CN208508747U - A kind of mechanical equipment of stator copper bending - Google Patents
A kind of mechanical equipment of stator copper bending Download PDFInfo
- Publication number
- CN208508747U CN208508747U CN201821017119.XU CN201821017119U CN208508747U CN 208508747 U CN208508747 U CN 208508747U CN 201821017119 U CN201821017119 U CN 201821017119U CN 208508747 U CN208508747 U CN 208508747U
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- line mould
- outside
- round
- stator copper
- mechanical equipment
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Abstract
The utility model discloses a kind of mechanical equipments of stator copper bending, are related to motor stator manufacture field, provide a kind of mechanical equipment of stator copper bending for realizing stator copper bending state.It turns round line mould and is set on mounting platform in the outside, it turns round line die sleeve and is set on inside torsion line mould in the outside, the spiral ascending mechanism risen when turning round line mould and inside torsion line mould rotation for outside is provided on the mounting platform, line mould is turned round in the outside and inside is turned round and is rotated in the opposite sense cooperation between line mould, the outside turns round line mould and is provided with outer threading groove, and the inside turns round line mould and is provided with interior threading groove corresponding with outer threading groove.Outside, inside is turned round line mould and is rotated simultaneously in opposite directions, at the same time, outside, torsion line mould in inside generates under the action of spiral ascending mechanism moves upwards, the mutually compound rotation ascending motion for being achieved that outer, inside and turning round line mould of two movements, so that it may complete the processing that stator copper is carried out bending by certain helix angle.
Description
Technical field
The utility model relates to motor stator manufacture fields, and in particular to a kind of mechanical equipment of stator copper bending.
Background technique
Motor stator is the important component of the motors such as generator or motor, and stator is by stator core, stator winding
It is formed with base three parts.When our company develops vehicle generator stator, the final molding state of the stator copper as shown in fig. 7,
Our company passes through equipment reality application No. is the mechanical equipment that a kind of stator copper of 2018104334635 patent application turns round shape
Show the machine-shaping that shape is turned round on stator copper top as shown in Figure 8, and other than needing to carry out top and turning round shape processing, it is also necessary to
Bending processing ability final molding as shown in Figure 7 is carried out to stator copper lower part, and existing technical field is undisclosed such as Fig. 7
Shown in the processing of stator copper bending related special-purpose machinery tool, so a kind of machinery of stator copper bending of designed, designed
Equipment acts to complete the torsion shape of the rectangular copper wire.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of stators for realizing the processing of stator copper bending state
The mechanical equipment of copper wire bending.
The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of machinery of stator copper bending is set
It is standby comprising line mould is turned round in outside, line mould and mounting platform are turned round in inside, and the outside is turned round line mould and is set on mounting platform, described
Outside is turned round line die sleeve and is set on inside torsion line mould, is provided on the mounting platform and turns round line mould and inside torsion line mould rotation for outside
The spiral ascending mechanism risen when turning, line mould is turned round in the outside and inside is turned round and is rotated in the opposite sense cooperation between line mould, described
Outside turns round line mould and is provided with outer threading groove, and the inside turns round line mould and is provided with interior threading groove corresponding with outer threading groove.
Further, the spiral ascending mechanism is set to outside and turns round between line mould and mounting platform, and line is turned round in the outside
Mould bottom surface is connected with supporting plate, and the splint upper surface turns round line mould bottom surface with inside and is in contact.
Further, the spiral ascending mechanism includes top-surface camber cam and lower surface camber cam, and the lower surface camber cam connects
Be connected on mounting platform, the top-surface camber cam is connected to outside and turns round on line mould, the top-surface camber cam and lower surface camber cam it
Between be slidably connected, and mutual each sliding surface is disposed as turning round the acclivitous curved surface in line mould direction of rotation along outside.
Further, the outside turns round line mould and is along the circumferential direction evenly arranged at least two spiral ascending mechanisms.
Further, roller is provided on the top-surface camber cam, the top-surface camber cam is convex by roller and lower surface camber
Wheel rolls connection.
Further, the mounting platform includes rotary steering ring, and the rotary steering ring set is set to outside and turns round on line mould.
Further, the outside turns round line mould and is provided with mounting groove, and the mounting groove is connected with external mold drive rod.
Further, the outside is turned round and is provided with the recessing groove symmetrical with mounting groove on line mould, and line mould is turned round in the inside
It is connected with the internal model drive rod across recessing groove.
The beneficial effects of the utility model are: the mechanical equipment of the stator copper bending of the application, the both ends of stator copper
It is inserted into outer threading groove and interior threading groove respectively, outside is turned round line mould and rotated simultaneously in opposite directions with inside torsion line mould, same with this
When, outside, which turns round line mould and inside and turns round line mould and generates under the action of spiral ascending mechanism, to be moved upwards, make on the outside of torsion line mould with it is interior
Side turns round line mould and is completed at the same time the ascending motion in the rotary motion and vertical direction of circumferencial direction, and two movements are mutually compound just real
The rotation ascending motion that line mould is turned round in outside and line mould is turned round in inside is showed, so that certain torsion is born at the both ends of stator copper
Power, stator copper is by torsion, so that it may complete stator copper by certain helix angle and carry out bending state
Processing.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is that line mode structure schematic diagram is turned round in inside;
Fig. 3 is that line mode structure schematic diagram is turned round in outside;
Fig. 4 is spiral ascending mechanism structural schematic diagram;
Fig. 5 is internal model drive rod structural schematic diagram;
Fig. 6 is external mold drive rod structural schematic diagram;
Fig. 7 is stator copper final molding phase product figure;
Fig. 8 is that stator copper turns round shape state product figure;
It is as shown in the figure: line mould is turned round on the outside of 1-;The outer threading groove of 11-;12- external mold drive rod;13- mounting groove;14- recessing groove;
Line mould is turned round on the inside of 2-;Threading groove in 21-;22- internal model drive rod;3- mounting platform;4- rotary steering ring;5- top-surface camber cam;
6- lower surface camber cam;7- roller;8- supporting plate.
Specific embodiment
The present invention will be further described with reference to the accompanying drawings and examples.
As shown in Figure 1-Figure 3, the mechanical equipment of a kind of stator copper bending of the utility model comprising turn round line mould in outside
1, line mould 2 and mounting platform 3 are turned round in inside, and the outside is turned round line mould 1 and is set on mounting platform 3, and the outside is turned round line mould 1 and is arranged
Rise when on inside torsion line mould 2, being provided on the mounting platform 3 and turning round line mould 1 and the inside torsion rotation of line mould 2 for outside
Spiral ascending mechanism, line mould 1 is turned round in the outside and inside is turned round and is rotated in the opposite sense cooperation between line mould 2, and line is turned round in the outside
Mould 1 is provided with outer threading groove 11, and the inside turns round line mould 2 and is provided with interior threading groove 21 corresponding with outer threading groove 11.
Its course of work is as follows, when our company develops vehicle generator stator, final molding state such as Fig. 7 of the stator copper
It is shown, by our company application No. is the mechanical equipment that a kind of stator copper of 2018104334635 patent turns round shape, realize stator
The machine-shaping of shape is turned round on copper wire top as shown in Figure 8, then by the preliminary working stator copper insertion iron core after torsion shape, finally will
The outer threading groove 11 in the application, other end insertion and outer 11 phase of threading groove are inserted into one end of stator copper after torsion shape on iron core
In corresponding interior threading groove 21, then outside is turned round line mould 1 and is rotated simultaneously in opposite directions with inside torsion line mould 2, at the same time, outside
Side torsion line mould 1 is generated under the action of spiral ascending mechanism with inside torsion line mould 2 and is moved upwards, and outside is made to turn round line mould 1 and inside
It turns round line mould 2 and is completed at the same time the ascending motion in the rotary motion and vertical direction of circumferencial direction, two movements are mutually compound just real
The rotation ascending motion that line mould 1 is turned round in outside and line mould 2 is turned round in inside is showed, has turned round line mould 1 on the outside and inside is turned round in the rotation of line mould 2
During elevator is dynamic, interior threading groove 21 and outer threading groove 11 drive stator copper to twist in opposite direction, so that stator copper
Certain torsion is born at the both ends of line, and stator copper both ends are in the case where stress, so that it may complete stator copper by certain spiral shell
It revolves lift angle and carries out bending, it is thereby achieved that the processing of stator copper end-state
The spiral ascending mechanism, which can be respectively set, to be turned round on the outside on line mould 1 and inside torsion line mould 2, but is mounted in interior
Line mould 2 is turned round in side, and not only structure is complicated, installation trouble, and outside turn round line mould 1 and inside torsion 2 hoisting depth of line mould be not easy it is synchronous
Control, preferred embodiment are that spiral ascending mechanism is set to outside and is turned round on line mould 1, and line mould 1 is turned round in outside and line is turned round in inside
Serial verb construction is set between mould 2, makes outside turn round the promotion of line mould 1 to drive inside to turn round line mould 2 by spiral ascending mechanism
Promotion, therefore, the spiral ascending mechanism is set to outside and turns round between line mould 1 and mounting platform 3, and line mould 1 is turned round in the outside
Bottom surface is connected with supporting plate 8, and 8 upper surface of supporting plate turns round 2 bottom surface of line mould with inside and is in contact.Made by spiral ascending mechanism outer
Side turn round line mould 1 promotion, thus be connected to outside turn round 1 bottom surface of line mould supporting plate 8 promoted, at the same time supporting plate 8 drive and its
The Synchronous lifting of line mould 2 is turned round in the inside of contact, is not only simple in structure, and can guarantee that line mould 1 is turned round in outside and line mould 2 is turned round in inside
Synchronization promoted.
Spiral ascending mechanism can be but at high cost for cylinder, oil cylinder etc., and preferred embodiment is, as shown in figure 4,
The spiral ascending mechanism includes top-surface camber cam 5 and lower surface camber cam 6, and the lower surface camber cam 6 is connected to mounting platform 3
On, the top-surface camber cam 5 is connected to outside and turns round on line mould 1, the company of sliding between the top-surface camber cam 5 and lower surface camber cam 6
It connects, and mutual each sliding surface is disposed as turning round the acclivitous curved surface in 1 direction of rotation of line mould along outside.It turns round in the outside
1 direction of rotation of line mould should be consistent with sliding surface upwardly inclined direction, thus guarantee that outside is turned round in 1 rotary course of line mould, it is described
The curved surface of top-surface camber cam 5 can on the curved surface of the lower surface camber cam 6 upward sliding, so that outside be driven to turn round line mould 1
Height and position is promoted.
In order to guarantee the stationarity in spiral ascending mechanism lifting process, line mould 1 is turned round along the circumferential direction uniformly in the outside
It is provided at least two spiral ascending mechanisms.Being evenly arranged at least two spiral ascending mechanisms can effectively guarantee to be promoted
Stationarity in journey, the stabilization of enhancing equipment operation.
In order to reduce the resistance of the sliding of top-surface camber cam 5, roller 7, the top-surface camber are provided on the top-surface camber cam 5
Cam 5 is rolled by roller 7 and lower surface camber cam 6 and is connected.The roller 7 is set in the circular hole in top-surface camber cam 5, between being
Gap cooperation, the roller 7 can either be freely rotated in circular hole, and can freely roll in the curved surface of lower surface camber cam 6, rolling
So that top-surface camber cam 5 and lower surface camber cam 6 are not directly contacted with generation frictional resistance, roller 7 reduces top-surface camber for the setting of son 7
The resistance that cam 5 slides on the lower surface camber cam 6 uses in the structure and increases the structure of roller in top-surface camber cam 5,
Change and be slidably connected to roll connection, the cam curved surface friction bring solved between top-surface camber cam 5 and lower surface camber cam 6 is dynamic
Make the bad problem of consistency.
The mounting platform 3 includes rotary steering ring 4, and the rotary steering ring 4 is sheathed on outside and turns round on line mould 1.Rotation
Guide ring 4 plays the guiding and positioning function when rotation of line mould 1 is turned round in outside, at this point, the lower surface camber cam 6 is connected to rotation and leads
To on ring 4.
In order to which line mould 1 is turned round convenient for rotation in outside, as shown in fig. 6, line mould 1 is turned round in the outside is provided with mounting groove 13, it is described
Mounting groove 13 is connected with external mold drive rod 12.External mold drive rod 12 is connected with cylinder, applies pressure to external mold by the promotion of cylinder and passes
Lever 12 pushes to drive the rotation of outside torsion line mould 1, while external mold drive rod 12 increases the arm of force so as to reduce
Power, being capable of effectively laborsaving reduction energy consumption.
In order to which line mould 1 is turned round convenient for rotation in inside, it is provided with and 13 phase of mounting groove on line mould 1 as shown in figure 5, the outside is turned round
Symmetrical recessing groove 14, the inside turn round line mould 2 and are connected with the internal model drive rod 22 across recessing groove 14.Internal model drive rod 22 connects
It is connected to cylinder, internal model drive rod 22 is applied pressure to by the promotion of cylinder, to drive the rotation of inside torsion line mould 2, while internal model
Drive rod 22 increases the arm of force, being capable of effectively laborsaving reduction energy consumption so as to reduce motive force.In addition, recessing groove 14
Setting enables internal model drive rod 22 to be located therein, so that internal model drive rod 22 is not exposed, ensure that the smooth of equipment bottom surface
Property, increase the aesthetics of structure.
Claims (8)
1. a kind of mechanical equipment of stator copper bending, it is characterised in that: including outside turn round line mould (1), inside turn round line mould (2) and
Mounting platform (3), the outside are turned round line mould (1) and are set on mounting platform (3), and the outside turns round line mould (1) and is sheathed on inside
It turns round on line mould (2), is provided with when turning round line mould (1) and inside torsion line mould (2) rotation for outside and rises on the mounting platform (3)
Spiral ascending mechanism, line mould (1) is turned round in the outside and inside is turned round and is rotated in the opposite sense cooperation between line mould (2), it is described outside
Side is turned round line mould (1) and is provided with outer threading groove (11), and the inside is turned round line mould (2) and is provided in corresponding with outer threading groove (11)
Threading groove (21).
2. the mechanical equipment of stator copper bending as described in claim 1, it is characterised in that: the spiral ascending mechanism setting
It is turned round between line mould (1) and mounting platform (3) in outside, the outside turns round line mould (1) bottom surface and is connected with supporting plate (8), the supporting plate
(8) upper surface turns round line mould (2) bottom surface with inside and is in contact.
3. the mechanical equipment of stator copper bending as claimed in claim 1 or 2, it is characterised in that: the spiral ascending mechanism
Including top-surface camber cam (5) and lower surface camber cam (6), the lower surface camber cam (6) is connected on mounting platform (3), it is described on
Curved cam (5) is connected to outside and turns round on line mould (1), the company of sliding between the top-surface camber cam (5) and lower surface camber cam (6)
It connects, and mutual each sliding surface is disposed as turning round the acclivitous curved surface in line mould (1) direction of rotation along outside.
4. the mechanical equipment of stator copper bending as claimed in claim 3, it is characterised in that: turn round line mould (1) edge in the outside
Circumferencial direction is evenly arranged at least two spiral ascending mechanisms.
5. the mechanical equipment of stator copper bending as claimed in claim 4, it is characterised in that: on the top-surface camber cam (5)
It is provided with roller (7), the top-surface camber cam (5) is rolled by roller (7) and lower surface camber cam (6) and connected.
6. the mechanical equipment of stator copper bending as described in claim 1, it is characterised in that: the mounting platform (3) includes
Rotary steering ring (4), the rotary steering ring (4) are sheathed on outside and turn round on line mould (1).
7. the mechanical equipment of stator copper bending as described in claim 1, it is characterised in that: turn round line mould (1) and set in the outside
It is equipped with mounting groove (13), the mounting groove (13) is connected with external mold drive rod (12).
8. the mechanical equipment of stator copper bending as claimed in claim 7, it is characterised in that: turn round on line mould (1) in the outside
It is provided with and turns round line mould (2) with mounting groove (13) symmetrical recessing groove (14), the inside and be connected with across recessing groove (14)
Internal model drive rod (22).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821017119.XU CN208508747U (en) | 2018-06-27 | 2018-06-27 | A kind of mechanical equipment of stator copper bending |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821017119.XU CN208508747U (en) | 2018-06-27 | 2018-06-27 | A kind of mechanical equipment of stator copper bending |
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Publication Number | Publication Date |
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CN208508747U true CN208508747U (en) | 2019-02-15 |
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ID=65281723
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Application Number | Title | Priority Date | Filing Date |
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CN201821017119.XU Active CN208508747U (en) | 2018-06-27 | 2018-06-27 | A kind of mechanical equipment of stator copper bending |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108599487A (en) * | 2018-06-27 | 2018-09-28 | 成都华川电装有限责任公司 | A kind of mechanical equipment of stator copper bending |
CN114260389A (en) * | 2021-12-23 | 2022-04-01 | 成都华川电装有限责任公司 | Twisting forming device and method for stator end wire head |
-
2018
- 2018-06-27 CN CN201821017119.XU patent/CN208508747U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108599487A (en) * | 2018-06-27 | 2018-09-28 | 成都华川电装有限责任公司 | A kind of mechanical equipment of stator copper bending |
CN114260389A (en) * | 2021-12-23 | 2022-04-01 | 成都华川电装有限责任公司 | Twisting forming device and method for stator end wire head |
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