CN107437875A - A kind of rotor claps pressure device - Google Patents
A kind of rotor claps pressure device Download PDFInfo
- Publication number
- CN107437875A CN107437875A CN201710622542.6A CN201710622542A CN107437875A CN 107437875 A CN107437875 A CN 107437875A CN 201710622542 A CN201710622542 A CN 201710622542A CN 107437875 A CN107437875 A CN 107437875A
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- CN
- China
- Prior art keywords
- feeding
- rotor
- rotor core
- diameter
- hole
- 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
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- 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
- H02K15/02—Methods or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines of stator or rotor bodies
Abstract
The present invention relates to motor to manufacture field, and more particularly to a kind of rotor claps pressure device;Including pedestal, clap pressure component, feeding material component and servo-driver;The pedestal includes horizontally disposed workbench and the support frame for support works platform;The feeding material component includes feeding-passage, tapping channel and cylinder delivery device;The feeding-passage is ramped aisle, and the port of export of the feeding-passage is connected with the feed end of the feeding channel on base;The tapping channel is ramped aisle, and the entrance point of the tapping channel is connected with the discharge end of the feeding channel on base;First oil compression rod, the second oil compression rod and cylinder and servo-driver are electrically connected with.Rotor is automatically performed by servo driver drives oil pressure component and cylinder delivery device and claps the overall process pressed, including automatic feed, the automatic pressure and self-emptying, whole process of clapping need not be participated in manually.
Description
Technical field
The present invention relates to motor to manufacture field, and more particularly to a kind of rotor claps pressure device.
Background technology
The rotor of prior art makes to form by silicon steel sheet high speed punching die stamping, due to the self-clinching point of rotor punching
It can not rush very tight, it is necessary to be clapped and compressed by bat press after each rotor punching tentatively to be laminated into rotor core;
Existing rotor, which claps press, needs that manually the rotor core for tentatively laminating shaping is positioned on bat press base, leads to
The hydraulic press for crossing top is clapped and is compacted to the rotor core on base, it is necessary to manually by base after the completion of pressure is clapped
Rotor core move away from, then by it is next need clap pressure rotor core be positioned over base, continue clap pressure;Produced in batches in rotor
During, easily make operating personnel tired, and have the hidden danger for the hand for weighing operating personnel wounded, it is therefore desirable to slow down the work of hydraulic press
Working frequency, so as to influence the efficiency that stator claps pressure.
The content of the invention
The technical problems to be solved by the invention are:A kind of self-feeding is provided and the rotor bat press fitting of pressure can be clapped automatically
Put, solve existing rotor and clap press to need that rotor core manually is positioned over into base or move away from and existing clap that pressure efficiency is low, peace
The problem of full property difference.
In order to solve the above-mentioned technical problem, the technical solution adopted by the present invention is:A kind of rotor claps pressure device, including base
Seat, clap pressure component, feeding material component and servo-driver;
The pedestal includes horizontally disposed workbench and the support frame for support works platform;
The pressure component of clapping includes base and oil pressure component;
The workbench is provided with base, and the base is provided with feeding channel, perpendicular on the feeding channel of the base
For Nogata to provided with first through hole, the first through hole is manhole, the diameter of the diameter of the first through hole compared with rotor core
Long 5-10mm, workbench position corresponding with first through hole are provided with logical with first through hole size, shape identical second
Hole;
The oil pressure component includes the first oil compression rod and the second oil compression rod, the side straight up immediately below the first through hole
To being provided with the first oil compression rod, the vertically downward direction of the surface of the first through hole is provided with the second oil compression rod, and described
The upper end of one oil compression rod is connected with diameter and rotor core identical the first cylinder briquetting, and the lower end of second oil compression rod connects
It is connected to diameter 15-30mm long compared with rotor core diameter the second cylinder briquetting;
The feeding material component includes feeding-passage, tapping channel and cylinder delivery device;
The feeding-passage is ramped aisle, the feed end of the feeding channel on the port of export and base of the feeding-passage
It is connected;
The cylinder delivery device includes cylinder and the pushing hands being connected on cylinder piston rod, and the pushing hands is in cylinder piston
Moved under the drive of bar in horizontal direction in the feeding channel of base;
The tapping channel is ramped aisle, the discharge end of the feeding channel on the entrance point and base of the tapping channel
It is connected;
First oil compression rod, the second oil compression rod and cylinder and servo-driver are electrically connected with.
The beneficial effects of the present invention are:Using the gravity of rotor core itself, by slope feeding-passage from trend bottom
Feeding channel charging on seat, pushes to first by rotor core stepping by the cylinder pusher of feeding channel entrance point and leads to
At hole, rotor core is compacted by oil pressure component, first through hole serves the effect of positioning, and the is driven using the first oil compression rod
One cylinder briquetting moves down, and drives the rotor core on the first cylinder briquetting to fall into first through hole, passes through upper and lower two
Individual briquetting completes the bat pressure of rotor core, claps the rotor core after the completion of pressing and continues to slide by tapping channel under the push of pushing hands
Into rotor core collection device.Rotor of the present invention claps pressure device, gentle by servo driver drives oil pressure component
Cylinder delivery device is automatically performed the overall process that rotor claps pressure, including automatic feed, automatic bat pressure and self-emptying, whole process are not required to
Manually to participate in, mode is pressed in the bat for manually placing rotor core in oil pressure machine base compared to existing needs, is substantially increased and is turned
Son claps the efficiency of pressure, while avoids the risk that operating personnel's hand is weighed wounded, substantially increases security.
Brief description of the drawings
Fig. 1 is that a kind of rotor of the specific embodiment of the invention claps the structural representation of pressure device;
Fig. 2 is that a kind of rotor of the specific embodiment of the invention claps the top view after pressure device removal oil pressure component;
Label declaration:
1st, pedestal;11st, workbench;12nd, support frame;2nd, base;21st, feeding channel;3rd, oil pressure component;31st, the second oil pressure
Bar;32nd, the second cylinder briquetting;
4th, feeding material component;41st, feeding-passage;42nd, tapping channel;43rd, cylinder delivery device;431st, pushing hands;5th, optical axis;6、
Optical axis fixed seat.
Embodiment
To describe the technology contents of the present invention, the objects and the effects in detail, below in conjunction with embodiment and coordinate attached
Figure is explained.
The design of most critical of the present invention is:It is automatically complete by servo driver drives oil pressure component and cylinder delivery device
The overall process of pressure is clapped into rotor, including automatic feed, the automatic pressure and self-emptying, whole process of clapping need not be participated in manually.
Fig. 1 and Fig. 2 is refer to, a kind of rotor claps pressure device, including pedestal 1, bat pressure component, feeding material component 4 and servo
Driver;
The pedestal 1 includes horizontally disposed workbench 11 and the support frame 12 for support works platform 11;
The pressure component of clapping includes base 2 and oil pressure component 3;
The workbench 11 is provided with base 2, and the base 2 is provided with feeding channel 21, the feeding channel of the base 2
Vertical direction on 21 is provided with first through hole, and the first through hole is manhole, and the diameter of the first through hole is compared with rotor iron
The diameter long 5-10mm of core, the workbench 11 position corresponding with first through hole are provided with and first through hole size, shape phase
The second same through hole;
The oil pressure component 3 includes the first oil compression rod and the second oil compression rod 31, immediately below the first through hole it is vertical to
Upper direction is provided with the first oil compression rod, and the vertically downward direction of the surface of the first through hole is provided with the second oil compression rod 31,
The upper end of first oil compression rod is connected with diameter and rotor core identical the first cylinder briquetting, second oil compression rod 31
Lower end be connected with diameter 15-30mm long compared with rotor core diameter the second cylinder briquetting 32;
The feeding material component 4 includes feeding-passage 41, tapping channel 42 and cylinder delivery device 43;
The feeding-passage 41 is ramped aisle, the port of export and the feeding channel 21 on base 2 of the feeding-passage 41
Feed end be connected;
The cylinder delivery device 43 includes cylinder and the pushing hands 431 being connected on cylinder piston rod, and the pushing hands 431 exists
Moved under the drive of cylinder piston rod in horizontal direction in the feeding channel 21 of base 2;
The tapping channel 42 is ramped aisle, entrance point and the feeding channel 21 on base 2 of the tapping channel 42
Discharge end be connected;
First oil compression rod, the second oil compression rod 31 and cylinder and servo-driver are electrically connected with.
Above-mentioned rotor claps the operation principle explanation of pressure device:The rotor core tentatively laminated enters via feeding-passage 41
Enter the feeding channel 21 on base 2, from the pushing hands 431 of servo driver drives cylinder delivery device 43 to the direction of feeding channel 21
The distance of a mobile rotor core diameter, then retracts, is now placed in next rotor core on feeding-passage 41 oblique
The entrance point of feeding channel 21 is slided in the presence of slope, now pushing hands 431 moves a rotor core to the direction of feeding channel 21
The distance of diameter, is then retracted, and by repeatedly pushing, makes rotor core inline on feeding channel 21, when rotor iron
Core under the promotion of previous rotor core, the first cylinder briquetting for pushing at the first through hole at the middle part of feeding channel 21 it is upper
During portion, now the upper surface of the first cylinder briquetting of the first oil compression rod upper end is concordant with feeding channel 21, then the first oil pressure
Bar moves straight down, makes in rotor core press-in first through hole;The second oil compression rod 31 being then within above first through hole is perpendicular
Directly move down, the second cylinder briquetting 32 connected by the lower end of the second oil compression rod 31 extrudes the upper surface of rotor core, leads to
The bat pressure that two briquettings up and down complete rotor core is crossed, after the completion of rotor core claps pressure, the first oil compression rod pushes the first cylinder
To the position concordant with feeding channel 21, the second cylinder briquetting 32 on the second oil compression rod 31 also correspondingly departs to be turned body briquetting
Sub- iron core upper surface, then under the drive of pushing hands 431, rotor core continues to move to the direction of tapping channel 42, when rotor iron
When core reaches tapping channel 42, topple over along the slope of tapping channel 42 and slide in rotor core collection device, so as to complete to turn
The automatic bat pressure of sub- iron core.
The beneficial effect that above-mentioned rotor claps pressure device is:Using the gravity of rotor core itself, fed by slope logical
Road 41 is fed from the feeding channel 21 on trend base 2, by the cylinder pusher of the entrance point of feeding channel 21 by rotor iron
Core stepping is pushed at first through hole, is compacted rotor core by oil pressure component 3, and first through hole serves the effect of positioning,
Drive the first cylinder briquetting to move down using the first oil compression rod, drive the rotor core on the first cylinder briquetting to fall into the
In one through hole, the bat pressure of rotor core is completed by upper and lower two briquettings, the rotor core after the completion of pressing is clapped and continues in pushing hands 431
Push under slided to by tapping channel 42 in rotor core collection device.Rotor of the present invention claps pressure device, by watching
Take driver driving oil pressure component 3 and cylinder delivery device 43 be automatically performed the overall process that rotor claps pressure, including automatic feed, from
The dynamic pressure and self-emptying, whole process of clapping need not be participated in manually, and manually rotor is placed in oil pressure machine base 2 compared to existing needs
The bat pressure mode of iron core, substantially increases rotor and claps the efficiency of pressure, while avoids the risk that operating personnel's hand is weighed wounded, greatly
Improve security greatly.
Further, above-mentioned rotor is clapped in pressure device, and the both sides of feeding channel 21 are provided with the first baffle being parallel to each other,
The distance between described first baffle 5-10mm long compared with rotor core diameter.
Further, above-mentioned rotor is clapped in pressure device, and the both sides of feeding-passage 41 are provided with the second baffle being parallel to each other,
The distance between described second baffle 5-10mm long compared with rotor core diameter.
Further, above-mentioned rotor is clapped in pressure device, and the both sides of tapping channel 42 are provided with the third baffle being parallel to each other,
The distance between described third baffle 5-10mm long compared with rotor core diameter.
Baffle plate is set in the both sides of feeding-passage 41, feeding channel 21 and tapping channel 42 respectively, plays the guiding of passage
Effect, prevent rotor core from being slid when passing through passage from sidepiece, the distance between baffle plate 5- long compared with the diameter of rotor core
10mm, when the rotor core is passed through passage, small space is left in both sides, and more convenient rotor core passes through passage.
Further, above-mentioned rotor is clapped in pressure device, and the feeding-passage 41 is perpendicular to the feeding channel 21.
Feeding-passage 41 makes the structure of above-mentioned rotor bat pressure device compacter, convenient push perpendicular to feeding channel 21
Device pushes to rotor core in feeding channel 21.
Further, above-mentioned rotor is clapped in pressure device, and the upper end of the first through hole is provided with chamfering, facilitates rotor core to enter
Enter in first through hole.
Further, above-mentioned rotor is clapped in pressure device, and the entrance point of the feeding channel 21 is provided with chamfering, facilitates rotor iron
Core enters feeding channel 21.
Further, above-mentioned rotor is clapped in pressure device, and the push end of the pushing hands 431 is cancave cambered surface, the cancave cambered surface
Diameter is identical with the diameter of rotor core, and making pushing hands 431, the push end face of pushing hands 431 is bonded completely when pushing rotor core
The side surface of rotor core, facilitate pushing hands 431 that rotor core is pushed into feeding channel 21.
Further, above-mentioned rotor is clapped in pressure device, and the oil pressure component 3 also includes optical axis 5 and optical axis fixed seat 6, institute
State optical axis 5 to be perpendicularly fixed on workbench 11, the optical axis fixed seat 6 includes optical axis flange, and the optical axis fixed seat 6 passes through light
Shaft flange is connected to optical axis 5, and the optical axis fixed seat 6 is connected to the sidepiece of the second oil compression rod 31.
Optical axis 5 is connected by optical axis flange, plays the guide effect of the second oil compression rod 31, avoids the second oil compression rod 31 perpendicular
Translation shifts when dynamic.
Further, above-mentioned rotor is clapped in pressure device, and the quantity of optical axis 5 is 4, further ensures that the second oil compression rod 31
Do not shifted in vertical shift.
Embodiment 1
A kind of rotor claps pressure device, including pedestal 1, bat pressure component, feeding material component 4 and servo-driver;The pedestal 1 wraps
Include horizontally disposed workbench 11 and the support frame 12 for support works platform 11;The pressure component of clapping includes base 2 and oil pressure
Component 3;The workbench 11 is provided with base 2, and the base 2 is provided with feeding channel 21, the feeding channel 21 of the base 2
On vertical direction be provided with first through hole, the first through hole is manhole, and the diameter of the first through hole is compared with rotor core
Diameter long 5mm, the workbench 11 position corresponding with first through hole is provided with and first through hole size, shape identical
Two through holes;The oil pressure component 3 includes the first oil compression rod and the second oil compression rod 31, immediately below the first through hole straight up
Direction is provided with the first oil compression rod, and the vertically downward direction of the surface of the first through hole is provided with the second oil compression rod 31, institute
The upper end for stating the first oil compression rod is connected with diameter and rotor core identical the first cylinder briquetting, second oil compression rod 31
Lower end is connected with diameter 15mm long compared with rotor core diameter the second cylinder briquetting 32;It is logical that the feeding material component 4 includes charging
Road 41, tapping channel 42 and cylinder delivery device 43;The feeding-passage 41 is ramped aisle, the outlet of the feeding-passage 41
End is connected with the feed end of the feeding channel 21 on base 2;The cylinder delivery device 43 includes cylinder and is connected to cylinder
Pushing hands 431 on piston rod, the pushing hands 431 is under the drive of cylinder piston rod in level side in the feeding channel 21 of base 2
To movement;The tapping channel 42 is ramped aisle, entrance point and the feeding channel 21 on base 2 of the tapping channel 42
Discharge end is connected;First oil compression rod, the second oil compression rod 31 and cylinder and servo-driver are electrically connected with.The feeding is led to
The both sides of road 21 are provided with the distance between the first baffle, the first baffle being parallel to each other compared with the long 5mm of rotor core diameter.It is described
The both sides of feeding-passage 41 are provided with the distance between the second baffle, the second baffle being parallel to each other and grown compared with rotor core diameter
5mm.The both sides of tapping channel 42 are provided with the distance between the third baffle, the third baffle being parallel to each other compared with rotor core
The long 5mm of diameter.Baffle plate is set in the both sides of feeding-passage 41, feeding channel 21 and tapping channel 42 respectively, plays leading for passage
To effect, prevent rotor core from being slid when passing through passage from sidepiece, the distance between baffle plate is grown compared with the diameter of rotor core
5mm, when the rotor core is passed through passage, small space is left in both sides, and more convenient rotor core passes through passage.The charging is logical
Road 41 is perpendicular to the feeding channel 21.Feeding-passage 41 makes above-mentioned rotor clap the structure of pressure device perpendicular to feeding channel 21
It is compacter, facilitate pusher to push to rotor core in feeding channel 21.The upper end of the first through hole is provided with chamfering,
Rotor core is facilitated to enter in first through hole.The entrance point of the feeding channel 21 is provided with chamfering, facilitates rotor core to enter and send
Expect passage 21.The push end of the pushing hands 431 is cancave cambered surface, and the diameter of the cancave cambered surface is identical with the diameter of rotor core, makes
When pushing rotor core, the push end face of pushing hands 431 is bonded the side surface of rotor core completely, facilitates pushing hands 431 for pushing hands 431
Rotor core is pushed into feeding channel 21.The oil pressure component 3 also includes optical axis 5 and optical axis fixed seat 6, and the optical axis 5 hangs down
Directly it is fixed on workbench 11, the optical axis fixed seat 6 includes optical axis flange, and the optical axis fixed seat 6 is connected by optical axis flange
Optical axis 5 is connected to, the optical axis fixed seat 6 is connected to the sidepiece of the second oil compression rod 31.Optical axis 5 is connected by optical axis flange, plays the
The guide effect of two oil compression rods 31, the second oil compression rod 31 is avoided to be shifted in vertical shift.
Embodiment 2
A kind of rotor claps pressure device, and its feature is same as Example 1, wherein, the diameter of the first through hole is compared with rotor iron
The long 10mm of diameter of core, the diameter 30mm long compared with rotor core diameter of the second cylinder briquetting 32;The first baffle it
Between distance 10mm long compared with rotor core diameter;The distance between described second baffle 10mm long compared with rotor core diameter;It is described
The both sides of tapping channel 42 are provided with the distance between the third baffle, the third baffle being parallel to each other and grown compared with rotor core diameter
10mm;The distance between baffle plate 10mm long compared with the diameter of rotor core.
Embodiment 3
A kind of rotor claps pressure device, and its feature is same as Example 1, wherein, the diameter of the first through hole is compared with rotor iron
The long 7mm of diameter of core, the diameter 20mm long compared with rotor core diameter of the second cylinder briquetting;Between the first baffle
Distance 7mm long compared with rotor core diameter;The distance between described second baffle 7mm long compared with rotor core diameter;The discharging is logical
The both sides of road 42 are provided with the distance between the third baffle, the third baffle being parallel to each other compared with the long 7mm of rotor core diameter;Baffle plate
The distance between 7mm long compared with the diameter of rotor core.
In summary, rotor provided by the invention claps pressure device, using the gravity of rotor core itself, is fed by slope
Passage is from the feeding channel charging on trend base, by the cylinder pusher of feeding channel entrance point by rotor core stepping
Push at first through hole, be compacted rotor core by oil pressure component, first through hole serves the effect of positioning, utilizes first
Oil compression rod drives the first cylinder briquetting to move down, and drives the rotor core on the first cylinder briquetting to fall into first through hole
In, the bat pressure of rotor core is completed by upper and lower two briquettings, the rotor core after the completion of pressing is clapped and continues under the push of pushing hands
Slided to by tapping channel in rotor core collection device.Rotor of the present invention claps pressure device, is driven by servo-driver
Dynamic oil pressure component and cylinder delivery device are automatically performed the overall process that rotor claps pressure, including automatic feed, it is automatic clap pressure and from
Dynamic discharging, whole process need not be participated in manually, compared to the bat pressure side that existing needs manually place rotor core in oil pressure machine base
Formula, substantially increase rotor and clap the efficiency of pressure, while avoid the risk that operating personnel's hand is weighed wounded, substantially increase safety
Property;Baffle plate is set in the both sides of feeding-passage, feeding channel and tapping channel respectively, plays the guide effect of passage, anti-rotation stop
Sub- iron core slides when passing through passage from sidepiece, the distance between baffle plate 5-10mm long compared with the diameter of rotor core, makes rotor iron
When core passes through passage, small space is left in both sides, and more convenient rotor core passes through passage.
Embodiments of the invention are the foregoing is only, are not intended to limit the scope of the invention, it is every to utilize this hair
The equivalents that bright specification and accompanying drawing content are made, or the technical field of correlation is directly or indirectly used in, similarly include
In the scope of patent protection of the present invention.
Claims (10)
1. a kind of rotor claps pressure device, it is characterised in that including pedestal, claps pressure component, feeding material component and servo-driver;
The pedestal includes horizontally disposed workbench and the support frame for support works platform;
The pressure component of clapping includes base and oil pressure component;
The workbench is provided with base, and the base is provided with feeding channel, the vertical side on the feeding channel of the base
To provided with first through hole, the first through hole is manhole, the diameter 5- long compared with the diameter of rotor core of the first through hole
10mm, workbench position corresponding with first through hole are provided with and first through hole size, the through hole of shape identical second;
The oil pressure component includes the first oil compression rod and the second oil compression rod, and the direction straight up immediately below the first through hole is set
The first oil compression rod is equipped with, the vertically downward direction of the surface of the first through hole is provided with the second oil compression rod, first oil
The upper end of depression bar is connected with diameter and rotor core identical the first cylinder briquetting, and the lower end of second oil compression rod is connected with
Diameter 15-30mm long compared with rotor core diameter the second cylinder briquetting;
The feeding material component includes feeding-passage, tapping channel and cylinder delivery device;
The feeding-passage is ramped aisle, and the port of export of the feeding-passage is connected with the feed end of the feeding channel on base
Connect;
The cylinder delivery device includes cylinder and the pushing hands being connected on cylinder piston rod, and the pushing hands is in cylinder piston rod
Moved under drive in horizontal direction in the feeding channel of base;
The tapping channel is ramped aisle, and the entrance point of the tapping channel is connected with the discharge end of the feeding channel on base
Connect;
First oil compression rod, the second oil compression rod and cylinder and servo-driver are electrically connected with.
2. rotor according to claim 1 claps pressure device, it is characterised in that the feeding channel both sides are provided with and are parallel to each other
The distance between first baffle, the first baffle compared with the long 5-10mm of rotor core diameter.
3. rotor according to claim 1 claps pressure device, it is characterised in that the feeding-passage both sides are provided with and are parallel to each other
The distance between second baffle, the second baffle compared with the long 5-10mm of rotor core diameter.
4. rotor according to claim 1 claps pressure device, it is characterised in that the tapping channel both sides are provided with and are parallel to each other
The distance between third baffle, the third baffle compared with the long 5-10mm of rotor core diameter.
5. rotor according to claim 1 claps pressure device, it is characterised in that the feeding-passage leads to perpendicular to the feeding
Road.
6. rotor according to claim 1 claps pressure device, it is characterised in that the upper end of the first through hole is provided with chamfering.
7. rotor according to claim 1 claps pressure device, it is characterised in that the entrance point of the feeding channel is provided with
Angle.
8. rotor according to claim 1 claps pressure device, it is characterised in that the push end of the pushing hands is cancave cambered surface, institute
The diameter for stating cancave cambered surface is identical with the diameter of rotor core.
9. rotor according to claim 1 claps pressure device, it is characterised in that the oil pressure component also includes optical axis and optical axis
Fixed seat, the optical axis are perpendicularly fixed on workbench, and the optical axis fixed seat includes optical axis flange, and the optical axis fixed seat is led to
Cross optical axis flange and be connected to optical axis, the optical axis fixed seat is connected to the second oil compression rod sidepiece.
10. rotor according to claim 9 claps pressure device, it is characterised in that the optical axis quantity is 4.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201710622542.6A CN107437875B (en) | 2017-07-27 | 2017-07-27 | Rotor clapping device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201710622542.6A CN107437875B (en) | 2017-07-27 | 2017-07-27 | Rotor clapping device |
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CN107437875A true CN107437875A (en) | 2017-12-05 |
CN107437875B CN107437875B (en) | 2023-08-11 |
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CN201710622542.6A Active CN107437875B (en) | 2017-07-27 | 2017-07-27 | Rotor clapping device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108667238A (en) * | 2018-06-29 | 2018-10-16 | 江门马丁电机科技有限公司 | Rotor core fragment fixture |
CN109482432A (en) * | 2018-11-12 | 2019-03-19 | 韩芳芳 | A kind of internal diameter flush coater of motor stator core |
CN112247192A (en) * | 2020-09-07 | 2021-01-22 | 芜湖天航重工股份有限公司 | Rotor drilling method |
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JP2001286107A (en) * | 2000-04-03 | 2001-10-12 | Matsumoto Silicon Steel Industries Corp | Manufacturing device for permanent-magnet rotor |
CN104467304A (en) * | 2014-11-24 | 2015-03-25 | 宁波顺成机电有限公司 | Automatic motor rotor assembling machine |
CN104702064A (en) * | 2015-03-23 | 2015-06-10 | 浙江伟康电机有限公司 | Automatic riveting transportation device for stator |
CN204741381U (en) * | 2015-06-29 | 2015-11-04 | 深圳市鸿源浩进科技有限公司 | Stator core flattening device |
CN105471198A (en) * | 2015-12-22 | 2016-04-06 | 信质电机股份有限公司 | Three-position pressing machine for motor core support of electric vehicle |
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2017
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Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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JP2001286107A (en) * | 2000-04-03 | 2001-10-12 | Matsumoto Silicon Steel Industries Corp | Manufacturing device for permanent-magnet rotor |
CN104467304A (en) * | 2014-11-24 | 2015-03-25 | 宁波顺成机电有限公司 | Automatic motor rotor assembling machine |
CN104702064A (en) * | 2015-03-23 | 2015-06-10 | 浙江伟康电机有限公司 | Automatic riveting transportation device for stator |
CN204741381U (en) * | 2015-06-29 | 2015-11-04 | 深圳市鸿源浩进科技有限公司 | Stator core flattening device |
CN105471198A (en) * | 2015-12-22 | 2016-04-06 | 信质电机股份有限公司 | Three-position pressing machine for motor core support of electric vehicle |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108667238A (en) * | 2018-06-29 | 2018-10-16 | 江门马丁电机科技有限公司 | Rotor core fragment fixture |
CN108667238B (en) * | 2018-06-29 | 2023-09-26 | 江门马丁电机科技有限公司 | Rotor core slicing fixture |
CN109482432A (en) * | 2018-11-12 | 2019-03-19 | 韩芳芳 | A kind of internal diameter flush coater of motor stator core |
CN112247192A (en) * | 2020-09-07 | 2021-01-22 | 芜湖天航重工股份有限公司 | Rotor drilling method |
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