CN201188577Y

CN201188577Y - Single-phase reluctance generator

Info

Publication number: CN201188577Y
Application number: CNU2008200289276U
Authority: CN
Inventors: 张世清; 张红梅
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-04-20
Filing date: 2008-04-20
Publication date: 2009-01-28
Anticipated expiration: 2018-04-20

Abstract

The utility model relates to a single-phase reluctance generator which is composed of a stator and a rotor which are made into structures of salient magnetic poles by pressing silicon-steel plates. The salient magnetic pole of the stator is provided with a concentrated armature winding, and windings are connected in series or parallel according to the N pole and the S pole of the armature winding to form a phase; the rotor is provided with rotary magnetic poles which have the same number with stator poles, and the magnetic poles are provided with winding field poles or permanent magnetic poles, and permanent composite field poles; adjacent winds of the rotor with magnetic poles are connected in series or parallel to form groups of N poles and S poles; the number of the poles of the stator and the rotor comprises 2 poles, 4 poles, till n poles, and even poles, namely, pair poles; the stator and the rotor can comprise different numbers of pole-pairs, and the numbers of pole-pairs are equivalent; because the technique of equivalent numbers of the pole-pairs is adopted, the magnetic field poles in different modes, and the permanent magnetic poles and the composite magnetic poles of permanent magnetic poles and electromagnetic poles are adopted, the dynamic combination of the windings which are connected in series or parallel is utilized to output voltage regulation and conveniently raise the utilization ratio of the windings, and the power density, the performance and the efficiency of the generator are enhanced.

Description

Single-phase reluctance generator

Technical field

The utility model relates to generator, relates in particular to a kind of single-phase reluctance generator.

Background technology

Existing switched reluctance machines (SRM) is the motor of biconvex utmost point field structure, and its stator, rotor all are that salient pole type is made by common silicon steel plate stacking, are wound with concentrated winding on magnetic pole of the stator, does not also have permanent magnet and rotor has both had winding; This motor can be divided into single-phase, two-phase, three-phase, four phase and heterogeneous switched reluctance machines by the number of phases, and again with three-phase 6/4 electrode structure, 8/6 electrode structure is in the majority mutually with four for 12/8 electrode structure; The advantage of switched reluctance machines is: simple in structure, make easily, and the operational efficiency height, the power factor height, starting current is little, and detent torque is big, and overload capacity is strong, all has high efficiency simultaneously in wide speed regulating range.Its rotor does not have the coil winding, thus increased the complexity of power generation machine for switched reluctance motor, stator winding be excitation winding be again the generating winding, when giving each phase winding energising successively, motor just can produce electromagnetic torque, and motor is rotated continuously, and electric current is unidirectional when electric motor state.Yet the switched reluctance machines of prior art (SRM) is unidirectional controlled timesharing by Mechanical Driven excitation when switch reluctance generator (the be called for short SRG) state, and generating is that unidirectional timesharing is uncontrollable, and the generating state electric current also is unidirectional; What the more important thing is that original switched reluctance machines SRM is converted under the switch reluctance generator SRG state output is direct current energy rather than AC energy.

Because it is that the rotor magnetic pole is unequal that there is the difference utmost point in switched reluctance machines biconvex utmost point field structure, the stator magnet number of poles is greater than the rotor magnetic pole number, and also need the exciting current of switch controlled stator winding and control time of its excitation pilot angle at generating state, manufacturing cost and operating cost 1/3-2/5 have been increased like this, and excitation mode is the phase-splitting mode of excitation stage by stage, that is to say switched reluctance machines reversible state as generator operation in its control more complicated, excitation phase-splitting in turn by the timesharing of Electronic Control power tube phase-splitting excitation when motor rotates a circle is generated electricity, good maximum two-phase generatings as control, because excitation has occupied the regular hour, so influence generating efficiency.

The patent name that I have applied for is " power generation machine for switched reluctance motor ", the patent of invention of number of patent application 200820028230.9, different fully with my the patent of invention technology of existing application, the invention technology of having applied for does not produce rotating magnetic field by the Electronic Control stator winding electrifying under the state of excitation at rotor and uses as motor, by producing electric energy output by excitation under the effect of Mechanical Driven revolving force, and the stator-rotator magnetic number of poles is unequal, rotor magnetic pole is less than the stator magnet number of poles, can become by different number of phases different poles arrays, rotor can only be that the pole wheel that has winding is formed, and can not adopt utmost point technology such as rotor, can not adopt p-m rotor more can not adopt pawl utmost point rotor, and the control technology more complicated, switched reluctance machines just becomes generator by Mechanical Driven under rotor-exciting winding situation.

Summary of the invention

In view of the weak point of prior art, the purpose of this utility model provides a kind of raising generating efficiency, reduces the single-phase reluctance generator of making application cost.

The technical scheme that realizes the technical solution problem is: a kind of single-phase reluctance generator comprises mainly and being made up of stator, the rotor of magnet limbs structure; Stationary part comprises stator casing (1), stator yoke (2), stator armature winding (3), magnetic pole of the stator (4) and base (40) etc., and rotor portion comprises rotor magnetic pole (5), rotor-exciting winding (6), rotor yoke (9), armature spindle (11) and front and back bearings (29), (34) etc.; Concentrated armature winding is arranged on the stator salient poles, and winding is in series or in parallel to form a phase according to N, the S polarity of armature winding;

Described rotor is provided with the rotary pole that equates with stator poles, and magnetic pole has winding electric excitation pole or permanent magnetism magnetic pole and Permanent Magnet and Electric excitation combined magnetic pole.

Winding is an excitation winding on the described rotor, and its structure is divided into the magnetic pole excitation winding, pawl utmost point excitation winding, permanent magnetism magnetic pole formula hidden pole type magnetic pole and pawl utmost point permanent magnet excitation mixed winding and salient pole permanent magnet excitation mixed winding; And can be divided into internal rotor and external-rotor-type, armature winding can be placed stator also can place rotor, applicable to different occasions.

Described rotor-exciting device is installed on the motor shaft, wire hole (10) is arranged on the motor shaft, the excitation winding of generator is connected with the positive and negative excitation slip ring (22) (23) of V-slip ring conductive copper Luo bar (14) with rotation by V+ slip ring conductive copper Luo bar (15) with the rotor-exciting lead-in wire of lead through wire hole (10), be provided with insulating case (13) between the positive and negative excitation slip ring, metal fixed cover (12) is arranged in the insulating case, and to be fixed on armature spindle non-shaft stretching end (11) be unsupported end and rotate synchronously with motor shaft by fixing keyway (7); Positive and negative excitation brush-box frame (19, (21); By support fixedly Luo bar (24) and ring flange fixedly Luo bar (26) be fabricated to one with back outer bearing cover (27) and be connected on the rear end cap (30), supporting fixedly Luo bar (24) is provided with insulated tube (25); Positive and negative excitation slip ring (22) (23) respectively with positive and negative excitation carbon brush (18) (20) contact and with the carbon brush holder box in the corresponding installation of carbon brush (18) (20); Positive and negative brush-box and carbon brush holder are connected as a single entity, and positive and negative carbon brush holder mutually insulated also is fixed in that rear end cap (30) is static not to be rotated.

Described rotor adjacent pole windings in series constitutes N, S, N, S ... many groups, also can parallel connection be N, S, N, S, N, S ... many groups.

Described stator winding can be formed single-phase series or parallel single-phase, in parallelly again after also can partly connecting finishes the output of different voltages and the output of different electric currents, and the output of root a tree name different frequency can run on different rotating speeds.

Described rotor number of poles is by 2 utmost points, 4 utmost points, 6 utmost points, 8 utmost points, 10,12 utmost points ... the n utmost point is formed, and all is that the even number utmost point is formed, and promptly the utmost point is formed; To adapt to different rotating speeds.

Described rotor can be made up of the different poles logarithm, and the rotor number of pole-pairs must equate.

Be with armature winding on the described salient stator magnetic pole, the anti-phase series connection of armature winding constitutes one group of winding on adjacent two magnetic poles of its winding, and the anti-phase serial or parallel connection of rotor winding becomes the N utmost point or the S utmost point simultaneously.

By said structure as seen, the utility model is a kind of new magnetic Circuit Design, makes to the utlity model has the not available following advantage of prior art:

1, the utility model is broken the normal procedure and installed excitation winding or permanent magnetism magnetic pole additional on switch reluctance machine rotor, and generator performance and efficient have obtained effective raising; All magnetic pole of the stator windings are all simultaneously at generating state, and two zones that make stator all obtain utilizing, and make generated output density that bigger increase be arranged, and efficient has greatly and improves, all windings of stator winding are all utilized simultaneously, so improve generator power density; Utilize the series-parallel dynamic combined of winding to make output voltage regulate more convenient and can improve the utilance of winding.Simultaneously, make generator under generating state, save stator armature winding electronic-controlled installation, and have only the adjustable DC power supply excitation unit of rotor, do not have switch power consumption (not needing the control of armature electronic switching tube), thereby reduced equipment cost 1/3-2/5, improved the reliability of equipment; Make it not have the switch intermittent phase, solved the not high influence of rectification afterflow efficient under generating state of stator winding inductance; The electric energy of the present invention's output is an AC energy, and or else its output is used needs inverter, and directly transformation is carried AC energy.

2, the utility model is provided with internal rotor and external rotor rotor form, when adopting external rotor; 1)), armature winding places external rotor to need slip ring power supply, the internal stator excitation pole does not need slip ring; 2)), when excitation pole places external rotor, only be applicable to magnet limbs, and external rotor needs slip ring; Permanent-magnetic outer rotor does not need slip ring; But external rotor is not suitable for pawl utmost point rotor; Can place the pawl utmost point internal stator and internal stator not to need slip ring this moment and external rotor needs slip ring (general external rotor all be applicable to small power generator).

3, magnetic Circuit Design novelty of the present utility model can strengthen the magnetic flux density between working gas gap effectively, guarantees strong magnetic action and power density in the magnetic gap, does not produce unilateral magnetic force, and does not produce vibration.

4, the utility model is compared with existing switch magnetic group motor (SRM), improved generated output, and improved power density, can make Adjustable Output Voltage, output current is adjustable, power factor and efficient are improved, can realize regulating the rotating speed of driving device at an easy rate, the output frequency of scalable generator.

Description of drawings

Utmost point formula internal rotor generator section principle schematic such as the single-phase 6/6 biconvex utmost point electric excitation type of Fig. 1 a

Utmost point formula internal rotor whole generator structure connection diagrams such as the single-phase 6/6 biconvex utmost point electric excitation type of Fig. 1 b

Utmost point formula outer rotor generator section principle schematic such as the single-phase 6/6 biconvex utmost point electric excitation type of Fig. 2 a

Utmost point formula outer rotor generator overall structure connection diagrams such as the single-phase 6/6 biconvex utmost point electric excitation type of Fig. 2 b

Utmost point formula internal rotor generator unit stator armature winding such as the single-phase 6/6 biconvex utmost point electric excitation type of Fig. 3 a 3 tunnel wiring schematic diagrams in parallel

Utmost point formula internal rotor generator unit stator armature winding 1 road series wiring schematic diagrames such as the single-phase 6/6 biconvex utmost point electric excitation type of Fig. 3 b

Utmost point formula internal rotor power generator rotor magnetic pole winding connection schematic diagrames such as the single-phase 6/6 biconvex utmost point electric excitation type of Fig. 3 c

Utmost point formula internal rotor permanent-magnetic formula generator section principle schematic such as the single-phase 8/8 bisalient-pole permanent-magnet formula of Fig. 4 a

Utmost point formula internal rotor permanent-magnetic formula electric generator structure connection diagrams such as the single-phase 8/8 double salient excitation formula of Fig. 4 b

Single-phase 6/6 bisalient-pole permanent-magnet of Fig. 5+utmost point formula internal rotor generator section principle schematic such as electric excitation type mixing

Utmost point formula internal rotor generator section principle schematic such as the single-phase 8/8 biconvex utmost point non-salient pole magneto of Fig. 6

Utmost point formula internal rotor generator section principle schematic such as the single-phase 12/12 biconvex utmost point Lundell electric excitation type of Fig. 7 a

Utmost point formula internal rotor electric generator structure connection diagrams such as the single-phase 12/12 biconvex utmost point Lundell electric excitation type of Fig. 7 b

Utmost point formula internal rotor generator section principle schematic such as the single-phase 12/12 biconvex utmost point claw-pole permanent magnet+electric excitation type of Fig. 8 a

Utmost point formula internal rotor electric generator structure connection diagrams such as the single-phase 12/12 biconvex utmost point claw-pole permanent magnet+electric excitation type of Fig. 8 b.

Among the figure, the 1-stator casing, the 2-stator yoke, 3-stator armature winding, the 4-magnetic pole of the stator, the 5-rotor magnetic pole, 6-rotor-exciting winding, the 7-rotor is keyway fixedly, the 8-rotor shaft hatch, the 9-rotor yoke, 10-armature spindle wire hole and rotor magnetic pole lead-out wire, 11-armature spindle non-shaft stretching end (unsupported end), 12-excitation slip ring assembly metal fixed cover, 13-excitation slip ring assembly internal fixation insulating case and insulation end ring, 14-excitation V-slip ring wiring conductive copper Luo bar (by the V+ slip ring time overcoat insulating sleeve), 15-excitation V+ slip ring wiring conductive copper Luo bar, shading ring insulate between 16-excitation slip ring, 17-carbon brush holder supporting set bolt, 18-positive voltage excitation V+ carbon brush, 19-positive voltage excitation V+ brush-box frame, 20-negative voltage excitation V-carbon brush, 21-negative voltage excitation V-brush-box frame, 22-positive voltage excitation V+ rotary slip ring, 23-negative voltage excitation V-rotary slip ring, 24-carbon brush holder supporting Luo bar, 25-carbon brush holder supporting Luo bar insulating sleeve, 26-carbon brush holder fixed flange is the Luo bar fixedly, 27-carbon brush holder fixed flange when excitation slip ring (no be the rear bearing outer end cap), 28-rear bearing inner end cap, the 29-rear bearing, the 30-rear end cap, the 31-rear end cap is the Luo bar fixedly, the 32-front end housing is the Luo bar fixedly, the 33-front end housing, the 34-fore bearing, inside cap before the 35-, outer bearing cover before the 36-, the 37-front bearing retainer is the Luo bar fixedly, 38-shaft extension end (load end), 39-base fixing hole, the 40-base, 41-rotor permanent-magnet, the 42-pawl utmost point rotor magnetic pole N utmost point, the 43-pawl utmost point rotor magnetic pole S utmost point, 44-pawl utmost point rotor-exciting winding insulation skeleton, 45-pawl utmost point rotor magnetic pole excitation winding, 46-external rotor rotary generator shell body (flat-belt pulley), 47-external rotor rotary generator yoke, 48-external rotor rotary generator permanent-magnet pole, 49-internal stator fixed armature magnetic pole, 50-internal stator armature magnetic pole winding, 51-outer rotor generator fixed flange (or fixed supporting frame), 52-outer rotor generator fixed flange fixing hole (or fixed supporting frame fixing hole), 53-outer rotor generator fixed flange and motor stationary axle retainingf key (or fixed mount and motor stationary axle retainingf key), 54-outer rotor generator fixed flange and motor stationary axle be Luo cap (or fixed mount and motor stationary axle fixedly Luo cap) fixedly, 55-internal rotor rotary generator magnetic pole permanent magnet (the same N of magnet magnetic, the S magnetic pole), 56-internal rotor rotary generator rotor with non-salient poles non-magnet material, the 57-annular permanent magnet.

A is the armature winding head end, and X is the armature winding tail end, and 101-112 is the armature winding numeral number, and WE is an excitation winding, and L+ connects the V+ field power supply for the winding head end, and L-connects the V-field power supply for the winding tail end.

Embodiment

Below in conjunction with drawings and Examples this technical scheme is further described

With reference to Fig. 1 a, b and Fig. 3, Fig. 5; Single-phase magnetic group generator comprises stator, the rotor composition of making the magnet limbs structure by silicon steel plate stacking; Stationary part comprises stator casing 1, stator yoke 2, stator armature winding 3, magnetic pole of the stator 4 and base 40 etc., and rotor portion comprises rotor magnetic pole 5, rotor-exciting winding 6, rotor yoke 9, armature spindle 11 and front and

back bearings

29,34 etc.; Concentrated armature winding is arranged on the stator salient poles, and winding is in series or in parallel to form a phase according to N, the S polarity of armature winding.Be with armature winding 3 on the described salient stator magnetic pole, the anti-phase string of armature winding constitutes one group of winding on adjacent two magnetic poles of winding 3, and anti-phase series connection of rotor winding simultaneously or parallel connected in reverse phase become the N utmost point S utmost point.Described rotor is provided with the rotary pole that equates with stator poles, and magnetic pole has winding electric excitation pole or permanent magnetism magnetic pole and permanent magnet excitation combined magnetic pole.Described rotor-exciting assembly of devices is installed on the motor shaft, wire hole 10 is arranged on the motor shaft, the excitation winding of generator is connected with the positive and negative

excitation slip ring

22,23 of V-slip ring conductive copper Luo bar 14 with rotation by V+ slip ring conductive copper Luo bar 15 with the rotor-exciting lead-in wire of lead through wire hole 10, be provided with between insulating case 13 and excitation slip ring insulation shading ring 16 between the positive and negative excitation slip ring, metal fixed cover 12 is arranged in the insulating case, and to be fixed on armature spindle non-shaft stretching end 11 be unsupported end and rotate synchronously with motor shaft by fixing keyway 7; Positive and negative excitation brush-

box frame

19,21 by support fixedly Luo bar 24 and ring flange fixedly Luo bar 26 be fabricated to one with back outer bearing cover 27 and be connected on the rear end cap 30, supporting fixedly Luo bar 24 is provided with insulated tube 25; Positive and negative

excitation slip ring

22,23 respectively with 18,20 contacts of positive and negative excitation carbon brush and with the carbon brush holder box in

carbon brush

18,20 corresponding installations; Positive and negative brush-box and carbon brush holder are connected as a single entity, and positive and negative carbon brush holder mutually insulated also is fixed in that rear end cap 30 is static not to be rotated.Described rotor adjacent pole windings in series constitutes N, S, N, S ... many groups, also can parallel connection be N, S, N, S, N, S ... many groups.Described stator winding can be formed single-phase series or parallel single-phase, and it is in parallel also can partly to connect again, finishes the output of different voltages and the output of different electric currents, and the output of root a tree name different frequency can run on different rotating speeds.Described rotor number of poles is by 2 utmost points, 4 utmost points, 6 utmost points, 8 utmost points, 10,12 utmost points ... the n utmost point is formed, and all is that the even number utmost point is formed, and promptly the utmost point is formed.Described rotor can be made up of the different poles logarithm, and the rotor number of pole-pairs must equate.

Utmost point formula internal rotor generators such as single-phase 6/6 biconvex utmost point electric excitation type, the rotor-exciting assembly of devices both can be external also can be built-in, its stator armature winding is that 3 tunnel parallel connections (see that Fig. 3 a) can reduce output voltage and increase output current, 1 tunnel series connection (seeing Fig. 3 b) can improve output voltage, and output current equals the rated current of winding; Rotor magnetic pole winding (seeing Fig. 3 c), rotor magnetic pole coiling head end L+ connects the positive polarity V+ of field power supply, and rotor magnetic pole coiling tail end L-connects the voltage negative pole V-of field power supply, owing to adopt single-phase form, do not have phase difference between single-phase each winding, only potential difference is arranged in the two ends of each winding.

The utility model is owing to adopted number of poles technology such as rotor, and rotor can adopt the excitation pole and the permanent magnetism magnetic pole form of different types, and generator does not produce rotating magnetic field, (not having continuous rotating magnetic field).Adopt single-phase form in order to improve generating efficiency with the volume that reduces to generate electricity, owing to be not have phase difference between single-phase each winding, the winding of different sections is all head end or is all tail end does not have potential difference, and each winding segments has potential difference from beginning to end; But windings in series can improve output voltage, output current equals the rated current of winding, parallel connection can reduce voltage and increase output current, since each windings in series voltage be each winding voltage and, electric current is the output rated current of simplex winding, but each winding voltage equates when in parallel, output current be each winding current and, it is more convenient that the series-parallel dynamic combined of winding is regulated output voltage, and the output frequency of the rotating speed adjustable joint generating of adjusting driving device closes with the field boundary that adapts to the different frequency condition.

The utility model is broken the normal procedure and installed excitation winding or permanent magnetism magnetic pole additional on switch reluctance machine rotor, and has adopted utmost point technology such as rotor, has improved power generation performance and efficient; All magnetic pole of the stator windings are generating state at the same time all, and all windings of stator winding are all utilized simultaneously, have improved the utilance of winding, generated output is increased to some extent with efficient increase, and can improve generated output density; Simultaneously, the stator armature winding does not use Electronic Control under the generating state, and has only the adjustable DC power supply excitation unit of rotor, does not have switch power consumption (not needing the control of armature electronic switching tube), thereby having reduced equipment cost 1/3-2/5, the reliability of equipment also is improved.

With reference to Fig. 2 a, b, be utmost point formula outer rotor generators such as single-phase 6/6 biconvex utmost point electric excitation type; The technology that adopts is rotor to be changed into the external rotor of magneto, and promptly the internal stator external rotor does not all need slip ring (not excitation); The shell 46 of motor is the shell of rotation or the belt pulley of rotation; This technology is only changed into the magneto external rotor with the electric excitation winding of rotor; Its principle and application are identical with Fig. 1; The stator armature windings in series is with Fig. 3 b, and tie is with Fig. 3 a.

With reference to Fig. 4 a, b, be utmost point formula internal rotor permanent-magnetic formula generators such as single-phase 8/8 bisalient-pole permanent-magnet formula; The technology that adopts is the external stator internal rotor, has increased number of poles (adding the two poles of the earth); Be fixed with permanent magnetism magnetic pole 41 on the internal rotor yoke 9, the permanent magnetism magnetic pole rotor does not need slip ring herein.Its stator armature winding is that 4 road or 2 tunnel parallel connections can reduce output voltage increase output current, and 1 tunnel series connection can improve output voltage, and output current equals the rated current of winding.

With reference to Fig. 5, be single-phase 6/6 bisalient-pole permanent-magnet+utmost point formula internal rotor generators such as electric excitation type mixing; Be fixed with magnetic pole permanent magnet 55 on the internal rotor magnetic pole 5, present embodiment its stator except that rotor is permanent magnetism+electric excitation hybrid mode is identical with embodiment Fig. 1; Its principle and application are identical with Fig. 1; Stator armature winding and tie are with Fig. 3 a, Fig. 3 b, and the rotor magnetic pole winding connection is with Fig. 3 c.

With reference to Fig. 6, be utmost point formula internal rotor generators such as single-phase 8/8 biconvex utmost point non-salient pole magneto; Present embodiment is all identical with Fig. 4 except that rotor, its rotor is filled a vacancy the space between N, S permanent magnet is hidden in a complete rotor block surface with non-magnet material 56 spaces, help N, S two interpolar spaces influence like this to magnetic pole of the stator, and reinforced the fastness of permanent-magnet pole, this kind structure is applicable to that the field boundary of high speed vibration resistance closes.

With reference to Fig. 7 a, b, be utmost point formula internal rotor generators such as single-phase 12/12 biconvex utmost point Lundell electric excitation type; Rotor magnetic pole excitation winding 45 is fixed on the rotor magnetic pole excitation winding insulation framework 44, places pawl extremely inner, and the rotor magnetic pole N utmost point 42 does not communicate with the rotor magnetic pole S utmost point 43; But its stator armature winding not only can and tie but also series wiring, rotor magnetic pole winding connection with Fig. 3 c.

With reference to Fig. 8 a, b, be utmost point formula internal rotor generators such as single-phase 12/12 biconvex utmost point claw-pole permanent magnet+electric excitation type; Rotor magnetic pole excitation winding 45 is positioned in the annular permanent magnet 57, but its stator armature winding not only can and tie but also series wiring, the rotor magnetic pole winding connection is with Fig. 3 c.

Fig. 7, Fig. 8 theory structure are similar, its rotor-exciting assembly of devices both can be external also can be built-in, but magnetic approach both can electric excitation also permanent magnetism, and it is can permanent magnetism+electric excitation hybrid, wherein permanent magnet is placed on two pawl interpolars, the direction of magnetization is tangential, and the effect of permanent magnet mainly increases the leakage flux of main flux and pawl interpolar, and electric excitation winding is positioned in the permanent magnet.Pawl utmost point magnetic field boundary cutting stator magnetic pole produced the alternation magnetic potential and makes stator winding generation alternating electromotive force when generator was rotated by Mechanical Driven, just produced alternating current in winding.

Claims

1, a kind of single-phase reluctance generator comprises by stator, the rotor of magnet limbs structure and forming; Stationary part comprises stator casing (1), stator yoke (2), stator armature winding (3), magnetic pole of the stator (4) and base (40), and rotor portion comprises rotor magnetic pole (5), rotor-exciting winding (6), rotor yoke (9), armature spindle (11) and front and back bearings (29), (34); Concentrated armature winding is arranged on the stator salient poles magnetic pole, and winding is in series or in parallel to form a phase according to N, the S polarity of armature winding; It is characterized in that:

A, described rotor are provided with the rotary pole that equates with stator poles, and magnetic pole has winding electric excitation pole or permanent magnetism magnetic pole and permanent magnet excitation combined magnetic pole;

Winding is an excitation winding on b, the described rotor, and its structure is divided into the magnetic pole excitation winding, pawl utmost point excitation winding, permanent magnetism magnetic pole formula hidden pole type magnetic pole and pawl utmost point permanent magnet excitation mixed winding and magnetic pole permanent magnet excitation mixed winding; And can be divided into internal rotor and external-rotor-type, armature winding can be placed stator also can place rotor;

C, described rotor-exciting device are installed on the motor shaft, wire hole (10) is arranged on the motor shaft, the excitation winding of generator is connected with the positive and negative excitation slip ring (22) (23) that rotates by V+ slip ring conductive copper Luo bar (15) and V-slip ring conductive copper Luo bar (14) with the rotor-exciting lead-in wire of lead through wire hole (10), and being provided with between the positive and negative excitation slip ring has metal fixed cover (12) to be fixed on armature spindle non-shaft stretching end (11) is unsupported end and rotate synchronously with motor shaft by fixing keyway (7) in insulating case (13), the insulating case; Positive and negative excitation brush-box frame (19, (21) by supporting fixedly Luo bar (24) and ring flange fixedly Luo bar (26) be fabricated to one with back outer bearing cover (27) and be connected on the rear end cap (30), supporting fixedly, Luo bar (24) is provided with insulated tube (25); Positive and negative excitation slip ring (22) (23) respectively with positive and negative excitation carbon brush (18) (20) contact and with the carbon brush holder box in the corresponding installation of carbon brush (18) (20); Positive and negative brush-box and carbon brush holder are connected as a single entity, and positive and negative carbon brush holder mutually insulated also is fixed in that rear end cap (30) is static not to be rotated.

2, single-phase reluctance generator according to claim 1 is characterized in that described rotor adjacent pole windings in series constitutes N, S, N, S ... many groups, also can parallel connection be N, S, N, S, N, S ... many groups.

3, single-phase reluctance generator according to claim 1 is characterized in that described stator winding can form single-phase series or parallel single-phase, and is in parallel again after also can partly connecting.

4, single-phase reluctance generator according to claim 1 is characterized in that described rotor number of poles is by 2 utmost points, 4 utmost points, 6 utmost points, 8 utmost points, 10,12 utmost points ... the n utmost point is formed, and all is that the even number utmost point is formed, and promptly the utmost point is formed.

5, single-phase reluctance generator according to claim 1 is characterized in that rotor can be made up of the different poles logarithm, and the rotor number of pole-pairs must equate.

6, single-phase reluctance generator according to claim 1, it is characterized in that being with armature winding on the salient stator magnetic pole, the anti-phase series connection of armature winding constitutes one group of winding on adjacent two magnetic poles of its winding, and the anti-phase serial or parallel connection of rotor winding becomes the N utmost point or the S utmost point simultaneously.