CN220232922U - Winding mechanism of full-automatic winding paint stripper - Google Patents

Abstract

The utility model discloses a winding mechanism of a full-automatic winding paint stripping machine, which comprises a winding die holder, a rotary winding device, a winding driving module, a wire pressing device and a wire cutting device, wherein the rotary winding device is used for rotating a copper wire to rotate and wind a winding boss of a jig plate, the winding driving module is used for driving the rotary winding device to move, the wire pressing device is used for clamping one end of the copper wire, the wire cutting device is used for cutting the copper wire, the rotary winding device is movably arranged above the winding die holder through the winding driving module, the wire pressing device and the wire cutting device are respectively arranged at the front side and the rear side of the winding die holder in a relative mode, and the rotary winding device comprises a winding shaft mounting seat, a winding shaft lifting driving device, a lifting plate, a plurality of winding shaft rotating driving devices, a driving synchronous wheel, a synchronous belt and a plurality of belt pressing pieces.

Description

Winding mechanism of full-automatic winding paint stripper

Technical Field

The utility model relates to the technical field of automatic equipment, in particular to a winding mechanism of a full-automatic winding paint stripper.

Background

The inductance element is one of three components in the electronic component industry, and plays an extremely important role in the electronic industry, however, in the traditional inductance element production line, a copper wire is wound on a boss through a worker, the steps are troublesome and time-consuming to operate by the worker, the labor intensity of the worker is greatly increased, the production efficiency is low, the production quality is difficult to guarantee, and the production is not facilitated.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provide a winding mechanism capable of realizing automatic winding and automatic cutting operation of copper wires.

In order to achieve the above purpose, the utility model provides a winding mechanism of a full-automatic winding and paint stripping machine, which comprises a winding die holder, a rotary winding device, a winding driving module, a wire pressing device and a wire cutting device, wherein the rotary winding device is used for rotating a copper wire and winding a winding boss of a jig plate, the winding driving module is used for driving the rotary winding device to move, the wire pressing device is used for clamping one end of the copper wire, the wire cutting device is used for cutting the copper wire, the rotary winding device is movably arranged above the winding die holder through the winding driving module, and the wire pressing device and the wire cutting device are respectively arranged at the front side and the rear side of the winding die holder relatively.

Preferably, the rotary winding device comprises a winding shaft mounting seat, a winding shaft lifting driving device, a lifting plate, a plurality of winding rotating shafts, a winding shaft rotary driving device, a driving synchronous wheel, a synchronous belt and a plurality of belt compacting pieces, wherein the winding shaft mounting seat is movably arranged above the winding shaft die holder through a winding driving module, the winding shaft lifting driving device is arranged on the winding shaft mounting seat and is in transmission connection with the lifting plate, the winding rotating shafts rotatably penetrate through the lifting plate and are arranged on the winding shaft mounting seat, the winding shaft rotary driving device is arranged on one side of the winding shaft mounting seat, the driving synchronous wheel is in transmission connection with an output shaft of the winding shaft rotary driving device through a speed reducer, the middle parts of the winding rotating shafts are respectively provided with a driven synchronous wheel, and the driving synchronous wheel is in transmission connection with each driven synchronous wheel so as to drive the winding rotating shafts to rotate through the synchronous belt, and the belt compacting pieces are respectively arranged between two adjacent winding rotating shafts at intervals.

Preferably, the winding rotating shaft comprises a rotating mandrel, a rotating bearing, a winding spring, a guide pin mounting seat, a wire passing rod, a winding guide pin and a movable shaft sleeve, wherein the rotating mandrel sequentially penetrates through holes of the driven synchronous wheel and the rotating bearing and stretches out of the bottom of the rotating bearing, the wire passing rod is longitudinally arranged in the driven synchronous wheel and the rotating bearing and positioned at the side edge of the rotating mandrel, the winding spring is arranged on the upper part of the rotating mandrel and penetrates through the movable shaft sleeve to be arranged at the position of the lifting plate, the guide pin mounting seat is arranged at the bottom of the rotating bearing and sleeved on the rotating mandrel, and the winding guide pin is obliquely arranged on the guide pin mounting seat.

Preferably, the wire pressing device comprises a wire pressing block mounting plate, a wire pressing block, wire pressing springs, a check ring and a wire pressing block driving device, wherein the wire pressing block driving device is horizontally arranged on one side of a wire winding die holder, one side of the wire pressing block mounting plate is in transmission connection with an output shaft of the wire pressing block driving device, a plurality of wire pressing springs parallel to the translation direction of the wire pressing block are arranged between the wire pressing block and the other side of the wire pressing block mounting plate, and the check ring is respectively sleeved in the middle of the plurality of wire pressing springs.

Preferably, the wire cutting device comprises a wire cutting driving device, wire cutting blocks and cutters, wherein the wire cutting driving device is vertically arranged on the other side of the wire winding die holder, the wire cutting blocks are in transmission connection with an output shaft of the wire cutting driving device, and the cutters are provided with a plurality of wire cutting blocks and are vertically arranged on the wire cutting blocks respectively.

Preferably, the hot air blowing device comprises a hot air cylinder and a hot air pipe, wherein the hot air cylinder is arranged on one side of each winding rotating shaft at intervals, the hot air pipe is arranged at the bottom of the hot air cylinder and faces the lower side of the winding rotating shaft, the cold air blowing device is rotatably arranged on the other side of the winding rotating shaft, a plurality of cold air pipes are arranged on the cold air blowing device at intervals, and the cold air pipes face the lower side of the winding rotating shaft.

The wire clamping device comprises a wire clamping block mounting plate, a wire clamping push plate, wire clamping blocks, a wire clamping block driving device and wire guide plates, wherein the wire clamping block driving device is horizontally arranged at the top of a winding shaft mounting seat, one side of the wire clamping push plate is in transmission connection with an output shaft of the wire clamping block driving device, a plurality of wire clamping blocks are respectively and fixedly arranged on the other side of the wire clamping push plate at intervals and extend out of the wire clamping block mounting plate, the wire guide plates are respectively arranged on the upper side and the lower side of the wire clamping blocks, and threading holes consistent with the number of the wire clamping blocks are respectively and alternately arranged on the two wire guide plates.

Preferably, the winding driving module comprises a Y-axis translation driving device, an X-axis translation driving device and a Z-axis lifting driving device, wherein the X-axis translation driving device is arranged at a translation part of the Y-axis translation driving device, the Z-axis lifting driving device is arranged at a translation part of the X-axis translation driving device, and the rotary winding device is arranged at a lifting part of the Z-axis lifting driving device.

Preferably, the wire drawing frame is arranged on the moving path of the copper wire and is positioned above the wire pressing device, and a plurality of wire hanging hooks are arranged on the wire drawing frame at intervals.

Preferably, the wire winding die holder further comprises a jacking device, the jacking device comprises a jacking air cylinder, a jacking supporting plate, a guide sleeve and a guide pillar, the jacking air cylinder is upwards arranged on a mounting plate at the bottom of the wire winding die holder, the jacking supporting plate is in transmission connection with an output shaft of the jacking air cylinder and is positioned at the bottom of the jig plate, the upper ends of the guide pillars are respectively arranged at the bottom of the jacking supporting plate, and the lower ends of the guide pillars downwards penetrate through the mounting plate and are inserted into the corresponding guide sleeves.

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

the automatic wire winding device is simple and novel in structure and reasonable in design, the wire winding device, the wire winding driving module, the wire pressing device and the wire cutting device are arranged, the wire head of the copper wire can be pressed before the wire winding starts through the wire pressing device, the wire winding driving module drives the rotary wire winding device to automatically wind the copper wire, the copper wire after the wire winding is cut off by the wire cutting device of the wire winding mechanism, automatic wire winding and automatic cutting operation of the copper wire can be achieved, the automation degree is high, the production efficiency is improved, the production quality is guaranteed, and the large-scale production requirement of enterprises can be met.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a winding mechanism of a full-automatic winding paint stripper according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a part of a winding mechanism of a full-automatic winding and paint stripping machine according to an embodiment of the present utility model;

fig. 3 is a schematic diagram of a part of a winding mechanism of a full-automatic winding and paint stripping machine according to a second embodiment of the present utility model;

fig. 4 is a schematic structural diagram of a rotary winding device of a winding mechanism of a full-automatic winding paint stripper according to an embodiment of the present utility model;

fig. 5 is a schematic structural view of a winding rotating shaft of a winding mechanism of a full-automatic winding paint stripper according to an embodiment of the present utility model;

fig. 6 is a schematic structural view of a winding die holder of a winding mechanism of a full-automatic winding paint stripper according to an embodiment of the present utility model;

fig. 7 is an enlarged schematic view of a wire pressing device of a wire winding mechanism of a full-automatic wire winding and paint peeling machine according to an embodiment of the present utility model;

fig. 8 is a schematic structural diagram of a jacking device of a winding mechanism of a full-automatic winding and paint stripping machine according to an embodiment of the present utility model;

fig. 9 is a schematic structural diagram of a wire clamping device of a winding mechanism of a full-automatic winding and paint stripping machine according to an embodiment of the present utility model.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. 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, an embodiment of the utility model provides a winding mechanism of a full-automatic winding and paint stripping machine, which comprises a winding die holder 40, a rotary winding device 41 for rotating a copper wire and winding a winding boss of a jig plate, a winding driving module 42 for driving the rotary winding device to move, a wire pressing device 43 for clamping one end of the copper wire, a wire cutting device 44 for cutting the copper wire, a jig plate 2 and the like, and the following detailed description is given for each component part of the embodiment with reference to the accompanying drawings.

As shown in fig. 1 to 3, the rotary winding device 41 may be movably disposed above the winding die holder 40 by a winding driving module 42, and the wire pressing device 43 and the wire cutting device 44 are respectively disposed at front and rear sides of the winding die holder 40.

As shown in fig. 4, the rotary winding device 41 may include a winding shaft mounting seat 411, a winding shaft lifting driving device 412, a lifting plate 413, a plurality of winding rotating shafts 414, a winding shaft rotating driving device 415, a driving synchronizing wheel 416, a synchronizing belt 417 and a plurality of belt compacting members 418, wherein the winding shaft mounting seat 411 is movably arranged above the winding mold seat 40 through the winding driving module 42, the winding shaft lifting driving device 412 is arranged on the winding shaft mounting seat 411 and is in transmission connection with the lifting plate 413, the plurality of winding rotating shafts 414 rotatably penetrate through the lifting plate 413 and are arranged on the winding shaft mounting seat 411, the winding shaft rotating driving device 415 is arranged on one side of the winding shaft mounting seat 411, the driving synchronizing wheel 416 is in transmission connection with an output shaft of the winding shaft rotating driving device 415 through a speed reducer 419, driven synchronizing wheels 4141 are respectively arranged at the middle parts of the plurality of winding rotating shafts 414, the driving synchronizing wheel 416 is in transmission connection with each driven synchronizing wheel 4141 through the synchronizing belt so as to drive the winding rotating shafts 414 to rotate, and the plurality of belt compacting members 418 are respectively arranged between two adjacent winding rotating shafts 414 at intervals.

As shown in fig. 5, the winding rotating shaft 414 may include a rotating mandrel 4142, a rotating bearing 4143, a winding spring 4144, a guide pin mounting seat 4145, a wire passing rod 4146, a winding guide pin 4147 and a movable shaft sleeve 4148, wherein the rotating mandrel 4142 sequentially passes through holes of the driven synchronizing wheel 4141 and the rotating bearing 4143 and extends out of the bottom of the rotating bearing 4143, the wire passing rod 4146 is longitudinally installed in the driven synchronizing wheel 4141 and the rotating bearing 4143 and is positioned at the side of the rotating mandrel 4142, the winding spring 4144 is arranged at the upper part of the rotating mandrel 4142 and passes through the movable shaft sleeve 4148 to be arranged at the position of the lifting plate 413, the guide pin mounting seat 4145 is arranged at the bottom of the rotating bearing 4143 and is sleeved on the rotating mandrel 4142, and the winding guide pin 4147 is obliquely arranged on the guide pin mounting seat 4145.

Preferably, the winding driving module 42 may include a Y-axis translation driving device 421, an X-axis translation driving device 422, and a Z-axis lifting driving device 423, where the X-axis translation driving device 422 is mounted on a translation portion of the Y-axis translation driving device 421, the Z-axis lifting driving device 423 is mounted on a translation portion of the X-axis translation driving device 422, and the rotary winding device 41 is mounted on a lifting portion of the Z-axis lifting driving device 423. The Y-axis translational driving device 421 may be a commercially available translational driving device (such as a motor+a screw+a nut+a translational seat), the X-axis translational driving device 422 may be a commercially available translational driving device (such as a translational module+a translational seat), and the Z-axis lifting driving device 423 may be a commercially available lifting driving device (such as a lifting module+a lifting seat), which is not described herein.

Specifically, it may further include a hot air blowing device 45 for blowing hot air to the coil to make the coil thermoset and a cold air blowing device 46 for blowing cool air to the coil, where the hot air blowing device 45 includes a hot air cylinder 451 and a hot air pipe 452, the hot air cylinder 451 is separately provided with one side of each winding rotation shaft 414, the hot air pipe 452 is provided at the bottom of the hot air cylinder 451 and faces the lower side of the winding rotation shaft 414, the cold air blowing device 46 is rotatably provided at the other side of the winding rotation shaft 414, a plurality of cold air pipes 461 are provided on the cold air blowing device 46 at intervals, and the cold air pipes 461 face the lower side of the winding rotation shaft 414.

As shown in fig. 6 to 8, the wire pressing device 43 may include a wire pressing block mounting plate 431, a wire pressing block 432, a wire pressing spring 433, a retainer ring 434 and a wire pressing block driving device 435, where the wire pressing block driving device 435 is horizontally mounted on one side of the wire winding die holder 40, one side of the wire pressing block mounting plate 431 is in transmission connection with an output shaft of the wire pressing block driving device 435, a plurality of wire pressing springs 433 parallel to the translation direction of the wire pressing block 432 are disposed between the wire pressing block 432 and the other side of the wire pressing block mounting plate 431, and the retainer ring 434 is respectively sleeved on the middle of the plurality of wire pressing springs 433.

Further, the cutting device 44 may include a cutting driving device 441, a cutting block 442 and a cutting knife 443, wherein the cutting driving device 441 is vertically disposed on the other side of the winding die holder 40, the cutting block 442 is in transmission connection with an output shaft of the cutting driving device 441, and the cutting knife 443 is provided with a plurality of cutting knives and is vertically disposed on the cutting block 442.

In specific implementation, the wire drawing device further comprises a wire drawing frame 7 for guiding the copper wire, wherein the wire drawing frame 7 is arranged on the moving path of the copper wire and is positioned above the wire pressing device 43, and a plurality of wire hanging hooks 71 are arranged on the wire drawing frame 7 at intervals.

As shown in fig. 8, the lifting device 8 may further include a lifting device 8, where the lifting device 8 includes a lifting cylinder 81, a lifting support plate 82, a guide sleeve 83 and a guide pillar 84, where the lifting cylinder 81 is installed upwards on a mounting plate 401 at the bottom of the winding die holder 40, the lifting support plate 82 is in transmission connection with an output shaft of the lifting cylinder 81 and is located at the bottom of the jig plate 2, the upper ends of the guide pillars 84 are respectively disposed at the bottom of the lifting support plate 82, and the lower ends of the guide pillars 84 pass through the mounting plate 401 downwards and are inserted into the corresponding guide sleeves 83. The jacking device 8 can jack the jig plate 2, so that the jig plate is relatively fixed on the winding die holder 40.

In this embodiment, a plurality of winding bosses 21 may be uniformly distributed on the jig plate 2, and a wire hanging post 22 is disposed on the front side of the winding boss 21.

As shown in fig. 9, the wire clamping device 47 may further include a wire clamping device 47, where the wire clamping device 47 includes a wire clamping block mounting plate 471, a wire clamping push plate 472, a wire clamping block 473, a wire clamping block driving device 474 and a wire guide plate 475, the wire clamping block driving device 474 is horizontally disposed at the top of the spool mounting seat 411, one side of the wire clamping push plate 472 is in transmission connection with the output shaft of the wire clamping block driving device 474, a plurality of wire clamping blocks 473 are respectively and fixedly disposed at the other side of the wire clamping push plate 472 at intervals and extend out of the wire clamping block mounting plate 471, the wire guide plates 475 are respectively disposed at the upper and lower sides of the wire clamping blocks 473, and the two wire guide plates 475 are respectively and alternately provided with threading holes 4751 consistent with the number of the wire clamping blocks 473.

The working principle of this embodiment is as follows:

in operation, the jig plate 2 is fixedly placed on the jacking device 8 and lifted by the jacking cylinder 81 to limit, after the copper wire passes through the wire hanging hook 71 of the wire hanging frame 7, the copper wire passes through the wire passing rod 4146 of the wire winding rotating shaft 414 and extends out of the needle opening of the wire winding guide needle 4147 to the position of the wire pressing device 43, the wire pressing block 432 of the wire pressing device 43 tightly presses one end of the copper wire, when the copper wire is wound, the Z-axis lifting driving device 423 drives the rotary winding device 41 to descend to one side of the wire winding boss 21 of the jig plate 2, then the X-axis translation driving device 422 and the Y-axis translation driving device 421 are matched, the wire winding shaft rotation driving device 415 drives the wire winding rotating shaft 414 to rotate, the wire winding rotating shaft 414 is driven to ascend when the wire winding rotating shaft 414 rotates, so that the copper wire is wound on the wire winding boss 21, the hot air blowing device 45 blows hot air to the coil in the winding process or after the winding, the hot air blowing device 46 cools the coil, the copper wire is cut off again by the 443 of the wire cutting device 44, and then the clamp block 473 of the wire clamping device 47 moves the copper wire on the wire clamping device to clamp the copper wire on the wire winding boss 21 once, and the copper wire is clamped by the wire clamping device 8, namely the copper wire lifting device is lifted down once, and the copper wire is completed.

In summary, the wire pressing device has a simple and novel structure and reasonable design, the wire pressing device can press the wire ends of the copper wires before winding starts, the wire winding driving module drives the rotary wire winding device to automatically wind the copper wires, the wound copper wires are cut off by the wire cutting device of the wire winding mechanism, automatic winding and automatic cutting operation of the copper wires can be realized, the automation degree is high, the production efficiency is improved, the production quality is guaranteed, and the large-scale production requirements of enterprises can be met.

The above examples are preferred embodiments of the present utility model, but the embodiments of the present utility model are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present utility model should be made in the equivalent manner, and the embodiments are included in the protection scope of the present utility model.

Claims (10)

1. A wire winding mechanism of full-automatic wire winding paint peeling machine, its characterized in that: including wire winding die holder (40), be used for rotatory and the wire winding device (41) of the wire winding boss of going up the tool board with the copper line, be used for driving wire winding drive module (42) that rotatory wire winding device removed, be used for carrying out line ball device (43) of centre gripping to the one end of copper line and be used for cutting off the tangent line device (44) of copper line, rotatory wire winding device (41) are movably set up in the top of wire winding die holder (40) through wire winding drive module (42), line ball device (43) and tangent line device (44) set up in the front and back both sides of wire winding die holder (40) respectively relatively.

2. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: the rotary winding device (41) comprises a winding shaft mounting seat (411), a winding shaft lifting driving device (412), a lifting plate (413), a plurality of winding rotating shafts (414), a winding shaft rotary driving device (415), a driving synchronous pulley (416), a synchronous belt (417) and a plurality of belt compacting pieces (418), wherein the winding shaft mounting seat (411) is movably arranged above a winding shaft seat (40) through a winding driving module (42), the winding shaft lifting driving device (412) is arranged on the winding shaft mounting seat (411) and is in transmission connection with the lifting plate (413), the plurality of winding rotating shafts (414) rotatably penetrate through the lifting plate (413) and are arranged on the winding shaft mounting seat (411), the winding shaft rotary driving device (415) is arranged on one side of the winding shaft mounting seat (411), the driving synchronous pulley (416) is in transmission connection with an output shaft of the winding shaft rotary driving device (415) through a speed reducer (419), driven synchronous pulleys (4141) are respectively arranged in the middle of the winding shafts (414), the driving synchronous pulley (416) are in transmission connection with each driven synchronous pulley (4141) through the synchronous belt (417), a plurality of belt compaction members (418) are respectively arranged between two adjacent winding rotating shafts (414) at intervals.

3. The winding mechanism of a fully automatic winding paint stripper as defined in claim 2, wherein: the winding rotating shaft (414) comprises a rotating mandrel (4142), a rotating bearing (4143), a winding spring (4144), a guide pin mounting seat (4145), a wire passing rod (4146), a winding guide pin (4147) and a movable shaft sleeve (4148), wherein the rotating mandrel (4142) sequentially penetrates through holes of the driven synchronous wheel (4141) and the rotating bearing (4143) and stretches out of the bottom of the rotating bearing (4143), the wire passing rod (4146) is longitudinally mounted in the driven synchronous wheel (4141) and the rotating bearing (4143) and is located on the side edge of the rotating mandrel (4142), the winding spring (4144) is arranged on the upper portion of the rotating mandrel (4142) and penetrates through the movable shaft sleeve (4148) to be arranged at the position of the lifting plate (413), the guide pin mounting seat (4145) is arranged on the bottom of the rotating bearing (4143) and is sleeved on the rotating mandrel (4142), and the winding guide pin (4147) is obliquely arranged on the guide pin mounting seat (4145).

4. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: the wire pressing device (43) comprises a wire pressing block mounting plate (431), a wire pressing block (432), wire pressing springs (433), a retainer ring (434) and a wire pressing block driving device (435), wherein the wire pressing block driving device (435) is horizontally arranged on one side of a wire winding die holder (40), one side of the wire pressing block mounting plate (431) is in transmission connection with an output shaft of the wire pressing block driving device (435), a plurality of wire pressing springs (433) which are arranged in parallel with the translation direction of the wire pressing block (432) are arranged between the wire pressing block (432) and the other side of the wire pressing block mounting plate (431), and the retainer ring (434) is respectively sleeved on the middle parts of the wire pressing springs (433).

5. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: the cutting device (44) comprises a cutting driving device (441), a cutting block (442) and a cutter (443), wherein the cutting driving device (441) is vertically arranged on the other side of the winding die holder (40), the cutting block (442) is in transmission connection with an output shaft of the cutting driving device (441), and the cutter (443) is provided with a plurality of cutters and is vertically arranged on the cutting block (442) respectively.

6. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: still including being used for blowing hot-blast device (45) and being used for blowing refrigerated cold wind device (46) to coil hot setting to the coil, blow hot-blast device (45) including hot-blast section of thick bamboo (451) and hot-blast main (452), hot-blast section of thick bamboo (451) interval respectively sets up one side of every wire winding axis of rotation (414), hot-blast main (452) set up in the bottom of hot-blast section of thick bamboo (451) and all towards the below of wire winding axis of rotation (414), cold wind device (46) rotationally set up the opposite side at wire winding axis of rotation (414), the interval is provided with a plurality of cold wind pipe (461) on cold wind device (46), cold wind pipe (461) all are towards the below of wire winding axis of rotation (414).

7. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: still include clamp line device (47), clamp line device (47) include clamp line piece mounting panel (471), clamp line push pedal (472), clamp line piece (473), clamp line piece drive arrangement (474) and wire board (475), clamp line piece drive arrangement (474) level sets up the top at spool mount pad (411), clamp line push pedal (472) one side is connected with the output shaft transmission of clamp line piece drive arrangement (474), and a plurality of clamp line piece (473) are fixed to be set up at the opposite side of clamp line push pedal (472) and stretch out clamp line piece mounting panel (471) at the interval respectively, wire board (475) set up the upper and lower both sides in clamp line piece (473) respectively, and the interval is provided with threading hole (4751) unanimous with clamp line piece (473) quantity on two wire boards (475) respectively.

8. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: the winding drive module (42) comprises a Y-axis translation drive device (421), an X-axis translation drive device (422) and a Z-axis lifting drive device (423), wherein the X-axis translation drive device (422) is arranged at the translation part of the Y-axis translation drive device (421), the Z-axis lifting drive device (423) is arranged at the translation part of the X-axis translation drive device (422), and the rotary winding device (41) is arranged at the lifting part of the Z-axis lifting drive device (423).

9. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: the wire drawing device is characterized by further comprising a wire drawing frame (7) for guiding the wire drawing, wherein the wire drawing frame (7) is arranged on a moving path of the copper wire and is positioned above the wire pressing device (43), and a plurality of wire hanging hooks (71) are arranged on the wire drawing frame (7) at intervals.

10. The winding mechanism of a fully automatic winding paint stripper as defined in claim 1, wherein: still include jacking device (8), jacking device (8) are including jacking cylinder (81), jacking backup pad (82), guide pin bushing (83) and guide pillar (84), install on mounting panel (401) of the bottom of wire winding die holder (40) up jacking cylinder (81), jacking backup pad (82) are connected and are located the bottom of tool board (2) with the output shaft transmission of jacking cylinder (81), the upper end of guide pillar (84) sets up the bottom in jacking backup pad (82) respectively, the lower extreme of guide pillar (84) passes mounting panel (401) downwards and inserts in corresponding guide pin bushing (83).