CN1520008A - Rotary dynamo and its mfg. method - Google Patents
Rotary dynamo and its mfg. method Download PDFInfo
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- CN1520008A CN1520008A CNA031017819A CN03101781A CN1520008A CN 1520008 A CN1520008 A CN 1520008A CN A031017819 A CNA031017819 A CN A031017819A CN 03101781 A CN03101781 A CN 03101781A CN 1520008 A CN1520008 A CN 1520008A
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- stator core
- stator
- rotating machine
- electric rotating
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Abstract
In the invention the AC generator of vehicle is composed of stator, rotor and body case. The stator includes stator core and stator coil. The stator core possesses multiple slots, and stator coil passes through the said slots. The stator coil consists of multiple conductors. Each conductor includes insertion part and connection part. The insertion part is positioned inside the slots. The connection part is connected to axial outer insertion part of stator core. The connection part has first curved part and second curved part. The first curved part is setup near outer diameter of stator core, and the second curved part is setup near inner diameter of stator core. Radius of curvature of first curved part is larger than radius of curvature of second curved part.
Description
[technical field]
The present invention relates to a kind of electric rotating machine and manufacture method thereof.
[background technology]
In the disclosed alternating current generator of WO98/54823, stator has a stator coil that is made of a plurality of U-shaped conductor elements.Described conductor element is inserted into the groove of stator core from an axial end portion of stator core, and the end of described conductor element is connected on the opposite shaft orientation end of stator core.By this stator structure, a kind of compactness, effective and cheap alternating current generator have been formed.
In addition, in the disclosed a kind of alternating current generator of JP2000-37132A, in order to improve the insulating properties of return portion, the clearance for insulation between return portion U-shaped conductor element supporting leg is arranged in the clearance for insulation of the insertion portion of groove greater than the U-shaped element.
As the U-shaped element of stator coil, adopt element 500 with original shape shown in Figure 10.Return portion 502 has little sweep 504 that the stator core external diameter is arranged in the close groove and the macrobending part 506 of arranging near stator core internal diameter in the groove.When element 500 was installed in the groove, therefore the coil-end internal diameter had improved the insulating properties of return portion less than the external diameter of rotor.
But in this stator, the unevenness of coil-end inner rim increases.And, coil-end be arranged on the cooling air generating device near.Therefore, owing to have the gap between the rotor magnetic pole, therefore, the fluctuation of air pressure increases, and the noise of fan increases.In addition, because the coil-end internal diameter less than the external diameter of rotor, has therefore limited the flexibility ratio of the production schedule.Thereby be difficult to reduce production costs.
In addition, because the close rotor magnetic pole of coil-end, the magnetic field that is produced in the magnetic pole influences stator coil possibly, and reduces its performance.The problems referred to above even can take place too adopting under the situation of element 600 shown in Figure 11.Element 600 is in return portion 602 places bending, and it is crooked being arranged near the sweep 606 of stator core internal diameter, and near the part 604 that is arranged on the stator core external diameter is flat basically.
Fig. 9 shows the part of stator 900, and wherein, bigger part 1331 and less part 1332 are inserted in the groove 905 of stator core 902.And formed angle theta 11 is approximately 110 ° between the longitudinal centre line of the groove 905 that the radius of stator core 902 coincides and the center line of major part 1331.And formed angle theta 12 is approximately 90 ° between the longitudinal centre line of the groove 905 that the radius of stator core 902 coincides and the center line of major part 1331.
In the disclosed stator of JP9-19108A, the polyphase winding winding is inserted in the stator core, and it is crooked to the periphery of stator core in return portion only to be in a coil windings on the phase place.Because only to be in a coil windings on the phase place is crooked, therefore, the length of this coil windings is different with the length of coil windings on being in other phase place.In other words, the resistance of coil windings is different.Therefore, reduced generating capacity.
[summary of the invention]
An object of the present invention is to provide a kind of at the electric rotating machine that all is improved aspect size, power output and the cost and keeps its generating effect, low fan noise simultaneously again and be convenient to characteristics such as making.
Another object of the present invention provides a kind of manufacture method of making electric rotating machine.
Electric rotating machine of the present invention comprises rotor, is positioned at the stator in the rotor radial outside and the shell of enclosed rotor and stator.Described stator comprises stator core and stator coil, and described stator core periphery within it has a plurality of grooves, and described stator coil passes described groove.Stator coil has insertion portion that is arranged in groove and the coupling part that is connected the axial outside of stator core insertion portion.Each coupling part has first curved portion and second curved portion.First curved portion is near the external diameter of stator core, and second curved portion is near the internal diameter of stator core.The radius of curvature of first curved portion is greater than the radius of curvature of second curved portion.
By this structure, improved the uniformity by the formed coil-end inner rim in coupling part.And coil-end and cooling air the generating means for example interval between the fan increase.Therefore, reduced the noise that the cooling air fan assembly is produced.In addition, owing to all be formed with first and second curved portion on all coupling parts, therefore, the resistance that forms the conductor of stator coil equates basically.Thereby can keep its generating effect.
Stator coil is made of the U lead.Long lead is cut into predetermined length, lead is bent to the shape that is roughly U-shaped, and on the sweep of U-shaped, form first curved portion, make the U-shaped lead therefrom.Form first curved portion in a side near the stator core external diameter.Then, before being installed to the U-shaped lead in the groove, the U-shaped lead is twisted into predetermined shape.
Owing to just form first curved portion in distortion with before being installed in the groove, therefore, simplified the manufacture process of electric rotating machine.In addition, also reduced the manufacturing cost of electric rotating machine.
[description of drawings]
Above-mentioned purpose, characteristics and the advantage with other of the present invention can be by below in conjunction with clearly drawing in the description that accompanying drawing carried out.Wherein:
Fig. 1 is the schematic diagram of ac generator of vehicle of the embodiment of the invention of partly cut-away;
Fig. 2 is the cross-sectional view of the part in the stator of the embodiment of the invention;
Fig. 3 is mounted in the perspective view of the conductor element in the stator core of the embodiment of the invention;
Fig. 4 is the perspective view of end of the conductor element of the embodiment of the invention;
Fig. 5 is the local end view of the stator core of the embodiment of the invention, and it shows conductor element is how to be installed in the groove;
Fig. 6 is a schematic diagram of representing how to make the conductor element of the embodiment of the invention;
Fig. 7 is the schematic diagram by the conductor element of method manufacturing shown in Figure 6;
Fig. 8 is the schematic diagram according to the improved conductor element of the embodiment of the invention;
Fig. 9 is the local end view of the stator core of prior art ac generator of vehicle, and it shows conductor element is how to be installed in the groove;
Figure 10 is the schematic diagram of the conductor element of prior art;
Figure 11 is the schematic diagram of the conductor element of prior art.
[embodiment]
Below in conjunction with accompanying drawing the preferred embodiments of the present invention are described.
Ac generator of vehicle 1 shown in Figure 1 is a threephase generator, and it is driven by the engine (not shown).Front-end and back-end are represented on the left side of alternating current generator 1 and right side respectively among Fig. 1.Alternating current generator 1 comprises stator 2, rotor 3, shell 4 and rectifying device 5.Rotor 3 rotates with axle 6, and plays excitation magnet.Rotor 3 comprises Lundell type pole core 7, magnet exciting coil 8, slip ring 9,10, mixed flow fan 11 and centrifugal fan 12.Axle 6 links to each other with belt pulley 20, and is driven by the engine (not shown) and to rotate.
Lundell type pole core 7 is made of a pair of pole core.Each pole core comprises that is fixed on axle 6 hub portion 71 and a wheel disc portion 72 that radially extends from the axial end portion of hub portion 71 on every side.And pole core 7 comprises 16 claw-type poles 73.Magnet exciting coil 8 is wrapped in around the hub portion 71.
Mixed flow fan 11 comprises basal disc 111, is the dihedral vane of acute angle layout and the vertical vane of arranging perpendicular to basal disc 111 with respect to basal disc 111.Basal disc 111 is fixed on the front end surface of pole core 7 by welding or other mode, thereby mixed flow fan 11 can be with rotor 3 rotations.Centrifugal fan 12 comprises basal disc 121 and the blade of arranging perpendicular to basal disc 121.Basal disc 121 is fixed on the rear end surface of pole core 7 by welding or other mode, thereby centrifugal fan 12 can be with rotor 3 rotations.
Preceding end housing 4a and back end housing 4b fix by studs (fixture) 4c, thereby preceding end housing 4a and back end housing 4b can keep together stator 2 and rotor 3.Specifically, the flange 4g of the axial forward end of stator core 32 by studs 4c exerts pressure vertically and is crimped on step 4f, and stator core 32 is clipped between step 4f and the flange 4g.
Rectifying device 5 is fixed on the end of back end housing 4b, and relative with the first coil-end 31a.Rectifying device 5 is a direct voltage with the ac voltage rectifier of stator 2 outputs.
When rotary driving force from engine by belt with when similarly device passes to belt pulley 20, rotor 3 just rotates along predetermined direction.In the case, make the claw-type pole 73 of pole core 7 produce excitation by end voltage being acted on magnet exciting coil 8.Therefore, in stator coil 31, produce three-phase voltage, and produce direct current at the output 5a of rectifying device 5.
To at length be described below stator 2.
As shown in Figure 2, stator core 32 has the uniform groove that separates 35 that radially inwardly opens wide along stator core 32.The electric conductor of stator coil 31 is arranged in the groove 35 by insulator 34.Insulator 34 forms electric insulation between stator core 32 and stator coil 31.The number of groove 35 is decided according to the number of magnet poles of rotor 3 and the number of phases of stator coil 31.As in this embodiment, be provided with 72 grooves.
Fig. 3 shows the shape of the electric conductor in the groove 35 that is installed in stator core 32. Electric conductor 331 and 332 by will being roughly U-shaped the lead moulding or be twisted into reservation shape and form.Each conductor has the cross section that thickness is roughly rectangle uniformly. Conductor 331 and 332 is arranged in a predetermined manner and is constituted stator coil 31.
In each groove 35, even number electric conductor (for example, being 4 conductors in this embodiment) is installed, and passes along extending axially of stator core 32.As shown in Figure 2, conductor 331 and 332 straight part (insertion portion) 331a, 332a, 332b and 331b are arranged along a straight line, and on the radially outer direction of stator core 32, form internal layer (ground floor), mesonexine (second layer), sarcocyte (the 3rd layer) and outer (the 4th layer).
Axially coupling part (return portion) 331c, the 332c of the conductor 331,332 in the outside constitute the first coil-end 31a by stator core 32.Axially link 331d, 331e, 332d and the 332e of the conductor 331,332 in the outside constitute the second coil-end 31b by stator core 32.
The conductor that is positioned on the layer of groove 35 disposes in pairs with a conductor on another layer that is positioned at the groove 35 of groove 35 adjacent pole spans, keeps between the conductor at interval and arrangement of conductors in an orderly manner thereby make.
For example, the insertion portion 331a of ground floor disposes in pairs with the 4th layer the insertion portion 331b that is positioned at the groove 35 of the adjacent pole span of groove that is passed with insertion portion 331a.The insertion portion 332a of the second layer and the 3rd layer the insertion portion 332b that is positioned at the groove 35 of the adjacent pole span of groove that is passed with insertion portion 332a dispose in pairs.
The insertion portion 332a of the second layer also with the insertion portion 331a ' configuration in pairs of the ground floor of the groove 35 that is positioned at the adjacent pole span of groove that is passed with insertion portion 332a.The 4th layer insertion portion 331b ' and the 3rd layer the insertion portion 332b that is positioned at the groove 35 of the adjacent pole span of groove that is passed with insertion portion 331b ' dispose in pairs.The end 332d of insertion portion 332a links to each other with the end 331d ' of insertion portion 331a ' in the axial outside of stator core 32 axial forward end.The end 331e ' of insertion portion 331b ' links to each other with the end 332e of insertion portion 332b in the axial outside of stator core 32 axial forward end.
The coupling part of the coupling part of end 331d ' and 332d and end 332e and 331e ' is arranged in stator core 32 radially, thereby forms the adjacent layer coil-end.In the case, the coupling part of end conductor can be not overlapping in the axial outside of stator core 32 axial forward end, thereby form the second coil-end 31b.
Here, the conductor 331 that comprises insertion portion 331a, 331b, coupling part 331c and end 331d, 331e is called as big portion section.The conductor 332 that comprises insertion portion 332a, 332b, coupling part 332c and end 332d, 332e is called as little section.
Big portion's section 331 and little section 332 are included in the basic portion section 33.Basic portion section 33 is arranged in the groove 35 in a particular manner, thereby forms the stator coil 31 around twice of stator core 32 turnover.But, form the portion's section of drawing lead of stator coil 31 and the return portion of first and second laps that are connected stator coil 31 and be included in the portion's section with given shape.Stator coil 31 comprises portion's section of 9 given shapes.By connecting first lap and second lap, just by connecting the coil-end that inner coil end and outer coil end just can form given shape.
To the manufacture process of stator coil 31 be described below.
At first, arrange that basic portion section 33 makes the return portion 331c of big portion section 331 pass through to the outside of the return portion 332c of little section 332.Before being installed to portion's section 33 in the groove 35, twist part section 33 makes insertion portion 331a and insertion portion 332a corresponding respectively in the ground floor and the second layer of groove (first groove) 35, and conductor 332b and conductor 331b are corresponding to respectively in third and fourth layer of another groove (second groove) 35 of the pole span of clockwise direction and first groove interval of stator core 32.Then, the parts 33 with distortion are inserted into the groove 35 from the axial rearward end of stator core 32.Like this, insertion portion 331a, 331b, 332a and 332b just are arranged in the groove 35 in the above described manner.
After insertion section section 33, will be from the end bent of portion's section 33 that the axial forward end of stator core 32 is stretched out.Specifically, the end 331d and the 331e of crooked big portion section 331 make end 331d circumferentially leave end 331e along stator core 32.The point place that each end 331d of big portion section 331 and 331e extend to groove 35 about one and half grooves that passed apart from portion's section 331.The end 332d and the 332e of crooked little section 332 make end 332d near end 332e.Each end 332d and 332e extend to the some place of about one and half grooves.
After having carried out above-mentioned steps, by welding, for example ultrasonic bonding, arc welding and soldering are electrically connected all sections 33 in the groove 35, the 4th layer end 331e ' and the 3rd layer end 332e.Similarly, the end 332d of the second layer and the end 331d ' of ground floor are electrically connected.When finishing above-mentioned steps and form all ends shown in Figure 4, just formed the second coil-end 31b of stator 2.
When the axial rearward end of stator core 32 is seen stator core 32, big portion's section 331 and little section 332 just are arranged to form shown in Figure 5.The longitudinal centre line L1 of the groove 35 that overlaps with the radius of stator core 32 and be approximately 90 ° from the angle theta 1 between the centre line L 2 of portion's section 331 that ground floor stretches out.The longitudinal centre line L3 of the groove 35 that overlaps with the radius of stator core 32 and be approximately 100 ° from the angle theta 2 between the centre line L 4 of the 4th layer of portion's section 331 of stretching out.Just, angle theta 2 is greater than angle theta 1.
Therefore, at return portion 331c, near the curve stator core 32 internal diameters is less than near the curve stator core 32 external diameters.The minimum diameter D1 of the first coil-end 31a is greater than the inside diameter Ds o of stator core 32.Near stator core 32 internal diameters position folds return portion 331c with respect to the internal diameter contact wire of groove 35 to the outside diameter of stator core 32.Arrange little section 332 in the same way.
In addition, minimum diameter D1 is greater than the outer diameter D r of rotor 3.The maximum outside diameter D2 of basic portion section 33 just the external diameter of the first coil-end 31a greater than the outer diameter D s of stator core 32.This has just reduced the interference of coil-end 31a and other parts.Therefore, reduced the height of coil-end.Because the interval between fan and the coil-end 31a increases, thereby also reduced the noise of fan.
The U-shaped lead that is used to form portion's section 331 and 332 can be made as shown in Figure 6.At first, long lead is cut into certain length and forms straight lead 100 (step 1).Then, straight lead 100 is arranged on the certain location, and it is bent to U-shaped (step 2) basically by downward (direction shown in the arrow A 1) mobile removable pin 210.Therefore, just make U-shaped lead 200 with return portion 202, first straight line portion 205 and second straight line portion 207.
Secondly, along continuous straight runs (direction shown in the arrow A 2) is moved into forming roll 212, thus a side of return portion 202 form with regard to depression sweep (big sweep) 204 (step 3), as shown in Figure 7.Return portion 202 has flat 206 in a side relative with big sweep 204.Here, big sweep 204 is called as first curved portion, and flat 206 is called as second curved portion.Return portion 202 is corresponding with return portion (coupling part) 331c, 332c.
The part of first straight line portion 205 is corresponding with the insertion portion 331b, the 332b that are arranged near in the groove 35 of stator core 32 external diameters.The part of second straight line portion 207 is corresponding with the insertion portion 331a, the 332a that are arranged near in the groove 35 of stator core 32 internal diameters.
Because the return portion 331c and the 332c of portion's section 331,332 have big sweep 204 that is positioned at stator core 32 outside diameters and the flat 206 that is positioned at internal side diameter, therefore, have improved the evenness of the first coil-end 31a inner rim.By this structure, coil- end 31a, 31b and cooling air the generating means for example interval between mixed flow fan 11 and the centrifugal fan 12 increase.Therefore, reduced the noise of fan.
In addition, the portion's section for all portion's sections 33 rather than given shape all is formed uniformly bending.In other words, portion's section 33 is made identical length (identical resistance).Therefore, can keep its generating effect.
In addition, because first curved portion 204 is provided with near the outside diameter of stator core 32, the maximum outside diameter D2 of the first coil-end 31a is greater than the outer diameter D s of stator core 32.By this structure, towards the internal diameter of the back end housing 4b of the first coil-end 31a internal diameter greater than preceding end housing 4a.And back end housing 4b is being provided with pore 42 on the position of the first coil-end 31a.Therefore, improved cooling performance.
Portion's section 33 has the cross section that is roughly rectangle at insertion portion at least, and therefore, the zone of the groove 35 that portion's section 33 is occupied increases.Therefore, can obtain higher energy output, reduce its size simultaneously.Because the air duct on centrifugal direction increases, and therefore, under the situation of same cross-sectional area, compares with the portion's section with circular cross section, has improved the cooling effectiveness of coil-end 31a.
By adopting U-shaped lead 200 to form stator coil 31, can produce stator 2 at an easy rate, and can reduce production costs.But the present invention is not limited to embodiment aforesaid and shown in the drawings, under the situation that does not break away from aim of the present invention, can also other variety of way realize the present invention.
For example, as shown in Figure 8, second curved portion 206 can be slight curving.U-shaped lead 200A has little sweep 208 in the side near stator core 32 internal diameters, has big sweep 204 in the side near stator core 32 external diameters.The radius of curvature of first curved portion 204 is greater than the radius of curvature of second curved portion 208.In order to make U-shaped lead 200A, in step 3, adopt two format rolls 212.Apply power by two format rolls 212 from the both sides of lead 200A and form first curved portion 204 and second curved portion 208.
The present invention can be applicable to the electric rotating machine of any kind of, and a kind of in the electric generator of vehicle just.
Claims (17)
1. electric rotating machine, it comprises:
Be used to produce the rotor in magnetic field;
Be positioned at the stator in the rotor radial outside, described stator comprises stator core and stator coil, and described stator core periphery within it has a plurality of grooves, and described stator coil passes described groove; With
The shell of enclosed rotor and stator,
Wherein, stator coil has insertion portion that is arranged in groove and the coupling part that is connected the axial outside of stator core insertion portion,
Wherein, each coupling part has first curved portion and second curved portion, the external diameter setting of the close stator core of first curved portion, and the internal diameter setting of the close stator core of second curved portion, and
The radius of curvature of first curved portion is greater than the radius of curvature of second curved portion.
2. electric rotating machine according to claim 1, wherein, second curved portion and its coupling part are tangent.
3. electric rotating machine according to claim 1, wherein, stator coil is made of a plurality of electric conductors that are roughly U-shaped, and each conductor has first insertion portion, second insertion portion, return portion, first end and the second end, wherein,
First insertion portion is arranged near in first groove of stator core external diameter, and second insertion portion is arranged near in second groove of stator core internal diameter, and second groove and first groove are at a distance of a pole span;
Return portion connects first insertion portion and second insertion portion, and forms the coupling part;
First and second ends are formed at each end of first and second insertion portions, and each end side relative in the coupling part axially links to each other the end of another conductor in the outside with stator core.
4. electric rotating machine according to claim 3, wherein, in being installed to stator core before, form each electric conductor by being twisted into the lead that is roughly U-shaped.
5. electric rotating machine according to claim 3, wherein, form first angle theta 1 between the center line of the longitudinal centre line of second groove that overlaps with the stator core radius and second curved portion of coupling part, form second angle theta 2 between the center line of the longitudinal centre line of first groove that overlaps with the stator core radius and first curved portion of coupling part
Wherein, each conductor arrangement becomes to make first angle theta 1 less than second angle theta 2.
6. electric rotating machine according to claim 1 and 2, wherein, the coupling part forms coil-end, and the minimum diameter of coil-end is greater than the external diameter of rotor.
7. electric rotating machine according to claim 1 and 2, wherein, the coupling part forms coil-end, and the maximum outside diameter of coil-end is greater than the external diameter of stator core.
8. electric rotating machine according to claim 1 and 2, wherein, each insertion portion has the cross section that is roughly rectangle.
9. electric rotating machine according to claim 4, wherein, the U-shaped lead has first straight line portion, second straight line portion and is connected first straight line portion and the sweep of second straight line portion, this sweep comprises second curved portion near first curved portion of first straight line portion and close second straight line portion, the radius of curvature of first curved portion is greater than the radius of curvature of second curved portion
Wherein, when twisting the U-shaped lead and attaching it in the stator core, first straight line portion forms first insertion portion, and second straight line portion forms second insertion portion.
10. electric rotating machine according to claim 9, wherein, second curved portion and its sweep are tangent.
11. electric rotating machine according to claim 3, wherein, shell comprises first shell that centers on the stator core end and second shell that centers on the stator core coupling part, and the internal diameter of second shell is greater than the internal diameter of first shell.
12. electric rotating machine according to claim 11, it also comprises:
The fixture that has flange,
Wherein, first shell periphery within it has step, pushes stator core vertically by fixture, thereby stator core is fixed between step and the flange.
13. electric rotating machine according to claim 12, wherein, fixture is the bolt that is used for fastening first shell and second shell.
14. electric rotating machine according to claim 1 and 2, wherein, shell is provided with pore at the position relative with first curved portion of the coupling part of stator coil.
15. a method of making electric rotating machine as claimed in claim 9, it may further comprise the steps:
Long lead is cut into predetermined length;
Lead is bent to the shape that is roughly U-shaped, thereby form first straight line portion, second straight line portion and sweep;
Form first curved portion by sweep, make the U-shaped lead therefrom.
16. the method for manufacturing electric rotating machine according to claim 15, before it also is included in and is installed to the U-shaped lead on the stator core, the step of distortion U-shaped lead.
17. the method for manufacturing electric rotating machine according to claim 15, it also is included on second curved portion of sweep and forms curve, thereby makes the step of the radius of curvature of second curved portion less than the radius of curvature of first curved portion.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031017819A CN100449909C (en) | 2003-01-22 | 2003-01-22 | Rotary dynamo and its mfg. method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB031017819A CN100449909C (en) | 2003-01-22 | 2003-01-22 | Rotary dynamo and its mfg. method |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1520008A true CN1520008A (en) | 2004-08-11 |
| CN100449909C CN100449909C (en) | 2009-01-07 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB031017819A Expired - Fee Related CN100449909C (en) | 2003-01-22 | 2003-01-22 | Rotary dynamo and its mfg. method |
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| Country | Link |
|---|---|
| CN (1) | CN100449909C (en) |
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101369751B (en) * | 2007-08-16 | 2012-11-28 | 欧瑞康纺织有限及两合公司 | Electric machine with a coil for producing a rotating field and method for producing the coil |
| CN102859847A (en) * | 2010-04-14 | 2013-01-02 | 泰克马奇有限公司 | Apparatus and method for pre-forming electrical bar conductors, in particular for bar windings of electrical machines |
| CN104167833A (en) * | 2013-05-16 | 2014-11-26 | 本田技研工业株式会社 | Stator of segmented conductor type electric rotary machine and fabrication method thereof |
| CN110022019A (en) * | 2017-12-26 | 2019-07-16 | 本田技研工业株式会社 | The stator of rotating electric machine |
| CN111527680A (en) * | 2017-10-30 | 2020-08-11 | 米巴自动化系统有限公司 | Apparatus and method for forming wire sets |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110556937B (en) | 2018-05-31 | 2021-12-07 | 比亚迪股份有限公司 | Stator assembly and motor |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0917278B2 (en) * | 1997-09-26 | 2008-12-31 | Denso Corporation | Alternator for vehicle |
| JP2001197097A (en) * | 2000-01-07 | 2001-07-19 | Hitachi Ltd | Packet communication system |
-
2003
- 2003-01-22 CN CNB031017819A patent/CN100449909C/en not_active Expired - Fee Related
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101369751B (en) * | 2007-08-16 | 2012-11-28 | 欧瑞康纺织有限及两合公司 | Electric machine with a coil for producing a rotating field and method for producing the coil |
| CN102859847A (en) * | 2010-04-14 | 2013-01-02 | 泰克马奇有限公司 | Apparatus and method for pre-forming electrical bar conductors, in particular for bar windings of electrical machines |
| CN104167833A (en) * | 2013-05-16 | 2014-11-26 | 本田技研工业株式会社 | Stator of segmented conductor type electric rotary machine and fabrication method thereof |
| CN104167833B (en) * | 2013-05-16 | 2017-04-12 | 本田技研工业株式会社 | Stator of segmented conductor type electric rotary machine and fabrication method thereof |
| CN111527680A (en) * | 2017-10-30 | 2020-08-11 | 米巴自动化系统有限公司 | Apparatus and method for forming wire sets |
| CN110022019A (en) * | 2017-12-26 | 2019-07-16 | 本田技研工业株式会社 | The stator of rotating electric machine |
| US10840760B2 (en) | 2017-12-26 | 2020-11-17 | Honda Motor Co., Ltd. | Stator of rotary electric machine |
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| Publication number | Publication date |
|---|---|
| CN100449909C (en) | 2009-01-07 |
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