KR101704167B1 - Electromagnetic wave shield apparatus and electronic device having the same - Google Patents

Abstract

The present invention provides a magnetic sensor comprising: a first magnet portion disposed on an upper portion of a boundary connecting different spaces; And a second magnet unit disposed at a lower portion of the boundary so as to be spaced apart from the first magnet unit by a predetermined distance.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an active type electromagnetic wave shielding device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an active variable electromagnetic wave shielding apparatus, and more particularly, to an active variable electromagnetic wave shielding apparatus capable of easily forming a variable electromagnetic field forming region using an electromagnet or a ferromagnetic material and shielding strong electromagnetic waves, And an electronic apparatus having the same.

In general, the main facility or equipment is applied to cut off electromagnetic waves to ensure safety from external strong electromagnetic attacks.

For example, strong electromagnetic waves, such as electromagnetic pulse (EMP), are difficult to confine and block effectively with conventional passive blocking devices, which can damage or destroy major facilities or equipment and prevent them from performing their primary functions.

Further, in a device such as a microwave oven in everyday life, a waveguide is attached between the oven cavity and the magnetron to guide the electromagnetic waves generated from the magnetron to the inside of the oven cavity.

However, in the case of a small-sized electronic device having a certain size or less, it is difficult to apply a method based on a cutoff frequency theory, which is a method of shielding electromagnetic waves with a waveguide size and a length according to a conventional frequency, .

The prior art related to the present invention is Korean Public Release No. 20-1998-0010283 (published on May 15, 1998).

It is an object of the present invention to provide an active variable electromagnetic wave shielding device capable of easily forming an electromagnetic field forming region by using an active variable electromagnet or a ferromagnetic material and using the same to easily cut off electromagnetic waves and an electronic apparatus having the same.

It is another object of the present invention to provide an active variable electromagnetic interference (EMI) interrupter capable of effectively controlling the electromagnetic wave shielding capability by variably controlling the intensity of an electromagnetic field forming region and an electronic apparatus having the same.

In a preferred aspect, the present invention provides a magnetron comprising: a first magnet portion disposed on an upper portion of a boundary connecting different spaces; And a second magnet portion disposed at a lower portion of the boundary so as to be spaced apart from the first magnet portion by a predetermined distance.

An electromagnetic field forming region is formed between the first magnet portion and the second magnet portion, in which an electromagnetic field for blocking electromagnetic waves is formed.

It is preferable that a distance between the first magnet portion and the second magnet portion is variable.

Each of the first magnet portion and the second magnet portion may include a plurality of unit magnets slidingly coupled with each other.

Preferably, the widths of the plurality of unit magnets are adjustable by sliding motion between the plurality of unit magnets.

In addition, it is preferable that each of the first magnet portion and the second magnet portion is electrically connected to the current supplier.

And is formed of an electromagnet in which magnetization or magnetization is released according to whether or not a current is supplied from the current supplier.

The current supplier is electrically connected to the controller.

Preferably, the controller variably controls the magnetic field intensity of the magnetic field forming region by variably controlling the current value provided to the first magnet portion and the second magnet portion through the driving of the current supplier .

Each of the first magnet portion and the second magnet portion may be formed of a flexible material having a variable shape.

The present invention has the effect of forming an electromagnetic field forming region therebetween by using a pair of mahnelets so as to be spaced apart from each other at boundaries between different spaces and disturbing the electromagnetic waves generated in the outside easily.

In addition, the present invention has an effect that the area of the electromagnetic field forming region between the first and second magnet portions can be variably controlled to easily cope with the size.

In addition, the present invention has an effect that the first and second magnet portions are formed of electromagnets, and the electromagnetic field intensity of the electromagnetic field forming region is variably controlled, thereby blocking the electromagnetic field strength corresponding to the intensity of the electromagnetic wave.

1 is a view showing an active variable electromagnetic wave shielding apparatus according to the present invention.
2 is a view showing an example in which the upper and lower intervals of the first and second magnet portions according to the present invention are variable.
3 is a view showing an example in which the widths of the first and second magnet portions according to the present invention are variable.
4 is a view showing an example in which the shapes of the first and second magnet portions according to the present invention are variable.
5 is a view showing an example in which the first and second magnet portions according to the present invention are constituted by electromagnets.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an active variable electromagnetic wave shielding apparatus and an electronic apparatus having the same according to the present invention will be described with reference to the accompanying drawings.

An electronic apparatus according to the present invention has an active variable electromagnetic wave shielding device.

1 is a view showing an active variable electromagnetic wave shielding apparatus according to the present invention.

Referring to FIG. 1, the active variable electromagnetic interference device of the present invention includes a first magnet unit 100 and a second magnet unit 200.

In the present invention, an example in which the first and second magnet units 100 and 200 are formed of a ferromagnetic material and an example in which the first and second magnet units are formed of electromagnets will be described.

First, an example in which the first and second magnet units 100 and 200 are made of a ferromagnetic material will be described.

As shown in FIG. 1, the first and second magnet units 100 and 200 are arranged in a state of being spaced apart from each other at a boundary B connecting different spaces.

Here, the first and second magnet units 100 and 200 may have the same size and may be disposed to face each other.

Therefore, an electromagnetic field is formed between the first and second magnet units 100 and 200. That is, an electromagnetic field area (EMFA) is formed.

The electric field and the magnetic field formed in the electromagnetic field forming region (EMFA) formed as described above can disturb the electromagnetic wave generated from the outside, and thus the electromagnetic wave can be easily blocked.

Meanwhile, the intensity and area of the electromagnetic field forming region (EMFA) according to the present invention can be variably controlled.

In order to achieve this, the present invention proposes an embodiment in which the interval between the first and second magnet units 100 and 200 is adjusted, the length thereof is adjusted, or the shape itself is varied.

2 is a view showing an example in which the upper and lower intervals of the first and second magnet portions according to the present invention are variable.

Referring to FIG. 2, when the first and second magnet units 100 and 200 are vertically spaced, the first and second magnet units 100 and 200 are fixed to the stationary frame 310. The fixed frame 310 may be formed of a non-magnetic material, a metal, or a non-metal material.

Each of the fixing members 310 for fixing the first and second magnet units 100 and 200 may be connected to the miniature actuator 320.

The small actuator 320 can lift a fixed frame by receiving a control signal from a controller 500, which will be described later.

Accordingly, the upper and lower gap of the first and second magnet units 100 and 200 can be easily adjusted, so that the upper and lower areas of the electromagnetic field forming region (EMFA) can be variably controlled.

3 is a view showing an example in which the widths of the first and second magnet portions according to the present invention are variable.

Referring to FIG. 3, when the length of the first and second magnet units 100 and 200 is adjusted, the first and second magnet units 100 and 200 may include a plurality of unit magnets 110 and 210.

The plurality of unit magnets 110 and 210 may be slidingly coupled with each other.

For example, in the case of sliding coupling, protrusions 111 and 211 are formed in one unit magnet 110 and 210, and sliding grooves 112 and 212, in which protrusions 111 and 211 are slidably fitted, are formed in neighboring unit magnets 110 and 210, respectively Lt; / RTI >

Of course, other coupling schemes may be possible.

Accordingly, by adjusting the sliding coupling length between the unit magnets 110 and 210 in the first and second magnet units 100 and 200, the length L of each of the first and second magnet units 100 and 200 can be variably controlled have.

Accordingly, the left and right widths W of the first and second magnet units 100 and 200 are easily adjusted, and accordingly, the area of the electromagnetic field forming region EMFA due to the variation of the width W can be variably controlled .

2 and 3, it is needless to say that the area of the entire electromagnetic field forming region EMFA can be adjusted by simultaneously adjusting the vertical distance and the width of the first and second magnet units 100 and 200.

Accordingly, in the present invention, the electromagnetic wave shielding area can be easily controlled by variably controlling the area of the electromagnetic field forming area (EMFA).

4 is a view showing an example in which the shapes of the first and second magnet portions according to the present invention are variable.

Referring to FIG. 4, each of the first and second magnet units 101 and 201 may be formed of a soft magnetic material.

Accordingly, the shape of each of the first and second magnet units 101 and 201 can be variably controlled.

Further, it is also possible to variably adjust only the area of a part of the entire electromagnetic field forming area EMFA by varying only the shape in the local area in each of the first and second magnet parts 101 and 201.

That is, when electromagnetic wave generation is increased in a specific region, the area of the electromagnetic field forming region (EMFA) corresponding to the specific region is adjusted, that is, the magnetic force lines are densely formed, so that the electromagnetic wave can be efficiently blocked.

Although not shown in the drawing, each of the soft first and second magnet units 101 and 201 is formed in a state in which the shape of the first and second magnet units 101 and 201 is variable through the fixing members 310 of non-magnetic and metal and non- Lt; / RTI >

Next, an example in which the first and second magnet units 102 and 202 are composed of electromagnets will be described.

5 is a view showing an example in which the first and second magnet portions according to the present invention are constituted by electromagnets.

Referring to FIG. 5, each of the first magnet portion 102 and the second magnet portion 202 is electrically connected to the current providing portions 410 and 420.

The current providing units 410 and 420 may include first and second current providing units 410 and 420 to provide current to the first and second magnet units 102 and 202, respectively.

The first and second current sources 410 and 420 are driven by receiving a control signal from the controller 500.

Accordingly, the first and second magnet units 102 and 202 may be magnetized by being supplied with current from the first and second current supply units 410 and 420, or the magnetization may be released by blocking the current supply.

The controller 500 variably controls a current value provided to the first magnet unit 102 and the second magnet unit 202 through the operation of the current providing units 410 and 420.

Accordingly, the controller 500 can variably adjust the intensity of the electromagnetic field in the electromagnetic field forming region (EMFA) formed between the first and second magnet units 102 and 202.

That is, in the present invention, by controlling the intensity of the electromagnetic field in the electromagnetic field forming region (EMFA), the electromagnetic wave blocking efficiency for disturbing and canceling the electromagnetic wave can be controlled.

In addition, the first and second magnet units 102 and 202 formed of electromagnets can adjust the gap L between the upper and lower sides of the first and second magnet units 100 and 200 as described with reference to FIGS. 2 to 4, The method of adjusting the area of the electromagnetic field forming area EMFA by adjusting the width W or varying the shape itself may be equally applied.

Meanwhile, although not shown in the figure, the controller 500 may be connected to a measuring device (not shown) for measuring the intensity of electromagnetic waves to receive the measured electromagnetic wave intensity.

The controller 500 may adjust the intensity of the electromagnetic field according to the intensity of the received electromagnetic wave.

Through the above-described structure and operation, in the embodiment of the present invention, a pair of magnet parts are spaced apart from each other at boundaries between different spaces to form an electromagnetic field forming region therebetween, disturbing electromagnetic waves generated from the outside , So that it can be easily blocked.

In addition, the embodiment of the present invention can easily adjust the size of the electronic device by variably controlling the area of the electromagnetic field forming region between the first and second magnet portions.

In addition, in the embodiment of the present invention, the first and second magnet portions are composed of electromagnets, and the magnetic field intensity of the electromagnetic field forming region is variably controlled, so that the first and second magnet portions can be blocked corresponding to the intensity of the electromagnetic wave.

Although the embodiments of the electromagnetic wave shielding apparatus of the present invention have been described above, it is apparent that various modifications can be made without departing from the scope of the present invention.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100, 101, 102: first magnet part
200, 201, 202: a second magnet section
310: Fixing member
320: Actuator
410, 420: current supplier
500: controller
EMFA: electromagnetic field forming region

Claims (7)

A first magnet disposed at an upper portion of a boundary connecting different spaces; And
And a second magnet portion disposed at a lower portion of the boundary so as to be spaced apart from the first magnet portion by a predetermined distance,
Wherein the first magnet portion and the second magnet portion are provided so as to face each other,
An electromagnetic field forming region in which an electromagnetic field for blocking electromagnetic waves is formed is formed between the first magnet portion and the second magnet portion,
Wherein each of the first magnet portion and the second magnet portion is electrically connected to a current supplier,
And an electromagnet in which magnetization or magnetization is released according to whether or not a current is supplied from the current provider,
The current supplier being electrically connected to the controller,
Wherein the controller variably controls a current value provided to the first magnet part and the second magnet part by driving the current provider to variably adjust a magnetic field strength of the magnetic field forming area,
The controller is connected to a measuring device for measuring an intensity of an electromagnetic wave of the outside, receives the measured electromagnetic wave intensity,
The controller variably adjusts the intensity of the magnetic field in the magnetic field forming region according to the transmitted electromagnetic wave intensity,
Wherein a distance between the first magnet portion and the second magnet portion is variable,
Each of the first magnet portion and the second magnet portion is fixed to a fixed frame formed of a non-magnetic material,
Wherein each of the first magnet portion and the second magnet portion includes:
A plurality of unit magnets slidingly coupled with each other,
The width of the left and right magnets can be adjusted by the sliding operation between the plurality of unit magnets,
A protrusion is formed in one unit magnet of the plurality of unit magnets and a sliding groove is formed in the unit magnet adjacent to the unit magnet so that the protrusion is inserted and slid,
Wherein each of the first magnet portion and the second magnet portion is formed so that only the shape in the local region is variable so that only the area of a part of the electromagnetic field forming region is variably controlled.
delete delete delete delete delete An electronic device comprising the active variable electromagnetic interference device of claim 1.

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