KR101101549B1 - Self-generating motor - Google Patents

Abstract

PURPOSE: A self-generating motor is provided to reduce repulsion load and weight by sharing a permanent magnet required for an electric motor and a generator. CONSTITUTION: A permanent magnet(20) is fixed and combined in the housing in concentric. An armature shaft(40) is arranged inside the permanent magnet by a certain interval. A moving commutator(50) and a power generation commutator(60) are installed to supply external electricity and discharge induction electricity. A disc(71) has a doughnut shape in one side. A coil assembly(72) is arranged between the outer circumference of the permanent magnet denotation and the inner circumference of the housing. A rotor(70) is electrically connected with the power generation commutator. A power transmission unit(80) transfers the rotation of an armature shaft to the rotor.

Description

Self-Generated Motors {SELF-GENERATING MOTOR}

The present invention relates to a self-powered motor that can smoothly use or charge electricity generated by the armature shaft rotated by the input power applied through the starting brush and the coil assembly rotated with it. When the armature shaft having the core installed in the internal combustion rotates according to the power application, the coil assembly installed on the outer edge of the permanent magnet is rotated by using the rotational force thereof, thereby discharging and using the electricity induced in the coil assembly. By sharing the permanent magnets required for each generator, the armature magnet of the generator is eliminated, thereby reducing the rebound load and weight, and it is possible to continuously generate electricity, so that electricity can be used directly through the smoothing circuit without charging. Remarkable capacity Which can reduce self relates to the development of the motor.

Until now, there are many kinds of generators that can get electric energy, and there are many ways to do this. Generally, hydroelectric generators generated by using hydraulic power by blocking dams, and thermal power generated by burning anthracite coal, oil (petroleum) and natural gas. Nuclear generators using generators or nuclear reactions, wind generators using wind, solar generators using solar power, and tidal generators using seawater are widely used.

By the way, the thermal power generators that generate power by burning anthracite coal or oil (petroleum) and natural gas are serious due to global warming due to exhaustion of resources due to fuel consumption and exhaust gas caused by fuel combustion.

Hydroelectric generators and wind turbines are closely related to the natural environment and conditions, and therefore, there are problems in that the installation costs are considerably high. There is a problem of environmental pollution.

Due to these problems, solar, wind, hydro, tidal, and the like are being developed and used as alternative energy, but they are not enough to be used as direct electric energy in general private homes.

The wind power generator is a power generation system in which a rotary blade is rotated by wind. Wind is important above all to power this method. However, the problem is that the wind turbine does not generate the desired electrical energy when the wind vane stops.

In addition, hydroelectric generators and tidal power generators are a great help as alternative energy, but there is a big economic loss due to the risk of damage to facilities (buildings) caused by strong typhoons (hurricanes, tsunamis) or earthquakes caused by climate change. to be.

In addition, the solar power generator is an alternative energy using the sun (sunlight), and the solar energy is collected in the solar cell and converted into heat and converted into power by the heat engine, which is possible only in the sunlight (sun). However, in the evening (between sunset and night), there is no sun light, and the solar generator is 100 percent because the weather does not rise during the day due to cloudy weather, rain and snow due to climate change. The problem is that it doesn't work.

Therefore, at the present time, saving energy as much as possible and generating using an existing energy source is also an important problem and a reasonable method.

The present invention has been made to solve the above problems as the coil assembly is installed on the outer edge of the permanent magnet by using its rotational force when the armature shaft having a core installed in the permanent magnet internal combustion rotates in accordance with the application of power As a result, it is possible to discharge and use the electricity induced in the coil assembly, thereby sharing the permanent magnets required for the motor and the generator, thereby eliminating the need for the amateur magnet of the generator. The purpose of the present invention is to provide a self-powered motor that can directly use electricity through the circuit part and can significantly reduce the capacity of the charging device even when charging.

The present invention has the following features to achieve the above object.

The present invention is a housing having a cylindrical shape having a predetermined receiving space and having a hollow, and a permanent magnet fixed to the upper and lower concentrically respectively inside the housing, and is spaced apart at a predetermined interval inside the permanent magnet at the time of electrical application Armature shaft, which is magnetized and rotated by a force generated between permanent magnets, is coupled to the outer edge of the armature, and coupled to the outer edges of both ends of the armature shaft to co-rotate, starting brushes and power generation for the application of external electricity and discharge of induced electricity. A mobile commutator and a power generating commutator having one or more pairs of brushes respectively opposed to each other along the outer circumference thereof, one side of which is formed in a cylindrical shape having a donut-shaped disk body and a hollow body on one side along the circumference of the disk body, or According to the coil combination branch is formed extending to one side Coalescing is disposed between the permanent magnet outer edge and the housing inner edge and the rotor is connected to the electrical commutator and electrically connected, the power transmission is installed on the armature shaft outer edge between the core and the power generating commutator and transmits the rotational force of the armature shaft to the rotor It comprises a means.

Here, the power transmission means is installed at the outer edge of the armature shaft between the core and the power generation rectifier and at least one satellite gear to be co-rotating when the shaft rotates, and the one or more satellite gear is installed on the outer edge of the internal gear is tooth-coupled with the satellite gear of the satellite gear Rotating together with rotation, the outer edge is fixed to the disc body of the rotor is made of a ring gear for transmitting the rotational force of the armature shaft to the rotor.

In addition, a cooling fan for discharging heat generated therein is installed outside the power transmission means, and a pair of starting brushes are installed in the starting commutator for applying external power to different poles up and down. The commutator is provided with a power generation brush for discharging the electricity dissipated from the coil assembly to the outside at different poles at a pair of positions opposite to each other.

In addition, a smoothing circuit unit and a regulator are connected to the power generation brush to smooth the discharged electricity in the form of DC, or a charging device for charging the discharged electricity is connected to the power generation brush.

According to the present invention, when the armature shaft having the core installed in the permanent magnet internal combustion rotates according to the power applied, the coil assembly installed in the permanent magnet outer edge is rotated by using the rotational force thereof, thereby discharging electricity induced in the coil assembly. By being able to use, the permanent magnets required for the motor and the generator are shared, thereby eliminating the need for the amateur magnet of the generator, thereby reducing the rebound load and weight.

In addition, it is possible to continue to generate electricity, it is possible to use electricity directly through the smoothing circuit without charging, and even when charging, the capacity of the charging device can be significantly reduced.

1 is a side cross-sectional view of a self-powered motor according to an embodiment of the present invention.
2 is a front sectional view of a self-powered motor according to an embodiment of the present invention.
3 is a cross-sectional view showing a power transmission means according to an embodiment of the present invention.
4 is a view showing a state in which the housing and the cooling fan is installed according to an embodiment of the present invention.

Hereinafter will be described in detail with the accompanying drawings for the self-powered motor according to the present invention.

1 is a side cross-sectional view of a self-powered motor according to an embodiment of the present invention, Figure 2 is a front sectional view of a self-powered motor according to an embodiment of the present invention, Figure 3 is a power source according to an embodiment of the present invention It is a cross-sectional view showing a delivery means, Figure 4 is a view showing a state in which the housing and the cooling fan is installed according to an embodiment of the present invention.

Referring to the drawings, the self-powered motor 100 according to the present invention includes a housing 10, a permanent magnet 20, a core 30, an armature shaft 40, a mobile commutator 50, a power generator commutator 60, It consists of a rotor 70 and a power transmission means 80.

The self-powered motor 100 is the core 30 by the force generated between the core 30 and the permanent magnet 20 when the external power is applied through the starting brush 51 is connected to the starting commutator 50 The armature shaft 40 which is rotated and thus fixedly coupled thereto rotates together so that its rotational force is transmitted to the rotor 70 through a power transmission means, thereby transferring electricity induced in the coil assembly 72 of the rotor 70. Through the electrically connected power generation rectifier 60 and the power generation brush 61 is to be charged or used as a charging device or a load.

Here, the starting commutator 50 or the power generating commutator 60 has a separate structure in the form of a plurality of cylindrical pieces (12 pieces in the drawing), so that the starting brush 51 has a pair of positive and negative electrodes facing the starting commutator 50. Since it is connected to each piece, the power generation brush 61 can be connected to the remaining separation piece, so that electricity can be drawn out.

Looking at the self-powered motor 100 in detail, the housing 10 has a receiving space formed therein the permanent magnet 20, the core 30, the armature shaft 40, the mobile commutator 50, The generator rectifier 60, the rotor 70, and the power transmission means 80 are accommodated therein.

In addition, the housing 10 is provided so that the permanent magnet 20 is fixedly coupled to form a certain magnetic field. Of course, the permanent magnet 20 is fixed as one side is coupled with a fixed frame fixed to the housing 10.

The permanent magnet 20 is formed in a cylindrical shape having both sides open and a hollow inside, and is separated into upper and lower portions and fixedly coupled to the housing 10.

Of course, the permanent magnet 20 may be formed in a multi-stage separation in addition to the upper, lower two-stage separation structure.

On the other hand, the core 30 is disposed inside the permanent magnet 20 at a predetermined interval therebetween is provided to rotate by a force generated between the permanent magnet 20 is magnetized upon application of electricity, the coil 30 inside the core 30 The winding is disposed and is electrically connected to the starting commutator 50, which will be described later, so that power can be applied to the coil.

In addition, the core 30 is also composed of a plurality of pieces having the same separation structure so as to correspond one-to-one with a plurality of pieces having the separation structure of the mobile commutator 50 is made to correspond to each other and electrically conductive.

In addition, the armature shaft 40 is fixedly coupled to the core 30 to rotate together with the rotation of the core 30 to transmit the rotational force to the power transmission means 80 is coupled to the end side of the armature shaft 40. do.

On the other hand, the starter commutator 50 receives an external power from a starter brush 51 which is disposed outside and is connected to the outside so as to be electrically connected to the starter commutator, and transfers it to a coil in the core 30. Receives the electromotive force generated in the coil assembly 72 of the 70 is provided to transmit it to the power generation brush 61 is disposed and connected to the outside.

In addition, when the coil combination 72 is configured to conduct with the power generating brush 61 disposed at a position different from the starting brush 51 of the starting commutator 50, the starting commutator 60 may not be configured. Of course, the application of an external power source and the discharge of the electromotive force of the coil assembly 72 through the 50 may be simultaneously performed.

In addition, the rotor 70 is formed to extend in a cylindrical shape having one side of the donut-shaped disk body 71 and a hollow along one side of the disk body 71, or branched to one side along the circumference. The coil combination 72 is formed.

Here, the coil combination 72 is disposed between the outer edge of the permanent magnet 20 and the inner edge of the housing 10 and is connected to the electrical power commutator 60 so as to be electrically conductive.

On the other hand, the power transmission means 80 is installed on the outer edge of the armature shaft 40 between the core 30 and the power generating commutator 60 and is provided to transmit the rotational force of the armature shaft 40 to the rotor 70.

The power transmission means 80 is installed at the outer periphery of the armature shaft 40 between the core 30 and the power generation commutator 60 according to one embodiment of the present invention to rotate at least one satellite gear ( 81) and the at least one satellite gear 81 is installed on the outer edge of the internal gear is tooth-coupled with the satellite gear 81 to rotate together with the rotation of the satellite gear 81, the outer edge is the disk body of the rotor 70 ( 71 is fixedly coupled to the ring gear 82 which transmits the rotational force of the armature shaft 40 to the rotor.

Accordingly, the rotational force of the armature shaft 40 generated by the power applied through the starting brush 51 rotates the rotor 70 so that the organic electromotive force is generated in the coil assembly 72, which is the power generation commutator 60. And by the power generation brush (61) to be used or stored outside the power generation is to be made.

In addition, a cooling fan 90 for discharging heat generated therein may be installed at an outer side of the power transmission unit 80 to use power generated from the power generation brush 61 to perform the operation of the cooling fan. Can be configured.

Of course, since the generated power of the power generating brush 61 is not a smoothed DC power, it can be configured to be converted to direct current through a smoothing circuit part and a regulator.

In this way, to smooth the induction electricity discharged from the power generation brush 61 in the form of DC, a smoothing circuit unit and a regulator may be connected, or a charging device such as a capacitor for charging the same may be connected.

In addition, an inverter or the like may be connected to directly connect and use the home appliance.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to those precise embodiments, and many alternatives, modifications, and variations will be apparent to those skilled in the art. I will understand.

Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: housing 20: permanent magnet
30: core 40: amateur shaft
50: starting commutator 51: starting brush
60: power generation commutator 61: power generation brush
70: rotor 71: disk
72: coil combination 80: power transmission means
81: satellite gear 82: ring gear
90: cooling fan 100: self-powered motor

Claims (6)

A housing having a cylindrical shape having a predetermined accommodation space and having a hollow;
Permanent magnets fixedly coupled to upper and lower sides of the housing concentrically,
An armature shaft disposed inside the permanent magnet and spaced apart from each other by a predetermined distance, the core being magnetized upon electric application and being rotated by a force generated between the permanent magnets coupled to a center outer edge thereof;
A mobile commutator and a power generating commutator coupled to the outer edges of both ends of the armature shaft and having at least one pair of starting brushes and power generating brushes for the application of external electricity and the discharge of induced electricity, respectively, facing the outer periphery;
One side is formed of a donut-shaped disk and a coil combination extending in a cylindrical shape having a hollow to one side along the circumference of the disk or branched to one side along the circumference, wherein the coil combination is the permanent magnet outer edge. And a rotor disposed between the housing and the inner edge of the housing, wherein the rotor is electrically connected to the power generating rectifier.
It is installed on the armature shaft outer edge between the core and the power generating commutator and comprises a power transmission means for transmitting the rotational force of the armature shaft to the rotor,
Self-powered motor, characterized in that the cooling fan for discharging the heat generated inside the power transmission means is installed outside.
The method of claim 1,
The power transmission means
One or more satellite gears installed at the outer edge of the armature shaft between the core and the power generator commutator and co-rotating when the shaft rotates; The outer edge is fixedly coupled to the disc body of the rotor is a self-powered motor, characterized in that consisting of a ring gear for transmitting the rotational force of the armature shaft to the rotor.
The method of claim 1,
The starting commutator is provided with a pair of starting brushes for applying external power to different poles up and down, and the power generating commutator externally conducts electricity generated from the coil assembly to different poles at positions opposite to each other. Self-powered motor characterized in that the power generation brush is installed for discharge into the.
The method of claim 3,
The power generation brush is a self-powered motor, characterized in that the smoothing circuit unit and a regulator is connected to smooth the discharged electricity in the form of DC.
The method of claim 3,
The power generation brush is a self-powered motor, characterized in that the charging device for charging the discharged electricity is connected. delete

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