CN204206026U - A kind of device of magnetic circuit generating - Google Patents

Abstract

The utility model relates to magnetic circuit technical field of power generation, the device of a kind of magnetic circuit generating is disclosed, comprise: generating magnetic conductive loop, valve sets, thermal source, low-temperature receiver, the described generating magnetic conductive loop being at least, connects and composes flux oscillations formula magnetic loop by least one magnet by the ferrosilicon core of the soft magnetic bodies and coiling that are at least two; Described soft magnetic bodies is communicated with the entrance low-temperature receiver valve being connected low-temperature receiver with entrance thermal source valve by inlet duct, and described soft magnetic bodies is communicated with the outlet low-temperature receiver valve being connected low-temperature receiver with outlet thermal source valve by outlet conduit; The utility model utilizes the characteristic of Curie point soft magnetic bodies, by Cooling and Heat Source Valve controlling low-temperature receiver, thermal source alternately through soft magnetic bodies, reach magnetic circuit magnetic conduction, demagnetization, the flux oscillations formula method generating that magnetic circuit magnetic flux is changed, decrease the plant equipment of large scale structure complexity, have that generated energy conversion ratio is high, low cost of manufacture, free of contamination characteristic.

Description

A kind of device of magnetic circuit generating

Technical field

The utility model relates to magnetic circuit technical field of power generation, particularly relates to the device of a kind of magnetic circuit generating.

Background technology

At present, conventional generating generally adopts mechanical energy to go drive electrical generators to generate electricity, steam turbine as thermal power generation generates electricity, internal combustion engine generates electricity, hydroelectric power generation, its something in common is that mechanical energy is converted into electric energy by cutting magnetic line, and existence investment is large, power conversion link is many, need deposit to have the problems such as a large amount of energy.Along with the minimizing day by day of the energy, people have developed the modes such as photovoltaic generation, wind power generation, magnetohydrodynamic generation and fuel cell power generation.But these generating be not exist energy transformation ratio low, be exactly there is complex structure, manufacturing cost is high.

Summary of the invention

In order to overcome the deficiencies in the prior art, the purpose of this utility model is to provide the device of a kind of magnetic circuit generating.

For achieving the above object, the utility model is by the following technical solutions:

A kind of device of magnetic circuit generating, comprise: generating magnetic conductive loop, valve sets, thermal source, low-temperature receiver, the described generating magnetic conductive loop being at least, connects and composes flux oscillations formula magnetic loop by the soft magnetic bodies 2 being at least two with the ferrosilicon core 3 of coiling by least one magnet 1;

The sectional area of described soft magnetic bodies is identical with the sectional area of magnet with the ferrosilicon core of coiling, two sides of soft magnetic bodies 2 are evenly equipped with several the parallel cavitys communicated, in soft magnetic bodies, the uniform parallel cavity communicated side is provided with the inlet duct 4 that thermal source and low-temperature receiver alternately enter, and uniform another side of parallel cavity communicated is provided with the outlet conduit 5 that thermal source and low-temperature receiver alternately flow out; Described inlet duct 4 is communicated with the entrance low-temperature receiver valve 7 connecting low-temperature receiver with the entrance thermal source valve 6 being connected thermal source respectively, and described outlet conduit 5 is communicated with the outlet low-temperature receiver valve 9 connecting low-temperature receiver with the outlet thermal source valve 8 being connected thermal source respectively;

Wherein, the entrance thermal source valve 6 of soft magnetic bodies 2 arrival end and the outlet thermal source valve 8 of the soft magnetic bodies port of export are for open and close synchronous interaction valve; The entrance low-temperature receiver valve 7 of soft magnetic bodies arrival end and the outlet low-temperature receiver valve 9 of the soft magnetic bodies port of export are for open and close synchronous interaction valve.

A kind of device of magnetic circuit generating, described generating magnetic conductive loop is single magnet flow oscillatory type generating magnetic conductive loop of a magnet 1, single magnet flow oscillatory type generating magnetic conductive loop is that single magnet pair drives generating magnetic conductive loop, or is single magnet 4 wheel driven generating magnetic conductive loop;

Described single magnet is two drives generating magnetic conductive loop, be connected with the ferrosilicon core 3 of two coilings respectively by two soft magnetic bodies 2 by two sides of single magnet 1 one end, the other end of the ferrosilicon core 3 of each coiling connects and composes " day " font list magnet pair respectively and drives magnetic loop monomer structure with two sides of single magnet 1 other end;

Described single magnet 4 wheel driven generating magnetic conductive loop, be connected with the ferrosilicon core 3 of two coilings respectively by two soft magnetic bodies 2 by two sides of single magnet 1 one end, the other end of the ferrosilicon core 3 of each coiling connects and composes " day " font list magnet 4 wheel driven magnetic loop monomer structure respectively by soft magnetic bodies 2 and two sides of single magnet 1 other end;

Wherein, the diskette that soft magnetic bodies 2 is made up of some soft magnetic materials, is superimposed as the one piece of soft magnetic bodies iron core being evenly equipped with several identical parallel air gap cavitys; Wherein, magnetically soft alloy Curie point gets 110 DEG C to 550 DEG C as required, density 8.2 g/cm ³, specific heat is 0.46J/g;

Wherein, described magnet 1 is bar permanent magnet, or is " work " font permanent magnet, or is electromagnet.

A kind of device of magnetic circuit generating, described generating magnetic conductive loop is many magnet flow oscillatory type generating magnetic conductive loop that two or more magnet 1 is formed, described many magnet flow oscillatory type generating magnetic conductive loop is " day " font magnetic loop of two magnet 4 wheel driven, or be " counterpart " type magnetic loop that two magnet eight drives, or be annular solid magnetic loop;

" day " font magnetic loop of described pair of magnet 4 wheel driven, be connected with two magnet 1 respectively by soft magnetic bodies 2 by two sides of ferrosilicon core 3 one end of single coiling, the other end of each magnet 1 connects and composes the two magnet 4 wheel driven magnetic loop monomer structure of " day " font respectively by soft magnetic bodies 2 and two sides of ferrosilicon core 3 other end of single coiling;

Described annular solid magnetic loop, return magnetic circuit by two magnet 4 wheel driven " day " fonts being at least two and to be connected in series around annular solid and to form, annular solid magnetic circuit is regular polygon body magnetic circuit, or is cylindrical ring body magnetic circuit,

Described regular polygon body magnetic circuit is positive 2n limit body, n >=1; N=1 is the annular solid magnetic circuit that two arcuate structure symmetries are formed, and n=2 is foursquare annular solid magnetic circuit;

" counterpart " type loop that described pair of magnet eight drives, by two polarity attracting, each magnet both sides of " work " font magnet one end arranged in parallel to be connected in series respectively by the iron core of two soft magnetic bodies and two coilings and to form " mouth " font magnetic loop; Each magnet both sides of two parallel " work " font magnet other ends are connected in series formation " mouth " font magnetic loop respectively by the iron core of two soft magnetic bodies and two coilings.

Owing to adopting technical scheme as above, the utility model has following superiority:

A kind of device of magnetic circuit generating, adopt the characteristic of Curie point soft magnetic bodies, by Cooling and Heat Source valve, control low-temperature receiver, thermal source alternately through soft magnetic bodies, reach magnetic circuit magnetic conduction, demagnetization, the flux oscillations formula method generating that magnetic flux is changed, decreases the plant equipment of large scale structure complexity, has that generated energy conversion ratio is high, low cost of manufacture, free of contamination characteristic.

Accompanying drawing explanation

Fig. 1 is the two structural representation driving magnetic circuit generating of single magnetic;

Fig. 2 is the structural representation of single magnetic 4 wheel driven magnetic circuit generating;

Fig. 3 is the structural representation of two magnetic 4 wheel driven magnetic circuit generating;

Fig. 4 is the expansion schematic diagram of multiple pairs of magnetic 4 wheel driven magnetic circuit looping body electrification structures;

Fig. 5 is the structural representation that two magnetic eight drives magnetic circuit generating;

Fig. 6 is the anatomical connectivity schematic diagram that step connects magnetic circuit generating;

Fig. 7 is the anatomical connectivity schematic diagram of forward parallel join magnetic circuit generating;

Fig. 8 is the anatomical connectivity schematic diagram of reverse parallel join magnetic circuit generating;

Fig. 9 is the anatomical connectivity schematic diagram that parallel step connects magnetic circuit generating;

Figure 10 is the structural representation that soft magnetic bodies is connected with pipeline;

Figure 11 is the application connection diagram of magnetic circuit generating.

In figure: 1, magnet, 2, soft magnetic bodies, 3, the ferrosilicon core of coiling, 4, inlet duct, 5, outlet conduit, 6, entrance thermal source valve, 7, entrance low-temperature receiver valve, 8, outlet thermal source valve, 9, outlet low-temperature receiver valve, 10, electro-heat equipment, 11, heat abstractor, 12, oil pump, 13, heat accumulation fuel tank, 14, storage cold oil case, 15, heat energy storage device, 16, charging device, 17, storage battery, 18, inverter.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail;

As shown in Figure 1 to 11, a kind of device of magnetic circuit generating, comprise: generating magnetic conductive loop, valve sets, thermal source, low-temperature receiver, the described generating magnetic conductive loop being at least, connects and composes flux oscillations formula magnetic loop by the soft magnetic bodies 2 being at least two with the ferrosilicon core 3 of coiling by least one magnet 1;

The sectional area of described soft magnetic bodies is identical with the sectional area of magnet with the ferrosilicon core of coiling, two sides of soft magnetic bodies 2 are evenly equipped with several the parallel cavitys communicated, in soft magnetic bodies, the uniform parallel cavity communicated side is provided with the inlet duct 4 that thermal source and low-temperature receiver alternately enter, and uniform another side of parallel cavity communicated is provided with the outlet conduit 5 that thermal source and low-temperature receiver alternately flow out; Described inlet duct 4 is communicated with the entrance low-temperature receiver valve 7 connecting low-temperature receiver with the entrance thermal source valve 6 being connected thermal source respectively, and described outlet conduit 5 is communicated with the outlet low-temperature receiver valve 9 connecting low-temperature receiver with the outlet thermal source valve 8 being connected thermal source respectively;

Wherein, the entrance thermal source valve 6 of soft magnetic bodies 2 arrival end and the outlet thermal source valve 8 of the soft magnetic bodies port of export are for open and close synchronous interaction valve; The entrance low-temperature receiver valve 7 of soft magnetic bodies arrival end and the outlet low-temperature receiver valve 9 of the soft magnetic bodies port of export are for open and close synchronous interaction valve.

Embodiment one

Control a device for single magnet flow oscillatory type generating magnetic conduction road generating, being that single magnet is two by single magnet flow oscillatory type generating magnetic conductive loop of a magnet 1 drives generating magnetic conductive loop, or is single magnet 4 wheel driven generating magnetic conductive loop;

Described single magnet is two drives generating magnetic conductive loop, be connected with the ferrosilicon core 3 of two coilings respectively by two soft magnetic bodies 2 by two sides of single magnet 1 one end, the other end of the ferrosilicon core 3 of each coiling connects and composes " day " font list magnet pair respectively and drives magnetic loop monomer structure with two sides of single magnet 1 other end; As shown in Figure 1.

Described single magnet 4 wheel driven generating magnetic conductive loop, be connected with the ferrosilicon core 3 of two coilings respectively by two soft magnetic bodies 2 by two sides of single magnet 1 one end, the other end of the ferrosilicon core 3 of each coiling connects and composes " day " font list magnet 4 wheel driven magnetic loop monomer structure respectively by soft magnetic bodies 2 and two sides of single magnet 1 other end; As shown in Figure 2.

The method of magnetic circuit generating, adopt demagnetization and magnetic conduction that in control generating magnetic conductive loop, soft magnetic bodies replaces, make the increase and decrease that the magnetic resistance in generating magnetic conductive loop replaces, produce the ferrosilicon core of magnetic flux by coiling of alternation, coiling generation current generates electricity, and its step is as follows:

1) assembling generating magnetic conductive loop, installs the thermal source valve and the low-temperature receiver valve being connected low-temperature receiver that connect thermal source in each soft magnetic bodies 2 one end of generating magnetic conductive loop; Each soft magnetic bodies other end installs the thermal source valve returning thermal source and the low-temperature receiver valve returning low-temperature receiver respectively;

2) control each soft magnetic bodies magnetic conduction in generating magnetic conductive loop or demagnetization, adopt thermal source, control the soft magnetic bodies magnetic conduction of generating magnetic conductive loop; Adopt low-temperature receiver, control the soft magnetic bodies demagnetization of generating magnetic conductive loop; Concrete grammar is: by the thermal source valve at each soft magnetic bodies two ends and the keying of low-temperature receiver valve, control of heat source and low-temperature receiver alternately pass through this soft magnetic bodies, complete demagnetization or the magnetic conduction of this soft magnetic bodies;

When thermal source valve open, low-temperature receiver valve closing, thermal source enters soft magnetic bodies, the soft magnetic bodies demagnetization of generating magnetic conductive loop; When low-temperature receiver valve open, thermal source valve closing, low-temperature receiver enters soft magnetic bodies, the soft magnetic bodies magnetic conduction of generating magnetic conductive loop;

3) carry out demagnetization alternately or magnetic conduction along with to the soft magnetic bodies on generating magnetic conductive loop, the increase and decrease that the magnetic resistance in generating magnetic conductive loop replaces, the magnetic flux of generating magnetic conductive loop changes, the coiling generation current of generating magnetic conductive loop, generating;

When generating magnetic conductive loop is that single magnet two drives or " day " font loop monomer structure of single magnet 4 wheel driven, control single magnet two drive or single magnet 4 wheel driven " day " font loop monomer structure in two " mouth " character form structures in soft magnetic bodies, carry out alternately demagnetization or magnetic conduction;

Namely the low-temperature receiver valve of each soft magnetic bodies in " mouth " font one tunnel of " day " font is opened simultaneously, each soft magnetic bodies magnetic conduction, is somebody's turn to do the magnetic circuit conducting in " mouth " font structure;

Meanwhile, the thermal source valve of another each soft magnetic bodies in " mouth " font one tunnel is synchronously opened, each soft magnetic bodies demagnetization, and the magnetic circuit be somebody's turn to do in " mouth " font structure disconnects;

Along with single magnet two drive or single magnet 4 wheel driven " day " font generating magnetic conductive loop in two-way " mouth " font in soft magnetic bodies replace demagnetization or magnetic conduction, the increase and decrease that magnetic resistance in the generating magnetic conductive loop of two-way " mouth " font structure replaces, the magnetic flux of the generating magnetic conductive loop of two-way " mouth " font structure changes, coiling generation current, the generating respectively of the generating magnetic conductive loop of two-way " mouth " font structure;

Described thermal source is connected and composed by electro-heat equipment, conduction oil, Fuel Tanking Unit, heat-storing device, oil pump and oil pipe, and described electro-heat equipment is the device producing heat, is Fuel Furnace, or the electro-heat equipment of solar energy, industrial exhaust heat and generation heat energy; The heat-conductive-oil high-temperature degree of described thermal source is 580 DEG C.

Described low-temperature receiver is connected and composed by heat abstractor, conduction oil, Fuel Tanking Unit, oil pump and oil pipe, and described heat abstractor is reduce the device of heat, as blower fan, or water cooling unit and refrigeration machine; The conduction oil low temperature of described low-temperature receiver is 50 DEG C to 90 DEG C.

Wherein, the diskette that soft magnetic bodies 2 is made up of some soft magnetic materials, is superimposed as the one piece of soft magnetic bodies iron core being evenly equipped with several identical parallel air gap cavitys; Wherein, magnetically soft alloy Curie point gets 110 DEG C to 550 DEG C as required.Such as, a kind of Curie point of ferronickel soft magnetic material is 360 DEG C, density 8.2 g/cm ³, specific heat is 0.46J/g.As shown in Figure 10.

Wherein, described magnet 1 is bar permanent magnet, or is " work " font permanent magnet, or is electromagnet.

Wherein, described conduction oil is the high temperature oil of 600 °, and proportion is greatly about 0.86-0.89g/cm ³, conduction oil mean specific heat: 2.675J/g580 DEG C, low temperature is 50 DEG C to 90 DEG C; Wherein the flowing velocity of conduction oil is set to 50m/ second to 120m/ second.

Drive mode example with a magnetic one below and further illustrate the present invention;

1, the iron core of coiling adopts silicon steel sheet or silicon steel sheet,

Get silicon steel sheet 200,100mm × 50mm × 0.5mm (long × wide × thick), adjacent two panels silicon steel sheet spacing 0.2mm;

Iron core net sectional area is: 5cm × 0.05cm × 200=50cm ²=0.005m ².

The coiling of output voltage is 2000 circles, and sectional area of wire is 2.5mm ²; Its most high magnetic flux density is 0.75 tesla.

Because the magnetic property of silicon steel plate core is more far better than air, so most magnetic flux will pass through in iron core, this part magnetic flux will be called main flux.In motor, transformer and various ferromagnetic element, common magnetic material makes the iron core of definite shape.As the degree of lip-rounding or day shape; Magnetic permeability unshakable in one's determination is more much higher than the magnetic permeability of surrounding air or other material.

The overwhelming majority of magnetic flux forms close access through unshakable in one's determination;

What the silicon steel plate core of magnetic conduction was connected by soft magnetic bodies iron core forms magnetic circuit as the degree of lip-rounding or day shape loop.

2, the soft magnetic bodies iron core that is turned on or off of magnetic circuit, adopts ferronickel soft magnetic material;

Ferronickel soft magnetic material is made the diskette of 200, then diskette is built up one piece of soft magnetic bodies iron core, every sheet diskette is of a size of 50mm × 30mm × 0.5mm (long × wide × thick), adjacent two panels diskette spacing 0.2mm.

The iron-nickel alloy Curie point 360 DEG C adopted, density 8.2 g/cm ³.

Iron-nickel alloy diskette gross mass is 8.2 × 5cm × 3cm × 0.05cm × 200=1230g.

Iron-nickel alloy specific heat is 0.46J/g, and the 1 degree of needs heat that often heats up is 1230 × 0.46=565.8 joule.

3, conduction oil,

Get that heat-conductive-oil high-temperature degree is 580 DEG C, low temperature is 90 DEG C.

Proportion is greatly about 0.86-0.89g/cm ³, conduction oil mean specific heat: 2.675J/g

The air gap gross area: 3cm × 0.02cm × 200=12cm ²,

Conduction oil flowing velocity presses 50m/ second, and 0.01 second flow moves 0.5m=50cm.

Decline according to conduction oil temperature or 2 DEG C of calculating of rising:

Heat load is: 50cm × 12cm ²× 0.86 × 2.675 × 2 DEG C=2760.6 joules, can by iron nickel soft magnetic bodies iron core lifting 2760.6/565.8=4.9 DEG C.

4, generated output, coil exports electromotive force:

Coil flux amount Φ=NBS, (N=2000 circle, B=0.75T, S=0.005m ²);

So magnetic flux phi=2000 circle × 0.75T × 0.005m ²=7.5 Weis;

Because electromagnetic valve switch frequency is 50Hz, each one-way time needs 0.01 second, then generator-motor gesture E=ΔΦ/Δ t, (ΔΦ=7.5 Wei, Δ t=0.01 second);

Wei/0.01, generator-motor gesture E=7.5 second=750V.

Coil power output W=IE: getting sectional area of wire is 2.5mm ², then output current >10 pacifies, then power output W=750 × 10=7500W=7.5KW.

Embodiment two

A kind of device controlling the generating of many magnet flow oscillatory type generating magnetic circuit, described generating magnetic conductive loop is many magnet flow oscillatory type generating magnetic conductive loop that two or more magnet 1 is formed, described many magnet flow oscillatory type generating magnetic conductive loop is " day " font magnetic loop of two magnet 4 wheel driven, or be " counterpart " type magnetic loop that two magnet eight drives, or be annular solid magnetic loop.

" day " font magnetic loop of described pair of magnet 4 wheel driven, be connected with two magnet 1 respectively by soft magnetic bodies 2 by two sides of ferrosilicon core 3 one end of single coiling, the other end of each magnet 1 connects and composes the two magnet 4 wheel driven magnetic loop monomer structure of " day " font respectively by soft magnetic bodies 2 and two sides of ferrosilicon core 3 other end of single coiling; As shown in Figure 3.

Described annular solid magnetic loop, return magnetic circuit by two magnet 4 wheel driven " day " fonts being at least two to be connected in series around annular solid and to form, annular solid magnetic circuit is magnet and iron-core coil suitably bending composition arcuate structure magnetic circuit, regular polygon body magnetic circuit, or be cylindrical ring body magnetic circuit, regular polygon body magnetic circuit is positive 2n limit body, n >=1; During n=1, magnet and iron-core coil be bending composition arcuate structure suitably, and n=2 is square body; As shown in Figure 4.

" counterpart " type loop that described pair of magnet eight drives, by two polarity attracting, each magnet both sides of " work " font magnet one end arranged in parallel to be connected in series respectively by the iron core of two soft magnetic bodies and two coilings and to form " mouth " font magnetic loop; Each magnet both sides of two parallel " work " font magnet other ends are connected in series formation " mouth " font magnetic loop respectively by the iron core of two soft magnetic bodies and two coilings; As shown in Figure 5.

A method for magnetic circuit generating, described generating magnetic conductive loop is the electricity-generating method of two magnet generators magnetic conductive loop, or is the electricity-generating method of annular solid magnetic circuit, or is the electricity-generating method in " counterpart " type loop that two magnet eight drives;

1) electricity-generating method of " day " font magnetic loop of described pair of magnet 4 wheel driven;

Connect and compose " day " font magnetic loop by the two ends of two magnets respectively by the iron core of soft magnetic bodies and coiling, see Fig. 3; Two magnets " day " font magnetic circuit generates electricity:

When the soft magnetic bodies of coiling iron core side flows through thermal medium, magnetic resistance increases---demagnetization, and this side magnetic circuit disconnects; Meanwhile, the soft magnetic bodies of coiling iron core opposite side flows through cold medium, and magnetic resistance reduces---magnetic conduction, this side magnetic circuit conducting; Then the soft magnetic bodies of coiling iron core side flows through cold medium, and magnetic resistance reduces---magnetic conduction, this side magnetic circuit conducting; When the soft magnetic bodies of coiling iron core opposite side flows through thermal medium, magnetic resistance increases---demagnetization, and this side magnetic circuit disconnects; Along with the soft magnetic bodies of coiling iron core both sides replaces demagnetization or magnetic conduction, then in coiling iron core, magnetic flux changes, on coiling iron core coiling coil-induced go out current electric power generation.

2) electricity-generating method of described annular solid magnetic circuit,

Return magnetic circuit by two magnet 4 wheel driven " day " fonts being at least two and be connected in series the annular solid magnetic loop formed around annular solid, see the expanded view of Fig. 4 annular solid magnetic loop;

Annular solid magnetic loop comprises: regular polygon body magnetic circuit, cylindrical ring body magnetic circuit; When for two two magnet 4 wheel driven " day " font structures, form cylindrical ring body magnetic circuit by two arcuate structure symmetries, cylindrical ring body magnetic circuit generates electricity:

When the soft magnetic bodies of coiling iron core phase the same side of two magnet 4 wheel driven " day " font structures of cylindrical ring body magnetic circuit two symmetrical arcuate structures is flow through thermal medium, magnetic resistance increases---demagnetization, and the magnetic circuit of these two coiling iron core phase the same sides disconnects; Meanwhile, the soft magnetic bodies of two identical opposite sides of coiling iron core flows through cold medium, and magnetic resistance reduces---magnetic conduction, the magnetic circuit conducting of these two identical opposite sides of coiling iron core;

Then the soft magnetic bodies of two coiling iron core phase the same sides is flow through cold medium, magnetic resistance reduces---magnetic conduction, these two coiling iron core phase the same side magnetic circuit conductings; Meanwhile, when the soft magnetic bodies of two identical opposite sides of coiling iron core flows through thermal medium, magnetic resistance increases---demagnetization, and the identical opposite side magnetic circuit of these two coiling iron cores disconnects; Along with the soft magnetic bodies of two coiling iron core both sides replaces demagnetization or magnetic conduction, then in two coiling iron cores, magnetic flux changes, on two coiling iron cores coiling coil-induced go out current electric power generation;

When for four two magnet 4 wheel driven " day " font structures, group combination forms foursquare annular solid magnetic circuit; Square loop body magnetic circuit generates electricity:

When the soft magnetic bodies of two for square body magnetic circuit four magnet 4 wheel driven " day " font structure coiling iron core phase the same side is flow through thermal medium, magnetic resistance increases---demagnetization, and the magnetic circuit of these four coiling iron core phase the same sides disconnects; Meanwhile, the soft magnetic bodies of four identical opposite sides of coiling iron core flows through cold medium, and magnetic resistance reduces---magnetic conduction, the magnetic circuit conducting of these four identical opposite sides of coiling iron core;

Then the soft magnetic bodies of four coiling iron core phase the same sides is flow through cold medium, magnetic resistance reduces---magnetic conduction, these four coiling iron core phase the same side magnetic circuit conductings; Meanwhile, when the soft magnetic bodies of four identical opposite sides of coiling iron core flows through thermal medium, magnetic resistance increases---demagnetization, and the identical opposite side magnetic circuit of these four coiling iron cores disconnects; Along with the soft magnetic bodies of four coiling iron core both sides replaces demagnetization or magnetic conduction, then in four coiling iron cores, magnetic flux changes, on four coiling iron cores coiling coil-induced go out current electric power generation;

3) electricity-generating method in " counterpart " type loop that drives of described pair magnet eight,

" mouth " font loop is connected and composed by the iron core respectively by two soft magnetic bodies and coiling of often holding of two parallel " work " font permanent magnet front portions; The iron core respectively by two soft magnetic bodies and coiling of often holding at two parallel " work " font permanent magnet rear portions connects and composes " mouth " font loop; And the magnetic polarity of two parallel " work " font permanent magnets is connected in series by the iron core of soft magnetic bodies, coiling.Fig. 4

When generating magnetic conductive loop is that single magnet two drives or " day " font loop monomer structure of single magnet 4 wheel driven, control single magnet two drive or single magnet 4 wheel driven " day " font loop monomer structure in two " mouth " character form structures in soft magnetic bodies, carry out alternately demagnetization or magnetic conduction;

Namely the low-temperature receiver valve of each soft magnetic bodies in " mouth " font one tunnel of " day " font is opened simultaneously, each soft magnetic bodies magnetic conduction, is somebody's turn to do the magnetic circuit conducting in " mouth " font structure;

Meanwhile, the thermal source valve of another each soft magnetic bodies in " mouth " font one tunnel is synchronously opened, each soft magnetic bodies demagnetization, and the magnetic circuit be somebody's turn to do in " mouth " font structure disconnects;

Along with single magnet two drive or single magnet 4 wheel driven " day " font generating magnetic conductive loop in two-way " mouth " font in soft magnetic bodies replace demagnetization or magnetic conduction, the increase and decrease that magnetic resistance in the generating magnetic conductive loop of two-way " mouth " font structure replaces, the magnetic flux of the generating magnetic conductive loop of two-way " mouth " font structure changes, the coiling generation current respectively of the generating magnetic conductive loop of two-way " mouth " font structure, generating.

Embodiment three

A device for control combination magnetic circuit generating, the described combination by more than one magnetic conductive loop that generates electricity is configured to the generating magnetic conductive loop that cascading fashion connects, or the generating magnetic conductive loop connected for parallel mode, or to generate electricity magnetic conductive loop for the connection of parallel cascading fashion;

1), the generating magnetic conductive loop that connects of described cascading fashion, from top to bottom connected and composed by cascading fashion by pipeline by soft magnetic bodies 2 corresponding on some identical generating magnetic conductive loop monomer structures;

The thermal source of the generating magnetic conductive loop T1 of the first step, by lowering the temperature after soft magnetic bodies 2 demagnetization, returning electro-heat equipment 10 and continuing heating, forming the first step heat-source Cycles loop;

The low-temperature receiver of the generating magnetic conductive loop T1 of the first step, after soft magnetic bodies 2 magnetic conduction, the conduction oil heat of low-temperature receiver increases, and temperature raises, as the thermal source of the generating magnetic conductive loop of the second step;

The thermal source of the generating magnetic conductive loop T2 of the second step, by lowering the temperature after soft magnetic bodies demagnetization, returns the soft magnetic bodies of the generating magnetic conductive loop of the first step, and after magnetic conduction, heat increases temperature and raises, forms the second step heat-source Cycles loop;

The low-temperature receiver of the generating magnetic conductive loop T2 of the second step, after soft magnetic bodies magnetic conduction, the conduction oil heat of low-temperature receiver increases temperature and raises, as the thermal source of the generating magnetic conductive loop of the 3rd step,

The thermal source of the generating magnetic conductive loop T3 of the 3rd step, by lowering the temperature after soft magnetic bodies demagnetization, returns the soft magnetic bodies of the generating magnetic conductive loop of the second level, and after magnetic conduction, heat increases temperature and raises, forms the 3rd step heat-source Cycles loop;

The low-temperature receiver of the generating magnetic conductive loop T3 of the 3rd step, after soft magnetic bodies magnetic conduction, the conduction oil heat of low-temperature receiver increases temperature and raises, as the thermal source of the generating magnetic conductive loop of next stage, by lowering the temperature after soft magnetic bodies demagnetization, return the soft magnetic bodies of the generating magnetic conductive loop of the third level, after magnetic conduction, heat increases temperature and raises, is next stage heat-source Cycles loop; Until be recycled to n level, the low-temperature receiver of the generating magnetic conductive loop of n level, being lowered the temperature to the conduction oil of low-temperature receiver as blower fan, water cooling unit and refrigeration machine by heat abstractor 11 be low temperature is 50 DEG C to 90 DEG C, for recycling.As shown in Figure 6.

2), described parallel mode connect generating magnetic conductive loop, comprise; The cold parallel generating magnetic conductive loop forward of heat and the cold reverse parallel generating magnetic conductive loop of heat,

(1), the cold parallel generating magnetic conductive loop forward of described heat: connected and composed by parallel mode by pipeline by soft magnetic bodies corresponding on some identical generating magnetic conductive loop monomer structures;

The thermal source of the generating magnetic conductive loop of the first order enters according to the order of sequence, the demagnetization of first order soft magnetic bodies, as the thermal source of the generating magnetic conductive loop of the second level after demagnetization, continue to enter second level soft magnetic bodies demagnetization, as the thermal source of the generating magnetic conductive loop of the third level after demagnetization, continue to enter the demagnetization of third level soft magnetic bodies, as the thermal source of the generating magnetic conductive loop of next stage after demagnetization, continue to enter the demagnetization of third level soft magnetic bodies, the soft magnetic bodies demagnetization of magnetic conductive loop until generate electricity to n level, then thermal of setting out carries out the thermal source of the generating magnetic conductive loop heated as the first order, the demagnetization circulated step by step,

The low-temperature receiver of the generating magnetic conductive loop of the first order enters first order soft magnetic bodies magnetic conduction according to the order of sequence, as the low-temperature receiver of the generating magnetic conductive loop of the second level after magnetic conduction, continue to enter second level soft magnetic bodies magnetic conduction, as the low-temperature receiver of the generating magnetic conductive loop of the third level after magnetic conduction, continue to enter third level soft magnetic bodies magnetic conduction, as the low-temperature receiver of the generating magnetic conductive loop of next stage after magnetic conduction, continue to enter third level soft magnetic bodies magnetic conduction, the soft magnetic bodies magnetic conduction of magnetic conductive loop until generate electricity to n level, then the low-temperature receiver that heat abstractor carries out dispelling the heat as the generating magnetic conductive loop of the first order is entered, the magnetic conduction circulated step by step, Fig. 7.

(2), the cold reverse parallel generating magnetic conductive loop of described heat, be made up of by parallel join some identical generating magnetic conductive loops, the thermal source of the generating magnetic conductive loop of the first order enters according to the order of sequence, the demagnetization of first order soft magnetic bodies, as the thermal source of the generating magnetic conductive loop of the second level after demagnetization, continue to enter second level soft magnetic bodies demagnetization, as the thermal source of the generating magnetic conductive loop of the third level after demagnetization, continue to enter the demagnetization of third level soft magnetic bodies, as the thermal source of the generating magnetic conductive loop of next stage after demagnetization, continue to enter the demagnetization of third level soft magnetic bodies, the soft magnetic bodies demagnetization of magnetic conductive loop until generate electricity to n-th grade, then thermal of setting out carries out the thermal source of the generating magnetic conductive loop heated as the first order, the demagnetization circulated step by step,

The low-temperature receiver of the generating magnetic conductive loop of n-th grade enters n-th grade of soft magnetic bodies magnetic conduction according to the order of sequence, as the low-temperature receiver of the generating magnetic conductive loop of (n-1)th grade after magnetic conduction, continue to enter (n-1)th grade of soft magnetic bodies magnetic conduction, after magnetic conduction, continue the low-temperature receiver as the generating magnetic conductive loop of next stage, until the soft magnetic bodies magnetic conduction of the magnetic conductive loop that generates electricity to the first order, after magnetic conduction, entering heat abstractor carries out dispelling the heat as the low-temperature receiver of the generating magnetic conductive loop of n-th grade, the magnetic conduction circulated step by step; Shown in Fig. 8.

3), the connection of described parallel cascading fashion generating magnetic conductive loop, connect and compose parallel generating magnetic conductive loop group by some identical generating magnetic conductive loops by parallel mode, then some parallel generating magnetic conductive loop groups pressed the connection of step connected mode;

The thermal source of described the first parallel generating magnetic conductive loop group connected by step connected mode enter according to the order of sequence the first order soft magnetic bodies demagnetization of this group, second level soft magnetic bodies demagnetization, the demagnetization of third level soft magnetic bodies, to n-th grade of soft magnetic bodies demagnetization, thermal of thermal source after demagnetization setting out again heats, continue the thermal source as the generating magnetic conductive loop of this group first order, the demagnetization circulated step by step;

The low-temperature receiver of this first parallel generating magnetic conductive loop group is according to the order of sequence by n-th grade of soft magnetic bodies magnetic conduction, the low-temperature receiver as the generating magnetic conductive loop of (n-1)th grade is continued after magnetic conduction, enter (n-1)th grade of soft magnetic bodies magnetic conduction, after magnetic conduction, continue the low-temperature receiver as the generating magnetic conductive loop of next stage, the soft magnetic bodies magnetic conduction of magnetic conductive loop until generate electricity to the first order, after magnetic conduction, conduction oil temperature raises, thermal source as the second parallel generating magnetic conductive loop group enters the first order soft magnetic bodies demagnetization of this group according to the order of sequence, second level soft magnetic bodies demagnetization, the demagnetization of third level soft magnetic bodies, to n-th grade of soft magnetic bodies demagnetization, as the conduction oil of lowering the temperature after thermal source demagnetization, be back in the low-temperature receiver fuel reserve tank of the first parallel generating magnetic conductive loop group again, as the magnetic conduction that the low-temperature receiver of the first parallel generating magnetic conductive loop group circulates step by step,

The low-temperature receiver of this second parallel generating magnetic conductive loop group is according to the order of sequence by n-th grade of soft magnetic bodies, (n-1)th grade, the soft magnetic bodies magnetic conduction of magnetic conductive loop until generate electricity to the first order, after magnetic conduction, conduction oil temperature raises, as next thermal source of n-th group, enter the first order soft magnetic bodies demagnetization of this group according to the order of sequence, second level soft magnetic bodies demagnetization, the demagnetization of third level soft magnetic bodies, to n-th grade of soft magnetic bodies demagnetization, as the conduction oil of lowering the temperature after thermal source demagnetization, be back in the low-temperature receiver fuel reserve tank of the second parallel generating magnetic conductive loop group again, as the magnetic conduction that the low-temperature receiver of the second parallel generating magnetic conductive loop group circulates step by step,

This n-th group walk abreast generating magnetic conductive loop low-temperature receiver according to the order of sequence by n-th grade of soft magnetic bodies, (n-1)th grade until to the first order generating magnetic conductive loop soft magnetic bodies magnetic conduction, after magnetic conduction, conduction oil temperature raises, enter heat abstractor again and carry out radiating and cooling, as the low-temperature receiver of the generating magnetic conductive loop of this group n-th grade, carry out the reverse magnetic conduction circulated step by step.Fig. 9

A method for magnetic circuit generating, described generating magnetic conductive loop is the electricity-generating method of step connection or is the electricity-generating method of parallel join mode or the electricity-generating method for parallel step connected mode,

1), step connect electricity-generating method, connected and composed by step by some identical generating magnetic conductive loops,

The thermal source of the generating magnetic conductive loop T1 of the first order is by lowering the temperature after soft magnetic bodies 2 demagnetization, and returning electro-heat equipment 10 continue heating through valve, pipeline, is one-level heat-source Cycles loop;

The low-temperature receiver of the generating magnetic conductive loop T1 of the first order, after soft magnetic bodies 2 magnetic conduction, conduction oil heat increases temperature and raises, as the thermal source of the generating magnetic conductive loop T2 of the second level, by lowering the temperature after soft magnetic bodies demagnetization, return the soft magnetic bodies 2 of the generating magnetic conductive loop of the first order, after magnetic conduction, heat increases temperature and raises, is secondary source of heat circulation circuit;

The low-temperature receiver of the generating magnetic conductive loop T2 of the second level, after soft magnetic bodies magnetic conduction, conduction oil heat increases temperature and raises, as the thermal source of the generating magnetic conductive loop T3 of the third level, by lowering the temperature after soft magnetic bodies demagnetization, return the soft magnetic bodies of the generating magnetic conductive loop of the second level, after magnetic conduction, heat increases temperature and raises, is three grades of heat-source Cycles loops;

The T3 low-temperature receiver of the generating magnetic conductive loop of the third level, after soft magnetic bodies magnetic conduction, conduction oil heat increases temperature and raises, as the thermal source of the generating magnetic conductive loop of next stage, by lowering the temperature after soft magnetic bodies demagnetization, return the soft magnetic bodies of the generating magnetic conductive loop of the third level, after magnetic conduction, heat increases temperature and raises, is next stage heat-source Cycles loop; Until be recycled to n level, the low-temperature receiver of the generating magnetic conductive loop of n level, being lowered the temperature to the conduction oil of low-temperature receiver as blower fan, water cooling unit and refrigeration machine by heat abstractor be low temperature is 50 DEG C to 90 DEG C, for recycling; As shown in Figure 6.

2), the electricity-generating method of parallel join mode, comprise; The heat cold forward parallel generating generating of magnetic conductive loop and the generating of the cold reverse parallel generating magnetic conductive loop of heat,

A), the generating of the cold forward parallel generating magnetic conductive loop of described heat: be made up of by parallel join some identical generating magnetic conductive loops,

The thermal source of the generating magnetic conductive loop N1 of the first order enters according to the order of sequence, first order soft magnetic bodies 2 demagnetization, as the thermal source of the generating magnetic conductive loop N2 of the second level after demagnetization, continue to enter second level soft magnetic bodies 2 demagnetization, as the thermal source of the generating magnetic conductive loop N3 of the third level after demagnetization, continue to enter third level soft magnetic bodies 2 demagnetization, as the thermal source of the generating magnetic conductive loop of next stage after demagnetization, continue to enter next stage soft magnetic bodies 2 demagnetization, soft magnetic bodies 2 demagnetization of magnetic conductive loop until generate electricity to n-th grade, then thermal of setting out 10 carries out the thermal source of the generating magnetic conductive loop N1 heated as the first order, the demagnetization circulated step by step,

The low-temperature receiver of the generating magnetic conductive loop N1 of the first order enters first order soft magnetic bodies magnetic conduction according to the order of sequence, as the low-temperature receiver of the generating magnetic conductive loop N2 of the second level after magnetic conduction, continue to enter second level soft magnetic bodies magnetic conduction, as the low-temperature receiver of the generating magnetic conductive loop N3 of the third level after magnetic conduction, continue to enter third level soft magnetic bodies magnetic conduction, as the low-temperature receiver of the generating magnetic conductive loop of next stage after magnetic conduction, continue to enter next stage soft magnetic bodies 2 magnetic conduction, soft magnetic bodies 2 magnetic conduction of magnetic conductive loop until generate electricity to n-th grade, then enter heat abstractor 11 to dispel the heat, as the low-temperature receiver of the generating magnetic conductive loop N1 of the first order, the magnetic conduction circulated step by step, as shown in Figure 7.

B), the generating of the cold reverse parallel generating magnetic conductive loop of described heat, be made up of by parallel join some identical generating magnetic conductive loops, the thermal source of the generating magnetic conductive loop of the first order enters according to the order of sequence, the demagnetization of first order soft magnetic bodies, as the thermal source of the generating magnetic conductive loop of the second level after demagnetization, continue to enter second level soft magnetic bodies demagnetization, as the thermal source of the generating magnetic conductive loop of the third level after demagnetization, continue to enter the demagnetization of third level soft magnetic bodies, as the thermal source of the generating magnetic conductive loop of next stage after demagnetization, continue to enter the demagnetization of third level soft magnetic bodies, the soft magnetic bodies demagnetization of magnetic conductive loop until generate electricity to n-th grade, then thermal of setting out carries out the thermal source of the generating magnetic conductive loop heated as the first order, the demagnetization circulated step by step,

The low-temperature receiver of the generating magnetic conductive loop of n-th grade enters n-th grade of soft magnetic bodies magnetic conduction according to the order of sequence, as the low-temperature receiver of the generating magnetic conductive loop of (n-1)th grade after magnetic conduction, continue to enter (n-1)th grade of soft magnetic bodies magnetic conduction, after magnetic conduction, continue the low-temperature receiver as the generating magnetic conductive loop of next stage, until the soft magnetic bodies magnetic conduction of the magnetic conductive loop that generates electricity to the first order, after magnetic conduction, entering heat abstractor carries out dispelling the heat as the low-temperature receiver of the generating magnetic conductive loop of n-th grade, the magnetic conduction circulated step by step; As shown in Figure 8.

3), the electricity-generating method of parallel step connected mode, connect and compose parallel generating magnetic conductive loop group by some identical generating magnetic conductive loops by parallel mode, then some parallel generating magnetic conductive loop groups pressed the connection of step connected mode;

The thermal source of described the first parallel generating magnetic conductive loop group connected by step connected mode enter according to the order of sequence the first order soft magnetic bodies demagnetization of this group, second level soft magnetic bodies demagnetization, the demagnetization of third level soft magnetic bodies, to n-th grade of soft magnetic bodies demagnetization, thermal of thermal source after demagnetization setting out again heats, continue the thermal source as the generating magnetic conductive loop of this group first order, the demagnetization circulated step by step;

The low-temperature receiver of this first parallel generating magnetic conductive loop group is according to the order of sequence by n-th grade of soft magnetic bodies magnetic conduction, the low-temperature receiver as the generating magnetic conductive loop of (n-1)th grade is continued after magnetic conduction, enter (n-1)th grade of soft magnetic bodies magnetic conduction, after magnetic conduction, continue the low-temperature receiver as the generating magnetic conductive loop of next stage, the soft magnetic bodies magnetic conduction of magnetic conductive loop until generate electricity to the first order, after magnetic conduction, conduction oil temperature raises, thermal source as the second parallel generating magnetic conductive loop group enters the first order soft magnetic bodies demagnetization of this group according to the order of sequence, second level soft magnetic bodies demagnetization, the demagnetization of third level soft magnetic bodies, to n-th grade of soft magnetic bodies demagnetization, as the conduction oil of lowering the temperature after thermal source demagnetization, be back in the low-temperature receiver fuel reserve tank of the first parallel generating magnetic conductive loop group again, as the magnetic conduction that the low-temperature receiver of the first parallel generating magnetic conductive loop group circulates step by step,

The low-temperature receiver of this second parallel generating magnetic conductive loop group is according to the order of sequence by n-th grade of soft magnetic bodies, (n-1)th grade, the soft magnetic bodies magnetic conduction of magnetic conductive loop until generate electricity to the first order, after magnetic conduction, conduction oil temperature raises, as next thermal source of n-th group, enter the first order soft magnetic bodies demagnetization of this group according to the order of sequence, second level soft magnetic bodies demagnetization, the demagnetization of third level soft magnetic bodies, to n-th grade of soft magnetic bodies demagnetization, as the conduction oil of lowering the temperature after thermal source demagnetization, be back in the low-temperature receiver fuel reserve tank of the second parallel generating magnetic conductive loop group again, as the magnetic conduction that the low-temperature receiver of the second parallel generating magnetic conductive loop group circulates step by step,

This n-th group walk abreast generating magnetic conductive loop low-temperature receiver according to the order of sequence by n-th grade of soft magnetic bodies, (n-1)th grade until to the first order generating magnetic conductive loop soft magnetic bodies magnetic conduction, after magnetic conduction, conduction oil temperature raises, enter heat abstractor again and carry out radiating and cooling, as the low-temperature receiver of the generating magnetic conductive loop of this group n-th grade, carry out the reverse magnetic conduction circulated step by step; As shown in Figure 9.

Embodiment four

A kind of magnetic circuit generating with heat energy storage and store electrical energy simultaneously, for the magnetic circuit of small-sized solar generates electricity, be made up of the electro-heat equipment 10 of magnetic circuit Blast Furnace Top Gas Recovery Turbine Unit (TRT), solar heat collector 19, electro-heat equipment 10 or auxiliary standby, heat abstractor 11, heat energy storage device 15, charging device 16, storage battery 17 and inverter 18, as shown in figure 11.

Described electricity-generating method, is that the conduction oil that thermal source is heated by the electro-heat equipment 10 on solar heat collector 19 arrives heat accumulation fuel tank 13 through heat energy storage device 15, is delivered to the thermal source valve 6 of magnetic circuit Blast Furnace Top Gas Recovery Turbine Unit (TRT) through oil pump 12;

Conduction oil is lowered the temperature by the blower fan of heat abstractor 11 by low-temperature receiver, is delivered to storage cold oil case 14, is delivered to the low-temperature receiver valve 7 of magnetic circuit Blast Furnace Top Gas Recovery Turbine Unit (TRT) through oil pump 12; Controller KZQ is conventional electric controller, control the high temperature heat conductive oil of entrance thermal source valve 6 pipeline and the low temperature conduction oil of entrance low-temperature receiver valve 7 pipeline, through inlet duct 4 replace by soft magnetic bodies 2, by the high temperature heat conductive oil that soft magnetic bodies 2 replaces, heat through outlet conduit 5, electro-heat equipment 10 that the outlet thermal source valve 8 synchronous with entrance thermal source valve 6 is back on solar heat collector 19; The low temperature conduction oil replaced by soft magnetic bodies 2, is back to heat abstractor 11 dispels the heat through outlet conduit 5, the outlet low-temperature receiver valve 9 synchronous with entrance low-temperature receiver valve 7;

Alternately through high temperature heat conductive oil and the low temperature conduction oil of soft magnetic bodies 2, soft magnetic bodies 2 demagnetization and the magnetic conduction of magnetic circuit Blast Furnace Top Gas Recovery Turbine Unit (TRT) can be made, make magnetic flux change in generating magnetic conductive loop, generating.The flow of soft magnetic bodies is flow through by thermal source valve 6 and low-temperature receiver Valve controlling thermal source conduction oil and low-temperature receiver conduction oil, regulate the speed of soft magnetic bodies 2 demagnetization and magnetic conduction, control the speed that the magnetic resistance in generating magnetic conductive loop alternately increases and decreases, the speed of magnetic flux change in generating magnetic conductive loop can be regulated, thus regulate generating voltage.The water for industrial use of high temperature heat conductive oil and low temperature conduction oil or employing-25 ° of C to 125 ° of C.

Claims (3)

1. the device of a magnetic circuit generating, it is characterized in that: comprising: generating magnetic conductive loop, valve sets, thermal source, low-temperature receiver, the described generating magnetic conductive loop being at least, connects and composes flux oscillations formula magnetic loop by least one magnet (1) by the ferrosilicon core (3) of the soft magnetic bodies (2) Yu coiling that are at least two;

The sectional area of described soft magnetic bodies is identical with the sectional area of magnet with the ferrosilicon core of coiling, two sides of soft magnetic bodies (2) are evenly equipped with several the parallel cavitys communicated, in soft magnetic bodies, the uniform parallel cavity communicated side is provided with the inlet duct (4) that thermal source and low-temperature receiver alternately enter, and uniform another side of parallel cavity communicated is provided with the outlet conduit (5) that thermal source and low-temperature receiver alternately flow out; Described inlet duct (4) is communicated with the entrance low-temperature receiver valve (7) connecting low-temperature receiver with the entrance thermal source valve (6) being connected thermal source respectively, and described outlet conduit (5) is communicated with the outlet low-temperature receiver valve (9) connecting low-temperature receiver with the outlet thermal source valve (8) being connected thermal source respectively;

Wherein, the entrance thermal source valve (6) of soft magnetic bodies (2) arrival end and the outlet thermal source valve (8) of the soft magnetic bodies port of export are for open and close synchronous interaction valve; The entrance low-temperature receiver valve (7) of soft magnetic bodies arrival end and the outlet low-temperature receiver valve (9) of the soft magnetic bodies port of export are for open and close synchronous interaction valve.

2. the device of a kind of magnetic circuit generating according to claim 1, it is characterized in that: described generating magnetic conductive loop is single magnet flow oscillatory type generating magnetic conductive loop of a magnet (1), single magnet flow oscillatory type generating magnetic conductive loop is that single magnet pair drives generating magnetic conductive loop, or is single magnet 4 wheel driven generating magnetic conductive loop;

Described single magnet is two drives generating magnetic conductive loop, be connected with the ferrosilicon core (3) of two coilings respectively by two soft magnetic bodies (2) by two sides of single magnet (1) one end, the other end of the ferrosilicon core (3) of each coiling connects and composes " day " font list magnet pair respectively and drives magnetic loop monomer structure with two sides of single magnet (1) other end;

Described single magnet 4 wheel driven generating magnetic conductive loop, be connected with the ferrosilicon core (3) of two coilings respectively by two soft magnetic bodies (2) by two sides of single magnet (1) one end, the other end of the ferrosilicon core (3) of each coiling connects and composes " day " font list magnet 4 wheel driven magnetic loop monomer structure respectively by soft magnetic bodies (2) and two sides of single magnet (1) other end;

Wherein, the diskette that soft magnetic bodies (2) is made up of some soft magnetic materials, is superimposed as the one piece of soft magnetic bodies iron core being evenly equipped with several identical parallel air gap cavitys; Wherein, magnetically soft alloy Curie point gets 110 DEG C to 550 DEG C as required, density 8.2 g/cm ³, specific heat is 0.46J/g;

Wherein, described magnet (1) is bar permanent magnet, or is " work " font permanent magnet, or is electromagnet.

3. the device of a kind of magnetic circuit generating according to claim 1, it is characterized in that: described generating magnetic conductive loop is many magnet flow oscillatory type generating magnetic conductive loop that two or more magnet (1) is formed, described many magnet flow oscillatory type generating magnetic conductive loop is " day " font magnetic loop of two magnet 4 wheel driven, or be " counterpart " type magnetic loop that two magnet eight drives, or be annular solid magnetic loop;

" day " font magnetic loop of described pair of magnet 4 wheel driven, be connected with two magnet (1) respectively by soft magnetic bodies (2) by two sides of ferrosilicon core (3) one end of single coiling, the other end of each magnet (1) connects and composes the two magnet 4 wheel driven magnetic loop monomer structure of " day " font respectively by soft magnetic bodies (2) and two sides of ferrosilicon core (3) other end of single coiling;

Described annular solid magnetic loop, return magnetic circuit by two magnet 4 wheel driven " day " fonts being at least two and to be connected in series around annular solid and to form, annular solid magnetic circuit is regular polygon body magnetic circuit, or is cylindrical ring body magnetic circuit, and described regular polygon body magnetic circuit is positive 2n limit body, n >=1; N=1 is the annular solid magnetic circuit that two arcuate structure symmetries are formed, and n=2 is foursquare annular solid magnetic circuit;

" counterpart " type loop that described pair of magnet eight drives, by two polarity attracting, each magnet both sides of " work " font magnet one end arranged in parallel to be connected in series respectively by the iron core of two soft magnetic bodies and two coilings and to form " mouth " font magnetic loop; Each magnet both sides of two parallel " work " font magnet other ends are connected in series formation " mouth " font magnetic loop respectively by the iron core of two soft magnetic bodies and two coilings.