KR20150131830A - Magnet Motor - Google Patents

Abstract

The present invention relates to a magnet motor with various standardized components, assembled in a predetermined position. Five rotors (4) are installed in an opened part of upper and lower parts (2)(3) at 72° intervals clockwise to become S-N poles, and five inductors (5) are installed between the rotors (4), and then the rotors and inductors are inserted into a rotation shaft (1) and fixed by upper and lower nuts, and a rotary SW panel (6) is inserted into the rotation shaft (1). Upper and lower fixing panels (6)(7) are combined with both sides of the rotation shaft (1), and stabilized by upper and lower bearings to be connected between a power supply and a brush (12). Since an SW of one or two of the inductors (5) of the magnet motor is turned on, the rotors (4) rotate when a main SW is turned on, and the inductors (5) are operated (become electromagnets) when the SW is turned on at a spot of 5m/m before the S pole of the rotors and the N pole of a fixer cross with each other. Therefore, magnetic field resistance between the rotors is converted into increasing force of rotation (magnetic induction effect). After the N pole of rotors and the N pole of the fixer cross with each other, the SW is turned off at the spot of 5m/m. As the effect and function are continuously performed, the rotors keep rotating. [Index] rotation shafe, upper rotation panel, lower rotation panel, rotor, inductor, rotary, switch panel, rotary switch, upper fixing panel, lower fixing panel, fixer, bearing, combination part, rush tightening unit, fixer wiring.

Description

Magnet motor {omitted}

In the present invention, the inductor SW is turned on at a point of 5 m / m at which the S pole (magnetic pole point) of the rotor crosses the stator N pole (magnetic pole point) so that the induction magnet becomes an electromagnet. The switch SW is turned off at a point of 5 m / m at which the rotor N pole (magnetic pole point) crosses the N pole of the stator. As the above functions and effects continue The rotor is related to a continuously rotating magnetic motor

As a prior art, there is a magnetic prime mover (10-2010-0040793), which is constituted by a magnetic prime mover using permanent magnets,

A body made of an upper plate 4 and a wall body 7 which are non-

A plurality of permanent magnet stator (S②-N) having the same constant size and the same polarity on the upper peripheral surface of the intermittent plate 3

P3 and P4 are moved forward and backward between the fixed number of stators and the space is formed so that the space is formed between the cement 5 and the ceiling 5 at the upper end of the center shaft 6, The plurality of connecting rods 9 are fixed and the rotors R1, R2 and R3 are attached and fixed to the connecting rods so that the rotor rotates in forward and reverse directions by the operation of the upper end cam 5 And the upper and lower ends of the guide pins 14 and 14 'are movably fitted to the upper and lower ends thereof while the other side is supported and fixed to the cylindrical wall, A spring 15 (15 ') is inserted into the guide support pin between the support plate and the wall and the pressing action of the pressure plate 12 (12') 12 '' (12 ''' So that the magnet is moved forward. , Since the flow occurs due to the operation of the upper chem, it is in violation of the accuracy problem and the rotor and energy conservation law. Lt; / RTI &

102012-0022079 The high magnetic force prime mover includes a left and right support plate made of a nonmagnetic material and a plurality of rotors 8 and 8 'having a predetermined size attached to the rotation plate 7, Five stator 9 'and 9' of a certain standard are provided on each inward peripheral surface of the left and right supporting plates 4 and 5 so as to form five spacing portions 13 and 13 ' And the effective spacing between the rotor and the stator is maintained and the magnetic force of the electromagnets supplied into the swash plate bundle 20 and 20 'connected to both ends of the electromagnets 6 and 6' The sliding members 14 and 14 'of a certain size configured to be operated in the forward and backward directions are installed so as to be moved back and forth to the sliding door entrance 12 or 12' formed in the interval between the stator, The electromagnet, which is an energy source, causes the plunger to move forward and backward through the plunger entrance, To, as a rotation to be the rotation axis,

The plunger assembly is formed by fixing a support plate to an intermediate portion in a cylindrical body 10 or 10 'made of a non-magnetic material and bonding the buffer plates 15 and 15' to the support plate and a magnet 17 17 ') and the electromagnet magnetic force, the humidor is fixed to the tip of the square rod shafts 21, 21' to flow into the cylindrical tube, the flow plate is fixed to the rear end of the square rod shaft, 19 and the spacing magnets 17 and 17 'so as to apply a repulsive force to the flow plate and the buffer plates 15 and 15' are attached to both ends of the electromagnets and fixed to the cylindrical tube body The timing magnet switch is fixed to the point of the cylindrical tube which is operated by the magnetic force of the rotor immediately before the magnetic pole point of the rotor intersects with the magnetic pole point of the stator, and the power is applied to the power distributing plate main switch timing magnet switch, It is known that a magnet motor There was a self-contained configuration

(A) a permanent magnet having an N pole and a S pole arranged in a cylindrical shape, and a rotating magnet is inserted into the permanent magnet. The surface magnet rotates with a strong force from the center of the stationary magnet N pole and the S pole. The side magnet rotates with strong force from the n pole of the stationary magnet to the end of the stationary magnet (X) If the magnet is divided into nonmetal, it is rotated by strong force. If the interval of nonmetal is closed by soft iron, the magnetic circuit comes out and the torque becomes infinite. Also, the rotor of the rotor is combined with the fixed magnet C) It passes through the main shaft (Q), and when it is pulled up to the upper end of the cam, it is rotated with strong force even if it is pulled down to the lower end. The surface side of the fixed magnet is limited to 5mm to 30mm ,

The spring prime mover (motor) shakes the spring to the cam (j) and the spring (J) by attaching the cam to the power of the rotor (H) (V) When the rotor is pushed, the rotor rotates with a strong force and at a high speed. The device of the sum of these is the scope of the claims. , The invention does not have a constituent of the flow regulator and a constitution for generating magnetic induction, and is not a principle of equilibrium and balance

The magnet motor according to the present invention has a problem in that it can not convert the magnetic resistance rotation resistance generated between the rotor and the stator to the rotation increasing force as the rotor rotates

In the present invention, the inductor SW is turned on at a point of 5 m / m at which the S pole (magnetic pole point) of the rotor crosses the stator N pole (magnetic pole point) so that the induction magnet becomes an electromagnet. The switch SW is turned off at a point of 5 m / m at which the rotor N pole (magnetic pole point) crosses the N pole of the stator. As the above functions and effects continue So that the rotor rotates continuously and has the object of the present invention

As described above, the ratio of the number of rotors to the number of stator is 5: 8 ratio between the rotor, the stator, and the inductor, and the inductance electromagnetic system, the rotor anode rotation method, the induction magnetic induction effect, The ratio of the mechanical strength of the permanent magnet is built into the magnetic force and the economic effect is great because it is power beyond time and space such as semi-noiseless, semi-permanent, underwater, underground,

Fig. 1 is a diagram showing an example of ON / OFF operation of an inductor switch of a magnet motor according to the present invention
2 is a side view showing an on-off side view of an inductor switch of a magnet motor according to the present invention;
Fig. 3 is an illustration of a coincidence line position of the O-degree reference angular component of the magnet motor according to the present invention
4 is a cross-sectional view of an exploded view of a rotary plate of a magnet motor according to the present invention
Fig. 5 is an exemplary cross-sectional view of a rotating plate of a magnet motor according to the present invention
6 is a perspective view showing a state in which a support plate of a magnet motor according to the present invention is removed;
7 is a perspective view of a stator of a magnet motor according to the present invention.
8 is a plan view of a device of a magnet motor according to the present invention
9 is a front view of the apparatus of the magnet motor according to the present invention
10 is a plan view of a rotor, an inductor, and a stator of a magnet motor according to the present invention
Description of the Related Art [0002]
1: rotating shaft 2: upper rotating plate 3: lower rotating plate 4: rotor
5: Inductor 6: Notary SW plate 6 ': Switch piece (SW switch piece)
7: upper fixing plate 8: lower fixing plate 9, 9 ': stator 10: bearing
11: Bonding 12: Brush 13: Fastening
15: wirings 16, 16 'supports 18, 18': stator

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

FIG. 1 is a diagram illustrating an ON / OFF operation of an inductor switch of a magnet motor according to the present invention, FIG. 2 is a diagram illustrating ON / OFF aspects of an inductor switch of a magnet motor according to the present invention, O ° reference position of each component

FIG. 4 is a cross-sectional view of an exploded view of a rotary plate of a magnet motor according to the present invention, and FIG. 5 is an exemplary cross-sectional view of a rotary plate of a magnet motor according to the present invention

Fig. 6 is a perspective view showing a state in which a support plate of a magnet motor according to the present invention is separated, Fig. 7 is a view of a stator of a magnet motor according to the present invention, Fig. 8 is a plan view of a device of a magnet motor according to the present invention, 9 is a front view of the apparatus of the magnet motor according to the present invention

The length of the rotor (4) is the length of the rotor (4) Ø (55˚) Length of the inductor is 17˚, Ø is 90% of the rotor Ø, rotor (4) (12) The cross-sectional area is 2 ˚ square, the rotor (4) Inductors (5) The number of stator (9) is 5 to 8, : 5), the opening of the spindle (2) (3) serves as air cooling

ON / OFF of the inductor SW shown in Fig. 1 is formed by inserting five insulating plates, 5 of the notary SW plates 6 'having a length of 15 [deg.] + 5 m / m at the center of the circumferential surface of a thick fixed plate 6 that can be fitted to the rotating shaft 1 (2) square brushes (12) are mounted on the rotating shaft (1) in such a manner that the surface and the surface thereof are aligned with each other at intervals of 72 [ The brush 12 is wired with a + power source and the SW piece 6 ', the inductor 5 and the lead wire are wired together and the inductor 5 is connected to the rotating plate 2 by the brushes 12, (3). Wire the power supply wires to the fixing plates (7) and (8)

(2) (3) Five rotors (4) are mounted on the openings of the circumference at intervals of 72 degrees in the clockwise direction from the south pole to the north pole And the five inductors 5 are respectively mounted between the rotors 1 and fixed to the rotary shaft 1 by upper and lower nuts so that the rotary SW plate 6 is fitted and fixed to the rotary shaft 1, do

Eight stators are fixed on the inner surface of the upper and lower fixing plates (7) and (8) at a distance of 45 ° from the center of the rotor (4) and the stator (9) As shown in FIG.

The upper and lower fixing plates 6 and 7 are fitted to both sides of the rotary shaft 1 so that the upper and lower fixing plates 6 and 7 are coupled to each other and stabilized by the upper and lower bearing,

Since the switch SW is ON at one or two points of the inductor 5 of the assembled magnet motor, when the main switch is turned ON, the rotor 4 is rotated and the S pole of the rotor intersects with the N pole of the stator When the switch SW is turned on at the position of 5 m / m, the inductor 5 is operated (electromagnetized) so that the magnetic field resistance between the rotors 4 is converted into the torque increasing force (magnetic force inducing effect) After the pole intersects with the N pole of the stator (9), the SW is turned OFF at a point of 5 m / m

Since the above functions and effects are continuous, the rotor is continuously rotated

Examples of the wiring according to the present invention include:

○ DC power + terminal → brush ... SW wire contact → SW wire → inductor + terminal

○ DC power - terminal → bottom plate → inductor - terminal

1 and 2, the other wire of the inductor 5 is connected to the + straight line of the notary switch plate 6 'and the inductor 5 and is connected to the body plate, and the brush 12 ) Is energized to the + line. That is, the switch is energized (ON) at the position of 5 m / m immediately before the crossing of the brush 12, and the switch is turned off at the position of 5 m / m immediately after the intersection

The 0 degree of the notary switch plate 6 'and the 0 degree of the rotary plate 2 (3) are positioned forward by 5 m / m in the clockwise direction at the straight line,

(18) and (18 ') in Figures 6, 7, 8 and 9 are illustrations of a stator housing support plate

Claims (2)

In a magnetic motor in which various components of a certain standard are assembled at a predetermined position
ON and OFF of the inductor SW are formed by inserting 5 pieces of SW pieces 6 'having a length of 15 ° + 5 m / m at the center of the circumferential surface of a thick fixed plate that can be fitted to the rotating shaft 1, 8 of the square brushes 12 are mounted on the inner surface of the upper fixing plate 7 and 8 so as to be in contact with the SW pieces 6 ' The power supply line is connected to the fixed plate 7 (8) and the power supply line is connected to the fixed plate 7 (8) ), And the length of the inductor is set to 17 [deg.]. The length of the rotor (4) according to claim 1, wherein the length of the rotor (4) is the length of the inductance of the rotor (4) Ø is 17 ˚, Ø is 90% of the rotor Ø, (Gauss) is 1: 3, the width of the stator is 10˚. (12) The cross-sectional area is 2˚ square. The number of stator (5) to stator (9) is 5 to 8, ') Having a length of 15 °, a width of 3 ° and a rotor length of 55 °.

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