KR20130070122A - Power generating apparatus using magnetic filed and screen - Google Patents

Abstract

PURPOSE: A power generating system using a spatial magnetic field and a border membrane is provided to implement various powers. CONSTITUTION: A power generating system using a spatial magnetic field and a border membrane includes multiple tunnel type tubular bodies (4). The tubular bodies are arranged at a revolution orbit (2). An internal space part has a magnetic field opposite to the magnetic pole of a surface inside the tubular body. An external space part has a magnetic field opposite to the magnetic pole of the internal space part. A shaft rotating frame (16) is connected to a power transmitting part. A magnetic pole converting control part converts the magnetic pole of an electromagnet (20).

Description

Power generating device using space magnetic field and shielding film {POWER GENERATING APPARATUS USING MAGNETIC FILED AND SCREEN}

The present invention relates to a power generating apparatus using magnetic force, and more particularly, to a power generating apparatus for generating power by using a space magnetic field and a blocking film formed inside and outside of a tunnel-shaped cylinder that is a magnetized body.

There are many devices and systems that use magnets or magnetic fields.

As an example of the prior art, Korean Patent Laid-Open Publication No. 2001-0020841 entitled "ALF body coil" is used in a magnetic resonance imaging system, and Korean Patent Publication No. 2001-0075537 "Magnetic Field Homogeneous Spatial Structure" And to minimize the adverse effects on the malfunction, failure, and the living body of the electronic equipment in the house and the office due to the local geomagnetic disturbance.

In addition, Korean Patent Publication No. 10-2009-0007456 "magnetic power transmission device" can improve the power transmission efficiency and transmission capacity while maintaining the advantage of the power transmission through the magnetic force, and can reduce the manufacturing cost. The present invention discloses a magnetic power transmission device, and Korean Patent Laid-Open Publication No. 10-2011-0116983, "Power generating device using gravity and magnetic force," initially locates a weighted body on which a rotary propulsion rod is connected to a drive motor with little power. It is disclosed that infinite rotational power can be obtained as long as it is moved.

If you can use this variety of magnetic forces, but you can implement a method that can actually be implemented and the components are simpler and more easily generate power, you will be well received by people.

Therefore, an object of the present invention is to provide a device that can be used to implement the magnetic field, but using a real magnetic field and the shielding membrane, the component is simple and can generate power more easily.

In accordance with the above object, the present invention is a power generating device using a space magnetic field and a blocking film, the array of multiple tunnel-like cylinders (4) in the orbit (2), each tunnel-like cylinder 4 is the inner and outer surface of the cylinder (4a) N and S magnetic poles are formed opposite to each other in (4b), and a magnetic field opposite to magnetic poles in the inner cylindrical surface portion (4a) is formed in the cylindrical inner space portion (6), and the outer space between adjacent tunnel-like cylindrical bodies (4) is formed. In the part 8, a magnetic field opposite to the magnetic field of the inner space part 6 is formed, and the inner side and the outer side have opposite magnetic poles on the inlet side 10 and the outlet side 12 of the tunnel-shaped cylinder 4. Is composed of a magnetized body to allow the magnetic shielding film 14 to be formed, and the orbital trajectory is provided by installing an electromagnet 20 at each tip of the plurality of arms 18 extending radially to the swivel table 16 connected to the power transmission unit 22. It is configured to be rotatable along (2), and the electromagnet 20 passes through the blocking film 14 and the tunnel-shaped cylinder 4. By using the protection film (14) to pivot and characterized by having a magnetic pole conversion unit 24 for converting the magnetic poles of the electromagnet 20.

The tunnel cylinder 4 is formed of one of a cylindrical shape and a rectangular shape and the tunnel cylinder 4 is composed of a body cylinder 40 made of a magnetic material and a magnet 42 attached to the upper portion of the body cylinder 40 .

In constructing the tunnel-shaped cylinder 4 with a magnetized body, an S pole is formed at the inner surface portion 4a of the cylinder, and an N pole is formed at the outer surface portion 4b of the cylinder, and the N pole is formed at the inner space portion 6 of the cylinder. A magnetic field is formed and the cylindrical outer space portion 8 between the adjacent tunnel-like cylinders 4 has a spatial magnetic field forming a magnetic field of the S pole, and the inlet side 10 and the outlet of the tunnel-shaped cylinder 4 are formed. In the magnetic shielding film 14 on the side 12, the inner surface of the magnetic pole is formed with the N pole and the outer surface side with the S pole, so that power can be generated using the space magnetic field and the shielding film formed inside and outside the tunnel-shaped cylinder 4. The opposite polarity may be formed.

The present invention can generate power by using the space magnetic field and the shielding film formed on the inside and outside of the tunnel-type cylinder that is a magnetized body, so the structure of the power generating device is simple, can be practically implemented, and can obtain a variety of power to meet the needs of the consumer. There is an advantage to that.

1 is a schematic configuration diagram of a power generation apparatus using magnetic force according to an embodiment of the present invention,
Figs. 2 and 3 are perspective and sectional views of the lumbar ball in Fig. 1,
4 is a view for explaining the principle of generating the rotational power by using the magnetic field and the shielding film formed in the interior and exterior of the tunnel-shaped cylinder of the present invention,
5 is a schematic perspective view of a tunnel-type cylinder.

In the present invention, to discover the natural phenomena of the magnetic field of space and to generate power using the principles of the natural phenomena, the cloud looking down from the high layered and flat is considered to be the influence of the barrier layer of the Earth's space magnetic field, meteorite The rupture of the atmosphere is thought to be due to the collision with the barrier, and the planets of the solar system are also believed to be due to the in-line of the barrier.

As a result of constructing the spatial magnetic field using the actual magnetic force, the inventors of the present invention have found a natural magnetic field formation method using the magnetic force, the natural phenomenon in which the barrier film is formed, and the characteristics of the barrier film. Consists of polygonal, cylindrical, and spherical shape using magnetic force, but forms the inside as a space, and if the polarity of the magnet toward the inner space of the cylinder is N pole by changing the inside and outside polarity, the magnetic field of the inner space (inner space magnetic field) Contrary to expected, the S pole was formed.

In addition, it was confirmed that a membrane (in the present specification, a 'blocking membrane' or a 'magnetic blocking membrane') is formed at the inlet and outlet portions of the cylinder communicating with the outside of the cylinder, which are not easily penetrated by magnetization or hypoplastic bodies. Although the shape of the barrier film is not seen, the inventors examined the polarized magnets, and as a result, when the face of the boundary membrane and the surface facing the inside of the cylinder was the S pole, the surface facing the outside of the cylinder became the N pole.

Specific properties of the barrier film are as follows.

1) When the magnet is faced at a certain distance away from the barrier, it is strongly attracted and caught in the space where the barrier is formed so that it cannot be further progressed or retracted.

2) When the magnetic body [iron] is also faced at a certain distance away from the barrier film, it is strongly attracted and held in the space to prevent further progress or retreat at the site where the barrier film is formed.

It is referred to by the present inventors as a "blocking film" because of its natural property of holding a polarized magnet or a non-polar magnetic material [iron] neither furthering nor retreating. If the inner space magnetic field of the cylinder is the S pole on the outside of the barrier membrane, the N pole is formed in the space passing through the barrier membrane, and as the distance increases, the force of the phenomenon weakens, but continues to form a layer.

In the present invention, a magnetic field (called a 'space magnetic field') and a shielding film formed on the inside and outside of the cylinder are found and a power generating device is implemented using the same. The space magnetic field and the blocking film are used to actually implement and parts This is simple and easy to generate power.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, the tunnel-shaped cylinder 4, which is a magnetization body, forms a spatial magnetic field using the tunnel-shaped cylinder 4, and the blocking membrane 14 having opposite polarities on both sides also has an entrance to the tunnel-shaped cylinder 4. On the side 10 and the outlet side 12.

The tunnel-shaped cylinder 4, which is a magnetization chain, is constituted by a body cylinder 40, which is a magnetic body, and a magnet 42, which is magnetically attached to the upper surface of the body cylinder 40. The inside of the tunnel-shaped cylinder 4 is formed with an internal space portion 6 like a tunnel, and the cylindrical shape is formed into a cylindrical shape or a polygonal shape. In the case of a polygon, it may be formed of a quadrilateral, an octagon, a hexagon, and the like, and a flat magnet 42 may be attached to each side of the polygonal body cylinder 40.

The N and S magnetic poles are formed opposite to each other on the inner and outer surface portions 4a and 4b of the cylinder and the inner surface portion 4a of the cylinder body is formed in the inner cylinder space portion 6, A magnetic field opposite to the magnetic field of the internal space portion 6 is formed in the external space portion 8 of the cylinder between the mutually adjacent tunnel-shaped cylinders 4. In addition, a magnetic shielding film 14 is formed on the inlet side 10 and the outlet side 12 of the tunnel-shaped cylinder 4 in which the inner side and the outer side have opposite magnetic poles.

4, an S pole is formed on the inner surface portion 4a of the cylinder, an N pole is formed on the outer surface portion 4b of the cylinder body, and an N pole magnetic field is formed in the inner space portion 6 of the cylinder And has a spatial magnetic field in which a magnetic field of the S-pole is formed in the outer cylinder space 8 between the tunnel-shaped cylinders 4 formed adjacent to each other. At this time, on the inlet side 10 and the outlet side 12 of the tunnel-shaped cylinder 4, a very thin and invisible magnetic shielding film 14 having a thickness of not more than a few millimeters (1-7 mm) is formed. The inner surface side of the blocking film 14 facing the entrance side 10 and 12 of 4) is formed with the same N pole as the magnetic field of the cylinder inner space part 6, and the opposite S pole is formed with the outer surface side of the blocking film 14. do.

On the contrary, in the case where the N pole is formed on the cylindrical inner surface portion 4a and the S pole is formed on the outer cylindrical surface portion 4b, the polarities opposite to the above are formed. In other words, the magnetic pole of the S pole is formed in the cylindrical inner space portion 6, and the outer magnetic space portion 8 between the tunnel-shaped cylinders 4 adjacent to each other has a spatial magnetic field in which the magnetic field of the N pole is formed. In addition, the inner surface side of the shielding film 14 facing the entrance and exit sides 10 and 12 of the tunnel-shaped cylinder 4 is formed with an S-pole similar to the magnetic field of the cylinder inner space part 6, and the outer surface side of the blocking film 14 is opposite. The N pole of is formed.

In the present invention, a plurality of tunnel-like cylinders 4 as described above are used to obtain power.

In order to generate power using the tunnel-shaped cylinder 4, in the present invention, the electromagnet 20 is provided at each tip of the multiple arms 18 radially extending to the axial rotating table 16. The shaft rotating table 16 is configured to be connected to the power transmitting portion 22 such as a pulley for transmitting rotating power.

The trajectory of the electromagnet 20 is referred to as orbital 2 in the present specification. In the present invention, many of the tunnel-shaped cylinders 4, which are magnetized in accordance with the orbital path 2, are arranged and fixed at an angle. At this time, the number of the tunnel-shaped cylinders 4 is the same as the number of the electromagnets 20, and the arrangement angle of the electromagnets 20 is formed to be the same as the arrangement angle of the tunnel-

The electromagnet 20 radially extended to the axis rotating table 16 passes through the tunnel-shaped cylinder 4 because the orbiting path 2 exists in the internal space portion 6 of the plurality of tunnel- An open passage through which the arm 18 passes is formed at the bottom of the weft tunnel-shaped cylinder 4.

Therefore, the plurality of electromagnets 20 can pivot through the internal space portion 6 of the tunnel-type cylinder 4, and in the present invention to allow the swing through the tunnel-type cylinder 4 is possible in the present invention. A space magnetic field formed by (4) and a magnetic barrier film 14 are utilized. To this end, the magnetic pole conversion control unit 24 is provided so that the N and S magnetic poles of the electromagnet 20 can be displayed according to the situation.

The magnetic pole conversion control unit 24 performs control to convert the magnetic pole of the electromagnet 20 so that the electromagnet 20 can pivot through the blocking membrane 14 and the tunnel-shaped cylinder 4. The point of switching the magnetic poles of the electromagnet is the position of the blocking film 14 on the inlet side 10 and the outlet side 12.

Since the electromagnet 20 has a magnetic body wound around the coil, it is attracted to the blocking film 14 at the inlet side 10 of the tunnel-shaped cylinder 4 even if it is still, without controlling to form a magnetic pole. However, there is a blocking film 14 does not pass through.

3 and 4, the stimulus conversion control performed by the stimulus conversion control unit 24 is performed as follows.

When the electromagnet 20 is located in the outer space portion 8 of the tunnel-shaped cylinder 4 adjacent to each other, the electromagnet 20 is controlled to be the N pole, so that the electromagnet 20 is connected to the S pole of the outer side of the barrier film 14. Forward movement to the blocking film 14 of the inlet side 10 of the tunnel-shaped cylinder 4 by the pulling force.

Thereafter, the control unit enters the blocking membrane 14 by the forward inertia movement of the electromagnet 20 and is controlled to be the S pole of the electromagnet 20 at the moment of passing through the blocking membrane 14. The electromagnet 20 changed into the S pole is pulled out by the influence of the N pole magnetic force formed in the inner space 6 of the tunnel-like cylinder 4.

At the moment when the electromagnet 20 passes through the blocking membrane 12 on the outlet side 12 of the tunnel-like cylinder 4 by the forward inertia movement, the electromagnet 20 is subjected to the polarity switching control again to the N pole. The electromagnet 20 moves toward the outer space portion 8 by being pulled by the S-pole magnetic field of (8) and pushed by the N-pole magnetic field reaction force of the inner space portion 6 of the tunnel-shaped cylinder 4.

Since the electromagnets 20 are swiveled by the magnetic pole conversion control of the electromagnet 20 in the magnetic pole conversion control unit 24, the rotational force is generated in the shaft rotating table 16, and the rotational force is transmitted to the power transmission unit 22.

The position of the magnetic shielding film 14 present on the inlet side 10 and the outlet side 12 of the tunnel-shaped cylinder 4 is proportional to the magnetic strength of the tunnel-shaped cylinder 4, and thus the inlet and outlet of the tunnel-shaped cylinder 4 10) from 12. A blocking film 14 is formed at a position 5 to 30 mm away from the inlet and outlet of the tunnel-shaped cylinder 4.

The power generating apparatus of the present invention as described above can be implemented in a simple structure and can be practically implemented, and can adjust power of the magnetic force of the tunnel-shaped cylinder 4 to obtain various motive power corresponding to a demand of a customer.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of claims and equivalents thereof.

(2) - Orbit (4) - Tunnel type cylinder
(6)-Inside space part (8)-Outside space part
(10)-Inlet Side (12)-Outlet Side
(14)-Membrane (16)-Swivel
(18)-Arm (20)-Electromagnet
(22)-Power Transmission Unit (24)-Stimulation Conversion Control Unit
(40)-main body (42)-magnet

Claims (5)

Multiple tunnel-shaped cylinders 4 are arranged and fixed to the orbit 2 and each tunnel-shaped cylinder 4 has N, S stimuli formed opposite to each other on the inner and outer surface portions 4a and 4b of the cylinder, 6) a magnetic field opposite to the magnetic pole of the cylindrical inner surface portion 4a is formed, and a magnetic field opposite to the magnetic field of the inner space portion 6 is formed in the outer space 8 between the tunnel-shaped cylinders 4 adjacent to each other. And a magnetic material that forms a magnetic shielding film 14 having opposite inner magnetic poles on the inlet side 10 and the outlet side 12 of the tunnel-shaped cylinder 4, and the power transmission unit ( The electromagnet 20 is installed at each end of the multiple arms 18 radially extending to the swivel shaft 16 connected to the shaft 22 so as to be rotatable along the revolution trajectory 2, and the electromagnet 20 is the blocking film. A person who converts the magnetic pole of the electromagnet 20 by using the blocking film 14 so that it can turn through the 14 and the tunnel-shaped cylinder 4. Power generation apparatus using the spatial magnetic field and the blocking film which is characterized by having a conversion control section 24.
The power generating device using the space magnetic field and the barrier film according to claim 1, wherein the tunnel-shaped cylinder is formed of one of a cylindrical shape and a rectangular shape.
The space magnetic field according to claim 1 or 2, wherein the tunnel-shaped cylinder 4 comprises a main body 40 made of magnetic material and a magnet 42 attached to the upper surface of the main body 40. Power generation device using a barrier.
3. The cylindrical inner space portion 6 according to claim 1 or 2, wherein an S pole is formed at the cylindrical inner surface portion 4a of the tunnel-like cylinder 4, and an N pole is formed at the outer cylindrical surface portion 4b. A magnetic field of the north pole is formed and the outer space portion 8 between the adjacent tubular cylinders 4 has a spatial magnetic field forming a magnetic field of the south pole, and the inlet side 10 of the tunnel-shaped cylinder 4 is formed. And the magnetic shielding film (14) on the outlet side (12) and the inner surface side of the N pole and the outer surface side of the S pole is formed.
3. The cylinder inner space portion 6 according to claim 1 or 2, wherein an N pole is formed at the cylindrical inner surface portion 4a of the tunnel-like cylinder 4, and an S pole is formed at the outer cylindrical surface portion 4b. The magnetic field of the S pole is formed and the outer cylinder space portion 8 between the adjacent tunnel-like cylinders 4 has a spatial magnetic field forming the magnetic field of the N pole, and the inlet side 10 of the tunnel-shaped cylinder 4 is formed. And the magnetic shielding film (14) on the outlet side (12) and the inner surface side of the S pole, and the outer surface side of the N pole is formed.

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