KR20110137514A - Power generator - Google Patents

Abstract

The present invention relates to a high-efficiency biaxial reverse rotation power generation apparatus, and more particularly, a coil shaft and a magnet shaft rotating in opposite directions with each other by externally supplied power so that the coil shaft can be rotated independently from the outside of the magnet shaft. It is characterized in that the power generating means is configured to generate high efficiency by the coil and the permanent magnet rotating in opposite directions by installing the coil and the permanent magnet to face each other while rotating in reverse rotation on one axis and the magnet shaft.
According to the present invention, it is possible to generate electricity with high efficiency by the coils and the permanent magnets rotating in opposite directions, and further, by installing a pair of coils and the permanent magnets on one coil shaft and the magnet shaft to face the power generation efficiency. It is possible to increase the productivity of the product by installing the left power generating means and the right power generating means which constitute the power generating means in a mutually assembled manner. Power generation efficiency can be greatly improved compared to the existing one, and each field coil is installed independently, so even if it is operated for a long time, the amount of heat generated is small. You can expect.

Description

High efficiency biaxial reverse rotation power generator {Power generator}

The present invention relates to a high-efficiency biaxial reverse rotation power generation apparatus, and more particularly, to generate high efficiency by a coil and a permanent magnet rotating in opposite directions, and also to a plurality of pairs in one coil shaft and a magnet shaft. It can be installed to face the coil and permanent magnet to increase the power generation efficiency.Each field coil is installed independently, so even if it is operated for a long time, the heat generation is small. It relates to a high efficiency double shaft reverse rotation power plant.

Currently, countries around the world are concentrating on developing renewable energy and investing a lot of money and time. However, experts criticize and point out that the economic value is so low because of insufficient performance and efficiency and too much investment.

Accordingly, power generation technology that dramatically improves power generation efficiency of generators generated by small hydro power generation or diesel engines is a shortcut to save energy.

Conventional generators are composed of a rotor having a plurality of permanent magnets installed on a rotating shaft rotating by external power, and a stator formed by fixing a coil so as to face the permanent magnet.

That is, the conventional generator is configured to generate electricity in the coil forming the stator by rotating the rotor with external power in the state that the stator is mostly fixed.

However, the conventional generator is generated by rotating only the rotor in a state where the stator is fixed, the power generation efficiency is low, in order to generate electricity with high efficiency, the rotor must be rotated at a high RPM, but for this purpose, a separate energy supplying strong energy Because of the need to install the power unit of the fuel consumption has been a problem that has increased.

Accordingly, the present invention for solving the above problems is provided by the coil shaft and the magnet shaft rotating in the opposite direction by the power supplied from the outside so that the coil shaft can be rotated independently from the outside of the magnet shaft, mutually on the coil shaft and the magnet shaft Install the coil and permanent magnet to face each other while generating reverse rotation so that they can be generated with high efficiency by the coil and permanent magnet rotating in opposite directions. It is an object of the present invention to provide a high efficiency biaxial reverse power generation device that can be installed to face coils and permanent magnets to further increase power generation efficiency.

According to an aspect of the present invention,

Coils and permanent magnets are installed so that the coil shaft and the magnet shaft rotate in opposite directions by the externally supplied power so that the coil shaft can rotate independently from the outside of the magnet shaft, and generate electricity while rotating the coil shaft and the magnet shaft in reverse Are installed so as to face each other, the power generation means is configured to generate high efficiency by the coil and the permanent magnet rotating in the opposite direction to each other.

According to the present invention, it is possible to generate electricity with high efficiency by the coils and the permanent magnets rotating in opposite directions, and further, by installing a pair of coils and the permanent magnets on one coil shaft and the magnet shaft to face the power generation efficiency. It is possible to increase the productivity of the product by installing the left power generating means and the right power generating means which constitute the power generating means in a mutually assembled manner. Power generation efficiency can be greatly improved compared to the existing one, and each field coil is installed independently, so even if it is operated for a long time, the amount of heat generated is small. You can expect.

1 is a view illustrating an installation state of the two-axis reverse power generation apparatus of the present invention.
Figure 2 is a front sectional view showing a biaxial reverse power generation apparatus of the present invention.
Figure 3 is a view showing a cross section of the left power generation means applied to the present invention.
Figure 4 is a view showing a cross section of the right power generating means applied to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1 to 4.

The terms defined in describing the present invention have been defined in consideration of the functions of the present invention and should not be construed to limit the technical elements of the present invention.

According to the above drawings,

The coil shaft 200 and the magnet shaft 300 which rotate in opposite directions with each other by the power supplied from the outside are installed to allow the coil shaft 200 to rotate independently from the outside of the magnet shaft 300, and the coil shaft 200 ) And a generator configured to generate electricity with high efficiency by coils and permanent magnets rotating in opposite directions by installing coils and permanent magnets that face each other while rotating in reverse direction to each other and the magnet shaft 300 ( 100).

The external power supplied to the coil shaft 200 and the magnet shaft 300 is either hydraulic power or thermal power, and the first aberration 1 and the second aberration (1) are respectively applied to the coil shaft 200 and the magnet shaft 300. Combining 2) is configured such that the coil shaft 200 and the magnet shaft 300 rotate in opposite directions according to the rotation directions of the first and second aberrations 1 and 2.

1 illustrates an embodiment in which the generator 100 of the present invention is operated by hydraulic power, and the first aberration 1 is coupled to the coil shaft 200 of the generator 100, and the The second aberration 2 is coupled to the magnet shaft 300, and the water channel branches into the first water channel 3 and the second water channel 4, and the water passing through the first water channel 3 passes through the first aberration ( 1) so that the first aberration 1 rotates downward from the top in the drawing, and water passing through the second water channel 4 falls above the second aberration 2 so that the first aberration 1 rotates downward. As the aberration 2 is rotated upward from the bottom of the drawing, the coil shaft 200 and the magnet shaft 300 connected to the first and second aberrations 1 and 2 rotate in opposite directions. You can do it.

When operating the generator of the present invention using thermal power generation, if the first aberration 1 and the second aberration 2 are configured to rotate in opposite directions by steam generated by thermal power generation, the coil shaft 200 and the magnet shaft It is to be able to rotate the 300 in the opposite direction.

As described above, when the coil shaft 200 and the magnet shaft 300 rotate in opposite directions, the coils and the permanent magnets respectively installed on the coil shaft 200 and the magnet shaft 300 rotate while crossing in the opposite directions. This will induce a lot of electromotive force in the coil will increase the power generation efficiency.

This is the same principle as traveling on a KTX train at 300Km / h, when the other KTX train passes at a speed of 300Km on the opposite track, the crossing speed of the two trains will be an instantaneous speed of 600Km.

When the coil is fixed and only the permanent magnet rotates, as shown in the present invention, when the coil and the permanent magnet rotate in opposite directions at the same time, the crossing speed of the coil and the permanent magnet increases, thereby increasing power generation efficiency.

On the other hand, Figures 2 to 4 show the generator 100 of the present invention in more detail,

The power generation means of the generator 100 is composed of a left power generation means and a right power generation means, and the left power generation means and the right power generation means are installed so that a pair of coils and permanent magnets face each.

The left power generation means,

Is coupled to the first aberration (1) is provided with a first coil shaft 210, which receives the external power, the receiving groove 217 is formed at one end thereof, and is connected to the second magnet shaft 320 to be reared The end of the first magnet shaft 310 is inserted into the receiving groove 217 to couple the bearing 500.

An outer circumference of the first magnet shaft 310 is coupled to the first magnet housing 311 which is generally formed in a 'd' shape, and the middle portion of the first magnet housing 311 has a '-' first shape. An inner housing 312 is formed, and a first outer housing 313 is formed outside the first inner housing 312, and a plurality of first central permanent magnets facing each other inside the first inner housing 312. 314 and a first inner permanent magnet 314 are installed, and a plurality of first outer permanent magnets 316 are installed on the outer circumference of the first outer housing 313.

In addition, a first coil housing 211 is formed at an end of the first coil shaft 210, and a plurality of first inner cores 212 and first outer cores 213 are disposed in the first coil housing 211. It protrudes at predetermined intervals.

At this time, the first inner core 212 is inserted between the first inner housing 312, the first outer core 213 is located outside the first outer housing 313.

The first inner coil 214 is wound around the first inner core 212 so that the first inner coil 214 is positioned between the first central permanent magnet 314 and the first inner permanent magnet 315. The first outer coil 215 is wound around the first outer core 213 so that the first outer coil 215 faces the first outer permanent magnet 316.

Accordingly, when the first coil shaft 210 and the first magnet shaft 310 rotate in opposite directions, the first inner coil 214 may have a first central permanent magnet 314 and a first inner permanent magnet 315. Electricity is generated in the first inner coil 214 while rotating in the opposite direction, and the first outer coil 215 rotates in the opposite direction to the first outer permanent magnet 316. Electricity is generated at.

Electricity generated in each coil by installing a carbon brush 230 to receive the electricity generated from the first inner coil 214 and the first outer coil 215 to the outside of the first coil shaft 210 to the outside To be withdrawn to the outside.

On the other hand, the right power generation means,

It is coupled to the second aberration (2) is provided with a second magnet shaft 320, one end of which is connected to the first magnet shaft 310, the outer magnet of the second magnet shaft 320 The bearing 500 is coupled to the second coil shaft 220 to the second magnet shaft 320.

An outer circumference of the second magnet shaft 320 is coupled to the second magnet housing 311 which is generally formed in a '' shape, and a second '-' shape is formed in the middle of the second magnet housing 321. An inner housing 322 is formed, and a second outer housing 323 is formed outside the second inner housing 322, and a plurality of second central permanent magnets facing each other inside the second inner housing 322 ( 324 and a second inner permanent magnet 324 are installed, and a plurality of second outer permanent magnets 326 are installed at the outer circumference of the second outer housing 323.

In addition, a second coil housing 221 is formed at an end of the second coil shaft 220. A plurality of second inner cores 222 and a second outer core 223 are formed in the second coil housing 221. The second outer core 223 is formed to protrude at predetermined intervals, and the second outer core 223 is coupled to the first outer core 213 so that the rotational force of the first core shaft 210 passes through the first outer core 213 to the second outer core 213. 223 is transmitted to allow the second coil housing 221 and the second coil shaft 220 to rotate.

At this time, the second inner core 222 is inserted between the second inner housing 322, the second outer core 223 is located outside the second outer housing 323.

The second inner coil 224 is wound around the second inner core 222 so that the second inner coil 224 is positioned between the second central permanent magnet 324 and the second inner permanent magnet 325. The second outer coil 225 is wound around the second outer core 223 so that the second outer coil 225 faces the second outer permanent magnet 326.

Accordingly, when the second coil shaft 220 and the second magnet shaft 320 rotate in opposite directions, the second inner coil 224 may have the second central permanent magnet 324 and the second inner permanent magnet 325. Electricity is generated in the second inner coil 224 while rotating in the opposite direction), and the second outer coil 225 rotates in the opposite direction to the second outer permanent magnet 326. Electricity is generated at.

Each of the second coil shaft 220 is provided with a three-phase Y-connected carbon brush 230 for receiving electricity generated from the second inner coil 224 and the second outer coil 225 and outputting them to the outside. The electricity generated in the coil can be drawn to the outside.

It is preferable to configure so that fine pores are formed between the coils and the permanent magnets.

In addition, a first coupler 216 and a second coupler 226 are formed on the outer periphery of the first outer core 213 and the second outer core 223, respectively, and the first coupler The formation positions of the 216 and the second coupler 226 are configured such that the positions of the coils provided in the left power generating means and the right power generating means are twisted by 12 degrees.

In addition, a first shaft coupler 317 and a second shaft coupler 327 for mutual coupling are formed on the outer circumferences of the first magnet shaft 310 and the second magnet shaft 320. The position where the coupler 317 and the second shaft coupler 327 are formed is configured such that the positions of the permanent magnets installed in the left power generating means and the right power generating means are twisted by 12 °.

That is, when the left power generating means and the right power generating means are coupled to each other, the first coupling tool 216 and the second coupling tool 226, and the first shaft coupling tool 317 and the second shaft coupling tool 327 When the first magnet shaft 310 and the second magnet shaft 320 are coupled while the first outer core 213 and the second outer core 223 are coupled to each other, the coil and the permanent magnet constituting the left power generating means are naturally formed. Of the coil and the permanent magnets constituting the right and the right power generating means is twisted by 12 ° It is possible to increase the torque while giving an effect that the initial startup of the generator 100 is smooth.

In addition, if the left power generating means and the right power generating means are formed in a mutually assembled manner, the productivity of the generator 100 may be further increased.

The first and second inner coils 214 and 224 are configured as a bipolar coil and are provided to face the inner and outer sides of the inner coils 214 and 224. The magnetic force generated by the magnets 315 and 325 may be generated.

The inner coils 214 and 224 of the present invention may be installed in the inner core at predetermined intervals from 9 to 15, and the outer coils 215 and 225 may be installed in the outer core. desirable.

Further, the central permanent magnets 314 and 324 constitute 10 to 15, the inner permanent magnets 315 and 325 constitute 15 to 20, and the outer permanent magnets 316 and 326 to 20 to 20. It is preferable to comprise 25 pieces.

Reference numeral 400 denotes a cover that protects the internal structure while forming the outline of the generator 100, one end of the cover 400 is bearing-coupled to the outer periphery of the first coil shaft 210, the cover 400 The other end is coupled to the bearing 500 on the outer periphery of the second magnet shaft 320.

And, the cover 400 is preferably formed to open or close the top or bottom to facilitate the maintenance of the internal power generation means, the cover 400 forms a separate holder for fixing the cover 400.

Generator 100 of the present invention as described above is the coil and the permanent magnet is rotated in the opposite direction to each other, and the pair of coils and permanent magnets are generated while crossing each other, the generation efficiency is very high, ships, automobiles, special military equipment In addition, new high-efficiency generators, step motors with precise rotational distances, and starting starting motors with high force can be extended to heavy equipment, facilities and buildings requiring emergency power generation.

In addition, the generator of the present invention will greatly contribute to energy saving in terms of energy resources and environmental improvement, which are insufficient due to technical development, and low carbon green that can significantly reduce carbon emissions due to the large impact on the development of ship and automobile technology. It should be recognized as a technology.

1: first aberration, 2: second aberration,
3: first channel, 4: second channel,
100: generator, 200: coil shaft,
210: first coil shaft, 211: first coil housing,
212: first inner core, 213: first outer core,
214: first inner coil, 215: first outer coil,
216: the first coupler, 217: receiving groove,
220: second coil shaft, 221: second coil housing,
222: first inner core, 223: second outer core,
224: second inner coil, 225: second outer coil,
226: second coupler, 300: magnetic shaft,
310: first magnetic shaft, 311: first magnetic housing,
312: first inner housing, 313: first outer housing,
314: first central permanent magnet, 315: first inner permanent magnet,
316: first outer permanent magnet, 320: second magnet shaft,
321: second magnetic housing, 322: second inner housing,
323: second outer housing, 324: second central permanent magnet,
325: second inner permanent magnet, 326: second outer permanent magnet,
400: cover, 500: bearing,

Claims (9)

The coil shaft 200 and the magnet shaft 300 which rotate in opposite directions with each other by the power supplied from the outside are installed to allow the coil shaft 200 to rotate independently from the outside of the magnet shaft 300, and the coil shaft 200 ) And the magnet shaft 300 are installed so that the coil and the permanent magnet to generate electricity while facing each other reversely opposite each other to generate power with high efficiency by the coil and the permanent magnet rotating in the opposite direction to each other High efficiency biaxial reverse rotation power generator.
The high efficiency biaxial reverse direction of claim 1, wherein the power generation means is divided into a left power generation means and a right power generation means, and the left power generation means and the right power generation means are provided such that a pair of coils and a permanent magnet face each other. Rotary power plant.
The method of claim 2,
The left power generation means,
A first coil shaft 210 which receives external power and has an accommodating groove 217 at one end thereof, a first magnet shaft 310 fitted into the accommodating groove 217 and coupled to a bearing 500; The first inner housing 312 is formed in a 'r' shape as a whole and a 'c' shaped portion is formed in the middle portion, and the first outer housing 313 is formed outside the first inner housing 312. The first magnet housing 311 coupled to the outer circumference of the first magnet shaft 310 and the plurality of first central permanent magnets 314 and the first inner side which are installed to face each other inside the first inner housing 312. Permanent magnets 315, a plurality of first outer permanent magnets 316 installed on the outer periphery of the first outer housing 313, a plurality of first inner cores 212 and the first outer core on the outer periphery 213 is protruded at predetermined intervals and is wound around the first coil housing 211 and the first inner core 212 extending from the first coil shaft 210. A first inner coil 214 located between the first center permanent magnet 314 and the first inner permanent magnet 315 and a first outer permanent magnet 316 wound around the first outer core 213. A high efficiency biaxial reverse rotational power generation device, characterized in that consisting of a first outer coil (215) facing.
The method of claim 2,
The right power generation means,
A second magnet shaft 320, one end of which is connected to the first magnet shaft 310 and the second magnet coupled to the outer side of the second magnet shaft 320, by receiving external power, is coupled by the bearing 500. The coil shaft 220 and the second inner housing 322 formed in a 'L' shape as a whole and having a 'C' shape in the middle part are formed, and the second outer housing 323 is located outside of the second inner housing 322. ) Is formed so that the second magnet housing 321 coupled to the outer circumference of the second magnet shaft 320 and the plurality of second central permanent magnets installed opposite to each other inside the second inner housing 322. 324 and a second inner permanent magnet 325, a plurality of second outer permanent magnets 326 installed on the outer periphery of the second outer housing 323, and a plurality of second inner cores on the outer periphery ( 222 and the first outer core 223 protruding at a predetermined interval and extending from the second coil shaft 220 and the second coil housing 221, the second inner The second inner coil 224 and the second outer core 223 is wound around the second center permanent magnet 324 and the second inner permanent magnet 325 is wound around the second 222 is wound around the second High efficiency biaxial reverse rotational power generation device, characterized in that consisting of a second outer coil (225) facing the outer permanent magnet (326).
The method according to claim 3 or 4,
On the outer periphery of the first outer core 213 and the second outer core 223 to form a first coupler 216 and the second coupler 226 for mutual coupling, the first coupler 216 ) And the second coupler 226 is formed at a position of the coils installed in the left power generating means and the right power generating means is twisted by 12 °, characterized in that the high efficiency biaxial reverse rotation power generation apparatus.
The method according to claim 3 or 4,
On the outer circumference of the first magnet shaft 310 and the second magnet shaft 320 to form a first shaft coupling sphere 317 and the second shaft coupling sphere 327 for mutual coupling, the first shaft coupling sphere Forming position of the 317 and the second shaft coupling port 327 is a high efficiency biaxial reverse rotational power generation apparatus, characterized in that the positions of the permanent magnets installed in the left power generating means and the right power generating means is twisted by 12 °.
The method of claim 1,
The external power supplied to the coil shaft 200 and the magnet shaft 300 is either hydraulic power or thermal power, and the first aberration 1 and the second aberration (1) are respectively applied to the coil shaft 200 and the magnet shaft 300. 2) by combining the coil shaft 200 and the magnet shaft 300 in the opposite direction in accordance with the rotation direction of the first and second aberrations (1) (2) by combining Device.
The method according to claim 3 or 4,
High-efficiency bi-axial reverse rotation, characterized in that the three-phase Y-connected carbon brush 230 is provided to the first coil shaft 210 and the second coil shaft 220 to receive the electricity generated from the coil and output it to the outside Power generation device.
The method according to claim 3 or 4,
The first and second inner coils (214) (224) is a high efficiency biaxial reverse rotation power generator, characterized in that the coil.

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