WO2000060618A1 - A method for manufacturing magnets having inclined magnetic force lines and power plants using it - Google Patents

Abstract

The present invention relates to magnet having inclined magnetic force lines and the power plant such as motor using it. The power plant according to the present invention has simultaneously magnetic force by repulsive power between the same poles and acceleration by the centrifugal force generated by inclined magnetic force line.

Description

A METHOD FOR MANUFACTURING MAGNETS

HAVING INCLINED MAGNETIC FORCE

LINES AND POλVER PLANTS USING IT.

BACKGROUND OF THE INVENTION

FIELD OF THE INVENTION

The present invention relates to a method for manufacturing magnets

magnetized to have deflective magnetic force lines and power plants

using it.

DESCRIPTION OF THE PRIOR ART

In the conventional magnet magnetic force lines of the N.S poles all are

magnetized in vertical direction and thus the magnetic filed is operated in

straight line direction with N and S poles and in right and left radial

direction of said straight line direction.

Therefore in the conventional power plant such as motors operated by

means of the magnetic force of magnet such as lodestone, artificial

magnet, and electric magnet since the opposite poles of stators and

rotators thereof should be disposed to take the same poles N, N or S, S symmetrically, there are defects that the power plants such as motor by

the magnet must be limited in the structure.

For instance, if the power plants such as motors, are made of, using the

magnet having the magnetic force line only in any one of vertical or

horizontal direction, all of the opposite surfaces of stators and rotators

thereof should be constructed to act as exclusive poles e. g. the same

poles such as N, N poles or S, S poles, in any one of vertical or

horizontal direction, corresponding to the power plant.

However because the above-mentioned power plants depend upon only

repulsive power of the exclusive identical poles and propulsive force

generated by rotating acceleration of the power plant cannot be taken, the

magnetic force is consumed easily in short time, on the other hand the

power is weak.

For instance, the electric magnet has the following defect ;

If the electric magnetic force is cut off suddenly, since the power plant

cannot have entirely acceleration and propulsive force the device must be

stopped suddenly.

SUMMARY OF THE INVENTION

The present invention is to provide novel power plants improved faults of the conventional power plants such as motors using the conventional

magnetic force having vertical magnetic force lines as stated above, more

particulary the same poles of magnet magnetized inclined magnetic force

lines are constructed to confront with each other, so that rotatory power

generated by repulsive power of the same poles themselves may be

joined with acceleration generated by rotatory power of inclined direction

of magnet having inclined magnetic force lines to rise far and away

rotatory power of the magnet of the power plant.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig 1(a) shows a plan view of a cylindrical magnetized magnet and

ferrite powder for magnetizing in accordance with the present lmention.

Fig Kb) shows a vertical- sectional view of A- A' line of Fig 1(a).

Fig 2 shows a sectional side elevation of a cylindrical motor using

magnet manufactured by the identical process to Fig 1(a).

Fig 3(a) shows a vertical section view of circular plate shaped

magnetized magnet and ferrite powder for magnetizing in accordance with

the present invention.

Fig 3(b) shows a cross- sectional view of B^~B' line of Fig 3(a).

Fig 4(a) shows a cross- sectional view of a magnetic motor using circuler plate shaped magnet prepared by method of Fig 3(a)

Fig 4(b) shows a side view of a motor shown in Fig 4(a).

Fig 5(a) shows a side view of a cylindrical magnetic motor that upper

and lower ends of its stators and rotators all comprise the identical

poles.

Fig 5(b) shows a vertical section view of C-C line of Fig 5(a).

Fig 6 shows a side view of a cylindrical magnetic motor consisted of

multiple arc shaped magnet segments having the identical upper and

lower poles.

DETAILED DESCRIPTION OF THE INVENTION

Now referring to the accompanying drawings, the present invention will

be described in detail as follows ;

As shown in Figl(aXb), a cylindrical magnet 3 of large diameter formed

by magnetizing to form repeatedly multiple arc shaped magnet segments

having south pole(S) 1 and north pole(N) 2 throughout girth of the

cylinder is disposed outside, a cylindrical magnet 4 of small diameter

manufactured by method identical to that of cylindrical magnet 3 of said

large diameter is fixed on the central axis 6 to keep space 5 identical to

thickness of a magnet to be made newly inside of said cylindrical magnet 3 of large diameter, provided that a boundary line 8 of south and north

poles 1,2 of the cylindrical magnet 3 having said large diameter and that

8a of south and north poles l',2' of the cylindrical magnet 4 having said

small diameter are placed to cross each other, then in the space 5

between said cylindrical magnets of large diameter and small diameter

iron(ferrite)powder for magnet is filled and pressed to give a new magnet

that N-S magnetic force line is magnetized slantly, wherein the outer

surface of the resulting magnet near the inner surface of the cylindrical

magnet 3 of large diameter has a pole identical to that of the magnet 3

and the inner surface of the resulting magnet near the outer surface of

the cylindrical magnet 4 of small diameter has a pole identical to that of

the magnet 4.

In similar method to that as mentioned above, as shown in Fig 3. circular

plate shaped magnets 3a, 4a, 5a formed magnetic force line of south and

north poles la, 2a vertically are disposed to keep spaces 6a, 7a of height

identical to that of circular plate shaped magnet to be made, provided

that the centers 9, 9a, 9b of south and north poles of said circular shaped

magnets 3a, 4a, 5a are placed in a mold 9 ',9a ',9b' to cross each other

and in said spaces 6a, 7a iron(ferrite)powder for magnet is filled and

pressed to give a new circular magnet that N-S magnetic force line is magnetized slantly, wherein the upper and lower surfaces of said magnet

have poles identical to that near said circular magnet 3a, 4a, 5a.

Using the above-mentioned method, as shown in Fig 5, magnets can be

made, that the upper part of the cylindrical magnet is magnetized to have

any one only of N or S pole, the lower part has a pole opossite to said

upper part and each pole of said upper and lower parts is magnetized

slantly.

Also cylindrical magnets that N, S poles are formed on the upper and

lower parts and said N,S poles have slantly the magnetic force lines

respectively can be made by uniting multiple dividing segments, Se, Se'

such that the cylindrical magnets are divided longitudinally.

A method for manufacturing the power plant using the magnet

magnetized slantly magnetic force line as mentioned above will be

described below in detail.

As shown in Fig 2, in a stator F as a cylindrical magnet 3 of large

diameter magnetized repeatedly south and north poles 1, 2 throughout

girth of the cylinder, rotator R as the cylindrical magnet 4 of small

diameter consisting of multiple magnets that poles of the outer and the

inner surfaces of the cylinder and poles near each other in circumference

direction thereof all take the opposite poles and N^~S magnetic force lines are magnetized slantly, is fixed on the central axis 6 so as to keep

certain space with said stator F to give a power plant operating by

magnetic force.

Futhermore, as shown in Fig 4(a), multiple circular plate shaped stator Fa

united two circular plate shaped magnets Fa'+Fa₂ to form V-shaped

magnet force line is fixed on the central axis 10 to keep certain space 11

intermittently, on the axis identical to said stator Fa in said space 11 the

circular plate shaped rotator Ra united two circular plate shaped

magnets Rai+Ra2 to form V shaped magnetic force line of the opposite

direction with magnetic force line of said stator Fa is established to give

a power plant operating by the magnetic force so that the rotator Ra is

rotated by inclined magnetic force line of the pole identical to the stator

Fa.

In addition, as shown in Fig 5 a stator FB and a rotator RB as

cylindrical magnets having large and small diameters that the upper part

and the lower part of the magnet are operated as N and S poles

respactively and the magnetic force lines are magnetized slantly are

established to fix said small rotator RB on the central axis 6' in said

large stator FB as in the above-mentioned power plant to give a power

plant operating by magnetic force. Also, using cylindrical magnets having large and small diameters that the

upper and the lower parts of the magnet are operated as N and S poles

respectively, the magnetic force lines are magnetized slantly, and multiple

dividing segments Se, Se' are united, in stators FC as said cylindrical

magnets of large diameters rotators RC as cylindrical magnets of small

diameters are fixed on the central axis 6" to give the other power plant

operating by magnetic force.

In the above- stated power plant operating by magnetic force of the

present invention, since the same N or S poles of magnets magnetized

slantly magnetic force line are established to exclude near each other in

the right, the left, the up and the down directions, the power is generated

by repelling power of the magnet itself as well as the centrifugal force

also is generated by means of nozzle shaped inclined magnetic force line

occurred in meeting position of the same poles of the stator FB and the

rotator RB.

Accordingly since by magnetic force of the original magnet and inclined

centrifugal force acceleration is generated the power plant of the present

invention can generated much more energy than that of the magnet

magnetized only in vertical direction.

Claims

1. A method for manufacturing cylindrical magnets having inclined

magnetic force lines characterized in that a cylindrical magnet 3 of large

diameter formed by magnetizing to form repeatedly multiple arc shaped

magnet segments having south pole(S) 1 and north pole(N) 2 throughout

girth of the cylinder is disposed outside, a cylindrical magnet 4 of small

diameter manufactured by method identical to that of cylindrical magnet 3

of said large diameter is fixed on the central axis 6 to keep space 5

identical to thickness of a magnet to be made newly inside of said

cylindrical magnet 3 of large diameter, provided that a boundary line 8 of

south and north poles 1,2 of the cylindrical magnet 3 having said large

diameter and that 8a of south and north poles l ',2' of the cylindrical

magnet 4 having said small diameter are placed to cross each other, then

in the space 5 between said cylindrical magnets of large diameter and

small diameter iron(ferrite)powder for magnet is filled and pressed to give

a new magnet that N-S magnetic force line is magnetized slantly,

wherein the outer surface of the resulting magnet near the inner surface

of the cylindrical magnet 3 of large diameter has a pole identical to that

of the magnet 3 and the inner surface of the resulting magnet near the

outer surface of the cylindrical magnet 4 of small diameter has a pole identical to that of the magnet 4.

2. Cylindrical power plants operating by magnetic force characterized in

that in a stator F as a cylindrical magnet 3 of large diameter magnetized

repeatedly south and north poles 1, 2 throughout girth of the cylinder,

rotator R as the cylindrical magnet 4 of small diameter consisting of

multiple magnets that poles of the outer and the inner surfaces of the

cylinder and poles near each other in circumference direction thereof all

take the opposite poles and N-S magnetic force lines are magnetized

slantly, is fixed on the central axis 6 so as to keep certain space with

said stator F to give a power plant operating by magnetic force.

3. A method for manufacturing cylindrical magnets having inclined

magnetic lines characterized in that circular plate shaped magnets 3a, 4a,

5a formed magnetic force line of south and north poles la, 2a vertically

are disposed to keep spaces 6a, 7a of height identical to that of circular

plate shaped magnet to be made, provided that the centers 9, 9a, 9b of

south and north poles of said circular shaped magnets 3a, 4a, 5a are

placed in a mold 9 '.9 ',9b' to cross each other and in said spaces 6a, 7a

iron (ferrite .powder for magnet is filled and pressed to give a new circular

magnet that N-S magnetic force line is magnetized slantly, wherein the upper and lower surfaces of said magnet have poles identical to that near

said circular magnet 3a, 4a, 5a.

4. Circular plate shaped power plants operating by magnetic force

characterized in that multiple circular plate shaped stator Fa united two

circular plate shaped magnets Fa]+Fa₂ as manufactured by the method of

claim 3 to form V-shaped magnet force line is fixed on the central axis

10 to keep certain space 11 intermittently, on the axis identical to said

stator Fa in said space 11 the circular plate shaped rotator Ra united

two circular plate shaped magnets Raι+Ra₂ as manufactured by the

method of claim 3 to form V shaped magnetic force line direction

opposite with magnetic force line of said stator Fa is established to give

a power plant operating by the magnetic force so that the rotator Ra is

rotated by inclined magnetic force line of the pole identical to the stator

Fa.

5. A method for manufacturing cylindrical magnets having inclined

magnetic force lines in accordance with claim 1, wherein said magnets

are made, that the upper part of the cylindrical magnet is magnetized to

have any one only of N or S pole, the lower part has a pole opossite to

said upper part and each pole of said upper and lower parts is

magnetized slantly.

6. Cylindrical power plants operating by magnetic force characterized in

that a stator FB and a rotator RB as cylindrical magnets having large

and small diameters that the upper part and the lower part of the magnet

are operated as N and S poles respectively and the magnetic force lines

are magnetized slantly are established to fix said small rotator RB on the

central axis 6' in said large stator FB to give a power plant operating by

magnetic force.

7. A method for manufacturing cylindrical magnets characterized in that

a cylindrical magnet that N, S poles are formed on the upper and lower

parts and said N, S poles have slantly the magnetic force lines

respectively are made by uniting multiple dividing segments Se, Se' such

that the cylindrical magnets as manufactured by the method of claim 5

are divided longitudinally.

8. Cylindrical power plants operating by magnetic force characterized in

that in stators FC as cylindrical magnets of large diameter as

manufactured by method of claim 7 stators RC as cylindrical magnets of

small diameter as manufactured by method of claim 7 are fixed on the

central axis 6".