CN109889020A - Electromagnet is used for the device of axis rotation - Google Patents

Abstract

The invention discloses the devices that a kind of electromagnet is used for axis rotation, are the devices for making multiple rotary type permanent-magnets using multiple electromagnet.Plurality of permanent magnet is arranged around axis and rotates together with the axis, and the outer circumference of multiple permanent magnets is arranged in an electromagnet, and is provided with the device of electromagnet operation.Run the electromagnet using two secondary cells, which makes multiple rotary type permanent-magnet.Using the counter electromotive force occurred on the electromagnet, it is electrically charged two secondary cells.And multiple coils are provided with around multiple permanent magnet, and then make multiple permanent magnet of rotation that multiple coil be made to generate electricity.

Description

Electromagnet is used for the device of axis rotation

Technical field

The present invention relates to the devices that a kind of device of axis rotation more particularly to a kind of electromagnet are used for axis rotation.

Background technique

Using in the circuit of relay, the transistor as switch is connected to the terminal of relay, which is connected to The cathode side of battery.When connecting battery on relay and blocking, voltage more higher than cell voltage can occur in relay moment On.This high voltage occurred can damage the transistor as switch.To solve this problem, using diode, the diode Anode is connect with the terminal for the relay for being connected to cell cathode side, the cathode of the diode be connected to galvanic anode side after The terminal of electric appliance connects.Therefore the electricity occurred on relay flows into cathode by the anode of diode.In other words, in cell cathode On the terminal for the relay that side is blocked after moment generation high voltage, the electricity in the relay terminal for being connected to galvanic anode side Son flows into anode-side by the diode cathode side and flows into relay.The high voltage occurred on relay is that electricity is connected on relay Pond and be blocked and the counter electromotive force that occurs.

When connecting battery to electromagnet, multiple electronics are flowed into the anode of battery by the cathode of battery.Electromagnet is in battery When cathode is blocked, multiple electronics no longer flow into electromagnet by the cathode of battery, and multiple electrons flow into the anode of the battery, Multiple electronics in electromagnet are continued to move along by the magnetic force of electromagnet.Then multiple electronics in electromagnet are from battery The terminals side that is blocked of cathode start to disappear.Thus it is connected to the side of galvanic anode and is blocked side in the cathode side of battery Between occur electron number difference.And the difference of the electron number of two sides first becomes larger and then becomes smaller again.The electron number occurred in electromagnet Difference be exactly counter electromotive force.Counter electromotive force becomes larger, and (electronics only has the one of electromagnet when the difference maximum of two sides electron number Half) reach peak.Then it gradually becomes smaller until disappearing.

For secondary cell (secondary cell -1) when electromagnet blocks, the voltage of the electromagnet on the electromagnet by occurring Counter electromotive force is higher than the voltage instantaneous of secondary cell -1.If the electromagnet two terminals by the sun of the secondary cell -1 Pole and cathode all block, then the electromagnet moment becomes a power supply, in the electricity that -1 cathode side of secondary cell is blocked The terminal (B terminal) of magnet becomes anode, becomes in the terminal (A terminal) for the electromagnet that -1 anode-side of secondary cell is blocked For cathode.If multiple electronics can flow into the B terminal of the electromagnet from the anode of another secondary cell (secondary cell -2), if Cannot adverse current, and multiple electronics can flow into the cathode of the secondary cell -2 from the A terminal of the electromagnet, if cannot adverse current, Multiple electronics flow into cathode by the anode of the secondary cell -2, which is electrically charged.

Then when the anode of the secondary cell -1 is connected to the A terminal of the electromagnet, multiple electronics are flowed by the electromagnet The anode of the secondary cell -1.And multiple electronics by the counter electromotive force that occurs on the electromagnet by the anode of the secondary cell -2 Flow into the B terminal of the electromagnet.

And then the electromagnet is run by the counter electromotive force occurred on the electromagnet, the electric power of the secondary cell -1 disappears Depletion is few, which is electrically charged.

2015/142084 A1 of WIPO WO (2015.09.24) (KR 10-1733373 B1 (2017.05.08)) is just It is its prior art.The cathode of secondary cell is blocked in the terminal of electromagnet in the invention.The cathode of secondary cell is in electromagnetism When iron is blocked, the multiple electrons for flowing into electromagnet continue to flow into the anode of secondary cell.Multiple electronics in capacitor are logical Cross the counter electromotive force that occurs on electromagnet and flow into electromagnet, and multiple electronics the anode of secondary cell flow into capacitor and Electromagnet.The multiple electronics for flowing into electromagnet continue to flow into the anode of secondary cell.

Summary of the invention

Technical task

It is an object of the present invention to rotate axis together with multiple permanent magnets using an electromagnet, using being sent out on the electromagnet Raw counter electromotive force reduces the power consumption of multiple secondary cells.And produce multiple coils using multiple permanent magnets of rotation Raw electricity.

Technical solution

The present invention include multiple permanent magnets, an electromagnet, two secondary cells, the operation of electromagnet device.

Multiple permanent magnets are configured to together with axis, and are rotated centered on axis, and a pole of each permanent magnet is towards in axis The heart, another pole are arranged alternately towards outside, the pole N and the pole S of multiple permanent magnets.

The outer circumference of the multiple permanent magnet is provided with an electromagnet.

Two secondary cells of supply DC current are provided on the electromagnet.

In order to connect the wherein anode of a secondary cell (secondary cell -1) and the terminal (A terminal) of the electromagnet repeatedly It connects and blocks, being provided on axis can make the light of Photo Interrupter (Photo Interrupter -1) iterate through and interdict or reflect and pass through Rotate accessory P.In order to make the cathode of the secondary cell -1 be connect and be hindered repeatedly with another terminal (B terminal) of the electromagnet Disconnected, being provided on axis can make the light of another Photo Interrupter (Photo Interrupter -2) iterate through and interdict or reflect and pass through Rotate accessory N.In order to connect the anode of another secondary cell (secondary cell -2) repeatedly with the B terminal of the electromagnet and It blocks, rotation accessory P can make the light of another Photo Interrupter (Photo Interrupter -3) iterate through and interdict or reflect and lead to It crosses.In order to make the cathode of the secondary cell -2 be connect and be blocked repeatedly with the B terminal of the electromagnet, rotation accessory N can be with The light of another Photo Interrupter (Photo Interrupter -4) is set to iterate through and interdict or reflect and pass through.The wherein Photo Interrupter- 1, Photo Interrupter -2, Photo Interrupter -3, Photo Interrupter -4 are suitable for infiltration type or reflection-type.

The device of the device of one electromagnet operation, electromagnet operation runs the electromagnet, the sun of the secondary cell -1 The A terminal of pole and the electromagnet passes through P channel FET-1 (switch P1) connection, the B terminal of the electromagnet and the secondary electricity The cathode in pond -1 passes through N channel FET-1 (switch N1) connection, the anode of the secondary cell -2 and the B terminal of the electromagnet By another P channel FET-2 (switch P2) connection, the A terminal of the electromagnet and the cathode of the secondary cell -2 pass through Another N channel FET-2 (switch N2) connection, the cathode of diode (diode -1) are connected to the secondary cell -1 The anode of anode and the diode -1 is connected to the A terminal of the electromagnet, and the cathode of another diode (diode -2) connects The anode of the B terminal and the diode -2 that are connected to the electromagnet is connected to the cathode of the secondary cell -1, another diode The anode of anode and the diode -3 that the cathode of (diode -3) is connected to the secondary cell -2 is connected to the B of the electromagnet Terminal, the cathode of another diode (diode -4) is connected to the A terminal of the electromagnet and the anode of the diode -4 connects It is connected to the cathode of the secondary cell -2, by rotation accessory P, when the light of Photo Interrupter -1 passes through, switch P1 is open-minded, passes through Rotation accessory P, when the light of Photo Interrupter -1 is interdicted, switch P1 is closed, by rotation accessory N, Photo Interrupter -2 When light passes through, switch N1 is open-minded, and by rotation accessory N, when the light of Photo Interrupter -2 is blocked, switch N1 is closed, and leads to Rotation accessory P is crossed, when the light of Photo Interrupter -3 passes through, switch P2 is open-minded, by rotation accessory P, Photo Interrupter -3 When light is interdicted, switch P2 is closed, and by rotation accessory N, when the light of Photo Interrupter -4 passes through, switch N2 is open-minded, is led to Rotation accessory N is crossed, when the light of Photo Interrupter -4 is blocked, switch N2 is closed, wherein the Photo Interrupter -1, light interdict Device -2, Photo Interrupter -3, Photo Interrupter -4 are suitable for infiltration type, in order to face the electromagnet in the electromagnet this is more A wherein permanent magnet for a permanent magnet effectively squeezes out place and brings into operation, and switch P1 and switch N1 are set as opening, mistake Journey (routine) A: 1. switch P1 and switch N1 are all open-minded, which is run by the secondary cell -1,2. so Afterwards, switch P1 and switch N1 is all closed, and 3. then, switch P1 is open-minded, anti-electronic by what is occurred on the electromagnet Gesture, multiple electronics are flowed into the B terminal of the electromagnet by the anode of the secondary cell -2, and are flowed by the A terminal of the electromagnet The cathode of the secondary cell -2 when the wherein permanent magnet extrusion for multiple permanent magnet that the electromagnet is faced, and attracts When the permanent magnet that multiple permanent magnet wherein follows, the process A can be repeatedly executed at predetermined intervals, in order to make the electromagnet in the electromagnet A wherein permanent magnet for the multiple permanent magnet faced effectively squeezes out place and brings into operation, switch P2 and switch N2 Be set as opening, process B: 1. switch P2 and switch N2 are all open-minded, which is run by the secondary cell -2,2. Then, switch P2 and switch N2 is all closed, and 3. then, switch P2 is open-minded, passes through the anti-electricity occurred on the electromagnet Kinetic potential, multiple electronics are flowed into the A terminal of the electromagnet by the anode of the secondary cell -1, and by the B terminal stream of the electromagnet The cathode for entering the secondary cell -1 when the wherein permanent magnet extrusion for multiple permanent magnet that the electromagnet is faced, and is inhaled When drawing the permanent magnet that multiple permanent magnet wherein follows, the process B can be repeatedly executed at predetermined intervals.

Beneficial effect

The beneficial effects of the present invention are rotate axis together with multiple permanent magnets using an electromagnet, utilize the electromagnet The counter electromotive force of upper generation reduces the power consumption of multiple secondary cells.And the multiple permanent magnets rotated can make multiple coils Generate electricity.Application range of the invention includes electric car, electric airplane, electric ship, electric bicycle, the various necks such as unmanned plane Domain.

Detailed description of the invention

Fig. 1 is the perspective view for showing the device of the embodiment of the present invention.

Fig. 2 has been displayed as making the terminal of the anode of secondary cell and electromagnet by repeatedly in the device that electromagnet is run Connection and blocking, the schematic diagram of the rotation accessory P for iterating through Photo Interrupter and interdicting.

Fig. 3 has been displayed as making the other end of the cathode of secondary cell and electromagnet anti-in the device that electromagnet is run It is multiply-connected to connect and block, the schematic diagram of the rotation accessory N for iterating through another Photo Interrupter and interdicting.

Fig. 4 is the electronic circuitry of the device of electromagnet operation.

Fig. 5 is the perspective view for showing the device of another embodiment of the present invention, and wherein multiple coils shown in Fig. 1 are set Set the inside around multiple permanent magnets.

Symbol description in attached drawing:

101: permanent magnet -1；102: permanent magnet -2；

103: permanent magnet -3；104: permanent magnet -4；

105: permanent magnet -5；106: permanent magnet -6；

201: electromagnet；

301: rotation accessory P；302: rotation accessory N；

401: the device of electromagnet operation；

501: secondary cell (secondary cell -1)；

502: secondary cell (secondary cell -2)；

601: coil -1；602: coil -2；

603: coil -3；604: coil -4；

605: coil -5；606: coil -6；

11: Photo Interrupter -1；12: Photo Interrupter -2；

13: switch P1(P channel FET-1)；14: switch N1(N channel FET-1)；

15: diode -1；16: diode -2；

21: Photo Interrupter -3；22: Photo Interrupter -4；

23: switch P2(P channel FET-2)；24: switch N2(N channel FET-2)；

25: diode -3；26: diode -4.

Specific embodiment

Illustrate the preferred embodiment of the present invention with reference to the accompanying drawing.

Fig. 1 is the perspective view for showing the device of the embodiment of the present invention, and Fig. 2 has been displayed as in the device that electromagnet is run The terminal of the anode and electromagnet that make secondary cell connected and blocked repeatedly, for iterating through Photo Interrupter and interdicting The schematic diagram of accessory P is rotated, Fig. 3 has been displayed as making the cathode and electromagnet of secondary cell in the device that electromagnet is run The other end is connected and is blocked repeatedly, the schematic diagram of the rotation accessory N for iterating through another Photo Interrupter and interdicting, Fig. 4 is the electronic circuitry of the device of electromagnet operation.

As shown in Figure 1, six permanent magnets (permanent magnet -1,2,3,4,5,6 101,102,103,104,105,106) are set Being set to can rotate together with the axis, and rotary shaft is configured to rotate in conjunction with bearing (not shown).One setting of electromagnet 201 exists Six 101,102,103,104,105,106 outer circumferences of permanent magnet, the electromagnet 201 are fixed by fixed device (not shown) Firmly.One rotation accessory P301 and a rotation accessory N302 are arranged on axis, in order to run the electromagnet 201, are used The device 401 that Photo Interrupter and an electromagnet comprising other electronic components are run.Two secondary cell (secondary cells -1 501, secondary cell -2 is 502) for supplying DC current to the electromagnet 201.

Permanent magnet -1,2,3,4,5,6 101,102,103,104,105,106 are arranged with the interval for rotating 60 ° of angle, forever Magnet -1,3,5 101,103,105 S pole-face is to central axis, and N pole-face is to outside, permanent magnet -2,4,6 102,104,106 N Pole-face is to central axis, and S pole-face is to outside.

It rotates accessory P301 to be arranged on axis, the interval that light can be rotated 10 ° of angle by rotation accessory P301 passes through, with rotation The interval that 10 ° of gyration blocks, the process that the interval to rotate 5 ° of angle passes through repeatedly twice, then to rotate 70 ° of angle Interval blocks light.When rotating accessory P rotation, the interval procedure of 120 ° of angle of rotation be will continue to repeatedly.Permanent magnet reaches electromagnet When 201, electric current on electromagnet 201, by the magnetic force of electromagnet 201 when being blocked, permanent magnet is pulled and hinders to rotate.In turn When permanent magnet is close to electromagnet 201, the process passed light through is not reruned.

It rotates accessory N302 to be arranged on axis, the interval that rotation accessory N302 rotates 10 ° of angle by light is made passes through, with rotation The process that 15 ° of gyration of interval blocks twice, then blocks light repeatedly with the interval for rotating 70 ° of angle.Rotate accessory N302 When rotation, the interval procedure of 120 ° of angle of rotation be will continue to repeatedly.

Rotation accessory P301 is for the anode of secondary cell -1 501 to be connect with the terminal (A terminal) of the electromagnet 201 And blocking.Accessory N302 is rotated to be used for the another terminal (B terminal) of the cathode of secondary cell -1 501 and the electromagnet 201 even It connects and blocks.

Rotation accessory P301 is for the anode of secondary cell -2 502 to connect and block with the B terminal of the electromagnet 201. Rotation accessory N302 is for the cathode of secondary cell -2 502 to connect and block with the A terminal of the electromagnet 201.

Rotation accessory P301 and rotation accessory N302 are provided in the electromagnet 201 and effectively squeeze out permanent magnet -1,3, and 5 101,103,105 places, the electromagnet 201 and permanent magnet -1,3,5 101,103,105 it is facing when, 11 He of Photo Interrupter -1 The light of Photo Interrupter -2 12 passes through, and then the light of the Photo Interrupter -2 12 of Photo Interrupter -1 11 is blocked, and then light interdicts The light of device -1 11 passes through.

Rotation accessory P301 and rotation accessory N302 is provided in the electromagnet 201 for permanent magnet -2,4,6 102, 104,106 effectively squeeze out place, the electromagnet 201 and permanent magnet -2,4,6 102,104,106 in face of when, Photo Interrupter -3 21 and the light of Photo Interrupter -4 22 pass through, then the light of Photo Interrupter -3 21 and Photo Interrupter -4 22 is blocked, and then light hides The light of disconnected device -3 21 passes through.

The device 401 of electromagnet operation runs the electromagnet 201 by the polarity of the alternate change electromagnet 201.Such as Shown in Fig. 4, after the light of Photo Interrupter -1 11 and Photo Interrupter -2 12 passes through, P channel FET-1 13(switch P1) and N Channel FET-1 14(switch N1) it is open-minded, multiple electronics flow into secondary cell -1 501 from the cathode of secondary cell -1 501 Anode, and the electromagnet 201 run.Then, when the light of Photo Interrupter -1 11 and Photo Interrupter -2 12 is blocked, P Channel FET-1 13(switch P1) and N channel FET-1 14(switch N1) be closed, multiple electronics will not be by secondary The cathode of battery -1 501 flows into the anode of secondary cell -1 501.Multiple electronics are by occurring in the electromagnet 201 at this time Counter electromotive force is flowed into the cathode of secondary cell -2 502 by the anode of secondary cell -2 502.Then the light of Photo Interrupter -1 11 By when, P channel FET-1 13(switch P1) it is open-minded, the multiple electronics for being held in the electromagnet 201 flow into secondary electricity The anode in pond -1 501.Multiple electronics are by the counter electromotive force that occurs on the electromagnet 201 by the anode of secondary cell -2 502 Flow into the cathode of secondary cell -2 502.When the permanent magnet that the electromagnet 201 is faced squeezes out, to attract one to follow forever When magnet, the above process can repeatedly twice.After the light of Photo Interrupter -3 21 and Photo Interrupter -4 22 passes through, P channel FET-2 23(switch P2) and N channel FET-2 24(switch N2) open-minded, yin of multiple electronics from secondary cell -2 502 Pole flows into the anode of secondary cell -2 502, and the electromagnet 201 is run.Then, Photo Interrupter -3 21 and Photo Interrupter -4 When 22 light is blocked, P channel FET-2 23(switch P2) and N channel FET-2 24(switch N2) be closed, Multiple electronics will not be flowed into the anode of secondary cell -2 502 by the cathode of secondary cell -2 502.At this time multiple electronics by The counter electromotive force that the electromagnet 201 occurs is flowed into the cathode of secondary cell -1 501 by the anode of secondary cell -1 501.Then When the light of Photo Interrupter -3 21 passes through, P channel FET-2 23(switch P2) it is open-minded, it is held in the more of the electromagnet 201 A electronics flows into the anode of secondary cell -2 502.Multiple electronics pass through the counter electromotive force occurred on the electromagnet 201 by secondary The anode of battery -1 501 flows into the cathode of secondary cell -1 501.The permanent magnet faced when the electromagnet 201 squeezes out, With attract one follow permanent magnet when, the above process can repeatedly twice.

As shown in Figure 1, being reached in the position permanent magnet -1 101 that the electromagnet 201 effectively squeezes out permanent magnet -1 101 When, secondary cell -1 501 is discharged, and the electromagnet 201 is run.It, should by the counter electromotive force occurred on the electromagnet 201 Electromagnet 201 is run, and secondary cell -2 502 is electrically charged.During the electromagnet 201 is run, the electromagnet 201 is by permanent magnet -1 101 squeeze out, and attract permanent magnet -2 102, and then axis rotates and permanent magnet -2 102 reaches the electromagnet 201.

When the position permanent magnet -2 102 that the electromagnet 201 effectively squeezes out permanent magnet -2 102 reaches, secondary cell - 2 502 are discharged, and the electromagnet 201 is run.Pass through the counter electromotive force occurred on the electromagnet 201, the electromagnet 201 fortune Row, secondary cell -1 501 are electrically charged.During the electromagnet 201 is run, which squeezes out permanent magnet -2 102, and Attract permanent magnet -3 103, then axis rotates and permanent magnet -3 103 reaches the electromagnet 201.

As described above, using two secondary cells, (secondary cell -1 501,502), alternate change should for secondary cell -2 The polarity of electromagnet 201, the permanent magnet which is faced squeeze out, attract the permanent magnet followed, make multiple permanent magnets Continue to rotate.

Fig. 5 is the perspective view for showing the device of another embodiment of the present invention, and wherein multiple coils shown in Fig. 1 are set Set the inside around multiple permanent magnets.Six coils -1,2,3,4,5,6 601,602,603,604,605,606 are arranged six A permanent magnet -1,2,3,4,5,6 101,102,103,104,105,106 surroundings inside, multiple coils pass through fixation (not shown) Device is fixed.Multiple coils are connected by single-phase of generating electricity mode.The permanent magnet of multiple rotations in coil -1,2,3,4, 5,6 601,602,603,604,605,606 generate alternating current.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although with reference to the foregoing embodiments Invention is explained in detail, those skilled in the art should understand that: it still can be to aforementioned each implementation Technical solution described in example is modified；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution this hair The range of technical solution described in bright each embodiment.

Claims (2)

1. the device that a kind of electromagnet is used for axis rotation characterized by comprising

Multiple permanent magnets (101,102,103,104,105,106) are configured to together with axis, and are revolved centered on axis Turn, towards the center of axis, another pole is alternately set towards outside, the pole N and the pole S of the multiple permanent magnet for a pole of each permanent magnet It sets；

The outer circumference of the multiple permanent magnet is provided with an electromagnet (201)；

Two secondary cells (501,502) of supply DC current are provided on the electromagnet (201)；

In order to make wherein the anode of a secondary cell (501) with an A terminal of the electromagnet (201) connect and hindered repeatedly Disconnected, a Photo Interrupter -1(11 can be made by being provided on the axis) the light rotation that iterates through and interdict or reflect and pass through match Part P (301), in order to make this, wherein the cathode of a secondary cell (501) with a B terminal of the electromagnet is connect and is hindered repeatedly Disconnected, another Photo Interrupter -2(12 can be made by being provided on the axis) the light rotation that iterates through and interdict or reflect and pass through Accessory N (302), in order to connect the anode of another one secondary cell (502) and the B terminal of the electromagnet (201) repeatedly Connect and block, rotation accessory P (301) can make another Photo Interrupter -3(21) light iterate through and interdict or reflect and Pass through, in order to connect the cathode of the another one secondary cell (502) repeatedly with the B terminal of the electromagnet (201) and Block, rotation accessory N (302) can make another Photo Interrupter -4(22) light iterate through and interdict or reflect and lead to Cross, wherein the Photo Interrupter -1(11), Photo Interrupter -2(12), Photo Interrupter -3(21), Photo Interrupter -4(22) for penetrate Type or reflection-type；

The device (401) of the device (401) of one electromagnet operation, electromagnet operation runs the electromagnet (201), this is wherein The A terminal of the anode of one secondary cell (501) and the electromagnet (201) passes through switch P1(13) connection, the electromagnet (201) B terminal and this wherein a secondary cell (501) cathode pass through switch N1(14) connect, the another one secondary cell (502) the B terminal of anode and the electromagnet (201) passes through switch P2(23) connection, it the A terminal of the electromagnet (201) and is somebody's turn to do The cathode of another one secondary cell (502) passes through switch N2(24) connection,

Diode -1(15) cathode be connected to the wherein anode of a secondary cell (501) and the diode -1(15) sun Pole is connected to the A terminal of the electromagnet (201), diode -2(16) cathode be connected to the electromagnet (201) B terminal and The diode -2(16) anode be connected to the cathode of the wherein secondary cell (501), diode -3(25) cathode connection In the anode and the diode -3(25 of the another one secondary cell (502)) anode be connected to the electromagnet (201) B terminal, diode -4(26) cathode be connected to the A terminal and the diode -4(26 of the electromagnet (201)) anode It is connected to the cathode of the another one secondary cell (502),

Pass through the rotation accessory P(301), Photo Interrupter -1(11) light when passing through, the switch P1(13) it is open-minded, by this Rotate accessory P(301), Photo Interrupter -1(11) light when being interdicted, the switch P1(13) close, pass through the rotation accessory N (302), Photo Interrupter -2(12) light when passing through, the switch N1(14) it is open-minded, pass through rotation accessory N (302), light blocking Device -2(12) light when being blocked, the switch N1(14) close, pass through rotation accessory P(301), Photo Interrupter -3(21) light By when, the switch P2(23) it is open-minded, pass through rotation accessory P(301), Photo Interrupter -3(21) light when being interdicted, this is opened Close P2(23) close, pass through rotation accessory N (302), Photo Interrupter -4(22) light when passing through, the switch N2(24) it is open-minded, Pass through rotation accessory N (302), Photo Interrupter -4(22) light when being blocked, the switch N2(24) close, wherein the light hides Disconnected device -1(11), Photo Interrupter -2(12), Photo Interrupter -3(21), Photo Interrupter -4(22) be infiltration type,

In order to which a wherein permanent magnet for the multiple permanent magnet for facing the electromagnet (201) in the electromagnet (201) squeezes Place brings into operation out, the switch P1(13) and the switch N1(14) be set as opening,

Process A: the 1. switch P1(13) and the switch N1(14) all it is open-minded, the electromagnet (201) pass through this wherein one or two times Battery (501) operation,

2. then, the switch P1(13) and the switch N1(14) all close,

3. then, the switch P1(13) it is open-minded,

By the counter electromotive force occurred on the electromagnet (201), multiple electronics by the another one secondary cell (502) sun Pole flows into the B terminal of the electromagnet (201), and flows into the another one secondary cell by the A terminal of the electromagnet (201) (502) cathode,

When the wherein permanent magnet extrusion for multiple permanent magnet that the electromagnet (201) is faced, and attract multiple permanent magnetism When the permanent magnet that iron wherein follows, the process A can be repeatedly executed at predetermined intervals,

In order to which a wherein permanent magnet for the multiple permanent magnet for facing the electromagnet (201) in the electromagnet (201) squeezes Place brings into operation out, the switch P2(23) and the switch N2(24) be set as opening,

Process B: the 1. switch P2(23) and the switch N2(24) all it is open-minded, the electromagnet (201) pass through the another one Secondary cell (502) operation,

2. then, the switch P2(23) and the switch N2(24) all close,

3. then, the switch P2(23) it is open-minded,

By the counter electromotive force occurred on the electromagnet (201), multiple electronics by the wherein secondary cell (501) anode stream Enter the A terminal of the electromagnet (201), and a wherein secondary cell (501) is flowed by the B terminal of the electromagnet (201) Cathode,

When the wherein permanent magnet extrusion for multiple permanent magnet that the electromagnet (201) is faced, and attract multiple permanent magnetism When the permanent magnet that iron wherein follows, the process B can be repeatedly executed at predetermined intervals.

2. the device that electromagnet according to claim 1 is used for axis rotation, which is characterized in that the week of the multiple permanent magnet Enclose inside be provided with multiple coils (601,602,603,604,605,606) and multiple coil (601,602, 603,604,605,606) electricity is generated on.