CN214707463U - Stator coil winding structure convenient to wire winding - Google Patents
Stator coil winding structure convenient to wire winding Download PDFInfo
- Publication number
- CN214707463U CN214707463U CN202120966444.6U CN202120966444U CN214707463U CN 214707463 U CN214707463 U CN 214707463U CN 202120966444 U CN202120966444 U CN 202120966444U CN 214707463 U CN214707463 U CN 214707463U
- Authority
- CN
- China
- Prior art keywords
- wire
- transmission roller
- winding
- main
- motor
- 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.)
- Expired - Fee Related
Links
- 238000004804 winding Methods 0.000 title claims abstract description 74
- 230000005540 biological transmission Effects 0.000 claims abstract description 168
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 claims abstract description 86
- 229910052802 copper Inorganic materials 0.000 claims abstract description 36
- 239000010949 copper Substances 0.000 claims abstract description 36
- 230000007704 transition Effects 0.000 claims abstract description 32
- 238000000034 method Methods 0.000 description 7
- 230000035515 penetration Effects 0.000 description 4
- 239000000463 material Substances 0.000 description 3
- 208000032370 Secondary transmission Diseases 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 239000007769 metal material Substances 0.000 description 2
- 238000005299 abrasion Methods 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 230000003068 static effect Effects 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
Images
Landscapes
- Manufacture Of Motors, Generators (AREA)
Abstract
The utility model belongs to the technical field of winding device equipment, in particular to the field of stator coil winding structure convenient for winding, which comprises a main body workbench, a copper coil, a wire inlet bottom end cover and a winding motor, wherein the front end of the main body workbench is provided with a control switch, the upper end of the wire inlet bottom end cover is provided with a wire inlet limiting block, the upper end of the main body workbench is provided with a transition block, the inner side of a transmission kun bracket is provided with a main transmission kun, the inner side of the transmission kun bracket is provided with an auxiliary transmission kun, when winding is needed, copper wires wound by the copper coil are firstly inserted from the lower end of a wire inlet hole of the bottom end cover and then pass through the wire inlet bottom end cover to enter the wire inlet limiting block, a bottom end cover wire inlet hole arranged by a conical structure can more conveniently pass through the copper wires, and the wire inlet limiting block and the right end wire inlet limiting block are arranged by the left end wire inlet limiting block to further limit the movement of the copper wires, thereby ensuring the movement of the copper wire in the horizontal direction.
Description
Technical Field
The utility model belongs to the technical field of winding device equipment, concretely relates to stator coil wire winding structure convenient to wire winding.
Background
The stator is a static part of the motor or the generator, the stator consists of a stator core, a stator winding and a base, the stator mainly acts on generating a rotating magnetic field, the rotor mainly acts on being cut by magnetic lines of force in the rotating magnetic field to generate (output) current, and the stator coil is formed by winding flat copper wires.
SUMMERY OF THE UTILITY MODEL
The existing winding structure for the stator coil is inconvenient to use, and the phenomenon of copper wire deviation can often occur in the winding process. The utility model provides a stator coil wire winding structure convenient to wire-winding, have because a main drive kun and an auxiliary drive kun all are located the top position of main part workstation, consequently after the copper line is worn out via the inlet wire stopper, need make progress between one section distance could carry out a main drive kun and an auxiliary drive kun and continue to move to the right side, setting through the transition piece, be used for spacing to this section distance, and then avoid the off tracking of copper line, defeated line stopper and right-hand member through the left end and defeated the setting of line stopper, be used for further limiting the removal of copper line, and then the characteristics of the removal of guarantee copper line horizontal direction.
The utility model provides a following technical scheme: a stator coil winding structure convenient for winding comprises a main body workbench, a copper coil, an inlet wire bottom end cover and a winding motor, the front end of the main body workbench is provided with a control switch, the upper end of the inlet wire bottom end cover is provided with an inlet wire limiting block, the upper end of the main body workbench is provided with a transition block, the upper end of the main body workbench is provided with a first transmission roller bracket, a first main transmission roller is arranged on the inner side of the first transmission roller bracket, a first auxiliary transmission roller is arranged on the inner side of the first transmission roller bracket, the upper end of the main body workbench is provided with a left end wire conveying limiting block, the upper end of the main body workbench is provided with a second transmission roller bracket, the inner side of the second transmission roller support is provided with a second main transmission roller, the inner side of the second transmission roller support is provided with a second auxiliary transmission roller, and the upper end of the main body workbench is provided with a right end wire conveying limiting block.
The copper wire coil comprises a copper wire coil, a coil rotating shaft, a coil support frame, a pay-off motor protection frame, a control switch and a main body workbench, wherein the inner ring of the copper wire coil is provided with the coil rotating shaft with a cylindrical structure, the outer ring of the right end of the coil rotating shaft is provided with the coil support frame, the bottom end of the coil support frame and the bottom end of the main body workbench are located at the same horizontal plane position, the left side of the copper wire coil is provided with the pay-off motor, the outer side of the pay-off motor is provided with the pay-off motor protection frame, the ground output end of the pay-off motor is connected with the left end of the coil rotating shaft, and the pay-off motor is electrically connected with the control switch; after the operation of the pay-off motor is started through the control switch, the pay-off motor drives the rotation of the wire coil rotating shaft, and then drives the rotation of the copper wire coil, so that the pay-off of the copper wire coil wound by the copper wire is realized.
The incoming line bottom end cover is characterized in that the vertical section of the incoming line bottom end cover is in a trapezoidal structure, a bottom end cover incoming line hole is formed in the inner side of the incoming line bottom end cover, and the bottom end cover incoming line hole is in a conical structure; when needs were wound wire, earlier penetrated the winding copper line from the lower extreme in bottom cover entrance hole with the copper line book, then passed the inlet wire bottom cover and got into the inlet wire stopper, the bottom cover entrance hole that the conical structure set up can make things convenient for the penetration of copper line more.
The inlet wire limiting block is arranged in a cylindrical structure, penetrates through the main body workbench and is positioned at the same horizontal plane position with the uppermost end of the main body workbench, the lower end of the inlet wire limiting block is fixedly communicated and connected with the upper end of the inlet wire bottom end cover, the diameter of the inlet wire limiting block is the same as that of the upper end of the inlet wire bottom end cover, and a limiting block inlet wire hole is formed in the inner side of the inlet wire limiting block; after the copper line passed inlet wire bottom end cover, because inlet wire stopper and inlet wire bottom end cover communicate each other, the copper line got into via the stopper entrance hole, then worn out the inlet wire stopper.
The transition block is fixedly connected with the main body workbench, the left end of the transition block and the left end of the first main transmission roller are positioned on the same vertical line, the upper end of the transition block is never tangent to the first auxiliary transmission roller, a transition groove is formed in the inner side of the transition block, and the width of the transition groove is the same as the diameter of the limiting block wire inlet hole; because the first main transmission roller and the first auxiliary transmission roller are both located above the main body workbench, after a copper wire penetrates out of the main body workbench through the wire inlet limiting block, the first main transmission roller and the first auxiliary transmission roller can move to the right side continuously only by a certain distance, and the transition block is arranged for limiting the distance and further avoiding the deviation of the copper wire.
The diameters of the first main transmission roller and the first auxiliary transmission roller are the same, the rotating directions of the first main transmission roller and the first auxiliary transmission roller are opposite, the distance between the first main transmission roller and the first auxiliary transmission roller is matched with the diameter of a copper wire, a first main transmission shaft is arranged on the inner side of the first main transmission roller, a first auxiliary transmission shaft is arranged on the inner side of the first auxiliary transmission roller, and the front end and the rear end of the first main transmission shaft and the rear end of the first auxiliary transmission shaft both extend into the length of one end of the inner side of the first transmission roller bracket; through the arrangement of the first main transmission roller and the first auxiliary transmission roller, the copper wire is limited in the process of moving rightwards after passing out of the wire inlet limiting block, and meanwhile, the movement of the copper wire can be assisted through the rotation of the first main transmission roller and the first auxiliary transmission roller.
The left end wire conveying limiting block and the right end wire conveying limiting block are both arranged in a rectangular structure, the height of the left end wire conveying limiting block is the same as that of the right end wire conveying limiting block, the width of the left end wire conveying limiting block is half of that of the right end wire conveying limiting block, a left end limiting hole is formed in the inner side of the left end wire conveying limiting block, a right end limiting hole is formed in the inner side of the right end wire conveying limiting block, the left end limiting hole and the right end limiting hole are through holes of cylindrical structures, the diameters of the left end limiting hole and the right end limiting hole are the same, and the sizes of the left end limiting hole and the right end limiting hole are the same as that of the limiting block wire inlet hole; through the setting of line stopper is defeated with the right-hand member to the line stopper is defeated to the left end for further restrict the removal of copper line, and then guarantee the removal of copper line horizontal direction.
The diameters of the second main transmission roller and the second auxiliary transmission roller are the same, the rotating directions of the second main transmission roller and the second auxiliary transmission roller are opposite, the distance between the second main transmission roller and the second auxiliary transmission roller is matched with the diameter of a copper wire, a second main transmission shaft is arranged on the inner side of the second main transmission roller, a second auxiliary transmission shaft is arranged on the inner side of the second auxiliary transmission roller, and the front end and the rear end of the second main transmission shaft and the rear end of the second auxiliary transmission shaft both extend into the length of one end of the inner side of the second transmission roller bracket; the second main transmission roller and the second auxiliary transmission roller are arranged and used for limiting the copper wire in the process of moving rightwards after the copper wire penetrates out of the left end wire conveying limiting block, and meanwhile, the copper wire can be assisted to move through the rotation of the second main transmission roller and the second auxiliary transmission roller.
The winding motor is electrically connected with the control switch, and the rotating speed of the winding motor is always the same as that of the paying-off motor; after the copper line is worn out through right-hand member defeated line stopper, twine on the winding module, the rotational speed through winding motor is the same all the time with the rotational speed of unwrapping wire motor, ensures that the unwrapping wire of copper line remains the unanimity with the wire winding all the time.
The utility model has the advantages that: when winding is needed, a copper wire wound by a copper wire coil penetrates through the lower end of a wire inlet hole of a bottom end cover, then penetrates through the wire inlet bottom end cover and enters a wire inlet limiting block, the wire inlet hole of the bottom end cover arranged in a conical structure can facilitate the penetration of the copper wire, because a first main transmission roller and a first auxiliary transmission roller are both positioned above a main body workbench, after the copper wire penetrates out of the wire inlet limiting block, the first main transmission roller and the first auxiliary transmission roller can move towards the right side continuously only by a certain distance, the transition block is arranged to limit the distance, and further the deviation of the copper wire is avoided, the first main transmission roller and the first auxiliary transmission roller are arranged to limit the copper wire after the copper wire penetrates out of the wire inlet limiting block in the process of moving towards the right, and the movement of the copper wire can be assisted by the rotation of the first main transmission roller and the first auxiliary transmission roller, through the setting of left end defeated line stopper and right-hand member defeated line stopper for further restrict the removal of copper line, and then ensure the removal of copper line horizontal direction, through the setting of No. two main drive kun and No. two auxiliary drive kun, be used for to the copper line after wearing out via the defeated line stopper of left end, at the spacing of the in-process that moves to the right, the removal that can assist the copper line through the rotation of No. two main drive kun and No. two auxiliary drive kun simultaneously.
The parts of the device not involved are the same as or can be implemented using prior art.
Drawings
Fig. 1 is a front view cross-sectional structural diagram of the present invention;
FIG. 2 is a front view of the present invention;
FIG. 3 is an enlarged schematic view of A in FIG. 1;
FIG. 4 is an enlarged view of B in FIG. 1;
fig. 5 is a schematic structural view of the bottom end cover of the incoming line of the present invention;
fig. 6 is a schematic structural view of the middle incoming line limiting block of the present invention;
fig. 7 is a schematic structural diagram of a transition block in the present invention;
in the figure: 1. a main body table; 11. a control switch; 2. a copper wire coil; 21. a wire winding shaft; 22. a coil support frame; 23. paying off a motor; 231. paying off a motor protection frame; 3. a wire inlet bottom end cover; 31. a bottom end cover wire inlet hole; 4. an incoming line limiting block; 41. a limiting block wire inlet hole; 5. a transition block; 51. a transition groove; 6. a first drive roller support; 61. a first main transmission roller; 611. a first main transmission shaft; 62. a first auxiliary transmission roller; 621. a first auxiliary transmission shaft; 7. a left end thread conveying limiting block; 701. a left end limiting hole; 71. a right thread conveying limiting block; 711. a right end limiting hole; 8. a second drive roller bracket; 81. a second main transmission roller; 811. a second main transmission shaft; 82. a secondary transmission roller II; 821. a secondary transmission shaft II; 9. a winding motor; 91. a winding module; 92. a winding motor bracket.
Detailed Description
Referring to fig. 1-7, the present invention provides the following technical solutions: comprises a main body workbench 1, a copper wire coil 2, an inlet wire bottom end cover 3 and a winding motor 9, wherein the front end of the main body workbench 1 is provided with a control switch 11, the upper end of the inlet wire bottom end cover 3 is provided with an inlet wire limiting block 4, the upper end of the main body workbench 1 is provided with a transition block 5, the upper end of the main body workbench 1 is provided with a first transmission roller bracket 6, the inner side of the first transmission roller bracket 6 is provided with a first main transmission roller 61, a first auxiliary transmission roller 62 is arranged on the inner side of the first transmission roller bracket 6, a left end thread conveying limiting block 7 is arranged at the upper end of the main body workbench 1, the upper end of the main body workbench 1 is provided with a second transmission roller bracket 8, the inner side of the second transmission roller bracket 8 is provided with a second transmission roller 81, a second auxiliary transmission roller 82 is arranged on the inner side of the second transmission roller support 8, and a right end wire conveying limiting block 71 is arranged at the upper end of the main body workbench 1.
In this embodiment: the inner ring of the copper wire coil 2 is provided with a wire coil rotating shaft 21 with a cylindrical structure, the outer ring of the right end of the wire coil rotating shaft 21 is provided with a wire coil supporting frame 22, the bottom end of the wire coil supporting frame 22 and the bottom end of the main body workbench 1 are positioned at the same horizontal plane position, the left side of the copper wire coil 2 is provided with a paying-off motor 23, the outer side of the paying-off motor 23 is provided with a paying-off motor protecting frame 231, the output end of the paying-off motor 23 is connected with the left end of the wire coil rotating shaft 21, and the paying-off motor 23 is electrically connected with the control switch 11; after the operation of the paying-off motor 23 is started through the control switch 11, the paying-off motor 23 drives the rotation of the wire coil rotating shaft 21, and then drives the rotation of the copper wire coil 2, so that the paying-off of the copper wire wound on the copper wire coil 2 is realized.
The vertical section of the incoming line bottom end cover 3 is in a trapezoidal structure, a bottom end cover incoming line hole 31 is formed in the inner side of the incoming line bottom end cover 3, and the bottom end cover incoming line hole 31 is in a conical structure; when needs were wound wire, earlier penetrate from the lower extreme of bottom cover entrance hole 31 with the copper line of 2 winding of copper line book, then pass inlet wire bottom cover 3 and get into inlet wire stopper 4, the bottom cover entrance hole 31 that the conical structure set up can make things convenient for the penetration of copper line more.
The incoming line limiting block 4 is arranged in a cylindrical structure, the incoming line limiting block 4 penetrates through the main body workbench 1 and is positioned at the same horizontal plane position as the uppermost end of the main body workbench 1, the lower end of the incoming line limiting block 4 is fixedly communicated and connected with the upper end of the incoming line bottom cover 3, the diameter of the incoming line limiting block 4 is the same as that of the upper end of the incoming line bottom cover 3, and a limiting block incoming line hole 41 is formed in the inner side of the incoming line limiting block 4; when the copper line passes inlet wire bottom end cover 3 back, because inlet wire stopper 4 communicates with inlet wire bottom end cover 3 each other, the copper line gets into via stopper entrance hole 41, then wears out inlet wire stopper 4.
The transition block 5 is fixedly connected with the main body workbench 1, the left end of the transition block 5 and the left end of the first main transmission roller 61 are positioned on the same vertical line, the upper end of the transition block 5 is never tangent to the first auxiliary transmission roller 62, the inner side of the transition block 5 is provided with a transition groove 51, and the width of the transition groove 51 is the same as the diameter of the limiting block wire inlet 41; because the first main transmission roller 61 and the first auxiliary transmission roller 62 are both located above the main body workbench 1, after the copper wire penetrates out from the wire inlet limiting block 4, the first main transmission roller 61 and the first auxiliary transmission roller 62 can move to the right side only by a certain distance, and the transition block 5 is used for limiting the distance, so that the deviation of the copper wire is avoided.
The diameters of the first main transmission roller 61 and the first auxiliary transmission roller 62 are the same, the rotating directions of the first main transmission roller 61 and the first auxiliary transmission roller 62 are opposite, the distance between the first main transmission roller 61 and the first auxiliary transmission roller 62 is matched with the diameter of a copper wire, a first main transmission shaft 611 is arranged inside the first main transmission roller 61, a first auxiliary transmission shaft 621 is arranged inside the first auxiliary transmission roller 62, and the front end and the rear end of the first main transmission shaft 611 and the rear end of the first auxiliary transmission shaft 621 extend into the length of one end inside the first transmission roller bracket 6; through the arrangement of the first main transmission roller 61 and the first auxiliary transmission roller 62, the copper wire is limited in the process of moving rightwards after passing out of the wire feeding limiting block 4, and meanwhile, the movement of the copper wire can be assisted through the rotation of the first main transmission roller 61 and the first auxiliary transmission roller 62.
The left end yarn conveying limiting block 7 and the right end yarn conveying limiting block 71 are both arranged in a rectangular structure, the height of the left end yarn conveying limiting block 7 is the same as that of the right end yarn conveying limiting block 71, the width of the left end yarn conveying limiting block 7 is half of that of the right end yarn conveying limiting block 71, a left end limiting hole 701 is formed in the inner side of the left end yarn conveying limiting block 7, a right end limiting hole 711 is formed in the inner side of the right end yarn conveying limiting block 71, the left end limiting hole 701 and the right end limiting hole 711 are through holes of a cylindrical structure, the diameters of the left end limiting hole 701 and the right end limiting hole 711 are the same, and the sizes of the left end limiting hole 701 and the right end limiting hole 711 are the same as that of the limiting block wire inlet 41; through the setting of the left end line conveying limiting block 7 and the right end line conveying limiting block 71, the movement of a copper wire is further limited, and the movement of the copper wire in the horizontal direction is further guaranteed.
The diameters of the second main transmission roller 81 and the second auxiliary transmission roller 82 are the same, the rotating directions of the second main transmission roller 81 and the second auxiliary transmission roller 82 are opposite, the distance between the second main transmission roller 81 and the second auxiliary transmission roller 82 is matched with the diameter of a copper wire, a second main transmission shaft 811 is arranged inside the second main transmission roller 81, a second auxiliary transmission shaft 821 is arranged inside the second auxiliary transmission roller 82, and the front end and the rear end of the second main transmission shaft 811 and the rear end of the second auxiliary transmission shaft 821 both extend into the length of one end inside the second transmission roller bracket 8; through the arrangement of the second main transmission roller 81 and the second auxiliary transmission roller 82, the copper wire is limited in the process of moving right after passing out of the left end wire conveying limiting block 7, and meanwhile, the movement of the copper wire can be assisted through the rotation of the second main transmission roller 81 and the second auxiliary transmission roller 82.
A winding module 91 is arranged at the ground output end of the winding motor 9, a winding motor bracket 92 is arranged at the lower end of the winding motor 9, the winding motor 9 is electrically connected with the control switch 11, and the rotating speed of the winding motor 9 is always the same as that of the paying-off motor 23; when the copper wire penetrates out from the right wire conveying limiting block 71 and then is wound on the wire winding module 91, the rotating speed of the wire winding motor 9 is always the same as that of the wire unwinding motor 23, and the wire unwinding and the wire winding of the copper wire are always kept consistent.
The utility model discloses a theory of operation and use flow: in the utility model, the wire inlet bottom cover 3, the wire inlet limiting block 4, the transition block 5, the first main transmission roller 61, the first auxiliary transmission roller 62, the left end wire transmission limiting block 7, the right end wire transmission limiting block 71, the second main transmission roller 81 and the second auxiliary transmission roller 82 are all made of non-metallic materials, the wire inlet bottom cover 3 is made of rubber materials preferentially, the wire inlet limiting block 4, the transition block 5, the left end wire transmission limiting block 7 and the right end wire transmission limiting block 71 are made of wood materials preferentially, the first main transmission roller 61, the first auxiliary transmission roller 62, the second main transmission roller 81 and the second auxiliary transmission roller 82 are made of plastic materials preferentially, the abrasion to copper wires is reduced by using the non-metallic materials, when in use, the wound copper wires 2 are firstly penetrated from the lower end of the wire inlet hole 31 of the bottom cover and then penetrate through the wire inlet bottom cover 3 to enter the limiting block 4, the wire inlet hole 31 of the bottom cover arranged by the conical structure can facilitate the penetration of the copper wires, after the copper wire passes through the wire inlet bottom end cover 3, because the wire inlet limiting block 4 is communicated with the wire inlet bottom end cover 3, the copper wire enters through the limiting block wire inlet hole 41, then passes through the wire inlet limiting block 4, enters between the first main transmission roller 61 and the first auxiliary transmission roller 62 through the transition block 5 to move to the right side continuously, then, the copper wire penetrates out of the left end wire transferring limiting block 7 through the left end limiting hole 701, then enters the right end wire transferring limiting block 71 after passing through the second main transmission roller 81 and the second auxiliary transmission roller 82, and is wound on the wire winding module 91 after penetrating out of the right end wire transferring limiting block 71, then, the operation of the pay-off motor 23 and the winding motor 9 is turned on by the control switch 11, and then the winding of the winding module 91 is started, the rotation speed of the winding motor 9 is always the same as that of the paying-off motor 23, so that the paying-off and the winding of the copper wires are always kept consistent.
Claims (9)
1. The utility model provides a stator coil wire winding structure convenient to wire winding which characterized in that: including main part workstation, copper line book, inlet wire bottom end cover, wire-wound motor, the front end of main part workstation is provided with control switch, the upper end of inlet wire bottom end cover is provided with the inlet wire stopper, the upper end of main part workstation is provided with the transition piece, the upper end of main part workstation is provided with a transmission kun support, the inboard of a transmission kun support is provided with a main drive kun, the inboard of a transmission kun support is provided with an auxiliary drive kun, the upper end of main part workstation is provided with left end defeated line stopper, the upper end of main part workstation is provided with No. two transmission kun supports, the inboard of No. two transmission kun supports is provided with No. two main drive kun, the inboard of No. two transmission kun supports is provided with No. two auxiliary drive kun, the upper end of main part workstation is provided with the right-hand member defeated line stopper.
2. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the inner circle of copper coil is provided with the coil of wire pivot of cylindrical structure, and the outer lane of coil of wire pivot right-hand member is provided with the coil of wire support frame, and the bottom of coil of wire support frame and the bottom of main part workstation are located same horizontal plane position, and the left side of copper coil is provided with the unwrapping wire motor, and the outside of unwrapping wire motor is provided with unwrapping wire motor fender bracket, and unwrapping wire motor ground output end is connected with the left end of coil of wire pivot, unwrapping wire motor and control switch electric connection.
3. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the vertical section of the inlet wire bottom end cover is in a trapezoidal structure, a bottom end cover inlet wire hole is formed in the inner side of the inlet wire bottom end cover, and the bottom end cover inlet wire hole is in a conical structure.
4. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the inlet wire stopper sets up for cylindrical structure, and the inlet wire stopper runs through main part workstation and lies in same horizontal plane position with the top of main part workstation, and the lower extreme of inlet wire stopper is connected with the upper end fixed intercommunication of inlet wire bottom end cover, and the diameter of inlet wire stopper is the same with the diameter of inlet wire bottom end cover upper end, and the inboard of inlet wire stopper is provided with the stopper entrance hole.
5. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the transition block is fixedly connected with the main body workbench, the left end of the transition block and the left end of the first main transmission roller are positioned on the same vertical line, the upper end of the transition block is never tangent to the first auxiliary transmission roller, the inner side of the transition block is provided with a transition groove, and the width of the transition groove is the same as the diameter of the limiting block wire inlet hole.
6. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the diameters of the first main transmission roller and the first auxiliary transmission roller are the same, the rotating directions of the first main transmission roller and the first auxiliary transmission roller are opposite, the distance between the first main transmission roller and the first auxiliary transmission roller is matched with the diameter of a copper wire, a first main transmission shaft is arranged on the inner side of the first main transmission roller, a first auxiliary transmission shaft is arranged on the inner side of the first auxiliary transmission roller, and the front end and the rear end of the first main transmission shaft and the rear end of the first auxiliary transmission shaft both extend into the length of one end of the inner side of the first transmission roller bracket.
7. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the utility model discloses a wire-conveying stopper, including stopper inlet hole, left end limit hole, right end limit hole, the size is the same with the stopper inlet hole's size.
8. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the diameters of the second main transmission roller and the second auxiliary transmission roller are the same, the rotating directions of the second main transmission roller and the second auxiliary transmission roller are opposite, the distance between the second main transmission roller and the second auxiliary transmission roller is matched with the diameter of a copper wire, a second main transmission shaft is arranged on the inner side of the second main transmission roller, a second auxiliary transmission shaft is arranged on the inner side of the second auxiliary transmission roller, and the front end and the rear end of the second main transmission shaft and the rear end of the second auxiliary transmission shaft both extend into the length of one end of the inner side of the second transmission roller bracket.
9. The winding structure for a stator coil for facilitating winding according to claim 1, wherein: the winding motor is characterized in that a winding module is arranged at the ground output end of the winding motor, a winding motor support is arranged at the lower end of the winding motor, the winding motor is electrically connected with the control switch, and the rotating speed of the winding motor is the same as that of the paying-off motor all the time.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120966444.6U CN214707463U (en) | 2021-05-08 | 2021-05-08 | Stator coil winding structure convenient to wire winding |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202120966444.6U CN214707463U (en) | 2021-05-08 | 2021-05-08 | Stator coil winding structure convenient to wire winding |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN214707463U true CN214707463U (en) | 2021-11-12 |
Family
ID=78551171
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202120966444.6U Expired - Fee Related CN214707463U (en) | 2021-05-08 | 2021-05-08 | Stator coil winding structure convenient to wire winding |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN214707463U (en) |
-
2021
- 2021-05-08 CN CN202120966444.6U patent/CN214707463U/en not_active Expired - Fee Related
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102683049B (en) | Packing paper winding mechanism for capacitor, winder and packing paper winding method | |
| CN210682754U (en) | Automatic wire winding mechanism for wire binding machine | |
| CN214707463U (en) | Stator coil winding structure convenient to wire winding | |
| CN211110335U (en) | Coiling machine is used in cable production | |
| CN104944215A (en) | Automatic winding machine | |
| CN103440930A (en) | Paying-off twister of cable-former | |
| CN205249004U (en) | Pay -off is used in motor wire winding | |
| CN203112203U (en) | Battery pole piece unwinding device | |
| CN109250568B (en) | Wire feeding device for wire processing | |
| CN216072447U (en) | Auxiliary pay-off rack for automobile wire harness | |
| CN106448937A (en) | High-speed planetary stranding machine | |
| CN210682838U (en) | A pencil strutting arrangement for weaving processing | |
| CN211404164U (en) | Wrapping machine for cable production | |
| CN203714244U (en) | Wire arranging device of electric wires and cables | |
| CN204470483U (en) | Wire cutting machine feeding system | |
| CN215007901U (en) | Wire-stripping machine wire-guiding device for current transformer production | |
| CN208662231U (en) | A kind of automatic feeding type bending machine | |
| CN217996277U (en) | Cable laying equipment for processing non-contact connector | |
| CN201975950U (en) | Threading device of submersible motor | |
| CN216004758U (en) | Electric power construction turns to kinking device | |
| CN207998375U (en) | A kind of automatic coil winding machine with guiding mechanism | |
| CN206673795U (en) | A kind of motor windings auxiliary wire-sending device | |
| CN217417696U (en) | Cable winding device | |
| CN210110433U (en) | Core wire pay-off rack for wrapping machine | |
| CN220984255U (en) | Cable cutting recovery unit |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20211112 |