CN109256911A - motor manufacturing method and motor - Google Patents

Abstract

The present invention provides motor manufacturing method and motor.Motor includes rotor, can be pivoted about with central axis；Stator, it is opposed radially with the rotor；Multiple lead-out wires of coil, they draw from the stator to upside；And coil supports component, it is made of the material of insulating properties, include the lead-out wire through portion passed through for the lead-out wires of coil, motor manufacturing method is characterized in that, include following process: forming the 1st guide portion in the front end of the lead-out wires of coil, the 1st guide portion can be guided by the inner surface of the lead-out wire through portion；And the lead-out wires of coil is made to pass through the lead-out wire through portion.

Description

Motor manufacturing method and motor

Technical field

The present invention relates to motor manufacturing method and motors.

Background technique

When manufacturing motor, need to connect lead-out wires of coil with control base board.For example, in Japanese Unexamined Patent Publication 2015- The motor being disclosed directly below in No. 144507 bulletins: the seal member for the lead-out wires of coil that bearing is connect with control base board is configured at The upper surface of motor shell.It is close as coil supports component in the motor documented by Japanese Unexamined Patent Publication 2015-144507 bulletin Envelope component has the through hole passed through for lead-out wires of coil.Seal member is made of the material of insulating properties, make lead-out wires of coil with The other parts of motor are electrically insulated.

In recent years, in the assembling procedure of motor, the automation of the assembling of coil supports component and lead-out wires of coil is able to Development.But when making lead-out wires of coil by the through hole of coil supports component lead-out wires of coil relative to perforation hole location In the case where setting offset, there are following situations: lead-out wires of coil does not enter into through hole or the front end of coil line is hooked on Inside through holes.Therefore, the assembling of motor is highly difficult.

Summary of the invention

The present invention in view of the above problems, provides the motor manufacturing method for becoming easy the assembling of motor and motor.

The motor manufacturing method of one embodiment of the illustration of the application is the method for manufacturing motor, which includes Rotor can be pivoted about with central axis；Stator, it is opposed radially with rotor；Multiple lead-out wires of coil, They draw from stator to upside；And coil supports component.Exhausted coil supports component is made of the material of insulating properties, comprising supplying The lead-out wire through portion that lead-out wires of coil passes through.Motor manufacturing method includes following process: in the front end of lead-out wires of coil The 1st guide portion is formed, the 1st guide portion can be brought out the inner surface guidance of line through portion；And pass through lead-out wires of coil Lead-out wire through portion.

According to the embodiment illustrated of the application, it is easy that lead-out wires of coil is made to pass through coil supports component.Therefore, can Become easy the assembling of motor.

The present invention can be more clearly understood that referring to attached drawing by the detailed description of the preferred embodiment for the present invention below Above-mentioned and other feature, element, step, features and advantages.

Detailed description of the invention

Fig. 1 is the cross-sectional view of the motor of embodiment 1.

Fig. 2 is the perspective view for omitting a part of the inside of the motor of embodiment 1 and showing.

Fig. 3 is the schematic diagram for showing the coil supports component and lead-out wires of coil of embodiment 1.

Fig. 4 A is the cross-sectional view for showing a part of coil supports component of embodiment 1.

Fig. 4 B is the side view of the lead-out wires of coil of embodiment 1.

Fig. 5 is the flow chart for showing the manufacturing process of motor of embodiment 1.

Fig. 6 is a part of the coil supports component for the variation for showing embodiment 1 and the schematic diagram of lead-out wires of coil.

Fig. 7 is a part of coil supports component and showing for lead-out wires of coil for another variation for showing embodiment 1 It is intended to.

Fig. 8 is a part of coil supports component and showing for lead-out wires of coil for the another variation for showing embodiment 1 It is intended to.

Fig. 9 is the side view of the lead-out wires of coil of embodiment 2.

Figure 10 is a part for showing the coil supports component of embodiment 2 and the schematic diagram of lead-out wires of coil.

Figure 11 is a part of the coil supports component for the variation for showing embodiment 2 and the signal of lead-out wires of coil Figure.

Figure 12 is the perspective view for showing a part of coil supports component of other embodiments.

Specific embodiment

Hereinafter, embodimentsing of the present invention will be described while referring to attached drawing.In addition, the scope of the present invention is unlimited In the following embodiments and the accompanying drawings, can arbitrarily change within the scope of the technical idea of the present invention.

In the following description, the central axis that the rotor of motor rotates is set as C.The direction that central axis C is extended It is set as axial.Also, a side axially is set as upside, another party is set as downside.But the upper and lower of this specification To being used for certain positional relationship, actual direction or positional relationship are not limited.Under gravity direction is not necessarily Direction.Also, the direction vertical with the rotation axis of motor in the present specification, is known as " radial direction ".It will be along with motor The direction of circular arc centered on rotation axis is known as " circumferential direction ".

In the attached drawing used in the following description, sometimes for the purpose of emphasizing characteristic, for convenience and enlargedly Shown with the part of feature.The size and ratio of each structural element are not necessarily identical as practical situation as a result,.Also, go out In identical purpose, illustrated in a manner of omitting the not part of feature sometimes.

1. embodiment of <, 1 >

< 1-1. motor >

As depicted in figs. 1 and 2, motor 10 has shell 11, bearing retainer 13, rotor 20, stator 30, coil supports portion Part 50, busbar 60 and coil line 70.

< shell >

Shell 11 is that substantially have bottom cylindrical shape centered on central axis C.Shell 11 inside be accommodated with rotor 20, Stator 30, bearing retainer 13 etc..Bearing retainer 13 supports upside bearing 15.In addition, the shape of shell 11 is in addition to there is bottom circle Other than barrel shape, the shape etc. for being also possible to cuboid or combining cuboid and cylinder is not particularly limited.Shell 11 be, for example, formed by the die-casting process of aluminium, but also by machining, the plastic processing of forging, be utilized resin, Or other methods and formed.The material of shell 11 in addition to aluminum, can also be other metal materials such as iron, without spy It does not limit.

< bearing retainer >

As shown in Fig. 2, the configuration of bearing retainer 13 is in the upside of stator 30.The shape in disk form of bearing retainer 13, in There is opening portion 13a around mandrel line C.Opening portion 13a is the hole penetrated through for axis 21.Bearing retainer 13 is also along circumferential tool There are multiple through portion 13b.Through portion 13b be along axially through hole.The cylindrical portion 53 of aftermentioned coil supports component 50 is inserted into In through portion 13b.

As shown in Figure 1, bearing retainer 13 supports upside bearing 15.Upside bearing 15 is kept by bearing retainer 13.Under Side bearing 16 is kept by the bottom of shell 11.Upside bearing 15 and lower side bearing 16 can rotate the bearing of rotor 20.

< rotor >

As shown in Figure 1, rotor 20 includes axis 21 and rotor core 23.Axis 21 is in substantially round centered on central axis C Post shapes.Rotor core 23 is fixed on axis 21.The radial outside of the encirclement axis 21 of rotor core 23.Rotor core 23 and axis 21 are together Rotation.

< stator >

As shown in Figure 1, stator 30 surrounds the radial outside of rotor 20.Stator 30 includes stator core 31 and coil line 70.

Although illustration omitted, stator core 31, which has, is circumferentially configured with multiple core-back and teeth portion.Multiple iron Core back is integrally in the tubular concentric with central axis C.Teeth portion extends from the medial surface of core-back towards radially inner side.Teeth portion It is provided with multiple, circumferentially forms grooving.

Coil line 70 is wound in each teeth portion via insulating part (illustration omitted).

In the motor 10 of present embodiment, coil line 70 is made of 2 systems, and 2 systems are with 2 groups by U phase, V The group mutually formed with W phase.In addition, the system number can change.That is, motor 10 can use the structure of 1 system, can also adopt With structures more than 3 systems.

< lead-out wires of coil >

Lead-out wires of coil 71 is the conducting wire drawn from the coil line 70 for being wound in stator 30.Lead-out wires of coil 71 is along axial logical The inside for being configured at the coil supports component 50 of 30 top of stator is crossed, is connect with busbar 60.In addition, lead-out wires of coil 71 can also To extend axially through the inside of coil supports component 50, it is connect with circuit board (illustration omitted).

As shown in Figure 4 B, lead-out wires of coil 71 includes that the part 1 71a axially extended and edge are vertical with part 1 The part 2 71b that direction extends.Part 1 71a and part 2 71b forms L-shaped flexion portion.Lead-out wires of coil 71 is also The front end of 1 part 71a forms the 1st guide portion 71c.1st guide portion 71c is relative to axially inclined face.1st guide portion 71c It is to be formed and obliquely cutting off the front end of lead-out wires of coil 71.

Lead-out wires of coil 71 can swimmingly pass through aftermentioned coil supports portion by the inclined surface of the 1st guide portion 71c In part 50.

< coil supports component >

As depicted in figs. 1 and 2, the configuration of coil supports component 50 is on the top of stator 30.Coil supports component 50 is by insulating Material is formed, and stator 30 is made to be electrically insulated with bearing retainer 13.As shown in figure 3, coil supports component 50 has flat-platy base portion 51, multiple cylindrical portions 53, annular wall 55 and supporting part 57.

Flat-platy base portion 51 is in the ring-type centered on central axis C.Flat-platy base portion 51 be in central axis upright Direction on flat shape.Cylindrical portion 53 is arranged along the circumferential direction of flat-platy base portion 51, dashes forward upwards from flat-platy base portion 51 Out.As shown in Figure 4 A, cylindrical portion 53 has lead-out wire through hole 53a in inside.The section of the upper end of lead-out wire through hole 53a It is round.The diameter of the upper end of lead-out wire through hole 53a it is bigger than the line footpath of lead-out wires of coil 71 or with lead-out wires of coil 71 Line footpath it is consistent.Under the diameter of lead-out wire through hole 53a and the line footpath unanimous circumstances of lead-out wires of coil 71, lead-out wires of coil 71 can be stably attached to coil supports component 50, stablize the position of lead-out wires of coil 71.

Flat-platy base portion 51, which also has, to be connected to and in the extraction line pluging handhole 51a of lower opening with lead-out wire through hole 53a. As shown in Figure 4 A, the diameter for drawing the lower end of line pluging handhole 51a is bigger than the diameter of upper end.

Lead-out wires of coil 71 as shown in Figure 4 A, passes through lead-out wire through hole 53a by from line pluging handhole 51a insertion is drawn It is brought out upwards.

Flat-platy base portion 51 further has uniform thickness in the axial direction.By making the wall thickness of flat-platy base portion 51 substantially Centainly, it can be realized the slimming of motor 10.It is especially configured in the lower section of coil bearing part 50 and is wound in stator 30 Coil line 70, the overlap joint line (illustration omitted) that will be connected between coil line 70.Therefore, make the thickness in the axial direction of coil supports component It spends thinning to make motor be thinned.Also, in the case where coil supports component is molded with resin, it is able to suppress contraction Generation.

The configuration of annular wall 55 leans on the position of radially inner side in the outer end than lead-out wire through hole 53a, from flat-platy base portion 51 It protrudes downwards.Annular wall 55 and the bearing retainer 13 for being located at radially inner side are arranged opposite.

Annular wall 55 is provided with from the viewpoint of the intensity of coil supports component 50.On the other hand, for busbar 60 or other component configuration, lead-out wire through hole 53a needs to configure in the radially inner side of coil supports component 50.Therefore, Have to configure annular wall 55 closely with lead-out wire through hole 53a.Therefore, annular wall 55 is located at lead-out wires of coil 71 and is easy The position of interference.But due to forming the 1st guide portion 71c in the front end of lead-out wires of coil 71, coil can be drawn The front end of line 71 is swimmingly directed to lead-out wire through hole 53a.

Supporting part 57 protrudes downwards from the radial outer end of flat-platy base portion 51.Supporting part 57 is disposed in the periphery of stator 30 In portion, coil bearing part 50 is supported.

< busbar >

As shown in Figure 1, busbar 60 is disposed in the top of bearing retainer 13, kept by busbar retainer 61.Confluence Item 60 is the component of electric conductivity.Busbar 60 connects coil line 70 and external connection terminals 18, provides electric current.In addition, can also To replace busbar 60, it connect coil line 70 with external connection terminals 18 via circuit board (illustration omitted).

The motor 10 of present embodiment has in the front end of lead-out wires of coil 71 as relative to axially inclined face 1st guide portion 71c.Therefore, the front end of lead-out wires of coil 71 is swimmingly inserted in the lead-out wire insertion of coil supports component 50 In the 51a of hole, it is guided across lead-out wire through hole 53a along direction of insertion.The front end of lead-out wires of coil 71 is in coil as a result, The case where hooking in bearing part 50 tails off, and the assembling of motor 10 becomes easy.Therefore, the automatic assembling of motor 10 becomes simpler It is single.

Also, coil supports component 50 has in the lower edge for surrounding the inner peripheral surface and the inner peripheral surface of drawing line pluging handhole 51a As the 2nd guide portion 51b relative to axially inclined face.The diameter of the lower end of line pluging handhole 51a is drawn than upper end Diameter is big.Therefore, lead-out wires of coil 71 can be swimmingly inserted into.Also, by the way that the 2nd guide portion 51b is set to coil branch The downside of bearing portion part 50 can shorten the radial and axial of cylindrical portion 53 compared with situation about being set in cylindrical portion 53 Length.As a result, motor 10 can be made integrally to be thinned.

Also, in motor 10, bearing retainer 13 is kept in the position of the upper surface than bearing retainer 13 on the lower Upside bearing 15.Also, in the configuration of bearing retainer 13 when on coil bearing part 50, coil supports component 50 is in the axial direction At least part of position with upside bearing 15 in the axial direction of position it is Chong Die.In addition, bearing retainer 13 has along axial direction The multiple through portion 13b extended.As shown in Fig. 2, the cylindrical portion 53 of coil supports component 50 is inserted in through portion 13b, configuration In inside.Therefore, it can be realized the slimming of motor.

< 1-2. motor manufacturing method >

On one side referring to Fig. 5, the manufacturing method of the motor 10 comprising above-mentioned coil supports component 50 is illustrated on one side. The lead-out wires of coil 71 extended from stator 30 is cut off, is formed in the front end of lead-out wires of coil 71 as the 1st of inclined surface and is drawn Lead portion 71c (S101).

Then, coil supports component 50 is provided, the lead-out wire that lead-out wires of coil 71 is inserted in coil supports component 50 is inserted Enter in the 51a of hole, and passes through lead-out wire through hole 53a (S102).In the front end of lead-out wires of coil 71 to coil supports component 50 When insertion, the 1st guide portion 71c is directed into extraction line pluging handhole along the lateral surface 55a of annular wall 55 shown in Fig. 4 A 51a.Lead-out wires of coil 71 sometimes due to mismachining tolerance etc. when forming L-shaped buckling portion or when forming the 1st guide portion 71c, and The 1st guide portion 71c is caused to be located at from the position deviateed along the axial position opposed with each lead-out wire through hole 53a.But even if The inclined surface of 1st guide portion 71c is passed through with the lateral surface 55a of annular wall 55, the inner peripheral surface of extraction line pluging handhole 51a and lead-out wire The inner circumferential face contact of through-hole 53a also swimmingly guides lead-out wires of coil 71 along direction of insertion.Therefore, 71 hook of lead-out wires of coil Situation about hanging in coil supports component 50 tails off.Further, since drawing line pluging handhole 51a has inclined inner peripheral surface, therefore The front end of lead-out wires of coil 71 is swimmingly guided along direction of insertion.

When the insertion of lead-out wires of coil 71 is completed, lead-out wires of coil 71 connect (S103) with busbar 60.Specifically, Lead-out wires of coil 71 and busbar 60 are welded.Alternatively, by moulding the hook portion (illustration omitted) for being formed in busbar 60 Property deformation, and connect lead-out wires of coil 71 with busbar 60.Then, by cutting off the front end of lead-out wires of coil 71, and Cut off the 1st guide portion 71c (S104).The cut off operation of the front end of the lead-out wires of coil 71 be connect with busbar 60 it is laggard Capable, therefore do not have to add new process, it will be able to cut off unwanted 1st guide portion 71c.In addition, being drawn by cutting off coil 1st guide portion 71c of the front end of outlet 71 can prevent the front end of lead-out wires of coil 71 and other components from occurring dry It relates to.Also, due to will not be more prominent greatly upwards than busbar 60, motor 10 can be made to be thinned.

In the motor manufacturing method of present embodiment, the design freedom of coil bearing part 50 will not be destroyed, and is held Changing places makes lead-out wires of coil 71 pass through lead-out wire through hole 53a.Therefore, the assembling of motor 10 can be made to become easy.Also, energy The automation of enough assemblings for easily realizing motor 10.

Also, in the motor manufacturing method of present embodiment, as shown in Fig. 2, the cylindrical portion 53 of coil supports component 50 It is inserted in the through portion 13b of bearing retainer 13.At this point, as shown in Figure 1, the position of coil supports component 50 in the axial direction with At least part of the position of upside bearing 15 in the axial direction is overlapped.Therefore, it can be realized the slimming in the axial direction of motor 10.

In addition, may not be after lead-out wires of coil 71 is connect with busbar 60 in said motor manufacturing method, Execute the process (S104) for cutting off the front end of lead-out wires of coil 71.That is, the 1st of lead-out wires of coil 71 can also be being remained In the state of guide portion 71c, motor 10 is manufactured.

< 1-3. variation >

In above embodiment 1, for example, variation below can be applied.

1st guide portion 71c of lead-out wires of coil 71 can also have the coniform of multiple inclined surface in relative to axial.And And the 1st guide portion 71c can also be formed of curved surface.That is, as long as the 1st guide portion 71c is in lead-out wires of coil 71 to coil supports When component 50 is inserted into, in the inner peripheral surface and lead-out wire through hole with the lateral surface 55a of annular wall 55, extraction line pluging handhole 51a It, can be swimmingly along the face of direction of insertion guidance when the inner circumferential face contact of 53a.

In coil supports component 501 shown in Fig. 6, without forming the 2nd guide portion in drawing line pluging handhole 511a.? In the example, lead-out wires of coil 71 also can move smoothly through lead-out wire through hole 53a by the inclined surface of the 1st guide portion 71c It is interior.

In coil supports component 502 shown in Fig. 7, the inner peripheral surface of the encirclement lead-out wire through hole 532a of cylindrical portion 532 Relative to axially inclined.The diameter of the lower end of lead-out wire through hole 532a is bigger than the diameter of upper end.Therefore, lead-out wires of coil 71 are also swimmingly guided by the inclined surface in cylindrical portion 532 when passing through lead-out wire through hole 532a.

In coil supports component 503 shown in Fig. 8, lateral surface of the annular wall 551 in lower end has the 3rd guide portion 551b.3rd guide portion 551b is Inclined-plane.Therefore, even if lead-out wires of coil 71 contacts after insertion just starts with annular wall 551, also by the 3rd guide portion 551b And it is swimmingly guided along direction of insertion.

Coil supports component 503 shown in Fig. 8 can also have the 2nd guide portion 51b shown in Fig. 4 A.Also, coil branch Bearing portion part 503 also can have lead-out wire through hole 532a shown in Fig. 7.

Annular wall 55 can also be formed in the position that radially inner side is leaned on than position shown in Fig. 4 A.At this point, in annular wall 55 Stepped part is formed between the lower end of extraction line pluging handhole 51a, it is possible to the front end of lead-out wires of coil 71 be caused to hook.By This can also be formed in the range of from annular wall 55 to the lower end for drawing line pluging handhole 51a relative to axis in this case To inclined inclined surface.It is easy for be directed in lead-out wire through hole 53a the front end of lead-out wires of coil 71 as a result,.

2. embodiment of <, 2 >

Hereinafter, assigning identical label to the structural element with structure same as embodiment 1 or function, and save Slightly its explanation.In embodiment 2, as shown in Figure 9 and Figure 10, lead-out wires of coil 271 does not form inclined surface, and front end is square Shape.On the other hand, coil supports component 50 is identical as coil supports component 50 shown in Fig. 4 A.That is, in the horse of present embodiment Up in 10, coil supports component 50 has in the lower edge for surrounding the inner peripheral surface and the inner peripheral surface of drawing line pluging handhole 51a is used as phase For the 2nd guide portion 51b in axially inclined face, the diameter for drawing the lower end of line pluging handhole 51a is bigger than the diameter of upper end.

It as shown in Figure 10, also being capable of one side and the 2nd guide portion even if the front end of lead-out wires of coil 271 is not inclined surface The inclination face contact of 51b is swimmingly inserted on one side draws in line pluging handhole 51a, and passes through lead-out wire through hole 53a.

The motor manufacturing method of present embodiment includes following process: providing the coil supports with the 2nd guide portion 51b Component 50；And lead-out wires of coil 271 is made to pass through lead-out wire through hole 53a from line pluging handhole 51a is drawn.Therefore, coil is drawn The front end of line 271 is swimmingly inserted in by the 2nd guide portion 51b and is drawn in line pluging handhole 51a.Also, by by the 2nd Guide portion 51b is set to the downside of coil supports component 50, compared with situation about being arranged in cylindrical portion 53, can shorten circle Canister portion 53 it is radial and axial on length.As a result, the whole slimming of motor 10 can be made.

In above embodiment 2, for example, variation below can be applied.

Coil supports component 503 shown in Figure 11 is identical as structure shown in Fig. 8.The front end of lead-out wires of coil 271 is Make to contact after insertion just starts with annular wall 551, also by the inclined surface of the 3rd guide portion 551b swimmingly along insertion side To being guided.

In addition, coil supports component 503 can also have the 2nd guide portion 51b shown in Fig. 10.Coil supports component 503 There can also be lead-out wire through hole 532a shown in Fig. 7.

The other embodiment > of < 3.

More than, embodiments of the present invention and variation are illustrated.The scope of the present invention is not limited to above-mentioned implementation Mode.It is able to carry out various changes without departing from the spirit of the invention.

Coil supports component 504 shown in Figure 12 has protruding portion 534 to replace the cylindrical portion 53 of Fig. 1.Protruding portion 534 has There are outside wall portions 534b and lead-out wire through slot 534a.Outside wall portions 534b extends upwards from flat-platy base portion 514, and axially vertical Section be in U-shaped.Lead-out wire through slot 534a is axially extended, and is surrounded by outside wall portions 534b.Flat-platy base portion 514 have with The lead-out wire insertion groove 514a of the lower end connection of lead-out wire through slot 534a.Flat-platy base portion 514 is surrounding lead-out wire insertion The inner surface of slot 514a and the lower edge of the inner surface have as the 2nd guide portion 514b relative to axially inclined face.It draws The groove width of the lower end of line insertion groove 514a is bigger than the groove width of upper end.Lead-out wires of coil 71 is under lead-out wire insertion groove 514a End insertion, passes through lead-out wire through slot 534a.Since the protruding portion 534 of coil supports component 504 is open radially, It is easy that lead-out wires of coil 71 is made to pass through lead-out wire through slot 534a.Also, lead-out wire insertion groove 514a is also open radially, because This is easy to be inserted in lead-out wires of coil 71 in lead-out wire insertion groove 514a.

Same as embodiment 1 and 2, coil supports component 504 can also be formed in the radially inner side of flat-platy base portion 514 From flat-platy base portion annular wall outstanding downwards.

The inner surface for being also possible to the outside wall portions 534b of coil supports component 504 has relative to axially inclined face, draws The groove width of lower end is formed bigger than the groove width of upper end by outlet through slot 534a.Lead-out wires of coil 71 is by drawing as a result, When outlet through slot 534a, also swimmingly guided by the inclined surface in protruding portion 534.

The opening in the U-shaped portion of the outside wall portions 534b of coil supports component 504 can also be formed as, and be too narrow to lead-out wires of coil 71 The degree that will not be fallen off from protruding portion 534.

Claims (20)

1. a kind of motor manufacturing method, the motor include

Rotor can be pivoted about with central axis；

Stator, it is opposed radially with the rotor；

Multiple lead-out wires of coil, they draw from the stator to upside；And

Coil supports component is made of the material of insulating properties, comprising the lead-out wire through portion passed through for the lead-out wires of coil,

The motor manufacturing method is characterized in that, includes following process:

The 1st guide portion is formed in the front end of the lead-out wires of coil, the 1st guide portion can be by the lead-out wire through portion Inner surface guidance；And

The lead-out wires of coil is set to pass through the lead-out wire through portion.

2. motor manufacturing method according to claim 1, which is characterized in that

The process for forming the 1st guide portion includes to cut off the front end of the lead-out wires of coil and formed relative to axis To the process in inclined face.

3. motor manufacturing method according to claim 1, which is characterized in that

The motor manufacturing method includes following process: the lead-out wires of coil being made to pass through the process of the lead-out wire through portion Later, it is electrically connected the lead-out wires of coil with other components, the 1st guide portion is cut off from the lead-out wires of coil.

4. motor manufacturing method according to claim 1, which is characterized in that

The motor manufacturing method include by the process to the configuration of bearing retainer that bearing is kept in the upside of the stator,

The position of the coil supports component in the axial direction is Chong Die with the position at least part of the bearing in the axial direction.

5. motor manufacturing method according to claim 4, which is characterized in that

The coil supports component has the multiple cylindrical portions extended upwards or protruding portion,

The bearing retainer has along axially extending multiple through portions,

The cylindrical portion or protruding portion configuration are in the inside of the multiple through portion.

6. according to claim 1 to motor manufacturing method described in any one in 5, which is characterized in that

The lead-out wire through portion is the multiple cylindrical portions extended upwards,

The lead-out wire through portion has the lead-out wire through hole surrounded by the inner peripheral surface of each cylindrical portion.

7. according to claim 1 to motor manufacturing method described in any one in 5, which is characterized in that

The lead-out wire through portion is the multiple protruding portion extended upwards,

Each protruding portion has outside wall portions, which is in U-shaped with the section on axially vertical direction,

The lead-out wire through portion has along lead-out wire through slot that is described axially extending and being surrounded by the outside wall portions.

8. motor manufacturing method according to claim 6, which is characterized in that

The coil supports component includes:

Flat-platy base portion includes the lower end with the lead-out wire through hole in the ring-type centered on the central axis The extraction line pluging handhole of connection；And

Annular wall is configured at the radially inner side of the flat-platy base portion, protrudes downwards from the flat-platy base portion,

The flat-platy base portion has in the lower edge for surrounding the inner peripheral surface for drawing line pluging handhole and the inner peripheral surface is used as phase For the 2nd guide portion in axially inclined face,

The diameter of the lower end for drawing line pluging handhole is bigger than the diameter of upper end,

The motor manufacturing method includes the process for being inserted into the lead-out wires of coil from the lower end for drawing line pluging handhole.

9. motor manufacturing method according to claim 7, which is characterized in that

The coil supports component includes:

Flat-platy base portion includes the lower end with the lead-out wire through slot in the ring-type centered on the central axis The lead-out wire insertion groove of connection；And

Annular wall configures the radially inner side in the flat-platy base portion, protrudes downwards from the flat-platy base portion,

The flat-platy base portion has in the lower edge of the inner surface and the inner surface that surround the lead-out wire insertion groove is used as phase For the 2nd guide portion in the axially inclined face,

The groove width of the lower end of the lead-out wire insertion groove is bigger than the groove width of upper end,

The motor manufacturing method includes the process for being inserted into the lead-out wires of coil from the lower end of the lead-out wire insertion groove.

10. motor manufacturing method according to claim 8, which is characterized in that

The annular wall and the radially inner side of the extraction line pluging handhole or the lead-out wire insertion groove are closely arranged.

11. motor manufacturing method according to claim 8, which is characterized in that

The flat-platy base portion has uniform thickness in the axial direction.

12. motor manufacturing method according to claim 8, which is characterized in that

The lead-out wires of coil includes L-shaped flexion portion, which includes: part 1, along described axially extending, Include the front end；And part 2, extend along the direction vertical with the part 1,

The part 2 is disposed in the lower section of the flat-platy base portion of the coil supports component.

13. motor manufacturing method according to claim 6, which is characterized in that

The groove width of the upper end of the diameter of the upper end of the lead-out wire through hole or the lead-out wire through slot is than the line The line footpath for enclosing lead-out wire is big or consistent with the line footpath of the lead-out wires of coil.

14. motor manufacturing method according to claim 6, which is characterized in that

The multiple cylindrical portion has on the inner peripheral surface relative to axially inclined face,

The diameter of the lower end of the lead-out wire through hole is bigger than the diameter of upper end.

15. motor manufacturing method according to claim 7, which is characterized in that

The multiple protruding portion has on the inner surface of the outside wall portions relative to the axially inclined face,

The groove width of the lower end of the lead-out wire through slot is bigger than the groove width of upper end.

16. motor manufacturing method according to claim 8, which is characterized in that

The motor manufacturing method include by the process to the configuration of bearing retainer that bearing is kept in the upside of the stator,

The bearing retainer has and the annular wall opposed part radially.

17. motor manufacturing method according to claim 8, which is characterized in that

The annular wall has in lower end as the 3rd guide portion relative to the axially inclined face.

18. a kind of motor, which is characterized in that

The motor is the motor produced by manufacturing method described in any one in claim 1 to 17.

19. a kind of motor, includes

Rotor, it includes the axis that can be pivoted about with central axis；

Stator, it is opposed radially with the rotor；

Multiple lead-out wires of coil, they draw from the stator to upside；And

Coil supports component is made of the material of insulating properties, comprising the lead-out wire through portion passed through for the lead-out wires of coil,

The motor is characterized in that,

The front end of the lead-out wires of coil has as the 1st guide portion relative to axially inclined face.

20. motor according to claim 19, which is characterized in that the motor includes

Bearing；

Bearing retainer keeps the bearing than the position of the upper surface on the lower with upper surface；And

Busbar retainer or circuit board are set to the top of the bearing retainer,

The position at least part of the coil supports component in the position and the bearing in the axial direction in the axial direction Overlapping.