KR20020013676A - Super strong magnet motor - Google Patents

Abstract

PURPOSE: A superstrong magnet motor is provided to raise magnet energy by using repulsive force and attractive force between magnets together. CONSTITUTION: A superstrong magnet motor comprises successively arranged magnet groups(20,20'), each including a basic unit having successively arranged four-magnet rings(4,4',4",4"') and four-controllers(11,11',11",11"') of magnetic material inserted between the four magnet rings(4,4',4",4"'). Each of the magnet rings(4,4',4",4"') has a non-magnetic material disk(1,1',1",1"'), a rotation axis(2,2',2",2"') at the center of the disk(1,1',1",1"'), and many magnets(3,3',3",3"') fixed at the circumference of the disk(1,1',1",1"'). The identical poles of the magnet rings(4,4',4",4"') are fixed to adhere to the circumference of the disk(1,1',1",1"').

Description

Super Strong Magnet Motors {.}

The present invention has been invented for the purpose of overcoming energy difficulties, preventing environmental pollution, and working efficiently by developing the main parts of the magnetic motor and its driving device that operate in the strongest state by the repulsive force or attraction of the permanent magnet.

The present invention relates to a super-strong magnet motor invented for the purpose of overcoming energy difficulties, preventing environmental pollution, and working efficiently by developing the main portion of the magnetic motor and its driving device that operate in the strongest state by the repulsive force or attraction of the permanent magnet. Technology.

Magnets have been a challenge in the interest of many people due to the action of repulsion and attraction, but they are insufficient to be used as power.

Therefore, in the present invention, when the magnetic material is inserted between two magnet rings having the same external magnetic pole, the magnet is separated from the passive method in which the attraction force acts between the magnetic body and the magnetic ring, so that the magnet works with the two magnetic rings having different external magnetic poles. It strengthened its force, and four magnetic rings were four times stronger than the magnetic attraction force in four places to reinforce the original force due to the attractive force acting on one part of two magnetic rings. By using the repulsive force of the magnet instead of the magnetic body can be stronger than the force by the magnetic body.

The strongest point of the force acting between the two circumferential magnet rings and the plate-like magnetic body is to act on a wider surface than at one point, so that the magnetic planes are parallel on the magnet ring and concentric circles to maximize the force. The attraction force is maximized, or the magnet's ring face is concentric with the magnet's concentric circle to maximize its repulsive force, thereby reinforcing the whims of the magnet ring with super-strong energy.

In addition, by creating a magnet group consisting of four magnet rings, the force is generated at the same time of four points of inertia, and the super magnetic magnet motor maximizes the inertia of the magnet ring in the shortest time due to the right. The invention was invented to prevent environmental pollution while overcoming energy shortages.

Conventional magnet motors were rotated by other magnets moving in parallel with the magnetic poles, but the energy of the original force was weaker than that of many parts, which made it impossible to use them. Although it rotates, it is also not practical because it rotates by weak force.

The present invention is an invention for the development of the main portion and the driving device of the super-strong magnet motor to create a strong energy by improving as described above in order to fundamentally improve many of these problems.

The present invention, in order to fundamentally improve many of the problems described above, the applicant's inventions of "magnetization of geomagnetic force" and "intangible parts" and magnet attraction and repulsion, Dynamics between two magnets with repulsive force, when a magnetic body is inserted between magnets with repulsive force, when a magnet is inserted between magnets with repulsive force, and between two magnets with attractive force When the magnet is inserted so that different magnetic poles approach between the two magnets with the repulsive force, the relationship, the action when the magnetic body is inserted between the magnets acting by the attraction force, the action when the magnets are inserted between the magnets acting by the attraction force The characteristics of the magnet with the attraction force, the characteristic when the same magnetic pole is inserted between the magnets with the attraction force, the magnet iso, the magnet wheel, and the spherical play Invented by applying a variety of well-known facts, such as the force of attraction and repulsive force when a magnet or a magnetic body is in contact with each other will be described in detail by the accompanying drawings.

1 (a) is a perspective view of the main part of the present invention

1 (b) is a perspective view of the main portion and the associated gear device of the present invention

Figure 1 (c) is a perspective view and principle of operation of the main portion and the linkage device of the present invention

2 is a cross-sectional view of the main part of the present invention

Figure 2 (b) is a cross-sectional view of the linkage gear device of the present invention

Figure 2 (c) is a cross-sectional view of the linked gear device of the present invention

Figure 2 (d) is a cross-sectional view of the main portion and the linkage device of the present invention

2 (e) is a sectional view of the main part of the present invention and the principle of action

Figure 2 (bar) is a cross-sectional view and principle of operation when the magnetic body acts on the main part of the present invention

Figure 2 is a cross-sectional view and principle of action of the magnet acting on the main part of the present invention

Figure 2 (a) is a cross-sectional view and principle of operation of the strongest state by the magnetic material of the present invention

2 is a cross-sectional view and principle of operation of the strongest state of the magnet of the present invention

2 is a cross-sectional view and principle of operation of the strongest state of the magnet group of the present invention.

Figure 2 (k) is a cross-sectional view and principle of operation of the operating state by the endless track of the present invention

Figure 2 (ta) is a cross-sectional view and principle of operation of the operating state of the present invention long track

As shown in Figs. 1 (a) (b) (c) and 2 (a) (b) (c) (d), the rotary shaft 2 is inserted into the center hole of the disc 1 made of nonmagnetic material. A magnet ring 4 is formed in which the disk 1, the rotating shaft 2 and the magnet 3 are formed in a single body by fixing the magnet 3 to the circumferential surface of the disk 1 and adhering the same magnetic pole to the circumferential surface. do.

The rotary shafts 2, 2 ', 2', and 2 '' of the four magnet rings 4, 4 ', 4' (4 '),' 4 ', bearing shaft 5 and bearing lid ( 6) Perforate the vertices of the same square at the same location (6 ') into the bearing holes (7) (7') (7 ") (7 '"), and the bearings (7) (7') (7 Rotation shafts 2, 2 ', 2', 2 '" are laid out in the ") " 7' " with known bearings, and the rotation shafts 2, 2 ', 2 " The magnet rings 4, 4 ', 4 " (' " 4) are configured to rotate at high speed.

Cog wheels 8 and 8 'at the proper positions of the rotating shafts 2, 2', 2 "and 2 '" inside and outside the bearing frame 5 and the bearing lid 6 and 6'. (8 ") (8 '"), and the shaft (10) bearing lid (6) (6') so that the cogwheel (9) and the cogwheel (8) fixed to the rotation shaft (10) are engaged. We build up).

Thus, the magnet group 20 or the magnet group 20 is constituted by the magnet unit 20 based on the continuous arrangement of four magnet rings 4, 4 ', 4 " (' "4). ) Is composed of a group of magnets 20, 20 ', 20 ", 20' "

That is, four magnet rings 4, 4 ', 4', 4 '(' "4) of the magnet ring 4, the magnet ring 4 ', the magnet ring 4", and the magnet ring 4' "are replaced. A super strong magnet motor, which is a basic unit of the magnet group 20, and constitutes the magnet group 20 or the magnet groups 20, 20 ', 20 ", 20' " Make

A straight type in which the adjusting device 11 is fixed to the adjusting support plate 12 so that the adjusting device 11 composed of the magnetic body 21 or the magnet 22 slides between the magnet ring 4 and the magnet ring 4 '. Insert the gear (13).

The adjusting device 11 'is provided on the adjusting support plate 12' such that the adjusting device 11 'composed of the magnetic body 21' or the magnet 22 'slides between the magnet ring 4' and the magnet ring 4 ". Is inserted into the linear gear 13 ', and the adjusting device 11 "composed of the magnetic body 21" or the magnet 22 "is inserted between the magnet ring 4" and the magnet ring 4' ". The linear gear 13 "in which the adjusting device 11" is fixed to the adjustment support plate 12 "is inserted so that it slides.

Then, between the magnet ring 4 '"and the magnet ring 4, the linear gear 13'" to which the adjusting device 11 '"consisting of the magnetic body 21'" or the magnet 22 '"is fixed is adjusted. It is inserted into the support plate 12 '".

The magnet ring 4 and the magnet ring as shown in Figs. 1 (c) and 2 (d) in order to operate the adjusting device 11 (11 '(11 ", 11'") at the same time. Insert the linear gear 13 which fixed the adjusting device 11 to the adjusting support plate 12 so that the adjusting device 11 which consists of the magnetic body 21 or the magnet 22 slides between 4 '. 11) When operating in the table direction, the adjusting devices 11 ', 11 "and 11'" Table direction Table direction and The linear gears 13, 13 ', 13', 13 '"fixed to the adjusting devices 11, 11', 11" and 11 '"are operated in the table direction. (14), 14 ', 14 ", 14'", and these cog wheels 14, 14 ', 14 "and 14'" are respectively T-bolt pipes 15 and 15 '. ) To the bearing frame 5 with 15 " and 15 ".

And the linear gears 13, 13 ', 13 ", 13'" fixed to the adjusting devices 11, 11 ', 11 "and 11'" are gears 14 and 14 ', respectively. Handle 50 for operating the adjuster 11, 11 ', 11 " and 11' " in engagement with the " 14 " It mounted on the linear gear (13).

The magnet group 20 composed of all of the above components is arranged to form a super-strong magnet motor by arranging the magnet groups 20, 20 ′, 20 ″, 20 ′ ″.

Fans, hand drills, lathes, sconces in the basic configuration of the above-described magnet groups 20, 20 ', 20 ", 20'". Propellers, drill blades, workpieces, drill blades, end mills, wheels, electric motors, skews, propellers, etc. (milling, automobile, generator, ship, aircraft) ") (2 '") and the rotary shafts 10, 10', 10 ", 10 '" and the rotary shafts 30, 30', 30 "and 30 '", The configuration uses known techniques.

Conveyors, erebeta, elevators, forklifts, and the like, as shown in FIGS. 2 (2) and 2 (2), are the rotary shafts 2, 2 ′, 2 ″, 2 ′ and the rotary shaft 10. (10 ') (10') (10 '") and axle wheels (15) coupled to the rotating shafts (30) (30') (30 ') and (30'") and the wheels (15) are connected by chains or belts. One orbital 16 is mounted, but the specific configuration applies a known technique.

The auxiliary wheels 17, 17 ', 17 ", 17'" are mounted so that the caterpillar 16 does not hang.

As shown in FIG. 2 (E), the magnet ring 4 and the magnet ring 4 '"are arranged between the bearing frame 5 and the bearing lid 6 and rotate freely. Even if it is, the repulsive force acts on the magnet 3 of the magnet ring 4 and the magnet 3 '"of the magnet ring 4'", and since the magnitude of the repulsive force is the same, the rotating shaft 2 and the rotating shaft 2 '" The magnet ring 4 (4 '") is stagnant because the force balance is maintained around the upper and lower portions of the "

In such a state, when the adjusting device 11 '"composed of the magnetic body 21 is inserted between the two magnet rings 4 and 4'" as shown in FIG. 2 (bar), the repulsive force acts in the vicinity of the magnetic body 21. The repulsive force of the magnets 3, 3 ′ ″ acts as an attractive force between the magnet 3 and the magnetic body 21, and also acts as an attractive force between the magnets 3 ′ ″ and the magnetic body 21.

Therefore, the repulsive force of the magnet 3 and the magnet 3 '"acting in the vicinity of the magnetic body 21 is changed to the attraction force, so that the two rotating shafts among the repulsive forces acting on the upper and lower portions of the two rotating shafts 2 and 2". (2) The repulsive force acting on the lower part of (2 '") is changed to the attraction force, and the repulsive force acting on the upper part of the two rotating shafts (2) (2'") remains the same. Are each Table direction It will continue to rotate in the table direction.

As shown in Fig. 2 (g), the magnet of the magnet ring 4 is freely rotated between the bearing ring 5 and the bearing lid 6 so that the magnet ring 4 and the magnet ring 4 '"are freely rotated. In (3) and the magnet 3 '"of the magnet ring 4'", the attraction force all acts and the magnitude | size of the attraction force is the same, centering on the upper part and the lower part of the rotating shaft 2 and the rotating shaft 2 '". Since the balance of force is maintained, the magnet rings 4 and 4 '"are stagnant.

In this state, the adjusting device 11 '"consisting of the magnet 22 is inserted between the two magnet rings 4, 4'", and the N pole of the magnet 22 is the magnet 3 of the magnet ring 4; ), The S pole of the magnet 22 is directed toward the magnet 3 '"of the magnet ring 4'" and the repulsive force acts between the N pole of the magnet 22 and the S pole of the magnet 3; The repulsive force acts between the S pole of the magnet 22 and the S pole of the magnet 3 '".

Therefore, the magnet ring 4, 4 ′ ″ is attracted to the upper portion of the rotation shaft 2, 2 ′ ″ and the repulsive force acts on the lower portion of the rotation shaft 2, 2 ′ ″. 4) (4 '") respectively Table direction It rotates in the table direction.

The principle of action of Fig. 2 (a) is a composite of the principle of action of Fig. 2 (bar). As shown in Fig. 2 (a), the four magnet rings 4, 4 ', 4 " Repulsive force between magnets 3, 3 ', 3 ", 3'" of the magnet rings 4, 4 ', 4 ", 4'" of the magnet group 20 composed of "" This always works.

In this state of repulsion, the adjustment device 11, 11 ', 11 ", 11'" composed of the magnetic body 21 is replaced with four magnet rings 4, 4 ', 4' and 4 '. When inserted between the magnets 4 (4 '") between the magnet ring 4 (4'") between the magnetic body 21, the magnet (3) ( 3 '") acts as an attraction force between the magnet 3 and the magnetic body 21, and also acts as an attraction force between the magnet 3'" and the magnetic body 21.

Therefore, the repulsive force of the magnet 3 and the magnet 3 '"acting near the magnetic body 21 acts as an attractive force, and thus the revolving axis 2 during the repulsive force acting on the upper and lower portions of the rotating shaft 2, 2". The repulsive force acting at the lower part of 2 '"is converted into attraction force, and the repulsive force acting at the upper part of rotation axis 2 (2'") remains the same. Centered around 2 '") Table direction It rotates in the table direction.

When the adjusting device 11 'made of the magnetic body 21 is inserted between the two magnet rings 4' and 4 ", the repulsive force of the magnets 3 'and 3" acting near the magnetic body 21 is changed to the magnet ( 3 ') and the magnetic body 21 acts as an attractive force, and between the magnet 3 "and the magnetic body 21 also acts as an attractive force.

Therefore, the repulsive force of the magnet 3 'and the magnet 3 "acting in the vicinity of the magnetic body 21 acts as an attractive force, so that the two axes of rotation among the repulsive forces acting on the upper and lower portions of the two rotating shafts 2' and 2". The repulsive force acting on the top of (2 ') (2 ") turns into attraction and the repulsive force acting on the bottom of the two rotating shafts (2') (2") remains the same, so the two magnet rings (4 ') (4 ") Are centered around two axes of rotation (2 ') (2 ") Table direction It rotates in the table direction.

When the adjusting device 11 composed of the magnetic body 21 is inserted between the two magnet rings 4, 4 ′, the repulsive force of the magnets 3, 3 ′ acting near the magnetic body 21 is transferred to the magnet 3. It acts as an attraction force between the magnetic bodies 21, and also acts as an attraction force between the magnet 3 'and the magnetic body 21.

Therefore, since the repulsive force between the magnet 3 and the magnet 3 'acting near the magnetic body 21 acts as an attractive force, the revolving shaft 2 during the repulsive force acting on the left and right sides of the two rotating shafts 2 and 2'. The repulsive force acting on the right side of 2) is changed to the attraction force, and the repulsive force acting on the left side of the rotating shaft 2 (2 '") remains the same. It will continue to rotate counterclockwise.

Inserting the adjusting device 11 "made of the magnetic body 21 between the two magnet rings 4" and 4 '", the repulsive force of the magnets 3" and 3' "acting near the magnetic body 21 is reduced. It acts as an attraction force between the magnet 3 "and the magnetic body 21, and also acts as an attraction force between the magnet 3 '" and the magnetic body 21. As shown in FIG.

Therefore, the repulsive force of the magnet 3 "and the magnet 3 '" acting on the magnetic body 21 acts as a attraction force, and thus the repulsive force acting on the left and right sides of the rotation shaft 2 ", 2'". The repulsive force acting on the left side of the rotary shafts 2 "and 2 '" is converted into an attractive force, and the repulsive force acting on the right side of the rotary shafts 2 "and 2'" remains the same. 4 '") continues to rotate clockwise and counterclockwise, respectively, about two rotational axes 2 (2'").

The shape of the adjusting device 11, 11 ', 11 ", 11'" made up of the magnetic body 21 is not rectangular but the magnets 3, 3 ', 3 ", 3'" as shown in the drawing. Parallel to the circumferential surface of the force, which acts on each point of the adjusting device 11, 11 ', 11 ", 11'" and the magnets 3, 3 ', 3 "and 3'". Are equal in magnitude and the total number of attraction forces is much larger than when the shape of the adjusting devices 11, 11 ', 11 ", 11'" is rectangular.

Therefore, it is possible to maximize the size of the attraction force acting on the adjusting device 11, 11 ', 11 ", 11'" and the magnets 3, 3 ', 3 ", 3'". The whimsy force of the rings (4) (4 ') 4 "(4'") can be maximized.

In particular, since four adjusting devices 11, 11 ', 11 ", 11'" are inserted between the four magnet rings 4, 4 ', 4 ", 4'", the adjusting device ( 11) (11 ') (11 ") (11'") and magnet rings (4) (4) because the attraction force acting on the magnets (3) (3 ') 3 "(3'") acts at four places. ') (4 ") (4'") can be maximized by 4 times.

The principle of action of FIG. 2 (G) is a combination of the principles of FIG. 2 (G) and FIG. 2 (H). As shown in FIG. The attraction force acts on the magnet 3 of the magnet ring 4 and the magnet 3 '"of the magnet ring 4'" among the magnet group 20 composed of 4 " The attraction force also acts on the magnet 3 'of the ring 4' and the magnet 3 "of the magnet ring 4", and the magnet 3 of the magnet ring 4 and the magnet of the magnet ring 4 '( The attraction force also acts at 3 '), and the attraction force also acts on the magnet 3 "of the magnet ring 4" and the magnet 3' "of the magnet ring 4 '".

In this state, when the adjusting device 11 '"consisting of the magnets 22 is inserted between four magnet rings 4, 4', 4", 4 '", the two magnet rings 4 are inserted. When the adjusting device 11 '"consisting of the magnets 22 is inserted between the 4'" s, the repulsive force acts between the magnets 3 and the magnets 22 near the magnets 22, and the magnets 3 ' The repulsive force also acts between ") and the magnet 22.

Therefore, the attraction force acting between the magnet 3 and the magnet 3 '"near the magnet 22 acts as a repulsive force, so that during the repulsive force acting on the upper and lower portions of the two rotation shafts 2 and 2'". The attraction force acting on the lower part of the two rotation shafts 2 (2 '") is changed to the repulsive force, and the attraction force acting on the upper part of the two rotation shafts (2) (2'") remains the same. ") Rotates clockwise and counterclockwise about the rotation axis 2 (2 '"), respectively.

Insertion of the adjusting device 11 'consisting of the magnet 22 between the two magnet rings 4' and 4 "causes the attraction between the magnets 3 'and 3" acting near the magnet 22. It acts as a repulsive force between the magnet 3 'and the magnet 22, and also acts as a repulsive force between the magnet 3 "and the magnet 22.

Therefore, the attraction force of the magnet 3 'and the magnet 3 "acting near the magnet 22 acts as a repulsive force, so that the rotation axis (2) during the attraction force acting on the upper and lower portions of the two rotation shafts 2' and 2" The attraction force at the top of 2 ') (2 ") turns into repulsive force, and the attraction force at the bottom of rotation axis (2') (2") remains the same, so the two magnet rings (4 ') (4 ") (2 ') (2 ") are rotated counterclockwise and clockwise, respectively.

When the adjusting device 11 composed of the magnets 22 is inserted between the two magnet rings 4, 4 ′, the attraction force of the magnets 3, 3 ′ acting near the magnets 22 is reduced to the magnets 3. It acts as a repulsive force between the magnets 22, and also acts as a repulsive force between the magnet 3 'and the magnet 22.

Therefore, the attraction force of the magnet 3 and the magnets 3 'acting near the magnet 22 acts as a repulsive force, so that the two rotation shafts 2 among the attraction forces acting on the left and right sides of the two rotation shafts 2 and 2'. At the right of 2), the attraction force is changed to repulsive force, and the attraction force at the left of the two rotation shafts 2 (2 '") remains the same. Will continue to rotate counterclockwise.

Insertion of the adjusting device 11 "consisting of the magnet 22 between the two magnet rings 4" and 4 '"causes the attraction of the magnets 3" and 3' "that were acting near the magnet 22. A repulsive force acts between the magnet 3 "and the magnet 22, and a repulsive force also acts between the magnet 3 '" and the magnet 22. As shown in FIG.

Therefore, the attraction force of the magnet 3 "and the magnet 3 '" acting near the magnet 22 acts as a repulsive force. Therefore, the attraction force acting on the left and right sides of the two rotating shafts 2 "and 2'" is applied. The attraction force acting on the left side of the two rotation shafts 2 "and 2 '" changes to repulsive force, and the attraction force acting on the right side of the two rotation shafts 2 "and 2'" remains the same. 4 '"continues to rotate about clockwise and counterclockwise, respectively, about two rotational axes 2 (2'").

The shape of the adjusting device 11, 11 ', 11 ", 11'" constituted by the magnet 22 is not rectangular, but the magnets 3, 3 ', 3 ", 3'" as shown in the drawing. Parallel to the circumferential surface of the force, which acts on each point of the adjusting device 11, 11 ', 11 ", 11'" and the magnets 3, 3 ', 3 "and 3'". Are equal in magnitude, and the sum of these attractive forces is much larger than when the shape of the adjusting devices 11, 11 ', 11 ", 11'" is rectangular.

Therefore, it is possible to maximize the size of the attraction force acting on the adjusting device 11, 11 ', 11 ", 11'" and the magnets 3, 3 ', 3 ", 3'". The whimsy force of the rings (4) (4 ') 4 "(4'") can be maximized.

In particular, four adjusting devices 11, 11 ', 11 ", 11'", 11 '"constituted by magnets 22 between four magnet rings 4, 4', 4", 4 '". Since there are four repulsing forces acting on the adjusting devices 11, 11 ', 11 ", 11'" and magnets 3, 3 ', 3 "and 3'". 4) The whisker power of (4 ') (4 ") (4'") can be maximized four times.

The principle of operation of FIG. 2 (car) is the same as that of FIG. 2 (bar) (g) (h) (child), except that the magnet groups 20, 20 'and 20 "are composed of four magnet groups 20. ) Is composed of super strong magnet motor by arranging (20 '") consecutively. In the 16 magnet rings (4), the magnetic force is generated by 24 magnets consisting of two magnet groups (20). In (20) and (20 '), the incidence (氣 發 力) occurs in one place compared to the draft system (bar). ) Occurred only 1 ÷ 2 = 0.5.

However, in the case of FIG. 2 (car), the incidence force per magnet ring 4 was increased to 24 ÷ 16 = 1.5.

Therefore, in the case of FIG. 2 (bar) (g), it is 1 ÷ 2 = 0.5 in which the magnetic force per magnet ring 4 is generated, and in the case of FIG. Equivalent force per magnet ring 4 is generated at 4 ÷ 4 = 1, and in case of FIG. 2 (car), original force per magnet ring 4 is generated. The increase is 24 ÷ 16 = 1.5, which is increasing.

The operation method of the present invention as described above, as shown in FIG. Moving in the table direction, the linear gear 13 is engaged with the cogwheel 14 and the cogwheel 14 '. The gear 14 and the cogwheel 14 'rotate while being moved in the table direction, and the straight gear 13' and the straight gear 13 '"engaged with the cog wheel 14 and the cog wheel 14' are rotated. Each Table direction It moves in the table direction, and this causes the cogwheel 14 "to rotate with the cogwheel 14" and the cogwheel 14 '"engaged with the straight gear 13' and the straight gear 13 '". And the linear gear 13 "engaged with the gear 14 '" Since they move in the table direction, the adjusting devices 11, 11 ', 11 ", 11'" fixed to these linear gears 13, 13 ', 13 "and 13'" have four magnets. Inserted between the rings 4, 4 ', 4 ",4'", these magnet rings 4, 4 ', 4 ",4'" rotate as described above.

Handle (50) When pulled in the table direction, the adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"are provided with four magnet rings 4 These magnet rings 4, 4 ', 4', 4 '' are rotated as described above, and inserted between the 4 ', 4', 4 '" Further pulling in the table direction, the adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"are provided with four magnet rings ( 4) The magnet rings 4, 4 ', 4', 4 '' are rotated at high speed while being inserted deeply between the 4 ', 4', 4 ''.

Handle (50) When pushed out in the opposite direction of the table, the adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"have four magnet rings. These magnet rings 4, 4 ', 4', 4 '' are rotated at a low speed while being separated between (4) (4 ') 4' and 4 ''.

In doing so, the rotational speeds of the magnet rings 4, 4 ', 4', 4 '' are adjusted.

Handle (50) The adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"by pulling a lot in the table direction have four magnet rings ( 4) The magnet ring (4) (4) is crossed over to the outside of the rotating shaft (2) (2 ') (2') (2 '") while inserted between (4') (4 ') and (4'"). It rotates when the rotation direction of ') (4 ") (4'") is changed.

In this way, the handle 50 is operated while arbitrarily adjusting the speed and the rotation direction.

Effects of the present invention as described above the handle 50 When pulled in the table direction, the adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"are provided with four magnet rings 4 The magnet ring 4, 4 ', 4', 4 '" rotates as described above while being inserted between the "4'" Further pulling in the table direction, the adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"are provided with four magnet rings ( 4) The magnet rings 4, 4 ', 4', 4 '' are rotated at high speed while being inserted deeply between the 4 ', 4', 4 ''.

Handle (50) When pushed out in the opposite direction of the table, the adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"have four magnet rings. (4) (4 ') (4') (4 '") are separated and the magnet rings (4) (4') 4" (4 '") rotate at low speed.

Handle (50) The adjusting devices 11, 11 ', 11 ", 11'" and 11 '"fixed to the linear gears 13, 13', 13" and 13 '"by pulling a lot in the table direction have four magnet rings ( 4) The magnet ring (4) (4) is crossed over to the outside of the rotating shaft (2) (2 ') (2') (2 '") while inserted between (4') (4 ') and (4'"). It rotates when the rotation direction of ') (4 ") (4'") is changed.

In this way, the handle 50 works while arbitrarily adjusting the speed and the rotation direction, but can be operated by the attraction force or repulsive force of the magnet, so energy is unnecessary, easy to operate, and can be variously applied in all known technical fields. In addition, there is an effect that can be practical to use a super-strong magnet motor based on the magnet group 20 as a basic unit.

Claims (4)

Magnets in which the same active surfaces of magnets 3, 3 ', 3 ", 3'" are fixed to the circumferential surfaces of the discs 1, 1 ', 1 ", 1'" made of nonmagnetic material Rotation shafts 2, 2 ', 2 "and 2'" inserted into the center holes of the rings 4, 4 ', 4 "and 4'" are supported by the bearing frame 5 and the bearing lid ( 6) (6 ') and the bearing hole (7) (7') (7 ') (7') (7 '") which drilled the vertex of a square and constitutes the magnet group (20) built by bearings, and the rotating shaft (2) ( 2 ') (2') (2 '") and cogwheeling the cog wheels 8, 8', 8", 8 '", and the cog wheels 9 engaged with the cog wheels 8 The adjusting device 11 (composed of a magnetic body 21) between the rotary shaft 10 and the bearing lids 6 and 6 'and between the magnet rings 4, 4', 4 "and 4 '". 11 ', 11', 11 '"fixed linear gears 13, 13', 13", 13 '"are provided with adjustment support plates 12, 12', 12 'and 12'. ``) And the cog wheels 14, 14 ', 14 ", 14'" engaged with the straight gears 13, 13 ', 13 "and 13'" respectively. 15) (15 ') (15') (15 '") 15 is installed on the bearing frame (5), the rotary shaft (2) (2') (2") (2 '") is the T-bolt pipe (15) (15 ') (15 ") (15 Super strong magnet motor, characterized in that it is built in the center of the ""). … … … … … … … … … … … Independent Port The magnet group according to claim 1, wherein an attraction force acts between the magnet rings 4, 4 ', 4', 4 ', 4' 4 '', 4 '4'. An adjustment device 11, 11 ', 11 ", 11'" composed of magnets 22 is inserted between the magnet rings 4, 4 ', 4 ", 4'" at 20. Ultra-strong magnet motor characterized by … … … … … … Dependent The magnet rings 4, 4 ', 4', 4 '' of the plurality of magnet groups 20, 20 ', 20 " and 20' " Ultra-strong magnet motor characterized by an increase in whispering force. … … … … … … Dependent A magnet ring (4) (4 ') (4 ") is provided on both sides of the adjusting device (11) (11') (11", 11 '") composed of the magnetic body (21) or the magnet (22). Super strong magnet motor characterized by matching with concentric circles of (4 '"). … Dependent