KR200451776Y1 - An electric generator - Google Patents

Abstract

The present invention relates to a generator using magnetic force to efficiently produce the maximum power with the minimum force,

In the power generation apparatus for generating electricity by rotating the power received from the drive unit through a pulley fixed to the shaft of the generator;

The driving unit includes a small motor for generating initial power, a driving wheel fixed to the driving shaft of the motor, and a driven wheel having a belt groove having a diameter larger than that of the pulley so as to be connected to the driving wheel to transfer power to the generator. And fixing a plurality of driving blades and driven blades radially formed on the driving wheel and the driven wheel, and electromagnets having the same polarity at the ends of the driving and driven blades so that the electromagnets of the driving blades push the electromagnets of the adjacent driven blades. The driven wheel rotates by the force to drive the generator.

Magnetic force, magnet, power generation

Description

Generator using magnetic force {AN ELECTRIC GENERATOR}

The present invention relates to a power generator using magnetic force, and more particularly, to provide a power generator capable of generating high efficiency with high power by using a small power to rotate a drive of a generator by magnetic force.

The power generation device generates electricity by receiving external power, and is composed of a generator that substantially generates electricity and driving means for providing a power source to drive the generator.

Currently, a widely used generator is provided with a stator assembly including a stator core and a stator coil inside a case, and a rotor shaft having a pulley for receiving power from a driving means inward of the stator assembly.

In the middle of the rotor shaft, the spool bobbin wound around the rotor coil is press-fitted and the rotor assembly is provided with the rotor core coupled to the outer side of the rotor shaft. AC is induced to generate a current.

The generator is changed by different driving means that can operate the generator, the internal combustion engine type to generate power by the power of the fuel, such as diesel or gasoline type, wind type, solar type, hydro Or various types of power generation apparatuses such as a type using waves) have been developed and used.

The general generator as described above, such a general power generation device is provided with a conventional generator, the generator is connected to the drive means to generate power while rotating to receive power, the produced electricity is used directly or stored in a separate battery It is the type to use after making.

As such, the energy used in the driving means for operating the generator is greater than the amount of electricity produced by the generator, which results in a problem of low efficiency.

That is, in the case of the internal combustion engine to generate electricity, the use of more fuel than necessary causes not only waste of energy sources, but also causes pollution to the environment by many harmful gases generated during operation of the internal combustion engine.

In addition, when solar or wind, which is a clean energy source, is used as an energy source, the structure of a device for converting it into electrical energy is complicated, and a considerable cost is required to install it. This extremely low disadvantage arises.

As described above, the power generation device of the prior art is not designed in a form that can be used at all times in everyday life, but is designed to be used for emergency purposes in general, or is installed for pilot use. This is true.

In the present invention to solve the problems as described above in the power generation apparatus for generating electricity by rotating the power received by the drive unit through a pulley fixed to the shaft of the generator;

The driving unit includes a small motor for generating initial power, a driving wheel fixed to the driving shaft of the motor, and a driven wheel having a belt groove having a diameter larger than that of the pulley so as to be connected to the driving wheel to transfer power to the generator. And fixing a plurality of driving blades and driven blades radially formed on the driving wheel and the driven wheel, and electromagnets having the same polarity at the ends of the driving and driven blades so that the electromagnets of the driving blades push the electromagnets of the adjacent driven blades. By driving the generator by rotating the driven wheel by the force can achieve the purpose of efficiently producing the maximum power with the minimum force.

The present invention generates a large rotational force by the magnetic force by providing a minimum power that can generate the initial driving force to drive the generator by generating the maximum electricity at the minimum power to increase the energy efficiency and produce electricity on a daily basis It can be used to such a devised many effects expected.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram of a power generator using a magnetic force applied to the technology of the present invention, Figure 2 is a perspective view of the drive unit of the power generator using the magnetic force applied to the technology of the present invention, Figure 3 is a magnetic force applied to the technology of the present invention A-A cross-sectional view taken from the drive unit of the generator using Fig. 4 is a cross-sectional view taken along line B-B taken from the drive unit of the generator using a magnetic force applied to the technology of the present invention.

The generator 100 to which the technology of the present invention is applied improves the driving unit 105 for transmitting power to the pulley 103 fixed to the shaft 102 of the conventional generator 101 that generates electricity. It is characterized in that to drive the generator 101 quickly to produce a high output current.

The driving unit 105 is configured to receive the power of the small motor 106 and the motor 106 for generating the initial power to transmit a large power to the generator 101.

And a driving wheel 109 fixed to the drive shaft 108 of the motor 106 and a driven wheel 110 connected to the driving wheel 109, wherein the driven wheel 110 has a pulley of the generator 101. The belt groove 112 is formed to transmit power through the 103 and the belt 111.

The belt groove 112 may have a larger diameter than the pulley 103 of the generator 101 so that the belt groove 112 may generate power by obtaining a large force by a difference in rotation with the driven wheel 110.

The driving wheel 109 and the driven wheel 110 are provided with a plurality of driving blades 113, 114 and driven blades 115, 116 radially, and fixed to the ends of the driving and driven blades 113, 114, 115, and 116 electromagnets 117, 118. .

The electromagnets 117 and 118 fixed to the driving and driven blades 113, 114, 115 and 116 have the same poles, and the electromagnets 117 of the drive blades 113 and 114 are driven by a force to push the electromagnets 118 of the adjacent driven blades 115 and 116. As a result, the driven wheel 110 rotates to drive the generator 101.

Of course, the driving shaft 108 and the driven shaft 119 to which the driving wheel 109 and the driven wheel 110 are fixed are generated through the one-way rotor 120 such as a one-way bearing or a one-way clutch. It would be natural to only rotate in the direction.

Although the driven wheel 110 located between the generator 101 and the motor 106 is not shown in the drawing, it will be natural to be supported in a stable state by a separate supporting means.

Looking at the working relationship of the power generation device 100 to which the technology of the present invention is applied as described above are as follows.

When the driving wheel 109 is rotated through the motor 106 in a state in which the belt 111 is connected between the pulley 103 of the generator 101 and the belt groove 112 of the driven wheel 110, the driving wheel ( 109 and the driving blades 113 and 114 formed in the driven wheel 110 are in the form located above the driven blades 115 and 116.

Of course, on the contrary, the driven blades 115 and 116 may be positioned above the driving blades 113 and 114, and the respective blades 113, 114, 115 and 116 will be fitted to each other by a rotation (stepped shape). .

In particular, since the electromagnets 117 and 118 having the same polarity fixed to the driving and driven blades 113, 114, 115 and 116 are facing each other, the electromagnets 117 fixed to the drive blades 113 and 114 are rotated when the driving wheel 109 rotates. The driven wheel 110 is rotated because it is pushed together in the process of being connected to the electromagnet 118 fixed to the driven blades (115, 116) of the driven wheel (110).

That is, the driving shaft 108 and the driven shaft 119 is interposed between the one-way rotor 120 so that it can rotate only in the power generating direction of the generator 101 is provided in the driving wheel 109 and the driven wheel 110 The force pushed by the electromagnets 117 and 118 of the same polarity naturally rotates the driven wheel 110.

The diameter of the belt groove 112 formed in the driven wheel 110 has a diameter larger than the diameter of the pulley 103 of the generator 101, so that the pulley 103 rotates once when the driven wheel 110 rotates. By rotating abnormally, it is possible to produce a current having a larger energy than the input energy.

Of course, the driving wheel 109 may be stopped by applying only a force that can initially break the balance of the force with the driven wheel 110 by using the small motor 106, and the low speed or small The driving wheel 109 may be driven continuously by force.

As described above, the current produced through the generator 101 may be used afterwards by accumulating into the storage battery 121, or may be directly supplied to the electrical equipment 122.

The present invention is designed to drive the generator using the same polarity of the electromagnet to push each other, without having to invest a large investment cost initially, and to efficiently produce power with minimal energy consumption.

1 is an overall configuration diagram of a power generation apparatus using a magnetic force applied the technology of the present invention.

Figure 2 is a perspective view of the drive unit of the generator using a magnetic force applied technology of the present invention.

3 is a cross-sectional view taken along line A-A of the drive unit of the power generation apparatus using a magnetic force to which the technique of the present invention is applied.

Figure 4 is a cross-sectional view taken along the line B-B of the drive unit of the power generation apparatus using a magnetic force applied technology of the present invention.

* Description of the symbols used in the main parts of the drawings *

100; Generator

105; Driving part

109; Driving wheel

110; Driven wheel

113,114; Driving blade

115,116; Driven blade

117,118; Electromagnet

120; One-way rotor

Claims (2)

In the power generation apparatus 100 for generating electricity by rotating the power received from the drive unit 105 through the pulley 103 fixed to the shaft 102 of the generator 101; The drive unit 105 includes a small motor 106 for generating initial power; A drive wheel 109 fixed to the drive shaft 108 of the motor 106; A driven wheel (110) having a belt groove (112) having a diameter larger than the pulley (103) so as to be connected to the driving wheel (109) to transmit power to the generator (101);  A plurality of driving blades 113 and 114 and driven blades 115 and 116 formed radially on the driving wheel 109 and the driven wheel 110; The electromagnets 117 and 118 having the same polarity are fixed to the ends of the driving and driven blades 113, 114, 115 and 116, and the electromagnets 117 of the drive blades 113 and 114 are pushed by the electromagnets 118 of the adjacent driven blades 115 and 116. Power generator using a magnetic force, characterized in that the driven wheel 110 is rotated to drive the generator (101). The method of claim 1; Magnetic force characterized in that the driving shaft 108 and the driven shaft 119 to which the driving wheel 109 and the driven wheel 110 are fixed are interposed between the one-way rotor 120 to rotate only in the direction of power generation of the generator 101. Power generation device using.

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