CN102624184A - Field energy motor - Google Patents
Field energy motor Download PDFInfo
- Publication number
- CN102624184A CN102624184A CN2012101216108A CN201210121610A CN102624184A CN 102624184 A CN102624184 A CN 102624184A CN 2012101216108 A CN2012101216108 A CN 2012101216108A CN 201210121610 A CN201210121610 A CN 201210121610A CN 102624184 A CN102624184 A CN 102624184A
- Authority
- CN
- China
- Prior art keywords
- rotor
- armature
- combination
- permanent magnet
- field energy
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Images
Landscapes
- Permanent Magnet Type Synchronous Machine (AREA)
Abstract
The invention discloses a field energy motor, which comprises a stator combination and a rotor combination. The stator combination comprises a motor housing and a plurality of armature components, wherein the armature components are fixedly arranged on the motor housing, and are uniformly distributed on the same periphery. The rotor combination comprises a rotor seat and at least two groups of rotor magnetic yoke structures, wherein the rotor seat is fixedly connected with a rotating shaft; and at least two groups of rotor magnetic yoke structures are arranged on the outer periphery of the rotor seat. The adjacently-arranged armature components form a plurality of phase sequences corresponding to the rotor magnetic yoke structures respectively. The armature components at corresponding positions in each phase sequence are connected with one another to form a plurality of control loops. The turning-on/off of the control loops can be controlled to form a rotating magnetic field which is regularly distributed and continuously variable to drive the rotor combination to continuously rotate. A mechanical power device can achieve a good energy-saving effect by utilizing direct action between natural magnetic energy and a working magnetic field generated by an electromagnetic driving unit, so that power consumption is reduced, and a contribution to energy saving and emission reduction is made.
Description
Technical field
The invention belongs to the new forms of energy technical field of motors, particularly a kind of novel field energy motor that adopts self coupling and pattern work.
Background technology
In existing various types of motors; Though its version is not quite similar, the mode of its work is similar basically, and its basic principle that adopts all is that the pattern that relies on electric current to produce magnetic field is done work; Though in the motor of some type, also adopted the structure of permanent magnet; Producing various dissimilar complementary fields, but its generation is indirect effect, and really promotes the rotor rotation; But still will lean on the effect in the magnetic field that electric current in the coil produces, why all bigger this just operating current the main cause of existing various double salient-pole electric machines.
In order to alleviate the dependence to petroleum resources, people will increasing electrification.Yet in existing power machinery; Because its needed operating current is all bigger; Thereby make existing power machinery in the electric power system of using with other form (like solar energy, storage battery etc.) acquisition energy; Capacity to obtain the new forms of energy of energy with other form has all proposed higher requirement, makes the extensive use of new forms of energy receive restriction.For example various now electric motor cars, electric automobile are accepted by market, but the bottleneck that hinders its broader applications that obtain is exactly its flying power, and this is because the needed operating current of motor is bigger, and storage battery receives the cause of its capacity limit.
Summary of the invention
Goal of the invention of the present invention is: to the problem of above-mentioned existence, provide a kind of reduction as far as possible itself to consume, rely on the novel motive power machine of the magnetic field direct interaction that electric current produces in nature magnetic energy and the armature coil.
Technical scheme of the present invention is achieved in that a kind of field energy motor; Comprise the combination of stator combination and rotor; Said rotor combination is fixed in the rotating shaft; Said stator combination is connected with the bearing pedestal that is arranged on the rotating shaft two ends; It is characterized in that: said stator combination comprises motor housing and is fixedly installed on the motor housing and is evenly distributed on several armature assemblies on the same circumference that said rotor combination comprises the rotator seat that is fixedly connected with rotating shaft and be arranged at least two group rotor magnetic yoke structure on the rotator seat excircle that several armature assemblies of said arranged adjacent are formed several phase sequences corresponding with said rotor yoke structure respectively; Armature assembly number in said each phase sequence is identical; The armature assembly of correspondence position interconnects and constitutes several control loops in said each phase sequence, and when work, several adjacent control loops form several magnetic circuit combinations to the rotor yoke structure function in said each phase sequence; Corresponding with it the respectively rotor yoke structure of the magnetic circuit that each magnetic circuit constitutes forms closed flux circuit; At least be separated with an armature assembly of not working between between the combination of said adjacent magnetic circuit, form a regular layout and can the continually varying rotating magnetic field, continue rotation to drive the rotor combination through the break-make that changes control loop.
Field energy motor of the present invention, its said armature assembly comprise the armature core that is fixed on the motor housing and the armature coil on the armature core.
Field energy motor of the present invention; Its on said armature core, with rotor yoke structure corresponding end be provided with the armature ends yoke; The end area of said armature ends yoke is greater than the end area of armature core, and the end face structure of said armature ends yoke and respective rotor combining structure are mated.
Field energy motor of the present invention also includes in the magnetic circuit that its said armature assembly constituted and its parallel connection and permanent magnet that polar orientation is consistent.
Field energy motor of the present invention, the overall structure of its said rotor yoke structure for processing by ferromagnetic material, or the overall structure of processing by permanent magnetic material, or make up structure by the permanent magnet that permanent magnetic material and ferromagnetic material constitute jointly.
Field energy motor of the present invention; Its said permanent magnet combination structure comprises and is connected to the rotor yoke iron in the rotator seat location and installation groove and is fixed on the rotor yoke iron or is arranged on the rotor permanent magnet between the adjacent rotor yoke, and the polarity of said rotor permanent magnet end should to make up the polarity that the end produces different with magnetic circuit.
Field energy motor of the present invention; Its said armature core is the U type; Corresponding respectively the end of said two groups of armature coils around U type armature core; Said rotor yoke iron is provided with two corresponding rotor permanent magnets in end with U type armature core, and the polarity of said two its ends of rotor permanent magnet is different.
Field energy motor of the present invention, it is provided with permanent magnet between the both ends of said U type armature core, and the polarity at said permanent magnet both ends is corresponding identical with the polarity that U type armature core both ends produce respectively.
Field energy motor of the present invention, its said armature core are continuous U type structure, and the end of said permanent magnet combination structure is corresponding with the structure of said armature core.
Field energy motor of the present invention, its said motor housing and rotator seat are processed by metal material or nonmetallic materials.
The beneficial effect that the present invention produces is: give full play to the strong magnetic action of rare earth alloy permanent magnet; The direct effect that the work magnetic field that utilizes nature magnetic energy and electromagnetic drive unit to be produced is mutual; Make mechanical driver unit produce better energy-saving effect; Reduce consumption with this, energy-saving and emission-reduction are contributed electric power.
Various now electric motor cars, electric automobile are accepted by market, but the bottleneck that hinders its broader applications that obtain is exactly its flying power, and this is because the needed operating current of motor is bigger, and storage battery receives the cause of its capacity limit.The mutual direct novel motive power machine that is used for doing work in work magnetic field that this dependence nature magnetic energy and electromagnetic drive unit provided by the present invention are produced; Then can overcome and break above-mentioned bottleneck; Make various electric motor cars, electric automobile can obtain bigger utilization, present better energy-saving effect.
Description of drawings
Fig. 1 is the structural representation of the embodiment of the invention 1.
Fig. 2 is the axial cutaway view of the embodiment of the invention 1.
Fig. 3 is the structural representation at armature core place in the embodiment of the invention 1.
Fig. 4 is SECO figure of the present invention.
Fig. 5 is the axial cutaway view of the embodiment of the invention 2.
Fig. 6 is the axial cutaway view of the embodiment of the invention 3.
Fig. 7 is the axial cutaway view of the embodiment of the invention 4.
Fig. 8 is the sketch map of permanent magnet combination structure in the embodiment of the invention 5.
Mark among the figure: 1 is rotating shaft, and 2 is motor housing, and 3 is armature assembly, and 3a is an armature core, and 3b is an armature coil, and 3c is the armature ends yoke, and 4 is rotator seat, and 5 is the rotor yoke structure, and 6 is rotor yoke iron, and 7 is rotor permanent magnet, and 8 is permanent magnet.
Embodiment
Below in conjunction with accompanying drawing, the present invention is done detailed explanation.
In order to make the object of the invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.
Embodiment 1: as illustrated in fig. 1 and 2; A kind of field energy motor; Comprise the combination of stator combination and rotor; The combination of said rotor is fixed in the rotating shaft 1, and said stator combination is connected with the bearing pedestal that is arranged on rotating shaft 1 two ends, and said stator combination comprises motor housing 2 and is fixedly installed on the motor housing 2 and is evenly distributed on 15 armature assemblies 3 on the same circumference; Said rotor combination comprises the rotator seat 4 that is fixedly connected with rotating shaft 1 and is arranged on three group rotor magnetic yoke structure 5 on rotator seat 4 excircles; Said rotating shaft is connected with existing clutch or deceleration device, and five armature assemblies 3 of said arranged adjacent are formed respectively and three corresponding phase sequences of said three group rotor magnetic yoke structure 5, and promptly A comprises five armature assembly A by counterclockwise layout mutually
1, A
2, A
3, A
4, A
5B comprises five armature assembly B by counterclockwise layout mutually
1, B
2, B
3, B
4, B
5C comprises five armature assembly C by counterclockwise layout mutually
1, C
2, C
3, C
4, C
5
Wherein, the armature assembly 3 of correspondence position interconnects and constitutes five control loops in said each phase sequence, and promptly control loop one is respectively by the A in three phase sequences
1, B
1, C
1Three armature assemblies connect and compose; Control loop two is by A
2, B
2, C
2Three armature assemblies connect and compose; Control loop three is by A
3, B
3, C
3Three armature assemblies connect and compose; Control loop four is by A
4, B
4, C
4Three armature assemblies connect and compose; Control loop five is by A
5, B
5, C
5Three armature assemblies connect and compose.
When work; Several adjacent control loops form three magnetic circuit combinations to 5 effects of rotor yoke structure in said each phase sequence; Corresponding with it the respectively rotor yoke structure 5 of the magnetic circuit that each magnetic circuit constitutes forms closed flux circuit; At least be separated with an armature assembly of not working 3 between between the combination of said adjacent magnetic circuit, form a regular layout and can the continually varying rotating magnetic field, continue rotation to drive the rotor combination through the break-make that changes control loop.
Wherein, the overall structure of said rotor yoke structure 5 for processing, or the overall structure of processing by permanent magnetic material by ferromagnetic material, or make up structure by the permanent magnet that permanent magnetic material and ferromagnetic material constitute jointly; Said permanent magnet combination structure comprise be connected to the rotor yoke iron 6 in the rotator seat 4 location and installation grooves and be fixed on the rotor yoke iron 6 with the corresponding rotor permanent magnet 7 of magnetic circuit combination, the polarity of said rotor permanent magnet 7 ends should to make up the polarity of end generation different with magnetic circuit.
Said armature assembly 3 comprises the armature core 3a that is fixed on the motor housing 2 and the armature coil 3b on the armature core 3a; On said armature core 3a, with rotor yoke structure 5 corresponding end be provided with armature ends yoke 3c; The end area of said armature ends yoke 3c is greater than the end area of armature core 3a, and the end face structure of said armature ends yoke 3c and respective rotor combining structure are mated; Also include in the magnetic circuit that said armature assembly 3 is constituted and its parallel connection and permanent magnet that polar orientation is consistent.The setting of armature ends yoke can fix armature coil, can make the effect end group of armature core and rotor yoke structure originally continuous simultaneously, dwindles the spacing between the adjacent armature assembly.
Wherein, Said armature core 3a is the U type; Corresponding respectively the end of said two groups of armature coil 3b around U type armature core 3a; Said rotor yoke iron 6 is provided with two corresponding rotor permanent magnets 7 in end with U type armature core 3a, and the polarity of said two rotor permanent magnet 7 its ends is different, as shown in Figure 3; Between the both ends of said U type armature core 3a, be provided with permanent magnet 8, the polarity at said permanent magnet 8 both ends is corresponding identical with the polarity that U type armature core 3a both ends produce respectively.Said motor housing 2 is processed by metal material or nonmetallic materials with rotator seat 4.
Operation principle of the present invention:
Be illustrated in figure 1 as the structural representation of the initial condition of the embodiment of the invention 1; Position shown in it is 0 ° of initial position; This moment is in five control loops; Control loop two, control loop three, control loop four are conducting state; Control loop one be an off state with control loop five, and then the stator field center line of electric current generation coincides on the center line of control loop three and with the center line of rotor field in control loop two, control loop three, four or three loops of control loop, i.e. the armature assembly A of A in mutually
2, A
3, A
4The B of B in mutually
2, B
3, B
4The C of C in mutually
2, C
3, C
4The magnetic circuit combination that constitutes is respectively to its corresponding rotor yoke structure function; Be separated with two armature assemblies of not working between between adjacent magnetic circuit makes up under this state; Do not produce magnetic field in control loop one and the control loop five, this moment, rotor was in stable state, so the time rotor do not move.
After with control loop five conductings; The magnetic field that then in stator, produces is made up of control loop five, control loop four, control loop three, control loop two jointly; Its stator field center line in the heart, produces 12 ° deviation with the center line of rotor field in control loop four and control loop three adjacent boundary lines, the stable state of rotor is broken; Therefore rotor produces counterclockwise motion; The center line that makes the rotor field again with the central lines of stator field, come back to stable state, i.e. the armature assembly A of A this moment in mutually
2, A
3, A
4, A
5The B of B in mutually
2, B
3, B
4, B
5The C of C in mutually
2, C
3, C
4, C
5The magnetic circuit combination that constitutes is respectively to its corresponding rotor yoke structure function, is separated with an armature assembly of not working between between the adjacent magnetic circuit combination under this state, and control loop one does not produce magnetic field, and this moment, rotor was in stable state.This process makes rotor be rotated counterclockwise 12 °.
When being closed, control loop two has no progeny; The magnetic field that produce this moment in stator is made up of control loop five, control loop four, control loop three, and the stator field center line of its formation produces 12 ° deviation with the center line of rotor field on the center line of control loop four; The stable state of rotor is broken again; Therefore rotor continues to produce counterclockwise motion, the center line that forces the rotor field again with the central lines of stator field, come back to its stable state.This process makes rotor be rotated counterclockwise 12 °.
After with control loop one conducting; The magnetic field that then in stator, produces is made up of control loop one, control loop five, control loop four, control loop three jointly, and its center line in the heart, produces 12 ° deviation with the center line of rotor field in control loop five and control loop four adjacent boundary lines; The stable state of rotor is broken; Therefore rotor produces counterclockwise motion, the center line that makes the rotor field again with the central lines of stator field, come back to stable state.This process makes rotor be rotated counterclockwise 12 °.
When being closed, control loop three has no progeny; The magnetic field that produce this moment in stator is made up of control loop one, control loop five, control loop four, and the stator field center line of its formation produces 12 ° deviation with the center line of rotor field on the center line of control loop five; The stable state of rotor is broken again; Therefore rotor continues to produce counterclockwise motion, the center line that forces the rotor field again with the central lines of stator field, come back to its stable state.This process makes rotor be rotated counterclockwise 12 °.
And the like, the state of each control loop changes and can both make rotor produce rotation, through changing control sequence the direction of rotation of rotor is changed.
In like manner, the above-mentioned course of work also is fit to the field energy electric machine structure of other feeder number, and along with its power density of increase of feeder number is also bigger.
As shown in Figure 4; Be control timing figure of the present invention; This control timing figure just does in order to narrate its operation principle, and in order to reduce the fluctuation of torque, the loop of being opened in its control timing can be done corresponding adjustment with the loop that is turned off on sequential in real work.
Embodiment 2: as shown in Figure 5, the armature core 3a of said armature assembly 3 is continuous U type structure, and the end of said permanent magnet combination structure is corresponding with the structure of said armature core 3a.Other structures and operation principle and embodiment 1 are basic identical.
Embodiment 3: as shown in Figure 6, the armature core 3a of said armature assembly 3 is arranged on the both sides of rotator seat, and its armature core end is corresponding with the both sides of rotor yoke structure on being arranged on rotator seat.Other structures and operation principle and embodiment 1 or embodiment 2 are basic identical.
Embodiment: 4: as shown in Figure 7; The armature core 3a of said armature assembly 3 is a column structure; The end of said permanent magnet combination structure is corresponding with the structure of said armature core 3a; Motor housing is connected with rotating shaft through bearing pedestal, and wherein armature core-motor housing-rotating shaft-rotator seat-permanent magnet combination structure constitutes the magnetic closed-loop path, and said motor housing and rotator seat adopt the magnetic conductive metal material to process.Other structures and operation principle and embodiment 1 are basic identical.
Embodiment 5: as shown in Figure 8; Said permanent magnet combination structure comprises and is connected to the rotor yoke iron 6 in the rotator seat 4 location and installation grooves and is arranged on the rotor permanent magnet 7 between the adjacent rotor yoke 6 that the polarity that said rotor permanent magnet 7 produces in rotor yoke iron 6 ends should be different with the polarity that corresponding magnetic circuit combination end produces.Other structures and operation principle and embodiment 1 are basic identical.
The above is merely preferred embodiment of the present invention, not in order to restriction the present invention, all any modifications of within spirit of the present invention and principle, being done, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. field energy motor; Comprise the combination of stator combination and rotor; Said rotor combination is fixed in the rotating shaft (1); Said stator combination is connected with the bearing pedestal that is arranged on rotating shaft (1) two ends; It is characterized in that: said stator combination comprises motor housing (2) and is fixedly installed on motor housing (2) and goes up and be evenly distributed on several armature assemblies (3) on the same circumference; Said rotor combination comprises the rotator seat (4) that is fixedly connected with rotating shaft (1) and is arranged at least two group rotor magnetic yoke structure (5) on rotator seat (4) excircle; Several armature assemblies (3) of said arranged adjacent are formed several phase sequences corresponding with said rotor yoke structure (5) respectively, and armature assembly (3) number in said each phase sequence is identical, and the armature assembly (3) of correspondence position interconnects and constitutes several control loops in said each phase sequence; When work; Several adjacent control loops form several magnetic circuits combinations to rotor yoke structure (5) effect in said each phase sequence, and corresponding with it the respectively rotor yoke structure of the magnetic circuit that each magnetic circuit constitutes (5) forms closed flux circuit, are separated with an armature assembly of not working (3) between at least between the said adjacent magnetic circuit combination; Form a regular layout and can the continually varying rotating magnetic field through the break-make that changes control loop, continue rotation to drive the rotor combination.
2. field energy motor according to claim 1 is characterized in that: said armature assembly (3) comprises the armature core (3a) that is fixed on the motor housing (2) and the armature coil (3b) on the armature core (3a).
3. field energy motor according to claim 2; It is characterized in that: go up at said armature core (3a), be provided with armature ends yoke (3c) with rotor yoke structure (5) corresponding end; The end area of said armature ends yoke (3c) is greater than the end area of armature core (3a), and the end face structure of said armature ends yoke (3c) and respective rotor combining structure are mated.
4. field energy motor according to claim 2 is characterized in that: also include in the magnetic circuit that said armature assembly (3) is constituted and its parallel connection and permanent magnet that polar orientation is consistent.
5. field energy motor according to claim 2; It is characterized in that: the overall structure of said rotor yoke structure (5) for processing by ferromagnetic material; Or the overall structure of processing by permanent magnetic material, or the permanent magnet combination structure that constitutes jointly by permanent magnetic material and ferromagnetic material.
6. field energy motor according to claim 5; It is characterized in that: said permanent magnet combination structure comprises being connected to the rotor yoke iron (6) in rotator seat (4) the location and installation groove and being fixed on rotor yoke iron (6) and goes up or be arranged on the rotor permanent magnet (7) between the adjacent rotor yoke (6), and the polarity of said rotor permanent magnet (7) end should to make up the polarity that the end produces different with magnetic circuit.
7. field energy motor according to claim 6; It is characterized in that: said armature core (3a) is the U type; Corresponding respectively the end of said two groups of armature coils (3b) around U type armature core (3a); Said rotor yoke iron (6) is provided with two rotor permanent magnets (7) corresponding with the end of U type armature core (3a), and the polarity of its end of said two rotor permanent magnets (7) is different.
8. field energy motor according to claim 7; It is characterized in that: between the both ends of said U type armature core (3a), be provided with permanent magnet (8), the polarity at said permanent magnet (8) both ends is corresponding identical with the polarity that U type armature core (3a) both ends produce respectively.
9. according to claim 7 or 8 described field energy motors, it is characterized in that: said armature core (3a) is continuous U type structure, and the end of said permanent magnet combination structure is corresponding with the structure of said armature core (3a).
10. field energy motor according to claim 9 is characterized in that: said motor housing (2) and rotator seat (4) are processed by metal material or nonmetallic materials.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012101216108A CN102624184A (en) | 2012-04-24 | 2012-04-24 | Field energy motor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2012101216108A CN102624184A (en) | 2012-04-24 | 2012-04-24 | Field energy motor |
Publications (1)
Publication Number | Publication Date |
---|---|
CN102624184A true CN102624184A (en) | 2012-08-01 |
Family
ID=46563908
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN2012101216108A Pending CN102624184A (en) | 2012-04-24 | 2012-04-24 | Field energy motor |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN102624184A (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20060119215A1 (en) * | 2001-03-08 | 2006-06-08 | Ritz Edward F Jr | Brushless electromechanical machine |
CN1848607A (en) * | 2005-04-17 | 2006-10-18 | 谢庆生 | Multi-directional mixed permanent-magnetic energy-saving electric machine |
CN101189782A (en) * | 2005-05-24 | 2008-05-28 | 株式会社电装 | Electromotor and its control device |
CN102299604A (en) * | 2011-07-18 | 2011-12-28 | 戴珊珊 | Alternating current continuous torsion permanent magnet switch reluctance motor and excitation control method thereof |
CN202550854U (en) * | 2012-04-24 | 2012-11-21 | 陈奚平 | Field energy motor |
-
2012
- 2012-04-24 CN CN2012101216108A patent/CN102624184A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20060119215A1 (en) * | 2001-03-08 | 2006-06-08 | Ritz Edward F Jr | Brushless electromechanical machine |
CN1848607A (en) * | 2005-04-17 | 2006-10-18 | 谢庆生 | Multi-directional mixed permanent-magnetic energy-saving electric machine |
CN101189782A (en) * | 2005-05-24 | 2008-05-28 | 株式会社电装 | Electromotor and its control device |
CN102299604A (en) * | 2011-07-18 | 2011-12-28 | 戴珊珊 | Alternating current continuous torsion permanent magnet switch reluctance motor and excitation control method thereof |
CN202550854U (en) * | 2012-04-24 | 2012-11-21 | 陈奚平 | Field energy motor |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104218763A (en) | Multi-phase reluctance machine | |
CN101741197B (en) | Flux switching type magnetic-concentration transverse flux permanent magnetic wind generator | |
CN109995211A (en) | A kind of stator is the same as polar form hybrid permanent magnet memory electrical machine | |
CN109347229A (en) | Motor rotor construction and magneto | |
JP2019525722A (en) | Coaxial electromagnetic device | |
CN112054643B (en) | Stator-yoke-free interphase coupling type axial flux reluctance motor | |
CN102510241B (en) | Magnetic power machine | |
CN102638202A (en) | Electromagnetic motion energy generating device and method | |
Jia et al. | Variable flux memory motors: A review | |
CN113162314B (en) | Three-degree-of-freedom magnetic suspension switch reluctance integrated motor | |
CN107086756A (en) | Low-thrust fluctuates independent winding permanent-magnetism linear motor | |
CN107769501B (en) | A kind of disc type axial flux motor | |
CN204244045U (en) | With new and effective synchronous motor and the fan of feedback signal | |
CN106655556A (en) | Power motor with circumferential windings and new energy electromobile | |
CN202550854U (en) | Field energy motor | |
CN105408649A (en) | Reducing bearing forces in an electrical machine | |
CN202550850U (en) | Self-coupled permanent magnetic double-salient pole motor | |
CN102594070B (en) | Self-coupling type permanent magnet doubly salient motor | |
CN2432725Y (en) | Self-drive monophase diametral winding permanent-magnet reluctance machine | |
CN102624184A (en) | Field energy motor | |
CN204361876U (en) | A kind of rotation DC motor | |
CN202334387U (en) | Magnetic power machine | |
CN208226837U (en) | It is complete to carry electric device | |
CN102185389B (en) | Heterogenic motor | |
CN107086755A (en) | Independent winding modularization permanent-magnetism linear motor |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C12 | Rejection of a patent application after its publication | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20120801 |