KR101792411B1 - Electric power generator of nonrevolution type used alternate magnetic field - Google Patents

Abstract

The power generating device of the present invention is different from the conventional method in that instead of rotating the magnets, alternating from the N pole to the S pole or the S pole to the N pole in the armature winding by application of DC alternating power to the field winding, Use the effect of rotating the magnet on the armature winding.
Thus, a non-rotating power generator having the characteristic of generating electric power in the armature winding by the alternating magnetic field of the other pole on both armature windings is used in buildings, factories, automobiles, mobile robots, drums and the like.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a non-rotating power generator using an alternating magnetic field,

BACKGROUND OF THE INVENTION [0002] A magnetic power generator is a device for converting a mechanical rotational force into electric energy. The present invention relates to a magnetic power generator.

Carbon dioxide generated by the use of fossil fuels accelerates climate warming, and fine dust from diesel oil and coal pollutes the atmosphere.

In order to slow down the climate warming and to remove the emission sources of fine dust, it is necessary to reduce the thermal power plant and to develop renewable energy to supply the electric vehicle, and the power generator is the basic device for the development of renewable energy such as wind power and water power.

The magnetic power generator is a device that converts the mechanical torque into electric energy. It is composed of a brushless synchronous generator (Application No.: 1020140117177) and a synchronous generator (1020140024088) of Hyundai Heavy Industries, And a generator (1020120019430) having a pole on each side of the coil of an armature frame made of pulp pulp filed by Park Chan-hee.

A magnetic power generator is a device that converts mechanical rotating power such as engine, turbine, wind force, and alga force into electrical energy.

In the present invention, there is a development of a magnet type power generator capable of generating electricity without mechanical rotational power such as engine, turbine, wind force, and almanac power.

A conventional general magnet type power generator fixes an armature winding and rotates a magnet by a mechanical rotational force such as an engine, a turbine, a wind force and a tidal force so that power is generated by a magnetic flux change inside the armature winding conductor.

In the present invention, instead of rotating the magnets, alternating magnetic fields are applied to the armature windings, and the alternating magnetic flux linkage from the N pole to the S pole or the S pole to the N pole is applied to the armature winding, It gives the same effect.

The rotation effect of the N pole and the S pole supplies a changing magnetic field to the armature winding, power is generated in the armature winding, and generated power is connected to the load side.

 Means of the present invention for solving the problems are as follows.

A frame is formed by stacking a square type silicon steel plate having a certain thickness and width, and the upper frame and the lower frame of the square type frame are placed parallel to the ground.

The laminated steel plates protruding from the upper frame to the lower frame have two or more even numbers, and each of the laminated steel plates protruding from the upper frame has a slot into which an armature winding is inserted.

In the laminated steel sheet in which the armature winding is inserted, each laminated steel sheet between the armature winding and the upper frame is provided with an electromagnet wound with a field winding.

When the numbers of electromagnets winding the field windings on the laminated steel plates are counted in a certain direction, the magnetic poles of the odd-numbered electromagnets are the same, the magnetic poles of the even-numbered electromagnets are the same, and the magnetic polarities of the odd- different.

In the laminated steel plate projecting from the lower frame below the electromagnet, the electromagnets are provided so as to face each other as much as the number of electromagnets provided on the upper frame, and the polarities of the facing electromagnets are different from each other.

The windings of the field windings for reversing the polarities of the excitation are reversed in the respective winding directions and the power supplied to the field windings by the alternating power converter is supplied to the same electric wire by alternating alternating current power + do.

The present invention is a non-rotating power generator that is of a positive polarity type that supplies alternating magnetic fields of different polarities on both armature windings and that uses alternating magnetic fields.

Generally, a magnetic power generator is produced by electromagnetically driven electromagnetically by the use of excitation power, and by mechanical rotational power such as engine and turbine, wind and algae forces.

The power generator of the present invention generates electric power by using only the excitation power for generating the alternating electromagnet without using the rotational force.

The power generator generates a lot of heat due to loss of resistance and eddy current. However, the use of the heat circulating oil inside the power generator case can solve the heat problem by the attachment of the radiator to the outer surface and the heat radiating fan There is a structural advantage.

Since the bipolar type electromagnets having different polarities are used on both sides of the armature winding, the leakage magnetic flux due to the gap is minimized.

In addition, it can be adjusted to the required frequency by the alternating cycle adjustment of the alternating power, has the advantage of low noise by the stopper, and can be installed anywhere in the building, factory, automobile, mobile robots, drone have.

1 is a perspective view of a non-rotating power generator using an alternating magnetic field in accordance with the present invention.
2 is a cross-sectional view between G and H in Fig.

In a conventional general magnetic power generator, an armature winding is fixed to a frame, and a magnet is rotated by a mechanical rotational force such as an engine, a turbine, a wind force, and a tidal force, and electric power is generated by a magnetic flux change inside the armature winding conductor.

The present invention differs from the conventional method in that, instead of rotating the magnets, magnetic fluxes interlinked to the armature windings are alternately switched from the N pole to the S pole or from the S pole to the N pole by application of DC alternating power to the field winding , And the armature winding has the effect of rotating the magnet.

The rotation effect of the N pole and the S pole supplies a magnetic field changing in the armature winding, electric power is generated in the armature winding, and generated electric power is connected to the load side.

Therefore, the present invention is a non-rotary power generator using an alternating magnetic field having a characteristic of generating electric power in an armature winding by alternating magnetic fields of different polarities on both armature windings, and has the following novelty, novelty and commerciality.

The power generator of the present invention generates electric power by using only the excitation power to generate the alternating electromagnet without using the rotational force.

The power generator generates a lot of heat due to loss of resistance and eddy current. However, the use of the heat circulating oil inside the power generator case can solve the heat problem by the attachment of the radiator to the outer surface and the heat radiating fan There is a structural advantage.

Since the bipolar type electromagnets having different polarities are used on both sides of the armature winding, the leakage magnetic flux due to the gap is minimized.

In addition, it is possible to adjust to the required frequency by alternate cycle adjustment of the alternating power, and there is a merit of low noise by the stopper, and it is advantageous in that it can be used for building, factory or automobile, mobile robot, drone, It can be installed anywhere.

Hereinafter, the structure and operation of the present invention will be described in detail with reference to the accompanying drawings.

Shaped square silicon steel plate having a predetermined thickness and width, and the upper frame 1 and the lower frame 2 of the false-square rectangular frame are arranged parallel to the ground plane Leave.

Since the frame in the form of a muffle by lamination is used as the magnetic flux passage of the electromagnet, the width of the rectangular silicon steel plate and the thickness of the lamination are determined according to the magnetic flux amount of the electromagnet depending on the generating capacity.

The laminated steel sheet 3 protruding from the upper frame 1 toward the lower frame 2 has two or more even numbers and each end of the laminated steel sheet projecting from the upper frame 1 is provided with an armature winding (4).

The reason why two or more protruded laminated steel plates 3 are made to be an even number is that they form N poles and S poles, respectively, to 1 [Hz], and the poles are four poles and eight poles.

In the laminated steel sheet in which the armature windings 4 are inserted, the laminated steel plates between the armature windings 4 and the upper frame 1 are provided with electromagnets wound with field windings 5, and the direction of the magnetic flux generated in the field windings Is a right angle with the armature winding.

As described above, the armature winding is arranged on the same laminated steel plate 3 protruding from the upper frame 1, and the field winding is wound to minimize the leakage magnetic flux.

When the number of electromagnets winding the field winding 5 on each laminated steel plate is counted in a certain direction, the polarities of the odd-numbered electromagnets are the same, the magnetic poles of the even-numbered electromagnets are the same, The magnetic poles of the electromagnets are different.

In the laminated steel plate 6 protruding from the lower frame 2 under the electromagnet, the electromagnets are provided so as to face each other as many as the number of electromagnets provided in the upper frame, and the polarities of the facing electromagnets are different from each other.

Since the gap between the electromagnets protruding from the upper frame and the lower frame and sandwiching the armature winding and facing each other at the other pole is a stopper, the size of the gap should be equal to or larger than zero [mm].

1, when the A alternating electromagnets are N poles, the B and C alternating electromagnets are S poles, and the D alternating electromagnets are N poles.

Then, when the alternating A alternating electromagnet becomes the S pole by the alternation, the alternating electromagnets B and C become the N pole and the D alternating electromagnet becomes the S pole.

The windings of the field windings for reversing the polarity of the magnetic poles are respectively reversed in winding directions and the electric power supplied to the field windings by the alternating power converter 7 is the same as the alternating current electric power .

The electric power generated from the armature winding is transmitted to the load side through the load terminal.

The present invention is a non-rotating power generator that uses an alternating magnetic field having a characteristic of generating electric power by alternating magnetic fields of other magnetic poles on both armature windings.

It is intended that the scope of the invention be construed as being within the purview of those skilled in the art, including the features of the present invention, and such variations are considered to be within the scope of the present invention.

1. Upper frame of laminated silicon steel frame.
2. Lower side frame of laminated silicon steel frame.
3. Laminated silicon steel plate protruding from the upper frame.
4. Armature winding.
5. Field winding.
6. Laminated silicon steel plate protruding from the lower frame.
7. Alternating power converter.
8. Laminated steel plate of alternating magnet A.
9. Laminated steel plate of B alternating magnet.
10. Coil of armature winding.

Claims (1)

Shaped square silicon steel plate having a certain thickness and width, and the upper frame and the lower frame of the false-square type frame are placed parallel to the ground,
Wherein the laminated steel plates protruding from the upper frame in the direction of the lower frame have two or more even numbers and slots each having an armature winding inserted in an end portion of each of the laminated steel plates projecting from the upper frame,
In the same laminated steel sheet into which the armature winding is inserted, each laminated steel sheet between the armature winding and the upper frame is provided with an electromagnet wound with a field winding,
When the numbers of electromagnets winding the field windings on the respective laminated steel plates are counted in a certain direction, the polarities of the odd-numbered electromagnets are the same, the magnetic poles of the even-numbered electromagnets are the same, The magnetic polarities are different,
The electromagnets are provided on the laminated steel plates protruding from the lower frame below the electromagnets such that the electromagnets face each other as much as the number of the electromagnets provided on the upper frame and the polarities of the facing electromagnets are different from each other,
In order to make the polarities of the magnets different, the winding directions of the field windings having different polarities are reversed, and the electric power supplied to the field windings by the alternating power converter is changed by alternating + and - DC power,
A non-rotating electric power generator using an alternating magnetic field having the characteristic of generating electric power in an armature winding by an alternating magnetic field of the other magnetic pole.

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