, so that the overall conductivity is lowered (this is a problem of copper Electrical conductivity is higher than that of aluminum), and the amount of coated copper is small so that sufficient bonding strength cannot be obtained during soldering.

The insulator 30 is coated on the surface of the cover 20 to prevent current flowing through the copper or aluminum from flowing out. The insulator 30 is preferably enameled, but any material may be used as long as the current does not flow out to the outside.

The insulator 30 is provided to extend along the longitudinal direction of the cover 20.

The coil, line filter, and transformer according to the present embodiment having such a configuration have the following advantages.

The conductive wire used in the coil, the line filter and the transformer according to the prior art is made of copper or aluminum, but if only copper, the weight is heavy and the unit cost is high. In addition, there is a problem that it is difficult to connect two conductive wires if only made of aluminum.

However, in this embodiment, since the aluminum material is used as the inner core of the conductive wire used for the coil, the line filter, and the transformer, not only can the manufacturing cost be sufficiently increased, but also the outer surface of the copper sheath is wrapped, so that the temperature The two conductive wires can also be joined by soldering.

In the case of copper, the general melting point is about 1000 ° C., and when the oxide is oxidized for soldering, the melting point of the oxide is about 1000 ° C., and thus the melting point is lower than 2700 ° C., which is the melting point of aluminum oxide.

If too little copper is used, it will be difficult to have the bonding strength necessary to connect the two wires together due to the small amount of lead and melt as described above. If too much copper is used, the weight and cost of the overall conductive wire as described above It is not preferable because it increases.

The conductive wires used in the coil, line filter, and transformer according to the present invention may also consider the following modifications.

First, in the above-described embodiment, it is mentioned that the insulator is wrapped in the conductive wire. However, when the strength of the current flowing through the conductive wire is weak, it is also possible to use the conductive wire made of only the inner core and the sheath without using the insulator. .

In addition, although only copper or a copper alloy is mentioned above as a material for forming a coating, any metal material having a melting point of 1100 ° C. or less when oxidized may be used.

Although the present invention has been described in detail with reference to various embodiments and modifications, the present invention is not necessarily limited to these embodiments and modifications, and various modifications may be made without departing from the spirit of the present invention. Can be.

When the conductive wire as described above is used for the coil line filter and the transformer, the overall manufacturing cost and weight can be reduced.

Claims (5)

In coils, line filters and transformers wound with wires, The wire is a coil, a line filter and a transformer, characterized in that it comprises an inner core made of aluminum material and a coating material made of a metal material having a melting point of 1100 degrees or less when the oxide is wrapped around the surface of the inner core and oxidized. The method of claim 1, Coil, line filter and transformer, characterized in that the metal material constituting the coating body is copper.  The method according to claim 1 or 2, Coil, line filter and transformer, characterized in that the weight ratio of the inner core and the coating body is 55:45 to 65:35. The method of claim 1, A coil, a line filter, and a transformer, characterized in that the surface of the covering is covered with an insulator. The method of claim 4, wherein Coil, line filter and transformer, characterized in that the insulator is enamel.

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