CN101204931A - Permanent magnetism electromagnetic blending magnet design method of electromagnetic type maglev train and structure - Google Patents

Abstract

The invention relates to a method for designing a hybrid magnet of a permanent magnet and an electromagnet of an electronic-magnetic maglev. By adjusting a working point of the permanent magnet according to a changing range of bearing weight of the maglev, the working point of the permanent magnet is near a point of the maximum energy when the changing range of bearing weight is relatively wide. The invention also provides a structure of the hybrid magnet of the permanent magnet and the electromagnet of the electronic-magnetic maglev, which comprises the permanent magnet, an electromagnetic coil, an iron core and a magnetic yoke. The electromagnetic coil is winded on the iron core by using electricity conducting material and forms a magnetic pole with the iron core. The electromagnetic pole is arrayed in a row. The magnetic yoke is arranged on the external side of an S pole and an N pole of the permanent magnet; the permanent magnet is tightly clamped from both sides and is in joint with the bottom of the magnetic pole of the electromagnet. The magnetic yoke and the permanent magnet are arranged between two nearby magnetic poles of the electromagnet. The method of the invention can select the working point of the permanent magnet according to requirements on bearing capability. The designed hybrid magnet can meet different requirements on bearing capability.

Description

A kind of permanent-magnetism electromagnetic mictomagnet method of designing and structure of electromagnetic type magnetic floating train

[technical field]

The present invention relates to magnetic-levitation train, be specifically related to a kind of EMS type (electromagnetic type) magnetic-levitation train the permanent-magnetism electromagnetic mictomagnet method of designing and according to this method design-calculated structure.

[background technology]

The working mechanism of EMS type magnetic-levitation train is to utilize the attraction track that lift force is provided, and make train keep stable suspersion by changing the lift force that magnet provided, therefore, suspension magnet is the critical component of magnetic-levitation train, and it has determined the load-carrying capacity and the suspension property of magnetic-levitation train.

The suspension magnet of EMS type magnetic-levitation train adopts electromagnet usually, and for example the HSST of De Guo TR, Japan adopts electromagnet.In order to improve load-carrying capacity, require usually to select current of electromagnet bigger, and that levitation gap requires is less, so often cause the volume of vehicle-mounted power equipment supply and capacity big, the electromagnet heating seriously, to having relatively high expectations of levitation gap control accuracy.

From the angle of suspension magnet, the problems referred to above mainly contain following two kinds of solutions: (1) suspension magnet is made up of electromagnet and superconducting magnet, and superconducting magnet provides main lift force, and the magnet control system stablizes; (2) suspension magnet is made up of electromagnet and permanent magnet, and permanent magnet provides main lift force, and the magnet control system stablizes.

Though superconducting magnet can provide high-intensity magnetic field, its operating temperature is lower, therefore also need provide refrigerating apparatus and magnetic shielding device, can increase the cost and the complexity of system like this, implements the comparison difficulty.And permanent magnet can be worked at normal temperatures, adopts neodymium-iron-boron permanent magnet just can provide magnetic-levitation train required magnetic field, and cost is lower, realizes also than being easier to.Therefore, second kind of scheme mainly adopted in present research, for example the M3 of the U.S., the electrician of Chinese Academy of Sciences institute, forward position etc. unit all this scheme has been carried out certain research.The M3 of the U.S. has carried out more deep research to this field, but is subjected to the restriction of permanent magnet installation site, and the load-carrying capacity deficiency of this device can't satisfy the engineering application requirements.

[summary of the invention]

The present invention is directed to the deficiency that present EMS type magnetic-levitation train prior art exists, a kind of method and structure that designs the permanent-magnetism electromagnetic mictomagnet proposed, can require to select the operation point of permanent magnet according to load-carrying capacity, designed mictomagnet can satisfy different load-carrying capacity requirements.

Technical scheme proposed by the invention is:

A kind of method of designing of permanent-magnetism electromagnetic mictomagnet of electromagnetic type magnetic floating train, it is the operation point of adjusting permanent magnet according to the variation range of the load capacity of magnetic-levitation train, make that the permanent magnet operation point is positioned near the maximum magnetic energy product point when the load capacity variation range is big.

The step of described adjustment permanent magnet operation point is:

Disturbances of power scope when (1) choosing stable suspersion according to the BH curve of permanent magnet makes this variation range near maximum magnetic energy product point;

(2) calculate the magnetic pole area of permanent magnet according to the variation range of the load capacity of magnetic-levitation train, make the operation point of permanent magnet in the selected variation range of step (1);

(3), calculate permanent magnet along the minimum length of magnetic direction and the maximum a.t. of electromagnet according to the variation range of the load capacity of magnetic-levitation train and the capacity of onboard power system.

Wherein, described step (1) is calculated the magnetic pole areal extent of permanent magnet according to the magnetic flow of when carrying suspension magnetic, the disturbances of power scope of permanent magnet when determining to suspend.

According to above-mentioned method of designing, the invention provides a kind of permanent-magnetism electromagnetic mictomagnet structure of electromagnetic type magnetic floating train, comprise permanent magnet, magnet coil, iron core and yoke, described magnet coil adopts the conductive material wire-wound to be formed on the iron core, constitute the electromagnetism magnetic pole with iron core, the arrangement of embarking on journey of described electromagnetism magnetic pole, yoke places the S utmost point and the N utmost point outside of described permanent magnet, from the both sides grip permanent magnet, and bottom the electromagnetism magnetic pole, fit, described yoke and permanent magnet place between two adjacent electromagnetism magnetic poles.

The magnetic direction of described adjacent two permanent magnets is opposite, and the magnetic direction of adjacent two magnet coils is also opposite after the energising.

Described permanent magnet can be rectangular configuration.

Described permanent magnet can adopt at least two assembled.

The present invention has following technique effect:

(1) the present invention can make permanent magnet be operated near the maximum magnetic energy product point, and the adjustable range of operation point be bigger by increasing the magnetic pole Method for Area of permanent magnet when the load capacity variation range is big.

(2) reduce the length of permanent magnet under the prerequisite of specified load bearing requirements satisfying along magnetic direction, can make the operation point of permanent magnet to change adjustment rapidly with electric current, it is big to be that the electric current a.t. changes when a certain amount of the adjusting range of operation point, make lift force with being changed significantly of electric current, thereby make mictomagnet have controllability preferably.

(3) owing to reduced the length of permanent magnet along magnetic direction, the operation point that makes permanent magnet accelerates with the electric current pace of change that (permanent magnet is short more along magnetic direction, the operation point of permanent magnet changes rapid more with electric current), be that lift force changes electric current a.t. required when a certain amount of and reduces, so under the prerequisite that the load-carrying capacity of magnetic-levitation train remains unchanged, can reduce the required maximum a.t. of magnet coil, reduce the volume and weight of electromagnet, and then can reduce the volume and weight of vehicle-mounted power equipment supply.

(4) under same load capacity, by increasing the magnetic pole area of permanent magnet, can also increase the levitation gap of mictomagnet, reduce the requirement of magnetic-levitation train to trajectory accuracy.

Adopt design-calculated permanent-magnetism electromagnetic mictomagnet of the present invention, both be applicable to EMS type magnetic-levitation train, also be applicable to other EMS type magnetic suspension system.

[description of drawings]

Fig. 1 is the BH curve of permanent magnet;

Fig. 2 is the structural representation of the permanent-magnetism electromagnetic mictomagnet of three magnetic poles of the present invention;

Fig. 3 is the structural representation of the full magnetic pole mictomagnet of EMS magnetic-levitation train of the present invention;

Fig. 4 is the assembly unit scheme drawing of permanent magnet.

[specific embodiment]

In the permanent magnetic iron field of research, the key of design permanent-magnetism electromagnetic mictomagnet is rationally to choose the operation point of permanent magnet.As everyone knows, the BH curve of permanent magnet is by the material decision, and it has reflected permanent magnet disturbances of power trend and variation range.As shown in Figure 1, B wherein _mFor the magnetic of operation point close, H _mBe the magnetic-field intensity of operation point, B _rBe the remanent magnetism of permanent magnet, H _cCoercive force for permanent magnet.If the operation point of permanent magnet is too high or too low, its variation range can be very little so, the variation range of the lift force that directly causes mictomagnet and provided is very limited, makes the dynamic adjustment process difficulty relatively of magnetic-levitation train, even can't realize stable suspersion.

According to the continuous theorem of magnetic flux, the magnetic flow of suspension magnetic equals the magnetic flow that permanent magnet provides, and promptly the magnetic of permanent magnet operation point is close is directly proportional with the magnetic flow of suspension magnetic, is inversely proportional to the magnetic pole area of permanent magnet.When load capacity changed, the magnetic flow that needs suspension magnetic to provide can change thereupon, so the magnetic of permanent magnet operation point is close also is affected, be in particular in that load capacity is big more, the magnetic flow of suspension magnetic is just big more, and the operation point of permanent magnet is also high more, and vice versa.Operation point when considering the magnetic-levitation train stable suspersion, if train is fully loaded, load capacity maximum so, the operation point is the highest; If the vehicle zero load, load capacity minimum so, the operation point is minimum.The load-carrying capacity of magnetic-levitation train is high more, means that the variation range of load capacity is big more, and the disturbances of power scope is also big more during stable suspersion.Simultaneously, further contemplate the dynamic adjustment process of magnetic-levitation train, the actual change scope of operation point is bigger.Therefore, constraint has been proposed for the material and the choosing of operation point of permanent magnet, on the one hand, the scope of the BH curve of permanent magnet during than stable suspersion the disturbances of power scope big; On the other hand, the disturbances of power scope should be positioned at the interlude of BH curve during stable suspersion.

The present invention is directed to magnetic-levitation train load capacity variation range when big, the operation point of permanent magnet is problem higher or on the low side easily, a kind of method that designs the permanent-magnetism electromagnetic mictomagnet has been proposed, it mainly is the operation point that can adjust permanent magnet according to the variation range of load capacity, can make that permanent magnet can be operated near the maximum magnetic energy product point when magnetic-levitation train load capacity variation range is big.Adopt this method design-calculated permanent-magnetism electromagnetic mictomagnet, during work,, also can provide enough lift forces, and lift force can change rapidly with electric current and adjust, make mictomagnet have controllability preferably even when the load capacity variation range is big.

Specific practice of the present invention is: when the load capacity variation range is big, increase the magnetic pole area of permanent magnet, make permanent magnet disturbances of power scope diminish, only change near maximum magnetic energy product point; And reduce permanent magnet along the minimum length of magnetic direction and the maximum a.t. of electromagnet, reducing the capacity of required onboard power system, and the operation point of accelerating permanent magnet makes mictomagnet have controllability preferably with the regulating the speed of electric current.

Concrete steps of the present invention are:

Disturbances of power scope when 1) choosing stable suspersion according to the BH curve of permanent magnet makes this variation range near maximum magnetic energy product point.

As shown in Figure 1, some A represents the maximum magnetic energy product point of permanent magnet, and segment of curve BC represents selected disturbances of power scope, and this variation range comprises an A, and it is much smaller with respect to the changing operate-point scope that BH curve allowed.The cooresponding magnetic of note point B is close to be B _Min, the cooresponding magnetic of some C is close to be B _Max, B so _MinAnd B _MaxBe respectively close minimum value and the maxim of magnetic that permanent magnet provided.

2) choose the magnetic pole area of permanent magnet according to the load capacity variation range.

The load capacity maximum of magnetic-levitation train at full load, the magnetic that needs permanent magnet to provide is close also maximum.The operation point of supposing permanent magnet is at a C, and promptly permanent magnet provides the maximum close B of magnetic _Max, can calculate the following S of being limited to of the magnetic pole area of permanent magnet so according to the magnetic flow of suspension magnetic _MinEqually, the load capacity minimum when unloaded, the magnetic that needs permanent magnet to provide is close also minimum.The operation point of supposing permanent magnet is at a B, and promptly permanent magnet provides the minimum close B of magnetic _Min, so according to the magnetic flow of suspension magnetic can calculate permanent magnet the magnetic pole area on be limited to S _MaxIf the lower limit S of magnetic pole area _MinLess than its upper limit S _Max, we just can choose the magnetic pole area S of permanent magnet so _m, make S _Min＜S _m＜S _MaxIf the lower limit S of magnetic pole area _MinGreater than its upper limit S _Max, need to return the first step so, permanent magnet disturbances of power scope when choosing stable suspersion again.

3) reduce permanent magnet along the minimum length of magnetic direction and the maximum a.t. of electromagnet, reducing the capacity of required onboard power system, and the operation point of accelerating permanent magnet makes mictomagnet have controllability preferably with the regulating the speed of electric current.

Because mictomagnet is relevant with the variation range of load capacity along the length of magnetic direction, satisfying under the prerequisite of specified load bearing requirements, reduce the length of permanent magnet, and, calculate the maximum a.t. of electromagnet according to the variation of load capacity and the requirement of dynamic adjustments along magnetic direction; If the maximum a.t. of electromagnet has exceeded the capacity of onboard power system, then to suitably increase the length of permanent magnet along magnetic direction, can provide the maximum a.t. that calculates gained to electromagnet until onboard power system.The effect of this adjustment is: first, because the relative magnetic permeability of permanent magnet is very little, make the potential drop of itself to ignore, so permanent magnet is short more along magnetic direction, need to offer its variable quantity of potential drop just more little for electromagnet during adjusting work point, and regulating the speed of operation point is just rapid more with the variation of electric current; The second, after the maximum a.t. of electromagnet reduced, at first, the volume and weight of magnet coil can reduce, and helped alleviating the magnet deadweight, improved load-carrying capacity; Secondly, the capacity of required onboard power system can reduce, and correspondingly the cost of power equipment supply and cost all can reduce.

4) adjust the design size of yoke according to the design size of permanent magnet and electromagnet, the principle of adjustment is: the first, yoke can with the intact applying of permanent magnet, the sectional area of the two contact surface is equal substantially; The second, yoke can with the intact applying of iron core, the sectional area of the two contact surface is equal substantially; The 3rd, yoke with the magnetic field vertical direction on sectional area be greater than a certain fixed value, avoid occurring the magnetic flux saturated phenomenon.

According to said method, the present invention has designed the permanent-magnetism electromagnetic mictomagnet structure embodiment with three magnetic poles, is used for the EMS magnetic-levitation train.

As shown in Figure 2, the permanent-magnetism electromagnetic mictomagnet of present embodiment comprises permanent magnet 1, yoke 2, magnet coil 3, iron core 4, magnet coil 5 and iron core 6, described iron core 4 and iron core 6 are permeability magnetic material, magnet coil 3 adopts conductive material wire-wound iron core 4 to form, electromagnetism magnetic pole in the middle of a magnet coil 3 and an iron core 4 are just formed one, magnet coil 5 adopts conductive material wire-wound iron core 6 to form, a magnet coil 5 and an iron core 6 are just formed an end electromagnetism magnetic pole, present embodiment adopts two end electromagnetism magnetic poles and a middle electromagnetism magnetic pole, the arrangement of embarking on journey; Described permanent magnet 1 is a rectangular configuration, can select Nd-Fe-Bo permanent magnet material usually, and described yoke 2 is positioned at the S utmost point and the N utmost point outside of permanent magnet 1, selects permeability magnetic material usually for use, gets final product as iron and steel; Yoke 2 and permanent magnet 1 are between adjacent two electromagnetism magnetic poles, and yoke 2 and the applying of electromagnetism magnetic pole bottom, so the shape of yoke 2 must be consistent with the shape of permanent magnet 1 and electromagnetism magnetic pole.

As shown in Figure 2, in order to form closed magnetic circuit 7, the magnetic direction of adjacent two permanent magnets 1 is opposite, and the magnetic direction of magnet coil 3 and magnet coil 5 is also opposite after the energising.(because the magnetic direction of magnet coil was both relevant with the coil winding direction, relevant with direction of current again, usually the coiling direction of magnet coil is the same, the present invention is by changing the connection mode of magnet coil both positive and negative polarity, make that the magnetic direction of adjacent two magnet coils is opposite) this structure with arrange and can see, the magnetic pole area of permanent magnet 1 is bigger, when the load capacity variation range is big, permanent magnet is operated near the maximum magnetic energy product point.

As shown in Figure 2, in order to optimize closed magnetic circuit 7, the width of magnet coil 5 is less than the width of magnet coil 3 usually, and the width of iron core 6 is also less than the width of iron core 4.

Fig. 3 is another example structure scheme drawing of the full magnetic pole mictomagnet of EMS magnetic-levitation train of the present invention.As shown in Figure 3, the mictomagnet of EMS type magnetic-levitation train has eight magnetic poles, certainly, can also do suitable increase or minimizing as required.Fig. 3 is with respect to Fig. 2, and mictomagnet extends, and has increased by five middle electromagnetism magnetic poles, and correspondingly permanent magnet 1 has increased by five, and yoke 2 has increased by ten.The area of present embodiment permanent magnet 1 is bigger with respect to the foregoing description, is because the load capacity variation range of EMS type magnetic-levitation train is bigger.For forming closed magnetic circuit, the magnetic direction of adjacent permanent is opposite, and the magnetic direction of adjacent electromagnetic coil is also opposite after the energising.

Fig. 4 is the assembly unit scheme drawing of permanent magnet of the present invention.Because the load capacity of EMS type magnetic-levitation train is big, so the magnetic pole area of design-calculated permanent magnet is also big.But owing to be subjected to the restriction of current processing technology, the size of monolithic permanent magnet can't reach bigger size.Therefore, permanent magnet 1 can be assembled with at least two blocks of permanent magnets.As shown in Figure 4, permanent magnet 1 is arranged by four small permanent magnet 8 and is formed, and can increase the magnetic pole area of permanent magnet.Certainly, also can adjust the arrangement mode and the quantity of fritter permanent magnet 8 as required; Center at fritter permanent magnet 8 has aperture, can permanent magnet 8 be fixed on the yoke by screw.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to claim of the present invention.Should be pointed out that for the person of ordinary skill of the art without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (7)

1. the method for designing of the permanent-magnetism electromagnetic mictomagnet of an electromagnetic type magnetic floating train, it is characterized in that: it is the operation point of adjusting permanent magnet according to the variation range of the load capacity of magnetic-levitation train, make that the permanent magnet operation point is positioned near the maximum magnetic energy product point when the load capacity variation range is big.

2. the method for designing of the permanent-magnetism electromagnetic mictomagnet of electromagnetic type magnetic floating train according to claim 1, it is characterized in that: the step of described adjustment permanent magnet operation point is:

Disturbances of power scope when (1) choosing stable suspersion according to the BH curve of permanent magnet makes this variation range near maximum magnetic energy product point;

(2) calculate the magnetic pole area of permanent magnet according to the variation range of the load capacity of magnetic-levitation train, make the operation point of permanent magnet in the selected variation range of step (1);

(3), calculate permanent magnet along the minimum length of magnetic direction and the maximum a.t. of electromagnet according to the variation range of the load capacity of magnetic-levitation train and the capacity of onboard power system.

3. the method for designing of the permanent-magnetism electromagnetic mictomagnet of electromagnetic type magnetic floating train according to claim 2, it is characterized in that: described step (1) be according to when carrying suspension magnetic magnetic flow calculate the magnetic pole areal extent of permanent magnet, the disturbances of power scope of permanent magnet when determining to suspend.

4. the permanent-magnetism electromagnetic mictomagnet structure of an electromagnetic type magnetic floating train, comprise permanent magnet, magnet coil, iron core and yoke, described magnet coil adopts the conductive material wire-wound to be formed on the iron core, constitutes the electromagnetism magnetic pole with iron core, it is characterized in that the arrangement of embarking on journey of described electromagnetism magnetic pole; Yoke places the S utmost point and the N utmost point outside of described permanent magnet, from the both sides grip permanent magnet, and fits bottom the electromagnetism magnetic pole, and described yoke and permanent magnet place between two adjacent electromagnetism magnetic poles.

5. permanent-magnetism electromagnetic mictomagnet structure according to claim 4, it is characterized in that: the magnetic direction of described adjacent two permanent magnets is opposite, and the magnetic direction of adjacent two magnet coils is also opposite after the energising.

6. according to claim 4 or 5 described permanent-magnetism electromagnetic mictomagnet structures, it is characterized in that: described permanent magnet is a rectangular configuration.

7. permanent-magnetism electromagnetic mictomagnet structure according to claim 6 is characterized in that: at least two of described permanent magnet employings are assembled.

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