CN216272185U - Winding equipment - Google Patents

Abstract

The application discloses a winding device, and relates to the technical field of material belt winding machinery; comprises a mounting plate; the turret is rotatably arranged on the mounting plate; the turret driving group is arranged at the driving end of the turret driving group; the reel assembly comprises 2n groups, wherein n is a positive integer greater than 1; the reel assembly is arranged on the turret along the circumferential direction of the turret; the cutting assembly comprises n groups of cutting assemblies and a cutting assembly, wherein the cutting assemblies are used for pressing the material belt on the material roll and cutting the material belt; the rubberizing subassembly comprises n groups and is used for attaching the adhesive tape to the material roll; the cutting assembly and the rubberizing assembly are adjacently arranged on the mounting plate along the circumferential direction of the turret and respectively and correspondingly act on one of the reel assemblies; the technical scheme provided by the application solves one of the technical problems of large volume, large roll changing workload and low efficiency of the existing rolling equipment.

Description

Winding equipment

Technical Field

The application relates to the technical field of material belt winding machinery, in particular to winding equipment.

Background

The existing winding equipment needs to be stopped for changing the coil when the coil is changed, the coil changing workload is large, and the efficiency is low; and the problem that the winding equipment is large in size and occupies a large production space is also solved.

SUMMERY OF THE UTILITY MODEL

This application aim at provides a rolling equipment, adopts the technical scheme that this application provided to solve one of the technical problem that current rolling equipment is bulky, roll change work load is big, inefficiency.

In order to solve one of the above technical problems, the present application provides a winding apparatus, including an installation plate;

the turret is rotatably arranged on the mounting plate;

the turret driving group is arranged at the driving end of the turret driving group;

the reel assembly comprises 2n groups, wherein n is a positive integer greater than 1; the reel assembly is arranged on the turret along the circumferential direction of the turret;

the cutting assembly comprises n groups of cutting assemblies and a cutting assembly, wherein the cutting assemblies are used for pressing the material belt on the material roll and cutting the material belt;

the rubberizing subassembly comprises n groups and is used for attaching the adhesive tape to the material roll;

the cutting assembly and the rubberizing assembly are adjacently arranged on the mounting plate along the circumferential direction of the turret and respectively and correspondingly act on one of the reel assemblies;

in the implementation process, the turret is provided with a plurality of reel assemblies, so that multi-station winding can be carried out, wherein the number of the reel components is 2n, the number of the cutting components and the number of the rubberizing components are n respectively, in practical application, two groups of reel components, one group of cutting components and one group of rubberizing components are understood as a winding unit, wherein one of the two groups of reel components is a waiting position, the other is a working position, the two stations can be switched under the coordination of the rotatable turret, the material belt bypasses the reel component of the waiting position at the working position for winding, after the material is wound to a certain degree, the material cutting component compresses the material roll (which is positioned on the winding shaft component) on the waiting position, cutting the material belt, gluing and packaging the material belt wound on the working position by the gluing component on the working position, and replacing the next group of empty material rolls after the gluing is finished; then the turret rotates to transfer the material roll on the waiting position of the unit to the working position of the unit for continuous rolling, and the empty material roll newly loaded in the unit enters the waiting position of the adjacent unit; the rolling is realized without stopping, and the rolling efficiency is greatly improved.

Preferably, the blanking assembly comprises a first driving group and a first cutter assembly;

the first driving group drives the first cutter component to be close to or far away from the reel component;

in the implementation process, when the winding of the reel assembly is completed, the first driving group drives the first cutter assembly to be close to the reel assembly, so that the material belt is cut; after cutting is finished, the first driving group drives the first cutter assembly to move away, so that the reel assembly can freely rotate when the turret rotates.

Preferably, the first cutter assembly comprises a first mounting frame, a first press roller, a first cutter driving group and a first cutter;

the first mounting frame is arranged at the driving end of the first driving group, the first press roller and the first cutter driving group are arranged on the first mounting frame, and the first cutter is arranged at the driving end of the first cutter driving group;

in the implementation process, the first mounting frame is close to the reel assembly in the rotation process, when the compression roller attaches the material belt to the material roll on the reel assembly, the first cutter driving group drives the cutter to cut the material belt, the problem of insufficient cutting stroke can be effectively avoided by adopting a double-stroke driving mode, and effective cutting is guaranteed; meanwhile, clearance avoidance can be realized in a matching mode, and other mechanisms can flexibly operate.

Preferably, the first driving group comprises a first rotating shaft, a first connecting rod arranged on the first rotating shaft and a first driving piece driving the first rotating shaft to rotate;

the first cutter assembly further comprises a second connecting rod connected with the first connecting rod;

in the implementation process, the first rotating shaft is driven to rotate by the first driving piece, the first connecting rod is arranged on the first rotating shaft and rotates along with the first rotating shaft, the first connecting rod is connected with the second connecting rod, and the second connecting rod is connected with the second mounting frame, so that the first driving piece drives the second mounting frame to rotate.

Preferably, the rubberizing assembly comprises a second mounting frame, a second driving group, a second cutter assembly and a rubberizing module;

the second driving group is arranged on the mounting plate and drives the second mounting frame to rotate;

the second cutter assembly and the rubberizing module are arranged on the second mounting frame;

in the implementation process, after the first cutter assembly cuts the material belt, the second driving group drives the second mounting frame to rotate to be close to the reel assembly on the station, the rubberizing module compresses the material belt on the material roll, and simultaneously attaches the adhesive tape to the material belt, at the moment, the reel assembly rotates and winds the cut material belt tail belt in the rotation process, and simultaneously drives the adhesive tape to rotate and attach to the material belt to realize rubberizing packaging, so that the fixation of the material belt tail belt is completed; finally, the adhesive tape is cut by the second cutter assembly to form a complete material roll.

Preferably, the adhesive tape sticking module comprises a film main body, a press roller group and a plurality of guide rollers;

wherein the film is guided out from the film main body to a material roll to be attached through a plurality of guide rollers;

in the implementation process, the film body is loaded with the film, and the film is led out from the film body and passes through the guide of the guide roller and is attached to the film to be packaged under the coordination of the second driving group; the compression roller set presses the material belt and the material belt to realize stable rolling of the material belt, so that the material belt rolling effect and the adhesive effect of adhesive tape attaching and material belt attaching are guaranteed.

Preferably, the press roll group comprises two groups of second press rolls arranged at intervals, and the adhesive tape of the adhesive tape sticking module is led out between the two groups of second press rolls;

in the implementation process, the two groups of second compression rollers are arranged at intervals and can compress the material belt on the material roll, so that the range of compressing the material belt can be increased, and the material belt rolling effect is ensured; the adhesive tape of the adhesive tape sticking module is led out to the two groups of second compression roller supports, so that the adhesive effect of the adhesive tape sticking and the adhesive effect of the material tape are better, and the phenomenon that the adhesive tape is stuck under the loose state to influence the packaging effect and the coiling effect is avoided.

Preferably, the reel assembly comprises a reel main body and a third driving group for driving the reel main body to rotate;

in the implementation process, the material roll is arranged on the reel body, and the third driving group drives the reel body to rotate to realize winding.

Preferably, a positioning assembly is arranged on the mounting plate;

the positioning assembly comprises a first positioning block and a fourth driving group for driving the first positioning block to move towards the turret;

a second positioning block matched with the first positioning block is arranged on the turret, and the second positioning block comprises 2n groups and is arranged on the turret along the circumferential direction of the turret;

in the implementation process, after the turret rotates to the designated position, the fourth driving group drives the first positioning block to move, the first positioning block and the second positioning block are clamped with each other to realize stable connection, so that the rotation of the turret is limited, the stability of the turret in the normal winding process is realized, and the winding process is prevented from being influenced by the rotation deviation of the turret.

Preferably, the device further comprises a support component;

the support assembly comprises a support rod and a third connecting rod for connecting the support rod and the turret;

the third connecting rod is coaxially arranged with the turret;

in the implementation process, the supporting mode of the single supporting rod is adopted, so that the occupied area of the supporting mechanism is reduced, the whole volume of the equipment is reduced, and the material roll can be loaded and unloaded more easily.

Compared with the prior art, the beneficial effect of this application lies in: this application is through setting up the rolling mode of many work units, multistation, realizes not shutting down the rolling at the rotation in-process, reduces the volume of roll change work and promotes rolling efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic diagram of a perspective view of an embodiment of the present application;

FIG. 2 is an enlarged schematic view of the structure of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of the structure of part B in FIG. 1;

FIG. 4 is a schematic diagram of a perspective view of an embodiment of the present application;

FIG. 5 is an enlarged view of the structure of the portion C in FIG. 4;

FIG. 6 is a schematic diagram of a perspective view of an embodiment of the present application;

FIG. 7 is an enlarged view of the structure of portion D of FIG. 6;

wherein: 10. mounting a plate; 11. a turret; 20. a reel assembly; 21. a reel body; 22. a third drive group; 30. a material cutting assembly; 31. a first drive group; 311. a first driving member; 3111. jacking a cylinder; 3112. a linkage block; 312. a first rotating shaft; 3121. a limiting groove; 3122. a first locking mechanism; 313. a first link; 32. a first cutter assembly; 321. a fixed shaft; 322. a first mounting bracket; 3221. a clamping block; 323. a first press roll; 324. a first cutter driving group; 325. a first cutter; 326. a second link; 40. a rubberizing component; 41. a second mounting bracket; 42. a second drive group; 43. a second cutter assembly; 44. a rubberizing module; 441. a film body; 442. a compression roller set; 4421. a second press roll; 443. a guide roller; 50. a positioning assembly; 51. a first positioning block; 52. a fourth drive group; 53. a second positioning block; 60. a support assembly; 61. a support bar; 62. a third link; 70. and (4) assisting in passing through the roller.

Detailed Description

In the following description, numerous implementation details are set forth in order to provide a thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the application. That is, in some embodiments of the present application, such practical details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

It should be noted that all the directional indications such as up, down, left, right, front and rear … … in the embodiment of the present application are only used to explain the relative positional relationship, movement, etc. between the components in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indication is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in this application are for descriptive purposes only, not specifically referring to the order or sequence, nor are they intended to limit the application, but merely to distinguish components or operations described in the same technical terms, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

For further understanding of the contents, features and functions of the present invention, the following embodiments are exemplified in conjunction with the accompanying drawings and the following detailed description:

examples

The existing winding equipment needs to be stopped for changing the coil when the coil is changed, the coil changing workload is large, and the efficiency is low; the winding equipment has large volume and occupies large production space;

in order to solve the above technical problem, the present embodiment provides the following technical solutions:

specifically, referring to fig. 1 to 7, the embodiment provides a winding apparatus, which includes a mounting plate 10, a turret 11 driving set, a reel assembly 20, a blanking assembly 30, and a rubberizing assembly 40;

specifically, the turret 11 is rotatably arranged on the mounting plate 10;

further, a turret 11 driving group drives the turret 11 to rotate, and the turret 11 is arranged at the driving end of the turret 11 driving group;

specifically, the reel assembly 20 includes 2n groups, where n is a positive integer greater than 1; the reel assembly 20 is provided on the turret 11 along the circumference of the turret 11;

specifically, the material cutting assembly 30 includes n groups for pressing the material belt onto the material roll and cutting the material belt;

specifically, the tape adhering assembly 40 includes n groups for adhering the tape to the material roll;

it should be noted that the reel assembly 20 includes n groups, where n is a positive integer greater than 1, that is, the reel assembly 20 may include 4, 6, 8, 10, and so on; the blanking assembly 30 and the rubberizing assembly 40 both comprise n groups, i.e. 2, 4, 6, 8, etc., and so on;

the cutting assembly 30 and the rubberizing assembly 40 are adjacently arranged on the mounting plate 10 along the circumferential direction of the turret 11, and respectively and correspondingly act on one reel assembly 20;

in the above scheme, the ratio among the reel assemblies 20, the blanking assemblies 30 and the rubberizing assemblies 40 is regular, and in practical application, it can be understood that every two sets of reel assemblies 20, one set of blanking assemblies 30 and one set of rubberizing assemblies 40 are a winding unit, and such units at least include two sets, wherein two sets are taken as an example;

one of the two sets of reel assemblies 20 in a single unit is a waiting position, the other one is a working position, the two stations can be switched under the coordination of the rotatable turret 11, the material belt bypasses the reel assembly 20 of the waiting position to be wound, after the material belt is wound to a certain degree, the material cutting assembly 30 compresses the material belt on the waiting position (the material belt is positioned on the reel assembly 20) to cut the material belt, the subsequent material belt can be wound on the material belt on the waiting position firstly, the rubberizing assembly 40 on the working position carries out tail belt winding on the material belt wound on the working position and then carries out rubberizing packaging, and the next set of empty material belt can be replaced after rubberizing is finished; then the turret 11 rotates to transfer the material roll on the waiting position of the unit to the working position of the unit for continuous rolling, and the empty material roll newly loaded in the unit enters the waiting position of the adjacent unit; the rolling is realized without stopping, and the rolling efficiency is greatly improved.

It should be noted that, after the material strip cutting is completed by the material cutting assembly 30, the material strip is already separated, the subsequent material strip is further wound and wound on the waiting position, and after the material roll on the strip working position is completed, the material roll is switched to the working position under the action of the turret 11.

Specifically, still include a plurality of supplementary rollers 70 of crossing of locating on mounting panel 10, supplementary roller 70 is used for helping the guide material area, and because the rolling of material area is to bypass waiting for the position and reach the station and carry out the rolling, the guiding action through supplementary roller 70 can be more convenient for adjust the rolling direction of material area.

In some embodiments, the waiting station can be understood to correspond to the station where the blanking assembly 30 is located, and the working station can be understood to correspond to the station where the taping assembly 40 is located.

Specifically, referring to fig. 1-2 and fig. 6, the blanking assembly 30 includes a first driving assembly 31 and a first cutter assembly 32;

further, the first driving group 31 drives the first cutter 325 assembly 32 to approach or move away from the reel assembly 20;

in the above scheme, when the winding of the reel assembly 20 is completed, the first driving group 31 drives the first cutter assembly 32 to approach the reel assembly 20, so as to cut the material tape; when the cutting is completed, the first driving unit 31 drives the first cutter unit 32 away, so that the reel assembly 20 can freely rotate when the turret 11 rotates.

Specifically, the first cutter assembly 32 includes a first mounting frame 322, a first pressing roller 323, a first cutter driving group 324, and a first cutter 325;

the first mounting frame 322 is arranged at the driving end of the first driving group 31, the first pressure roller 323 and the first cutter driving group 324 are arranged on the first mounting frame 322, and the first cutter 325 is arranged at the driving end of the first cutter driving group 324;

in the above scheme, the first mounting frame 322 is close to the reel assembly 20 in the rotation process, and when the press roller attaches the material belt to the material roll on the reel assembly 20, the first cutter driving group 324 drives the cutter to cut the material belt, so that the problem of insufficient cutting stroke can be effectively avoided by adopting a two-way driving mode, and effective cutting is ensured; meanwhile, clearance avoidance can be realized in a matching mode, and other mechanisms can flexibly operate.

Specifically, referring to fig. 6, the first driving set 31 includes a first rotating shaft 312, a first connecting rod 313 disposed on the first rotating shaft 312, and a first driving member 311 for driving the first rotating shaft 312 to rotate;

further, the first cutter assembly 32 further includes a second link 326 connected to the first link 313;

in the above scheme, the first driving element 311 drives the first rotating shaft 312 to rotate, the first connecting rod 313 is disposed on the first rotating shaft 312 and rotates together with the first rotating shaft 312, the first connecting rod 313 is connected to the second connecting rod 326, and the second connecting rod 326 is connected to the second mounting bracket 41, so that the first driving element 311 drives the second mounting bracket 41 to rotate;

further, referring to fig. 2, a limit groove 3121 is formed on the first rotating shaft 312 along an axial direction thereof, one end of the first connecting rod 313 is sleeved on the first rotating shaft 312 and slides along the limit groove 3121, a first locking mechanism 3122 is disposed on the first connecting rod 313, and the first locking mechanism 3122 can pass through the first connecting rod 313 and be clamped into the limit groove 3121 to realize a stable connection between the first connecting rod 313 and the first rotating shaft 312;

in the above solution, the adjustment of the first cutter assembly 32 in the axial direction of the first rotating shaft 312 can be realized by adjusting the position of the first link 313 on the first rotating shaft 312;

specifically, the first driving member 311 includes a jacking cylinder 3111 and a linkage block 3112; one end of the linkage block 3112 is connected to the first rotating shaft 312, and the other end is pivoted to the driving end of the jacking cylinder 3111, so that when the jacking cylinder 3111 operates, the linkage block 3112 is driven to move, thereby driving the first rotating shaft 312 to rotate.

It should be noted that, the above is only one of the driving manners of the first driving member 311, and the driving manner may also be directly driven by a rotating motor, so the specific driving manner is not limited;

further, the axial direction of the first rotating shaft 312 is parallel to the axial direction of the turret 11;

specifically, referring to fig. 2, a fixed shaft 321 is disposed on the mounting plate 10, a clamping block 3221 is slidably disposed on the fixed shaft 321, and a sensor is disposed on the clamping block 3221 for monitoring the movement of the first cutter assembly 32.

Specifically, referring to fig. 1 and 3, the rubberizing assembly 40 includes a second mounting frame 41, a second driving group 42, a second cutter assembly 43, and a rubberizing module 44;

further, the second driving group 42 is arranged on the mounting plate 10 and drives the second mounting frame 41 to rotate;

the second cutter assembly 43 and the rubberizing module 44 are arranged on the second mounting frame 41;

in the above scheme, after the first cutter assembly 32 cuts the material tape, the second driving assembly 42 drives the second mounting frame 41 to rotate to close to the reel assembly 20 on the station, the tape is pressed on the material roll by the tape sticking module 44, and the tape is stuck on the material tape at the same time, at this time, the reel assembly 20 rotates and winds the cut material tape tail tape in the rotating process, and simultaneously drives the tape to rotate and stick on the material tape to realize tape sticking and packaging, so as to complete the fixation of the material tape tail tape; the tape is finally cut by the second cutter assembly 43 to form a complete roll.

Specifically, the film sticking module 44 includes a film body 441, a pressing roller set 442 and a plurality of guide rollers 443;

wherein the film is guided out from the film body 441 to a material roll to be attached through a plurality of guide rollers 443;

in the above-described arrangement, the film body 441 carries the film, and the film is guided out of the film body 441 through the guide of the guide roller 443 and attached to the film to be packaged in cooperation with the second drive group 42; the pressing roller set 442 presses the material belt and the material roll to realize stable rolling of the material belt, so that a material roll rolling effect and a tape attaching and material belt attaching effect are guaranteed.

Further, the pressing roller set 442 includes two sets of second pressing rollers 4421 arranged at intervals, and the adhesive tape of the adhesive tape sticking module 44 is led out between the two sets of second pressing rollers 4421;

in the above scheme, two groups of second compression rollers 4421 are arranged at intervals and can compress the material belt on the material roll, so that the range of compressing the material belt can be increased, and the material belt rolling effect is ensured; the guiding out of the adhesive tape sticking module 44 to the two sets of second pressure rollers 4421 can ensure better adhesive effect between the adhesive tape and the material tape, and avoid the influence of the adhesive tape sticking to the material tape in a loose state on the packaging effect and the coiling effect.

Further, the specific implementation manner of the cutting blade of the second cutting blade assembly 43 in the rubberizing assembly 40 is similar to that in the material cutting assembly 30, or other driving manners may be adopted, so that the present application is not described herein again;

further, the driving manner of the second driving group 42 may be similar to that of the first driving group 31, and a rotating electrical machine or other driving modes may be directly used, so the specific driving manner is not limited.

Specifically, referring to fig. 1 and 6, the reel assembly 20 includes a reel body 21 and a third driving group 22 for driving the reel body 21 to rotate;

in the above scheme, the material roll is mounted on the reel body 21, and the third driving group 22 drives the reel body 21 to rotate to realize winding;

it should be noted that, in some embodiments, the mounting plate 10 has a first side and a second side opposite to each other, wherein the driving group for driving each component to rotate is disposed on the second side of the mounting plate 10, and the driven component (the component for operation) is disposed on the first side, so that a reasonable and effective distribution of each component can be achieved, and the space can be fully utilized.

Specifically, referring to fig. 6-7, a positioning assembly 50 is disposed on the mounting plate 10;

further, the positioning assembly 50 includes a first positioning block 51 and a fourth driving group 52 for driving the first positioning block 51 to move toward the turret 11;

further, a second positioning block 53 adapted to the first positioning block 51 is disposed on the turret 11, and the second positioning block 53 includes 2n sets and is disposed on the turret 11 along the circumferential direction of the turret 11;

in the above scheme, after the turret 11 rotates to a specified position, the fourth driving set 52 drives the first positioning block 51 to move, and the first positioning block 51 and the second positioning block 53 are engaged with each other to realize a stable connection, so that the rotation of the turret 11 is limited, the stability of the turret 11 in a normal winding process is realized, and the winding process is prevented from being influenced by the rotation deviation of the turret 11.

Further, the second positioning blocks 53 include 2n sets, because the distance between the rotating shaft assemblies is the stroke of each rotation of the turret 11, when the number of the second positioning blocks 53 is the same as that of the rotating shaft assemblies, it can be ensured that the corresponding second positioning blocks 53 are positioned after each rotation.

Specifically, please refer to fig. 1, further comprising a supporting component 60;

further, the support assembly 60 includes a support rod 61 and a third link 62 connecting the support rod 61 and the turret 11;

wherein the third link 62 is arranged coaxially with the turret 11;

in the above scheme, the supporting mode of the single supporting rod 61 is adopted, so that the occupied area of the supporting mechanism is reduced, the whole volume of the equipment is reduced, and meanwhile, the material roll is easier to realize loading and unloading.

Further, a clearance groove is formed on the support rod 61; the design of the support rod 61 clearance groove can further facilitate the feeding and discharging of the material roll.

The driving group may be a driving mechanism such as a driving cylinder or a driving motor.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The above description is only for the preferred embodiment of the present application and should not be taken as limiting the present application in any way, and all simple modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present application are intended to be included within the scope of the present application.

Claims (10)

1. The utility model provides a rolling equipment which characterized in that: comprising a mounting plate (10);

the turret (11) is rotatably arranged on the mounting plate (10);

the turret (11) driving set is characterized in that the turret (11) is arranged at the driving end of the turret (11) driving set;

a reel assembly (20), the reel assembly (20) comprising 2n groups, wherein n is a positive integer greater than 1; the reel assembly (20) is arranged on the turret (11) along the circumferential direction of the turret (11);

the cutting assembly (30) comprises n groups of cutting assemblies (30) and is used for pressing the material belt on the material roll and cutting the material belt;

the rubberizing subassembly (40) comprises n groups and is used for attaching the adhesive tape to the material roll;

the cutting assembly (30) and the rubberizing assembly (40) are adjacently arranged on the mounting plate (10) along the circumferential direction of the turret (11) and respectively and correspondingly act on one reel assembly (20).

2. The winding device according to claim 1, characterized in that: the blanking assembly (30) comprises a first drive group (31) and a first cutter assembly (32);

the first drive group (31) drives the first cutter assembly (32) towards or away from the reel assembly (20).

3. The winding device according to claim 2, characterized in that: the first cutter assembly (32) comprises a first mounting frame (322), a first press roller (323), a first cutter driving group (324) and a first cutter (325);

the first mounting frame (322) is arranged at the driving end of the first driving group (31), the first pressing roller (323) and the first cutter driving group (324) are arranged on the first mounting frame (322), and the first cutter (325) is arranged at the driving end of the first cutter driving group (324).

4. The winding device according to claim 2, characterized in that: the first driving group (31) comprises a first rotating shaft (312), a first connecting rod (313) arranged on the first rotating shaft (312) and a first driving piece (311) for driving the first rotating shaft (312) to rotate;

the first cutter assembly (32) also includes a second link (326) connected to the first link (313).

5. The winding device according to claim 1, characterized in that: the rubberizing assembly (40) comprises a second mounting frame (41), a second driving group (42), a second cutter assembly (43) and a rubberizing module;

the second driving group (42) is arranged on the mounting plate (10) and drives the second mounting frame (41) to rotate;

the second cutter assembly (43) and the rubberizing module are arranged on the second mounting frame (41).

6. The winding device according to claim 5, characterized in that: the adhesive tape sticking module (44) comprises a film main body (441), a press roller group (442) and a plurality of guide rollers (443);

wherein the film is guided out of the film body (441) via guide rollers (443) onto a material roll to be attached.

7. The winding device according to claim 6, characterized in that: the press roller group (442) comprises two groups of second press rollers (4421) which are arranged at intervals, and the adhesive tape of the adhesive tape sticking module (44) is led out between the two groups of second press rollers (4421).

8. The winding device according to claim 1, characterized in that: the reel assembly (20) comprises a reel body (21) and a third driving group (22) for driving the reel body (21) to rotate.

9. The winding device according to any one of claims 1 to 8, characterized in that: a positioning component (50) is arranged on the mounting plate (10);

the positioning assembly (50) comprises a first positioning block (51) and a fourth driving group (52) for driving the first positioning block (51) to move towards the turret (11);

and a second positioning block (53) matched with the first positioning block (51) is arranged on the turret (11), wherein the second positioning block (53) comprises 2n groups and is arranged on the turret (11) along the circumferential direction of the turret (11).

10. The winding device according to any one of claims 1 to 8, characterized in that: further comprising a support assembly (60);

the support assembly (60) comprises a support rod (61) and a third connecting rod (62) connecting the support rod (61) and the turret (11);

the third link (62) is arranged coaxially with the turret (11).

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