KR101195709B1 - Electric generation device using neodymium magnetic - Google Patents

Abstract

PURPOSE: A power generating apparatus using a neodymium magnet is provided to improve intensity of a magnetic field by arranging the same poles of neodymium magnets to face each other. CONSTITUTION: A wire coil(40) is arranged at the outside of a rotator(10) along an circumference of the rotator. The wire coil installs the rotator. A first magnetic field part(51) is formed between a rotary shaft(11) of the rotator and a first pole(21) of a first neodymium magnet(20). A second magnetic field part(52) is formed between a second pole(22) of first neodymium magnets and a first pole(31) of second neodymium magnets(30). A third magnetic field part(53) is formed with a second pole(32) of the second neodymium magnets.

Description

Electric generation device using neodymium magnetic

The present invention relates to an electric generator using a neodymium magnet, and more particularly, a magnet by a neodymium magnet that rotates along the inner circumference of the coil by arranging a neodymium magnet having a strength of 10 times higher than that of a general magnet in a rotating body. The present invention relates to an electric generator using a neodymium magnet to increase the power generation efficiency compared to the same rotational force at the same time than a general electric generator using.

In general, electricity is one of the indispensable things in daily life, and it is necessary to operate the necessary means in daily life such as electric appliances, luminaires, various office supplies such as computers, and various business electric devices such as elevators. It is one of the essential substances.

As such, electricity that must exist in daily life is produced by hydroelectric power generation using hydroelectric power, thermal power generation using thermal power, nuclear power generation using nuclear power, and the like.

However, in the case of hydroelectric power generation, there is a problem in that electricity generation efficiency is difficult because the quantity difference is severe depending on the season with high rainfall such as summer and the season with relatively low rainfall such as spring, autumn or winter.

In addition, in the case of thermal power generation, since fossil fuels such as petroleum or coal must be continuously burned, there is a problem in that environmental pollution and pollution occurs due to harmful gases generated during combustion.

In particular, the problem caused by the thermal power generation is a situation that is emerging as a major problem in the global environment by causing the global warming phenomenon caused by the air pollution.

In addition, in the case of nuclear power generation, the production cost is low in comparison with the amount of power generation, and it is effective to reduce environmental pollution due to the reduction of carbon dioxide emission. have.

Due to these problems, environmentally friendly power generation facilities are being researched and developed as alternatives. Representative examples include solar power generation using solar power or wind power generation using wind power.

However, in the case of solar power generation, there is a problem of low productivity due to difficulty in power generation at night or in cloudy weather, and it is not easy to install in a general home due to the high price of the solar heat collecting plate used in the solar power generation device, especially many apartments In the case of a large city, there is no free space enough to install a solar collector plate in the apartment, but despite the good performance of the solar power generator, it is hardly installed in a large city.

In addition, in the case of wind power generation, since the location conditions for continuous wind must be provided, it is usually installed on the top of the mountain or on the beach, but the replacement and repair work of the wind power generator installed near the top of the mountain or on the beach This difficulty is difficult to manage, there is another problem that can not produce stable electrical energy unless the wind is continuously blown.

Accordingly, various electric generators using magnets have been devised. For example, a coil winding unit, which is disclosed in Korean Patent Application Publication No. 10-2009-0038532, rotates along a gap between an N pole permanent magnet and an S pole permanent magnet to generate electricity. The N-pole and S-pole permanent magnets maintain a constant gap and maintain a constant gap with each other. The coil winding unit is located on the air gap between the N pole permanent magnet and the S pole permanent magnet of the circular magnet group stator, and the coil winding unit is fixedly fixed to the rotating member so that the coil winding unit is fixed to the rotating member. When the driving source is engaged with the driving source and the rotating member rotates, the gap between the N pole permanent magnet and the S pole permanent magnet of the circular magnet group stator is rotated. The coil winding unit that transfers electricity to the commutator piece and the brush on the central axis is grounded to the central axis along the rotating member with electricity generated in the coil winding unit. It rotates along the gaps between the magnets to produce electricity.

However, since the permanent magnet used in the prior art has a weak strength of the magnetic force, there is a problem in that the efficiency of the production of electricity is greatly reduced since the strength of electricity to be produced is not high.

Furthermore, since the permanent magnets of the N pole and the permanent magnets of the S pole are arranged in a columnar shape facing each other, the strength of the magnetic field generated by these permanent magnets is weak so that the electric productivity is lowered and the electric productivity is increased. There is a problem in that the coil winding unit to rotate quickly.

Republic of Korea Patent Publication No. 10-2009-0038532 (published Apr. 21, 2009) Republic of Korea Patent Registration 10-0288246 (registered Feb. 05, 2001)

The present invention has been made to solve the problem of the electricity generating device for producing electricity by using a conventional magnet, the neodymium magnet having a large magnetic force is arranged radially on the rotating body around the rotating shaft of the rotating body and the rotating body Is rotated along the inner circumference of the winding coil to not only produce electricity, but also to increase the strength of the magnetic field generated by the neodymium magnet by facing the array of neodymium magnets with the same poles. It is an object of the present invention to provide an electric generator using a neodymium magnet to significantly increase the electricity production efficiency compared to the same rotational force during the same time.

An electric generator using the neodymium magnet of the present invention as a means for achieving the above object, the rotating shaft and the circular rotating body is fitted to the center of the rotating shaft; First neodymium magnets arranged radially on the circular rotating body about the rotating shaft and having first and second poles formed on both sides thereof; Located on one side of the first neodymium magnets and located radially to the circular rotating body about the rotation axis in the same manner as the first neodymium magnets, and the third and fourth poles are formed on both sides, respectively, Second neodymium magnets positioned such that any one of the first and second poles of the first neodymium magnets and the one of the third and fourth poles face each other; A winding coil body positioned along a circumference of the rotating body; A first magnetic field part formed between the rotating shaft and the first pole of the first neodymium magnets; A second magnetic field portion formed between the second pole of the first neodymium magnets and the first pole of the second neodymium magnets; It includes a third magnetic field formed by the second pole of the second neodymium magnets.

Neither the first pole or the second pole of the first neodymium magnets and the third or fourth poles of the second neodymium magnets positioned to face the first or second poles are pushed to each other. Made of poles.

In addition, the pole of any one of the first pole or the second pole of the first neodymium magnets and the third pole or the fourth pole of the second neodymium magnets positioned to face the first pole or the second pole, push each other The inside is made of S poles.

In addition, the rotating body includes a first gear arranged on a rotating shaft of the rotating body; A second gear meshed with the rotary gear; A third gear meshing with the second gear; A handle is eccentrically coupled to the third gear to rotate the third gear.

The winding coil body is made by connecting a power plug that can be supplied with electricity is more electrically connected.

The present invention can generate electricity by rotating a neodymium magnet having a strength of 10 times greater than that of a general magnet along the circumference of the winding coil body, and thus the same rotational force as that of the same time as compared to an electric generator made of a general magnet. Can generate a large amount of electricity, greatly increasing the efficiency of the electricity production, and because anyone can easily rotate the rotating body in the home to obtain the electricity needed for the electrical / electronic products used in the home It can be reduced, and can be expected with the eco-friendly effect according to this, by increasing the strength of the magnetic field generated by the opposing neodymium magnets by configuring the same polarity of the neodymium magnets facing each other.

1 is a conceptual diagram showing the configuration of an electric generator using the neodymium magnet of the present invention.
Figure 2 is a conceptual diagram showing a first magnetic field of the electric generator using the neodymium magnet of the present invention.
3 is a conceptual diagram illustrating a second magnetic field of an electric generator using the neodymium magnet of the present invention.
Figure 4 is a conceptual diagram showing a third magnetic field of the electric generator using the neodymium magnet of the present invention.
Figure 5 is a block diagram showing another embodiment of a rotating body of the electric generator using the neodymium magnet of the present invention.
Figure 6 is a conceptual diagram showing another embodiment of the electric generator using the neodymium magnet of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

As shown in FIG. 1, the electric generator using the neodymium magnet according to the present invention includes a circular rotating body 10 having a center fitted to the rotating shaft 11 and the rotating shaft 11, and the rotating body 10. The first neodymium magnets 20 arranged, the second neodymium magnets 30 on which one side of the first neodymium magnets 20 are positioned, and a rotating body along the circumference of the rotor 10 It is made of a circular winding coil body 40 located on the outside of the 10 to install the rotating body 10.

The first neodymium magnets 20 are positioned to be inclined at an inclination angle with respect to the rotation shaft 11 to be radially arranged on the circular rotating body 10, and the first poles 21 and the two sides are respectively arranged. The second electrode 22 is formed.

One of the first poles 21 and the second poles 22 of the first neodymium magnets 20 is the N pole and the other pole is the S pole.

The second neodymium magnets 30 are respectively positioned at one side of the first neodymium magnets 20 and are inclined at the same inclination angle as the first neodymium magnets 20 and at each side of the third pole ( 31 and a fourth pole 32 are formed, and the same pole of either the first pole 21 or the second pole 22 of the first neodymium magnets 20 is positioned to face each other.

One of the third pole 31 and the fourth pole 32 of the second neodymium magnets 30 is the N pole and the other pole is the S pole.

According to the present invention configured as described above, the first neodymium magnets 20 and the second neodymium magnets 30 arranged in the rotor 10 by rotating the rotor 10 have the winding coil body 40. Electricity is produced by rotating along.

As such, since the first neodymium magnets 20 and the second neodymium magnets 30 having a larger magnetic force than the general magnets are rotated along the winding coil body 40, the electrical productivity and the power strength are greatly improved.

In particular, the present invention is the first pole 21 or the second pole 33 of the first neodymium magnets 20 and the third pole 31 or the fourth pole 32 of the second neodymium magnets (30) Since the poles facing each other are arranged to push each other, the magnetic field formed by the first neodymium magnets 20 and the second neodymium magnets 30 may be greatly improved in intensity.

That is, one of the first poles 21 or the second poles 22 of the first neodymium magnets 20 and the first pole 21 or the second pole 22 is positioned to face The third pole 31 or the fourth pole 32 of the second neodymium magnets 30 are arranged so as to be composed of N poles pushing each other, or the first pole of the first neodymium magnets 20. The third pole 31 of the second neodymium magnets 30 positioned to face either the pole 21 or the second pole 22 and the first pole 21 or the second pole 22. Alternatively, the magnetic field formed between the first neodymium magnets 20 and the second neodymium magnets 30 may be formed by S poles which push the fourth pole 32 to each other, thereby arranging positions thereof. The strength is improved.

In this case, a first magnetic field part 51 is formed between the rotating shaft 11 of the rotating body 10 and the first pole 21 of the first neodymium magnets 20, and the first neodymium magnets are formed. A second magnetic field portion 52 is formed between the second pole 22 of the 20 and the first pole 31 of the second neodymium magnets 30, and the second neodymium magnets 30 of the second neodymium magnets 30 are formed. The third magnetic field part 53 is formed by the second electrode 32.

As shown in FIG. 2, N poles, which are the first poles 21 of the first neodymium magnets 20 located in the space where the first magnetic field part 51 is formed, are located. The first magnetic field portion 51 is formed by the forces pushing the N poles together.

In addition, as shown in FIG. 3, the S pole and the second neodymium magnets 30, which are the second poles 22 of the first neodymium magnets 20 located in the space where the second magnetic field portion 52 is formed, are shown in FIG. 3. As the S poles of the third pole 31 are respectively positioned, the second magnetic field portion 52 is formed by the force generated by the S poles.

In addition, as shown in FIG. 4, the N poles, which are the fourth poles 32 of the second neodymium magnets 30 positioned in the space where the third magnetic field portion 53 is formed, are located, respectively. The third magnetic field portion 53 is formed by the force that the N poles push against each other.

The first neodymium magnets 20 and the second neodymium magnets 30 are radially arranged on the rotor 10 at an angle of 45 ° with respect to the rotation axis 11 of the rotor 10, respectively. Can be done.

As such, since the first neodymium magnets 20 and the second neodymium magnets 30 are arranged at an inclination angle a of 45 ° with respect to the rotation axis 11, for example, FIG. 1. When rotating the rotation direction of the rotor 10 in the counterclockwise direction, the first neodymium magnets 20 and the second neodymium magnets 30 arranged in the inclination angle (a) of 45 ° angle is rotated The first magnetic field portion 51 and the second magnetic field portion 52 formed through the first neodymium magnets 20 and the second neodymium magnets 30 by acting a corresponding force in the rotational direction of the (10) The strength of the magnetic field formed by the third magnetic field portion 53 is improved.

In addition, as shown in FIG. 5, the present invention includes a first gear 61 arranged on the rotating shaft 11 of the rotating body 10 and a second gear 62 meshed with the first gear 61. And a third gear 63 meshed with the second gear 62 and a handle 64 eccentrically coupled to the third gear 63 to rotate the third gear 63. Can be done.

Accordingly, when the third gear 63 is turned in one direction while holding the handle 64, the second gear 62 and the first gear 61 meshed with each other by the third gear 63 are rotated, respectively. Rotation operation of the rotating body 10 is made.

This configuration, as another embodiment of the electric generator using the neodymium magnet of the present invention, the driving means for rotating the rotating body 10 can of course be variously modified.

In addition, the winding coil body 40 may be made by connecting the power plug 70 which can be supplied with electricity by inserting a power plug more electrically connected.

In this way, since the power outlet 70 is electrically connected to the winding coil body 40, it can be easily used in a general home, thereby greatly reducing the cost burden due to electricity costs in the home. It can be used for charging small products such as electric shaver charging.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

10: rotating body 11: rotating shaft
20: first neodymium magnet 21: first pole
22: second pole 30: second neodymium magnet
31: third pole 32: fourth pole
40: winding coil body 51: the first magnetic book
52: second magnetic ledger 53: third magnetic ledger
61: first gear 62: second gear
63: third gear 64: handle
70: power outlet

Claims (6)

A circular rotating body 10 having a center fitted to the rotating shaft 11 and the rotating shaft 11;
The first neodymium magnets 20 are arranged radially on the circular rotating body 10 around the rotating shaft 11 and the first pole 21 and the second pole 22 are formed on both sides, respectively. and;
Respectively positioned on one side of the first neodymium magnets 20 and radially positioned on the circular rotating body 10 about the rotation shaft 11 in the same manner as the first neodymium magnets 20. A third pole 31 and a fourth pole 32 are respectively formed in each of the first pole 21 and the second pole 22 of the first neodymium magnets 20 and the third pole. Second neodymium magnets 30 positioned so that one of the poles 31 and the fourth pole 32 faces each other;
A circular winding coil body 40 positioned outside the rotor 10 along the circumference of the rotor 10 to install the rotor 10;
A first magnetic field portion 51 formed between the rotating shaft 11 of the rotating body 10 and the first pole 21 of the first neodymium magnets 20;
A second magnetic field portion 52 formed between the second pole 22 of the first neodymium magnets 20 and the first pole 31 of the second neodymium magnets 30;
An electric generator using neodymium magnets, characterized in that the third magnetic field portion (53) formed by the second pole (32) of the second neodymium magnets (30) is included.
delete The method according to claim 1,
A second electrode positioned to face one of the first poles 21 or the second poles 22 of the first neodymium magnets 20 and the first poles 21 or the second poles 22. The third pole (31) or the fourth pole (32) of the neodymium magnets (30), the electricity generating device using a neodymium magnet, characterized in that consisting of the N pole to push each other.
The method according to claim 1,
A second electrode positioned to face one of the first poles 21 or the second poles 22 of the first neodymium magnets 20 and the first poles 21 or the second poles 22. The third pole (31) or the fourth pole (32) of the neodymium magnets (30), the electricity generating device using a neodymium magnet, characterized in that made of S poles pushing each other.
The method according to claim 1,
The rotating body 10 includes a first gear 61 arranged on the rotating shaft 11 of the rotating body 10;
A second gear 62 meshed with the first gear 61;
A third gear 63 meshed with the second gear 62;
An electric generator using neodymium magnets, characterized in that the handle 64 is eccentrically coupled to the third gear (63) to rotate the third gear (63).
The method according to claim 1,
The winding coil body 40 is an electric generator using a neodymium magnet, characterized in that the power outlet 70 which is plugged into the power plug to receive electricity is made more electrically connected.

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