CN221408643U - Winding mechanism for motor stator processing - Google Patents

Abstract

The utility model relates to the technical field of motor processing devices, in particular to a winding mechanism for motor stator processing, which comprises a tension adjusting component for controlling the tension of copper wires, a moving component for driving a paying-off device to move and a rotating component for driving a fixed component to rotate, wherein one side of the tension adjusting component is connected with one side of the paying-off device, the outer part of the paying-off device is arranged on the side part of the moving component, the bottom of the moving component is connected with the top of a workbench, the top of the workbench is also provided with the rotating component, and one side of the rotating component is provided with the fixed component; through the use of above-mentioned subassembly for wire winding mechanism can be according to actual demand to the tension of copper wire in wire winding process regulation, lets the winding of copper wire and stator inseparabler, satisfies the operation requirement.

Description

Winding mechanism for motor stator processing

Technical Field

The utility model relates to the technical field of motor processing devices, in particular to a winding mechanism for motor stator processing.

Background

All motor structures all include two parts such as stator and rotor, in the flow of processing production stator, need twine single copper line on the bobbin, application number CN202320606082.9, "a motor stator processing is with winding mechanism", through starting motor two, motor two drives the screw rod that the output is being connected and rotates, screw rod pivoted drives outside threaded connection's screw thread piece, under the effect of guide block, the screw thread piece moves about, the lower part mounting bracket is driven to the screw thread piece removes, and drive the wire roller and remove, thereby realize that motor stator is more even orderly when the wire winding, through starting motor one, the carousel that motor one is driving the output and is connecting rotates, the fly leaf on connecting rod upper portion is moved when the carousel rotates, the fly leaf is moving the fly leaf that the lower part connecting axle is being connected, under the effect of slider, make the fly leaf move about the upper portion of processing platform, thereby realize full-automatic with the copper wire inlay around on motor stator, the manpower is saved, efficiency is improved.

But the copper wires with different diameters are also different in tension when being embedded and wound, and the winding mechanism cannot adjust the tension of the copper wires according to actual requirements in the process of winding the copper wires to the stator, so that the copper wires and the stator are possibly not tightly wound, and the use requirement cannot be met.

Disclosure of utility model

The utility model aims to provide a winding mechanism for motor stator processing, which enables the tension of a copper wire in the winding process to be adjustable so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a motor stator processing is with wire winding mechanism, includes the tension adjustment subassembly that is used for controlling copper wire tension, is used for driving the removal subassembly that the unwrapping wire ware removed and is used for driving the rotatory rotating assembly of fixed subassembly, tension adjustment subassembly one side connect in one side of unwrapping wire ware, the outside of unwrapping wire ware sets up in the lateral part of removing the subassembly, the bottom of removing the subassembly is connected in the top of workstation, the top of workstation still is equipped with rotating assembly, one side of rotating assembly is equipped with fixed subassembly;

Wherein the tension adjustment assembly comprises: the inner ring of the fixed plate is connected to the outside of the sleeve in a threaded manner, the inner ring of the sleeve is sleeved on the outside of the guide rod in a sliding manner, the bottom of the guide rod is fixedly connected to the top of the friction block, and the bottom of the friction block is connected to the outside of the friction sleeve in a sliding manner.

Preferably, a spring is arranged outside the guide rod, and two ends of the spring are supported between the sleeve and the friction block.

Preferably, the paying-off device includes: the wire roller, the pivot at wire roller both ends rotates to be connected in the both sides of mounting bracket, one side fixed connection of mounting bracket in one side of fixed plate, the outside of pivot fixed grafting in the inner circle of friction sleeve.

Preferably, the moving assembly includes: the first supporting plate, the bottom fixed connection of backup pad one is in the top of workstation, the lateral part fixed connection of backup pad one is in the outside of motor one, the output of motor one passes through the one end of coupling joint in the screw rod, the other end of screw rod rotates to be connected in the lateral part of backup pad two, the bottom fixed connection of backup pad two in the top of workstation, the outside threaded connection of screw rod is in the inside of roating seat, the outside fixed connection of roating seat in the outside of mounting bracket.

Preferably, a limiting rod is arranged on the upper portion of the screw rod, the outer portion of the limiting rod is inserted into the rotating seat in a sliding mode, one end of the limiting rod is fixedly connected to one side of the first supporting plate, and the other end of the limiting rod is fixedly connected to one side of the second supporting plate.

Preferably, the rotating assembly includes: the third supporting plate is fixedly connected to the top of the workbench at the bottom of the third supporting plate, one side of the third supporting plate is fixedly connected to the outside of the second motor, and the output end of the second motor is connected to one side of the turntable in a key manner.

Preferably, a chute is formed in the side portion of the turntable.

Preferably, the fixing assembly includes: the side part of the mounting plate is fixedly connected with the groove wall of the sliding groove, the inner ring of the mounting plate is rotationally connected with the outer part of the left-right screw rod, the end part of the left-right screw rod is fixedly connected with the outer part of the knob, the outer threads of the left-right screw rod are connected with the inner ring of the sliding block, and the outer part of the sliding block is fixedly connected with one side of the clamping block.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the moving assembly drives the wire roller to reciprocate, so that the copper wire is wound outside the stator die more uniformly, the resistance applied to the wire roller during rotation is changed through the tension adjusting assembly, and the tension applied to the copper wire during winding is further changed; through the use of above-mentioned subassembly for wire winding mechanism can be according to actual demand to the tension of copper wire in wire winding process regulation, lets the winding of copper wire and stator inseparabler, satisfies the operation requirement.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an explosive structure according to the present utility model;

FIG. 3 is a schematic diagram of a moving assembly according to the present utility model;

FIG. 4 is a schematic diagram of a payoff device according to the present utility model;

FIG. 5 is a schematic view of a tension adjusting assembly according to the present utility model;

FIG. 6 is a schematic view of a rotating assembly according to the present utility model;

Fig. 7 is a schematic structural view of a fixing assembly according to the present utility model.

In the figure: 1. a rotating assembly; 2. a fixing assembly; 3. a stator mold; 4. a moving assembly; 5. a paying-off device; 6. a tension adjustment assembly; 7. a first motor; 8. a first supporting plate; 9. a limit rod; 10. a rotating seat; 11. a second supporting plate; 12. a screw; 13. a mounting frame; 14. a wire roller; 15. a rotating shaft; 16. a sleeve; 17. a guide rod; 18. a fixing plate; 19. a spring; 20. a friction block; 21. a friction sleeve; 22. a second motor; 23. a third supporting plate; 24. a turntable; 25. a chute; 26. a left-right screw rod; 27. a slide block; 28. a knob; 29. a mounting plate; 30. clamping blocks; 31. a working table.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, the present utility model provides a technical solution: a winding mechanism for motor stator processing, comprising: tension adjusting component 6 for controlling copper wire tension, be used for driving the removal subassembly 4 that unwrapping wire ware 5 removed and be used for driving the rotatory rotating assembly 1 of fixed subassembly 2, tension adjusting component 6's one side is connected in one side of unwrapping wire ware 5, and the outside of unwrapping wire ware 5 sets up in the lateral part of removal subassembly 4, and the bottom of removal subassembly 4 is connected in the top of workstation 31, and the top of workstation 31 still is equipped with rotating assembly 1, and one side of rotating assembly 1 is equipped with fixed subassembly 2.

The tension adjusting assembly 6 includes: the fixed plate 18, the inner circle threaded connection of fixed plate 18 is in the outside of sleeve 16, and the inner circle of sleeve 16 cup joints in the outside of guide bar 17, and the bottom fixed connection of guide bar 17 is in the top of friction block 20, and the bottom sliding connection of friction block 20 is in the outside of friction sleeve 21.

The outside of the guide bar 17 is provided with a spring 19, and both ends of the spring 19 are supported between the sleeve 16 and the friction block 20.

Further, when the sleeve 16 is rotated, the sleeve 16 moves towards the direction of the friction block 20 or is far away from the friction block 20, so that the compression amount of the sleeve 16 to the spring 19 is changed, the pressure of the spring 19 to the friction block 20 and the pressure of the friction block 20 to the friction sleeve 21 are changed, the resistance received when the friction block 20 and the friction sleeve 21 rotate is changed, the resistance received when the friction sleeve 21 rotates is changed, the resistance received when the wire roll 14 rotates is changed, the tension received when the copper wire is further changed, and the tension of the copper wire is changed and adjusted.

The pay-off device 5 includes: the wire roller 14, the pivot 15 at wire roller 14 both ends rotate and connect in the both sides of mounting bracket 13, and one side fixed connection of mounting bracket 13 is in one side of fixed plate 18, and the outside fixed grafting of pivot 15 is in the inner circle of friction sleeve 21.

Further, the copper wire is coiled outside the wire roller 14 before being wound outside the stator die 3, the whole fixing assembly 2 and the stator die 3 are driven to rotate together by the rotating assembly 1, and the copper wire is wound outside the stator die 3 from the wire roller 14, so that the paying-off action of the paying-off device 5 is realized.

The moving assembly 4 includes: the first supporting plate 8, the bottom fixed connection of the first supporting plate 8 is in the top of workstation 31, the lateral part fixed connection of the first supporting plate 8 is in the outside of motor one 7, the output of motor one 7 passes through the one end of shaft coupling connection in screw rod 12, the other end rotation of screw rod 12 is connected in the lateral part of backup pad two 11, the bottom fixed connection of backup pad two 11 is in the top of workstation 31, the outside threaded connection of screw rod 12 is in the inside of roating seat 10, the outside fixed connection of roating seat 10 is in the outside of mounting bracket 13.

The upper portion of screw rod 12 is equipped with gag lever post 9, and the outside of gag lever post 9 slides and pegs graft in the inside of roating seat 10, and one end fixed connection of gag lever post 9 is in one side of backup pad one 8, and the other end fixed connection of gag lever post 9 is in one side of backup pad two 11.

Further, the first motor 7 drives the screw rod 12 to rotate, and the screw rod 12 drives the rotating seat 10 to move between the first support plate 8 and the second support plate 11; the rotary seat 10 is limited by the limiting rod 9 to prevent the rotary seat 10 from rotating around the screw 12 in the moving process.

The rotating assembly 1 includes: the third supporting plate 23, the bottom of the third supporting plate 23 is fixedly connected to the top of the workbench 31, one side of the third supporting plate 23 is fixedly connected to the outside of the second motor 22, and the output end of the second motor 22 is connected to one side of the turntable 24 in a key manner.

Further, the second motor 22 drives the turntable 24 to rotate, and the turntable 24 drives the whole fixing assembly 2 and the stator mold 3 to rotate together, so that the copper wire is wound from the wire roll 14 to the outside of the stator mold 3.

The fixing assembly 2 includes: the mounting plate 29, the lateral part fixed connection of mounting plate 29 is in the cell wall of spout 25, and the inner circle of mounting plate 29 rotates the outside of being connected in left and right-handed lead screw 26, and the tip fixed connection of left and right-handed lead screw 26 is in the outside of knob 28, and the outside threaded connection of left and right-handed lead screw 26 is in the inner circle of slider 27, and the outside fixed connection of slider 27 is in one side of clamp splice 30.

Further, the knob 28 is turned, the knob 28 drives the left-right screw rod 26 to rotate, the left-right screw rod 26 drives the two sliding blocks 27 to be mutually close, and the two sliding blocks 27 drive the two clamping blocks 30 to be mutually close, so that clamping and fixing of the two clamping blocks 30 to the stator mold 3 are realized.

Further, a sliding groove 25 is formed in the side portion of the turntable 24, and the groove wall of the sliding groove 25 is slidably connected with two sides of the sliding block 27, so that the limiting effect of the sliding groove 25 on the sliding block 27 is achieved, and the sliding block 27 is prevented from rotating around the left-right screw rod 26.

Working principle: when the stator mold is used, one end of the stator mold 3 is placed between two clamping blocks 30, then the knob 28 is rotated, the knob 28 drives the left-right screw rod 26 to rotate, the left-right screw rod 26 drives the two sliding blocks 27 to be mutually closed, and the two sliding blocks 27 drive the two clamping blocks 30 to be mutually closed, so that the stator mold 3 is clamped and fixed between the two clamping blocks 30; then one end of the copper wire on the wire roller 14 is wound outside the stator mold 3, the motor II 22 drives the turntable 24 to rotate, and the turntable 24 drives the whole fixing assembly 2 and the stator mold 3 to rotate together, so that the copper wire is wound outside the stator mold 3 from the wire roller 14; in the winding process, the motor I7 drives the screw rod 12 to rotate in a reciprocating manner, so that the rotary seat 10 moves in a reciprocating manner between the support plate I8 and the support plate II 11, and the rotary seat 10 drives the wire roller 14 to move in a reciprocating manner through the mounting frame 13, so that the copper wire is wound outside the stator die 3 more uniformly; during winding, the sleeve 16 can be moved towards the friction block 20 or away from the friction block 20 by rotating the sleeve 16, so that the compression amount of the sleeve 16 to the spring 19 is changed, the pressure of the spring 19 to the friction block 20 and the pressure of the friction block 20 to the friction sleeve 21 are changed, the resistance applied to the wire roller 14 during rotation is changed by changing the pressure of the friction block 20 to the friction sleeve 21, and the tension of the copper wire during winding is changed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The winding mechanism for machining the motor stator is characterized by comprising a tension adjusting component (6) for controlling the tension of a copper wire, a moving component (4) for driving a paying-off device (5) to move and a rotating component (1) for driving a fixing component (2) to rotate, wherein one side of the tension adjusting component (6) is connected with one side of the paying-off device (5), the outer part of the paying-off device (5) is arranged on the side part of the moving component (4), the bottom of the moving component (4) is connected with the top of a workbench (31), the rotating component (1) is further arranged at the top of the workbench (31), and the fixing component (2) is arranged on one side of the rotating component (1);

Wherein the tension adjusting assembly (6) comprises: the fixed plate (18), the inner circle threaded connection of fixed plate (18) is in the outside of sleeve (16), the inside circle sliding sleeve of sleeve (16) is in the outside of guide bar (17), the bottom fixed connection of guide bar (17) is in the top of friction disc (20), the bottom sliding connection of friction disc (20) is in the outside of friction sleeve (21).

2. The winding mechanism for processing a motor stator according to claim 1, wherein: the outside of guide bar (17) is equipped with spring (19), the both ends of spring (19) support between sleeve (16) and friction piece (20).

3. The winding mechanism for processing a motor stator according to claim 1, wherein: the pay-off device (5) comprises: the wire roller (14), pivot (15) at wire roller (14) both ends rotate and connect in the both sides of mounting bracket (13), one side of mounting bracket (13) fixed connection in one side of fixed plate (18), the outside of pivot (15) fixedly peg graft in the inner circle of friction sleeve (21).

4. A winding mechanism for processing a motor stator according to claim 3, wherein: the moving assembly (4) comprises: the support plate I (8), the bottom fixed connection of support plate I (8) is in the top of workstation (31), the lateral part fixed connection of support plate I (8) is in the outside of motor I (7), the output of motor I (7) passes through the one end of coupling joint in screw rod (12), the other end rotation of screw rod (12) is connected in the lateral part of support plate II (11), the bottom fixed connection of support plate II (11) in the top of workstation (31), the outside threaded connection of screw rod (12) is in the inside of roating seat (10), the outside fixed connection of roating seat (10) in the outside of mounting bracket (13).

5. The winding mechanism for processing a motor stator according to claim 4, wherein: the upper portion of screw rod (12) is equipped with gag lever post (9), the outside of gag lever post (9) slip peg graft in the inside of roating seat (10), the one end fixed connection of gag lever post (9) in one side of backup pad one (8), the other end fixed connection of gag lever post (9) in one side of backup pad two (11).

6. The winding mechanism for processing a motor stator according to claim 1, wherein: the rotating assembly (1) comprises: the three (23) of backup pad, the bottom fixed connection of backup pad three (23) in the top of workstation (31), one side fixed connection of backup pad three (23) is in the outside of motor two (22), the output key of motor two (22) is connected in one side of carousel (24).

7. The winding mechanism for processing a motor stator according to claim 6, wherein: a sliding groove (25) is formed in the side portion of the rotary table (24).

8. The winding mechanism for processing a motor stator according to claim 7, wherein: the fixing assembly (2) comprises: the mounting plate (29), the lateral part fixed connection of mounting plate (29) in the cell wall of spout (25), the inner circle of mounting plate (29) rotates the outside of connecting in left and right-handed screw (26), the tip fixed connection of left and right-handed screw (26) is in the outside of knob (28), the outside threaded connection of left and right-handed screw (26) is in the inner circle of slider (27), the outside fixed connection of slider (27) is in one side of clamp splice (30).