WO2006071083A2 - Power generator using permanent magnet - Google Patents

Description

[SPECIFICATION]

[The title of the invention]

Power generator using permanent magnet

[The brief description of the drawings]

Fig. 1 is a perspective view of the present invention;

Fig. 2 is another exploded view of the present invention;

Fig. 3 is another perspective view of the present invention;

Fig. 4 is yet another perspective view of the present invention; and

Fig. 5 shows a central part of a water wheel type rotor of the present invention.

*Description of the reference numerals in the drawings*

10: water wheel type rotor 12: central shaft

15: N-pole 20: S-pole

25: permanent magnet plate wing of rotor

27: adjustment screw

30: cylindrical permanent magnet plate

31 : circular permanent magnet plate 32: support rod

33: support stand

35: magnet bearings 37: central part of water wheel type rotor

[Detailed description of the invention]

[Object of the invention]

[The field of the invention]

The present invention relates to a driving apparatus using power, for example, a

power generator using a permanent magnet which is mounted on an electric generator or

vehicle to supply power required for the driving apparatus, and more particularly to, a

power generator using a permanent magnet in which a water wheel rotor permanently

rotates without having a separate driving apparatus such as a motor by use of a

repulsive force which is generated when identical polarities approach between magnetic

bodies.

[Background of the invention]

In general, a power generator includes a fan which is a rotating body, and a

motor or engine for making the fan rotate. The fan which is a rotating body rotates by

rotation of the motor, and then power which is obtained by rotation of the fan is

applied to an electric generator or other driving apparatuses.

As described above, the conventional power generators should drive a motor or

engine in order to generate power. As a result, an additional energy source such as electric power or gasoline or light oil should be supplied to drive the motor or engine.

Thus, much cost consumed for supplying electric power or gasoline or light oil

causes economical burden to users.

Accordingly, power generators which can generate power using natural

environment such as a hydraulic power generator or wind power generator have been

used, but such power generators using natural environment cannot be used in general

industrial fields unless geographical conditions are met.

[Technical object of the invention]

To solve the above problems, it is an object of the present invention to provide a

power generator by use of a rotary force of a rotating rotor by continuously rotating the

rotor using a permanent magnet which includes a rotor having a magnetic property of

generating a repulsive force when identical polarities approach between magnetic bodies,

while having a permanent magnet having a magnetic property of generating the repulsive

force when identical polarities approach between magnetic bodies, and a water wheeler

type permanent magnet plate which is located in opposition to one side of the rotor and

axially combined with the rotor on an identical shaft, and thus since a repulsive force is

generated between the fan and the permanent magnet plate, the rotor continuously rotates

to thereby generate power.

[Technical solution of the invention]

A bar permanent magnet is vertically put and both sides there between are arranged with one additional permanent bar magnet, while any identical polarity, N-pole or S-pole,

faces on the same direction. If the N-poles are in an upside direction and arranged in a

line, the bar permanent magnet moves upwards. If the S-pole is in a downside direction

and arranged in a line, the bar permanent magnet moves downwards.

Using the above character of a magnet, a wing of a water wheel type rotor is

formed while a N-pole and a S-pole are put vertically, with the N-pole on a upward

direction If one side or both sides of the rotor are arranged with the N-pole, the water

wheel type rotor rotates in an upward direction. If one side or both sides of the rotor are

arranged with the S-pole, the water wheel type rotor rotates in a downward direction.

As abovementioned, a fixed water wheel type permanent magnet is created by

fixing the water wheel type rotor A circular permanent magnet plate rotor formed with N-

pole and S-pole on a front and rear sides are provided. The fixed water wheel type

permanent magnet is disposed beside the circular permanent magnet plate rotor, and the

circular permanent magnet plate rotor rotates.

Accordingly, different from a waterpower generator or a wind power generator, if

several permanent magnet plates are disposed beside one or both sides of the rotor formed

like the wing of the water wheel, so that a rotor can permanently rotate.

[Best mode for carrying out the invention] The above aspects and features of the present invention will be more apparent by

describing certain embodiments of the present invention with reference to the accompanying

drawings, in which:

Fig 1 is a perspective view of the present invention;

Fig. 2 is another exploded view according to another embodiment of the present

invention;

Fig 3 is another perspective view of the present invention;

Fig. 4 is yet another perspective view of the present invention; and

Fig. 5 shows that a central hole of a circular permanent magnet plate rotor and a

central shaft of a fixed water wheel type circular permanent magnet plate are formed with

magnet bearings.

Referring to Fig. 1, a permanent magnet plate is formed thin on a wing of a fixed

water wheel type circular plate. N-pole and S-pole are provided on a front and rear sides

of the permanent magnet plate, respectively and a rotor of the circular permanent magnet

plate formed with N-pole and S-pole on the front and rear sides thereof, are disposed on a

front side of a circle of the wing of the fixed water wheel type circular plate.

A center of the circular magnet plate rotor is disposed with the central shaft. The

centra] shaft is supported by an adjustment screw on a supporting stand behind the circular

permanent magnet plate rotor, and adjusts a distance between the fixed water wheel type

circular plate and the circular permanent magnet plate rotor. Fig. 2 is another exploded view according to another embodiment of the present

invention. Fig. 2 shows various rotor forms, to exemplify forms of several rotors of

obtaining a rotary power.

A permanent magnet plate is formed thin on a wing of a fixed water wheel type

circular plate N-pole and S-pole are provided on a front and rear sides of the permanent

magnet plate, respectively and a rotor of the cylindrical permanent magnet plate formed

with N-pole and S-pole on the front and rear sides thereof, are disposed on an inner and

outer sides of a circle of the wing of the fixed water wheel type circular plate.

The rotor of the circular permanent magnet plate formed with N-pole and S-pole on

the front and rear sides thereof, are disposed on both sides of the circle of the wing of the

fixed water wheel type circular plate. One side of the circular permanent magnet plate and

2 cylindrical permanent magnets are integrated into one body, and polarities facing the wing

of the fixed water wheel type circular plate are formed to be identical. The rest of circular

permanent magnetic plate rotors are disposed behind the permanent magnetic plate wing of

the fixed water wheel circular plate. The center of each circular permanent magnetic plates

are disposed with the central shaft, and the central shaft is supported by an adjustment

screw on a supporting stand behind the circular permanent magnet plate rotor, and adjusts a

distance between the fixed water wheel type circular plate and the circular permanent

magnet plate rotor. Referring to Fig. 3, the cylindrical permanent magnetic rotor is attached inside a

wing of the fixed water wheel type circular plate. The circular plate is nonmagnetic and

not electrically conductive. The center of the nonmagnetic circular plate is disposed with

the central shaft The central shaft is supported by an adjustment screw on a supporting

stand behind the rotor, and adjusts a distance between the fixed water wheel type circular

plate and the circular permanent magnet plate rotor.

Referring to Fig. 4, the cylindrical permanent magnetic rotor is attached outside the

wing of the fixed water wheel type circular plate. The circular plate is nonmagnetic and

not electrically conductive. The center of the nonmagnetic circular plate is disposed with

the central shaft. The central shaft is supported by the adjustment screw on the supporting

stand behind the rotor, and adjusts a distance between the fixed water wheel type circular

plate and the circular permanent magnet plate rotor.

Referring to Fig. 5, a central hole of the water wheel type rotor and a central shaft

12 of the water wheel type rotor are formed of magnet bearings 35. A contact part

between a protrusion part of the central shaft and a mam body, and a contact part between

a nut playing a role of a head and the main body are formed of the magnet bearings 35.

Herein below, the operation of the present invention will be described.

When the permanent magnetic plate rotor there beside is formed, N-pole and S-pole

formed on a frond and rear sides by forming a thin permanent magnetic plate on a wing

part of the fixed water wheel, are applied with a repulsive force. A vertical rotary force is generated with respect to a direction of a polarity of a wing of a fixed water wheel there

beside and the N-pole and the S-pole rotate.

Accordingly, a permanent rotary force is generated without having a separate

driving apparatus such as a motor.

The foregoing embodiments and advantages are merely exemplary and are not to be

construed as limiting the present invention. The present teaching can be readily applied to

other types of apparatuses. Also, the description of the embodiments of the present

invention is intended to be illustrative, and not to limit the scope of the claims, and many

alternatives, modifications, and variations will be apparent to those skilled in the art.

[Industrial applicability]

According to the present invention, a water wheel type rotor permanently rotates

without having a separate driving apparatus such as a motor, to generate a repulsive

force for other apparatuses.

Accordingly, the water wheel type rotor may be industrially applied to unlimited

extent.

[Effect of the invention]

According to the present invention, a water wheel type rotor permanently rotates

without having a separate driving apparatus such as a motor, to generate a repulsive

force for other apparatuses.

Claims

[What is claimed is]

[Claim 1]

A power generator using a permanent magnet, wherein a permanent magnetic plate

is disposed thm on a wing part of a fixed water wheel type circular plate, to form a N-

pole and a S-pole on a front and rear sides of the wing, and around the wing of the fixed

water wheel type circular plate is disposed with a rotor of a plate permanent magnet

formed with the N-pole and the S-pole on the front and rear sides of the wing, on a front

side of a circle of the wing.

[Claim 2]

The power generator of claim 1, wherein around the wing of the fixed water wheel

type circular plate is disposed with the rotor of the plate permanent magnet formed with

the N-pole and the S-pole on the front and rear sides of the wing, on a rear side of a

circle of the wing.

[Claim 3]

The power generator of claim 1, wherein around the wing of the fixed water wheel

type circular plate is disposed with the rotor of the plate permanent magnet formed with

the N-pole and the S-pole on an inner and outer sides of the wing, on an inner side of a

circle of the wing, and a polarity of an outer side of a rotor of a cylindrical permanent

magnet is identical to the polarity of the plate permanent magnet integrally formed with the

rotor of the cylindrical permanent magnet.

[Claim 4] The power generator of claim 1, wherein around the wing of the fixed water wheel

type circular plate is disposed with the rotor of the plate permanent magnet formed with

the N-poIe and the S^~pole on the inner and outer sides of the wing, on an outer side of

the circle of the wing, and a polarity of an inner side of the rotor of the cylindrical permanent

magnet is identical to the polarity of the plate permanent magnet integrally formed with the

rotor of the cylindrical permanent magnet.

[Claim 5]

The power generator of claims 3and 4, wherein by attaching the rotor of the

cylindrical permanent magnet on a nonmagnetic circular plate which is not electrically

conductive, a central shaft is disposed on a center of the nonmagnetic circular plate, the

central shaft is supported by an adjustment screw on a supporting stand behind the rotor

and adjusts a distance between the fixed water wheel type circular plate and the rotor of

the cylindrical permanent magnet.

[Claim 6]

The power generator of claims land 2, wherein the rotor of the plate permanent

magnet formed with the N-pole and the S-pole on the front and rear sides of the wing, is

disposed on the front and rear sides of the circle of the wing.

[Claim 7]

The power generator of claims 1 through 4, wherein while the rotor of the

permanent magnet plate on one side is attached with the cylindrical permanent magnet inside the wing of the fixed water wheel type circular plate, and the other side of the rotor

of the permanent magnet plate is attached with the cylindrical permanent magnet outside

the wing of the fixed water wheel type circular plate, the distance between each rotor of

permanent magnet plate and the wing of the rotor of the fixed water wheel type circular

plate, is adjusted by the adjustment screw 27, and the adjustment screw 27 is formed on a

center of the rotor of the permanent magnetic plate on one side and a supporting stand 33

behind the rotor of the permanent magnetic plate.

[Claim 81

The power generator of claims 1 through 4, wherein while the rotor of the

permanent magnet plate one side is attached with the cylindrical permanent magnet inside

and outside the wing of the fixed water wheel type circular plate, and the other side of the

rotor of the permanent magnet plate is attached with the circular permanent magnet outside

the wing of the fixed water wheel type circular plate, the distance between each rotor of

permanent magnet plate and the wing of the rotor of the fixed water wheel type circular

plate, is adjusted by the adjustment screw 27, and the adjustment screw 27 is formed on a

center of the rotor of the permanent magnetic plate on one side and the supporting stand

33 behind the rotor of the permanent magnetic plate.

[Claim 9]

The power generator of claims 1 through 4, wherein a central hole of the water

wheel type rotor and a central shaft 12 of the water wheel type rotor are formed of magnet bearings 35, and a contact part between a protrusion of the central shaft and a

main body, and a contact part between a nut playing a role of a head and the main body

are formed of the magnet bearings 35.