KR102116743B1 - Generator condensing leakage magnetic flux - Google Patents

Abstract

According to the present invention, provided is a dissipation magnetic flux compression generator. The dissipation magnetic flux compression generator comprises: a magnet module (120) in which a magnetic flux collector (121) is attached to a permanent magnet (122); a rotor disk (125) in which a plurality of the magnet modules are inserted and installed at the same angular distance around a drive shaft (150); and a coil module (110) spaced apart from each other on the driving shaft by a predetermined interval by corresponding to the magnetic module and plurally installed on a stator body (115). The coil module includes a driving coil (111) driving a rotating disk, a generation coil (113) generating an induction current and an interference prevention material (112) preventing interference between the driving coil and the generation coil. Therefore, a motor function and a generator function are fused.

Description

{Generator condensing leakage magnetic flux}

The present invention relates to a divergent magnetic flux compressed generator, and more particularly, to a divergent magnetic flux compressed generator in which a motor principle and a generator principle are fused.

Conventional thermal power generation causes problems of depletion of fossil fuels and fine dust or environmental pollution, and nuclear power generation has anxiety and concern about accidental radiation exposure and waste disposal.

Renewable energy is an alternative energy that can replace fossil fuels, and converts and uses energy existing in nature in an eco-friendly way.

Eco-friendly renewable power generation, such as wind power or solar power, has a high power generation cost and is difficult to produce reliable power because it is affected by weather or weather.

The permanent magnet generator is eco-friendly and has little output power loss due to cogging and eddy current, but has a relatively low efficiency due to the divergence of the magnetic force line.

Korean Patent Publication No. 10-2009-0074186

In order to solve the above problems, the present invention is to provide a generator that improves power generation efficiency by integrating a motor principle and a generator principle to compress magnetic flux to increase magnetic flux density.

The divergent magnetic flux compression generator according to the present invention includes a magnet module 120 to which the magnetic flux collector 121 is attached to the permanent magnet 122; A rotor disk 125 in which a plurality of the magnet modules are inserted and installed at the same angular distance around the drive shaft 150; In response to the magnet module, the coil module 110 and the coil module, which are spaced apart from each other on a drive shaft by a predetermined distance, are installed on the stator body 115 and the coil module generates a driving coil 111 for driving the rotating disk and an induction current. Including the coil 113 and the interference preventing material 112 to prevent interference between the driving coil and the power generation coil, it is characterized in that the motor function and the generator function is fused.

The divergent magnetic flux compressed generator is a magnet module / driving coil / interference prevention material / power generation coil or magnet module / driving coil / interference prevention material / power generation coil / driving coil / magnet module or power generation coil / interference prevention material in order along the drive shaft / It is characterized in that it is assembled in the order of driving coil / permanent magnet / magnetic flux assembly / permanent magnet / driving coil / interference prevention material / power generation coil.

The permanent magnet is a neodymium magnet, and the magnetic flux assembly is characterized in that it is ferromagnetic material such as iron or semi-magnetic material such as copper.

The driving coil 111 is an electromagnet that is magnetized by receiving electric current from a battery, and is characterized in that the driving switch is turned on so that the repulsive force is generated to become the same polarity as the opposing permanent magnet according to Ampere's right-hand screw rule, and current is applied Is done.

The driving coil is characterized in that the driving switch is turned off immediately after the point at which the magnetic flux density between the magnet module and the magnet module becomes the lowest.

The power generation coil 113 is characterized in that an induced current is generated while the current of the driving coil 111 is turned off.

The anti-interference material 112 is characterized in that it is a semi-magnetic material.

The starting and ending points of the magnetic flux module are characterized by being controlled by an ending positioner.

The end position device is a magnetic body, and the operation switch is opened and closed according to the amount of magnetic flux, and is characterized in that it is a reed switch designed to adjust the amount of applied current.

The divergent magnetic flux compression generator is used as a unit module to increase power generation capacity in parallel.

The present invention provides an eco-friendly, renewable, independently movable, and sustainable generator, and can be independently installed and used regardless of its small size.

The generator according to the present invention has low noise and failure, and is convenient to use and maintain.

Modularized to 1kw / h, 3kw / h, or 10kw / h, etc., it can be applied to a variety of household and commercial purposes, and commercial development can be achieved through system linkage.

1 is an exploded perspective view of a fusion module fusion motor and generator according to the present invention.
Figure 2 is a front block diagram of a fusion module fusion motor and generator according to an embodiment of the present invention.
3 is an assembled perspective view of a single divergent magnetic flux compression generator module according to an embodiment of the present invention.
4 is an assembled perspective view of a single divergent magnetic flux compression generator module in dual mode as another embodiment of the present invention.
5 is a graph showing the driving relationship of the divergent magnetic flux compression generator according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments.

The divergent magnetic flux compression generator according to the present invention includes a magnet module 120 to which the magnetic flux collector 121 is attached to the permanent magnet 122; A rotor disk 125 in which a plurality of the magnet modules are inserted and installed at the same angular distance around the drive shaft 150; In response to the magnet module, the coil module 110 and the coil module, which are installed in a plurality of stator bodies 115 at a predetermined interval on the drive shaft, and the coil module generate a driving coil 111 that drives the rotating disk and an induction current. Including the coil 113 and the interference preventing material 112 to prevent interference between the driving coil and the power generation coil, it is characterized in that the motor function and the generator function is fused.

The configuration of the divergent magnetic flux compression generator includes a magnet module / driving coil / interference prevention material / power generation coil or magnet module / driving coil / interference prevention material / power generation coil / driving coil / magnet module or generating coil / interference prevention / driving on the drive shaft. Coils / permanent magnets / magnetic flux assemblies / permanent magnets / driving coils / interference prevention materials / power generation coils can be used in various configurations as needed.

1 is an exploded perspective view of a fusion module fusion motor and generator according to an embodiment of the present invention and FIG. 2 is a front block diagram of the fusion module.

In the fusion module, the coil module 110 and the magnet module 120 are spaced apart at predetermined intervals to face each other. In the present invention, the coil module is fixed to function as a stator, and the magnet module functions as a rotor to rotate around the driving shaft 150 to generate a change in magnetic field strength or magnetic flux density with respect to the coil module.

The coil module 110 is composed of a drive coil 111 for a motor function, a power generation coil 113 for a power generation function, and an interference prevention material 112. The coil module according to the present invention adjusts the rotation torque or the induced current by adjusting the thickness of the coil or the number of windings.

The driving coil 111 is an electromagnet that is magnetized by receiving a current from a battery, and becomes the same polarity as an opposing permanent magnet according to Ampere's right-hand screw rule, so that the driving switch is turned on to apply electric current to generate repulsive force. The repulsive force generated in the driving coil is changed to a turning force (torque) at an unstable position slightly deviated from the maximum magnetic flux density, thereby driving the rotor. If the operating switch is turned off immediately after passing the point at which the magnetic flux density becomes the lowest, an induced current is generated in the driving coil and power generation coil due to the magnetic flux density change of the rotating rotor's magnet module, and the rotor generates rotational inertia with attraction. To continue rotating.

The power generation coil 113 generates an induction current while the current of the driving coil 111 is turned off, that is, the magnetic flux density changes from the lowest to the maximum, and the generated current is generated using a battery using a charging controller. After charging it, convert it into AC using an inverter and connect it to the power system.

The interference preventing material 112 is a semi-magnetic material such as copper, which is inserted between the driving coil 111 and the power generation coil 113 to prevent unnecessary induction current from being generated in the power generation coil while the driving coil is being driven (on). The antimagnetic material shields the external magnetic field with a material that forms a magnetic field opposite to the external magnetic field. This is explained by Lenz's law, and when a magnetic field approaches an anti-magnetic conductor, an eddy current is generated in a direction to prevent or cancel the change in magnetic flux. That is, the interference preventing material 112 blocks the magnetic field so that an induced current does not occur in the power generation coil while the driving coil is operating.

The magnet module 120 is constructed by attaching a permanent magnet 122 and a magnetic flux concentrator 121. The magnetic flux concentrator may be a single or alloy semimagnetic material of copper or a ferromagnetic material having high magnetic permeability such as iron.

The permanent magnet 122 is a ferromagnetic material such as neodymium (Nd) and is formed in a circle corresponding to the diameter of the coil module.

The magnetic flux assembly 121 is a ferromagnetic material having a high magnetic permeability, such as iron material, and condensing and compressing the magnetic force lines emitted from the permanent magnet 122 to minimize leakage magnetic force lines to increase magnetic flux density to improve driving torque or power generation efficiency. .

3 is an assembled perspective view of a single divergent magnetic flux compression generator module according to an embodiment of the present invention, a plurality of magnet modules 120 such that the angular distance between magnets is the same at the center of the drive shaft of the rotor disc 125 It can be inserted into or attached to a hole and can be formed at an equidistant distance with different radii. Six to twelve magnet modules 120 may be disposed on each radius circumference at an equal distance. The coil module 110 is formed by inserting it into the stator body 115 at a plurality of equidistant distances so as to be spaced apart from the magnet module 120 and correspond to each magnet module.

FIG. 4 shows another embodiment in which a single divergent magnetic flux compression generator module is configured as two and dual mode, and the middle rotor is the main rotor 130, and the two magnetic modules 120 are used to form the magnetic flux assembly 121. It is formed symmetrically in the order of permanent magnet / magnet assembly / permanent magnet as the center. On both sides of the main rotor 130, the stator body 115 into which the coil module 110 is inserted is arranged at a predetermined distance apart, and the side rotor 125 is assembled at a predetermined distance on both sides.

5 is a graph showing the operation of the divergent magnetic flux compression generator according to the present invention, and shows a change in the magnetic flux density according to which permanent magnets (m) having the same angular distance are periodically arranged. The place where the permanent magnet (m) is located has the maximum magnetic flux density, and the intermediate point between the two magnets becomes the minimum magnetic flux density.

The principle of the motor is applied to the rotation of the rotor disc. The initial / termination position of the magnet module is preferably a position at which the maximum magnetic flux density starts to change from the minimum magnetic flux density. When the current is applied to the driving coil 111 by turning on the driving switch so that the opposite permanent magnet becomes the same polarity and the repulsive force is generated, the repulsive repulsive force does not move at the maximum point, but the position of the magnet module 120 is an unstable start / end position. When in (1), a rotational force (torque) is generated, and the rotor disk 125 is driven to rotate.

If the operating switch is turned off immediately after passing the point at which the magnetic flux density becomes the lowest, an induced current is generated in the driving coil and power generation coil due to the magnetic flux density change of the rotating rotor's magnet module, and the rotor generates rotational inertia with attraction. To continue rotating. As the magnetic flux density changes from the minimum point to the maximum point, an induced current is generated in the driving coil and the power generation coil. When the maximum point is reached, the driving switch is turned on again to generate repulsive force in the driving coil, and the induction current generated in the power generation coil is stored in a battery in accordance with the timing to facilitate driving of the rotor disc. That is, the motor and the generator alternately operate between the permanent magnet and the motor function and the power generation function are repeated.

As the driving switch, a reed switch that is opened and closed according to the amount of magnetic flux can be used. The start / end point position 1 can use a magnet other than a magnet module, and a driving plate with a driving switch and a start / end point positioner can be separately installed on the drive shaft.

The generated induction current is charged to a battery using a charge controller, and then converted to AC using an inverter to be connected to the power system. The rotor can be rotated by storing the generated current in a capacitor or a battery and supplying it to the driving coil again by a loop back mechanism.

110: coil module 111: driving coil
112: interference prevention material 113: power generation coil
115: stator body
120: magnet module 121: magnetic flux assembly
125: rotor disc 150: drive shaft
160: assembly member

Claims (11)

A magnet module 120 to which the magnetic flux collector 121 is attached to the permanent magnet 122;
A rotor disk 125 in which a plurality of the magnet modules are inserted and installed at the same angular distance around the drive shaft 150;
Corresponding to the magnet module, the coil module 110, which is installed in a plurality on the stator body 115 spaced a predetermined distance on the drive shaft, and
The coil module includes a driving coil 111 for driving the rotor disc, a power generation coil 113 for generating an induction current, and an interference prevention material 112 for preventing interference between the driving coil and the power generation coil,
A divergent magnetic flux compression generator, characterized in that the motor function and the generator function are fused. According to claim 1,
The divergent magnetic flux compression generator includes a magnet module / driving coil / interference prevention material / power generation coil or magnet module / driving coil / interference prevention material / power generation coil / driving coil / magnet module or generating coil / interference prevention / driving coil along the drive shaft. / Permanent magnet / magnetic flux assembly / permanent magnet / driving coil / interference prevention material / divergent magnetic flux compression generator characterized in that the assembly in order. According to claim 1,
The permanent magnet is a neodymium magnet and the magnetic flux collector is a ferromagnetic compression generator, characterized in that the ferromagnetic material. According to claim 1,
The driving coil 111 is an electromagnet that is magnetized by receiving electric current from a battery, and is characterized in that the driving switch is turned on so that a repulsive force is generated to become the same polarity as an opposing permanent magnet according to Ampere's right-hand screw rule, and current is applied. Divergent magnetic flux compression generator. According to claim 1,
The driving coil is a divergent magnetic flux compression generator characterized in that the operation switch is off when the magnetic flux density between the magnet module and the magnet module is the lowest. According to claim 1,
The power generation coil 113 is a divergent magnetic flux compression generator characterized in that the induction current is generated while the current of the driving coil 111 is off. According to claim 1,
The interference preventing material 112 is a radiating magnetic flux compression generator characterized in that the anti-magnetic material. The method according to any one of claims 4 to 6,
The starting and ending point of the magnet module is a divergent magnetic flux compressed generator, characterized in that controlled by the end position. The method of claim 8,
The end position is a magnetic flux-compressing generator, characterized in that the magnetic chain. The method of claim 4 or 5,
The driving switch is a divergent magnetic flux compression generator, characterized in that the reed switch that is opened and closed according to the amount of magnetic flux. A divergent magnetic flux compression generator according to claim 1 or 2, wherein the divergent magnetic flux compression generator is connected in parallel to increase the power generation capacity.

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