CN106160374A - For the mechanism that insulating paper is fitted in slot wedge - Google Patents
For the mechanism that insulating paper is fitted in slot wedge Download PDFInfo
- Publication number
- CN106160374A CN106160374A CN201610702460.8A CN201610702460A CN106160374A CN 106160374 A CN106160374 A CN 106160374A CN 201610702460 A CN201610702460 A CN 201610702460A CN 106160374 A CN106160374 A CN 106160374A
- Authority
- CN
- China
- Prior art keywords
- stator
- slot wedge
- push pedal
- insulating paper
- push rod
- 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.)
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Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K15/00—Methods or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines
- H02K15/10—Applying solid insulation to windings, stators or rotors
Abstract
The invention discloses a kind of mechanism for being fitted in slot wedge by insulating paper, including workbench (2), workbench (2) is provided with the V-block (4) for placing stator (3), rotating shaft (6) it is rotatably connected in stator (3), it is extended with push rod (19) along stator (3) diametric(al) in rotating shaft (6), push rod (19) is arranged in stator (3) diagonally downward, slidably connect for slot wedge clamping upper with stator (3) or the latch (20) of disengagement on push rod (19), latch (20) is arranged along push rod (19) length direction, push rod (19) is provided with the 3rd cylinder (21) for driving latch (20) movement.There is provided that a kind of hand labor intensity is low, insulating paper setting-in firmly and insulating paper will not be cut during assembling for the mechanism that insulating paper is fitted in slot wedge.
Description
Technical field
The present invention relates to motor stator mounting technology field, particularly relate to a kind of for insulating paper is fitted in slot wedge
Mechanism.
Background technology
The stator of three phase alternating current motor is by stator core and the three-phase windings coil structure being inlaid in this stator core slot wedge
Become.Wherein, between adjacent out-phase end turn, in order to the end turn making this out-phase is insulated from each other, it will usually at stator
Insulating paper is inserted on the slot wedge of iron core.In prior art, the most all by manually insulating paper being inserted in slot wedge,
First, insulating paper is placed on slot wedge;Then, or by other instruments of hawkbill, insulating paper one end is pushed in slot wedge,
Then hawkbill is pulled to slide to be pushed in slot wedge remaining insulating paper successively in slot wedge along slot wedge length direction, thus
Complete to be fitted in slot wedge whole for insulating paper length direction.Owing to the instruments such as hawkbill exist relative motion relative to insulating paper,
That is easy for causing hawkbill to cut insulating paper, easily produces and assembles underproof phenomenon;Further, since hawkbill is perpendicular to
Slot wedge opening part is inserted in slot wedge, and hawkbill is for linear motion in slot wedge, then insulating paper can only do an opening court
On " V " font bending, then insulating paper, after the slot wedge being encased on stator core, along with the turnover of stator core, works as quilt
After " V " font insulating paper of bending rotates 180 °, reform into downward opening inverted " v " shape, the most only with inverted " v " shape
It is the most insecure, the most that frictional force between insulating paper outer wall and slot wedge opening part makes insulating paper be connected in slot wedge
The insulating paper being embedded in the most easily drops out from slot wedge, causes the phenomenon that assembling is unstable;Also have and be exactly, by people's frock
The working strength joining insulating paper is too big, easily causes the fatigue of workpeople, produces the phenomenon of neglected loading insulating paper on stator core.
Summary of the invention
The technical problem to be solved in the present invention is, overcomes existing technological deficiency, it is provided that a kind of hand labor intensity is low, exhausted
Edge paper setting-in firmly and insulating paper will not be cut during assembling for the mechanism that insulating paper is fitted in slot wedge.
The technical solution of the present invention be to provide a kind of have following structure for insulating paper is fitted in slot wedge
Mechanism: include that workbench, workbench are provided with the V-block for placing stator, be rotatably connected to rotating shaft in stator, in rotating shaft
Being extended with push rod along stator diameter direction, push rod is arranged in stator diagonally downward, push rod slidably connects for stator
Upper slot wedge clamping or the latch of disengagement, latch is arranged along push rod length direction, push rod be provided with for drive that latch moves the
Three cylinders, push rod is provided with the guide rail slided for latch away from rotating shaft one end, and push rod is positioned at the centre position in stator length direction,
Shaft axis overlaps with axis stator, and workbench slidably connects slide unit, and slide unit is provided with the electricity rotated for drive shaft
Machine, workbench is provided with the horizontal air cylinder for promoting slide unit to move along axis stator direction;Vertically slide in stator
Connecting the push pedal having strip, cross section, push pedal bottom is circular arc, and push pedal runs through stator two ends, and push pedal edge along axis stator
Stator is radially arranged, and workbench is provided with for driving push pedal to move to drive push pedal bottom to insert stator slot wedge and from stator
The vertical cylinder that slot wedge is extracted, horizontal air cylinder and vertical cylinder lay respectively at stator two ends;Push pedal both sides pass through dovetail groove respectively
Slidably connect the starting stave for pushing against slot wedge opening part on stator and the second riser, starting stave and the second riser symmetrical
It is distributed in push pedal both sides, and starting stave and the second riser upper end are all connected with push pedal by stay cord;Push pedal vertically sets
The first flow that multiple supplied gas flows, multiple first flows is had equidistantly to be distributed along push pedal length direction, each first flow
Lower end is communicated with the second runner and the 3rd runner simultaneously, and first flow, the second runner and the 3rd runner constitute inverted Y-shaped,
And second the opening part of runner and the 3rd runner be respectively positioned on the circular arc sector of push pedal bottom, push pedal upper end sets in the horizontal direction
Having sprue, first flow upper port to connect with sprue, workbench is provided with the air pump to sprue supply.
Insulating paper is placed into above the slot wedge opening part immediately below push pedal by the present invention, by under vertical air cylinder driven push pedal
Fall, thus push pedal bottom pushes insulating paper and is inserted into together in slot wedge, that is insulating paper at whole length direction by push pedal
Once decline and be just pushed in slot wedge, i.e. insulating paper is wrapped in push pedal bottom outer wall and enters in slot wedge, and, at insulating paper
After being pushed into slot wedge, air pump can pass through sprue, first flow simultaneously to the second runner, the 3rd runner supply, and then insulation
Paper is heaved and is deformed so that insulating paper is fitted on the inwall of slot wedge;It addition, when slot wedge is inserted in push pedal, the first of push pedal both sides
Riser and the second riser are resisted against the opening part of slot wedge, constantly follow push pedal lower end along with insulating paper and enter into slot wedge, insulating paper
The both sides being positioned at outside slot wedge respectively by starting stave and the second riser against, this allows for the part shape that insulating paper is positioned at outside slot wedge
Becoming a turnup structure, after treating an insulating paper setting-in, vertical air cylinder driven push pedal rises and departs from slot wedge;Then,
3rd cylinder operation, the 3rd air cylinder driven latch moves so that latch end snaps fit onto opening towards in the slot wedge of latch, connects
Motor work, drive push rod to rotate by rotating shaft, and then drive stator rotation so that the slot wedge of next station is rotated
To the underface of push pedal, the 3rd cylinder shrinks so that latch is extracted from slot wedge opening part, and driven by motor rotating shaft reversion resets, then
Next insulating paper is placed into above slot wedge and is pushed in slot wedge for push pedal, which achieves push pedal continuously that insulating paper is embedding
Install in slot wedge.In sum, push pedal is strip, that is the bottom of the whole length direction of push pedal can be with insulation
Paper contact also applies active force to insulating paper so that insulating paper is more uniformly stressed whole length direction, declines in push pedal
Time insulating paper is fitted in slot wedge at length direction simultaneously, i.e. insulating paper is all simultaneously quilt in each position of length direction
Push pedal is pushed in slot wedge, and push pedal does not move relative to insulating paper length direction, only there is phase at vertical direction
To motion, so, insulating paper contacts, with the push pedal bottom of circular arc, the phenomenon that insulating paper would not be caused to rupture;Its
Secondary, insulating paper is after being fitted to slot wedge, and insulating paper is blown to heave by the air-flow of the second runner and the 3rd runner, i.e. insulating paper outer wall
It is fitted in slot wedge, and insulating paper be press against at the opening part being positioned at outside slot wedge define flange by starting stave and the second riser
Structure, so, insulating paper is equivalent to inside and outside two ends and is all connected in slot wedge, then insulating paper and the assembling of slot wedge on stator
Just become highly stable, will not come off from the slot wedge of stator, though the insulating paper after setting-in is good follow stator rotation 180 ° and
Opening down also will not drop in slot wedge;Further, the setting-in process Dou Shi automatization course of processing of whole insulating paper, it is not necessary to
The so much manpower of prior art has gone, thus greatly reduces artificial labor intensity.Therefore, the present invention provides a kind of people
Work labor intensity is low, insulating paper setting-in firmly and insulating paper will not be cut during assembling for insulating paper is fitted to
Mechanism in slot wedge.
Preferred as one, described push rod is less than 45 ° with the angle of vertical direction.Preferred by this so that on push rod
Latch is obliquely to the active force of slot wedge, thus latch stator would not be promoted to move up the active force of slot wedge and with
V-block disengages, i.e. push rod arranges diagonally downward and may insure that stator rotates on V-block and pushes against with V-block all the time.
Preferred as one, described guide rail refers to, push rod is provided with the first guide pad and the second guide pad, and first guides
Block and the second guide pad are parallel, and latch is slidably connected in the gap between the first guide pad and the second guide pad.By this
Preferably, the movement of latch can be played guide effect so that latch slides along rail length direction, and, turn at push rod
When moving to stir stator rotation by latch, on the first guide pad and the second guide pad, the end away from rotating shaft can be to latch ends
Portion plays a supporting role, it is to avoid the phenomenon that latch end deforms during slot wedge is applied active force.
Preferred as one, described slide unit is slidably connected on the table by dovetail groove.Preferred by this, slide unit exists
Can slide along axis stator direction under the driving of horizontal air cylinder.
Preferred as one, described push pedal one-tenth-value thickness 1/10 is less than the width value of slot wedge opening part on stator.It is preferred by this,
May insure that push pedal bottom is inserted in slot wedge.
Preferred as one, described push pedal length value is more than the length value of stator shaft orientation.Preferred by this, can be by length
Angle value is more than insulating paper quilt in the case of whole length direction is all by push pedal bottom active force of stator shaft orientation length value
It is pushed in slot wedge.
Preferred as one, described first flow is arranged on the centre position of push pedal thickness direction, the second runner and the
Three runners are symmetrically distributed in first flow both sides.Preferred by this, can be with the push pedal bottom active force phase to insulating paper both sides
Deng, so that insulating paper can smoothly be pushed in slot wedge.
Preferred as one, described starting stave and the second cross section, riser bottom are arc line shaped, on this arc line shaped
Distance near push pedal one lateral extent stator slot wedge is more than the distance on arc line shaped away from push pedal one lateral extent stator slot wedge.Pass through
This is preferred so that can prop up insulating paper upper surface away from push pedal one end on starting stave, and near push pedal one on starting stave
End is discontiguous with insulating paper upper surface, and this is it is avoided that starting stave and insulating paper upper surface area are excessive and cause absolutely
The phenomenon that edge paper is torn by starting stave bottom;The principle of the second riser is also similar to that starting stave.
Accompanying drawing explanation
Fig. 1 is stator and the structural representation of V-block in the present invention.
Fig. 2 is stator and the structural representation of another angle of V-block in the present invention.
Fig. 3 is the partial sectional view of the present invention.
Fig. 4 is the side view in the present invention.
Fig. 5 is the sectional view of push pedal through-thickness in the present invention.
Fig. 6 is the structural representation of push pedal in the present invention.
Fig. 7 is push pedal sectional view along its length in the present invention.
Shown in figure: 1, insulating paper, 2, workbench, 3, stator, 4, V-block, 5, push pedal, 6, rotating shaft, 7, starting stave, 8,
Second riser, 9, first flow, the 10, second runner, the 11, the 3rd runner, 12, sprue, 13, vertical cylinder, 14, horizontal gas
Cylinder, 15, slide unit, 17, stay cord, 18, motor, 19, push rod, 20, latch, the 21, the 3rd cylinder, the 22, first guide pad, 23, second
Guide pad.
Detailed description of the invention
The invention will be further described with detailed description of the invention below in conjunction with the accompanying drawings.
The operation principle of the present invention:
First, taking a stator and be placed on V-block after push pedal, insulating paper is placed on above slot wedge subsequently;
Then, vertical air cylinder driven push pedal declines, and push pedal bottom pushes insulating paper and enters in slot wedge, and push pedal both sides
Starting stave and the second riser against insulating paper upper surface, i.e. insulating paper relative to starting stave, second riser move gradually
Pushed in slot wedge;
After insulating paper enters into slot wedge, air pump works, by sprue, first flow to the second runner, the 3rd runner
Supply, thus the second runner and the 3rd runner expellant gas can make insulating paper depart from push pedal bottom, and insulating paper
Can deform and be resisted against on slot wedge inwall, this completes the setting-in to an insulating paper;
Vertical air cylinder driven push pedal rises so that push pedal bottom and extracts from slot wedge, rises to certain altitude in push pedal
After, push pedal can drive starting stave and the second riser to rise by stay cord, it is ensured that starting stave, the second riser bottom and stator
Depart from;
Subsequently, the 3rd air cylinder driven latch moves so that latch bottom is plugged on slot wedge opening, and motor work is driven
Dynamic axis of rotation, thus drive latch and stator rotation, i.e. stator to rotate relative to V-block by push rod so that stator
Slot wedge on next circumferencial direction is positioned at immediately below push pedal;Then, the 3rd cylinder shrinks so that latch disengages with slot wedge, electricity
Machine reversion resets;And then facilitate vertical cylinder to carry out next raising and lowering, work and so forth to every on stator
Insulating paper setting-in work on one slot wedge;
Finally, horizontal air cylinder drives slide unit, motor and rotating shaft to disengage with stator, thus takes out the stator being embedded in insulating paper
?.
For the mechanism being fitted in slot wedge by insulating paper, the present invention includes that workbench 2, workbench 2 are provided with for placing
The V-block 4 of stator 3, is rotatably connected to rotating shaft 6 in stator 3, rotating shaft 6 is extended with push rod 19, push rod along stator 3 diametric(al)
19 are arranged in stator 3 diagonally downward, push rod 19 slidably connects for slot wedge clamping on stator 3 or the latch of disengagement
20, latch 20 is arranged along push rod 19 length direction, and push rod 19 is provided with the 3rd cylinder 21 for driving latch 20 to move, push rod
Be provided with the guide rail slided for latch 20 on 19 away from rotating shaft 6 one end, push rod 19 is positioned at the centre position of stator 3 length direction, its
In, latch 20 is connected with the 3rd cylinder 21 outfan, rotating shaft 6 axis and stator 3 dead in line, on described latch 15 for
The end cross-sectional of slot wedge grafting is triangle, i.e. latch 15 end is conical structure, is so conducive to latch 15 end and slot wedge
Clamping.Slidably connecting slide unit 15 on workbench 2, slide unit 15 is provided with the motor 18 rotated for drive shaft 6, workbench 2
It is provided with the horizontal air cylinder 14 for promoting slide unit 15 to move along stator 3 axis direction;Vertically it is slidably connected in stator 3
Having the push pedal 5 of strip, cross section, push pedal 5 bottom is circular arc, and push pedal 5 runs through stator 3 two ends, and push pedal 5 along stator 3 axis
Being radially arranged along stator 3, workbench 2 is provided with for driving push pedal 5 to move to drive push pedal 5 bottom to insert stator 3 slot wedge
With the vertical cylinder 13 extracted from stator 3 slot wedge, it is fixed to facilitate that horizontal air cylinder 14 and vertical cylinder 13 lay respectively at stator 3 two ends
Son 3 is installed on V-block 4, is also convenient for stator 3 and takes out from V-block 4;Push pedal 5 both sides are slidably connected by dovetail groove respectively
For pushing against starting stave 7 and second riser 8 of slot wedge opening part on stator 3, starting stave 7 and the second riser 8 are symmetrical
In push pedal 5 both sides, and starting stave 7 and the second riser 8 upper end are all connected with push pedal 5 by stay cord 17;Push pedal 5 is vertically
Being provided with the first flow 9 of multiple supplied gas flowing, multiple first flows 9 are equidistantly distributed along push pedal 5 length direction, and each first
Runner 9 lower end is communicated with the second runner 10 and the 3rd runner 11, first flow the 9, second runner 10 and the 3rd runner 11 structure simultaneously
Become inverted Y-shaped, and the opening part of the second runner 10 and the 3rd runner 11 is respectively positioned on the circular arc sector of push pedal 5 bottom, pushes away
Plate 5 upper end is provided with sprue 12 in the horizontal direction, and first flow 9 upper port connects with sprue 12, workbench 2 be provided with to
The air pump of sprue 12 supply.
Described push rod 19 is less than 45 ° with the angle of vertical direction, it may also be said to the angle between push rod 19 and push pedal 5 is little
In 45 °.
Described guide rail refers to, push rod 19 is provided with the first guide pad 22 and the second guide pad 23, the first guide pad 22 He
Second guide pad 23 is parallel, and latch 20 is slidably connected in the gap between the first guide pad 22 and the second guide pad 23.
Described slide unit 15 is slidably connected on workbench 2 by dovetail groove.
Described push pedal 5 one-tenth-value thickness 1/10 is less than the width value of slot wedge opening part on stator 3.It is to say, push pedal 5 bottom can
To be inserted in slot wedge, and starting stave 7 and the second riser 8 can not be inserted in slot wedge, i.e. starting stave 7 and the second riser
8 are positioned at outside slot wedge and press against insulating paper 1 both ends.
It is outside that the length value that described push pedal 5 length value is axial more than stator 3, i.e. push pedal 5 both ends are respectively positioned on stator 3.
Described first flow 9 is arranged on the centre position of push pedal 5 thickness direction, and the second runner 10 and the 3rd runner 11 are right
Claim to be distributed in first flow 9 both sides.Wherein, first flow 9 arranges along the length direction of push pedal 5, as described in Figure 6, and second
The exit of runner 10 and the 3rd runner 11 is arranged on the arcwall face of push pedal 5 bottom.
Described starting stave 7 and the second cross section, riser 8 bottom are arc line shaped, near push pedal 5 one on this arc line shaped
The distance of lateral extent stator 3 slot wedge is more than the distance on arc line shaped away from push pedal 5 one lateral extent stator 3 slot wedge.It is to say, the
The structure of one riser 7 and the second riser 8 bottom is cam structure, as shown in Figure 5.Such as, starting stave 7 left part is minimum
Position may be rubbed against insulating paper 1 side, and other positions, starting stave 7 lower end be not with insulating paper 1 upper surface, this is just
Reduce the area that starting stave 7 lower end contacts with insulating paper 1 as far as possible;Second riser 8 is also such.Further, can be first
Riser 7 be rotationally connected respectively with the second riser 8 bottom one for the roller contacted with insulating paper 1, so, on insulating paper 1
The rolling that sliding friction when surface is moved relative to starting stave 7 and the second riser 8 bottom is converted between roller
Friction, preferably avoids the phenomenon that insulating paper 1 tears.
The foregoing is only presently preferred embodiments of the present invention, be not intended to limit protection scope of the present invention.All at this
Within bright claim, any amendment, equivalent and the improvement etc. made, should be included in protection scope of the present invention it
In.
Claims (8)
1. one kind is used for the mechanism being fitted in slot wedge by insulating paper, it is characterised in that: it includes workbench (2), workbench (2)
It is provided with the V-block (4) for placing stator (3), in stator (3), is rotatably connected to rotating shaft (6), along stator (3) in rotating shaft (6)
Diametric(al) is extended with push rod (19), and push rod (19) is arranged in stator (3) diagonally downward, push rod (19) is slidably connected useful
In slot wedge clamping upper with stator (3) or the latch (20) of disengagement, latch (20) is arranged along push rod (19) length direction, push rod (19)
It is provided with the 3rd cylinder (21) for driving latch (20) movement, push rod (19) is provided with for latch away from rotating shaft (6) one end
(20) guide rail slided, push rod (19) is positioned at the centre position of stator (3) length direction, rotating shaft (6) axis and stator (3) axis
Overlapping, workbench (2) slidably connects slide unit (15), slide unit (15) is provided with the motor rotated for drive shaft (6)
(18), workbench (2) is provided with the horizontal air cylinder (14) for promoting slide unit (15) to move along stator (3) axis direction;Stator
(3) vertically slidably connecting the push pedal (5) of strip in, push pedal (5) cross section, bottom is circular arc, push pedal (5) edge
Stator (3) axis runs through stator (3) two ends, and push pedal (5) is radially arranged along stator (3), and workbench (2) is provided with for driving
Push pedal (5) is mobile to drive push pedal (5) bottom to insert stator (3) slot wedge and the vertical cylinder extracted from stator (3) slot wedge
(13), horizontal air cylinder (14) and vertical cylinder (13) lay respectively at stator (3) two ends;Push pedal (5) both sides pass through dovetail groove respectively
Slidably connect the starting stave (7) for pushing against the upper slot wedge opening part of stator (3) and the second riser (8), starting stave (7) and
Second riser (8) is symmetrically distributed in push pedal (5) both sides, and starting stave (7) and the second riser (8) upper end are all by stay cord (17)
It is connected with push pedal (5);Push pedal (5) is vertically provided with the first flow (9) of multiple supplied gas flowing, multiple first flows
(9) being equidistantly distributed along push pedal (5) length direction, each first flow (9) lower end is communicated with the second runner (10) and simultaneously
Three runners (11), first flow (9), the second runner (10) and the 3rd runner (11) constitute inverted Y-shaped, and the second runner
(10) and the opening part of the 3rd runner (11) is respectively positioned on the circular arc sector of push pedal (5) bottom, push pedal (5) upper end is along level side
To being provided with sprue (12), first flow (9) upper port connects with sprue (12), and workbench (2) is provided with to sprue
(12) air pump supplied.
Mechanism for insulating paper is fitted in slot wedge the most according to claim 1, it is characterised in that: described push rod
(19) angle with vertical direction is less than 45 °.
Mechanism for insulating paper is fitted in slot wedge the most according to claim 1, it is characterised in that: described guide rail
Referring to, push rod (19) is provided with the first guide pad (22) and the second guide pad (23), the first guide pad (22) and the second guide pad
(23) parallel, and latch (20) is slidably connected in the gap between the first guide pad (22) and the second guide pad (23).
Mechanism for insulating paper is fitted in slot wedge the most according to claim 1, it is characterised in that: described slide unit
(15) it is slidably connected on workbench (2) by dovetail groove.
Mechanism for insulating paper is fitted in slot wedge the most according to claim 1, it is characterised in that: described push pedal
(5) one-tenth-value thickness 1/10 is less than the width value of the upper slot wedge opening part of stator (3).
Mechanism for insulating paper is fitted in slot wedge the most according to claim 1, it is characterised in that: described push pedal
(5) length value that length value is axial more than stator (3).
Mechanism for insulating paper is fitted in slot wedge the most according to claim 1, it is characterised in that: described first
Runner (9) is arranged on the centre position of push pedal (5) thickness direction, the second runner (10) and the 3rd runner (11) and is symmetrically distributed in
One runner (9) both sides.
Mechanism for insulating paper is fitted in slot wedge the most according to claim 1, it is characterised in that: described first
Riser (7) and the second riser (8) cross section, bottom are arc line shaped, near push pedal (5) lateral extent stator (3) on this arc line shaped
The distance of slot wedge is more than the distance on arc line shaped away from push pedal (5) lateral extent stator (3) slot wedge.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610702460.8A CN106160374B (en) | 2016-08-19 | 2016-08-19 | For the device by insulating paper in slot wedge |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201610702460.8A CN106160374B (en) | 2016-08-19 | 2016-08-19 | For the device by insulating paper in slot wedge |
Publications (2)
Publication Number | Publication Date |
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CN106160374A true CN106160374A (en) | 2016-11-23 |
CN106160374B CN106160374B (en) | 2019-03-05 |
Family
ID=57342303
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201610702460.8A Expired - Fee Related CN106160374B (en) | 2016-08-19 | 2016-08-19 | For the device by insulating paper in slot wedge |
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CN (1) | CN106160374B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114977696A (en) * | 2022-06-22 | 2022-08-30 | 苏州上舜精密工业科技有限公司 | Insulating paper embedding structure and assembly machine and method with insulating paper embedding structure |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002262527A (en) * | 2001-03-02 | 2002-09-13 | Honda Motor Co Ltd | Power generation motor insulation assembling apparatus |
CN202772761U (en) * | 2012-07-17 | 2013-03-06 | 永康市捷欣机械设备有限公司 | Stator insulation paper molding and insertion mechanism |
CN202772760U (en) * | 2012-07-17 | 2013-03-06 | 永康市捷欣机械设备有限公司 | Stator coiling and slot wedge paper feeding mechanism |
CN103312099A (en) * | 2013-06-21 | 2013-09-18 | 苏州市圣玛特电机设备制造有限公司 | Stator insulation paper pushing-in mechanism |
CN103337935A (en) * | 2013-06-21 | 2013-10-02 | 苏州市圣玛特电机设备制造有限公司 | Insulation paper inserting machine for motor stator |
CN103337936A (en) * | 2013-06-21 | 2013-10-02 | 苏州市圣玛特电机设备制造有限公司 | Stator clamping workbench used for pushing in insulation paper in stator |
CN204103711U (en) * | 2014-07-17 | 2015-01-14 | 浙江正田电机制造有限公司 | The rule mechanism of generator stator of vehicle coil inserting apparatus |
-
2016
- 2016-08-19 CN CN201610702460.8A patent/CN106160374B/en not_active Expired - Fee Related
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002262527A (en) * | 2001-03-02 | 2002-09-13 | Honda Motor Co Ltd | Power generation motor insulation assembling apparatus |
CN202772761U (en) * | 2012-07-17 | 2013-03-06 | 永康市捷欣机械设备有限公司 | Stator insulation paper molding and insertion mechanism |
CN202772760U (en) * | 2012-07-17 | 2013-03-06 | 永康市捷欣机械设备有限公司 | Stator coiling and slot wedge paper feeding mechanism |
CN103312099A (en) * | 2013-06-21 | 2013-09-18 | 苏州市圣玛特电机设备制造有限公司 | Stator insulation paper pushing-in mechanism |
CN103337935A (en) * | 2013-06-21 | 2013-10-02 | 苏州市圣玛特电机设备制造有限公司 | Insulation paper inserting machine for motor stator |
CN103337936A (en) * | 2013-06-21 | 2013-10-02 | 苏州市圣玛特电机设备制造有限公司 | Stator clamping workbench used for pushing in insulation paper in stator |
CN204103711U (en) * | 2014-07-17 | 2015-01-14 | 浙江正田电机制造有限公司 | The rule mechanism of generator stator of vehicle coil inserting apparatus |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114977696A (en) * | 2022-06-22 | 2022-08-30 | 苏州上舜精密工业科技有限公司 | Insulating paper embedding structure and assembly machine and method with insulating paper embedding structure |
CN114977696B (en) * | 2022-06-22 | 2023-10-17 | 苏州上舜精密工业科技有限公司 | Insulation paper embedding structure, assembly machine with insulation paper embedding structure and assembly method |
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