CN204517610U - A kind of Hybrid Excitation Switched Reluctance Motor and stator structure thereof - Google Patents

Abstract

The utility model discloses a kind of stator structure of Hybrid Excitation Switched Reluctance Motor, comprise the salient pole stator core and several armature winding that are provided with stator slot and stator tooth, be provided with permanent magnet trough on the stator teeth, permanent magnet trough internal fixtion is provided with permanent magnet; In addition, between adjacent two stator tooths, can arrange an electric excitation winding pole coil, each electric excitation winding pole coil is across being around in the electric excitation winding groove of adjacent two stator tooths; The invention also discloses the Hybrid Excitation Switched Reluctance Motor containing said stator structure and field spider iron core, the cylindrical side of the rotor tooth of field spider iron core, is provided with sulculus.The utility model is arranged by said structure, make Hybrid Excitation Switched Reluctance Motor have high power density, high operational efficiency, high reliability, operate steadily, noise is low, the good characteristic of wide operational speed range, be specially adapted to wind-powered electricity generation field, will greatly promote the development of wind-powered electricity generation Field Electric motors technology.

Description

A kind of Hybrid Excitation Switched Reluctance Motor and stator structure thereof

Technical field

The utility model relates to machine field, particularly, relates to a kind of Hybrid Excitation Switched Reluctance Motor and stator structure thereof, is particularly useful for wind power generation.

Background technology

At present, wind power generation generator special forward high reliability, low maintenance, reduce assembly, reduce costs, efficiency is high, integrated level is high future development, general trend is that single-machine capacity constantly increases.In the wind generator system of variable speed constant frequency, many employing double-fed asynchronous generators and magneto alternator.

Wherein, owing to there is gear box, rotor there is carbon brush and slip ring in double-fed asynchronous generator, so make that system cost is high, poor reliability, maintenance be large, and noise pollution is serious.And when its underrun, efficiency is lower, and particularly along with the increase of single-machine capacity, problem is more outstanding.

Permanent-magnetic wind driven generator adopts permanent magnet excitation, eliminate excitation loss, improve efficiency, achieve non-brushing, and permanent magnet generator operationally, does not need, from electrical network absorbing reactive power to set up magnetic field, can improve the power factor of electrical network; But permanent-magnetic wind driven generator operationally, rotor temperature rise is high, radiating condition is poor, centrifugal force when adding operation and vibration force, easily makes permanent magnet Yin Gaowen demagnetize or comes off because of centrifugal force and vibration force, easily causing motor performance to decline gradually in During Process of Long-term Operation.

Switched reluctance machines has the advantages such as structure is simple, electricity/magnetic independence is good, zmodem, cost are low, reliable, it is flexible to control, superior performance, and therefore the application prospect of switched reluctance machines on wind-powered electricity generation is very wide.

But switching magnetic-resistance wind-driven generator exists simultaneously, and cogging torque pulsation is large, noise and vibration large, efficiency performance lower than permanent-magnetic wind driven generator, add that driving control system is complicated, high in cost of production shortcoming, fail wide popularization and application in wind-powered electricity generation field.

Therefore, develop a kind of novel, high power density, high efficiency, there is the high reliability of fault-tolerance, the wind-driven generator of non-brushing, become the problem that wind-powered electricity generation field is urgently broken through.

Utility model content

For the problems referred to above, the purpose of this utility model is to provide a kind of Hybrid Excitation Switched Reluctance Motor and stator structure thereof, with the feature making this motor have high power density, high efficiency, high reliability, non-brushing, thus overcome existing double-fed wind power generator, permanent-magnetic wind driven generator, switching magnetic-resistance wind-driven generator the deficiencies in the prior art.

For achieving the above object, the utility model takes following technical scheme:

A kind of stator structure of Hybrid Excitation Switched Reluctance Motor, comprise the salient pole stator core and several armature winding that are provided with stator slot and stator tooth, several armature winding described embed on each stator tooth respectively, described stator tooth is provided with permanent magnet trough, and described permanent magnet trough internal fixtion is provided with permanent magnet.

Further, described each stator tooth is provided with two electric excitation winding grooves, between adjacent two stator tooths, be provided with an electric excitation winding pole coil, each electric excitation winding pole coil is across being around in the electric excitation winding groove of adjacent two stator tooths, make the coil side each stator tooth having two electric excitation winding, each electric excitation winding pole coil is connected in series.

Further, described permanent magnet trough is at least two, and the electric excitation winding groove on described each stator tooth is placed in inner side or the outside of permanent magnet trough, and both are communicated as one.

Further, described armature winding is concentratred winding.

Further, described salient pole stator core is overrided to form by salient pole stator punching.

Further, described permanent magnet trough is two, is symmetrical arranged on the stator teeth, is installed with two permanent magnets of same polarity in described permanent magnet trough, contrary with permanent magnet polarity hard-wired in the permanent magnet trough on adjacent stators tooth.

A kind of Hybrid Excitation Switched Reluctance Motor, comprise field spider iron core and stator, described stator adopts above-mentioned stator structure.

Further, described field spider iron core is provided with rotor tooth, rotor, in the cylindrical side of described rotor tooth, is provided with sulculus vertically.

Further, described field spider iron core is overrided to form by field spider punching.

Further, described motor is wind-driven generator.

Owing to adopting technique scheme, the utility model has following beneficial effect compared with the prior art:

1, the Hybrid Excitation Switched Reluctance Motor of said structure is adopted, be collection switched reluctance machines, magneto or collection switched reluctance machines, magneto, electric excitation synchronous motor separately advantage and overcome their separately deficiency innovative motor, by structural change and combination, permanent magnet mounting arrangements, on stator, overcomes the permanent magnetic material non-refractory of magneto and easily demagnetizes and be subject to the technical barrier of centrifugal forces affect and easy fault; Also the feature that electricity/magnetic circuit independence is good, robustness is good, tool fault-tolerance, reliability are high of switched reluctance machines has been played; Overcome the shortcoming that cogging torque pulsation is large, noise and vibration is large and efficiency is lower that switched reluctance machines exists; Meanwhile, the problem that switched reluctance machines magnetic flux switches the flux control difficulty existed is also overcomed; By increasing electric excitation winding, adjust the sense of current and the amplitude of electric excitation winding, realize the increasing magnetic and the degaussing that control motor-field, effectively widen the speed range of operation of switched reluctance machines, made Hybrid Excitation Switched Reluctance Motor have high power density, high operational efficiency, high reliability, operate steadily, noise is low, the good characteristic of wide operational speed range.The switched reluctance machines of composite excitation, is specially adapted to wind-powered electricity generation field, will greatly promote the development of wind-powered electricity generation Field Electric motors technology.

2, the independence due to each electricity/magnetic circuit of motor is better, and when the electricity/flux path of every phase breaks down, the armature winding that substantially can not affect other healthy phases normally works, and can run continuously by tape jam, has higher reliability.

The stator tooth of 3, each salient pole stator core arranges permanent magnet, the sulculus that the rotor tooth in conjunction with field spider iron core is arranged, and both coordinate, and weaken the cogging torque of motor preferably, motor is operated steadily, noise is low, motor operational efficiency is high.

4, permanent magnet mounting arrangements is on stator, and radiating condition is good, not easily high temperature demagnetization; Can not throw away because of the centrifugal force produced when rotor operates, add reliability and the service life of motor.

5, each phase armature winding is concentratred winding, and winding overhang is short, and manufacturing process is simple, save copper consumption, reduces copper olse consumption simultaneously, improves efficiency.

6, the rotor structure simple rigid of motor, both without permanent magnet, again without winding, is suitable for high-speed and high-temperature and runs.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Accompanying drawing explanation

Above-mentioned is only the general introduction of technical solutions of the utility model, and in order to better understand the utility model, below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail.

Fig. 1 is the stator and rotor sructure radial section schematic diagram of a kind of Hybrid Excitation Switched Reluctance Motor in the utility model;

Fig. 2 is the stator laminating structure schematic diagram of a kind of Hybrid Excitation Switched Reluctance Motor in the utility model;

Fig. 3 is the rotor punching structure schematic diagram of a kind of Hybrid Excitation Switched Reluctance Motor in the utility model;

Fig. 4 is the overall construction drawing of a kind of Hybrid Excitation Switched Reluctance Motor of the utility model.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described, should be appreciated that preferred embodiment described herein is only for instruction and explanation of the utility model, and be not used in restriction the utility model.

Refer to shown in Fig. 4.

For 8/6 pole four phase composite excitation switch magnetic resistance wind-driven generator, a kind of Hybrid Excitation Switched Reluctance Motor of the utility model mainly comprises: rotating shaft 1, fore bearing enclosing cover 2, fore bearing fastening bolt 3, fore bearing waveform adjustment packing ring 4, fore bearing 5, fore bearing inner cap 6, front end housing 7, outlet box 8, there is the stator core 9 of winding, field spider iron core 10, support 11, rotor press plate 12, rotor pull bar 13, fan housing fastening bolt 14, end cap fastening bolt 15, rear bearing inner cap 16, rear end cap 17, rear bearing 18, rear bearing enclosing cover 19, rear bearing fastening bolt 20, shaft block ring 21, bearing end cover sealing ring 22, cooling fan 23, shaft block ring 24, fan housing 25.

Rotating shaft 1 is through the two ends of motor; The bearing gear that fore bearing 5, rear bearing 18 are installed on rotating shaft 1 is set up; In the both sides of fore bearing 5, be provided with fore bearing enclosing cover 2, fore bearing inner cap 6, front end housing 7 is set on the cylindrical of fore bearing 5, and fore bearing enclosing cover 2, fore bearing inner cap 6, front end housing 7 are by fore bearing fastening bolt 3 tight joint; In the both sides of rear bearing 18, be provided with rear bearing enclosing cover 19, rear bearing inner cap 16, rear end cap 17 is set on the cylindrical of rear bearing 18, and rear bearing enclosing cover 19, rear bearing inner cap 16, rear end cap 17 are by rear bearing fastening bolt 20 tight joint; The field spider iron core 10 be overrided to form by rotor punching and two ends rotor press plate 12 by rotor pull bar 13 press-fit connect in aggregates after, hot jacket is put in the iron core gear of rotating shaft 1; The stator core 9 of winding is had to press-fit inner circle side in support 11; Front end housing 7 is fixedly connected respectively by end cap fastening bolt 15 and support 11 with rear end cap 17; In the rear end of rotating shaft 1, be also provided with cooling fan 23; Fan housing 25 is by fan housing fastening bolt 14 and support 11 tight joint; In the outside of fore bearing enclosing cover 2, rear bearing enclosing cover 19, be also provided with bearing end cover sealing ring 22; On the support 11 of motor, be also provided with outlet box 8.

Refer to shown in Fig. 1, Fig. 2.

There is the stator core 9 of winding to be stator structure of the present utility model, comprising: salient pole stator core 901, armature winding 902, permanent magnet 903, electric excitation winding 904;

Salient pole stator core 901 is overrided to form by the salient pole stator punching of size on request, shape punching; Salient pole stator punching is provided with the stator slot 9011 of specified quantity, stator tooth 9012, permanent magnet trough 9013 about stator tooth 9012 symmetry.

In the stator core 9 having winding, be arranged in two permanent magnet trough 9013 of stator tooth 9012, embed 2 permanent magnets of same polarity, contrary with the permanent magnet polarity embedded in the permanent magnet trough 9013 on adjacent stators tooth 9012; Several armature winding 902, preferred concentratred winding, embed respectively on each stator tooth 9012 of salient pole stator core 901, the armature winding 902 of homophase is connected in series, and forms a phase; Between the stator tooth 9012 of adjacent two stator salient poles iron cores, be provided with an electric excitation winding pole coil 904, each electric excitation winding pole coil 904 is across being around in the bottom space (being equivalent to electric excitation winding groove) of adjacent two hithermost permanent magnet trough of stator tooth 9,012 9013, the stator tooth 9012 of each salient pole stator core 901 has the coil side of two electric excitation winding, each electric excitation winding pole coil 904 is connected in series.

The above-mentioned description about stator structure, is only most preferred embodiment structure, when reality uses, do not add electric excitation winding, or the setting of permanent magnet is not limited to two, or permanent magnet trough and electric excitation winding groove to be provided separately be all feasible.

Please participate in shown in Fig. 1, Fig. 3.

Field spider iron core 10 is overrided to form by field spider punching; Field spider punching is provided with the rotor tooth of specified quantity, rotor; In the cylindrical side of rotor tooth, be provided with the sulculus 101 of some certain depths, sulculus 101 entirety of field spider iron core 10 is arranged vertically.On rotor tooth, be also provided with and press-fit fixing hole 102 for iron core; The sulculus 101 that rotor tooth is arranged, for the cogging torque of auxiliary weakening switched reluctance machines.

Last it is noted that the foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, although be described in detail the utility model with reference to previous embodiment, for a person skilled in the art, it still can be modified to the technical scheme described in previous embodiment, or carries out equivalent replacement to wherein portion of techniques feature.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.

Claims (10)

1. the stator structure of a Hybrid Excitation Switched Reluctance Motor, comprise the salient pole stator core and several armature winding that are provided with stator slot and stator tooth, several armature winding described embed on each stator tooth respectively, it is characterized in that, described stator tooth is provided with permanent magnet trough, and described permanent magnet trough internal fixtion is provided with permanent magnet.

2. stator structure according to claim 1, it is characterized in that, described each stator tooth is provided with two electric excitation winding grooves, between adjacent two stator tooths, be provided with an electric excitation winding pole coil, each electric excitation winding pole coil, across being around in the electric excitation winding groove of adjacent two stator tooths, makes the coil side each stator tooth having two electric excitation winding, and each electric excitation winding pole coil is connected in series.

3. stator structure according to claim 2, is characterized in that, described permanent magnet trough is at least two, and the electric excitation winding groove on described each stator tooth is placed in inner side or the outside of permanent magnet trough, and both are communicated as one.

4. stator structure according to claim 1, is characterized in that, described armature winding is concentratred winding.

5. stator structure according to claim 1, is characterized in that, described salient pole stator core is overrided to form by salient pole stator punching.

6. the stator structure according to any one of claim 1-5, it is characterized in that, described permanent magnet trough is two, be symmetrical arranged on the stator teeth, two permanent magnets of same polarity are installed with in described permanent magnet trough, contrary with permanent magnet polarity hard-wired in the permanent magnet trough on adjacent stators tooth.

7. a Hybrid Excitation Switched Reluctance Motor, comprises field spider iron core and stator, and described stator adopts the stator structure described in any one of claim 1-6.

8. Hybrid Excitation Switched Reluctance Motor according to claim 7, is characterized in that, described field spider iron core is provided with rotor tooth, rotor, in the cylindrical side of described rotor tooth, is provided with sulculus vertically.

9. Hybrid Excitation Switched Reluctance Motor according to claim 7, is characterized in that, described field spider iron core is overrided to form by field spider punching.

10. the Hybrid Excitation Switched Reluctance Motor according to any one of claim 7-9, is characterized in that, described motor is wind-driven generator.