KR20170140936A - generator - Google Patents

Abstract

The present invention relates to a generator in a new structure which can improve a generating efficiency. The generator according to the present invention is as follows: a driving gear (43) is operated by using a driving device (1); first and second driven gears (41, 42) are rotated in the opposite direction to each other; an outer rotating body (20) and an inner rotating body (30) are rotated in the opposite direction to each other, and a coil (22) provided in the outer rotating body (20) is rotated between magnet lines of a magnet member (32) provided in the inner rotating body (30); and electricity is generated in the coil (22) by electromagnetic induction. Therefore, since a relative rotating speed of the coil (22) provided in the outer rotating body (20), and the magnet member (32) provided in the inner rotating body (30) is twice higher than the speed of existing generators, sufficient electricity can be generated even if the driving device (1) is slowly rotated.

Description

Generator {generator}

The present invention relates to a new structure generator capable of improving power generation efficiency.

Generally, as shown in Fig. 1, a generator used for generating electricity is constituted by a stator 2 and a rotor 3 provided inside the stator 2. As shown in Fig.

The stator 2 and the rotor 3 are each provided with a coil 2a and a magnet member 3a and the rotor 3 is provided with a driving device 1 for driving the rotor 3, Respectively.

The driving apparatus 1 uses a general internal combustion engine, aberrations, turbines, windmills, and the like.

The magnet member 3a uses a permanent magnet or an electromagnet.

Therefore, when the rotor 3 is rotated using the driving device 1, electricity is generated by electromagnetic induction generated between the magnet member 3a and the coil 2a.

However, such a generator is characterized in that stronger electricity is generated as the relative rotation speed of the rotor 3 with respect to the stator 2 is higher.

That is, as the speed at which the rotor 3 is rotated by the driving device 1 is higher, stronger electricity is generated.

Therefore, when the speed at which the rotor 3 is rotated by the driving device 1 is slow, normal power generation is not performed in the generator, and the power generation efficiency is lowered.

Therefore, there is a need for a new method to solve such a problem.

Patent No. 10-0138620,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a generator of a new structure capable of improving power generation efficiency.

According to an aspect of the present invention, there is provided a power generator driven by a drive device (1), comprising a support member (10), an outer rotor An inner rotating body 30 rotatably disposed on the inner side of the outer rotating body 20 so as to have the same rotation center axis as the outer rotating body 20; And driving means (40) connected to the whole body (30) and rotating the external rotating body (20) and the internal rotating body (30) in opposite directions by a driving force of the driving device (1) A coil 22 or a magnet member 32 is provided on the rotating body 20 and the inner rotating body 30 so that when the driving device 1 is driven, (20) and the inner rotor (30) are rotated in opposite directions to generate electricity in the coil (22) Generator is provided.

According to another aspect of the present invention, the driving means 40 includes first and second driven gears 41 and 42 coupled to the outer rotor 20 and the inner rotor 30 so as to have the same rotation center axis, And a drive gear (43) coupled to the drive device (1) and coupled to the first and second driven gears (41, 42) at a circumferential surface thereof.

According to another aspect of the present invention, the driving unit 40 is disposed in parallel with the rotation center axis of the outer rotor 20 and the inner rotor 30 and is driven by the driving unit 1 A driving shaft 44 and first and second connecting portions 45 and 46 connecting the outer rotating body 20 or the inner rotating body 30 to the driving shaft 44. The first connecting portion 45 Includes a drive pulley 45a coupled to the drive shaft 44 and a driven pulley 45b connected to the drive pulley 45a through a belt 45c and the second connection portion 46 includes a drive shaft 45a, 44 and a driven gear 46b engaged with the driving gear 46. The driven pulley 45b and the driven gear 46b are connected to the external rotating body 20 or The outer rotor 20 and the inner rotor 30 are rotated in opposite directions when the drive shaft 44 is driven. Is provided.

When the drive gear 43 is driven using the drive device 1, the first and second driven gears 41 and 42 are rotated in opposite directions to each other, The rotating body 20 and the inner rotating body 30 are rotated in opposite directions so that the coil 22 provided in the outer rotating body 20 is rotated by the magnet member 32 provided in the inner rotating body 30, And electricity is generated in the coil 22 by electromagnetic induction.

Therefore, the relative speed at which the coil 22 provided in the outer rotor 20 and the magnet member 32 provided in the inner rotor 30 are rotated is rotated at a speed twice that of the conventional generator , There is an advantage that sufficient electric power can be outputted even if the drive device 1 is rotated slowly.

1 is a diagram showing a conventional generator,
FIG. 2 is a diagram showing a generator according to the present invention,
3 is a configuration diagram showing a second embodiment of a generator according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 shows a generator according to the present invention, which is driven by the drive system 1 and is adapted to generate power, which is the same as that of a conventional generator.

According to the present invention, the generator includes a support member 10, an outer rotor 20 rotatably coupled to the support member 10, An internal rotating body 30 rotatably provided so as to have the same rotation center axis as that of the whole body 20 and a driving unit 30 connected to the external rotating body 20 and the internal rotating body 30, And driving means (40) for rotating the external rotating body (20) and the internal rotating body (30) in opposite directions.

Describing this in more detail, the support member 10 is formed in a wide plate shape.

The outer rotating body 20 is formed in a cylindrical shape extending in the vertical direction and has a coil 22 therein. The upper and lower ends of the outer rotating body 20 are provided with a supporting tube 21 extending in the vertical direction. 21 are rotatably coupled to a bracket 11 provided on the support member 10 through bearings.

At this time, a brush (not shown) is connected to the coil 22 so that electricity generated in the coil 22 is applied to the outside through the brush as described later.

The inner rotating body 30 includes a shaft member 31 extending vertically and extending upward and downward of the outer rotor 20 through the supporting tube 21 and a shaft member 31 extending in the middle of the shaft member 31 The upper and lower ends of the shaft member 31 are rotatably supported on a bracket 11 provided on the support member 10 through bearings, and the magnet member 32 is disposed inside the outer rotor 20. Lt; / RTI >

The driving means 40 includes first and second driven gears 41 and 42 coupled to the outer rotor 20 and the inner rotor 30 so as to have the same center axis of rotation, And a driving gear 43 coupled to the second driven gear 41 and 42 and connected to the driving device 1.

The first and second driven gears 41 and 42 use bevel gears having beveled teeth on the circumferential surface. The first driven gear 41 is supported by the support tube 21 of the outer rotor 20, And the second driven gear 42 is coupled to the shaft member 31 of the inner rotor 30 such that teeth are directed downward.

The drive gear 43 is rotatably coupled to the support member 10 so as to have a rotation center axis extending laterally between the first and second driven gears 41 and 42, 1 and the second driven gear 41, 42 at the same time.

Therefore, when the driving gear 43 is driven, the first and second driven gears 41 and 42 are rotated in mutually opposite directions, and the outer rotor 20 and the inner rotor 30 are mutually opposite Direction.

The driving device 1 uses a general internal combustion engine, an aberration, a turbine, a windmill or the like, and is connected to the driving gear 43 to drive the driving gear 43.

When the drive gear 43 is driven by the drive device 1, the first and second driven gears 41 and 42 are rotated in opposite directions to each other, The coils 22 provided in the outer rotor 20 rotate in a direction opposite to that of the magnet members 32 provided in the inner rotor 30, So that electricity is generated in the coil 22 by electromagnetic induction.

Therefore, the relative speed at which the coil 22 provided in the outer rotor 20 and the magnet member 32 provided in the inner rotor 30 are rotated is rotated at a speed twice that of the conventional generator , There is an advantage that sufficient electric power can be outputted even if the drive device 1 is rotated slowly.

That is, in the conventional generator, when the driving device 1 rotates only the rotor 3 and the driving speed of the driving device 1 is 1, the rotor 3 and the stator 2, The relative speed between the coil 22 and the magnet member 32 becomes 1.

In contrast, in the generator according to the present invention, when the driving apparatus 1 is driven, the external rotating body 20 and the internal rotating body 30 are rotated in opposite directions by the driving means 40, The relative speed between the coil 22 and the magnet member 32 provided in the outer rotor 20 and the inner rotor 30 becomes 2 when the driving speed of the rotor 1 is 1, 3) than that of the conventional generator.

In the present embodiment, a coil 22 is provided in the outer rotating body 20 and a magnet member 32 is provided in the inner rotating body 30. However, in the outer rotating body 20, A member 32 may be provided and a coil 22 may be provided on the inner rotating body 30. [

The support member 10 is formed in a wide plate shape. However, the support member 10 may be formed in the shape of a cylindrical housing coupled to the outer side of the outer rotor 20.

The outer rotating body 20 is rotatably coupled to the bracket 11 of the supporting member 10 through a bearing and the inner rotating body 30 is rotatably coupled to the shaft body 21. [ The upper and lower ends of the inner rotor 31 are rotatably coupled to the bracket 11 of the support member 10 through the bearings. The outer rotating body 20 is rotatably coupled to the shaft member 31 of the inner rotating body 30 while the inner rotating body 30 is rotatably coupled to the supporting member 10, It is also possible to constitute such that it is rotatably coupled.

3 shows a second embodiment according to the present invention in which the driving means 40 is disposed in parallel with the rotational center axis of the outer rotor 20 and the inner rotor 30, A driving shaft 44 driven by the driving shaft 1 and a first connecting portion 45 connecting the driving shaft 44 and the outer rotating body 20 to each other and connecting the driving shaft 44 and the inner rotating body 30 And a second connecting portion 46 for connecting the first and second connecting portions.

The drive shaft 44 is rotatably coupled to a bracket 11 provided at one side of the support member 10 so as to extend in the vertical direction.

The first connection part 45 includes a driving pulley 45a coupled to the driving shaft 44 and a supporting pulley 45a connected to the driving pulley 45a through a belt 45c, And a driven pulley 45b coupled to the driven pulley 45b.

Accordingly, when the driving shaft 44 is driven, the external rotating body 20 is rotated in the same direction as the driving shaft 44.

The second connection portion 46 includes a drive gear 46a coupled to the drive shaft 44 and a driven gear 46a coupled to the drive gear 46a and coupled to the shaft member 31 of the inner rotor 30, (46b).

Therefore, when the driving shaft 44 is driven, the inner rotating body 30 is rotated in a direction opposite to the driving shaft 44. [

When the driving shaft 44 is rotated using the driving device 1, the external rotating body 20 and the internal rotating body 30 are rotated in opposite directions.

Therefore, as in the first embodiment described above, there is an advantage that sufficient electric power can be outputted even if the drive device 1 is rotated slowly.

The driven pulley 45b of the first coupling portion 45 is coupled to the support tube 21 of the outer rotor 20 and the driven gear 46b of the second coupling portion 46 The driven pulley 45b of the first connecting portion 45 is coupled to the shaft member 31 of the inner rotating body 30 while the driven pulley 45b of the first connecting portion 45 is coupled to the shaft member 31 of the inner rotating body 30 And the driven gear 46b of the second connection portion 46 may be coupled to the support tube 21 of the outer rotor 20.

10. Supporting member 20. External rotating body
30. Internal rotating body 40. Driving means

Claims (3)

In a generator driven by a drive system (1) to generate electric power,
A support member 10,
An external rotating body 20 rotatably coupled to the support member 10,
An inner rotating body 30 rotatably disposed inside the outer rotating body 20 so as to have the same rotating center axis as the outer rotating body 20,
A driving unit that is connected to the external rotating body 20 and the internal rotating body 30 and drives the external rotating body 20 and the internal rotating body 30 in opposite directions by a driving force of the driving unit 1; Means (40)
The outer rotating body 20 and the inner rotating body 30 are each provided with a coil 22 or a magnet member 32,
When the driving device 1 is driven, the external rotating body 20 and the internal rotating body 30 are rotated in opposite directions by the driving means 40 so that electricity is generated in the coil 22 Features a generator.
The method according to claim 1,
The driving means (40)
First and second driven gears 41 and 42 coupled to the outer rotor 20 and the inner rotor 30 so as to have the same rotation center axis,
And a driving gear (43) coupled to the driving device (1) and coupled to the first and second driven gears (41, 42) at a circumferential surface thereof.
The method according to claim 1,
The driving means (40)
A drive shaft (44) arranged to be parallel to the rotation center axis of the outer rotor (20) and the inner rotor (30) and driven by the drive device (1)
And first and second connection portions (45, 46) connecting the outer rotor (20) or the inner rotor (30) to the drive shaft (44)
The first connection part 45 includes a drive pulley 45a coupled to the drive shaft 44 and a driven pulley 45b connected to the drive pulley 45a through a belt 45c,
The second connection portion 46 includes a driving gear 46 coupled to the driving shaft 44 and a driven gear 46b engaged with the driving gear 46,
The driven pulley 45b and the driven gear 46b are coupled to the external rotating body 20 or the internal rotating body 30 so that when the driving shaft 44 is driven, (30) are rotated in mutually opposite directions.

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