CN214591062U

CN214591062U - Novel motor winding machine

Info

Publication number: CN214591062U
Application number: CN202120957981.4U
Authority: CN
Inventors: 林枬; 杨士芳; 李春雷
Original assignee: Dongguan Wanjiang Weili Micro Motor Co ltd
Current assignee: Dongguan Weili Motor Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-11-02
Anticipated expiration: 2031-05-07

Abstract

The utility model provides a novel motor winding machine, which comprises a box body, a first main shaft driving device, an installation mechanism, a pressing mechanism, a wire clamping mechanism, a wire cutting mechanism and a winding mechanism, wherein the first main shaft driving device, the installation mechanism, the pressing mechanism, the wire clamping mechanism, the wire cutting mechanism and the winding mechanism are arranged on the box body; a spring chuck is arranged in the first main shaft; the first main shaft driving device is arranged in the box body and connected with the first main shaft to control the first main shaft to rotate; the pressing mechanism is used for pressing a product from the top, the wire clamping mechanism is used for clamping one end of an enameled wire, the wire shearing mechanism is used for shearing the enameled wire, the tensioning device is arranged on the winding mechanism to improve the torsion, and the design can improve the stability of product installation and the stability of processing.

Description

Novel motor winding machine

Technical Field

The utility model relates to a motor processing equipment technical field, in particular to novel motor coiling machine.

Background

Motor rotor need wind the enameled wire, and coiling machine in the past is still stable inadequately to the installation of rotor, and when winding mechanism wound wire in addition, the unwrapping wire ware need drive through the pivot and rotate, winds the enameled wire on the rotor, and the pivot is direct to be connected with the unwrapping wire ware and drives the unwrapping wire ware and rotate round the pivot in the past, and torsion is not enough, leads to the stability of work low to influence wire winding efficiency and wire winding quality, consequently still need improve.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel motor coiling machine mentions the problem in order to solve the background art.

In order to achieve the above object, the present invention provides the following technical solutions:

a novel motor winding machine comprises a box body, a first main shaft driving device, an installation mechanism, a pressing mechanism, a wire clamping mechanism, a wire shearing mechanism and a winding mechanism, wherein the first main shaft driving device, the installation mechanism, the pressing mechanism, the wire clamping mechanism, the wire shearing mechanism and the winding mechanism are installed on the box body;

the mounting mechanism comprises a first main shaft which is vertically arranged and is rotationally connected to the box body and a limiting component arranged on the front side of the first main shaft; a spring chuck is arranged in the first main shaft;

the first main shaft driving device is arranged in the box body and connected with the first main shaft to control the first main shaft to rotate;

the pressing mechanism comprises a frame body, a lifting plate, a first Z-axis driving device and a pressing device; the frame body is of a gantry structure and stretches across the upper part of the box body; the lifting plate can be movably arranged on the frame body up and down; the first Z-axis driving device is arranged on the frame body, and the power output end of the first Z-axis driving device is connected with the lifting plate; the pressing device comprises a second Z-axis driving device and a pressing cylinder; the second Z-axis driving device is arranged on the lifting plate, and the power output end of the second Z-axis driving device is connected with the pressing cylinder; the pressing cylinder is arranged right above the first main shaft;

the wire clamping mechanism is arranged beside the mounting mechanism;

the thread trimming mechanism is arranged on the frame body and is positioned beside the pressing device;

the winding mechanism is arranged at the rear side of the mounting mechanism and comprises a Y-axis driving device, a movable frame, a second main shaft driving device and a winding device; the Y-axis driving device is arranged on the box body, and the power output end of the Y-axis driving device is connected with the movable frame to drive the movable frame to move back and forth; the winding device comprises a second main shaft, a connecting plate, a pay-off nozzle mounting frame, a pay-off nozzle, a tensioning assembly and a jacking assembly; the second main shaft is rotatably connected to the movable frame; the second main shaft driving device is arranged on the movable frame and connected with the second main shaft to drive the second main shaft to rotate; the connecting plate is provided with a first connecting hole and a second connecting hole which are distributed up and down; the connecting plate is fixedly connected with the second spindle through a first connecting hole; the pay-off nozzle is arranged at one end of the connecting plate through the pay-off nozzle mounting frame; the jacking assembly is rotatably connected to the front end of the second main shaft; the tensioning assembly comprises two first gears, two second gears, two synchronous belts and a transmission shaft; the two first gears are sleeved on the second main shaft and are respectively positioned on the front side and the rear side of the connecting plate; the first gear on the rear side is fixed on the front side of the movable frame; the first gear on the front side is fixed on the rear side of the jacking assembly; the two second gears are respectively positioned below the two first gears; the transmission shaft penetrates through the second connecting hole, and two ends of the transmission shaft are respectively connected with the two second gears; and the two synchronous belts are respectively connected between the first gear and the second gear in the same vertical direction.

For further description of the utility model, the installation mechanism, the pressing device, the wire clamping mechanism, the wire cutting mechanism and the winding device are distributed and arranged in three groups from left to right; the first main shaft driving device drives the first main shafts of the three groups of mounting mechanisms to synchronously rotate; and the second main shaft driving device drives the second main shafts of the three groups of winding devices to synchronously rotate.

For further description of the present invention, the limiting component includes a first vertical frame, a limiting block, a first cylinder and a positioning block; the first vertical frame is fixed above the box body; the limiting block is fixed on the first vertical frame; the rear side of the limiting block is provided with an open circular hole-shaped limiting hole; a sliding hole communicated with the limiting hole is formed in the limiting block; the positioning block is connected in the sliding hole in a sliding manner; the first air cylinder is fixed on the first vertical frame, and the power output end of the first air cylinder is connected with the positioning block.

For the further description of the utility model, the wire clamping mechanism comprises a second vertical frame, a second cylinder, a third cylinder, a clamping cylinder and a push rod; the second vertical frame is fixed above the box body; the second cylinder is arranged on the second vertical frame, and the power output end of the second cylinder is connected with the third cylinder to drive the third cylinder to move in the horizontal direction; the clamping cylinder is fixed on one side of the power output end of the third cylinder; an opening is formed in the clamping cylinder; the push rod is fixed at the power output end of the third cylinder and is positioned in the clamping cylinder.

For further description of the present invention, the thread trimming mechanism includes a fourth cylinder and a thread trimmer; the fourth cylinder is fixed above the frame body, and the power output end of the fourth cylinder is connected with the wire shearing device to drive the wire shearing device to move up and down.

To describe the present invention further, the top pressure assembly includes a connecting seat, a positioning seat, an end shell, a pressing block, an elastic element and a limiting member; the first gear positioned on the front side of the connecting plate is fixed on the rear side of the connecting seat and is rotatably connected to the front end of the second main shaft through a bearing; the positioning seat is fixed on the front side of the connecting seat; two positioning fixture blocks which are symmetrically arranged up and down are arranged on the front side of the positioning seat; the end shell is fixed at the front end of the positioning seat; the end shell is provided with a through hole for the positioning fixture block to penetrate through; the middle part of the end shell is provided with a through sliding hole; the pressing block is connected in the slide hole in a sliding way; the front end of the pressing block is provided with an arc-shaped jacking groove; the elastic element is pressed between the positioning seat and the pressing block; the locating part is worn to establish the briquetting and fixes and carry out spacing to the briquetting on the positioning seat and prevent that the briquetting from deviating from.

To the further description of the present invention, the locating part is a screw.

For further description of the present invention, the elastic element employs four springs; the positioning seat is provided with a first mounting hole for mounting a spring; the pressing block is provided with a second mounting hole for mounting a spring; and two ends of the spring are respectively installed in the first installation hole and the second installation hole.

To the utility model discloses a further description, correspond on the unwrapping wire mouth mounting bracket and put the guide pulley that the mouth rear side distributed around installing two sets of.

The utility model has the advantages that:

the rotor is installed and is pressed from both sides tightly through collet chuck on installation mechanism, compress tightly the upper end of fixed rotor through pushing down the mechanism, the rear end of winding mechanism rethread roof pressure subassembly top tight rotor to fix the rotor, after the line on putting the line mouth is cliied to the thread clamping mechanism, can carry out the wire winding processing, this structure is fixed stable to the rotor, and when the second main shaft drove and put the line mouth and rotate, straining device's setting has improved the torsion of second main shaft drive mouth of putting the line, thereby wire-wound stability and work efficiency have been improved.

Drawings

FIG. 1 is an overall structure of the present invention;

FIG. 2 is a structural view of the mounting mechanism of the present invention;

FIG. 3 is a structural diagram of the wire clamping mechanism of the present invention;

FIG. 4 is a structural diagram of the pressing mechanism and the thread trimming mechanism of the present invention;

FIG. 5 is a structural diagram of the winding mechanism of the present invention;

fig. 6 is a top view of the winding device of the present invention;

fig. 7 is a cross-sectional view a-a of fig. 6.

Detailed Description

The invention is further explained below with reference to the drawings:

as shown in fig. 1-7, a novel motor winding machine includes a case 1, and a first spindle driving device 2, an installation mechanism 3, a pressing mechanism 4, a wire clamping mechanism 5, a wire cutting mechanism 6 and a winding mechanism 7 which are installed on the case 1;

the mounting mechanism 3 comprises a first main shaft 31 which is vertically arranged and is rotatably connected to the box body 1 and a limiting component 32 arranged on the front side of the first main shaft 31; a spring chuck 311 is arranged in the first main shaft 31; the limiting assembly 32 comprises a first stand 321, a limiting block 322, a first cylinder 323 and a positioning block 324; the first stand 321 is fixed above the box body 1; the limiting block 322 is fixed on the first stand 321; an open circular hole-shaped limiting hole 3221 is formed in the rear side of the limiting block 322; a slide hole communicated with the limiting hole 3221 is formed in the limiting block 322; the positioning block 324 is connected in the slide hole in a sliding way; the first air cylinder 323 is fixed on the first vertical frame 321, and the power output end is connected with the positioning block 324; the first main shaft driving device 2 is arranged in the box body 1 and connected with the first main shaft 31 to control the rotation of the first main shaft 31; the lower end of the rotor is inserted into the first main shaft 31 and clamped and fixed through the collet chuck 311, when winding is performed, the rotor needs to be reversed, the first main shaft 31 is driven to rotate through the first main shaft driving device 2 to drive the rotor to be reversed, when the rotor is inserted into the main shaft, the limiting hole 3221 in the limiting block 322 is located at the periphery of the rotor to limit the rotor, when winding is performed, the first cylinder 323 can drive the positioning block 324 to push backwards, the positioning block 324 is inserted into a groove in the side wall of the rotor to be positioned, and the rotor needs to be reset when steering is performed.

The pressing mechanism 4 comprises a frame body 41, a lifting plate 42, a first Z-axis driving device 43 and a pressing device 44; the frame body 41 is of a gantry structure and spans above the box body 1; the lifting plate 42 is movably mounted on the frame body 41 up and down; the first Z-axis driving device 43 is mounted on the frame body 41, and the power output end is connected with the lifting plate 42; the pressing device 44 includes a second Z-axis driving device 441 and a pressing cylinder 442; the second Z-axis driving device 441 is mounted on the lifting plate 42, and the power output end of the second Z-axis driving device is connected with the pressing cylinder 442; the pressing cylinder 442 is arranged right above the first main shaft 31; before assembling the rotor, the lifter plate 42 is located upper limit position department, reserve the installation space of rotor for operating personnel, when carrying out work after the rotor installation is accomplished, first Z axle drive arrangement 43 drives lifter plate 42 downstream, thereby drive and push down device 44 downstream, second Z axle drive arrangement 441 pushes down at drive pressure section of thick bamboo 442, it establishes and the roof pressure in the rotor top to press a section of thick bamboo 442 cover, thereby fix the rotor, when the rotor need commutate, second Z axle drive arrangement 441 drives and presses section of thick bamboo 442 to rise can.

The wire clamping mechanism 5 is arranged beside the mounting mechanism 3; the wire clamping mechanism 5 comprises a second vertical frame 51, a second air cylinder 52, a third air cylinder 53, a clamping cylinder 54 and a push rod 55; the second vertical frame 51 is fixed above the box body 1; the second air cylinder 52 is mounted on the second vertical frame 51, and the power output end of the second air cylinder is connected with the third air cylinder 53 to drive the third air cylinder 53 to move in the horizontal direction; the clamping cylinder 54 is fixed on one side of the power output end of the third air cylinder 53; an opening 541 is formed in the clamping cylinder 54; the push rod 55 is fixed at the power output end of the third cylinder 53 and is positioned in the clamping cylinder 54; after the rotor is assembled, before winding, one end of an enameled wire released from the winding mechanism 7 needs to be clamped through the wire clamping mechanism 5, the second cylinder 52 pushes the third cylinder 53 to move forward, the third cylinder 53 drives the push rod 55 to move forward again, the enameled wire is clamped between the push rod 55 and the clamping cylinder 54, and the second cylinder 52 drives the third cylinder 53 to reset again to prepare for winding processing.

The winding mechanism 7 is arranged at the rear side of the mounting mechanism 3 and comprises a Y-axis driving device 71, a movable frame 72, a second main shaft driving device 73 and a winding device 74; the Y-axis driving device 71 is arranged on the box body 1, and the power output end of the Y-axis driving device is connected with the movable frame 72 to drive the movable frame 72 to move back and forth; the winding device 74 comprises a second main shaft 741, a connecting plate 742, a pay-off nozzle mounting frame 743, a pay-off nozzle 744, a tensioning assembly 745 and a jacking assembly 746; the second main shaft 741 is rotatably connected to the movable frame 72; the second spindle driving device 73 is mounted on the movable frame 72 and connected with the second spindle 741 to drive the second spindle 741 to rotate; the connecting plate 742 is provided with a first connecting hole 7421 and a second connecting hole 7422 which are distributed up and down; the connecting plate 742 is fixedly connected with the second main shaft 741 through a first connecting hole 7421; the wire releasing nozzle 744 is mounted at one end of the connecting plate 742 through a wire releasing nozzle mounting frame 743; the jacking component 746 is rotatably connected to the front end of the second main shaft 741; the take-up assembly 745 includes two first gears 7451, two second gears 7452, two timing belts 7453 and a drive shaft 7454; the two first gears 7451 are sleeved on the second main shaft 741 and are respectively located at the front side and the rear side of the connecting plate 742; the first gear 7451 on the rear side is fixed on the front side of the movable frame 72; the first gear 7451 on the front side is fixed on the rear side of the jacking component 746; the two second gears 7452 are located below the two first gears 7451, respectively; the transmission shaft 7454 penetrates through the second connection hole 7422 and both ends of the transmission shaft are respectively connected with the two second gears 7452; the two synchronous belts 7453 are respectively connected between the first gear 7451 and the second gear 7452 in the same vertical direction; after the rotor is assembled and the enameled wire on the wire releasing nozzle 744 is clamped by the wire clamping mechanism 5, the Y-axis driving device 71 drives the movable frame 72 to move forward, so that the pressing component 746 is pressed on the rear side of the rotor to fix the rotor, the second spindle driving device 73 drives the second spindle 741 to rotate, the second spindle 741 drives the connecting plate 742 fixedly connected with the second spindle 741 to rotate, the connecting plate 742 drives the wire releasing nozzle 744 to rotate around the second spindle 741 through the wire releasing nozzle mounting frame 743, so that the wire is wound on the rotor, and in the process that the second spindle 741 drives the connecting plate 742 to rotate, the connecting plate 742 drives the transmission shaft 7454 to rotate around the second spindle 741, and the second synchronous belt 7453 tensions the first gear 7451 and the second gear 7452, which can greatly improve the torsion of the second spindle 741 in transmitting the connecting plate 742, thereby improving the stability of wire winding.

The top pressing component 746 comprises a connecting seat 7461, a positioning seat 7462, an end shell 7463, a pressing block 7464, an elastic element 7465 and a limiting piece 7466; a first gear 7451 positioned at the front side of the connecting plate 742 is fixed at the rear side of the connecting seat 7461 and is rotatably connected to the front end of the second main shaft 741 through a bearing; the positioning seat 7462 is fixed on the front side of the connecting seat 7461; two positioning fixture blocks which are symmetrically arranged up and down are arranged on the front side of the positioning seat 7462; the end shell 7463 is fixed at the front end of the positioning seat 7462; the end shell 7463 is provided with a through hole for the positioning fixture block to penetrate through; the middle part of the end shell 7463 is provided with a through sliding hole; the pressing block 7464 is connected in the slide hole in a sliding way; the front end of the pressing block 7464 is provided with an arc-shaped jacking groove; the elastic element 7465 is pressed between the positioning seat 7462 and the pressing block 7464, and the elastic element 7465 adopts four springs; the positioning seat 7462 is provided with a first mounting hole for mounting a spring; a second mounting hole for mounting a spring is formed in the pressing block 7464; two ends of the spring are respectively installed in the first installation hole and the second installation hole; the limiting piece 7466 penetrates through the overpressure block 7464 and is fixed on the positioning seat 7462 to limit the pressing block 7464 so as to prevent the pressing block 7464 from falling off, the limiting piece 7466 adopts a screw, when the Y-axis driving device 71 pushes the movable frame 72 to move forwards, the pressing block 7464 is firstly pressed on the rotor, a pressing groove on the pressing block 7464 is matched with the outer wall of the rotor, the pressing block 7464 drives a spring to compress until the positioning clamping block above is pressed on the pressing cylinder 442, and therefore the rotor is fixed.

Two groups of guide wheels 7431 which are distributed back and forth are arranged on the wire releasing nozzle mounting frame 743 corresponding to the rear side of the wire releasing nozzle 744, and the guide wheels 7431 are used for guiding the enameled wires.

The thread trimming mechanism 6 is mounted on the frame body 41 and is located beside the pressing device 44; the thread trimming mechanism 6 comprises a fourth cylinder 61 and a thread trimmer 62; the fourth cylinder 61 is fixed above the frame body 41, and the power output end of the fourth cylinder is connected with the wire cutter 62 to drive the wire cutter 62 to move up and down; after the winding is completed, the fourth cylinder 61 drives the wire cutter 62 to move downwards, and the wire cutter 62 cuts the enameled wire to prepare for the next processing.

In the design, the mounting mechanism 3, the pressing device 44, the wire clamping mechanism 5, the wire cutting mechanism 6 and the winding device 74 are distributed in three groups from left to right; the first main shaft driving device 2 drives the first main shafts 31 of the three groups of mounting mechanisms 3 to synchronously rotate; the second main shaft driving device 73 drives the second main shafts 741 of the three winding devices 74 to synchronously rotate, and at the same time, three rotors can be installed to perform winding processing on the three rotors, thereby improving the working efficiency.

The working principle of the embodiment is as follows:

the lower end of the rotor is inserted into the first main shaft 31 and clamped and fixed by the collet chuck 311, when the rotor is inserted into the main shaft, the limiting hole 3221 on the limiting block 322 is located at the periphery of the rotor to limit the rotor, during operation, the first cylinder 323 drives the positioning block 324 to push backwards, the positioning block 324 is inserted into the groove of the side wall of the rotor to position, the pressing mechanism 4 drives the lifting plate 42 to move downwards through the first Z-axis driving device 43, so as to drive the pressing device 44 to move downwards, the second Z-axis driving device 441 presses downwards through the driving pressing cylinder 442, the pressing cylinder 442 is sleeved and pressed above the rotor, so as to fix the rotor from above, after one end of the enameled wire on the wire releasing nozzle 744 on the winding mechanism 7 is clamped and fixed through the wire clamping mechanism 5, the Y-axis driving device 71 drives the movable frame 72 to move forwards, so that the pressing assembly 746 is pressed tightly at the rear side of the rotor to fix the rotor, the second spindle driving device 73 drives the second spindle 741 to rotate, the second spindle 741 drives a connecting plate 742 fixedly connected with the second spindle 741 to rotate, the connecting plate 742 drives the unwinding nozzle 744 to rotate around the second spindle 741 through the unwinding nozzle mounting frame 743, so that the wire is wound on the rotor, when the rotor needs to be reversed, the first cylinder 323 drives the positioning block 324 to reset, the second Z-axis driving device 441 drives the pressing cylinder 442 to reset, the Y-axis driving device 71 drives the unwinding nozzle 744 to reset, the first spindle driving device 2 drives the first spindle 31 to rotate again to reverse the rotor, the rotor is clamped again after the rotor is reversed to perform winding processing, and finally, the enameled wire is cut through the wire cutting mechanism 6 after all directions are wound.

The above description is not intended to limit the technical scope of the present invention, and any modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are still within the scope of the technical solution of the present invention.

Claims

1. A novel motor coiling machine which is characterized in that: the wire winding machine comprises a box body, a first main shaft driving device, an installation mechanism, a pressing mechanism, a wire clamping mechanism, a wire shearing mechanism and a wire winding mechanism, wherein the first main shaft driving device, the installation mechanism, the pressing mechanism, the wire clamping mechanism, the wire shearing mechanism and the wire winding mechanism are installed on the box body;

the wire clamping mechanism is arranged beside the mounting mechanism;

the winding mechanism is arranged at the rear side of the mounting mechanism and comprises a Y-axis driving device, a movable frame, a second main shaft driving device and a winding device; the Y-axis driving device is arranged on the box body, and the power output end of the Y-axis driving device is connected with the movable frame to drive the movable frame to move back and forth; the winding device comprises a second main shaft, a connecting plate, a pay-off nozzle mounting frame, a pay-off nozzle, a tensioning assembly and a jacking assembly; the second main shaft is rotatably connected to the movable frame;

the second main shaft driving device is arranged on the movable frame and connected with the second main shaft to drive the second main shaft to rotate; the connecting plate is provided with a first connecting hole and a second connecting hole which are distributed up and down; the connecting plate is fixedly connected with the second spindle through a first connecting hole; the pay-off nozzle is arranged at one end of the connecting plate through the pay-off nozzle mounting frame; the jacking assembly is rotatably connected to the front end of the second main shaft; the tensioning assembly comprises two first gears, two second gears, two synchronous belts and a transmission shaft; the two first gears are sleeved on the second main shaft and are respectively positioned on the front side and the rear side of the connecting plate; the first gear on the rear side is fixed on the front side of the movable frame; the first gear on the front side is fixed on the rear side of the jacking assembly; the two second gears are respectively positioned below the two first gears; the transmission shaft penetrates through the second connecting hole, and two ends of the transmission shaft are respectively connected with the two second gears; and the two synchronous belts are respectively connected between the first gear and the second gear in the same vertical direction.

2. The novel motor winding machine of claim 1, wherein: the mounting mechanism, the pressing device, the wire clamping mechanism, the wire cutting mechanism and the winding device are distributed in three groups from left to right; the first main shaft driving device drives the first main shafts of the three groups of mounting mechanisms to synchronously rotate; and the second main shaft driving device drives the second main shafts of the three groups of winding devices to synchronously rotate.

3. The novel motor winding machine of claim 1, wherein: the limiting assembly comprises a first vertical frame, a limiting block, a first air cylinder and a positioning block; the first vertical frame is fixed above the box body; the limiting block is fixed on the first vertical frame; the rear side of the limiting block is provided with an open circular hole-shaped limiting hole; a sliding hole communicated with the limiting hole is formed in the limiting block; the positioning block is connected in the sliding hole in a sliding manner; the first air cylinder is fixed on the first vertical frame, and the power output end of the first air cylinder is connected with the positioning block.

4. The novel motor winding machine of claim 1, wherein: the wire clamping mechanism comprises a second vertical frame, a second cylinder, a third cylinder, a clamping barrel and a push rod; the second vertical frame is fixed above the box body; the second cylinder is arranged on the second vertical frame, and the power output end of the second cylinder is connected with the third cylinder to drive the third cylinder to move in the horizontal direction; the clamping cylinder is fixed on one side of the power output end of the third cylinder; an opening is formed in the clamping cylinder; the push rod is fixed at the power output end of the third cylinder and is positioned in the clamping cylinder.

5. The novel motor winding machine of claim 1, wherein: the thread trimming mechanism comprises a fourth cylinder and a thread trimmer; the fourth cylinder is fixed above the frame body, and the power output end of the fourth cylinder is connected with the wire shearing device to drive the wire shearing device to move up and down.

6. The novel motor winding machine of claim 1, wherein: the jacking assembly comprises a connecting seat, a positioning seat, an end shell, a pressing block, an elastic element and a limiting part; the first gear positioned on the front side of the connecting plate is fixed on the rear side of the connecting seat and is rotatably connected to the front end of the second main shaft through a bearing; the positioning seat is fixed on the front side of the connecting seat; two positioning fixture blocks which are symmetrically arranged up and down are arranged on the front side of the positioning seat; the end shell is fixed at the front end of the positioning seat; the end shell is provided with a through hole for the positioning fixture block to penetrate through; the middle part of the end shell is provided with a through sliding hole; the pressing block is connected in the slide hole in a sliding way; the front end of the pressing block is provided with an arc-shaped jacking groove; the elastic element is pressed between the positioning seat and the pressing block; the locating part is worn to establish the briquetting and fixes and carry out spacing to the briquetting on the positioning seat and prevent that the briquetting from deviating from.

7. The novel motor winding machine of claim 6, wherein: the limiting part is a screw.

8. The novel motor winding machine of claim 6, wherein: the elastic element adopts four springs; the positioning seat is provided with a first mounting hole for mounting a spring; the pressing block is provided with a second mounting hole for mounting a spring; and two ends of the spring are respectively installed in the first installation hole and the second installation hole.

9. The novel motor winding machine of claim 1, wherein: and two groups of guide wheels which are distributed front and back are arranged on the wire releasing nozzle mounting frame corresponding to the rear side of the wire releasing nozzle.