KR20170037920A - Generate Electricity System use of Magnet - Google Patents

Abstract

According to the present invention, provided is a system generating electricity by eliminating a frictional force with a repulsive force which is characteristics of a cylinder, a rotating cylinder, and a magnet, and maximizing a rotating force without a bearing and a gear device. Moreover, a structure is simple, and as there is no a bearing and a gear device, a component to be broken is few to generate electricity in cold polar regions, a remote and lonely island, a vacuum state, a space station, the lunar world, Mars, and space. Moreover, the system can be used with various types of a vehicle, a ship, a train, an engine, or the like.

Description

Generate Electricity System Use of Magnet [0002]

The present invention is an electric power generation system that generates electricity without using a bearing or a gear device by using a repulsive force which is a characteristic of a magnet.

Since the conventional electric power generation system using magnets was intended to be made using a bearing or a gear device, frictional force was generated between the device devices, causing energy loss due to frictional force and causing a trouble. However, Permanent magnet, and electromagnet) by using repulsive force to push the same polarity of the rotating device to the public by making the system without friction, so that the system produces electricity almost without a fault.

It is a system that produces electricity without gears and bearings by using repulsive force by using hollow cylinder, rotating cylinder and magnet.

According to the present invention, since there is no bearing or gear device using various kinds of bearings and gear devices using a repulsive force, which is a characteristic of a hollow cylinder, a rotating cylinder and a magnet, the rotational power is maximized and there is almost no faulty blade.

It uses hollow cylinder, rotating cylinder and magnet, and it uses the repulsive force which is the characteristic of magnet to attract the rotating device in the air, so it is an electric power generation system which does not need bearings and gear devices and has excellent energy transfer rate and little trouble.

The present invention relates to an electric power generating system using a hollow cylinder, a magnet and a rotary cylinder to which the technology of the present invention is applied.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an electrical power generation system using a hollow cylinder, a magnet, and a rotating cylinder to which the technique of the present invention is applied; FIG.
2 is a view showing a rotary cylinder and a magnet installation to which the technique of the present invention is applied.
3 shows a hollow cylinder and a magnet drawing to which the technique of the present invention is applied
FIG. 4 is a rotating cylinder and a magnet to which the technique of the present invention is applied; FIG.
FIG. 5 is a rotating cylinder and magnet drawing to which the technique of the present invention is applied; FIG.
FIG. 6 is a hollow cylinder and magnet to which the technique of the present invention is applied; FIG.
FIG. 7 is a hollow cylinder and magnet to which the technique of the present invention is applied; FIG.
FIG. 8 is a hollow cylinder, a rotating cylinder and a magnet to which the technique of the present invention is applied; FIG.
FIG. 9 is a hollow cylinder, a rotating cylinder, and a magnet to which the technique of the present invention is applied; FIG.
FIG. 10 is a hollow cylinder, a rotating cylinder and a magnet to which the technique of the present invention is applied; FIG.
11 is a view in which a repulsive force acting as a characteristic of a magnet to which the technique of the present invention is applied acts.
FIG. 12 is a view in which the characteristics of a magnet to which the technique of the present invention is applied are a repulsive force and a pulling force.
13 is a view in which a repulsive force acting as a characteristic of a magnet to which the technique of the present invention is applied acts.
FIG. 14 is a view showing production of electricity using a hollow cylinder, a magnet and a coil to which the technique of the present invention is applied; FIG.
FIG. 15 is a view showing production of electricity using a hollow cylinder, a magnet and a coil to which the technique of the present invention is applied; FIG.
16 is a view showing a rotary cylinder and a magnet installation to which the technique of the present invention is applied.
17 shows a hollow cylinder and a magnet drawing to which the technique of the present invention is applied
FIG. 18 is a rotation cylinder and a magnet to which the technique of the present invention is applied; FIG.
FIG. 19 is a rotating cylinder and magnet drawing to which the technique of the present invention is applied; FIG.
FIG. 20 is a hollow cylinder and magnet to which the technique of the present invention is applied; FIG.
21 is a hollow cylinder and magnet to which the technique of the present invention is applied.
FIG. 22 is a hollow cylinder, a rotating cylinder, and a magnet to which the technique of the present invention is applied; FIG.
FIG. 23 is a hollow cylinder, a rotating cylinder, and a magnet to which the technique of the present invention is applied; FIG.
FIG. 24 is a hollow cylinder, a rotating cylinder and a magnet to which the technique of the present invention is applied; FIG.
FIG. 25 is a view showing repulsion acting as a characteristic of a magnet to which the technique of the present invention is applied; FIG.
26 is a view in which a characteristic of a magnet to which the technique of the present invention is applied is a repulsive force.
27 is a view in which a repulsive force acting as a characteristic of a magnet to which the technique of the present invention is applied acts.
FIG. 28 is a diagram for producing electricity using the characteristics of a magnet to which the technique of the present invention is applied; FIG.
29 is a view in which a repulsive force acting as a characteristic of a magnet to which the technique of the present invention is applied acts.

In the construction of the electric power generation system using the hollow cylinder and the magnet (magnetic force means such as permanent magnet, electromagnet, etc.) and the rotating cylinder of the present invention,

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 28, 29

A rotary shaft fitting hole 4 is formed at the center of both side faces of the hollow cylindrical body 1 and a rotary shaft fitting hole 4 is formed in the center of both side faces of the hollow cylindrical body 1, A cylindrical magnet 7 is provided in the interior of the hollow cylinder 1 and magnets 10 are installed on both sides of the hollow cylinder 1. A magnet 12 in the form of a flat plate is disposed at an angle along the circumference of the rotary cylinder 2 with the rotary shaft 3 and the magnet 11 is provided outside both sides of the rotary cylinder 2. [ At this time, angles and positions are selected so that the flat plate type magnets 9 and 12 face each other, and a gap is formed so as not to bump them when rotating. A cylindrical magnet (6) is provided outside the rotary shaft (3) connected to the rotary cylinder (2). The rotary shaft 3 of the rotary cylinder 2 is installed in the rotary shaft fitting hole 4 and the hollow cylinder 1 is fixed to the pedestal 5. The flat plate type magnets 9 and 12 provided inside the hollow cylinder 1 and outside the rotary cylinder 2 are arranged so that their facing surfaces face each other with the same polarity, (2) The magnets 10 and 11 outside the both side surfaces are arranged so as to have the same polarity, and the magnets 6 and 7 inside the rotating shaft 3 and the inside of the rotating shaft fitting hole 4 are also provided with the same polarity.

Further, by using the pedestals 35 and 36, it is possible to more easily install the flat type magnets 9 and 12.

The magnet 6.7 arranged so as to have the same polarity is caused to float in the air between the rotary shaft fitting holes 4 due to the action of the repulsive force 39 so that the rotary cylinder 2 connected to the rotary shaft 3 It floats in the air. The magnets 10 and 11 arranged so as to have the same polarity are also caused to float in the hollow cylindrical cylinder 1 by the action of the repulsive force 46 against each other. That is, the magnets 6 and 7 and the magnets 10 and 11 provided with the same polarity as each other collide with the rotating cylinder 2 and the rotating shaft 3 in the hollow cylinder 1 and the rotating shaft fitting hole 4 by the repulsive force action And float in the air.

At this time, since the magnet 9 provided inside the hollow cylinder 1 and the magnet 12 provided outside the rotary cylinder 2 are arranged so as to have the same polarity, the repulsive force 41 acts to push them against each other . Since the magnet 9 is fixed and the magnet 12 can move, the magnet 12 is pushed by the magnet 9 by the action of the repulsive force, which is the characteristic of the magnet, Start to rotate together.

A cylindrical magnet 26 is provided outside the rotary shaft 3 which is drawn out so as to produce electricity using the rotating force of the rotating shaft 3 which is continuously rotating and a cylindrical magnet 25 is disposed inside the hollow cylinder 25, (27). A magnet 28 is provided outside the rotary shaft 3 and a coil 29 is provided inside the hollow cylinder 25 and the hollow cylinder 25 is fixed to the pedestal 51.

At this time, the rotating shaft 3 and the hollow cylinder 25 are moved in the axial direction by the action of the repulsive force 50, which is installed so as to have the same polarity as the cylindrical magnet 27 facing the cylindrical magnet 26, There is no friction force between them, and the magnets 28 and the coils 29 also have no friction force.

Electricity is produced between the rotating magnet 28 provided outside the rotating rotary shaft 3 and the fixed coil 29 provided inside the fixed hollow cylinder 25 by the electromagnetic induction principle.

Since the rotary cylinder 2 and the rotary shaft 3 rotate without any collision between the hollow cylinder 1 and the rotary shaft insertion hole 4 due to the repulsive force of the magnet of the present invention, Since the magnet is permanently magnetized, the present invention is characterized in that the rotating shaft 3 continuously rotates due to the repulsive force of the magnets 6, 7, 9, 10, 11, Electricity can be steadily produced between the magnet 31 and the coil 32 installed on the rotating shaft which continuously rotates by the electromagnetic induction principle.

In the construction of the electric power generation system using the hollow cylinder and the magnet (magnetic force means such as permanent magnet, electromagnet) and the hollow rotary cylinder of the present invention,

14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26,

A flat centering magnet 15 is disposed at the center of both sides of the hollow cylinder 13 and a center axis 15 of the rotation center axis 15 is disposed at an angle to the circumference of the hollow center cylinder 13, A magnet 18 is provided on the outside of the hollow cylinder 13 and a magnet 22 is installed inside both sides of the hollow cylinder 13. [ A magnet (24) in the form of a flat plate is disposed at an angle along the circumference of the hollow rotary cylinder (14), and a magnet (23) is provided outside both sides of the hollow rotary cylinder (14).

A magnet 31 is provided around the inside of the hollow cylinder 13 on both side internal magnets 22 and a coil 32 is provided around the outside circumference of the hollow rotating cylinder 14 on both side external magnets 23 .

At this time, the angles and positions are selected so that the facing areas of the flat type magnets 21 and 24 are wide, and a gap is provided so as not to hit them when rotating. A cylindrical magnet (19) is provided in the center shaft insertion hole (16) at the center of the hollow rotary cylinder (14). The center shaft insertion hole 16 of the hollow rotary cylinder 14 is fitted to the rotation center shaft 15 and the hollow cylinder 13 is fixed to the pedestal 17.

The flat plate type magnets 21 and 24 provided inside the hollow cylinder 13 and outside the hollow rotary cylinder 14 are provided so as to have the same polarity and are arranged inside the hollow cylindrical cylinder 13 and in the hollow rotary cylinder 14, The magnets 22 and 23 are provided so as to have the same polarity on both sides of the side face 14 and the magnets 18 and 19 inside the center shaft insertion hole 16 and the outside of the rotation center shaft 15 have the same polarity Install it.

Further, by using the pedestals 37 and 38, it is possible to more easily install the flat type magnets 21 and 24.

The magnets 18 and 19 installed so as to have the same polarity are prevented from being attracted to each other by the action of the repulsive force 45 and the center shaft insertion hole 16 State. Therefore, the hollow rotary cylinder 14 also floats in the air.

The hollow rotating cylinder 14 is caused to float inside the hollow cylinder 13 by the action of the repulsive force 48 between the magnets 22 and 23 installed so as to have the same polarity. Therefore, by the repulsive force of the magnets 18 and 19 and the magnets 22 and 23 facing each other with the same polarity, the hollow rotary cylinder 14 and the hollow rotary cylinder 14 are formed on the hollow cylinder 13 and the rotary center shaft 15, The center shaft fitting hole 16 is floated in the air.

Since the plate-shaped magnet 21 provided along the circumference in the hollow cylinder 13 and the plate-shaped magnet 24 provided outside the hollow rotary cylinder 14 are provided so as to have the same polarity, The repulsive force (49) acts. Then, since the magnet 21 is fixed and the magnet 24 can move, the plate-shaped magnet 24 starts to continue to rotate as it is pushed out of the plate-shaped magnet 21. Since the plate-shaped magnet 24 is coupled with the hollow rotary cylinder 14, the hollow rotary cylinder 14 is eventually rotated.

Electricity is produced by the electromagnetic induction principle between a magnet (31) provided outside both side surfaces of a rotating hollow rotating cylinder (14) and a coil (32) installed inside a fixed hollow cylinder (13) do. The hollow rotary cylinder 14 and the central shaft insertion hole 16 rotate without any collision between the hollow cylinder 13 and the rotary center shaft 15 due to the repulsive action of the magnet of the present invention, Since the magnet is permanently magnetized because there is no need for a bearing or various gear devices at all because the magnet is not rotated at all between the coil and the coil 32, 20, 21, 22, 23), the hollow rotary cylinder 14 is continuously rotated, and electricity can be steadily produced between the magnets 31 and the coils 32 by the electromagnetic induction principle.

It can be used in cold polar regions, deserts, tropics, space station or moon because there is no need for bearings and various gears, and it can be used industrially in many forms such as electric car, ship, Is sufficient.

1: hollow cylinder, 2: rotating cylinder, 3: rotating shaft, 4: rotating shaft fitting hole, 5: pedestal, 6: magnet, 7: magnet, 8: magnet, 9: magnet, 10: magnet, 11: A magnet is a hollow cylinder having a hollow rotating cylinder and a rotating center shaft having a center shaft insertion hole. A magnet is a magnetic field generated by a magnetic field generated by the magnetic field generated by the magnetic field generated by the magnetic field generated by the magnet. : Magnet, 35, pedestal, 36: pedestal, 37: pedestal, 38: pedestal, 39: repulsive force, 40: attraction force, 41: repulsive force, 42: repulsive force, 43: attraction force, 44: repulsive force, , 47: repulsion, 48: repulsion, 49: repulsion, 50: repulsion, 51: pedestal.

Claims (2)

In an electric power generation system using a hollow cylinder, a magnet (a permanent magnet, a magnetic means such as an electromagnet) and a rotating cylinder,

A hollow cylinder 1 fixed to the pedestal 5;
A rotation shaft insertion hole 4 provided at the center of both side surfaces of the hollow cylinder 1;
A rotating rotating cylinder (2) with a rotating shaft (3) attached thereto;
A rotating shaft (3) rotating as the rotating cylinder (2);
The magnets 6 outside the rotating shaft 3 and the magnets 7 inside the rotating shaft fitting hole 4, which are arranged in the same polarity and act as the repulsive force 39 and have no frictional force;
The magnets 10 on both sides of the inside of the hollow cylindrical cylinder 1 with the frictional force acting thereon and the magnets 11 on both sides outside the rotating cylinder;
A fixed magnet 9 arranged inside the hollow cylinder 1 without frictional force due to the action of the repulsive force 41 arranged in the same polarity and the magnet 9 installed outside the rotary cylinder 2 and rotating like the rotary cylinder 2 (12);
A pedestal 35 for supporting the magnet 9;
A pedestal (36) for supporting the magnet (12);
A hollow cylinder 25 fixed to the pedestal 51;
A magnet (26) arranged outside the rotating shaft (3) with a repulsive force acting by the repulsive force 50 arranged with the same polarity and a magnet (27) provided inside the hollow cylinder (25);
A magnet 28 which is installed outside the rotary shaft 13 and has no frictional force due to the action of the repulsive force 50 and which is driven by the electromagnetic induction principle and the rotating coil 29 provided inside the hollow cylinder 25, An electric power generation system using hollow cylinders, magnets and rotating cylinders that do not require combined bearings and gears.


1. An electric power generation system using a hollow cylinder, a magnet (a permanent magnet, a magnetic means such as an electromagnet) and a hollow rotary cylinder,

A hollow cylinder 13 fixed to the pedestal 17;
A rotation center shaft 15 provided at the center of both side surfaces of the hollow cylinder 13;
A rotating hollow rotating cylinder (14) in which a central shaft fitting hole (16) is drilled;
A central shaft insertion hole 16 which rotates together with the hollow rotary cylinder 14;
A magnet (19) disposed inside the center shaft fitting hole (16) and disposed between the magnet (18) disposed outside the rotational center shaft (15) without the frictional force due to the repulsive force;
A magnet (22) disposed on both sides of the hollow cylindrical cylinder (13) having no frictional force due to the repulsive force (48) arranged at the same polarity and a magnet (23) outside both sides of the hollow rotary cylinder (14);
A fixed magnet 21 disposed inside the hollow cylinder 13 without frictional force due to the action of the repulsive force 49 and a hollow rotating cylinder 14 A magnet 24 rotating as shown in Fig.
A pedestal (37) for supporting the magnet (21);
A pedestal (38) for supporting the magnet (20);
A non-rotating coil 32 provided inside the hollow cylinder 13 in which electricity is generated by the electromagnetic induction principle due to the action of the repulsive force 48 and a rotating magnet (not shown) provided on both sides of the hollow rotating cylinder 14 31) coupled electric power generation system using hollow cylinders, magnets and hollow rotating cylinders that do not require a gear unit.

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