Utility model content
Based on this, be necessary to provide a kind of coil winding machine mould and the mold closing mechanism thereof that can produce the rotor with high copper factor feature.
A kind of coil winding machine mold closing mechanism, for enamelled wire is wound in rotor core, described rotor core comprises wire casing district and is positioned at the bent area at two ends, described wire casing district, comprising:
Body, comprise substrate and two pieces of mainboards, described two pieces of mainboard intervals are located at one of described substrate on the surface, and the spacing distance between described two pieces of mainboards diminishes gradually from described substrate place, described substrate is provided with installing hole, penetrate for the main shaft for coil winding machine between described two pieces of mainboards from described installing hole, described two pieces of mainboards form coating surface jointly away from the side of the side of described substrate, and described coating surface is used for protecting rotor core; And
Shaping Module, comprise four end dressing sticks, each mainboard is provided with two end dressing sticks, be positioned at two end dressing sticks on different mainboard for corresponding with a bent area, and described four end dressing sticks can towards or away from rotor core under the drive of main shaft, to be compressed by the enamelled wire being positioned at bent area, thus enamelled wire is made to press close to the bottom land of wire casing.
Wherein in an embodiment, described Shaping Module also comprises shaping seat, two mounting rods and two pieces of mounting panels;
Described shaping seat is positioned between described two pieces of mainboards, for being connected with main shaft;
Each mounting rod comprises crossbeam and Liang Ge branch, described Liang Ge branch is located at the two ends of described crossbeam respectively, and be positioned at the same side of described crossbeam, and the spacing distance between described Liang Ge branch becomes large gradually from described crossbeam place, each mainboard is from formation two the first slideways that cave near one end of described substrate, two crossbeams are located on the relative two side of described shaping seat respectively, and each branch is arranged on each first slideway, and extend to outside described mainboard, wherein, the openend of each mounting rod is towards described coating surface;
Each mounting panel is arranged in the Liang Ge branch that is positioned on same mainboard, and two the end dressing sticks be located on each mainboard are located on each mounting panel.
Wherein in an embodiment, described Shaping Module also comprises four groups of strutting pieces, and each strutting piece comprises fixed head and the first elastic component, and described fixed head is located on described mainboard, described first elastic component one end is connected with described fixed head, and the other end is connected near the side of mainboard with described branch;
And/or, described Shaping Module also comprises two middle part dressing sticks, described two middle part dressing sticks are located at the middle part of described two crossbeams respectively, and described middle part dressing stick can from extended or retracted between two pieces of mainboards under the drive of main shaft, with towards or away from rotor core, to be compressed by the enamelled wire being positioned at bent area, thus enamelled wire is made to press close to the bottom land of wire casing;
And/or described body also comprises stiffener, described stiffener is located between described two pieces of mainboards, and described stiffener is near described coating surface, and between described two crossbeams;
And/or described body also comprises the first locating piece, described first locating piece is located on described coating surface, and described first locating piece matches away from the surface of described coating surface and the outer wall of rotor core.
Wherein in an embodiment, also comprise two groups of wire assemblies, each wire assembly comprises the first spout and wire guide plate;
Described first spout comprises trough floor, is located at two blocks of groove side plates of the relative both sides of described trough floor and is located at the connecting plate at described trough floor one end place, the two ends of described connecting plate are respectively towards described two blocks of groove side plates, and the two ends of described connecting plate exist gap respectively and between described two groove side plates;
Described wire guide plate is located on described connecting plate, and described wire guide plate extends to outside described first spout from described connecting plate place;
Described mounting panel is placed in described first spout, and described two pieces of end dressing sticks embed described mounting panel from described mounting panel away from the surface of described trough floor, described two pieces of end dressing sticks pass from there is gap between the two ends of described connecting plate and described two blocks of groove side plates respectively, and are positioned at the both sides of described wire guide plate;
Each trough floor is from formation two the second slideways that cave in away from one end place of described connecting plate, and each branch is arranged in each second slideway;
Each wire guide plate is fixed on each mainboard.
Wherein in an embodiment, also comprise lid hook cap assembly, described lid hook cap assembly comprises lid hook cap, one end place of described two pieces of mainboards is located at by described lid hook cap, and described lid hook cap can towards or away from rotor core under the drive of main shaft, to protect the hook of commutator, so that enamelled wire is hung on the hook of commutator.
Wherein in an embodiment, described lid hook cap assembly also comprises the second spout, the second elastic component, lid hook cap seat, connector, joint pin and rotating shaft;
Described second spout comprises coulisse and two pieces of baffle plates, and one end place of described two pieces of mainboards is located at by described coulisse, and described two pieces of baffle intervals are located on the surface of described coulisse away from described two pieces of mainboards;
Described lid hook cap is placed between described two baffle plates, and described lid hook cap is provided with projection away from the side of described coulisse, and described projection is near described substrate;
Described second elastic component is located on described projection;
Described lid hook cap seat is located on the side of described two baffle plates away from described coulisse, and described second elastic component is placed in described lid hook cap seat, described second elastic component is used for abutting with described lid hook cap seat one end away from described substrate away from one end of described projection;
The bar that is coupling that described connector comprises girder, is located at two lap bars at described girder two ends and is located in the middle part of described girder, described two lap bars are positioned at the side of described girder, the described bar that is coupling is positioned at the opposite side of described girder, and described two lap bars can with the contact of described shaping seat;
Described joint pin is arranged in described two lap bars, and the two ends of described joint pin are located on described two pieces of mainboards respectively;
Described coulisse caves near the side of described substrate formation breach, described in the bar that is coupling penetrate between described two baffle plates from described indentation, there away from one end of described girder, and to be connected by rotating shaft near one end of described substrate with described lid hook cap.
Wherein in an embodiment, also comprise outer joined assemblies, described outer joined assemblies comprises connection dish and lock sleeve;
Described shaping seat comprises mounting blocks and bottle cap portion, described bottle cap portion comprises cylindrical shell and is located at the panel of described cylindrical shell one end, described panel is fixed on described mounting blocks away from the surface of described cylindrical shell, the openend of described cylindrical shell is towards described substrate, for accommodating main shaft, described mounting blocks away from the surface in described bottle cap portion towards described coating surface;
Described connection dish comprises holding section and is located at the contact pin portion on described holding section, and described contact pin portion passes described panel and is fixed on described mounting blocks, and described holding section is used for main shaft with snap close form positioning and locking;
Surface away from described mainboard is convexly equipped with mounting cylinder with described substrate, described mounting cylinder is described installing hole, described lock sleeve is sheathed on the inwall of described mounting cylinder, and the inwall of described lock sleeve is provided with positioning strip, to mate with the location notch of the main shaft penetrated in lock sleeve.
A kind of coil winding machine mould, comprising:
At least one above-mentioned mold closing mechanism; And
At least one positioner, described positioner be used for described mold closing mechanism with the use of, comprise: support and the second locating piece, described support is for being fixed on the main frame of coil winding machine, described second locating piece, be connected on described support, and described second locating piece is locating surface away from the surface of described support, the outer wall of described locating surface and rotor core matches;
Wherein, the number of described mold closing mechanism is identical with the number of described positioner, and have a positioner between adjacent two mold closing mechanisms, and when described positioner and described mold closing mechanism protect the rotor core until coiling simultaneously, adjacent positioned surface coordinates with coating surface, has made and has only had a wire casing between described positioner and described mold closing mechanism.
Wherein in an embodiment, described positioner also comprises wire casing sheet, described wire casing sheet is arranged in described second locating piece, and can be extended or retracted from described locating surface, with towards or away from rotor core, to make to extract in the wire casing of described wire casing sheet insertion rotor core or from the wire casing of rotor core.
Wherein in an embodiment, described positioner also comprises dressing stick and shaping slide plate;
Described dressing stick is located on the outer wall of described second locating piece, and corresponding near the bent area linked up with rotor core, to be pressed on rotor core by the enamelled wire being positioned at this bent area;
Described shaping slide plate is arranged in described second locating piece, and can be extended or retracted from described locating surface, with towards or away from rotor core, and corresponding away from the bent area linked up with rotor core, so that the enamelled wire being positioned at this bent area is pressed on rotor core.
After pounding coil around complete one, four end dressing sticks move towards rotor core under the drive of main shaft, carry out shaping, to be compressed by the enamelled wire being positioned at bent area, thus make enamelled wire press close to the bottom land of wire casing.After shaping completes, four end dressing sticks move away from rotor core under the drive of main shaft.Coil winding machine controls rotor core again and rotates a certain angle, to pound coil around next.The enamelled wire that can be positioned at bent area due to above-mentioned mold closing mechanism compresses, enamelled wire is made to press close to the bottom land of wire casing, thus obtain some pound coil after, a lot of enamelled wire can not be piled up in bent area, and then can continue in rotor core coiling, obtain pounding coil more, obtain the motor with high copper factor feature.
Embodiment
For the ease of understanding the utility model, below with reference to relevant drawings, the utility model is described more fully.Preferred embodiment of the present utility model is given in accompanying drawing.But the utility model can realize with multiple different form, is not limited to embodiment described herein.On the contrary, provide the object of these embodiments be make the understanding of disclosure of the present utility model more comprehensively thorough.
It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.
Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in specification of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Term as used herein " and/or " comprise arbitrary and all combinations of one or more relevant Listed Items.
As shown in Figure 1, rotor core 11 has wire casing 13, rotor core 11 is provided with commutator 22, commutator 22 has multiple hook 22.Under the effect of coil winding machine and mould, by enamelled wire 12 in two wire casings 13 entering to keep at a certain distance away, form coil, multiple coil forms one and pounds coil.Rotor core 11 comprises wire casing district 14 and is positioned at the bent area 15 at two ends, wire casing district 14.In the present embodiment, rotor core 11 is the iron core of the rotor of eps motor, and along rotor core 11 axially, wire casing 13 is obliquely installed.
As shown in Figures 2 and 3, the coil winding machine mould 20 of an execution mode, comprises mold closing mechanism 22 and positioner 24.
As shown in Fig. 2 and Fig. 4-7, mold closing mechanism 22 comprises body 100 and Shaping Module 200.
Body 100 comprises substrate 110 and two pieces of mainboards 120.(100 is a complete entirety, will be divided into 110 and 120 two parts why) two pieces of mainboard 120 intervals are located at one of substrate 110 on the surface, and the spacing distance between two pieces of mainboards 120 diminishes gradually from substrate 110 place.Substrate 110 is provided with installing hole 112, penetrates between two pieces of mainboards 120 from installing hole 112 for the main shaft (not shown) for coil winding machine.Two pieces of mainboards 120 form coating surface 130 jointly away from the side of the side of substrate 110, and coating surface is used for protecting rotor core 11.
It should be noted that, in the present embodiment, rotor core 11 is fixed on coil winding machine, and rotor core 11 can rotate in mould 20.Coating surface 130 protects being meant to of rotor core 11: mold closing mechanism 22 coordinates with positioner 24 and makes to have between mold closing mechanism 22 and positioner 24 and only have a wire casing to expose, and enamelled wire can not around in rotor core 11 or other wire casings.
Shaping Module 200 comprises four end dressing sticks 210.Each mainboard 120 is provided with two end dressing sticks 210, be positioned at two end dressing sticks 210 on different mainboard 120 for corresponding with a bent area 15, and four end dressing sticks 210 can towards or away from rotor core 11 under the drive of main shaft, to be compressed by the enamelled wire 12 being positioned at bent area 15, thus enamelled wire 12 is made to press close to the bottom land of wire casing 13.Also namely there are two end dressing sticks 210 at two bent areas 15 place of rotor core 11 respectively for its shaping.
After pounding coil around complete one, four end dressing sticks 210 move towards rotor core 11 under the drive of main shaft, carry out shaping, to be compressed by the enamelled wire 12 being positioned at bent area 15, thus make enamelled wire 12 press close to the bottom land of wire casing 13.After shaping completes, four end dressing sticks 210 move away from rotor core 11 under the drive of main shaft.Coil winding machine controls rotor core 11 again and rotates a certain angle, then carries out hanging wire, to pound coil around next.Because the enamelled wire 12 being positioned at bent area 15 can compress by above-mentioned mold closing mechanism 22, enamelled wire 12 is made to press close to the bottom land of wire casing 13, thus obtain some pound coil after, a lot of enamelled wire 12 can not be piled up in bent area 15, and then can continue in rotor core 11 coiling, obtain pounding coil more, obtain the motor with high copper factor feature.
In the present embodiment, Shaping Module 200 also comprises shaping seat 220, two mounting rods 230 and two pieces of mounting panels 240.
Shaping seat 220 between two pieces of mainboards 120, for being connected with main shaft.
Each mounting rod 230 comprises crossbeam 232 and Liang Ge branch 234.Liang Ge branch 234 is located at the two ends of crossbeam 232 respectively, and is positioned at the same side of crossbeam 232, and the spacing distance between Liang Ge branch 234 becomes large gradually from crossbeam 232 place.Each mainboard 120 is located on the relative two side of shaping seat 220 respectively from formation two the first slideways 122, two crossbeams 232 that cave near one end of substrate 110, and each branch 234 is arranged on each first slideway 122, and extends to outside mainboard 120.Wherein, the openend of each mounting rod 230 is towards coating surface 130.
Each mounting panel 240 is arranged in the Liang Ge branch 234 that is positioned on same mainboard 120.Two the end dressing sticks 210 be located on each mainboard 120 are located on each mounting panel 240, are also namely arranged on mainboard 120 between end dressing stick 210.In the present embodiment, each mounting panel 240 offers two through holes 242, each branch 234 is arranged in a through hole 242.
When main shaft is connected with shaping seat 220, main shaft drives shaping seat 220 between two pieces of mainboards 120 along main axle moving, shaping seat 220 drives mounting rod 230 on mainboard 120 along main axle moving, mounting rod 230 drives mounting panel 240 to slide along the inclined-plane of mainboard 120, and mounting panel 240 drives end dressing stick 210 to move towards or away from rotor core 11.
Further, in the present embodiment, Shaping Module 200 also comprises four groups of strutting pieces 250.Each strutting piece 250 comprises fixed head 252 and the first elastic component 254.Fixed head 252 is located on mainboard 120.First elastic component 254 one end is connected with fixed head 252, and the other end is connected near the side of mainboard 120 with branch 234.First elastic component 254 makes branch 234 touch the inwall of through hole 242 all the time, reduces the relative sliding gap between branch 234 and mounting panel 240.
Further, in the present embodiment, Shaping Module 200 also comprises two middle part dressing sticks 260.Two middle part dressing sticks 260 are located at the middle part of two crossbeams 232 respectively, and middle part dressing stick 260 can from extended or retracted between two pieces of mainboards 120 under the drive of main shaft, with towards or away from rotor core 11, to be compressed by the enamelled wire 12 being positioned at bent area 15, thus enamelled wire 12 is made to press close to the bottom land of wire casing 13.Middle part dressing stick 260 be arranged so that above-mentioned mold closing mechanism 22 has better shaping effect.
Further, in the present embodiment, body 100 also comprises stiffener 140.Stiffener 140 is located between two pieces of mainboards 120, and stiffener 140 is near coating surface 130, and between two crossbeams 232, thus middle part dressing stick 260 can from extended or retracted between two pieces of mainboards 120 under the drive of main shaft.Stiffener 140 be arranged so that above-mentioned mold closing mechanism 22 has higher intensity.
Further, in the present embodiment, body 100 also comprises the first locating piece 150.First locating piece 150 is located on coating surface 130, and the first locating piece 150 matches away from the surface of coating surface 130 and the outer wall of rotor core 11.In the present embodiment, the first locating piece 150 is curved away from the surface of coating surface 130.
Further, in the present embodiment, above-mentioned mold closing mechanism 22 also comprises two groups of wire assemblies 300.Each wire assembly 300 comprises the first spout 310 and wire guide plate 320.
First spout 310 comprises trough floor 312, is located at two blocks of groove side plates 314 of the relative both sides of trough floor 312 and is located at the connecting plate 316 at trough floor 312 one end place.The two ends of connecting plate 316 are respectively towards two blocks of groove side plates 314, and the two ends of connecting plate 316 exist gap 318 respectively and between two groove side plates 314.
Wire guide plate 320 is located on connecting plate 316, and wire guide plate 320 extends to outside the first spout 310 from connecting plate 316 place.
Mounting panel 240 is placed in the first spout 310, and two pieces of end dressing sticks 210 are from the surface embedding mounting panel 240 of mounting panel 240 away from trough floor 312.Two pieces of end dressing sticks 210 pass from there is gap 318 between the two ends of connecting plate 316 and two blocks of groove side plates 314 respectively, and are positioned at the both sides of wire guide plate 320.
Each trough floor 312 is from formation two the second slideways 3122 that cave in away from one end place of connecting plate 316, and each branch 234 is arranged in each second slideway 3122.
Each wire guide plate 320 is fixed on each mainboard 120.
As can be seen from figures 8 and 9, further, in the present embodiment, above-mentioned mold closing mechanism 22 also comprises lid hook cap assembly 400.Lid hook cap assembly 400 comprises lid hook cap 410.One end place of two pieces of mainboards 120 is located at by lid hook cap 410, and lid hook cap 410 can towards or away from rotor core 11 under the drive of main shaft, to protect the hook 22 of commutator 21, so that enamelled wire 12 is hung on the hook 22 of commutator 21.Owing to arranging lid hook cap 410, can ensure that enamelled wire 12 is fast and accurately hung on hook 22.
Further, in the present embodiment, lid hook cap assembly 400 also comprises the second spout 420, second elastic component 430, lid hook cap seat 440, connector 450, joint pin 460 and rotating shaft 470.
Second spout 420 comprises coulisse 422 and two pieces of baffle plates 424.One end place of two pieces of mainboards 120 is located at by coulisse 422.Two pieces of baffle plate 424 intervals are located on the surface of coulisse 422 away from two pieces of mainboards 120.
Lid hook cap 410 is placed between two baffle plates 424.And lid hook cap 420 is provided with projection 412 away from the side of coulisse 422, and projection 412 is near substrate 110.
Second elastic component 430 is located on projection 412.
Lid hook cap seat 440 is located on the side of two baffle plates 424 away from coulisse 422.And the second elastic component 430 is placed in lid hook cap seat 440, the second elastic component 430 is used for abutting with lid hook cap seat 440 one end away from substrate 110 away from one end of projection 412.When lid hook cap 410 moves towards rotor core 11, the second elastic component 430 compresses.After hanging wire to be done, the second elastic component 430 is returning back in initial condition process gradually, drives lid hook cap 410 to return back to initial condition.
Connector 450 comprises girder 452, is located at two lap bars 454 at girder 452 two ends and is located at the bar 456 that is coupling in the middle part of girder 452.Two lap bars 454 are positioned at the side of girder 452, and the bar 456 that is coupling is positioned at the opposite side of girder 454, and two lap bars 454 can with the contact of shaping seat 220.In the present embodiment, shaping seat 220 be provided with two protruding pinnas, 222, two lap bars 454 can respectively with the side contacts of two protruding pinnas 222 near substrate 110.
Joint pin 460 is arranged in two lap bars 454, and the two ends of joint pin 460 are located on two pieces of mainboards 120 respectively.
Coulisse 422 caves near the side of substrate 110 and forms breach 4222, and the bar 456 that is coupling penetrates between two baffle plates 424 from breach 4222 place away from one end of girder 452, and is connected by rotating shaft 470 near one end of substrate 110 with lid hook cap 410.
When main shaft promotes shaping seat 220 to make end dressing stick 210 near rotor core 11, during for enamelled wire 12 shaping on rotor core 11, two lap bars 454 are separated with shaping seat 220.When shaping seat 220 retracts to make end dressing stick 210 away from rotor core 11 by main shaft, shaping seat 220 contacts with two lap bars 454, and promotes two lap bars 454, and then the bar 456 that makes to be coupling promotes lid hook cap 410, to make lid hook cap 410 near rotor core 11, to carry out hook operation.Promote in the process of lid hook cap 410 at the bar 456 that is coupling, the second elastic component 430 follows lid hook cap 410 to move, thus abuts with lid hook cap seat 440 one end away from substrate 110, and the second elastic component 430 is compressed.When end dressing stick 210 is again near rotor core 11, two lap bars 454 are separated again with shaping seat 220, lid hook cap 410 second elastic component 430 act under gradually away from rotor core 11, return back to initial position, the second elastic component 430 does not abut with lid hook cap seat 440 one end away from substrate 110.
Further, in the present embodiment, above-mentioned mold closing mechanism 22 also comprises the first slip plate 510 and the second slip plate 520.First slip plate 510 is located on the side of lid hook cap seat 440 away from lid hook cap 410, and the second slip plate 520 is located on two pieces of mainboards 120 one end away from lid hook cap assembly 400.First slip plate 510 and arranging of the second slip plate 520 effectively can ensure that enamelled wire 12 quick and precisely slips in wire casing 13.
As shown in figs. 9-11, further, in the present embodiment, above-mentioned mold closing mechanism 22 also comprises outer joined assemblies 600.Outer joined assemblies 600 comprises connection dish 610.
Shaping seat 220 comprises mounting blocks 224, bottle cap portion 226 and two protruding pinnas 222.Bottle cap portion 226 comprises cylindrical shell 2262 and is located at the panel 2264 of cylindrical shell 2262 one end.Panel 2264 is fixed on mounting blocks 224 away from the surface of cylindrical shell 2262, and two protruding pinnas 222 are located on the outer wall of cylindrical shell 2262, and near mounting blocks 224.The openend of cylindrical shell 2262 towards substrate 110, for accommodating main shaft.Mounting blocks 224 away from the surface in bottle cap portion 226 towards coating surface 130.
Connection dish 610 comprises holding section 612 and is located at the contact pin portion 614 on holding section 612.Contact pin portion 614 passes panel 2264 and is fixed on mounting blocks 224.Holding section 612 for main shaft with snap close form positioning and locking.In the present embodiment, connecting portion 616 is provided with between contact pin portion 614 and holding section 612.
Further, in the present embodiment, outer joined assemblies 600 also comprises lock sleeve 620.Surface away from mainboard 120 is convexly equipped with mounting cylinder with substrate 110, and mounting cylinder is installing hole 112.Lock sleeve 620 is sheathed on the inwall of mounting cylinder 122, and the inwall of lock sleeve 620 is provided with positioning strip 622, to mate with the location notch of the main shaft penetrated in lock sleeve 620.Thus be convenient to main shaft and accurately insert in lock sleeve 620.
As shown in FIG. 12 and 13, positioner 24 for upper mold closing mechanism 22 with the use of, comprise support 710 and the second locating piece 720.Support 710 is for being fixed on the main frame of coil winding machine.Second locating piece 720 is connected on support 710, and the second locating piece 720 is locating surface 722 away from the surface of support 710.Locating surface 722 matches with the outer wall of rotor core 11.In the present embodiment, locating surface 722 is curved.
Wherein, when positioner 24 protects the rotor core 11 until coiling with mold closing mechanism 22 simultaneously, locating surface 722 coordinates with coating surface 130, has made and has only had a wire casing 13 between positioner 24 and mold closing mechanism 22.Also namely the second locating piece 720 matches with wire casing 13, and the initial position of each rotor 11 is all in same angle.
Further, in the present embodiment, positioner 24 also comprises wire casing sheet 730.Wire casing sheet 730 is arranged in the second locating piece 720, and can be self-align surperficial 722 extended or retracted, with towards or away from rotor core 11, in the wire casing 13 inserting rotor core 11 to make wire casing sheet 730 or extract from the wire casing 13 of rotor core 11.When installing above-mentioned positioner 24 with mold closing mechanism 22, first mounting and positioning device 24, wire casing sheet 730 inserts in a certain wire casing 13, then installs mold closing mechanism 22.And arranging of wire casing sheet 730 can make positioner 24 and mold closing mechanism 22 Fast Installation good, to have between positioner 24 and mold closing mechanism 22 to reach and to only have the requirement of a wire casing 13.After positioner 24 and mold closing mechanism 22 install, then the wire casing 13 of wire casing sheet 730 from rotor core 11 is extracted.In the present embodiment, wire casing sheet 730 is for carrying out Primary Location to rotor core 11.
In the present embodiment, positioner 24 also comprises the first Power Component 740.First Power Component 740 comprises the first guide rail 742, head rod 744 and the first cylinder 746.First guide rail 742 is located on support 710, the two ends of head rod 744 are connected with the first cylinder 746 and wire casing sheet 730 respectively, first cylinder 746 controls head rod 744 and moves on the first guide rail 742, self-align surperficial 722 extended or retracted with control line slotted vane 730, with towards or away from rotor core 11.
Further, in the present embodiment, positioner 24 also comprises dressing stick 750 and shaping slide plate 760.
Dressing stick 750 is located on the outer wall of the second locating piece 720, and rotor core 11 is corresponding near the bent area 15 of hook 22, to be pressed on rotor core 11 by the enamelled wire 12 being positioned at this bent area 15.
Shaping slide plate 760 is arranged in the second locating piece 720, and can be self-align surperficial 722 extended or retracted, with towards or away from rotor core 11, and corresponding away from the bent area 15 of hook 22 with rotor core 11, so that the enamelled wire 12 being positioned at this bent area 15 is pressed on rotor core 11.
Further, in the present embodiment, positioner 24 also comprises the second Power Component 770.Second Power Component 770 comprises the second guide rail 772 and the second cylinder 774.Second guide rail 772 is located on support 710 by air cylinder board 780, and shaping slide plate 760 is located at one end and is connected with the second cylinder 774.Second cylinder 774 controls shaping slide plate 760 and moves on the second guide rail 772, self-align surperficial 722 extended or retracted to control shaping slide plate 760, with towards or away from rotor core 11.
Dressing stick 750 and shaping slide plate 760 be arranged so that above-mentioned positioner 24 also has shaping feature, thus make above-mentioned mould 20 have better shaping effect.
Mould 20 comprises at least one mold closing mechanism 22 and at least one positioner 24.Wherein, the number of mold closing mechanism 22 is identical with the number of positioner 24, and has a positioner 24 between adjacent two mold closing mechanisms 22.And when positioner 22 protects the rotor core 11 until coiling with mold closing mechanism 24 simultaneously, adjacent positioned surface 722 coordinates with coating surface 130, has made and has only had a wire casing 13 between positioner 24 and mold closing mechanism 22.
In the present embodiment, the number of mold closing mechanism 22 is two.Be appreciated that in other embodiments, mold closing mechanism 22 also can be one or three.
Because above-mentioned mold closing mechanism 22 and positioner 24 all have shaping feature, therefore above-mentioned coil winding machine mould 20 can produce the rotor with high copper factor feature.
The above embodiment only have expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.