CN205622482U - Self energy generator - Google Patents

Abstract

The utility model provides a self energy generator, includes: send out motor body and drive division, the drive division includes: drive gear, a drive gear and the 2nd drive gear, a wherein drive gear's tooth and drive gear's tooth interlock, one side of a drive gear is equipped with at least one first magnet, and the same magnet pole face of all first magnet surrounds the second magnet that a drive gear was provided with a triangle -shaped to the orientation of the gear shaft of keeping away from a drive gear, and second magnet is in the coplanar with all first magnet, and the magnetic pole of the second magnet one side relative with first magnet is the same, the drive belt, a drive gear's gear shaft is connected to the drive belt, and a drive gear's gear shaft drives the drive belt motion, the 11 drive gear connects the drive belt, and the rotation of the 11 drive gear of drive belt drive, and the 11 drive gear drives the generator shaft of sending out motor body and rotates.

Description

A kind of self-powered electricity generating machine

Technical field

This utility model relates to a kind of electromotor, particularly a kind of self-powered electricity generating machine.

Background technology

The principle of electrical power generators is that rotating generator axle makes it drive the induction coil of inside to produce sensing Electric current.The most above-mentioned electromotor needs the constant rotating generator axle that passes through persistently to generate electricity.The most either Manpower rotates or mechanical rotation all wastes more energy.

Utility model content

This utility model provides a kind of self-powered electricity generating machine, including: engine block；And drive division, described in drive Dynamic portion connects and drives engine block；Described drive division includes: drive gear；First travelling gear, institute The tooth of the tooth and described driving gear of stating the first travelling gear is engaged, and the side of described first travelling gear is provided with At least one first Magnet, and the same magnetic pole of all described first Magnet is away from described first driving cog The direction of the gear shaft of wheel, is provided with the second Magnet of a triangle, institute around described first travelling gear State the second Magnet and be in same plane, described second Magnet and described first Magnet with all described first Magnet The magnetic pole of relative one side is identical；Transmission band, described transmission band connects the described tooth of described first travelling gear Wheel shaft, and the described gear shaft described conveyor belt motion of drive of described first travelling gear；Second travelling gear, Described second travelling gear connects described transmission band, and described transmission band drives described second driving cog round Dynamic, the side of described second travelling gear is provided with at least one the 3rd Magnet, and all described 3rd Magnet Same magnetic pole is away from the direction of the gear shaft of described second travelling gear, around described second travelling gear Being provided with the 4th Magnet of a triangle, described 4th Magnet and all described 3rd Magnet are in same flat Face, and the magnetic pole of the described 4th Magnet one side relative with described 3rd Magnet is identical；11st travelling gear, Connecting described transmission band, and described transmission band drives described 11st travelling gear to rotate, the described 11st passes Moving gear drives the generator shaft of described engine block to rotate；Wherein, the anterior width of described first Magnet Spending and taper into along the direction of rotation of described first travelling gear, the front portion of described first Magnet is described the One travelling gear is along the front portion of direction of rotation；The anterior width of described 3rd Magnet passes along described second The direction of rotation of moving gear tapers into, and the front portion of described 3rd Magnet is that described second travelling gear is along rotation Turn the front portion in direction；A the 16th cylindrical Magnet disposed behind of the first described Magnet, and described The polar orientation of the 16th Magnet is identical with the polar orientation of described first Magnet, after described first Magnet For reciprocal one side that be positioned at described first Magnet, that rotate along described first travelling gear；Described Cylindrical described 16th Magnet disposed behind of the 3rd Magnet, and the polarity of described 16th Magnet Direction is identical with the polar orientation of described 3rd Magnet, for being positioned at described 3rd magnetic after described 3rd Magnet Ferrum, along described second travelling gear rotate reciprocal one side.

Above-mentioned self-powered electricity generating machine, also includes the 3rd travelling gear, described driving gear and described first transmission Gear is connected by described 3rd travelling gear.

Above-mentioned self-powered electricity generating machine, the gear shaft of described second travelling gear connects described transmission band, described in drive Dynamic portion also includes: the 4th travelling gear, the tooth of described 4th travelling gear and the tooth of described second travelling gear Occlusion, the side of described 4th travelling gear is provided with at least one the 5th Magnet, and all described 5th Magnet Same magnetic pole away from the direction of the gear shaft of described 4th travelling gear, set around the 4th travelling gear Being equipped with the 6th Magnet of a triangle, described 6th Magnet and all 5th Magnet are in same plane, and The magnetic pole of the one side that described 6th Magnet is relative with described 5th Magnet is identical, the front portion of described 5th Magnet Width tapers into along the direction of rotation of described 4th travelling gear, and the front portion of described 5th Magnet is described 4th travelling gear along the front portion of direction of rotation, the 5th described Magnet disposed behind one cylindrical Described 16th Magnet, and the polar orientation phase of the polar orientation of described 16th Magnet and described 5th Magnet With, described 5th Magnet after for be positioned at described 5th Magnet, along described 4th travelling gear rotation Reciprocal one side；5th travelling gear, is coaxially disposed with described 4th travelling gear with becoming " H " type, The side of described 5th travelling gear is provided with at least one the 7th Magnet, and all described 7th Magnet is same Magnetic pole, away from the direction of the gear shaft of described 5th travelling gear, is provided with one around the 5th travelling gear 8th Magnet of individual triangle, described 8th Magnet and all 7th ferrum are in same plane, and the described 8th The magnetic pole of the one side that Magnet is relative with described 7th Magnet is identical, the anterior width of described 7th Magnet along The direction of rotation of described 5th travelling gear tapers into, and the front portion of described 7th Magnet is described 5th transmission Gear along the front portion of direction of rotation, the cylindrical the described tenth disposed behind of the 7th described Magnet Six Magnet, and the polar orientation of described 16th Magnet is identical with the polar orientation of described 7th Magnet, described For opposite direction that be positioned at described 7th Magnet, that rotate along described 5th travelling gear after 7th Magnet One side；Wherein, described all 5th Magnet is interlaced with the orthographic projection of described all 7th Magnet.

Above-mentioned self-powered electricity generating machine, also includes: the 6th travelling gear, the tooth of described 6th travelling gear and institute Stating the tooth occlusion of the 4th travelling gear, the side of described 6th travelling gear is provided with at least one the 9th Magnet, And the same magnetic pole of all described 9th Magnet is away from the direction of the gear shaft of described 6th travelling gear, The tenth Magnet of a triangle, described tenth Magnet and all 9th magnetic it are provided with around the 6th travelling gear Ferrum is in same plane, and the magnetic pole of the described tenth Magnet one side relative with described 9th Magnet is identical, institute State the anterior width of the 9th Magnet to taper into along the direction of rotation of described 6th travelling gear, described the The front portion of nine Magnet is described 6th travelling gear front portion along direction of rotation, after the 9th described Magnet Face arranges cylindrical described 16th Magnet, and the polar orientation of described 16th Magnet and described the The polar orientation of nine Magnet is identical, after described 9th Magnet for be positioned at described 9th Magnet, along institute State the reciprocal one side that the 6th travelling gear rotates；7th travelling gear, becomes with described 6th travelling gear Being coaxially disposed, the side of described 7th travelling gear is provided with at least one the 11st Magnet " H " type, and The same magnetic pole of all described 11st Magnet away from the direction of the gear shaft of described 7th travelling gear, 7th travelling gear is provided with the 12nd Magnet of a triangle, described 12nd Magnet and all the 11 Magnet are in same plane, and the magnetic of the described 12nd Magnet one side relative with described 11st Magnet The most identical, the anterior width of described 11st Magnet along described 7th travelling gear direction of rotation gradually Diminishing, the front portion of described 11st Magnet is described 7th travelling gear front portion along direction of rotation, described Cylindrical described 16th Magnet disposed behind of the 11st Magnet, and described 16th Magnet Polar orientation is identical with the polar orientation of described 11st Magnet, for being positioned at after described 11st Magnet Reciprocal one side that state the 11st Magnet, that rotate along described 7th travelling gear；Wherein, described institute There is the 9th Magnet interlaced with the orthographic projection of described all 11st Magnet.

Above-mentioned self-powered electricity generating machine, described 4th travelling gear is a diameter of with described 5th travelling gear 30cm, described 6th travelling gear is directly 50cm with described 7th travelling gear.

Above-mentioned self-powered electricity generating machine, also includes: the 8th travelling gear, described 4th travelling gear and described the Six travelling gears are connected by described 8th travelling gear.

Above-mentioned self-powered electricity generating machine, also includes: the 9th travelling gear, described 11st power transmission shaft and described Motor shaft is connected by described 9th travelling gear, and the side of described 11st travelling gear is provided with at least one 13rd Magnet, and the same magnetic pole of all described 13rd Magnet is away from described 9th travelling gear The direction of gear shaft, is provided with the 14th Magnet of a triangle around the 11st travelling gear, and described the 14 Magnet and all 13rd Magnet are in same plane, and described 14th Magnet and described 13rd magnetic The magnetic pole of the one side that ferrum is relative is identical, and the anterior width of described 13rd Magnet is along described 11st transmission The direction of rotation of gear tapers into, the front portion of described 13rd Magnet be described 11st travelling gear along The front portion of direction of rotation, cylindrical described 16th magnetic disposed behind of the 13rd described Magnet Ferrum, and the polar orientation of described 16th Magnet is identical with the polar orientation of described 13rd Magnet, described After 13 Magnet for be positioned at described 13rd Magnet, along described 11st travelling gear rotate anti- The one side in direction.

Above-mentioned self-powered electricity generating machine, also includes: the tenth travelling gear, described 9th travelling gear and described Motor shaft is connected by described tenth travelling gear.

Above-mentioned self-powered electricity generating machine, also includes that triangular framing, described transmission band are set in described triangle frame On frame, described first travelling gear, described second travelling gear and described 11st travelling gear, set respectively Being placed on three angles of described triangular framing, described transmission band is provided with at least one the 15th Magnet, and The magnetic pole phase of the one side that described 15th Magnet is relative with the Magnet on the travelling gear connected on the belt Different.

Above-mentioned self-powered electricity generating machine, described driving gear is provided with crank, and described crank is same with described driving gear Axle is arranged, and described driving gear can separate with described first travelling gear.

Self-powered electricity generating machine provided by the utility model, by driving gear driven transmission band, then by transmission band band Be dynamically connected each gear on the belt.Owing to being equipped with Magnet on each gear, and in each gear week Enclose and also be provided with Magnet equally.Utilize the principle that the same sex is repelled each other so that the Magnet around gear promotes pinion rotation. After pinion rotation, containing kinetic energy, then this kinetic energy is back on transmission band.Finally by transmission band by this kinetic energy It is sent on generator shaft so that it is rotary electrification.Therefore, in the ideal case, it is only necessary in generating be initially Rotational driving gear, can remove driving gear afterwards, and utilize magnetic force that whole system just can be kept to operate, Thus persistently generate electricity.

Accompanying drawing explanation

Fig. 1 is the schematic diagram according to the electromotor in this utility model one embodiment；

Fig. 2 is the schematic diagram according to the electromotor in this utility model one embodiment；

Fig. 3 A is the schematic diagram according to the electromotor in this utility model one embodiment；

Fig. 3 B is the schematic side view according to the electromotor in this utility model one embodiment；

Fig. 4 A is the schematic diagram according to the electromotor in this utility model one embodiment；

Fig. 4 B is the schematic side view according to the electromotor in this utility model one embodiment；

Fig. 5 is the schematic diagram according to the electromotor in this utility model one embodiment；

Fig. 6 is the partial enlarged drawing according to the electromotor in this utility model one embodiment. Wherein, reference:

1: drive gear

2: the first travelling gears

3: transmission band

4: the second travelling gears

5: the ten one travelling gears

6: the first Magnet

61: head

62: the ten six Magnet

7: the second Magnet

8: the three Magnet

9: the four Magnet

10: the three travelling gears

11: the four travelling gears

12: the five Magnet

13: the six Magnet

14: the five travelling gears

15: the six travelling gears

16: the nine Magnet

17: the ten Magnet

18: the seven travelling gears

19: the nine travelling gears

20: the ten three Magnet

21: the ten four Magnet

Detailed description of the invention

Fig. 1 is the schematic diagram according to the regulation bed in this utility model one embodiment.Refer to Fig. 1, electromotor Including: engine block and drive division.Drive division connects and drives engine block to generate electricity.Drive division Including: drive gear the 1, first travelling gear 2, transmission band the 3, second travelling gear the 4 and the 11st driving cog Wheel 5.The tooth of the first travelling gear 2 with drive gear 1 tooth be engaged, the side of the first travelling gear 2 be provided with to Few first Magnet 6, and the same magnetic pole of all first Magnet 6 is away from the tooth of the first travelling gear 2 The direction of wheel shaft.Surrounding and all first Magnet 6 same planes of the first travelling gear 2 are provided with one three Second Magnet 7 of dihedral, and the magnetic pole of the second Magnet 7 one side relative with the first Magnet 6 is identical.Transmission band 3 Connect the gear shaft of the first travelling gear 2, and the gear shaft of the first travelling gear 2 drives transmission band 3 to move. Second travelling gear 4 connects transmission band 3, and transmission band 3 drives the second travelling gear 4 to rotate, the second driving cog The side of wheel is provided with at least one the 3rd Magnet 8, and the same magnetic pole of all 3rd Magnet 8 is away from second The direction of the gear shaft of travelling gear 4.The surrounding of the second travelling gear 4 and all 3rd Magnet 8 are same flat Face is provided with the 4th Magnet 9 of a triangle, and the magnetic of the 4th Magnet 9 one side relative with the 3rd Magnet 8 The most identical.11st travelling gear 5 connects transmission band 3, and transmission band 3 drives the 11st travelling gear 5 to rotate, 11st travelling gear 5 drives the generator shaft of engine block to rotate.

When using this electrical power generators, first rotational driving gear 1, drive gear driven the first driving cog Wheel 2 rotation, travelling gear 2 drives transmission band 3 to move, and transmission band 3 drives the second travelling gear 4 and the simultaneously 11 travelling gears 5 rotate.Therefore the 11st travelling gear 5 drives generator shaft to rotate thus generates electricity. Simultaneously, the first power transmission shaft 2 is provided with multiple first Magnet 6, and the identical magnetic pole of multiple Magnet 6 towards Identical.The N pole of the most all Magnet 6 is outwardly (i.e. away from the direction of gear shaft of the first travelling gear).And The surrounding of the first travelling gear 2 and all first Magnet 6 same planes are provided with the second magnetic of a triangle Ferrum 7.And second the relative direction magnetic pole of Magnet 7 and the first Magnet 6 identical.Such as N pole (i.e. court inwardly Direction to the gear shaft of the first travelling gear).Now repel each other for the same sex, therefore Magnet 6 and Magnet 7 it Between produce the power repelled each other.Owing to now the first travelling gear has been rotated by, the most this power repelled each other exists Under the effect of the rotator inertia of the first travelling gear, it is possible to continual promotion the first travelling gear revolves Turn.In like manner, the 3rd Magnet 8 on the second travelling gear 4 and being arranged between the 4th Magnet 9 about also Producing the power repelled each other, this power repelled each other is under the effect of the rotator inertia of the second travelling gear 4, it is possible to hold Continuous constantly promotion the second travelling gear 4 rotates.In order to preferably the magnetic energy of Magnet is converted into kinetic energy, Second Magnet 7 of triangle offsets certain angle towards the direction that the first travelling gear rotates.In like manner triangle 4th Magnet of shape offsets certain angle towards the direction that the second travelling gear rotates.Finally, first rotate Gear and the second travelling gear, by this power converted by magnetic force, pass to the tenth by transmission band 3 One power transmission shaft 5.So, as long as magnetic force exists and sufficiently large, it becomes possible to rotate at each travelling gear Afterwards, in the case of being withdrawn by driving gear, also engine shaft can be persistently driven to generate electricity.

Fig. 2 is the schematic diagram according to the electromotor in this utility model one embodiment.Fig. 3 A is according to this practicality The schematic diagram of the electromotor in a novel embodiment.Fig. 3 B is according to sending out in this utility model one embodiment The schematic side view of motor.Fig. 4 A is the schematic diagram according to the electromotor in this utility model one embodiment. Fig. 4 B is the schematic side view according to the electromotor in this utility model one embodiment.Fig. 5 is according to this practicality The schematic diagram of the electromotor in a novel embodiment.Refer to Fig. 2-Fig. 5, at this utility model, other are implemented In example, in order to reach optimal gear ratio, those skilled in the art can add more different half as required The travelling gear in footpath, or increase more Magnet to increase magnetic force.Such as, select as one, at this Apply in an embodiment, driving, between gear 1 and the first travelling gear 2, the 3rd travelling gear 10 is set.

Selecting as one, in the application one embodiment, the gear shaft of the second travelling gear 4 connects transmission Band, drive division also includes: the 4th travelling gear 11 and the 5th travelling gear 14.The tooth of the 4th travelling gear 11 Being engaged with the tooth of the second travelling gear 4, the side of the 4th travelling gear 11 is provided with at least one the 5th Magnet 12, And the same magnetic pole of all 5th Magnet 12 is away from the direction of the gear shaft of the 4th travelling gear 11, the 4th The surrounding of travelling gear 11 and all 5th Magnet 12 same planes are provided with the 6th Magnet of a triangle 13, and the magnetic pole of the 6th Magnet 13 one side relative with the 5th Magnet 12 is identical.5th travelling gear 14 and Four travelling gears 11 are coaxially disposed with becoming " H " type.The side of the 5th travelling gear 14 be provided with at least one Seven Magnet (do not illustrate in figure), and the same magnetic pole of all 7th Magnet is away from the 5th travelling gear The direction of gear shaft, surrounding and all 7th Magnet same planes of the 5th travelling gear are provided with one three 8th Magnet (not illustrating in figure) of dihedral, and the 8th Magnet and the magnetic pole phase of the relative one side of the 7th Magnet With, and described all 5th Magnet is interlaced with the orthographic projection of described all 7th Magnet.

The wherein operation principle of the 4th travelling gear 11 and the 5th travelling gear 14 and the work of the second travelling gear Make principle identical, be all to utilize Magnet to produce the power repelled each other, under the effect of rotator inertia, persistently promote the 4th, 5th travelling gear rotates, then is back to send out by the second travelling gear 4 and transmission band 3 by this rotational kinetic energy Motivation axle, generates electricity.Here repeat no more.

Select as one, in the application one embodiment, also include: the 6th travelling gear 15 and the 7th passes Moving gear 18.And the 6th travelling gear 15 tooth and the 4th travelling gear 11 tooth occlusion.Wherein the 6th, The operation principle of seven rotation gears is identical with the four, the 5th.I.e. promote the 9th magnetic by the tenth Magnet 17 Ferrum the 16, the 12nd Magnet (not illustrating in figure) promotes the 11st Magnet (not illustrating in figure), and then drives 6th, the 7th travelling gear rotates and produces rotational kinetic energy.Wherein, described all 9th Magnet and described institute The orthographic projection having the 11st Magnet is interlaced.Therefore, do not repeating.In the present embodiment, the 4th transmission Gear 11 and a diameter of 30cm of the 5th travelling gear 14, the 6th travelling gear 15 and the 7th travelling gear 18 Be directly 50cm.

Select as one, in the application one embodiment, also include the 8th travelling gear (not illustrating in figure), 4th travelling gear 11 is connected by the 8th travelling gear with the 6th travelling gear 15.

Select as one, in the application one embodiment, also include: the 9th travelling gear 19, the 11st Power transmission shaft 5 is connected by the 9th travelling gear 19 with generator shaft.The operation principle of the 9th travelling gear and the The operation principle of the 11st travelling gear 5 is identical.I.e. by the 14th Magnet 21, the 13rd Magnet 20 is produced Dynamic 9th travelling gear 19 of trying hard to recommend repelled each other rotate, thus drive engine shaft rotary electrification.Real at other Execute in example, between the 9th travelling gear 19 and engine shaft, also can increase at least one travelling gear, to change Variable ratio, or increase magnetic force.

Selecting as one, in the application one embodiment, drive division also includes triangular framing.Transmission band 3 are set on triangular framing.First travelling gear the 2, second travelling gear the 4 and the 11st travelling gear 5 It is respectively arranged on three angles of triangular framing.Transmission band is provided with at least one the 15th Magnet (in figure Do not illustrate), and the 15th Magnet one side relative with the Magnet connected on travelling gear on the belt Magnetic pole is different.The wherein operation principle phase of the operation principle of the 15th Magnet and the Magnet on other travelling gears With.Outwardly, S pole is inwardly in the N pole of the first Magnet 6 on the first travelling gear the most in the above-described embodiment. The 15th Magnet being so positioned on transmission band be also N pole outwardly, S pole is inwardly.15th Magnet and One Magnet is jointly subjected to the power that the second Magnet repels each other and moves.

Drive gear to rotate for convenience, and remove driving gear after rotating.Select as one, In the application one embodiment, driving gear to be provided with crank, crank is coaxially disposed with driving gear.By shaking With rotational driving gear, and gear being driven can to separate with the first travelling gear.In the present embodiment, adopt Make to drive gear can move towards the direction vertical with the plane driving gear place by the mode of pressing, And then driving gear and the first travelling gear are separated.But be not limited thereto, those skilled in the art can To set separation method according to actual needs.

It addition, in this utility model, the first Magnet to the 15th Magnet can be identical type, shape Magnet can also be the Magnet of variety classes, shape.Meanwhile, in order to preferably the magnetic energy of Magnet is converted into Kinetic energy, the 4th Magnet of triangle, the 6th Magnet, the 8th Magnet, the tenth Magnet, the 12nd magnetic and the tenth Four Magnet all can be optionally certain towards the direction skew that their each corresponding travelling gear rotates Angle.

Fig. 6 is the partial enlarged drawing according to the electromotor in this utility model one embodiment.Refer to Fig. 6, the The width of the head 61 of one Magnet 6 tapers into along the direction of rotation of the first travelling gear 2.So-called head 61 Front portion for the direction of rotation (direction shown in arrow in figure) along the first travelling gear 2.And ability Field technique personnel are optionally at a 16th cylindrical Magnet disposed behind of all first Magnet 6 62.And the 16th the polar orientation of Magnet 62 identical with the polar orientation of the first Magnet 6.As a example by Fig. 6, the It is N pole that the magnetic direction of 16 Magnet and the first Magnet is outside, and inner side is S pole.In this application, All 3rd Magnet, the 5th Magnet, the 7th Magnet, the 9th Magnet, the 11st Magnet, the 13rd Magnet Structure is identical with the first Magnet.The most all 3rd Magnet, the 5th Magnet, the 7th Magnet, the 9th Magnet, 11 Magnet, the 13rd Magnet head width along they each place travelling gear rotate direction Taper into.Simultaneously those skilled in the art optionally all 3rd Magnet, the 5th Magnet, the 7th Magnet, the 9th Magnet, the 11st Magnet, a 16th cylindrical magnetic disposed behind of the 13rd Magnet Ferrum 62.And the polar orientation phase of Magnet that the polar orientation of cylindrical 16th Magnet is each trailed with them With.

Electromotor provided by the utility model, by driving gear driven transmission band, then is driven even by transmission band Connect each gear on the belt.Owing to being equipped with Magnet on each gear and same around each gear Sample also is provided with Magnet.Utilize the principle that the same sex is repelled each other so that the Magnet around gear promotes pinion rotation.Tooth After wheel rotates, containing kinetic energy, then this kinetic energy is back on transmission band.Finally by transmission band, this kinetic energy is passed Deliver on generator shaft so that it is rotary electrification.Therefore, in the ideal case, it is only necessary to generating initially be turn The dynamic gear that drives, can remove driving gear afterwards, and utilize magnetic force that whole system just can be kept to operate, from And persistently generate electricity.

Claims (10)

1. a self-powered electricity generating machine, it is characterised in that including:

Engine block；And

Drive division, described drive division connects and drives engine block；

Described drive division includes:

Drive gear；

First travelling gear, the tooth of described first travelling gear is engaged with the tooth of described driving gear, and described The side of one travelling gear is provided with at least one first Magnet, and the same magnetic pole strength of all described first Magnet To the direction of the gear shaft away from described first travelling gear, described first travelling gear is provided with one Second Magnet of triangle, described second Magnet and all described first Magnet are in same plane, and described the The magnetic pole of the one side that two Magnet are relative with described first Magnet is identical；

Transmission band, described transmission band connects the described gear shaft of described first travelling gear, and described first passes The described gear shaft of moving gear drives described conveyor belt motion；

Second travelling gear, described second travelling gear connects described transmission band, and described transmission band drives institute Stating the second travelling gear to rotate, the side of described second travelling gear is provided with at least one the 3rd Magnet, and institute There are the same magnetic pole direction away from the gear shaft of described second travelling gear of described 3rd Magnet, cincture Described second travelling gear is provided with the 4th Magnet of a triangle, described 4th Magnet and all described the Three Magnet are in same plane, and the magnetic pole phase of the described 4th Magnet one side relative with described 3rd Magnet With；

11st travelling gear, connects described transmission band, and described transmission band drives described 11st driving cog Wheel rotates, and described 11st travelling gear drives the generator shaft of described engine block to rotate；

Wherein, the anterior width of described first Magnet along described first travelling gear direction of rotation gradually Diminishing, the front portion of described first Magnet is described first travelling gear front portion along direction of rotation；Described The anterior width of three Magnet tapers into along the direction of rotation of described second travelling gear, described 3rd magnetic The front portion of ferrum is described second travelling gear front portion along direction of rotation；

A the 16th cylindrical Magnet disposed behind of the first described Magnet, and described 16th Magnet Polar orientation identical with the polar orientation of described first Magnet, described for being positioned at after described first Magnet First Magnet, along described first travelling gear rotate reciprocal one side；The 3rd described Magnet Cylindrical described 16th Magnet disposed behind, and the polar orientation of described 16th Magnet is with described The polar orientation of the 3rd Magnet is identical, after described 3rd Magnet for be positioned at described 3rd Magnet, along The reciprocal one side that described second travelling gear rotates.

2. self-powered electricity generating machine as claimed in claim 1, it is characterised in that also include:

3rd travelling gear, described driving gear and described first travelling gear are by described 3rd travelling gear Connect.

3. self-powered electricity generating machine as claimed in claim 1, it is characterised in that the tooth of described second travelling gear Wheel shaft connects described transmission band, and described drive division also includes:

4th travelling gear, the tooth of described 4th travelling gear is engaged with the tooth of described second travelling gear, institute The side stating the 4th travelling gear is provided with at least one the 5th Magnet, and the same magnetic of all described 5th Magnet Pole, away from the direction of the gear shaft of described 4th travelling gear, is provided with one around the 4th travelling gear 6th Magnet of triangle, described 6th Magnet and all 5th Magnet are in same plane, and the described 6th The magnetic pole of the one side that Magnet is relative with described 5th Magnet is identical, the anterior width of described 5th Magnet along The direction of rotation of described 4th travelling gear tapers into, and the front portion of described 5th Magnet is described 4th transmission Gear along the front portion of direction of rotation, the cylindrical the described tenth disposed behind of the 5th described Magnet Six Magnet, and the polar orientation of described 16th Magnet is identical with the polar orientation of described 5th Magnet, described For opposite direction that be positioned at described 5th Magnet, that rotate along described 4th travelling gear after 5th Magnet One side；

5th travelling gear, is coaxially disposed with described 4th travelling gear with becoming " H " type, and the described 5th passes The side of moving gear is provided with at least one the 7th Magnet, and the same magnetic pole of all described 7th Magnet is towards far From the direction of the gear shaft of described 5th travelling gear, the 5th travelling gear is provided with a triangle 8th Magnet, described 8th Magnet and all 7th ferrum are in same plane, and described 8th Magnet is with described The magnetic pole of the one side that the 7th Magnet is relative is identical, and the anterior width of described 7th Magnet passes along the described 5th The direction of rotation of moving gear tapers into, and the front portion of described 7th Magnet is that described 5th travelling gear is along rotation Turn the front portion in direction, cylindrical described 16th Magnet disposed behind of the 7th described Magnet, and The polar orientation of described 16th Magnet is identical with the polar orientation of described 7th Magnet, described 7th Magnet Below for reciprocal one side that be positioned at described 7th Magnet, that rotate along described 5th travelling gear；

Wherein, described all 5th Magnet is interlaced with the orthographic projection of described all 7th Magnet.

4. self-powered electricity generating machine as claimed in claim 3, it is characterised in that also include:

6th travelling gear, the tooth of described 6th travelling gear is engaged with the tooth of described 4th travelling gear, institute The side stating the 6th travelling gear is provided with at least one the 9th Magnet, and the same magnetic of all described 9th Magnet Pole, away from the direction of the gear shaft of described 6th travelling gear, is provided with one around the 6th travelling gear Tenth Magnet of triangle, described tenth Magnet and all 9th Magnet are in same plane, and the described tenth The magnetic pole of the one side that Magnet is relative with described 9th Magnet is identical, the anterior width of described 9th Magnet along The direction of rotation of described 6th travelling gear tapers into, and the front portion of described 9th Magnet is described 6th transmission Gear along the front portion of direction of rotation, the cylindrical the described tenth disposed behind of the 9th described Magnet Six Magnet, and the polar orientation of described 16th Magnet is identical with the polar orientation of described 9th Magnet, described For opposite direction that be positioned at described 9th Magnet, that rotate along described 6th travelling gear after 9th Magnet One side；

7th travelling gear, is coaxially disposed with described 6th travelling gear with becoming " H " type, and the described 7th passes The side of moving gear is provided with at least one the 11st Magnet, and the same magnetic pole strength of all described 11st Magnet To the direction of the gear shaft away from described 7th travelling gear, the 7th travelling gear is provided with a triangle 12nd Magnet of shape, described 12nd Magnet and all 11st Magnet are in same plane, and described the The magnetic pole of the one side that 12 Magnet are relative with described 11st Magnet is identical, the front portion of described 11st Magnet Width tapers into along the direction of rotation of described 7th travelling gear, and the front portion of described 11st Magnet is institute State the 7th travelling gear front portion along direction of rotation, a cylinder disposed behind of the 11st described Magnet Described 16th Magnet of shape, and the polarity of the polar orientation of described 16th Magnet and described 11st Magnet Direction is identical, after described 11st Magnet for be positioned at described 11st Magnet, along described 7th biography The reciprocal one side that moving gear rotates；

Wherein, described all 9th Magnet is interlaced with the orthographic projection of described all 11st Magnet.

5. self-powered electricity generating machine as claimed in claim 4, it is characterised in that described 4th travelling gear and institute Stating a diameter of 30cm of the 5th travelling gear, described 6th travelling gear is straight with described 7th travelling gear Connect as 50cm.

6. self-powered electricity generating machine as claimed in claim 4, it is characterised in that also include:

8th travelling gear, described 4th travelling gear and described 6th travelling gear are by described 8th transmission Gear connects.

7. self-powered electricity generating machine as claimed in claim 1, it is characterised in that also include:

9th travelling gear, described 11st power transmission shaft and described generator shaft are by described 9th travelling gear Connecting, the side of described 11st travelling gear is provided with at least one the 13rd Magnet, and all described tenth The same magnetic pole of three Magnet, away from the direction of the gear shaft of described 9th travelling gear, passes around the 11st Moving gear is provided with at the 14th Magnet of a triangle, described 14th Magnet and all 13rd Magnet In same plane, and the magnetic pole of the described 14th Magnet one side relative with described 13rd Magnet is identical, institute State the anterior width of the 13rd Magnet to taper into along the direction of rotation of described 11st travelling gear, institute The front portion stating the 13rd Magnet is described 11st travelling gear front portion along direction of rotation, described the tenth Cylindrical described 16th Magnet disposed behind of three Magnet, and the polarity side of described 16th Magnet To identical with the polar orientation of described 13rd Magnet, for being positioned at the described tenth after described 13rd Magnet Three Magnet, along described 11st travelling gear rotate reciprocal one side.

8. self-powered electricity generating machine as claimed in claim 7, it is characterised in that also include:

Tenth travelling gear, described 9th travelling gear and described generator shaft are by described tenth travelling gear Connect.

9. self-powered electricity generating machine as claimed in claim 7, it is characterised in that also include triangular framing, institute State transmission band to be set on described triangular framing, described first travelling gear, described second travelling gear and Described 11st travelling gear, is respectively arranged on three angles of described triangular framing, on described transmission band Be provided with at least one the 15th Magnet, and described 15th Magnet with on the travelling gear being connected on the belt The magnetic pole of the relative one side of Magnet different.

10. self-powered electricity generating machine as claimed in claim 1, it is characterised in that described driving gear is provided with and shakes , described crank is coaxially disposed with described driving gear, and described driving gear can be with described first driving cog Wheel separates.