CN107294348A - Magnetically-actuated method, magnetic driving equipment and the generator using the device - Google Patents

Abstract

The present invention discloses a kind of magnetically-actuated method, magnetic driving equipment and the generator using the device, and magnetic driving equipment includes fixed cell and rotating unit.Fixed cell includes fixed disc and multiple first magnet, wherein the first magnet is positioned apart from fixed disc along the center of fixed disc.Rotating unit includes rotating shaft, rotation seat and multiple second magnet, wherein the center of rotation seat is fixed in rotating shaft, it is provided with multiple fins the ambient separation of rotation seat, and fin tilts a specific angle relative to fixed disc, and the second magnet is respectively arranged on fin, wherein first, second magnet has first, second magnetic pole strength relative to each other respectively, and first, second magnetic pole strength there is identical polarity, whereby, the repulsive force between first, second magnet drive rotation seat with and the axis of rotation that is connected of rotation seat.It is a kind of to be also provided using the generator and magnetically-actuated method of foregoing magnetic driving equipment.

Description

Magnetically-actuated method, magnetic driving equipment and the generator using the device

Technical field

The present invention relates to a kind of Drive Technology；More particularly to a kind of magnetically-actuated method, magnetic driving equipment and make With the generator of the device.

Background technology

In recent years, increasingly deficient due to global resources, it is serious to add global warming problem, thus how effectively to develop and The limited resource of throttling, is the emphasis as international concern now.

Free of contamination magnetic force can be used to carry out drive mechanism for magnetic driving equipment, and then reach energy-conservation and subtract the purpose of carbon, therefore One of development priority for industry now.

In general, the driving principle of existing magnetic driving equipment, be it is identical to produce repulsive force with the magnetic pole of two magnet, Or magnetic pole is opposite to produce phase suction.However, existing magnetic driving equipment still needs to rely on the external energy (such as using power supply mostly Magnet coil is allowed to produce magnetic force) complete its function, and cause the generating efficiency of the generator using existing magnetic driving equipment It is still to be improved.

The content of the invention

In view of foregoing existing issue point, it is an object of the invention to provide a kind of magnetic driving equipment, external energy is not required to Source can complete its function, and then may be such that and also improved using the generating efficiency of the generator of the magnetic driving equipment.

One embodiment of the invention provides a kind of magnetic driving equipment, including a fixed cell and a rotating unit.It is foregoing Fixed cell includes a fixed disc and multiple first magnet, wherein center compartment of terrain of foregoing first magnet along fixed disc It is arranged on fixed disc.Such rotation unit includes a rotating shaft, a rotation seat and multiple second magnet, and wherein aforementioned rotation axis is consolidated Due to the center of rotation seat, it is provided with multiple fins the ambient separation of rotation seat, and foregoing fin is tilted relative to fixed disc One specific angle, and foregoing second magnet is respectively arranged on fin, wherein foregoing first, second magnet has each other respectively First, second relative magnetic pole strength, and first, second magnetic pole strength has identical polarity, whereby, between first, second magnet Repulsive force drive rotation seat with and the axis of rotation that is connected of rotation seat.

In an embodiment, foregoing fin is 45 degree relative to the inclined angle of fixed disc.

In an embodiment, center of foregoing first magnet along fixed disc according to a first angle be positioned apart from On fixed disc, and first angle is determined by the quantity of the first magnet.

In an embodiment, foregoing fin and the second magnet alternately form the week in rotation seat according to a second angle Enclose, and second angle is determined by the quantity of fin and the second magnet.

In an embodiment, foregoing first magnet, the second magnet are identical with the quantity of fin, and aforesaid first angle is equal In second angle.

In an embodiment, foregoing first magnet, the second magnet and fin are not sent out with the rotation of foregoing rotation seat and rotating shaft The mode of raw pause point is configured.

In an embodiment, foregoing fixed disc includes separated a Part I and a Part II, and foregoing first Magnet is arranged on Part I, the wherein spacing between Part I and Part II to be adjustable, whereby to control first, The size of repulsive force between second magnet.

In an embodiment, an adjustment element is provided between the Part I and Part II of foregoing fixed disc, to adjust Spacing between whole Part I and Part II.

In an embodiment, foregoing adjustment element is a hand-screw screw (hand turn screw).

In an embodiment, multiple foregoing fixed cells that foregoing magnetic driving equipment also includes mutually concatenating are single with rotating Member.

Another embodiment of the present invention also provides a kind of generator, including foregoing magnetic driving equipment and connection magnetic force drive One TRT of the rotating shaft of dynamic device.

One embodiment of the invention also provides a kind of magnetically-actuated method, including：One magnetic driving equipment, including phase are provided The multiple fixed cells and rotating unit mutually concatenated, foregoing fixed cell is set in a pair wise manner with rotating unit, wherein often One fixed cell includes a fixed disc and multiple first magnet, and center compartment of terrain of foregoing first magnet along fixed disc is set It is placed on fixed disc, and such rotation unit has a common rotating shaft, and each rotating unit includes a rotation seat and many Individual second magnet, aforementioned rotation axis is fixed on the center of rotation seat, is provided with multiple fins, and foregoing fin the ambient separation of rotation seat Piece tilts a specific angle relative to foregoing fixed disc, and foregoing second magnet is respectively arranged on fin, wherein each right Fixed cell and rotating unit in first, second magnet there is first, second magnetic pole strength relative to each other respectively, it is and foregoing First, second magnetic pole strength has identical polarity, whereby, and the repulsive force between foregoing first, second magnet drives such rotation seat The axis of rotation being connected with rotation seat；So that the fixed cell bag being located between two rotating units in foregoing fixed cell A separated Part I and a Part II is included, and the first magnet of foregoing fixed cell is arranged on Part I, wherein Spacing between Part I and Part II is adjustable, whereby to control the repulsive force between foregoing first, second magnet Size, or make such rotation seat with and the rotating shaft that is connected of rotation seat stop operating.

In an embodiment, foregoing magnetically-actuated method, in addition to：So that adjacent foregoing different pairs of fixed cell with The set-up mode of first, second magnet in rotating unit is opposite；Adjust in foregoing fixed cell and be located at two rotation lists Spacing between the Part I and Part II of a fixed cell between member, so that the first magnet and phase of foregoing fixed cell Produce attraction between second magnet of adjacent different pairs of rotating unit, so make such rotation seat with and rotation seat be connected Rotating shaft stops operating.

The beneficial effects of the present invention are magnetic driving equipment proposed by the present invention, which is not required to the external energy, can complete its work( Can, therefore can also be improved using the generating efficiency of the generator of the magnetic driving equipment.

To enable above-mentioned purpose, feature and the advantage of the present invention to become apparent, preferred embodiment cited below particularly simultaneously coordinates Appended accompanying drawing elaborates.

Brief description of the drawings

Fig. 1 shows the schematic diagram of magnetic driving equipment according to an embodiment of the invention.

Fig. 2 shows the upper schematic diagram of the fixed cell in Fig. 1.

Fig. 3 A, Fig. 3 B show that the rotation seat of the rotating unit in Fig. 1 is regarded with the upper of the second magnet thereon and illustrated with side view Figure.

The driving mechanism schematic diagram of the magnetic driving equipment of Fig. 4 display present invention.

Fig. 5 shows the schematic diagram of magnetic driving equipment according to another embodiment of the present invention.

Fig. 6 shows the sectional view of the magnetic driving equipment in Fig. 5.

Fig. 7 shows the partial schematic diagram of magnetic driving equipment according to another embodiment of the present invention.

Fig. 8 shows the magnetically-actuated mechanism of the magnetic driving equipment in Fig. 7 and the schematic diagram of shutdown mechanism.

Fig. 9 shows power system schematic diagram according to another embodiment of the present invention.

Wherein, description of reference numerals is as follows：

1 magnetic driving equipment

2 magnetic driving equipments

2 ' magnetic driving equipments

3 magnetic driving equipments

4 TRTs

10 fixed cells

10 ' fixed cells

20 rotating units

20 ' rotating units

100 fixed discs

100A grooves

100B Part I

100C Part II

102 first magnet

The magnetic pole strengths of 102A first

200 rotating shafts

202 rotation seats

202A fins

203 grooves

204 second magnet

The magnetic pole strengths of 204A second

A angles

B bearings

C clamping elements

D spacing

E power systems

F circumferential forces

G generators

I attractions

L repulsive forces

F1 horizontal components

F2 vertical stress components

O1 is open

O2 is open

P locking parts

R electrical storage devices

S pedestals

T adjustment elements

α first angles

β second angles.

Embodiment

Illustrate presently preferred embodiments of the present invention below.This explanation purpose be provide the overall concept of the invention and not To limit to the scope of the present invention.

In the following drawings or specification description, similar or identical part all uses identical symbol.In addition, in accompanying drawing In, the shape or thickness of embodiment can expand, to simplify or conveniently indicate.

Please referring initially to Fig. 1 to Fig. 3 B, wherein Fig. 1 shows the signal of magnetic driving equipment 1 according to an embodiment of the invention Figure, Fig. 2 shows the upper schematic diagram of the fixed cell 10 in Fig. 1, and Fig. 3 A, Fig. 3 B show turning for the rotating unit 20 in Fig. 1 Dynamic seat on the second magnet thereon with regarding and schematic side view.As shown in Fig. 1 to Fig. 3 B, magnetic driving equipment 1 includes one and consolidated Order member 10 and a rotating unit 20.

In the present embodiment, foregoing fixed cell 10 includes a fixed disc 100 and multiple first magnet 102.It is foregoing solid Fixed disk 100 is fixed on a motionless pedestal S, and can form multiple groove 100A on the surface of fixed disc 100, to hold Put foregoing first magnet 102.It is noted that in the present embodiment, groove 100A and the first magnet 102 are along fixed disc 100 center is positioned apart from.In certain embodiments, the first magnet 102 can also be directly fixed on the surface of fixed disc 100 On.

In the present embodiment, such rotation unit 20 includes a rotating shaft 200, a rotation seat 202 and multiple second magnet 204.Aforementioned rotation axis 200 is fixed on the center of the rotation seat 202 of ring-type, and can be rotated around own axes (in Fig. 1 Shown in arrow).More specifically, rotating shaft 200 may pass through the opening O2 positioned at the center of rotation seat 202, and by multiple clamping members Part C (the c-type stationary fixture (C-type fixture) in such as Fig. 1) is fixedly held in the relative of the opening O2 of rotation seat 202 Side, meanwhile, rotating shaft 200 also may pass through the opening O1 positioned at the center of fixed disc 100, and by the bearing B institutes around opening O1 Support.It is provided with multiple fin 202A, each of which fin 202A is relative to foregoing fixation the ambient separation of such rotation seat 202 The one identical and specific angle A (Fig. 3 B) of inclination of fixed disc 100 of unit 10, for example, 45 degree (but the present invention is not with this It is limited), and foregoing second magnet 204 is individually fixed on multiple fin 202A.In addition, one can be formed with each fin 202A Groove 203 (Fig. 3 A, Fig. 3 B), and the second magnet 204 can be fixed in multiple grooves 203 for example, by the mode of attaching.

In the present embodiment, the foregoing magnet 204 of first magnet 102 and second can be permanent magnet, and have respectively each other First, second relative magnetic pole strength 102A and 204A (Fig. 1), wherein first, second magnetic pole strength 102A and 204A has identical Polarity, such as N poles.In certain embodiments, first, second magnetic pole strength 102A and 204A also can be S poles.

In addition, center of foregoing first magnet 102 along fixed disc 100 is set according to first angle α (Fig. 2) compartment of terrain It is placed on fixed disc 100, and first angle α is determined by the quantity of the first magnet 102.For example, in the present embodiment The quantity of first magnet 102 is 7, therefore every one first magnet 102 with an angle can be about along the center of fixed disc 100 360/7 degree of first angle α is positioned apart from fixed disc 100.Similarly, foregoing second magnet 204 is (with fin 202A) alternately formed according to a second angle β (Fig. 3 A) around rotation seat 202, and second angle β is by the second magnet The quantity of 204 (with fin 202A) is determined.For example, the number of the second magnet 204 (with fin 202A) in the present embodiment Amount is also 7, thus every one second magnet 204 (with fin 202A) can also an angle be about 360/7 degree of second angle β intervals Ground is formed at around rotation seat 202.

Then also referring to Fig. 1, Fig. 3 A and Fig. 4, wherein Fig. 4 shows that the driving mechanism of foregoing magnetic driving equipment 1 is shown It is intended to.By said structure design, between one is reached between the first magnet 102 and the second magnet 204 of magnetic driving equipment 1 suitably Away from when, the repulsive force (repel force) between first, second magnet 102 and 204 can produce a turning moment, to drive rotation Seat 202 is rotated (as illustrated by the arrows in fig. 1) with the second magnet 204 thereon.

Specifically, as shown in figure 4, every one second magnet 204 can be by corresponding first magnet 102 and the row between it The horizontal component F1 of repulsion (including a horizontal component F1 and vertical stress component F2) drives to be moved in the horizontal direction, and when every 1 the , also can be by between next corresponding first magnet 102 and its when two magnet 204 are away from original corresponding first magnet 102 The horizontal component F1 of repulsive force continue to drive and move that (aforementioned levels component F1 is equivalent to the circumferential force in Fig. 3 A in the horizontal direction F), so as to reach so that the effect that rotation seat 202 is persistently rotated with the second magnet 204 thereon.Further, since rotation seat 202 Driven, connected rotating shaft 200 can also be driven to rotate (as illustrated by the arrows in fig. 1).Whereby, foregoing magnetically-actuated dress The external energy (such as power supply) can be not required to and realize the purpose of magnetic driving mechanism by putting 1.

It is noted that in foregoing magnetic driving equipment 1, the first magnet 102, the second magnet 204 and fin 202A Quantity it is identical, and first angle α is equal to second angle β, but the present invention is not limited thereto, and only needs the first magnet 102, the Two magnet 204 and fin 202A are configured in the way of pause point does not occur for the rotation of rotation seat 202 and rotating shaft 200.Citing and The quantity of speech, the first magnet 102 and the second magnet 204 (with fin 202A) also may be greater than or less than 7, or the first magnet 102 and second the quantity of magnet 204 (with fin 202A) may also differ.

Then Fig. 5 and Fig. 6 is referred to, wherein Fig. 5 shows showing for magnetic driving equipment 2 according to another embodiment of the present invention It is intended to, and Fig. 6 shows the sectional view of the magnetic driving equipment 2 in Fig. 5.It is to be understood that the magnetic driving equipment 2 of the present embodiment Difference between the magnetic driving equipment 1 (Fig. 1) of previous embodiment is, in addition to the multiple fixed cells 10 mutually concatenated with Rotating unit 20 (such as 4 fixed cells 10 and rotating unit 20, but the present invention is not limited, wherein what is mutually concatenated consolidates Order member 10 and the quantity of rotating unit 20 can be determined optionally).Specifically, in the present embodiment, multiple fixed cells 10 It is locked in together using multiple locking part P, and is fixed on the opposite side of a motionless pedestal S, and multiple rotating units 20 have There is a shared rotating shaft 200, and the position of rotating unit 20 corresponds respectively to fixed cell 10.Whereby, the magnetic force of the present embodiment Drive device 2 includes multigroup magnetically-actuated component (fixed cell 10 and rotating unit 20), so as to produce bigger revolving force Square is to drive the rotation seat 202 of rotating unit 20 to be rotated with rotating shaft 200.

In addition, as shown in Figure 5, Figure 6, the fixed disc 100 of foregoing fixed cell 10 also includes separated Part I 100B and Part II 100C, plurality of first magnet 102 is fixed in multiple groove 100A on Part I 100B, and The available adjustment element being arranged between the rwo of space D between Part I 100B and Part II 100C is (for example, One hand-screw screw (hand turnscrew)) T is adjusted, and then the first magnet 102 of controllable fixed cell 10 is single with rotating The size of repulsive force between second magnet 204 of member 20, or even the magnetically-actuated of control magnetic driving equipment 2 are switched.

For example, when magnetic driving equipment 2 is in the state of as shown in Figure 5, Figure 6, the first magnetic of its fixed cell 10 It is in larger distance between second magnet 204 of iron 102 and rotating unit 20, cause the repulsion between first, second magnet 102 and 204 Power is smaller, and rotation seat 202 and rotating shaft 200 can not be driven to rotate (that is, the magnetically-actuated of magnetic driving equipment 2 is to close (OFF) state)；And rotate (such as Fig. 5 along around fixed disc 100 when foregoing adjustment element T is acted on by an external force In arrow shown in) when, the space D between Part I 100B and Part II 100C can be adjusted (such as become big) so that Gu Distance variable between first magnet 102 of order member 10 and the second magnet 204 of rotating unit 20 is small, and first, second magnet Repulsive force between 102 and 204 thus becomes big, so as to drive rotation seat 202 and rotating shaft 200 to rotate (that is, magnetic driving equipment 2 Magnetically-actuated be start (ON) state).

Then Fig. 7 and Fig. 8 is referred to, wherein Fig. 7 shows magnetic driving equipment 2 ' according to another embodiment of the present invention Partial schematic diagram, and Fig. 8 shows the magnetically-actuated mechanism of the magnetic driving equipment 2 ' in Fig. 7 and the schematic diagram of shutdown mechanism.Should It is appreciated that, between the magnetic driving equipment 2 ' (Fig. 7, Fig. 8) of the present embodiment and the magnetic driving equipment 2 (Fig. 5) of previous embodiment Difference be, the first magnet 102 in two pairs of fixed cells 10,10 ' and the rotating unit 20,20 ' of pedestal S side Set-up mode with the second magnet 204 is opposite (relatively, in Fig. 5 magnetic driving equipment 2, positioned at pedestal S side Two pairs of fixed cells 10 and the first magnet 102 and the set-up mode of the second magnet 204 in rotating unit 20 be then identical ).Specifically, in the present embodiment, the phase of underlying (closer pedestal S's) fixed cell 10 and rotating unit 20 Corresponding first, second magnetic pole strength 102A and 204A is N poles, and (further away from pedestal S's) fixed cell 10 ' above The first, second magnetic pole strength 102A corresponding with rotating unit 20 ' and 204A is then S poles.

Specifically, structure design whereby, the magnetic driving equipment 2 ' of the present embodiment equally can be by multiple solid The repulsive force L between the first magnet 102 and the second magnet 204 in order member 10,10 ' and rotating unit 20,20 ' and reach magnetic force Driving (magnetically-actuated as shown in left part in Fig. 8 is the state for starting (ON)).It is to be understood that in Fig. 8 left side In part, first, second magnet 102 and 204 above corresponds in the fixed cell 10 ' in Fig. 7 and rotating unit 20 ' First, second magnet 102 and 204, and underlying first, second magnet 102 and 204 correspond to it is fixed single in Fig. 7 Member 10 and first, second magnet 102 and 204 in rotating unit 20.

In addition, as foregoing adjustment element T (referring to Fig. 7) by external force effect along above (further away from base Seat S) fixed cell 10 ' fixed disc 100 around rotate, and fixed cell 10 ' above (that is, is located at Fixed cell between two rotating units 20 and 20 ') between the first magnet 102 and the second magnet 204 in rotating unit 20 ' Distance become it is big when (as shown in right part in Fig. 8), the repulsive force between first, second magnet 102 and 204 can be made to diminish, and Rotation seat 202 and rotating shaft 200 can not be driven to be rotated further, and (that is, the magnetically-actuated of magnetic driving equipment 2 ' is to close (OFF) State).It is noted that the first magnet 102 in currently stating fixed cell 10 ' above and rotating unit 20 ' with When distance between second magnet 204 becomes big, first magnet 102 and underlying (closer pedestal S's) rotating unit 20 The second magnet 204 between distance it is then relative diminish, and an attraction (impel force) I, wherein attraction I can be produced The first magnet 102 that can be more than or equal in underlying (closer pedestal S's) fixed cell 10 and rotating unit 20 with Repulsive force L between second magnet 204, so that the rotation seat 202 of underlying rotating unit 20 also stops with rotating shaft 200 Rotate (original horizontal component F1 for promoting rotation seat 202 and the repulsive force L of rotating shaft 200 is offseted by attraction I).Cause This, in the present embodiment (Fig. 7, Fig. 8), it is only necessary to which adjustment is located in foregoing two pairs of fixed cells 10,10 ' and rotating unit 20,20 ' Centring magnet (being in the present embodiment the first magnet 102 of fixed cell 10) position, you can manipulation magnetic driving equipment The startup (ON) of 2 ' magnetically-actuated is with closing (OFF) state.

Then referring to Fig. 9, it shows power system E schematic diagrames according to another embodiment of the present invention.As shown in figure 9, Power system E includes an a generator G and electrical storage device R, and it is (for example, foregoing that wherein generator G includes a magnetic driving equipment 3 The magnetic driving equipment 1,2 or 2 ' of embodiment) and connection magnetic driving equipment 3 rotating shaft (rotating shaft 200 as shown in Figure 1, shown in Figure 5) A TRT 4, can be used to produce an AC energy (AC power), and electrical storage device R is, for example, a cell apparatus, can be used So that AC energy is converted into direct current energy (DC power) and stored, so as to be convenient to use.It is noted that this The magnetic driving equipment of inventive embodiments, which is not required to the external energy (such as power supply), can complete its function, therefore use the magnetically-actuated The generator G of device generating efficiency can also be improved.

In certain embodiments, the electrical storage device R in power system E can be also omitted.Further, since for magnetic force to be driven The TRT 4 and electrical storage device R (cell apparatus) that the mechanical energy that the rotating shaft of dynamic device 3 is provided is converted into electric energy are this area Prior art, therefore seldom explain herein.

Although the present invention is disclosed above with foregoing embodiment, so it is not limited to the present invention.Skill belonging to of the invention Technical staff in art field, without departing from the spirit and scope of the present invention, when a little change and retouching can be done.Therefore originally The protection domain of invention is worked as to be defined depending on the scope that appended claims are defined.

Claims (13)

1. a kind of magnetic driving equipment, including：

One fixed cell, including a fixed disc and multiple first magnet, wherein the multiple first magnet is justified along the fixation The center of disk is positioned apart from the fixed disc；And

One rotating unit, including a rotating shaft, a rotation seat and multiple second magnet, wherein rotating shaft are fixed in the rotation seat The heart, is provided with multiple fins the ambient separation of the rotation seat, and the multiple fin tilts an angle relative to the fixed disc, And the multiple second magnet is respectively arranged on the multiple fin, wherein the multiple first, second magnet has respectively First, second magnetic pole strength relative to each other, and the multiple first, second magnetic pole strength has identical polarity, it is whereby, described many Repulsive force between individual first, second magnet drive the rotation seat with and the axis of rotation that is connected of the rotation seat.

2. magnetic driving equipment as claimed in claim 1, the wherein angle are 45 degree.

3. magnetic driving equipment as claimed in claim 1, wherein center of the multiple first magnet along the fixed disc It is positioned apart from according to a first angle on the fixed disc, and the first angle is determined by the quantity of the multiple first magnet It is fixed.

4. magnetic driving equipment as claimed in claim 3, wherein the multiple fin and the multiple second magnet foundation one Second angle is alternately formed around the rotation seat, and the second angle is by the multiple fin and the multiple second magnetic The quantity of iron is determined.

5. magnetic driving equipment as claimed in claim 4, wherein the multiple first magnet, the multiple second magnet and institute The quantity for stating multiple fins is identical, and the first angle is equal to the second angle.

6. magnetic driving equipment as claimed in claim 5, wherein the multiple first magnet, the multiple second magnet and institute Multiple fins are stated to configure in the way of pause point does not occur for the rotation of the rotation seat and the rotating shaft.

7. magnetic driving equipment as claimed in claim 1, the wherein fixed disc include a separated Part I and one the Two parts, and the multiple first magnet is arranged on the Part I, wherein between the Part I and the Part II between Away to be adjustable, whereby to control the size of the repulsive force between the multiple first, second magnet.

8. set between the Part I and Part II of magnetic driving equipment as claimed in claim 7, the wherein fixed disc An adjustment element is equipped with, to adjust the spacing between the Part I and the Part II.

9. magnetic driving equipment as claimed in claim 8, the wherein adjustment element are a hand-screw screw.

10. magnetic driving equipment as claimed in claim 1, in addition to the multiple fixed cells and rotating unit mutually concatenated.

11. a kind of generator, including：

Magnetic driving equipment as any one of claim 1 to 10；And

One TRT, connects the rotating shaft of the magnetic driving equipment.

12. a kind of magnetically-actuated method, including：

One magnetic driving equipment, including the multiple fixed cells and rotating unit mutually concatenated, the multiple fixed cell are provided Set in a pair wise manner with the multiple rotating unit, the multiple fixed cell of each of which includes a fixed disc and many Individual first magnet, center of the multiple first magnet along the fixed disc is positioned apart from the fixed disc, and institute Multiple rotating units are stated with a common rotating shaft, and each the multiple rotating unit includes a rotation seat and multiple second magnetic The center of the rotation seat is fixed in iron, the rotating shaft, is provided with multiple fins, and the multiple fin the ambient separation of the rotation seat A specific angle is tilted relative to the multiple fixed disc, and the multiple second magnet is respectively arranged at the multiple fin On piece, wherein each pair fixed cell has phase each other respectively with the multiple first, second magnet in the rotating unit To first, second magnetic pole strength, and the multiple first, second magnetic pole strength has identical polarity, whereby, the multiple First, the repulsive force between the second magnet drive the multiple rotation seat with and the axis of rotation that is connected of the multiple rotation seat；With And

So that the fixed cell being located between two rotating units in the multiple fixed cell includes separated one first Divide and a Part II, and the multiple first magnet of the fixed cell is arranged on the Part I, wherein this first Spacing point the Part II between is adjustable, whereby to control the repulsive force between the multiple first, second magnet Size, or make the multiple rotation seat with and the rotating shaft that is connected of the multiple rotation seat stop operating.

13. magnetically-actuated method as claimed in claim 12, in addition to:

So that adjacent different pairs of the multiple fixed cell and the multiple first, second in the multiple rotating unit The set-up mode of magnet is opposite；And

Adjust the Part I of the fixed cell being located between two rotating units in the multiple fixed cell with this Spacing between two parts, so that multiple the of multiple first magnet of the fixed cell and the adjacent different pairs of rotating unit Produce attraction between two magnet, so make multiple rotation seats with and the rotating shaft that is connected of multiple rotation seats stop operating.