KR20080083083A - Permanent magnetic motor with an electrical generator - Google Patents

Abstract

A permanent magnetic motor with an electric generator is provided to be very economic by outputting stable rotational force and electric energy at the same time. A permanent magnetic motor with an electric generator includes a first rotor(20), a second rotor(30), a generation coil(40), and a protection box(50). The first and second rotors are installed on a power main axis(10) regardless of number. The first and second rotors are arranged to generate repulsive force by facing each other at a predetermined space. A pair of first latches(21,22) and a latch pole(23) are formed at the first rotor. A pair of second latches(31,32) and a latch pole(33) are formed at the second rotor. The generator coil is fixed and arranged along circumferences of two rotors to generate elective motive force by the rotation of two rotors. An electric rotation force controller(45) is mounted to compensate the change of the rotation force due to the load change. The protection box prevents each component from being damaged.

Description

Permanent magnetic motor with an electrical generator

1 is a block diagram showing an embodiment of the present invention

2 is a side view of FIG.

3 shows an example of the relative position of each rotor and the arrangement of the power generation coil (in the case of 16 poles).

*** Explanation of symbols for main parts of drawing ***

10: power spindle 15: maneuver and mechanical torque controller

20: the first rotor 21: the first rotor right turn ratchet

22: the first rotor left turn ratchet 23: the first rotor rotation direction control ratchet pawl

30: the second rotor 31: the second rotor right turn ratchet

32: second rotor left turn ratchet 33: second rotor rotation direction control ratchet pawl

40: power generation coil 45: electric torque controller

50: protective enclosure

The present invention relates to a generator-integrated permanent magnet motor.

I have already filed a practical invention in the same field under application number 10-2006-0116411. In the present invention, planetary gears are used to periodically reverse the polarity of permanent magnets. However, due to this configuration, the device is somewhat complicated and the price rise in the commercialization. In the present invention is to provide a permanent magnet motor of a generator-integrated yet highly reliable, yet very simple configuration.

The present invention is to solve the disadvantages of the motor using a permanent magnet proposed in the existing and to provide a permanent magnet motor of a generator-integrated type that can arbitrarily vary the practical and reliable rotational direction and speed of a very simple structure.

Detailed Description of the Invention The present invention will be described in detail with reference to the accompanying drawings. ) And the second rotor 30 will be described, but there is no particular difference between the two rotors. Leave space between the opposite poles of each rotor to facilitate maneuvering.

The first rotor 20 and the second rotor 30 are both permanent magnets whose polarities are arranged opposite to each other so that each rotor generates a repulsive force and both rotors rotate in the same direction by ratchet. It is installed through the power spindle 10 so as to penetrate. There is no limit to the number of magnetic poles. In the example of FIG. 1, there are 12 polarities, each of six in each of the first and second rotors. In FIG.

The first rotor 20 can be freely rotated separately without being constrained to the power spindle 10 using a bearing or the like, and the first rotor right turn ratchet 21 and the first rotor to control the rotation direction. The rotor left turn ratchet 22 is provided, but the first rotor rotation direction control ratchet pawl 23 is mounted to the protective enclosure 50. The second rotor 30 is integrally mounted to the power spindle 10 and rotates together with the power spindle, but the second rotor right turn ratchet 31 and the second rotor left turn ratchet 32 are mounted. The second rotor rotational control ratchet pawl 33 is mounted to the protective enclosure 50. The power generation coil 40 for generating electric power is wound around an appropriate core and fixedly disposed at an appropriate position along the circumference of the first rotor 20 and the second rotor 30. When the first rotor 20 and the second rotor 30 rotate, induced electromotive force is generated in the power generation coil 40 by the magnetic force of the rotor, and the electromotive force is protected by the lead wire 50. Is output outside of.

A part of the power generation coil is provided with an electric rotational force controller 45 using a variable resistor to control the rotational force by varying the strength of the magnetomotive force generated in a direction that disturbs the rotation of the rotor by varying the induction power consumption of the power generation coil. . This can be done manually as well as automatically by adding an appropriate electrical feedback circuit.

The protective enclosure 50 protects the components and outputs rotational power through the power spindle 10 to the outside, and the ratchet pawls 23 and 33 are mounted at one end thereof to change the direction of the two ratchet pawls. Control the rotation direction of the power spindle. In addition, the actuation and mechanical torque controller 15 moves the first rotor 20 in the inner space marginal portion (dotted line in FIG. 2) of the protective enclosure 50 to overlap with the second rotor 30. By controlling this, the strength of the repulsive force generated between the magnetic poles of the two rotors is changed to mechanically change the rotational speed with the starting.

When the operation of the device according to the present invention is described in order from the start by the illustrated drawing, the direction of the power ratchet 10 is determined by first selecting the directions of the ratchet poles 23 and 33 in the same direction, and then By operating the mechanical rotational force controller 15 to increase the area of the opposite parts of the first rotor 20 and the second rotor 30, a repulsive force is generated between the two rotors, and the maneuver is started twice. One rotor rotates in the direction of the space between the electrons, and a new space is formed where the rotor is located, and the rotor behind the rotor rotates into this space, applying repulsive force to the rotor in front of it to make it rotate constantly. do. This rotational force generates a power source in the power spindle 10 and generates induced power in the power generation coil 40 by the rotational stimulus.

If the rotational force is changed by the variation of the load, the induction power of the power generation coil is also changed. It is possible. By the above-described configuration and operation, a permanent magnet motor of a generator type having a variable rotational direction, rotational speed and rotational force is realized.

As described above, the present invention provides a very economical generator-integrated permanent magnet motor that outputs stable rotational force and electrical energy simultaneously.

Claims (1)

The first rotor 20 and the second rotor 30 are installed on the power spindle 10 irrespective of the quantity of water, and the magnetic poles of the two rotors are disposed to generate repulsion against each other with appropriate space. And a separate ratchet is installed on each of the two rotors so that the two rotors rotate in the same direction due to the interaction between the repulsive force and the ratchet.These ratchets are provided in the first rotor 20 so that the left turn and the right turn can be selected. The first rotor has ratchet 21, 22 and ratchet pawl 23, and the second rotor 30 has ratchet 31, 32 and ratchet pawl 33 for second rotor. The power coil 40 is fixedly arranged along the circumference of the two rotors to generate electromotive force by the rotation of the two rotors, and an electric torque controller 45 for correcting the change of the rotational force due to load variation is installed. Start at stop and after starting Include an activation Greater mechanical rotating force controller 15 for group and one-piece permanent magnet motor generator, characterized in that consisting of a protective enclosure 50 to prevent damage of the respective components.

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