CN102142739A - Motor and mobile object - Google Patents

Motor and mobile object Download PDF

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Publication number
CN102142739A
CN102142739A CN2011100350459A CN201110035045A CN102142739A CN 102142739 A CN102142739 A CN 102142739A CN 2011100350459 A CN2011100350459 A CN 2011100350459A CN 201110035045 A CN201110035045 A CN 201110035045A CN 102142739 A CN102142739 A CN 102142739A
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CN
China
Prior art keywords
stator
terminal
motor
maintaining part
moulded resin
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
Application number
CN2011100350459A
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Chinese (zh)
Inventor
相良弘明
长尾健史
田口贤治
内野乔志
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sanyo Electric Co Ltd
Original Assignee
Sanyo Electric Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority claimed from JP2010293834A external-priority patent/JP2011177007A/en
Application filed by Sanyo Electric Co Ltd filed Critical Sanyo Electric Co Ltd
Publication of CN102142739A publication Critical patent/CN102142739A/en
Pending legal-status Critical Current

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Abstract

The invention provides a motor with a unrestricted wire diameter of a coil, and a mobile object. The motor (100) comprises a stator (20) and a molded resin (20A) for molding the stator (20). The stator (20) comprises a peripheral collector ring (150) which is disposed along the circumferential direction of the stator (20) and is connected with the coil (75). The peripheral collector ring (150) comprises a terminal (151) exposed outside the molded resin (20A). The terminal (151) is holded by a terminal holding part (140) disposed outside the molded resin (20A).

Description

Motor and moving body
Technical field
The present invention relates to a kind of motor and moving body that possesses the moulded resin of molded stator.
Background technology
The known motor that the housing that possesses maintenance stator core, coil and rotor is arranged.Motor makes the radially inner side that is arranged at stator core by the polarity inversion of carrying out coil repeatedly rotor is that the center is rotated with the rotating shaft of rotor.In addition, stator core has stator tooth, and insulator is installed on stator tooth, is wound with coil on the insulator.In addition, motor for example is used as the power source of moving body.
For example, in order to improve, propose under the state that stator core is installed on the housing, in housing, to fill the technology of moulded resin from the thermal diffusivity of the heat of coil transmission.
At this, an end of coil is connected with terminal on being arranged on stator core (insulator).And, so that the mode that terminal exposes from moulded resin is carried out molding process (for example, patent documentation 1).
Patent documentation 1: Japanese kokai publication hei 5-146106 communique
At this, in above-mentioned technology, the line of coil directly is limited, and can't use the coil with big line footpath.
Summary of the invention
Therefore, the present invention proposes in view of the above problems, and its purpose is to provide the line uncurbed motor in footpath and the moving body of coil.
It is center and rotor rotated (rotor 80) that the motor of first aspect (motor 100) possesses with the rotating shaft, have the stator (stator 20) of coil (coil 75) and the moulded resin (moulded resin 20A) of molded described stator.Described stator has along the circumferential setting of described stator and the collector ring that is connected with described coil (periphery collector ring 150).Described collector ring has the terminal (terminal 151) that is exposed to outside the described moulded resin.Described terminal keeps by being arranged on the outer terminal maintaining part (terminal maintaining part 140) of described moulded resin.
On the basis of first aspect, motor also possesses housing (housing 10), and this housing constitutes maintenance by the molded described stator of described moulded resin.Described terminal maintaining part is embedded in described housing.
On the basis of first aspect, described terminal and described terminal maintaining part are exposed to outside the described moulded resin at the radial outside of described stator.
The moving body of second aspect possesses the motor of first aspect.
On the basis of second aspect, moving body also possesses front-wheel, trailing wheel, is installed in the swing arm on the described trailing wheel.Described motor is the drive source of described trailing wheel.Described terminal and described terminal maintaining part are arranged on described arm side, and are exposed to the outside of described moulded resin at the radial outside of described stator.
On the basis of second aspect, described terminal maintaining part keep described terminal so that described terminal towards vehicle front.
The invention effect
According to the present invention, can provide the line uncurbed motor in footpath and the moving body of coil.
Description of drawings
Fig. 1 is the stereogram of the motor 100 of expression first execution mode.
Fig. 2 is the stereogram of the motor 100 of expression first execution mode.
Fig. 3 is the stereogram of the housing 10 of expression first execution mode.
Fig. 4 is the stereogram of the lid 30 of expression first execution mode.
Fig. 5 is the cutaway view of the lid 30 of expression first execution mode.
Fig. 6 is the vertical view of the stator core 70 of expression first execution mode.
Fig. 7 is the stereogram of the molded preceding stator 20 of expression first execution mode.
Fig. 8 is the vertical view of the molded preceding stator 20 of expression first execution mode.
Fig. 9 is the amplification view of a part of the stator 20 before expression first execution mode molded.
Figure 10 is the exploded perspective view of the molded preceding stator 20 of expression first execution mode.
Figure 11 is the stereogram of stator 20 behind expression first execution mode molded.
Figure 12 is the cutaway view of stator 20 behind expression first execution mode molded.
Figure 13 is the amplification view of a part of the stator 20 behind expression first execution mode molded.
Figure 14 is the figure of manufacture method that is used to illustrate the motor 100 of first execution mode.
Figure 15 is the figure of manufacture method that is used to illustrate the motor 100 of first execution mode.
Figure 16 is the figure of an example of the motor vehicle 500 of expression second execution mode.
Figure 17 is the figure of an example of the boats and ships 700 of expression the 3rd execution mode.
Figure 18 is the figure of an example of the outboard equipment 720 of expression the 3rd execution mode.
Symbol description:
10 housings
11 guiding ribs
The 11A bolt hole
12 projections
13 spaces
14 axis holes
15 maintaining part configuration portions
The 15A fixation wall
20 stators
The 20A moulded resin
The 20B opening
30 lids
31 axis holes
32 bolts hole
33 bolts hole
34 ribs
40 terminal covers
70 stator cores
71 stator core sheets (Japanese original text: ス テ one タ コ ア セ グ メ Application ト)
72 stator tooths
The 72A front end
73 stator yokes
The 73A circumferential lateral surface
74 grooves
75 coils
76 insulators
76A collector ring maintaining part
76B collector ring maintaining part
80 rotors
100 motor
111 rotating shafts
120 bolts
130 cables
131 connectors
140 terminal maintaining parts
150 periphery collector rings
151 terminals
152 hooking sheets
All collector rings in 160
162 hooking sheets
410 bed dies
420 molds
421 cylinder projections
422 all shape projections
423 all shape projections
500 motor vehicles
510 front-wheels
520 trailing wheels
530 swing arms
540 suspensions
610 cooling water pipes
620 containment members
700 boats and ships
710 hulls
720 outboard equipment
721 output shafts
722 driving shafts
723 bevel gears
724 helical axis
725 screw impellers
Embodiment
Below, with reference to the motor of description of drawings embodiments of the present invention.Need to prove, in the record of the following drawings, the same or similar symbol of same or similar part mark.
But, should be noted that accompanying drawing is schematic figure, the ratios of each size etc. are different with reality.Therefore, concrete size etc. should take the circumstances into consideration to judge with reference to the following description.In addition, it is self-evident also having the different part of size relationship, ratio each other each other at accompanying drawing.
[summary of execution mode]
The motor of execution mode possesses: be the rotor that the center is rotated with the rotating shaft; Stator with coil; The moulded resin of molded stator.Stator has along the circumferential setting of stator and the collector ring that is connected with coil.Collector ring has the terminal that exposes to outside the moulded resin.Terminal keeps by being arranged on the outer terminal maintaining part of moulded resin.
In execution mode, have the collector ring that exposes to the outer terminal of moulded resin and be connected with coil, therefore need not an end of coil is drawn outside moulded resin, the line footpath of coil is without limits.
In addition, owing to the terminal that is arranged on the collector ring keeps by being arranged on the outer terminal maintaining part of moulded resin, so stator is molded easy.
[first execution mode]
(structure of motor)
Below, with reference to the motor of description of drawings first execution mode.Fig. 1 and Fig. 2 are the stereograms of the motor 100 of expression first execution mode.
As Fig. 1~shown in Figure 2, motor 100 has housing 10, stator 20, lid 30, terminal cover 40.
In addition, in the first embodiment, motor 100 is carried out illustration for the housing of threephase motor (U phase, V phase, W phase).
Housing 10 keeps by the molded stator 20 of moulded resin 20A.Specifically, housing 10 keeps by the molded stator 20 of moulded resin 20A from the opposition side (first interarea of stator 20 described later) of lid 30.In addition, housing 10 is made of the member that metal etc. has the rigidity of regulation.Detailed structure about housing 10 will be carried out aftermentioned (with reference to Fig. 3).
Stator 20 is molded by moulded resin 20A.Stator 20 has tubular shape, constitutes to accommodate rotor 80 described later.Specifically, stator 20 has stator core 70 described later.Stator core 70 is provided with insulator 76 described later, is wound with coil 75 described later on insulator 76.That is, stator 20 has coil 75 described later.In addition, moulded resin 20A constitutes by having thermosetting member.In addition, the detailed structure of stator 20 will be carried out aftermentioned (with reference to Fig. 6~Figure 13).
In addition, below, the face that is provided with housing 10 in the face that stator 20 is had is called first interarea, and the face that lid 30 is set is called second interarea.
Lid 30 is arranged at second interarea of stator 20.In addition, lid 30 is installed on the housing 10 by bolt 120.In addition, lid 30 is made of the member that metal etc. has the rigidity of regulation.Brake mechanisms such as drum brake for example are installed on lid 30.In addition, will carry out aftermentioned (with reference to Fig. 4 and Fig. 5) for the detailed structure footpath of lid 30.
Terminal cover 40 is covers of the connector 131 (connector 131U, connector 131V, connector 131W) that is used to protect an end that is arranged at cable 130.In addition, 40 protections of terminal cover are arranged at the terminal 151 (terminal 151U, terminal 151V, terminal 151W) on the periphery collector ring 150 described later.Cable 130 is to be used for via periphery collector ring 150 to the power line of coil 75 supply capabilities described later.
Rotating shaft 111 transmits the revolving force of rotor 80 described later.For example, rotating shaft 111 transmits revolving force to the driving wheel that is arranged on the motor vehicle.
In addition, should be noted that below that with radially the abbreviating as of the stator 20 of tubular shape " radially ", the direction that rotating shaft 111 is extended abbreviates " rotating shaft direction " as with circumferentially the abbreviating as of the stator 20 of tubular shape " circumferentially ".
(structure of housing)
Below, describe with reference to the structure of accompanying drawing the housing of first execution mode.Fig. 3 is the stereogram of the housing 10 of expression first execution mode.
As shown in Figure 3, housing 10 has guiding rib 11, projection 12, space 13, axis hole 14 and maintaining part configuration portion 15.
Guiding rib 11 constitutes the part of the periphery that keeps stator core 70 described later.Specifically, guiding rib 11 has to the outstanding shape of rotating shaft direction.Guiding rib 11 has the bolt hole 11A that is screwed into for bolt 120, and wherein this bolt 120 is used for lid 30 is installed to housing 10.
Projection 12 engages with the groove 74 that is provided with at the outer peripheral portion of stator core 70 described later.Specifically, projection 12 has to the outstanding shape of rotating shaft direction.
In space 13, be filled with the moulded resin 20A that stator core 70 is molded.In addition, moulded resin 20A 13 exposes from the space.
Axis hole 14 is holes that the rotating shaft 111 that is arranged on the rotor 80 is taken in ball bearing Bearning mechanisms such as (not shown).
As described later, in the maintaining part configuration portion 15 chimeric tabular terminal maintaining parts 140 that have maintenance to be arranged on the terminal 151 on the periphery collector ring 150.Specifically, be provided with the slit (not shown) that forms along the plate face (interarea) of terminal maintaining part 140 in the lower end of tabular terminal maintaining part 140, the mode that is embedded in slit with the fixation wall 15A of the below that is arranged on maintaining part configuration portion 15 is installed on maintaining part configuration portion 15 with tabular terminal maintaining part 140.
(structure of lid)
Below, describe with reference to the structure of accompanying drawing the lid of first execution mode.Fig. 4 is the stereogram of the lid 30 of expression first execution mode.Fig. 5 is the cutaway view of the lid 30 of expression first execution mode.
As Fig. 4 and shown in Figure 5, lid 30 has axis hole 31, bolt hole 32, bolt hole 33, bolt hole 34 and ribs 35.
Axis hole 31 is holes that the rotating shaft 111 that is arranged on the rotor 80 is taken in ball bearing Bearning mechanisms such as (not shown).
Bolt hole 32 is the holes that are screwed into for bolt 120, and wherein bolt 120 is used for lid 30 is installed on housing 10.
Bolt hole 33 is the holes for the bolt intercalation that is used to install swing arm described later.
Bolt hole 34 is for being used for brake mechanism etc. to be installed to the hole that the bolt on the lid 30 is screwed into.
Ribs 35 is ribs of strengthening lid 30.Specifically, ribs 35 has to the outstanding shape of rotating shaft direction.And ribs 35 has along circumferential ring-shaped continuous shape.In addition, the part of ribs 35 also can be upwards discontinuous in week.
(structure of stator core)
Below, with reference to the structure of the stator core of description of drawings first execution mode.Fig. 6 is the vertical view of the stator core 70 of expression first execution mode.
As shown in Figure 6, stator core 70 has tubular shape.Radially inner side in stator core 70 disposes rotor 80 described later.Specifically, stator core 70 is made of a plurality of stator core sheets 71, has stator tooth 72 and stator yoke 73.
In addition, stator core 70 also can not be divided into a plurality of stator core sheets 71 and form as one.
Stator tooth 72 has from stator yoke 73 to the outstanding shape of radially inner side.Insulator 76 described later is installed on stator tooth 72.On insulator 76, be wound with coil 75 described later.The front end 72A of stator tooth 72 constitutes cavity roughly cylindraceous.
Stator yoke 73 has annular shape, constitutes the periphery of stator core 70.Has the groove 74 that engages with the projection 12 of housing 10 at the circumferential lateral surface 73A of stator yoke 73.Groove 74 has along axial shape.
(structure of the stator before molded)
Below, describe with reference to the structure of accompanying drawing the molded preceding stator of first execution mode.Fig. 7 is the stereogram of the molded preceding stator 20 of expression first execution mode.Fig. 8 is the vertical view of the molded preceding stator 20 of expression first execution mode.Fig. 9 is the amplification view of a part of the stator 20 before expression first execution mode molded.Figure 10 is the exploded perspective view of the molded preceding stator 20 of expression first execution mode.In addition, should be noted that stator 20 is assembled on the housing 10 in Fig. 8~Figure 10.
As Fig. 8~shown in Figure 10, stator 20 has annular shape.In addition, stator 20 also has coil 75, insulator 76, terminal maintaining part 140, periphery collector ring 150 and interior all collector rings 160 except said stator iron core 70.
Coil 75 is wound in insulator 76.At this, coil 75 comprises that U uses coil with coil, V with coil and W mutually mutually.
Insulator 76 is installed on the stator tooth 72 of stator core 70.Insulator 76 is made of insulating component.Insulator 76 has periphery collector ring maintaining part 76A and interior all collector ring maintaining part 76B.
Periphery collector ring maintaining part 76A has the circumferential groove along stator 20 along the periphery setting of stator 20.Periphery collector ring maintaining part 76A keeps periphery collector ring 150 (periphery collector ring 150U, periphery collector ring 150V, periphery collector ring 150W) by groove.
Interior all collector ring maintaining part 76B have the circumferential groove along stator 20 along the periphery setting of stator 20.All collector rings 160 in interior all collector ring maintaining part 76B keep.
Terminal maintaining part 140 has plate-like shape, is disposed at the maintaining part configuration portion 15 of housing 10.Specifically, the slit (not shown) that is provided with in the lower end of terminal maintaining part 140 is chimeric with the fixation wall 15A of maintaining part configuration portion 15.
In addition, as shown in figure 10, terminal maintaining part 140 is embedded in the fixation wall 15A that is provided with in maintaining part configuration portion 15 from the opposition side of housing 10.
In addition, terminal maintaining part 140 remains on the terminal 151 (terminal 151U, terminal 151V, terminal 151W) of the end setting of periphery collector ring 150.Specifically, terminal maintaining part 140 is so that terminal 151 keeps terminal 151 towards the mode of radial outside (A direction).
Periphery collector ring 150 constitutes the connecting line of three-phase (U phase, V reach the W phase mutually) side.Periphery collector ring 150 is along the periphery setting of stator 20.In addition, the end at periphery collector ring 150 is provided with the terminal 151 (terminal 151U, terminal 151V, terminal 151W) that is disposed at terminal maintaining part 140.In addition, periphery collector ring 150 is provided with the hooking sheet 152 (hooking sheet 152U, hooking sheet 152V, hooking sheet 152W) of an end that is used for connecting coil 75.In addition, in the first embodiment, hooking sheet 152 has the shape that is bent into approximate right angle with respect to the rotating shaft direction.This hooking sheet 152 towards the radially inner side of stator 20, be that the direction of coil 75 is extended, being connected with an end of coil 75.
In addition, as shown in figure 10, periphery collector ring 150 is intercalated in the groove that is provided with at periphery collector ring maintaining part 76A from the opposition side of housing 10.
Interior all collector rings 160 constitute the connecting line of neutral point side.Interior all collector rings 160 are provided with along stator 20 in interior week.And interior all collector rings 160 are provided with and are used for the hooking sheet 162 that is connected with the other end of coil 75.In addition, in the first embodiment, hooking sheet 162 has the shape that is bent into approximate right angle with respect to rotating shaft.This hooking sheet 162 towards the radial outside of stator 20, be that the direction of coil 75 is extended, being connected with the other end of coil 75.
In addition, as shown in figure 10, interior all collector rings 160 are intercalated in the groove that is provided with at interior all collector ring maintaining part 76B from the opposition side of housing 10.
(structure of the stator after molded)
Below, describe with reference to the structure of accompanying drawing the stator behind first execution mode molded.Figure 11 is the stereogram of stator 20 behind expression first execution mode molded.Figure 12 is the cutaway view of stator 20 behind expression first execution mode molded.Figure 13 is the amplification view of a part of the stator 20 behind expression first execution mode molded.In addition, should be noted that stator 20 is assembled on the housing 10 in Figure 11~Figure 13.
As described in Figure 11~Figure 13, stator 20 is molded by moulded resin 20A.Specifically, by housing 10, stator core 70, coil 75, insulator 76, terminal maintaining part 140, periphery collector ring 150 and in the body component that constitutes of all collector rings 160 molded by moulded resin 20A.But, should be noted that terminal maintaining part 140, terminal 151 (terminal 151U, terminal 151V, terminal 151W) expose outside to moulded resin 20A.
Moulded resin 20A is made of resin material, molded stator 20.Moulded resin 20A has opening 20B, otch 20C and otch 20D.
Opening 20B is arranged at the opposition side of housing 10.In other words, opening 20B is arranged at second interarea of stator 20.In addition, as shown in figure 12, opening 20B is the opening of accommodating rotor 80.In addition, above-mentioned lid 30 is installed on housing 10 in the mode that covers opening 20.
Otch 20C is arranged at the opposition side of housing 10.In other words, otch 20C is arranged at second interarea (with opening 20B homonymy) of stator 20.Otch 20C is the groove that has the degree of depth on the rotating shaft direction.Otch 20C has along circumferential ring-shaped continuous shape.In addition, the part of otch 20C also can be upwards discontinuous in week.
For example, as Figure 12 and shown in Figure 13, on otch 20C, dispose cooling water pipe 610 as the stream of the liquid refrigerant that is used for cool motors 100.
Otch 20D is arranged at the opposition side of housing 10.In other words, otch 20D is arranged at second interarea (with opening 20B homonymy) of stator 20.Otch 20D is the groove that has the degree of depth on the rotating shaft direction.Otch 20D has along circumferential ring-shaped continuous shape.Need to prove that the part of otch 20D also can be upwards discontinuous in week.In addition, otch 20D is arranged on the position by radially inner side than otch 20C.
For example, on otch 20D, dispose the ribs 35 of lid 30.And,, on otch 20D, can dispose the containment member 620 (rubber seal) of the radially inner side (being opening 20B side) of ribs 35 and sealing cut 20D as Figure 12 and shown in Figure 13.
At this, as shown in figure 13, on the rotating shaft direction, otch 20D is D apart from the degree of depth on the surface of the moulded resin 20A of the opposition side that is arranged at housing 10 1On the rotating shaft direction, otch 20C is D apart from the degree of depth on the surface of the moulded resin 20A of the opposition side that is arranged at housing 10 3
On the rotating shaft direction, it is D that the upper end of periphery collector ring 150 is arranged on apart from the case depth of the moulded resin 20A of the opposition side that is arranged at housing 10 2The position.On the rotating shaft direction, it is D that the upper end of interior all collector rings 160 is arranged on apart from the case depth of the moulded resin 20A of the opposition side that is arranged at housing 10 4The position.
In other words, on the rotating shaft direction, periphery collector ring 150 is arranged on the position (D higher than interior all collector ring 160 4-D 2).On the rotating shaft direction, otch 20C is than the dark (D in the upper end of periphery collector ring 150 3-D 2), than the shallow (D in the upper end of interior all collector rings 160 4-D 2).
In addition, in the first embodiment, on direction of rotation, otch 20D is more shallow than the upper end of periphery collector ring 150 and interior all collector rings 160.Yet execution mode is not limited to this.On the rotating shaft direction, otch 20D also can be darker than the upper end of periphery collector ring 150, and is more shallow than the upper end of interior all collector rings 160.
In the first embodiment, the upper end of periphery collector ring 150 for example is above-mentioned hooking sheet 152.In addition, the upper end of interior all collector rings 160 is above-mentioned hooking sheet 162.
(manufacture method of motor)
Below, with reference to the manufacture method of the motor of description of drawings first execution mode.Figure 14~Figure 15 is the figure of manufacture method that is used to illustrate the motor 100 of first execution mode.
The first, stator 20 is assembled on the housing 10.Specifically, the insulator 76 that is wound with coil 75 is assembled in the stator core 75.Then, periphery collector ring 150 and interior all collector rings 160 are assembled on the insulator 76, and stator core 70 and terminal maintaining part 140 are assembled on the housing 10.At this moment, the terminal 151 that is arranged at an end of periphery collector ring 150 is configured on the terminal maintaining part 140.
The second, as shown in figure 14, the one component configuration that will be made of stator 20 and housing 10 is in bed die 410, and bed die 410 has along the shape of the profile of housing 10.
The 3rd, as shown in figure 15, will dispose the bed die 410 and mold 420 combinations of a body component that constitutes by stator 20 and housing 10.At this, mold 420 has cylinder projection 421, all shape projections 422, all shape projections 423.Cylinder projection 421 is the projections that are used to form opening 20B, and this opening 20B is used to accommodate rotor 80.All shape projections 422 are the projections that are used to form above-mentioned otch 20C.All shape projections 423 are the projections that are used to form above-mentioned otch 20D.
The 4th, to the space resin material injection that constitutes by bed die 410 and mold 420.And, form moulded resin 20A by the sclerosis of resin material.At this, should be noted that opposition side resin material injection from housing 10.That is, periphery collector ring 150 and in all collector rings 160 be subjected to stress because of the injection of resin material to housing 10.
In addition, should be noted that so that the mode that terminal maintaining part 140 is exposed to radial outside from moulded resin 20A makes up bed die 410 and mold 420.
(effect and effect)
In the first embodiment, interior all collector rings 160 are arranged at the position darker than periphery collector ring 150 on direction of rotation.Therefore, can be under the situation of the size that does not enlarge motor 100, in the space of leaning on the radially inner side place of stator 20 to guarantee to be used to dispose other member than periphery collector ring 150.Other member for example is meant cooling water pipe 610, containment member 620, is arranged at ribs 35 on the lid 30 etc.Thus, can realize the miniaturization of motor 100.
For example, in the first embodiment, the otch in tubular shape darker than the upper end of periphery collector ring 150 on the rotating shaft direction can be arranged on the moulded resin 20A.Can be at slot arrangement system cooling water pipe 610, containment member 620, be arranged at the ribs 35 on the lid 30.
In the first embodiment, because the periphery collector ring 150 with the terminal 151 that exposes outside to moulded resin 20A is connected with coil 75, so need not an end of coil 75 is drawn outside moulded resin 20A, so line that can limiting coil 75 directly.
In the first embodiment owing to keep being arranged at terminal 151 on the moulded resin 20A by being arranged on the outer terminal maintaining part of moulded resin 20A 140, so stator 20 molded easily.
In detail, because terminal maintaining part 140 is embedded in housing 10 (maintaining part configuration portion 15), and this housing 10 constitutes maintenance by the molded stator 20 of moulded resin 20A, so stator 20 is molded easy.
In addition, when molded, terminal maintaining part 140 is installed on the state of housing 10 with becoming one.Thus, be assembled under the state of terminal maintaining part 140 at periphery collector ring 150 and the terminal 151 that is arranged at an end of periphery collector ring 150, stator 20 is molded by moulded resin 20A, therefore, the inside of terminal maintaining part 140 side (being the side that moulded resin 20A exists), this terminal maintaining part 140 becomes very high with the connecting airtight property of moulded resin 20A.For example, under the situation of the molded back of stator mounting terminal maintaining part, the connecting airtight property of this terminal maintaining part and moulded resin is low, may produce the gap of intrusions such as water between them, but in the first above-mentioned execution mode, can reduce the possibility that produces such gap.
In the first embodiment, expose outside to moulded resin 20A at the radial outside of stator 20 in terminal maintaining part 140 and terminal 151.Thus, the easy distribution of cable that extends from terminal 151.
In the first embodiment, be arranged on the opposition side that periphery collector ring 150 on the stator 20 or interior all collector rings 160 are arranged on housing 10.Thus, by the stress that utilizes moulded resin 20A that stator 20 is produced when molded to housing 10, can suppress periphery collector ring 150 and in the floating of all collector rings 160.Thus, can be suppressed at periphery collector ring 150 when molded and in the coming off of all collector rings 160.
Especially because the hooking sheet 152 of periphery collector ring 150 and in the hooking sheet of all collector rings 160 have shape with respect to the bending of rotating shaft direction, therefore be easy to bear the stress that flows of opposing resin material of injection when molded.Thus, from opposition side (upper side of the drawing of Figure 15) the injection molding resin 20A of housing 10 time, only by with periphery collector ring 150 mountings in the periphery collector ring maintaining part 76A that is arranged on the stator 20, it is molded by moulded resin 20A with stator 20 with periphery collector ring 150 just can to need not special fixed mechanism ground.Equally, only by interior all collector rings 160 being configured in the interior all collector ring maintaining part 76B that are arranged on the stator 20, just can interior all collector rings 160 is molded by moulded resin 20A with stator 20.
In detail, dispose periphery collector ring 150 and in a side of all collector rings 160 be provided with the opening 20B that is used to accommodate rotor 80.That is,, can suppress floating of periphery collector ring 150 and interior all collector rings 160 by stress from mold 420 with the cylinder projection 421 that is used to form opening 20B.
[second execution mode]
(structure of moving body)
Below, describe with reference to the moving body of accompanying drawing second execution mode.Figure 16 is the figure of an example of the motor vehicle 500 of expression second execution mode.
As shown in figure 16, motor vehicle 500 is have front-wheel 510, trailing wheel 520, swing arm 530, suspension 540 two-wheeled.Motor 100 is drive sources of motor vehicle 500.At this, motor 100 is arranged at trailing wheel 520, and trailing wheel 520 is driving wheels.
Need to prove that the motor vehicle 500 that is provided with motor 100 is not limited to two-wheeled.For example, motor vehicle 500 also can be a motor tricycle, can also be motor-driven carriage.
Swing arm 530 is installed on motor 100.Swing arm 530 has the shape of extending to vehicle front from trailing wheel 520.
Suspension 540 has the function that absorbs vibration, is installed on swing arm 530.
At this, should be noted in the discussion above that the terminal 151 in an end setting of above-mentioned periphery collector ring 150 is configured in swing arm 530 sides.In addition, terminal maintaining part 140 is exposed to the radial outside of stator 20, and exposes to swing arm 530 sides.Terminal maintaining part 140 keeps terminals 151 so that its along the length direction of swing arm 530 towards vehicle front.
In other words, be installed under the situation of swing arm 530 at motor 100 and trailing wheel 520 arranged coaxial and motor 100, terminal maintaining part 140 keep terminals 151 so that terminal 151 towards vehicle front.Thus, cable can be disposed so that the cable (power line etc.) that extends from terminal 151 is connected with the power supply or the control circuit that are arranged on vehicle front (for example seat is following or handlebar) along swing arm 530.
[the 3rd execution mode]
(structures of boats and ships)
Below, describe with reference to the boats and ships of accompanying drawing the 3rd execution mode.Figure 17 is the figure of an example of the boats and ships 700 of expression the 3rd execution mode.Need to prove that boats and ships 700 are examples of moving body.
As shown in figure 17, boats and ships 700 have hull 710 and outboard equipment 720.Outboard equipment 720 constitutes and can be installed on the hull 710.As shown in figure 18, outboard equipment 720 has motor 100, output shaft 721, driving shaft 722, bevel gear 723, helical axis 724, spiral propeller 725.
Output shaft 721 forms the shape that has axle along vertical.Output shaft 721 links with driving shaft 722, and the revolving force of motor 100 is transmitted to driving shaft 722.Driving shaft 722 forms the shape that has axle along vertical.Driving shaft 722 links with bevel gear 723, and the revolving force of output shaft 721 is transmitted to bevel gear 723.Bevel gear 723 links with helical axis 724, and the revolving force of driving shaft 722 is transmitted to helical axis 724.Helical axis 724 forms the shape that along continuous straight runs has axle.Helical axis 724 links with screw impeller 725, will transmit to screw impeller 725 from the revolving force that bevel gear 723 is transmitted.Screw impeller 725 rotates by the revolving force that transmits from helical axis 724.
So, under the effect of the revolving force of motor 100, screw impeller 725 rotations.In other words, motor 100 uses as the power source of outboard equipment 720.
Need to prove that motor 100 is not limited to the power source of outboard equipment 720.Motor 100 also can for example use as the power source that is arranged at the device on the hull 710.
[other execution mode]
The present invention is based on above-mentioned execution mode and be illustrated, but the argumentation of formation a part of this disclosure and accompanying drawing should not be construed qualification content of the present invention.Those skilled in the art can know various alternate embodiments, embodiment and application technology by above-mentioned disclosed content.
In execution mode, as an example of moving body motor vehicle 500 and boats and ships 700 have been carried out illustration, yet moving body is not limited to these vehicles.Moving body for example also can be for coming on the mobile down equipment such as vehicle, boats and ships or robot of unmanned state.

Claims (6)

1. motor, it possesses with the rotating shaft is center and rotor rotated, have the stator of coil and the moulded resin of molded described stator, described motor is characterised in that,
Described stator has along the circumferential setting of described stator and the collector ring that is connected with described coil,
Described collector ring has the terminal that is exposed to outside the described moulded resin,
Described terminal keeps by being arranged on the outer terminal maintaining part of described moulded resin.
2. motor according to claim 1 is characterized in that,
Also possess housing, this housing constitutes maintenance by the molded described stator of described moulded resin,
Described terminal maintaining part is embedded in described housing.
3. motor according to claim 1 is characterized in that,
Described terminal and described terminal maintaining part are exposed to outside the described moulded resin at the radial outside of described stator.
4. a moving body is characterized in that,
Possesses each described motor in the claim 1~3.
5. moving body according to claim 4 is characterized in that,
Also possess front-wheel, trailing wheel, be installed in the swing arm on the described trailing wheel,
Described motor is the drive source of described trailing wheel,
Described terminal and described terminal maintaining part are arranged on described arm side, and are exposed to the outside of described moulded resin at the radial outside of described stator.
6. moving body according to claim 5 is characterized in that,
Described terminal maintaining part keep described terminal so that described terminal towards vehicle front.
CN2011100350459A 2010-01-29 2011-01-28 Motor and mobile object Pending CN102142739A (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
JP2010-019787 2010-01-29
JP2010019787 2010-01-29
JP2010293834A JP2011177007A (en) 2010-01-29 2010-12-28 Electric motor and mobile body
JP2010-293834 2010-12-28

Publications (1)

Publication Number Publication Date
CN102142739A true CN102142739A (en) 2011-08-03

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN2011100350459A Pending CN102142739A (en) 2010-01-29 2011-01-28 Motor and mobile object

Country Status (1)

Country Link
CN (1) CN102142739A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105379073A (en) * 2013-07-12 2016-03-02 三菱电机株式会社 Rotating electric machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105379073A (en) * 2013-07-12 2016-03-02 三菱电机株式会社 Rotating electric machine

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Application publication date: 20110803