CN200994098Y - Energy-saving permanent-magnet motor - Google Patents

Abstract

The utility model relates to a permanent magnet motor which saves energy, which comprises a rotor (5) and a stator (4) fixed corresponding to a case. The rotor is a disc body on which inlaid more than a pair of permanent magnets with axial polarity (6). The adjoining two permanent magnets have N, S poles with reversed polarities. The stator is made of magnetic conductive material and is provided with two groups of salient poles (4a and 4b) in same quantity. Two groups of salient poles are respectively arranged at both sides of rotor disc. The corresponding salient poles of two groups of the salient poles stagger an angle in peripheral direction, which staggers central axis of permanent magnet entering into between two salient poles and balancing at the coupling of two salient poles with the central axis of salient poles of the stator. A winding (13) communicating with a controller is provided on the salient pole and the controller is connected with the sensor which can sense rotation angle of rotor. The utility model has advantages such as easy start, small startup current, strong capacity of overload, energy save, simple structure, small volume and light weight, as well as long service life.

Description

Energy-saving permanent-magnet formula motor

Technical field

The utility model belongs to technical field of motors, particularly belongs to permanent-magnetic electric machine.

Background technology

There is the problem that starts difficulty in existing magneto and the switched reluctance motor that adopts permanent magnet to make rotor, general starting current is about 5-6 times of rated current, and starting torque has only about 0.8-1.2 times of nominal torque, so big energy-consuming, and have that volume weight is big, consumptive material is many, baroque deficiency

Summary of the invention

The technical problems to be solved in the utility model provides a kind of energy-saving permanent-magnet formula motor, and this permanent-magnetic electric machine has and is easy to start, starting current is little, overload capacity is strong, the saving energy, simple in structure, volume is little, the advantage of in light weight, long service life.

The technical scheme that addresses the above problem is (referring to implementing illustration): the utility model is provided with casing (8), be provided with the rotor (5) that is contained on the main shaft (1) in the casing, with the relatively-stationary stator of casing (4), it is characterized in that: described rotor (5) is the circumferential permanent magnet (6) that is no less than a pair of axial polarity that is embedded with on the disk body of non-magnet material with spacing out, the N of adjacent two permanent magnets, S utmost point polarity opposed alignment, described stator (4) is made with permeability magnetic material, and be provided with two groups of identical salient pole (4a of quantity, 4b), two groups of salient poles are located at the both sides of rotor (5) disk body respectively, it is right that the corresponding salient pole of two groups of salient poles is formed salient pole, right two salient poles of each salient pole are in the circumferential angle that staggers, make and enter between two salient poles and stagger with permanent magnet central axis and stator salient poles central axis that the coupling of two salient poles is in poised state, stator salient poles is provided with the winding (13) that is electrically connected with controller, and controller is connected with the sensor electrical of energy inductiopn rotor rotational angle.

The operation principle of the utility model device is: when static, being contained in the stator that epitrochanterian permanent magnet and permeability magnetic material make attracts each other, forward two right salient pole (4a of stator salient poles to, 4b), the N of axial permanent magnetic body, the S utmost point attracts each other with two salient poles that are positioned at rotor disk body both sides respectively and is in poised state, because two stator salient poles are in the circumferential angle that staggers, so central axis staggered positions of the central axis of permanent magnet and two stator salient poles, do not produce " dead point " of circumferential torque when having avoided permanent magnet and salient pole central axes, feed pulse current to the stator salient poles winding this moment, can and permanent magnet pole between produce tangential electromagnetic force (circumferential torque), make permanent magnet produce the equilbrium position, simultaneously the stator salient poles winding again opposite polarity next stage permanent magnet is drawn onto salient pole between, produce this equilbrium position by stator winding electrifying to the permanent magnet tangential force this moment again, finishes the lasting rotation of rotor with this.

The utility model can be when giving stator winding electrifying, make permanent magnet always be in the position of staggering angle with the stator salient poles central axis, thereby guarantee to produce circumferential torque between stator salient poles and the rotor, make rotor rotation, have and be easy to start, the advantage that starting current is little, because the utility model rotor is not established winding, therefore there is not armature reaction, reduced operating current, starting current of the present utility model can be 50% of running current after the load, rotor is in above-mentioned rotation process in addition, a part is off and on by the magnetic attraction work done between permanent magnet and the stator, and a part is off and on by the electromagnetic field work done of switching on, and can make full use of magnetic field force, therefore has remarkable energy saving effect, and high efficiency, starting torque is big, and the stator salient poles of the utility model device is located at the rotor axial both sides, dwindled radius, had simple in structure, volume is little, in light weight, the advantage of long service life.

Description of drawings

Fig. 1, the utility model example structure schematic diagram

The A-A of Fig. 2, Fig. 1 rotor 5 is to structural representation

On Fig. 3, Fig. 1 rotor permanent magnet 6 with the H of stator salient poles 4a, the 4b of both sides and its coupling to the relative position schematic diagram

Fig. 4, Fig. 1 embodiment rotor permanent magnet 6 and stator salient poles 4a, 4b course of work schematic diagram (this figure has all rotated 90 degree to center of circle direction with the permanent magnet 6 and the physical location of stator salient poles 4, to illustrate the variation of relative angle in the course of the work between them intuitively)

1-main shaft 2-end plate 3-adjustment disk 4- stator 4a, 4b-stator salient poles 5-rotor 6-permanent magnet 7-positioning sleeve 8-casing 9-adjusting rod 10-transducer 11-fan 12-dust cover 13-winding

Embodiment:

Referring to Fig. 1, end plate 2 is equipped with by screw in these routine energy-saving permanent-magnet formula motor case 8 two ends, and main shaft 1 is connected by the end plate 2 of bearing with casing 8 two ends, and this example is coaxial to be provided with two groups of rotor 5 and stators 4 that structure is identical, be contained in main shaft 1 both sides respectively, and separate with positioning sleeve 7.

The structure of every group rotor and stator is: the rotor 5 that is fixed on the main shaft 1 by keyway is disc, form with the embedding of reinforcing fiber resin, referring to Fig. 2, described permanent magnet 6 circumferential evenly being embedded on the rotor discs body, permanent magnet N, S extreme direction is parallel with major axes orientation, and adjacent permanent magnet polarity is opposite, described stator 4 dashes the folded salient pole type structure that forms for the cold rolled silicon steel sheet stock by double-sided insulation, be wound with winding 13 on the salient pole, described stator salient poles is divided into two groups of identical 4a of quantity, 4b, be provided with in disc rotor 5 both sides by screw respectively with casing 8 relative fixed, and facing on the adjustment disk 3 of rotor disk face, the winding of two groups of salient poles is connected in series respectively or is connected in parallel.Circumferentially on this routine rotor 5 evenly be provided with 6 permanent magnets, the every group of stator that is positioned at the rotor both sides has 3 salient poles, be separated by 120 the degree, winding 13 serial or parallel connections on every group of three salient pole connect, two stator salient poles of every pair of mutual correspondence that is positioned at the rotor discs both sides are at circumferential 20 degree (referring to Fig. 3) that stagger, the N of permanent magnet on the axis direction of salient pole and the rotor, S extreme direction is parallel, make the salient pole 4a of rotor both sides, 4b can be respectively and the two poles of the earth coupling that forwards permanent magnet 6 therebetween to, and make permanent magnet can with the magnetic attraction of two salient poles under be equilibrated at two stator salient poles 4a, between the 4b.

Totally four adjustment disks 3 of two groups of this examples are connected with casing 8 by screw respectively, be connected with angular adjustment bar 9 between the two ends adjustment disk 3, can be by the circumferential angular dimension that staggers between the corresponding stator salient poles on the angle adjusted in concert of regulating two ends adjustment disk stator salient poles fixed thereon and the inboard adjustment disk.

The utility model is positioned at the circumferential angular dimension that staggers of the corresponding stator salient poles of rotor disk body both sides on the one hand can not be too big, with satisfy make the permanent magnet between two salient poles 6 can by and the magnetic field force that produces of two salient poles coupling be equilibrated between two salient poles, on the other hand can not be too little, so that be equilibrated at therebetween permanent magnet central axis and the central axis of the two salient poles certain distance that staggers, can produce circumferential torque.Evenly be provided with 3 concerning the rotor of 6 permanent magnets for this example, the angle that the corresponding stator salient poles in rotor both sides staggers is advisable with 18 °-25 °.

But the transducer 10 of inductiopn rotor 5 rotational angles is housed on casing 8 end plates, its transducing signal output is connected with cpu controller, stator winding 13 is connected with power supply by cpu controller, stretch out on the main shaft 1 of a side end panel 2 fan 11 is housed, fan 11 outer being provided with and the relatively-stationary dust cover 12 of end plate.

The installation procedure of this magneto is: earlier stator salient poles is contained on the adjustment disk 3, two adjustment disks and positioning sleeve screw with the inboard is fixed on middle part axial in the casing again, right two adjustable plates that the spindle rotor and the outside are installed, and main shaft is fixed on the end plate of both sides by bearing pedestal, be connected with angular adjustment bar 9 between two adjustable plates of the outside, on two adjustable plates of available its adjusted in concert outside on salient pole and inboard two adjustable plates corresponding salient pole will mix up the adjustable plate and the casing relative fixed of angle again with screw in the circumferential angle that staggers.

Referring to Fig. 4 this routine permanent magnet machine rotor permanent magnet 6 and stator salient poles course of work schematic diagram, this figure has all rotated 90 degree to axis direction with the position of actual rotor and stator, with the relative angle that more can intuitively illustrate between them, the stator salient poles 4a of outer ring represents to be positioned at the salient pole in the rotor discs outside among the figure, the stator salient poles 4b of inner ring represents to be positioned at the salient pole of rotor discs inboard, the salient pole 4a of rotor both sides, circumferential about 20 degree that stagger of 4b, under cold quiescent conditions, rotor permanent magnet 61,63,65 with the corresponding stator salient poles made from permeability magnetic material to attracting each other, produce torque, move to the salient pole 4a of salient pole to the circumferential angle that staggers, between the 4b (shown in Fig. 4-1), the two poles of the earth of permanent magnet attract each other with two salient poles respectively, be in poised state, add a direct impulse electric current for this moment three the stator winding 4a in the outside and form the N utmost point, by with permanent magnet 61,63,65 outside S utmost points attract each other to rotor generation one tangential force pulse left, it is turned left and forward the position of Fig. 4-2 by inertia to, permanent magnet 62 then, 64,66 by with the magnetic attraction of stator salient poles be drawn onto corresponding salient pole shown in Fig. 4-3 between the equilbrium position, at this moment, add a negative-going pulse electric current for again inboard stator winding 4b and form the S utmost point, repel each other with the S utmost point of permanent magnet inboard, permanent magnet is turned left, circulate with this, realize the lasting rotation of rotor.

Energising is controlled by cpu controller constantly, controller obtains the signal of rotor rotation angle by transducer, when rotor forwarded set angle (stator salient poles of the angle that staggers between) to, inboard that controller control is set or the energising of outside winding realized promoting the function of rotor.If rotor is turned left by aforementioned energising direction, then change the energising direction rotor is turned right, these all can be controlled by cpu controller.

Per 6 steps of this routine rotor turn around, every circle inboard and outside winding are switched on 3 times, per step is changeed 60 degree, 30 degree are changeed in acting approximately by permanent magnet suction, by about 30 degree of energising electromagnetic field work done, starting current is little in addition, so energy-saving effect is remarkable, and two rotors of this machine are driven by four groups of windings, controller can select to give one or more winding energisings arbitrarily according to the size of load, for example when in heavy load, controller is controlled to 4 windings energisings and is realized that full load drive, light hours (as the electric motor car descending time) controllable portion or all winding become the generating winding and charge to electric-stored battery jar, realize the energy complement under light load and two kinds of operational environments of heavy load, reasonable energy utilization, avoid resembling other motor the light hours to waste of electric energy, further reach energy-efficient purpose.

This routine good energy-conserving effect, and it is little, in light weight, simple in structure to have a volume, high efficiency, The characteristics that staring torque is big.

Claims (7)

1, energy-saving permanent-magnet formula motor, be provided with casing (8), be provided with the rotor (5) that is contained on the main shaft (1) in the casing, with the relatively-stationary stator of casing (4), it is characterized in that: described rotor (5) is the circumferential permanent magnet (6) that is no less than an a pair of axial polarity that is embedded with on the disk body of non-magnet material with spacing out, the N of adjacent two permanent magnets, S utmost point polarity opposed alignment, described stator (4) is made with permeability magnetic material, and be provided with two groups of identical salient pole (4a of quantity, 4b), two groups of salient poles are located at the both sides of rotor (5) disk body respectively, it is right that the corresponding salient pole of two groups of salient poles is formed salient pole, right two salient poles of each salient pole are in the circumferential angle that staggers, make and enter between two salient poles and stagger with permanent magnet central axis and stator salient poles central axis that the coupling of two salient poles is in poised state, stator salient poles is provided with the winding (13) that is electrically connected with controller, and controller is connected with the sensor electrical of energy inductiopn rotor rotational angle.

2, energy-saving permanent-magnet formula motor according to claim 1, it is characterized in that: described rotor (5) is a disc, described permanent magnet (6) is circumferential evenly to be embedded on the rotor discs body, permanent magnet N, S extreme direction are parallel with major axes orientation, and adjacent permanent magnet polarity is opposite, described stator salient poles is divided into quantity identical two groups (4a), (4b), be separately fixed at that disc rotor (5) both sides are provided with casing (8) relative fixed and facing on the adjustment disk (3) of rotor disk face, the winding of two groups of salient poles is connected in series respectively or is connected in parallel.

3, energy-saving permanent-magnet formula motor according to claim 1 is characterized in that: described rotor (5) is gone up circumferential six permanent magnets that evenly are provided with, and the every group of stator that is positioned at the rotor both sides has 3 salient poles, 120 degree of being separated by.

4, energy-saving permanent-magnet formula motor according to claim 3 is characterized in that: two stator salient poles of every pair of mutual correspondence that is positioned at the rotor both sides are at the circumferential 18-25 of staggering degree.

5, energy-saving permanent-magnet formula motor according to claim 1 is characterized in that: described casing (8) but the described transducer (10) of inductiopn rotor rotational angle is housed on the end plate.

6, according to the described energy-saving permanent-magnet formula of the arbitrary claim of claim 1-5 motor, it is characterized in that: be provided with two groups of described rotor (5) and stators (4) that structure is identical, be contained in main shaft (1) both sides respectively, and separate with positioning sleeve (7).

7, energy-saving permanent-magnet formula motor according to claim 2, it is characterized in that: be provided with two groups of described rotor (5) and stators (4) that structure is identical, be contained in main shaft (1) both sides respectively, and separate, be connected with adjusting rod (9) between the two ends adjustment disk (3) with positioning sleeve (7).

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