CN104300749B - Electric machine wire embedded device and electrical motor wire embedding method - Google Patents

Electric machine wire embedded device and electrical motor wire embedding method Download PDF

Info

Publication number
CN104300749B
CN104300749B CN201410598889.8A CN201410598889A CN104300749B CN 104300749 B CN104300749 B CN 104300749B CN 201410598889 A CN201410598889 A CN 201410598889A CN 104300749 B CN104300749 B CN 104300749B
Authority
CN
China
Prior art keywords
winding displacement
stator
gap
solenoid
guide plate
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.)
Active
Application number
CN201410598889.8A
Other languages
Chinese (zh)
Other versions
CN104300749A (en
Inventor
段宗玉
袁春龙
张素洁
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.)
CSR Zhuzhou Electric Co Ltd
Original Assignee
CSR Zhuzhou Electric Co Ltd
Filing date
Publication date
Application filed by CSR Zhuzhou Electric Co Ltd filed Critical CSR Zhuzhou Electric Co Ltd
Priority to CN201410598889.8A priority Critical patent/CN104300749B/en
Publication of CN104300749A publication Critical patent/CN104300749A/en
Application granted granted Critical
Publication of CN104300749B publication Critical patent/CN104300749B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The invention provides a kind of electric machine wire embedded device, including guide plate, guide plate includes being provided with in the first winding displacement part and the second winding displacement part, the first winding displacement part and the second winding displacement part winding displacement post, leaves winding displacement gap between two adjacent winding displacement posts.Being provided with multiple winding displacement post, corresponding multiple winding displacement gaps on guide plate, winding displacement gap is corresponding with stator slot, is moved by the coil in the mobile drive winding displacement gap of winding displacement post, and coil is towed in stator slot by the movement of winding displacement post.The winding displacement end face of guide plate is provided with support column;Support column includes laying respectively at the first winding displacement radical and the guide support column of the second winding displacement radical, and is positioned at the stretch support post in the middle part of guide plate winding displacement end face.Guide support column is in order to give the solenoid in different winding displacement gap to guide, and stretch support post, on the one hand in order to support solenoid, on the other hand facilitates guide plate to move in stator inner circle.Present invention also offers a kind of electrical motor wire embedding method.

Description

Electric machine wire embedded device and electrical motor wire embedding method
Technical field
The present invention relates to motor wire-inserting technical field, more particularly, it relates to a kind of electric machine wire embedded device and motor wire-inserting Method.
Background technology
Along with the development of science and technology, our life and production apply substantial amounts of machine and electrical equipment, and most of The normal operation of machine and electrical equipment all be unable to do without motor, and motor plays highly important role in modern society.
A part critically important in motor is exactly motor coil, and at present, motor coil is main to be divided into scattered embedding winding and become The big structure of type winding two.Molding winding is made up of the formed coil of insulate lenticular wire or sliver manufacture, and the stator slot of its correspondence is for leaving Mouth groove or semi-open slot, therefore, the wire insertion technology that molding winding is corresponding is the most ripe;Dissipate embedding winding by round wire coiling of insulating, Being usually used in stator slot motor, i.e. corresponding with dissipating embedding winding motor stator uses semi-enclosed slot, and wire insertion technology is the most difficult, especially It is slender type motor, when rule is taken a lot of work very much.
For dissipating embedding winding, prior art still uses traditional manual method, is once embedded one by manual method Bar groove, and each motor stator includes substantial amounts of stator slot, the method for the most embedding manual groove considerably increases electricity The production cycle of machine, reduce the efficiency that motor produces, and add human cost.
Therefore, how to improve the work efficiency of motor wire-inserting, be current those skilled in the art's problem demanding prompt solution.
Summary of the invention
In view of this, the invention provides a kind of electric machine wire embedded device, to improve the work efficiency of motor wire-inserting;The present invention Additionally provide a kind of electrical motor wire embedding method.
In order to achieve the above object, the present invention provides following technical scheme:
A kind of electric machine wire embedded device, including the guide plate of the axial slip along stator inner circle, described guide plate includes respectively It is arranged symmetrically with the first winding displacement part and the second winding displacement part that the inwall with stator inner circle offsets, described first winding displacement part and described second Multiple axial arranged along described stator inner circle all it is sequentially with in winding displacement part, and the winding displacement post offseted with the stator tooth of stator, Leave between two adjacent described winding displacement posts between the winding displacement accommodating solenoid that the stator slot winding displacement with described stator coordinates Gap.
Preferably, in above-mentioned electric machine wire embedded device, the spacing in two adjacent described winding displacement gaps and described stator phase The adjacent spacing between two stator slots is consistent.
Preferably, in above-mentioned electric machine wire embedded device, described guide plate is semicylinder structure, the end of described winding displacement post It is arranged on the circular arc side of described guide plate.
Preferably, in above-mentioned electric machine wire embedded device, described first winding displacement part and described second winding displacement part are symmetricly set on Both sides on described guide plate circular arc side length direction, described first winding displacement part and described second winding displacement part are respectively provided with 5 rows Terminal.
Preferably, in above-mentioned electric machine wire embedded device, the winding displacement end face of described guide plate is extended with described in multiple support The support column of solenoid.
Preferably, in above-mentioned electric machine wire embedded device, described support column include laying respectively at described first winding displacement radical and The guide support column of described second winding displacement radical, and it is positioned at the stretch support post in the middle part of described guide plate winding displacement end face.
Preferably, in above-mentioned electric machine wire embedded device, described guide support column be evenly distributed on described first winding displacement part and Described second winding displacement radical limit, the number of described guide support column is the number in described winding displacement gap, each described guiding winding displacement A post corresponding described winding displacement gap respectively is positioned at side, described winding displacement gap.
Preferably, in above-mentioned electric machine wire embedded device, also include the stator slot groove that described electromagnetic wire is put under described stator In line parts, described line parts include the arc-shaped ruler offseted with the inwall of described stator and multiple are fixedly arranged on institute State on ruler and stretch into the scribe head in described stator slot.
Preferably, in above-mentioned electric machine wire embedded device, described winding displacement post and described scribe head are prepared by nylon material Winding displacement post and scribe head.
A kind of electrical motor wire embedding method, including step:
1) same solenoid is set in winding displacement gap, top and the bottom winding displacement of the second winding displacement part of the first winding displacement part On gap, and with this as the starting point, multiple solenoids order is set in described first winding displacement part by the circular arc circumference along guide plate Winding displacement gap and described second winding displacement part winding displacement gap in, it is thus achieved that the electric machine wire embedded device after sheathed solenoid;
2) guide plate of the electric machine wire embedded device after sheathed solenoid is slipped in stator inner circle, and adjust described first The winding displacement gap of winding displacement part is corresponding with the stator slot position of described stator with the winding displacement gap of described second winding displacement part, slides described Electric machine wire embedded device, until each described solenoid falls in the stator slot of its correspondence position, it is thus achieved that be fitted into the motor of position Winding inserter;
3) continue the described electric machine wire embedded device that slides axially along described stator inner circle, and the scribe head of line parts is stretched Enter in described stator slot, electric machine wire embedded device described in synchronous slide and described line parts, skid off at described electric machine wire embedded device After described stator inner circle, described line parts are by sliding for solenoid inlet bit, it is thus achieved that the stator that rule completes.
The electric machine wire embedded device that the present invention provides, including guide plate, guide plate is provided with the first winding displacement part being arranged symmetrically with Being respectively connected with multiple winding displacement post with the second winding displacement part, the first winding displacement part and the second winding displacement part, two adjacent winding displacement intercolumniations leave Accommodating the winding displacement gap of solenoid, this winding displacement gap coordinates with the stator slot of stator, is enclosed within by solenoid on winding displacement post, tool Body, same solenoid is respectively fitted on the winding displacement post of the first winding displacement part and the winding displacement post of the second winding displacement part, due to winding displacement Gap clearance is the least, and therefore solenoid is arranged along winding displacement column length direction in winding displacement gap, a solenoid part Being arranged in winding displacement gap, a part is positioned at winding displacement gap outer cover on winding displacement post, needs in stator slot during winding displacement, by position Solenoid below winding displacement gap puts stator slot lead end notch, the then stator of the every corresponding stator of winding displacement post into Tooth, winding displacement gap correspondence stator slot, mobile guide plate in stator inner circle, drive the winding displacement post on guide plate in stator simultaneously , the direction being i.e. parallel to stator slot is moved in circle vertically, along with moving forward in stator inner circle, and the electricity on top, winding displacement gap Magnetic coil progresses in winding displacement gap, and the solenoid in winding displacement gap gradually slides in stator slot or be arranged in correspondence By stator slot, moving to last, iris wipe in stator slot by the electromagnetic wire not entering into stator slot, whole process, guide plate is given Winding displacement post, to guide, makes winding displacement post correctly move in stator inner circle, and winding displacement gap is to solenoid to guide, and solenoid leads to Cross winding displacement gap to enter in stator slot, guide plate is provided with multiple winding displacement post, the most just has multiple winding displacement gap, therefore once During winding displacement, a plurality of stator slot can be carried out winding displacement, from the point of view of prior art once arranges a line by manpower, I.e. save manpower and significantly improve again efficiency, shorten the time of rule in stator slot.
Accompanying drawing explanation
In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing In having technology to describe, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to Other accompanying drawing is obtained according to these accompanying drawings.
The main TV structure schematic diagram of the electric machine wire embedded device that Fig. 1 provides for the present invention;
Fig. 2 is the left view structural representation figure of Fig. 1;
The electric machine wire embedded device that Fig. 3 provides for the present invention is rule the main TV structure schematic diagram of parts;
In upper figure:
1 be guide plate, 2 be support column, 3 be winding displacement post, 4 be protective layer, 5 be screw hole, 6 for scribe head, the first winding displacement Portion's the 11, second winding displacement part 12, ruler 7, handle 8.
Detailed description of the invention
The invention provides a kind of electric machine wire embedded device and method, to improve the work efficiency of motor wire-inserting.
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Whole description, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on Embodiments of the invention, the every other reality that those of ordinary skill in the art are obtained under not making creative work premise Execute example, broadly fall into the scope of protection of the invention.
As it is shown in figure 1, the main TV structure schematic diagram of electric machine wire embedded device that Fig. 1 provides for the present invention;Fig. 2 is a left side of Fig. 1 TV structure schematic diagram figure;The electric machine wire embedded device that Fig. 3 provides for the present invention is rule the main TV structure schematic diagram of parts.
The invention provides a kind of electric machine wire embedded device, including the guide plate 1 of the axial slip along stator inner circle, guide plate 1 includes being respectively symmetrically the first winding displacement part 11 and the second winding displacement part 12, the first winding displacement arranged and offset with the inwall of stator inner circle All it is sequentially with multiple axial arranged along stator inner circle in portion 11 and the second winding displacement part 12, and offsets with the stator tooth of stator Winding displacement post 3, leaves between two adjacent winding displacement posts 3 between the winding displacement accommodating solenoid that the stator slot winding displacement with stator coordinates Gap 31.Solenoid is corresponding respectively to be enclosed within the winding displacement post 3 of the first winding displacement part 11 and the second winding displacement part 12, due to winding displacement gap 31 Spacing is the least, and therefore solenoid is arranged along winding displacement post 3 length direction in winding displacement gap 31, a part of cloth of solenoid Putting in winding displacement gap, a part is being suspended between the first winding displacement part 11 and the second winding displacement part 12, needs in stator slot During winding displacement into, the solenoid being suspended between the first winding displacement part 11 and the second winding displacement part 12 lower section is put stator slot lead-in wire end slot Mouthful, and strained by stator teeth, then mobile guide plate 1 in stator inner circle, drive the winding displacement post 3 on guide plate 1 to exist simultaneously In stator inner circle vertically, the direction being i.e. parallel to stator slot is moved, and each winding displacement post 3 all keeps pasting with corresponding stator tooth Close, and along with moving forward in stator inner circle, the solenoid Tensile on top, winding displacement gap 31 progresses between winding displacement In gap 31, the solenoid on winding displacement post 3 is skidded off by the aperture position in winding displacement gap 31 simultaneously, and solenoid gradually slides into fixed In pilot trench, moving to last, solenoid sequences along stator slot direction in stator inner circle, then will be introduced into the electricity in stator slot Magnetic coil puts under in stator slot, whole process, guide plate 1 discharge terminal 3 with guide, make winding displacement post 3 in stator inner circle just Really mobile, winding displacement gap 31 give solenoid to guide, and that is corresponding multiple winding displacement gaps of multiple winding displacement post 3, i.e. one time winding displacement Relative to prior art, the efficiency of scattered embedding winding electric machine rule can be substantially increased, for concentric type with embedding a lot of stator slot Winding and chain type winding are the most applicable, and reduce manpower, decrease human cost.
In the present invention one specific embodiment, two stators that the spacing in two adjacent winding displacement gaps 31 is adjacent with stator Spacing between groove is consistent.In motor stator during winding displacement, a stator tooth of a corresponding stator of winding displacement post 3, i.e. one row The corresponding stator slot in line gap, the adjacent spacing between two winding displacement gaps 31 is set to two adjacent stator slot in stator Spacing, when winding displacement, it is ensured that the adjacent stator slot that adjacent winding displacement gap is corresponding, so as not to occur two adjacent rows After solenoid is embedded into the stator slot of correspondence by line gap, one stator slot of sandwich is not embedded in the feelings of solenoid Condition.
In the present invention one specific embodiment, guide plate 1 is semicylinder structure, and the end of winding displacement post 3 is arranged on guiding On the circular arc side of plate 1.Guide plate 1 is semicylinder, is more suitable for the shape of stator inner circle, semicylinder structure guide plate The 1 circular arc side including end face and bending, the end of winding displacement post 3 is arranged on circular arc side, can pass through screw and circular arc Winding displacement post 3 is fixed by the screw hole 5 on side with guide plate 1, and i.e. winding displacement post 3 is along guide plate 1 side arrangement of semicylinder, cloth The diameter putting the guide plate 1 after winding displacement post 3 is consistent with circular diameter in stator, and i.e. the guide plate 1 of semicylinder structure can the row of drive Terminal 3 extend in stator inner circle, and ensures the inwall laminating of winding displacement post 3 and stator inner circle, the winding displacement post 3 arranged along circular arc with Stator inner circle is fitted, and makes the stator slot of winding displacement gap and stator combine closely, it is ensured that the solenoid in winding displacement gap can be suitable Profit enters in stator slot.
In the present invention one specific embodiment, the first winding displacement part 11 and the second winding displacement part 12 are symmetricly set on guide plate 1 circle Both sides on arc side length direction, the first winding displacement part 11 and the second winding displacement part 12 are respectively provided with 5 winding displacement posts 3.First winding displacement part 11 and second winding displacement part 12 be separately positioned on the two ends in circular arc side length direction of guide plate 1, the first winding displacement part 11 and second Being respectively provided with 5 winding displacement posts 3 in winding displacement part 12, the winding displacement post 3 of both sides is symmetrical with the axis of symmetry of guide plate 1 end face, and winding displacement post 3 is such Arranging, can connect up than more uniform in stator inner circle, there are 5 winding displacement posts every side, i.e. 4 winding displacement gaps, and both sides one coexist In 8 winding displacement gaps, at most can embed 8 stator slots the most in the stator, arrange 6 can also, and the coming of symmetry Winding displacement in the inner circle of stator, facilitates follow-up stator slot winding displacement to non-winding displacement again.
In the present invention one specific embodiment, the winding displacement end face of guide plate 1 is extended with propping up of multiple support solenoid Dagger 2.Support column 2 is installed on the end face of guide plate 1, and support column 2 and winding displacement post 3 homonymy, for support set at winding displacement post 3 Solenoid, a part for solenoid enters winding displacement gap and is nested with on winding displacement post 3, and winding displacement gap 31 number compares Many, i.e. correspond to multiple solenoid, for preventing multiple solenoid to be wound in knot, above-mentioned end face arranges multiple support column 2, support solenoid by 1-2 support column 2, the dislocation of multiple support columns 2 arranges, and is on the one hand possible to prevent solenoid to twine Around, on the other hand can also provide a supporting role to solenoid, make solenoid more be fixed in winding displacement gap and be difficult to take off Fall.
In the present invention one specific embodiment, support column 2 includes laying respectively at the first winding displacement part 11 side and the second winding displacement part 12 other guide support column (including guide support column 13 and guide support column 14), and be positioned in the middle part of guide plate 1 winding displacement end face Stretch support post.Guide support column (13,14) is arranged on winding displacement post 3 side, in order to give the electromagnetic wire in different winding displacement gap Enclose to guide, it is to avoid different solenoids is wound around, and stretch support post is arranged in the middle part of guide plate 1 winding displacement end face, a side Face, in order to support solenoid, on the other hand facilitates guide plate 1 to move in stator inner circle.
In the present invention one specific embodiment, guide support column (13,14) is evenly distributed on the first winding displacement part 11 and second Winding displacement part 12 side, the number of guide support column is the number in winding displacement gap, each guiding winding displacement post (13,14) the most corresponding Individual winding displacement gap is also positioned at side, winding displacement gap 31.The number of guide support column (13,14) is consistent with the number in winding displacement gap, and And a corresponding winding displacement gap 31 of guide support column, guide support column (13,14) is by two electromagnetism in adjacent winding displacement gap Coil separates, and gives the solenoid in corresponding winding displacement gap 31 to guide, and conveniently distinguishes the electromagnetism in different winding displacement gap Coil, and prevent the solenoid in different winding displacement gap to be wound around mutually, make the solenoid in winding displacement gap more neat In order.
In the present invention one specific embodiment, also include the line parts being put under by solenoid in the stator slot of stator, Line parts include arc-shaped ruler 7 that the inwall with stator offsets and multiple are fixedly arranged on ruler 7 and stretch into stator slot Interior scribe head 6.Scribe head 6 is for putting under in stator slot by solenoid, and line parts arrange multiple scribe head 6, and many Individual scribe head 6 is arranged on the arc-shaped ruler 7 offseted with stator inner wall, and the most multiple scribe heads 6 can be fitted in fixed simultaneously On the stator slot of sub-inner circle, once a plurality of solenoid can be put the stator slot of correspondence under, when winding displacement post 3 is in stator inner circle After drained line, the solenoid being introduced into stator half closed slot can be put under in the stator half closed slot of correspondence by line parts, convenient Operation.It addition, spacing between adjacent two scribe heads 6 can and two adjacent stator slots between spacing consistent.So The scribe head 6 arranged, can put under solenoid corresponding for adjacent stator slot, more in good order, improves and puts under Efficiency.It is additionally provided with its handle 8 slided in stator of promotion on arc-shaped ruler 7, improves the convenience of operation.
In the present invention one specific embodiment, winding displacement post 3 and scribe head 6 are winding displacement post and line prepared by nylon material Head.Winding displacement post 3 all directly contacts with solenoid with scribe head 6, and can rub, with solenoid on solenoid all Being enclosed with insulating barrier, be therefore the destruction preventing insulating barrier, winding displacement post 3 and scribe head 6 all use nylon material to make, and excellent Can also preventing from scratching solenoid at the protective layer 4 of winding displacement post 3 with the contact surface parcel nylon material of solenoid of choosing Insulating barrier, plays the effect of protection insulating barrier.It addition, support column 2 can be meet prepared by the lightweight aluminium of requirement of strength Prop up.In practical operation, if the weight of support column 2 is very big, the winding displacement post 3 pressure to stator inner circle can be strengthened, scratch stator Inner circle, and weight excessive be difficult to operation, waste drive its running energy, therefore, for avoiding above-mentioned situation, meeting intensity On the premise of requirement, on the premise of i.e. realizing support column 2 function, reduce the weight of support column 2, use lightweight aluminium to prepare, side Just operate, also stator will not be produced infringement.
Present invention also offers a kind of electrical motor wire embedding method, including step:
1) same solenoid is set in winding displacement gap, top and the bottom winding displacement of the second winding displacement part of the first winding displacement part The circumferential row that multiple solenoids order is set in the first winding displacement part of circular arc on gap, and with this as the starting point, along guide plate 1 In the winding displacement gap of line gap and the second winding displacement part, it is thus achieved that the electric machine wire embedded device after sheathed solenoid.
Solenoid is enclosed within a manner described on winding displacement post, the winding displacement gap of the first winding displacement part the top and the second winding displacement The corresponding same solenoid in the winding displacement gap of portion's bottom, is enclosed within this solenoid on the winding displacement post of the first winding displacement part the top With on the winding displacement post of the second winding displacement part bottom, and so on, to winding displacement post and second winding displacement part of the first winding displacement part bottom Same solenoid on the winding displacement column sleeve of the top, all of winding displacement post 3 has all put solenoid, and solenoid is fixed on phase In winding displacement gap between adjacent two winding displacement posts, it is positioned at the corresponding solenoid in two winding displacement gaps of different winding displacement part, it is thus achieved that It is arranged with the electric machine wire embedded device after solenoid.
2) guide plate of the electric machine wire embedded device after sheathed solenoid is slipped in stator inner circle, and adjust the first winding displacement The winding displacement gap in portion is corresponding with the stator slot position of stator with the winding displacement gap of the second winding displacement part, sliding motor winding inserter, directly Fall into each solenoid in the stator slot of its correspondence position, it is thus achieved that be fitted into the electric machine wire embedded device of position.
The guide plate of the electric machine wire embedded device after being arranged with solenoid puts under in stator inner circle, and this guide plate is along stator Sliding axially of inner circle, the stator tooth of the most each winding displacement post one stator inner circle of laminating, each winding displacement gap is the most corresponding One stator slot, winding displacement gap laminating stator slot sliding, winding displacement gap to the solenoid of winding displacement inner space with guide, winding displacement Solenoid in gap progresses in the stator slot corresponding with winding displacement gap along with the movement in winding displacement gap, along with winding displacement Gap is moved, in the stator slot of the position each falling within correspondence to each solenoid, it is thus achieved that be fitted into the electric machine wire embedded device of position.
3) continue the electric machine wire embedded device that slides axially along stator inner circle, and the scribe head 6 of line parts is stretched into stator In groove, synchronous slide electric machine wire embedded device and line parts, after electric machine wire embedded device skids off stator inner circle, line parts are by electricity The sliding inlet bit of magnetic coil, it is thus achieved that the stator that rule completes.
After electric machine wire embedded device is fitted into position, continue to slide axially along stator inner circle, drive winding displacement gap from stator inner circle Porch, one end move to the other end, the solenoid in winding displacement gap slips into the stator of correspondence by the guiding in winding displacement gap Groove, and synchronizing moving line parts, the corresponding stator slot of scribe head 6 of line parts, the electromagnetic wire in stator slot will be introduced into Irising wipe into corresponding stator slot, move to last, electric machine wire embedded device skids off stator inner circle, and it is fixed to be introduced into by scribe head 6 The solenoid of pilot trench tram puts the tram in stator slot under, completes the rule of whole piece stator slot, and scribe head 6 also may be used To be discharged into stator slot but being fitted in stator slot of the more consolidation drawn of electromagnetic wire loosely, it is thus achieved that what rule completed determines Son.
In this specification, each embodiment uses the mode gone forward one by one to describe, and what each embodiment stressed is and other The difference of embodiment, between each embodiment, identical similar portion sees mutually.
Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses the present invention. Multiple amendment to these embodiments will be apparent from for those skilled in the art, as defined herein General Principle can realize without departing from the spirit or scope of the present invention in other embodiments.Therefore, the present invention It is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein and features of novelty phase one The widest scope caused.

Claims (6)

1. an electric machine wire embedded device, it is characterised in that include the guide plate (1) of axial slip along stator inner circle, described in lead Include being respectively symmetrically the first winding displacement part (11) and the second winding displacement part arranged and offset with the inwall of stator inner circle to plate (1) (12), described first winding displacement part (11) and described second winding displacement part (12) are all sequentially with multiple axle along described stator inner circle To layout, and with the winding displacement post (3) that the stator tooth of stator offsets, leave with described between two adjacent described winding displacement posts (3) The winding displacement gap (31) accommodating solenoid that the stator slot winding displacement of stator coordinates;
Described guide plate (1) is semicylinder structure, and the end of described winding displacement post (3) is arranged on the circular arc of described guide plate (1) On side;
Described first winding displacement part (11) and described second winding displacement part (12) are symmetricly set on described guide plate (1) circular arc side length Both sides on direction, described first winding displacement part (11) and described second winding displacement part (12) are respectively provided with 5 winding displacement posts (3);
The support column (2) of the described solenoid of multiple support it is extended with on the winding displacement end face of described guide plate (1);
Described support column (2) includes laying respectively at the guiding that described first winding displacement part (11) is other and described second winding displacement part (12) is other Support column, and it is positioned at the stretch support post in the middle part of described guide plate (1) winding displacement end face.
Electric machine wire embedded device the most according to claim 1, it is characterised in that two adjacent described winding displacement gaps (31) Spacing between two stator slots that spacing is adjacent with described stator is consistent.
Electric machine wire embedded device the most according to claim 1, it is characterised in that described guide support column is evenly distributed on described First winding displacement part and described second winding displacement radical limit, the number of described guide support column is the number in described winding displacement gap, each A described guiding winding displacement post corresponding described winding displacement gap respectively is also positioned at side, described winding displacement gap.
Electric machine wire embedded device the most according to claim 1, it is characterised in that also include putting described solenoid under described Line parts in the stator slot of stator, described line parts include the arc-shaped ruler offseted with the inwall of described stator And multiple be fixedly arranged on the scribe head (6) that described ruler (7) is upper and stretches in described stator slot (7).
Electric machine wire embedded device the most according to claim 4, it is characterised in that described winding displacement post (3) and described scribe head (6) It is winding displacement post and scribe head prepared by nylon material.
6. an electrical motor wire embedding method, it is characterised in that include step:
1) same solenoid is set in the winding displacement gap, top of the first winding displacement part and the winding displacement gap, bottom of the second winding displacement part On, and with this as the starting point, multiple solenoids order is set in described first winding displacement part by the circular arc circumference along guide plate (1) In the winding displacement gap of winding displacement gap and described second winding displacement part, it is thus achieved that the electric machine wire embedded device after sheathed solenoid;
2) guide plate of the electric machine wire embedded device after sheathed solenoid is slipped in stator inner circle, and adjust described first winding displacement The winding displacement gap in portion is corresponding with the stator slot position of described stator with the winding displacement gap of described second winding displacement part, and slide described motor Winding inserter, until each described solenoid falls in the stator slot of its correspondence position, it is thus achieved that be fitted into the motor wire-inserting of position Device;
3) continue the described electric machine wire embedded device that slides axially along described stator inner circle, and the scribe head (6) of line parts is stretched Enter in described stator slot, electric machine wire embedded device described in synchronous slide and described line parts, skid off at described electric machine wire embedded device After described stator inner circle, described line parts are by sliding for solenoid inlet bit, it is thus achieved that the stator that rule completes.
CN201410598889.8A 2014-10-30 Electric machine wire embedded device and electrical motor wire embedding method Active CN104300749B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410598889.8A CN104300749B (en) 2014-10-30 Electric machine wire embedded device and electrical motor wire embedding method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410598889.8A CN104300749B (en) 2014-10-30 Electric machine wire embedded device and electrical motor wire embedding method

Publications (2)

Publication Number Publication Date
CN104300749A CN104300749A (en) 2015-01-21
CN104300749B true CN104300749B (en) 2017-01-04

Family

ID=

Similar Documents

Publication Publication Date Title
RU2019108196A (en) REEL WINDING FOR STATORS OR ROTORS
CN104300749B (en) Electric machine wire embedded device and electrical motor wire embedding method
MX2008013992A (en) Stator winding method and apparatus.
CN102789885A (en) Remaining wire clamping mechanism of multi-head winding machine
CN206041666U (en) Motor stator convenient to wire winding
CN204089531U (en) Electric machine wire embedded device
GB201117770D0 (en) Stator for an electrical machine
KR101475469B1 (en) A motor coil winding method consisting of a concentrated winding
CN103730972A (en) Interphase insulting sheet capable of being automatically embedded
CN104300749A (en) Motor cable inserting device and motor cable inserting method
SK50092012U1 (en) Continuous coiled wire and method for its manufacture
CN105355419A (en) Winding mold
CN204205738U (en) Split type stator structure
CN205132779U (en) Copper line overspeed device tensioner
CN205076538U (en) Synchronous stable device of being qualified for next round of competitions of strand
WO2014045246A3 (en) Active assembly of a wind turbine rotating electric machine
CN203617812U (en) Automatically embedded interphase insulating sheet
CN203910547U (en) Novel fingerstall for winding of winding machine
CN205248107U (en) Coiling mold
CN204906127U (en) Random winding tip shaping device
CN105173885B (en) A kind of small-sized winder
WO2013189750A3 (en) Reduction of the electrical resistance for an electric machine having windings arranged in grooves
CN104319915A (en) Split type stator structure
CN203352335U (en) Binding structure of alternating current motor stator coil end portions
CN205590081U (en) Electrician's wire barrow is used to building decoration

Legal Events

Date Code Title Description
PB01 Publication
SE01 Entry into force of request for substantive examination
GR01 Patent grant