CN204089392U - A kind of rotor and adopt its permagnetic synchronous motor - Google Patents

Abstract

The utility model relates to permanent magnet reluctance motor technical field, particularly relates to a kind of rotor and adopts its permagnetic synchronous motor.Rotor comprises rotor core, described rotor core is uniformly distributed with multiple permanent magnet trough group, and each permanent magnet trough group comprises at least two-layer permanent magnet trough, permanent magnet trough near rotor outer circle in described permanent magnet trough group is outer permanent magnet trough, the outside of described outer permanent magnet trough has inwardly protruded outer magnetic conduction passage, the two ends of described outer magnetic conduction passage are connected with magnetic bridge, the angle that the lateral wall of described outer magnetic conduction passage and two intersection points of magnetic bridge are formed with the line of rotor center is respectively a, wherein, the value of angle a is 3 ° ~ (120/2p) °, wherein, P is the number of pole-pairs of rotor.By the setting of two intersection points to outer magnetic conduction passage and magnetic bridge, achieve the effect weakening induced electromotive force harmonic wave, and then achieve the torque pulsation reducing motor.

Description

A kind of rotor and adopt its permagnetic synchronous motor

Technical field

The utility model relates to permanent magnet reluctance motor technical field, particularly relates to a kind of rotor and adopts its permagnetic synchronous motor.

Background technology

Permanent magnet reluctance motor, in order to utilize reluctance torque more fully, is usually designed to multilayer magnetic steel structure, but also exacerbates the degree of irregularity of air gap flux density distribution simultaneously, causes the torque pulsation of motor to increase.Therefore, compared to other types motor, the vibration noise of the reluctance motor of multilayer magnet steel is often more outstanding.

Number of patent application is the permanent-magnetic synchronous motor rotor structure that patent discloses a kind of low harmony wave of 200410053929.7, this rotor structure is not for the reluctance motor of multilayer magnetic steel structure, permanent magnet in this patent is square permanent magnet, but its permanent magnet trough adopted is the structure comparatively similar with this patent.Concrete, its permanent magnet trough is designed to groove structure, but it is to make the air gap of permanent magnet and permanent magnet slotware be uneven change along permanent magnet surfaces that this permanent magnet trough is designed to groove structure, both sides air gap is large, intermediate air gap is little, make the magnetic field in air gap for sinusoidal wave, reach the object of weakened field harmonic wave.Therefore, rotor structure disclosed in this patent can not solve the large problem of the reluctance motor vibration noise of multilayer magnet steel.

Simultaneously for our reluctance motor, permanent magnet is arc, and the method in above-mentioned patent is no longer applicable.And above-mentioned patent also not for the torque pulsation improving motor propose concrete can embodiment.For the permanent magnet synchronous motor that sine wave controls, in order to reduce the ripple in motor torque, require that induced electromotive force is sinusoidal wave.For the motor of single-layer arcuate magnet steel, by reasonably designing the radian of magnet steel, the magnetic flux in every phase winding can in sinusoidal rule change, and the EMF waveform therefore induced is comparatively sinusoidal.And for motor that is double-deck or multilayer magnet steel, rotate in the process of a pair pole at rotor, due to the effect of the permanent magnet of increase, the no longer sineization of the flux change in every phase winding, the high order harmonic component electromotive force that amplitude is higher can be induced in the stator windings, and then add the torque pulsation of motor.Therefore compared to the motor of individual layer magnetic steel structure, the vibration noise problem of multilayer magnet steel motor is more outstanding.Less for the correlation technique reducing the torque pulsation of multilayer magnet steel reluctance motor at present.

For the problems referred to above, we need one can effectively improve induced electromotive force waveform, reduce the torque pulsation of motor, reduce the rotor of noise and adopt its permagnetic synchronous motor.

Utility model content

The purpose of this utility model is to propose a kind of rotor, and it can effectively improve induced electromotive force waveform, reduces the torque pulsation of motor.

Another object of the present utility model is to propose a kind of permagnetic synchronous motor, and it can effectively improve induced electromotive force waveform, reduces the torque pulsation of motor.

For reaching this object, the utility model by the following technical solutions:

A kind of rotor, comprise rotor core, described rotor core is uniformly distributed with multiple permanent magnet trough group, and each permanent magnet trough group comprises at least two-layer permanent magnet trough, permanent magnet trough near rotor outer circle in described permanent magnet trough group is outer permanent magnet trough, the outside of described outer permanent magnet trough has inwardly protruded outer magnetic conduction passage, the two ends of described outer magnetic conduction passage are connected with magnetic bridge, the angle that the lateral wall of described outer magnetic conduction passage and two intersection points of magnetic bridge are formed with the line of rotor center is respectively a, wherein, the value of angle a is 3 ° ~ (120/2p) °, wherein, P is the number of pole-pairs of rotor.

As a kind of preferred version of above-mentioned rotor, described outer permanent magnet trough is concave structure, U-shaped structure or V-arrangement.

As a kind of preferred version of above-mentioned rotor, magnetic conduction passage minimum widith on D direction of principal axis of outer permanent magnet trough is more than or equal to the width of magnetic bridge.

As a kind of preferred version of above-mentioned rotor, the two ends of outer permanent magnet trough are trimming structure, contact for the magnetic bridge preventing the end of permanent magnet corresponding with outer permanent magnet trough.

As a kind of preferred version of above-mentioned rotor, the permanent magnet matched with it is provided with in described permanent magnet trough, described permanent magnet embeds in permanent magnet trough, the width at described permanent magnet trough two ends is more than or equal to the width at permanent magnet two ends, spacing in the middle of permanent magnet trough is more than or equal to the thickness in the middle of permanent magnet, and when described permanent magnet deflection permanent magnet trough side greatest limit, there is gap in the position of the end magnetic bridge corresponding to permanent magnet trough of permanent magnet.

As a kind of preferred version of above-mentioned rotor, described permanent magnet trough is made up of deep-slotted chip breaker and/or rectangular channel, the permanent magnet matched with it arranged in described deep-slotted chip breaker is arcuate structure, and the permanent magnet matched with it arranged in described rectangular channel is rectangular structure.

As a kind of preferred version of above-mentioned rotor, described permanent magnet trough is U-shaped structure, and the permanent magnet trough of this U-shaped structure comprises medial launder, left side groove and right side groove, and the permanent magnet trough of U-shaped structure is at least provided with permanent magnet in left side groove and right side groove.

As a kind of preferred version of above-mentioned rotor, the angle distribution in setting of described left side groove and right side groove, and be provided with permanent magnet in groove and right side groove on the left of only having, the permanent magnet be arranged in left side groove and right side groove extends in medial launder.

As a kind of preferred version of above-mentioned rotor, described medial launder is deep-slotted chip breaker or rectangular channel, and the permanent magnet be arranged in medial launder, left side groove and right side groove is separate permanent magnet.

As a kind of preferred version of above-mentioned rotor, described outer magnetic conduction passage is trapezoidal, square or arcuate structure.

As a kind of preferred version of above-mentioned rotor, the junction of each sidewall of described permanent magnet trough is chamfering or fillet structure.

A kind of permagnetic synchronous motor, this rotor adopts rotor as previously discussed, and the stator of motor is for concentrating winding group, and the tooth boots portion of described stator adopts trimming structure.

The beneficial effects of the utility model are: the utility model provides a kind of rotor and adopts its permagnetic synchronous motor, by the setting of two intersection points to outer magnetic conduction passage and magnetic bridge, achieve the effect weakening induced electromotive force harmonic wave, and then achieve the torque pulsation reducing motor.

Accompanying drawing explanation

Fig. 1 is the structural representation of the rotor that the utility model embodiment one provides;

Fig. 2 is the physical dimension schematic diagram of the rotor that the utility model embodiment one provides;

Fig. 3-7 is the structural representations in the intermediate recess portion of the outer permanent magnet trough of the concave shape structure that the utility model embodiment one provides;

Fig. 8 be the utility model embodiment one provide without the structural representation in the permanent magnet trough of trimming structure when permanent magnet occurrence positions offsets;

Fig. 9 is the structural representation had in the permanent magnet trough of trimming structure when permanent magnet occurrence positions offsets that the utility model embodiment one provides;

Figure 10 is that in prior art, the magnetic line of force moves towards schematic diagram;

Figure 11 is that the magnetic line of force of the present utility model that the utility model embodiment one provides moves towards schematic diagram;

Figure 12 is the torque pulsation oscillogram of the motor of the rotor that the employing prior art rotor that provides of the utility model embodiment one and the utility model provide;

Figure 13 is the rotor structure schematic diagram that the utility model embodiment two provides;

Figure 14 is the structural representation of the permagnetic synchronous motor that the utility model embodiment three provides.

Wherein,

110: rotor core; 120: permanent magnet trough group; 130: magnetic bridge; 140: permanent magnet;

121: outer permanent magnet trough;

1211: trimming structure; 1212: intermediate recess;

221: outer permanent magnet trough; 230: magnetic bridge; 240: permanent magnet.

350: rotor; 360: stator.

Embodiment

The technical solution of the utility model is further illustrated by embodiment below in conjunction with accompanying drawing.

Execution mode one

As shown in Figure 1, the utility model provides a kind of rotor, comprise rotor core 110, rotor core 110 is formed by silicon steel plate stacking, rotor core 110 is uniformly distributed with multiple permanent magnet trough group 120, and each permanent magnet trough group 120 comprises at least two-layer permanent magnet trough, arrange in the interruption in the radial direction of rotor between adjacent permanent magnet groove, connecting portion between the two ends of permanent magnet trough and rotor outer circle is magnetic bridge 130, for connecting adjacent iron cores layer, iron core layer is the magnetic conduction passage of rotor magnetic circuit.

Permanent magnet trough near rotor outer circle in permanent magnet trough group 120 is outer permanent magnet trough 121, the outside of outer permanent magnet trough 121 has inwardly protruded outer magnetic conduction passage, the two ends of outer magnetic conduction passage are connected with magnetic bridge 130, the angle that the outer lateral wall of magnetic conduction passage and two intersection points of magnetic bridge 130 are formed with the line of rotor center is respectively a, wherein, the value of angle a is 3 ° ~ (120/2p) °, and wherein, P is the number of pole-pairs of rotor.Wherein P is 2,4,6 or 8 etc.

It should be noted that: above-mentioned skin, outside refer to the side near rotor outer circle.

Said structure can effectively weaken induced potential harmonic wave, and then reduces the torque pulsation of motor.Magnetic bridge part is due to saturation effects, and magnetic resistance is comparatively large, and magnetic conduction channel part is as magnetism guiding access, and magnetic resistance is less.Because flux loop is along the minimum path of magnetic resistance, therefore, the trend of the part magnetic line of force can be made to change by said structure, and then change the flux change situation in winding, the effect weakening induced electromotive force harmonic wave can be reached.The change situation of the magnetic line of force can be drawn more intuitively by the contrast of Figure 10 and Figure 11.As shown in figure 12 simultaneously, present embodiment additionally provides the torque pulsation oscillogram of the motor of the rotor adopting prior art rotor and the utility model to provide, and what can be drawn the motor of the rotor adopting present embodiment to provide intuitively by the contrast of both oscillograms has less torque pulsation.

Concrete, with reference to Fig. 1, Fig. 2, the outer permanent magnet trough 121 that present embodiment provides is concave shape structure, it is a that the intermediate recess 1212 (i.e. outer magnetic conduction passage) of concave shape structure is positioned at the angle formed near two terminal A of rotor outer circle and the line of B and rotor center, the value of angle a is 3 ° ~ (120/2p) °, wherein, P is the number of pole-pairs of rotor.Concave shape structure specifically refers to: the main body of outer permanent magnet trough 121 is deep-slotted chip breaker, be provided with at the two ends of deep-slotted chip breaker and be parallel to each other or approximately parallel rectangular channel or class rectangular channel, intermediate recess 1212 refers to the structure be parallel to each other or between approximately parallel rectangular channel or class rectangular channel.

Magnetic conduction passage minimum widith b on D direction of principal axis of outer permanent magnet trough 121 is more than or equal to the width c of this layer of magnetic bridge.The setting of this width just further illustrates character cut in bas-relief structure from size.

It should be noted that: for the motor of different slots number of poles, main harmonic number in induced electromotive force is different, and for weakening the induced electromotive force harmonic wave of different number of times, need the angle of a chosen also different, the above-mentioned scope electric machine structure that basic consideration is conventional, outside this scope, effect is not had for reduced harmonic.

As shown in Figure 9, the two ends of outer permanent magnet trough 121 are trimming structure 1211, and for preventing the sidewall contact of the end of permanent magnet 140 and outer permanent magnet trough 121, the magnetic bridge 130 namely for preventing the end of permanent magnet 140 corresponding with outer permanent magnet trough 121 contacts.

When rotor rotates, permanent magnet 140 can be subject to the effect of centrifugal force and be partial to the side of permanent magnet trough, as shown in Figure 8, do not have the outer permanent magnet trough 121 of trimming structure 1211, when skew occurs permanent magnet, permanent magnet 140 can directly contact with magnetic bridge 130, contact point is E point, the magnetic bridge 130 of iron core can be subject to the active force of permanent magnet 140, and due to the mechanical strength of magnetic bridge 130 more weak, be easy to deform.And the two ends of the outer permanent magnet trough 121 of the utility model are trimming structure 1211, when permanent magnet 140 is partial to the limit of permanent magnet trough side, permanent magnet 140 and the contact position of outer permanent magnet trough 121 are the F point in figure, the position still retention gap H of permanent magnet 140 magnetic bridge 130 corresponding to outer permanent magnet trough, the force part of iron core is at magnetic conduction passage place, mechanical strength is herein better, can avoid the distortion of rotor core.That is trimming structure 1211 can play spacing effect to permanent magnet 140, prevent permanent magnet 140 when there is skew and outer permanent magnet trough 121 near rotor outer circle sidewall contact and the rotor core 110 that causes is out of shape.

Be provided with the permanent magnet 140 matched with it in permanent magnet trough, permanent magnet 140 embeds in permanent magnet trough, and permanent magnet trough can be convenient to permanent magnet 140 and embed, and can carry out spacing to permanent magnet 140.Be convenient to permanent magnet 140 embed, and can carry out spacing to permanent magnet 140, refer to permanent magnet 140 can be easy to embed in permanent magnet, and permanent magnet 140 does not have and slides on a large scale in permanent magnet trough, namely, when permanent magnet 140 is partial to permanent magnet trough side greatest limit, between the magnetic bridge 130 that the end of permanent magnet 140 is corresponding with permanent magnet trough, there is gap.

The shape referring to permanent magnet 140 and permanent magnet trough with the permanent magnet 140 that permanent magnet trough matches is substantially identical, and permanent magnet trough in the utility model and permanent magnet 140 all adopt arcuate structure.Permanent magnet 140 is designed to the shape of permanent magnet trough, when permanent magnet 140 is embedded into permanent magnet trough, permanent magnet 140 fills up permanent magnet trough, can improve the torque output capability of motor, compensate for the torque caused the weakening effect in magnetic field due to Baltimore groove and slightly declines.

The set-up mode of permanent magnet 140 is: often organize permanent magnet 140 for same polarity, adjacent set of permanent magnets polarity is contrary, and along the circumferential direction N, S pole is alternately distributed.The width at permanent magnet trough two ends is more than or equal to the width at permanent magnet 140 two ends, spacing in the middle of permanent magnet trough is more than or equal to the thickness in the middle of permanent magnet 140, as preferably, permanent magnet 140 is slightly less than corresponding permanent magnet trough, permanent magnet 140 can be inserted in corresponding permanent magnet trough, and not easily relative sliding occur.

Concrete, with reference to Fig. 2, be described with being arranged in outer permanent magnet trough 221 for outer permanent magnet trough 221, the width W 2 at outer permanent magnet trough 221 two ends should slightly larger than the width W 1 at permanent magnet 140 two ends, space D 2 in the middle of outer permanent magnet trough 221 should slightly larger than the thickness D1 in the middle of permanent magnet 140, thus, permanent magnet 140 can be prevented to be embedded into after in outer permanent magnet trough 221 to be occurred up and down, the slip of left and right, slightly larger than being consider that permanent magnet 140 can be easy to be embedded in permanent magnet trough, and don't in outer permanent magnet trough 221, have larger slip as permanent magnet 140.

With reference to Fig. 3-Fig. 7, intermediate recess 1212 is trapezoidal, square or arcuate structure.Trapezoidally also comprise trapezoidal near the trapezoidal of rotor periphery and top near rotor center of top, it should be noted that: effect of the present utility model depends mainly on the position of intermediate recess and magnetic bridge tie point A, B, concave shape impact is less, but comparatively speaking, from the effect reducing motor torque ripple, the trapezoidal > arc of top near the trapezoidal > square > top of rotor periphery near rotor center.

The junction of each sidewall of permanent magnet trough is chamfering or fillet structure.The permanent magnet trough of this kind of structure, in process of production, can increase the life-span of processing mold.

Execution mode two

In this embodiment, as shown in figure 13, the outer permanent magnet trough 221 of rotor is U-shaped structure, and the groove being at least positioned at U-shaped structure both sides is provided with permanent magnet 240.

The permanent magnet trough of this U-shaped structure comprises medial launder, left side groove and right side groove, and left side groove and the angle of right side groove in setting distribute or parallel distribution.

When left side groove and right side groove are in the distribution of setting angle, the permanent magnet trough of U-shaped structure is at least provided with permanent magnet 240 in left side groove and right side groove.When being provided with permanent magnet 240 in groove and right side groove on the left of only having, the permanent magnet 240 be arranged in left side groove and right side groove extends in medial launder.

Concrete, in this embodiment, the medial launder of U-shaped permanent magnet trough can be deep-slotted chip breaker, can be also rectangular channel, and the permanent magnet 240 in permanent magnet trough can be arcuate structure accordingly, also can be rectangular structure.

In this embodiment, in outer permanent magnet trough 221, the form that arranges of permanent magnet is: be provided with separate permanent magnet 240 in medial launder, left side groove and right side groove.

And the magnetic bridge 230 at outer permanent magnet trough 221 two ends and in the middle of it orlop intersection point A, B (i.e. the lateral wall of outer magnetic conduction passage and two intersection points of magnetic bridge) of iron core layer (i.e. outer magnetic conduction passage) of being connected and the angle a of core center O line be 3 ° ~ (120/2p) ° wherein, P is the number of pole-pairs of rotor.This embodiment can reduce the torque pulsation of motor while increasing Driving Torque.

Further, in the medial launder of U-shaped permanent magnet trough, permanent magnet 240 can not be set, and the permanent magnet being positioned at left side groove and right side groove is lengthened (this kind of situation needs the angle in setting between the permanent magnet of both sides to arrange), form the structure of similar V-arrangement, compared to above-mentioned facilities, can be constant at total permanent magnet 240 consumption of guarantee, when even permanent magnet 240 consumption is less, the air gap flux density of effective increase motor, improve the Driving Torque of motor, reduce the operating current of motor, and then lifting motor efficiency, realize the high-efficient low-noise design of permanent magnet reluctance motor.

In this embodiment, except the specific constructive form of outer permanent magnet trough 221 and execution mode one difference, other even structure execution mode one is identical, and that is the version of permanent magnet trough can carry out suitable distortion according to actual needs.

Execution mode three

In this embodiment, the utility model provides a kind of permagnetic synchronous motor, and its rotor adopts the rotor 350 as provided in execution mode one or two, and the stator 360 of motor is for concentrating winding group.And the tooth boots portion of stator 360 adopts trimming structure.Specifically as shown in figure 14, the rotor 350 of the rotor 350 in present embodiment for providing in execution mode one.

Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection range by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present utility model, and these modes all will fall within protection range of the present utility model.

Claims (12)

1. a rotor, comprise rotor core (110), described rotor core (110) is uniformly distributed with multiple permanent magnet trough group (120), and each permanent magnet trough group (120) comprises at least two-layer permanent magnet trough, it is characterized in that, permanent magnet trough near rotor outer circle in described permanent magnet trough group (120) is outer permanent magnet trough (121, 221), described outer permanent magnet trough (121, 221) outside has inwardly protruded outer magnetic conduction passage, the two ends of described outer magnetic conduction passage are connected with magnetic bridge (130, 230), the lateral wall of described outer magnetic conduction passage and magnetic bridge (130, 230) angle that two intersection points are formed with the line of rotor center is respectively a, wherein, the value of angle a is 3 ° ~ (120/2p) °, wherein, P is the number of pole-pairs of rotor.

2. rotor according to claim 1, is characterized in that, described outer permanent magnet trough (121,221) is concave structure, U-shaped structure or V-arrangement.

3. rotor according to claim 1, is characterized in that, magnetic conduction passage minimum widith on D direction of principal axis of described outer permanent magnet trough (121,221) is more than or equal to the width of magnetic bridge (130,230).

4. rotor according to claim 1, it is characterized in that, the two ends of described outer permanent magnet trough (121,221) are trimming structure (1211), contact for preventing magnetic bridge (130,230) corresponding to the end of permanent magnet (140,240) and outer permanent magnet trough (121,221).

5. rotor according to claim 1, it is characterized in that, the permanent magnet (140 matched with it is provided with in described permanent magnet trough, 240), described permanent magnet (140, 240) embed in permanent magnet trough, the width at described permanent magnet trough two ends is more than or equal to permanent magnet (140, 240) width at two ends, spacing in the middle of permanent magnet trough is more than or equal to permanent magnet (140, 240) thickness in the middle of, and when described permanent magnet (140, 240) when being partial to permanent magnet trough side greatest limit, permanent magnet (140, 240) magnetic bridge (130 that end is corresponding with permanent magnet trough, 230) there is gap between.

6. rotor according to claim 5, it is characterized in that, described permanent magnet trough is made up of deep-slotted chip breaker and/or rectangular channel, the permanent magnet (140,240) matched with it arranged in described deep-slotted chip breaker is arcuate structure, and the permanent magnet (140,240) matched with it arranged in described rectangular channel is rectangular structure.

7. rotor according to claim 5, it is characterized in that, described permanent magnet trough is U-shaped structure, the permanent magnet trough of this U-shaped structure comprises medial launder, left side groove and right side groove, and the permanent magnet trough of U-shaped structure is at least provided with permanent magnet (140,240) in left side groove and right side groove.

8. rotor according to claim 7, it is characterized in that, the angle distribution in setting of described left side groove and right side groove, and being provided with permanent magnet (140,240) in groove and right side groove on the left of only having, the permanent magnet (140,240) be arranged in left side groove and right side groove extends in medial launder.

9. rotor according to claim 7, it is characterized in that, described medial launder is deep-slotted chip breaker or rectangular channel, and the permanent magnet (140,240) be arranged in medial launder, left side groove and right side groove is separate permanent magnet (140,240).

10. rotor according to claim 1, is characterized in that, described outer magnetic conduction passage is trapezoidal, square or arcuate structure.

11. rotors according to claim 1, is characterized in that, the junction of each sidewall of described permanent magnet trough is chamfering or fillet structure.

12. 1 kinds of permagnetic synchronous motors, it is characterized in that, described rotor (350) adopts the rotor (350) as described in claim 1-11 any one, the stator (360) of motor is for concentrating winding group, and the tooth boots portion of described stator (360) adopts trimming structure.