KR200166183Y1 - Electric wire for shielding electromagnetic wave - Google Patents

Abstract

The present invention relates to an electromagnetic shielding wire, wherein the electromagnetic shielding wire comprising at least one inner conductor (10) and a covering layer (20) surrounding the inner conductor (10), the covering layer (20) is the inner A shielding film 21 for shielding the electromagnetic wave generated from the inner conductor 10 by wrapping the conductive wire 10 as a whole, and an insulating sheath 22 surrounding the shielding film 21. It is made of a ferromagnetic nickel and cobalt-based alloy having a magnetic permeability to minimize the health problems on the human body, and to provide an electromagnetic shielding wire that can minimize data errors or energy transmission loss of the electronic media.

Description

Electric wire for shielding electromagnetic wave

The present invention relates to an electromagnetic shielding wire, and more particularly, to a shielding film of nickel and cobalt-based alloy is formed inside the coating layer surrounding the inner conductor to shield the electromagnetic wave generated from the inner wire.

In general, electromagnetic waves are waves in which vibrations caused by periodic changes of electricity and magnetism are spread out into a space. The space exerted by the force of electricity is called the electric field or electric field, and the space exerted by the force is called the magnetic field or magnetic field. In particular, electric and magnetic fields exist around the conductors due to the flow of current through the conductors during the transmission of power and signals.

Such an electric field is largely blocked by a highly conductive object or a grounding device, but the magnetic field is not easily blocked due to its permeability.

In addition, the magnetic field may affect hormone secretion, signaling system, metallic elements constituting the human body when exposed to the human body, and may also affect other electronic media.

Electromagnetic waves can cause symptoms such as drowsiness, insomnia, nervousness, headache, decreased melatonin hormone involved in sound sleep, and decreased pulse rate.They include leukemia, lymph cancer, brain cancer, central nervous system cancer, breast cancer, dementia, miscarriage and birth defects. Etc. In addition, malfunctions and data errors occur in peripheral electronic media.

Among such electromagnetic wave generating elements, electric wires for power and signal transmission, such as aerial lines, underground lines, and communication lines, have an electromagnetic field formed from internal conductors, and electromagnetic waves are generated therefrom, thereby causing problems as described above.

In addition, electromagnetic waves act as an important factor that interferes with various normal operations, such as an external magnetic field affecting the inside of a wire and causing malfunctions by acting as noise factors, data errors, or energy transfer loss factors in electronic media, and the like.

The object of the present invention is to provide an electromagnetic wave shielding wire in which a shielding film of nickel and cobalt alloy is formed inside a coating layer to shield electromagnetic waves generated from the inner conductor of the wire. have.

1 is a perspective view showing an electromagnetic shielding wire according to an embodiment of the present invention,

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

3 is a perspective view illustrating a state in which the shielding film of FIG. 1 is wound in a tape form on an inner conductor;

4 is a perspective view illustrating a state in which the shielding film of FIG. 1 is surrounded by an inner conductor in a paper form.

5 is a perspective view showing an electromagnetic shield wire according to another embodiment of the present invention,

6 is a cross-sectional view of FIG. 5,

FIG. 7 is a perspective view illustrating a state in which the shielding film of FIG. 5 is wound in a tape form on an inner conductor;

FIG. 8 is a perspective view illustrating a state in which the shielding film of FIG. 5 is surrounded by an inner conductor in a paper form.

≪ Description of Codes for Major Parts of Drawings>

10 ... inner conductors 11 ... conductors

12 ... insulation lining 13 ... filler

20 ... sheath 21 ... shield

21a ... antioxidant 22 ... insulated sheath

In order to achieve the above object, the electromagnetic shielding wire according to the present invention comprises at least one inner conductor and a covering layer surrounding the inner conductor, wherein the covering layer surrounds the inner conductor as a whole. And a shielding film for shielding electromagnetic waves generated from the inner conductor, and an insulating envelope surrounding the shielding film, wherein the shielding film is made of a ferromagnetic nickel and cobalt-based alloy having a high permeability.

Here, the shielding film is preferably wound in a tape form on the inner conductor, and preferably surrounded by a paper form on the inner conductor.

In addition, the shielding film is preferably coated with an antioxidant coating, it is preferable to have a thickness in the range of about 8㎛ 0.4mm.

Therefore, according to the present invention, a shielding film of nickel and cobalt alloy is formed inside the coating layer surrounding the inner conductor to shield electromagnetic waves generated from the inner conductor, thereby minimizing health problems to the human body, and data error or energy such as an electronic medium. Its characteristics are that it minimizes the transmission loss.

The electromagnetic shielding wire according to a preferred embodiment of the present invention having such a feature will be described in detail.

As shown in Figure 1 and 2, the electromagnetic shielding wire according to an embodiment of the present invention is a medium through which the current flows at the same time the current flows while performing power or signal transmission, such as aerials, underground lines and communication lines It is to shield the electromagnetic wave generated to the outside.

The electromagnetic shielding wire includes an inner conductor 10 in which an insulation shell 12 is coated around each of the plurality of conductors 11, and a covering layer 20 surrounding the entire of the inner conductor 10. Here, in the drawing according to the embodiment of the present invention, the inner conductor 10 is illustrated as two strands, but the present invention is not limited thereto, and several strands may be provided. Reference numeral 13 denotes a filler that is filled so that the inner conductor 10 is aligned with the core of the coating layer 20.

The coating layer 20 surrounds the entire inner conductor 10 together with the filler 13 filled so that the inner conductor 10 is aligned, and a shielding film 21 for shielding electromagnetic waves generated from the inner conductor 10. An insulating envelope 22 surrounding the shielding film 21 is provided.

The shielding film 21 is made of a ferromagnetic nickel and cobalt-based alloy, and the nickel and cobalt-based alloys are high-investment materials and aggregate and seal the path of the magnetic field so as not to pass electromagnetic waves, in particular, the magnetic field, thereby preventing emission to the outside. .

In addition, the shielding film 21 preferably has a thickness in the range of 8 μm to 0.4 mm. Thus, the shielding film 21 formed with a thin thickness is suitable for the trend of light weight of the electric wire in recent years due to the low weight. In addition, since the price is low and the thickness is thin, it is easy to cut and the workability is excellent.

In addition, since the shielding film 21 is a nickel and cobalt-based alloy is a conductive material, the anti-oxidation film 21a laminated on both surfaces is formed to insulate conductivity. This prevents the leakage current minutely discharged from the inner conductor 10 to flow to the outside. In addition, when the shielding film 21 is applied to the underground line, the shielding film 21 is not corroded by moisture contained in the ground.

As illustrated in FIG. 3, the shielding film 21 may be formed by winding a tape around the inner conductor 10. Alternatively, as shown in FIG. 4, a paper may be formed. It may be surrounded by the inner conductor 10 in the form.

For reference, the material of the insulation shell 12 and the insulation shell 22 is suitable for the material of PE (polyethylen), PVC (polyvinylchloride), or XLPE (cross-line polyethylen), although not shown in the drawings A known separator and / or binder tape may be interposed between the conductive wire 10 and the shielding film 21.

In addition, a copper tape and / or a binder tape may be interposed between the inner conductor 10 and the shielding film 21, and the shielding film 21 may be copper tape and / or binder according to the convenience and importance of the manufacturing method. It can also be substituted with tape.

Meanwhile, as shown in FIGS. 5 to 6, the electromagnetic shielding wire according to another exemplary embodiment of the present invention is provided with the insulation inner shell 12 coated on the outside of the plurality of conductors 11 in a bare state. An inner conductor 10 and a coating layer 20 surrounding the inner conductor 10 are provided.

The coating layer 20 includes a shielding film 21 covering the circumference of the insulating shell 12 and an insulating shell 22 surrounding the shielding film 21. Here, as shown in FIG. 7, the shielding film 21 may be formed in a tape form on the insulation inner shell 12, or as shown in FIG. 8, so as to be surrounded by the insulation inner shell 12 in a closed wiper form. It may be.

Therefore, the electromagnetic waves generated from the inner conductor 10, that is, the magnetic field passing through the human body, are aggregated by the shielding film 21 of nickel and cobalt-based alloys surrounding the inner conductor 10, thereby preventing the magnetic force lines from being emitted to the outside. Can be. That is, since the shielding film 21 is made of a ferromagnetic material having a high permeability, the magnetic field passes through the shielding film 21 to block divergence to the outside.

This eliminates the health problems caused by the transmission of electromagnetic waves from wires exposed to the outside and underground wires to the human body, noise factors such as electronic media, and negative factors such as data errors and energy transmission losses. .

In addition, since the shielding film 21 of nickel and cobalt-based alloys, which is a feature of the present invention, can be formed in a thin thickness, it can meet the light weight of the electric wire, and the workability is excellent, leading to an improvement in production efficiency.

As described above, the electromagnetic shielding wire according to the present invention is to form a shielding film of nickel and cobalt-based alloy inside the coating layer surrounding the inner conductor to minimize the health problems to the human body by shielding the electromagnetic waves generated from the inner conductor, The first advantage is that it minimizes data errors and energy transfer losses by preventing the inflow and outflow of electromagnetic influences such as electronic media.

In addition, by using a nickel and cobalt-based alloy capable of forming a thin thickness can meet the light weight of the wire, there is a second advantage in improving the production efficiency due to excellent workability.

Claims (5)

In the electromagnetic shielding wire comprising at least one inner conductor (10) and a coating layer (20) surrounding the inner conductor (10), The coating layer 20 has a shielding film 21 for shielding the electromagnetic waves generated from the inner conductor 10 by wrapping the inner conductor 10 as a whole, and an insulating shell 22 surrounding the shielding layer 21. , The shielding film 21 is an electromagnetic shielding wire, characterized in that made of ferromagnetic nickel and cobalt-based alloy having a high permeability. The method of claim 1, The shielding film (21) is an electromagnetic shielding wire, characterized in that wound in the tape form on the inner conductor (10). The method of claim 1, The shielding film 21 is an electromagnetic shielding wire, characterized in that the inner conductor (10) surrounded by a paper type. The method of claim 1, The shielding film 21 is an electromagnetic shielding wire, characterized in that the antioxidant coating (21a) is laminated. The method of claim 1, The shielding film (21) has an electromagnetic shielding wire, characterized in that having a thickness in the range of about 8㎛ 0.4mm.