CN118954189A

CN118954189A - A deviation correction device for winding plastic wire drawing machine

Info

Publication number: CN118954189A
Application number: CN202411433905.8A
Authority: CN
Inventors: 贾子臻; 刘伟
Original assignee: Lianyungang Fucheng Plastic Packaging Co ltd
Current assignee: Lianyungang Fucheng Plastic Packaging Co ltd
Priority date: 2024-10-15
Filing date: 2024-10-15
Publication date: 2024-11-15

Abstract

The invention relates to the field of plastic winding, in particular to a deviation correcting device for winding of a plastic wire drawing machine, which comprises a bottom plate, a central positioning shaft, a deviation correcting mechanism, a winding mechanism and a monitoring mechanism; the center positioning shaft is vertically arranged in the middle of the bottom plate; the deviation correcting mechanism is arranged at one side of the central positioning shaft and is used for adjusting the moving path of the plastic wire; the winding mechanism is arranged on the other side of the central positioning shaft, the winding mechanism comprises a swinging plate and a winding component, one end of the swinging plate is sleeved on the central positioning shaft, the swinging plate can swing around the axis of the central positioning shaft, the winding component is arranged on the other end of the swinging plate, the plastic wire sequentially passes through the deviation correcting mechanism, the monitoring mechanism and the winding mechanism, and the deviation correcting mechanism adjusts the moving path of the plastic wire; according to the invention, the central positioning shaft, the deviation correcting mechanism, the winding mechanism and the monitoring mechanism are arranged, so that the two ends of the plastic wire wound into the coil are kept neat, and the product quality and the production efficiency are improved.

Description

Deviation correcting device for winding of plastic wire drawing machine

Technical Field

The invention relates to the field of plastic winding, in particular to a deviation correcting device for winding of a plastic wire drawing machine.

Background

Plastic wire drawing is a main process for producing plastic woven bags, and plastic raw materials (such as polypropylene particles, master batch, color master batch, whitening agent and the like) are mixed by a wire drawing machine and then are subjected to the steps of melting, extrusion, cutting, shaping, rolling and the like to finally prepare flat wires or filament products such as flat wires for the plastic woven bags.

The working principle of the plastic sheet extruder disclosed in China patent CN213894554U is as follows: during the rolling, rotate the bracing piece to vertical state, make to place the installation pole on PMKD, then rotate fixed apron, be connected fixed apron and PMKD through the second connecting piece, then be connected connecting rod and collar through first connecting piece, open the actuating source and order about the installation pole and rotate, the installation pole orders about the wind-up roll and begins the material rolling, when material and wind-up roll deflect, order about the second motor and rotate, order about the wind-up roll through connecting rod and collar and slide, correct the deflection between material and the wind-up roll, make the material more neat after the rolling, convenient transport and storage.

In the scheme, the width of the material is wider, the material only needs to be wound on the winding roller layer by layer, the width of the plastic wire after the plastic wire drawing is narrower, the plastic wire is wound on the winding roller, the plastic wire needs to reciprocate along the axial direction of the winding roller, so that the plastic wire covers the winding roller, then the process is repeated, the plastic wire covers the winding roller layer by layer, and the plastic wire is irregular at two ends of the plastic wire wound into a coil due to the larger swing amplitude of the plastic wire in the process of reciprocating movement along the winding roller.

Disclosure of Invention

According to the invention, by arranging the central positioning shaft, the deviation correcting mechanism, the winding mechanism and the monitoring mechanism, both ends of the plastic wire wound into a roll are kept neat, and the product quality and the production efficiency are improved.

The invention provides a deviation correcting device for winding of a plastic wire drawing machine, which solves the problems in the prior art and comprises a bottom plate, a central positioning shaft, a deviation correcting mechanism, a winding mechanism and a monitoring mechanism; the center positioning shaft is vertically arranged in the middle of the bottom plate; the deviation correcting mechanism is arranged at one side of the central positioning shaft and is used for adjusting the moving path of the plastic wire; the winding mechanism is arranged on the other side of the central positioning shaft, the winding mechanism comprises a swinging plate and a winding component, one end of the swinging plate is sleeved on the central positioning shaft, the swinging plate can swing around the axis of the central positioning shaft, the winding component is arranged at the other end of the swinging plate and is used for driving a winding roller to wind the plastic wire monitoring mechanism to be arranged on the central positioning shaft, the plastic wire sequentially passes through a deviation correcting mechanism, a monitoring mechanism and the winding mechanism, and the deviation correcting mechanism adjusts the moving path of the plastic wire according to the deviation data of the plastic wire monitored by the monitoring mechanism.

Preferably, the monitoring mechanism comprises a monitoring frame, a guide wheel and a monitoring assembly; the monitoring rack is arranged at the upper end of the central positioning shaft; the guide wheel is arranged in the monitoring frame, the plastic wire is tightly attached to the upper end of the guide wheel, and the thickness of the guide wheel is the same as the width of the plastic wire; the monitoring component is arranged at the upper end of the guide wheel.

Preferably, the monitoring mechanism further comprises a centering adjusting structure, the centering adjusting structure is arranged at the lower end of the guide wheel, and the centering adjusting structure comprises two centering clamping assemblies and a second linear moving structure; the two centering clamping assemblies are symmetrically arranged on two sides of the guide wheel; the second linear movement structure is arranged at the lower end of the guide wheel and is used for driving the two centering clamping assemblies to be close to or far away from each other.

Preferably, the centering clamping assembly comprises a connecting block, a second fixed shaft and a rotating wheel; the connecting block is connected with the second linear moving structure; the second fixed shaft is vertically arranged at one end of the connecting block; the rotating wheel is arranged on the second fixed shaft, and the side surface of the rotating wheel is tangent with the bottom surface of the guide wheel.

Preferably, the deviation correcting mechanism comprises a guide structure and a first linear moving structure; the guide structure comprises a guide frame and three guide rollers, wherein the three guide rollers are mutually parallel and are arranged at equal intervals, the axes of the guide rollers are parallel to the axes of the guide wheels, and two ends of the guide rollers are respectively connected with two ends of the guide frame; the first linear moving structure is arranged at the lower end of the guiding rack and comprises a first guiding structure and a first linear driver, the guiding direction of the first guiding structure is parallel to the axis of the guiding wheel, the first linear driver is arranged on the first transverse plate, and the first linear driver is used for pushing the guiding structure to move along the guiding direction of the first guiding structure.

Preferably, the deviation correcting mechanism further comprises two tension adjusting structures, the two tension adjusting structures are respectively arranged at two ends of the guide frame, and each tension adjusting structure comprises an adjusting disc, three first driving arms and three second guiding structures; the adjusting disc is arranged on the outer side of the guide frame, the adjusting disc is in an isosceles triangle shape, a first rotating shaft is arranged on one side of the adjusting disc, the axis of the first rotating shaft is parallel to the axis of the guide roller, and one end of the first rotating shaft extends into the guide frame; the three first driving arms are respectively arranged at three corners of the adjusting disc, one end of each first driving arm is connected with the adjusting disc in a shaft way, and the other end of each first driving arm is connected with the guide roller; the three second guide structures correspond to the three guide rollers respectively, and the guide rollers move along the second guide structures under the action of the first driving arms.

Preferably, the deviation rectifying mechanism further comprises a driving bracket and a first driving structure; the driving support is arranged in the guiding rack, and two ends of the driving support are respectively connected with the two adjusting discs; the first driving structure is arranged at the lower end of the driving support and drives the two adjusting discs to rotate simultaneously through the driving support.

Preferably, the winding mechanism further comprises a swinging structure, wherein the swinging structure comprises a half gear, a rack, a third guiding structure and a second driving structure; the half gear is sleeved on the central positioning shaft and fixedly connected with the swinging plate; the rack is arranged on the toothed side of the half gear and meshed with the half gear; the third guide structure is arranged on one side of the rack, limits the moving direction of the rack, and keeps the rack meshed with the half gear; the second driving structure is arranged at one end of the third guiding structure and is used for driving the rack to move along the guiding direction of the third guiding structure.

Preferably, the swing structure further comprises an angle limiting structure, the angle limiting structure is arranged on the toothless side of the half gear, and the angle limiting structure is used for limiting the swing range of the half gear.

Preferably, the winding mechanism further comprises a swing radius adjusting structure, wherein the swing radius adjusting structure is arranged on the swing plate and is used for adjusting the distance between the winding assembly and the central positioning shaft.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, the central positioning shaft, the deviation correcting mechanism, the winding mechanism and the monitoring mechanism are arranged, when the monitoring mechanism monitors that the path of the plastic wire deviates to one side, the deviation correcting mechanism adjusts the position of the plastic wire according to the data monitored by the monitoring mechanism, the deviation correcting mechanism adjusts the plastic wire in the direction opposite to the deviation direction of the plastic wire, so that the plastic wire passes through the center of the monitoring mechanism, the winding assembly drives the winding roller to wind the plastic wire, the swinging plate swings reciprocally around the axis of the central shaft, when the swinging plate rotates towards the first end of the winding roller, the plastic wire winds from the middle of the winding roller towards the second end of the winding roller, and when the swinging plate rotates towards the second end of the winding roller, the plastic wire winds from the second end of the winding roller towards the first end of the winding roller, so that the plastic wire is repeatedly wound layer by layer, and as the movement of the plastic wire is subjected to the deviation correcting mechanism, the two ends of the plastic wire wound into a coil are kept neat, and the product quality and the production efficiency are improved.

2. According to the invention, the monitoring frame, the guide wheels and the monitoring assembly are arranged, when the plastic wire exceeds the edge of the guide wheels during movement, the monitor can monitor that the plastic wire is deviated to one side of the guide wheels, the deviation correcting mechanism moves the plastic wire towards the other side of the guide wheels according to the monitoring data of the monitor, so that the plastic wire is reset to the middle of the guide wheels, and the edges of the two sides of the plastic wire are respectively coplanar with the two bottom surfaces of the guide wheels, thereby realizing instant and accurate deviation correction, ensuring the stability of the plastic wire in the winding process, and preventing the winding irregularity caused by deviation.

Drawings

FIG. 1 is a perspective view of a deviation correcting device for winding a plastic wire drawing machine;

FIG. 2 is a left side view of a deviation correcting device for winding a plastic wire drawing machine;

FIG. 3 is a cross-sectional view at A-A in FIG. 2;

FIG. 4 is a perspective view of a monitoring mechanism and a central positioning shaft in a deviation correcting device for winding of a plastic wire drawing machine;

FIG. 5 is a perspective view of a monitoring mechanism in a deviation correcting device for winding a plastic wire drawing machine;

FIG. 6 is a perspective view of a guide wheel and centering adjustment structure in a deviation correcting device for winding a plastic wire drawing machine;

FIG. 7 is a perspective view of a deviation correcting device in a deviation correcting device for winding a plastic wire drawing machine;

FIG. 8 is a perspective view of a guide structure and a first linear motion structure in a deviation correcting device for winding a plastic wire drawing machine;

FIG. 9 is a perspective view of a guide frame, guide rollers, a tension adjusting structure, a driving bracket and a first driving structure in a deviation correcting device for winding of a plastic wire drawing machine;

FIG. 10 is a perspective view of an adjusting plate, a first rotating shaft, a driving bracket and a first driving structure in a deviation correcting device for winding of a plastic wire drawing machine;

FIG. 11 is a perspective view of a winding mechanism and a centering shaft in a deviation correcting device for winding a plastic wire drawing machine;

FIG. 12 is a perspective view of a swing structure in a deviation correcting device for winding a plastic wire drawing machine;

fig. 13 is a diagram showing a swing plate, a winding assembly and a swing radius adjusting structure in a deviation correcting device for winding of a plastic wire drawing machine.

The reference numerals in the figures are: 1. a bottom plate; 2. a center positioning shaft; 3. a deviation correcting mechanism; 31. a guide structure; 311. a guide frame; 3111. a first cross plate; 3112. a first riser; 312. a guide roller; 32. a first linear movement structure; 321. a first guide structure; 3211. a U-shaped plate; 3212. a first guide rail; 3213. a first moving block; 322. a first linear driver; 33. a tension adjusting structure; 331. an adjusting plate; 3311. a first rotating shaft; 332. a first driving arm; 333. a second guide structure; 3331. a first rectangular frame; 3332. a second guide rail; 3333. a second moving block; 34. a drive bracket; 341. a connecting rod; 342. a second driving arm; 35. a first driving structure; 351. a second rectangular frame; 352. a first screw; 353. a third guide rail; 354. a third moving block; 4. a winding mechanism; 41. a swinging plate; 42. a winding assembly; 43. a swinging structure; 431. a half gear; 432. a rack; 433. a third guide structure; 4331. a fourth guide rail; 4332. sliding the strip; 434. a second driving structure; 4341. a rotary driver; 4342. a third drive arm; 4343. a fourth driving arm; 435. an angle limiting structure; 4351. an arc-shaped block; 4352. a limit rod; 44. a swing radius adjusting structure; 441. a third rectangular frame; 442. a second screw; 443. a fifth guide rail; 444. a fourth moving block; 5. a monitoring mechanism; 51. monitoring a rack; 511. a second cross plate; 512. a second riser; 513. a first fixed shaft; 52. a guide wheel; 53. a monitoring component; 531. a U-shaped cover; 532. a monitor; 54. a centering adjustment structure; 541. a centering clamping assembly; 5411. a connecting block; 5412. a second fixed shaft; 5413. a rotating wheel; 542. a second linear movement structure; 5421. a fourth rectangular frame; 5422. a double-ended screw; 5423. a sixth guide rail; 5424. and a fifth moving block.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 13, there is shown: the deviation correcting device for winding of the plastic wire drawing machine comprises a bottom plate 1, a center positioning shaft 2, a deviation correcting mechanism 3, a winding mechanism 4 and a monitoring mechanism 5; the center positioning shaft 2 is vertically arranged in the middle of the bottom plate 1; the deviation correcting mechanism 3 is arranged at one side of the central positioning shaft 2, and the deviation correcting mechanism 3 is used for adjusting the moving path of the plastic wire; the winding mechanism 4 is arranged on the other side of the central positioning shaft 2, the winding mechanism 4 comprises a swinging plate 41 and a winding component 42, one end of the swinging plate 41 is sleeved on the central positioning shaft 2, the swinging plate 41 can swing around the axis of the central positioning shaft 2, the winding component 42 is arranged on the other end of the swinging plate 41, and the winding component 42 is used for driving a winding roller to wind plastic wires; the monitoring mechanism 5 is arranged on the central positioning shaft 2, the plastic wires sequentially pass through the deviation rectifying mechanism 3, the monitoring mechanism 5 and the winding mechanism 4, and the deviation rectifying mechanism 3 adjusts the moving path of the plastic wires according to the deviation data of the plastic wires monitored by the monitoring mechanism 5.

The plastic particles form strip-shaped plastic wires through heating softening, stretching forming and cooling shaping, need carry out rolling to the plastic wires at last, the wind-up roll has first tip and second tip, the plastic wires need follow the reciprocal swing of axis direction of wind-up roll when rolling to the wind-up roll, make plastic wires layer by layer cover on the wind-up roll, the plastic wires can take place the skew because vibrations in the wobbling in-process, make the both ends of winding the plastic wires on the wind-up roll uneven, through setting up central location axle 2, rectifying mechanism 3, wind-up mechanism 4 and monitoring mechanism 5, the plastic wires is through rectifying mechanism 3, monitoring mechanism 5 and wind-up mechanism 4, when the path deviation of monitoring mechanism 5 monitoring the plastic wires one side, rectifying mechanism 3 will adjust the position of plastic wires according to the data that monitoring mechanism 5 monitored, rectifying mechanism 3 is with the opposite direction adjustment of plastic wires orientation its skew, make the plastic wires pass from the center of monitoring mechanism 5, when wind-up assembly 42 drive wind-up roll carries out the wind-up roll to the plastic wires, swing plate 41 is reciprocal around the axis of center pin, when swing plate 41 is rotated towards the first tip of wind-up roll, the plastic wires from the second tip when the winding up roll is coiled up roll is kept to the plastic wires from the second tip, the product is repeatedly, the quality is kept to the end from the winding up roll is like, the end is kept to the end is repeatedly, when the plastic wires is coiled from the winding up from the second tip is in order to the winding up roll, the product is kept, when the quality is kept, and is kept from the quality is coiled from the winding up from the plastic wire to the end is coiled up from the roll is coiled up to the wire is coiled up, is coiled.

Referring to fig. 3, 4 and 5, it is shown that: the monitoring mechanism 5 comprises a monitoring frame 51, a guide wheel 52 and a monitoring component 53; the monitoring frame 51 is arranged at the upper end of the central positioning shaft 2, the monitoring frame 51 comprises a second transverse plate 511, two second vertical plates 512 and a first fixed shaft 513, the second transverse plate 511 is horizontally arranged, the middle part of the second transverse plate 511 is connected with the upper end of the central positioning shaft 2, the two second vertical plates 512 are symmetrically arranged at the two ends of the second transverse plate 511, and the two ends of the first fixed shaft 513 are respectively connected with the two second vertical plates 512; the guide wheel 52 is arranged in the monitoring frame 51, the middle part of the guide wheel 52 is connected with the first fixed shaft 513, the plastic wire is tightly attached to the upper end of the guide wheel 52, and the thickness of the guide wheel 52 is the same as the width of the plastic wire; the monitoring component 53 is arranged at the upper end of the guide wheel 52, the monitoring component 53 comprises a U-shaped cover 531 and two monitors 532, two end covers of the U-shaped cover 531 are arranged at two sides of the guide wheel 52, and the two monitors 532 are respectively arranged on two opposite side surfaces of two ends of the U-shaped cover 531.

The plastic wire is tangent with the upper end of the guide wheel 52, the plastic wire can drive the guide wheel 52 to rotate in the winding process, so that friction between the guide wheel 52 and the plastic wire is reduced, unnecessary pulling force is applied to the plastic wire due to static friction by the guide wheel 52, the risk of deformation of the plastic wire due to overlarge pulling force is reduced, quality and integrity of the plastic wire are protected, the thickness of the guide wheel 52 is the same as the width of the plastic wire, a user can replace the corresponding guide wheel 52 according to the width of the plastic wire, flexibility and universality of equipment are enhanced, the proper guide wheel 52 can be replaced to achieve the optimal winding effect no matter whether wide or narrow plastic wires are processed, adaptability and use efficiency of the equipment are improved, when the plastic wire moves, the edge of the guide wheel 52 is exceeded, the monitor 532 can monitor the plastic wire to deviate to one side of the guide wheel 52, the deviation correcting mechanism 3 moves the plastic wire towards the other side of the guide wheel 52 according to the monitoring data of the monitor 532, the plastic wire is reset to the middle of the guide wheel 52, the two side edges of the plastic wire are respectively identical to the bottom surface of the guide wheel 52, and the problem of deviation is prevented from being caused in the winding process of the two plastic wires, and the deviation is not correct in time, and the winding problem is prevented from being caused.

Referring to fig. 4, 5 and 6, it is shown that: the monitoring mechanism 5 further comprises a centering structure 54, the centering structure 54 being arranged at the lower end of the guide wheel 52, the centering structure 54 comprising two centering clamping assemblies 541 and a second linear movement structure 542; two centering and clamping assemblies 541 are symmetrically disposed on either side of the guide wheel 52; the second linear moving structure 542 is disposed at the lower end of the guide wheel 52, the second linear moving structure 542 is configured to drive the two centering clamping assemblies 541 to approach each other or separate from each other, the second linear moving structure 542 includes a fourth rectangular frame 5421, a double-ended screw 5422, a sixth guide cross bar 5423, and two fifth moving blocks 5424, two ends of the fourth rectangular frame 5421 are respectively connected to the two second risers 512, two ends of the double-ended screw 5422 are respectively connected to two ends of the fourth rectangular frame 5421, the sixth guide cross bar 5423 is disposed in parallel on one side of the double-ended screw 5422, two ends of the sixth guide cross bar 5423 are respectively connected to two ends of the fourth rectangular frame 5421, two fifth moving blocks 5424 are respectively disposed at two ends of the double-ended screw 5422, one end of the fifth moving block 5424 is connected to the double-ended screw 5422, and the other end of the fifth moving block 5424 is slidably connected to the sixth guide cross bar 5423, and the two centering clamping assemblies 541 are respectively disposed on the two fifth moving blocks 5424.

After the guide wheel 52 is replaced according to the width of the plastic wire, the position of the guide wheel 52 may deviate, the monitoring mechanism 5 and the deviation correcting mechanism 3 correct the plastic wire to the middle of the guide wheel 52, after the plastic wire passes through the guide wheel 52, one end of the plastic wire is not positioned in the middle of the winding roller, so that the plastic wire can deviate from the center of the winding roller to wind on the winding roller, the second linear moving structure 542 works by arranging the centering adjusting structure 54, the double-headed screw 5422 rotates, the two fifth moving blocks 5424 approach each other under the action of the sixth guide cross rod 5423, the two fifth moving blocks 5424 drive the two centering clamping assemblies 541 to synchronously approach each other, and the two centering clamping assemblies 541 apply acting forces to the two bottom surfaces of the guide wheel 52 respectively, so that the guide wheel 52 moves along the first fixed shaft 513, and the center of the guide wheel 52 is aligned with the center of the winding roller, and the plastic wire is prevented from deviating from one end of the winding roller in the winding process.

Referring to fig. 5 and 6, it is shown that: the centering clamp assembly 541 includes a connection block 5411, a second stationary shaft 5412, and a rotating wheel 5413; the connection block 5411 is connected to the second rectilinear motion structure 542, and the connection block 5411 is installed at the middle of the fifth moving block 5424; the second fixing shaft 5412 is vertically provided at one end of the connection block 5411; the rotating wheel 5413 is disposed on the second fixed shaft 5412, and a side surface of the rotating wheel 5413 is tangent to a bottom surface of the guide wheel 52.

When the second linear moving structure 542 drives the two centering clamping assemblies 541 to move towards the two bottom surfaces of the guide wheel 52, when the two centering clamping assemblies 541 are in abutting connection with the bottom surfaces of the guide wheel 52, the centering clamping assemblies 541 can apply a force parallel to the axis of the guide wheel 52 to the guide wheel 52, so that friction between the centering clamping assemblies 541 and the guide wheel 52 is large, rotation of the guide wheel 52 is hindered, the guide wheel 52 is easy to stretch plastic wires, through the arrangement of the connecting blocks 5411, the second fixed shaft 5412 and the rotating wheels 5413, the two fifth moving blocks 5424 respectively drive the two connecting blocks 5411 to move towards the guide wheel 52, when the bottom surfaces of two sides of the guide wheel 52 are respectively tangent to the side surfaces of the two rotating wheels 5413, the two fifth moving blocks 5424 stop moving, the guide wheel 52 is pulled to rotate when the plastic wires move, the guide wheel 52 drives the two rotating wheels 5413 to rotate, friction between the rotating wheels 5413 is reduced, friction resistance between the rotating wheels 5413 and the guide wheel 52 is remarkably reduced, resistance to be helpful to reduce resistance of the plastic wires in the rotating process, and the movement of the plastic wires is smoother.

Referring to fig. 3, 7 and 8, it is shown that: the deviation rectifying mechanism 3 comprises a guiding structure 31 and a first linear moving structure 32; the guide structure 31 comprises a guide frame 311 and three guide rollers 312, the guide frame 311 comprises a first transverse plate 3111 and two first vertical plates 3112, the first transverse plate 3111 is horizontally arranged, the two first vertical plates 3112 are respectively arranged at two ends of the first transverse plate 3111, the three guide rollers 312 are mutually parallel and equally spaced, the axis of the guide rollers 312 is parallel to the axis of the guide wheels 52, and two ends of the guide rollers 312 are respectively connected with two ends of the guide frame 311; the first linear moving structure 32 is disposed at the lower end of the guide frame 311, the first linear moving structure 32 includes a first guide structure 321 and a first linear driver 322, the guide direction of the first guide structure 321 is parallel to the axis of the guide wheel 52, the first guide structure 321 includes a U-shaped plate 3211, two second guide rails 3332 and two first moving blocks 3213, the U-shaped plate 3211 is disposed on the first transverse plate 3111, the two second guide rails 3332 are disposed on two sides of the U-shaped plate 3211, the axis of the second guide rails 3332 is parallel to the axis of the guide roller 312, two ends of the second guide rails 3332 are connected to two ends of the U-shaped plate 3211, the two first moving blocks 3213 are slidably disposed on the two first guide rails 3212, the first moving blocks 3213 are connected to the first transverse plate 3111, the first linear driver 322 is disposed on the first transverse plate 3111, and the first linear driver 322 is used to push the guide structure 31 to move along the guide direction of the first guide structure 321.

When the monitoring component 53 monitors that the plastic wire deviates to one side of the guide wheel 52, the first linear driving structure works, the first linear driver 322 applies a force towards the other side of the guide wheel 52 to the guide frame 311, the guide frame 311 drives the two first moving blocks 3213 to move along the two first guide cross bars 3212 respectively, the guide frame 311 drives the plurality of guide rollers 312 to move, friction between the guide rollers 312 and the plastic wire can drive the plastic wire to move, and when the monitoring component 53 monitors that the plastic wire deviates to the other side of the guide wheel 52, the first linear driver 322 applies a force in the opposite direction to the guide frame, so that the position of the plastic wire is automatically adjusted, and the plastic wire is ensured to be always kept on a correct path.

Referring to fig. 7 and 9, it is shown that: the deviation correcting mechanism 3 further comprises two tension adjusting structures 33, the two tension adjusting structures 33 are respectively arranged at two ends of the guide frame 311, and the tension adjusting structures 33 comprise an adjusting disc 331, three first driving arms 332 and three second guiding structures 333; the adjusting disk 331 is arranged at the outer side of the guiding frame 311, the adjusting disk 331 is in an isosceles triangle shape, a first rotating shaft 3311 is arranged at one side of the adjusting disk 331, the axis of the first rotating shaft 3311 is parallel to the axis of the guiding roller 312, and one end of the first rotating shaft 3311 extends into the guiding frame 311; the three first driving arms 332 are respectively arranged at three corners of the adjusting disk 331, one end of each first driving arm 332 is in shaft connection with the adjusting disk 331, and the other end of each first driving arm 332 is connected with the guide roller 312; the three second guiding structures 333 correspond to the three guiding rollers 312 respectively, the guiding rollers 312 move along the second guiding structures 333 under the action of the first driving arms 332, the second guiding structures 333 comprise a first rectangular frame 3331, two second guiding cross bars 3332 and a second moving block 3333, the first rectangular frame 3331 is arranged on the first vertical plate 3112, the two second guiding cross bars 3332 are arranged in parallel, two ends of the second guiding cross bars 3332 are connected with two ends of the first rectangular frame 3331 respectively, the second moving block 3333 is arranged on the two second guiding cross bars 3332 in a sliding mode, and two sides of the second moving block 3333 are connected with the guiding rollers 312 and the first driving arms 332 respectively.

When the plastic wire passes through the three guide rollers 312, the tension degree of the plastic wire is insufficient, the friction force between the plastic wire and the guide rollers 312 is small, when the guide rollers 312 move under the action of the first linear driver 322, the guide rollers 312 may not drive the plastic wire to move, through the tension adjusting structure 33, when the tension of the plastic wire between the three guide rollers 312 is small, the first rotating shaft 3311 drives the adjusting disc 331 to rotate, the adjusting disc 331 drives the three first driving arms 332 to move, the first driving arms 332 push the second moving blocks 3333 to move along the second guide cross bars 3332, the second moving blocks 3333 are far away from the first rotating shaft 3311, the distance between the three guide rollers 312 is increased, the three guide rollers 312 apply three-direction acting force to the plastic wire, the plastic wire is tensioned, when the tension of the plastic wire between the three guide rollers 312 is large, the adjusting disc 331 drives the three guide rollers 312 to approach each other, the tension of the plastic wire is reduced, the plastic wire is prevented from being broken or damaged, and the plastic wire is kept in a proper tension range, and the plastic wire can be effectively moved by the guide rollers 312.

Referring to fig. 9 and 10, it is shown that: the deviation rectifying mechanism 3 further comprises a driving bracket 34 and a first driving structure 35; the driving bracket 34 is arranged in the guiding rack 311, two ends of the driving bracket 34 are respectively connected with the two adjusting discs 331, the driving bracket 34 comprises a connecting rod 341 and two second driving arms 342, two ends of the connecting rod 341 respectively extend the two adjusting discs 331 of the box, the two second driving arms 342 are respectively arranged at two ends of the connecting rod 341, one end of each second driving arm 342 is connected with the connecting rod 341, the other end of each second driving arm 342 is inserted on the first rotating shaft 3311, and the second driving arms 342 are in sliding connection with the first rotating shaft 3311; the first driving structure 35 is arranged at the lower end of the driving support 34, the first driving structure 35 drives the two adjusting discs 331 to rotate simultaneously through the driving support 34, the first driving structure 35 comprises a second rectangular frame 351, a first screw rod 352, a third guide cross rod 353 and a third moving block 354, the second rectangular frame 351 is arranged on a first transverse plate 3111, two ends of the first screw rod 352 are respectively connected with two ends of the second rectangular frame 351, the third guide cross rod 353 is arranged on one side of the first screw rod 352 in parallel, the third moving block 354 is in transmission connection with the first screw rod 352, and the third moving block 354 is in sliding connection with the third guide cross rod 353.

When the tension of the plastic wires is increased by the two tension adjusting structures 33, if the two tension adjusting structures 33 adjust the occurrence time difference, the plastic wires can move towards the tension adjusting structure 33 with lag adjustment, the driving bracket 34 and the first driving structure 35 are arranged, the first screw 352 rotates, the third moving block 354 moves along the first screw 352 under the limit of the third guide cross rod 353, the third moving block 354 drives the connecting rod 341 to translate, the connecting rod 341 drives the two second driving arms 342 to move, the two second driving arms 342 respectively drive the two first rotating shafts 3311 to rotate, the second driving arms 342 and the first rotating shafts 3311 relatively slide in the process, and the second driving arms 342 are kept in contact with the first rotating shafts 3311, so that the synchronous adjustment of the two tension adjusting structures 33 is realized, and the plastic wire offset problem caused by the adjustment time difference is effectively avoided.

Referring to fig. 3, 11 and 12, it is shown that: the winding mechanism 4 further comprises a swinging structure 43, wherein the swinging structure 43 comprises a half gear 431, a rack 432, a third guiding structure 433 and a second driving structure 434; the half gear 431 is sleeved on the center positioning shaft 2, and the half gear 431 is fixedly connected with the swinging plate 41; a rack 432 is provided on the toothed side of the half gear 431, and the rack 432 is meshed with the half gear 431; the third guiding structure 433 is arranged at one side of the rack 432, the third guiding structure 433 limits the moving direction of the rack 432 and keeps the rack 432 meshed with the half gear 431, the third guiding structure 433 comprises a fourth guiding cross bar 4331 and a sliding long bar 4332, the fourth guiding cross bar 4331 is horizontally arranged, one end of the fourth guiding cross bar 4331 is fixedly connected with the bottom plate 1, the sliding long bar 4332 is connected with the rack 432, and the sliding long bar 4332 is in sliding connection with the fourth guiding cross bar 4331; the second driving structure 434 is disposed at one end of the third guiding structure 433, the second driving structure 434 is configured to drive the rack 432 to move along the guiding direction of the third guiding structure 433, the second driving structure 434 includes a rotary driver 4341, a third driving arm 4342 and a fourth driving arm 4343, the rotary driver 4341 is mounted on the base plate 1, one end of the third driving arm 4342 is connected with an output shaft of the rotary driver 4341, and two ends of the fourth driving arm 4343 are connected with the third driving arm 4342 and the sliding strip 4332 respectively.

The winding component 42 drives the winding roller to rotate, the plastic wire is pulled by the winding roller to be wound on the winding roller, the swinging structure 43 is arranged, the second driving structure 434 works, the rotary driver 4341 drives the third driving arm 4342 to rotate, the third driving arm 4342 pushes the sliding strip 4332 to reciprocate along the fourth guide cross rod 4331 through the fourth driving arm 4343, the sliding strip 4332 drives the rack 432 to reciprocate, the rack 432 drives the half gear 431 to reciprocate, the half gear 431 drives the swinging plate 41 to reciprocate around the axis of the central positioning shaft 2, the winding roller swings around the axis of the central positioning shaft 2 in the process, the plastic wire is uniformly wound on different positions of the winding roller, the winding roller rotates while swinging around the axis of the central positioning shaft 2, and the compound motion ensures that the plastic wire can be uniformly wound on different positions of the winding roller, so that the problems of partial accumulation or sparse uneven caused by traditional fixed winding are avoided, and the winding quality and the uniformity of product appearance are improved.

Referring to fig. 11 and 12, it is shown that: the swing structure 43 further comprises an angle limiting structure 435, the angle limiting structure 435 is arranged on the toothless side of the half gear 431, the angle limiting structure 435 is used for limiting the swing range of the half gear 431, the angle limiting structure 435 comprises an arc-shaped block 4351 and a limiting rod 4352, the arc-shaped block 4351 is connected with the half gear 431, an arc-shaped groove is formed in the arc-shaped block 4351, the angle of the arc-shaped groove is 90 degrees, one end of the limiting rod 4352 is fixed on the bottom plate 1, and the other end of the limiting rod 4352 extends into the arc-shaped groove.

When the swinging structure 43 drives the wind-up roll to swing through the swinging plate 41, because the length of the wind-up roll is fixed, if the swinging angle of the swinging plate 41 is overlarge, the winding range of the plastic wire may exceed the wind-up roll, through setting the angle limiting structure 435, the elastic arm is surrounded by the fourth driving arm 4343, the fourth driving arm 4343 pushes the rack 432 to drive the half gear 431 to rotate, the half gear 431 drives the arc-shaped block 4351 to rotate, when one end of the arc-shaped groove on the arc-shaped block 4351 is abutted with the limiting rod 4352, the half gear 431 stops swinging, the swinging plate 41 stops swinging, then the fourth driving arm 4343 pulls the rack 432 to reset, the rack 432 drives the half gear 431 to rotate reversely, the half gear 431 drives the arc-shaped block 4351 to rotate reversely until the other end of the arc-shaped groove is abutted with the limiting rod 4352, the half gear 431 stops swinging, and the swinging plate 41 is reset because the arc-shaped groove is larger by 90 degrees, so that the swinging plate 41 can swing in the range around the central positioning shaft 290, and the winding quality of the plastic wire on the wind-up roll is ensured.

Referring to fig. 11 and 13, it is shown that: the winding mechanism 4 further comprises a swing radius adjusting structure 44, the swing radius adjusting structure 44 is arranged on the swing plate 41, the swing radius adjusting structure 44 is used for adjusting the distance between the winding component 42 and the central positioning shaft 2, the swing radius adjusting structure 44 comprises a third rectangular frame 441, a second screw rod 442, a fifth guide cross rod 443 and a fourth moving block 444, the third rectangular frame 441 is arranged on the swing plate 41, two ends of the second screw rod 442 are respectively connected with two ends of the third rectangular frame 441, the fifth guide cross rod 443 is arranged on one side of the second screw rod 442 in parallel, the fourth moving block 444 is in transmission connection with the second screw rod 442, the fourth moving block 444 is in sliding connection with the fifth guide cross rod 443, and the winding component 42 is arranged on the fourth moving block 444.

If the position of the winding component 42 is fixed, when the length of the winding roller is longer, in the swinging range of 90 degrees, most of the winding roller cannot appear in the swinging range, so that the winding roller cannot obtain full Li Yong, when the length of the winding roller is shorter, in the swinging range of 90 degrees, the plastic wire can exceed the winding roller, through setting the swinging radius adjusting structure 44, the second screw 442 rotates, the fourth moving block 444 moves along the second screw 442 under the limit of the fifth guide cross rod 443, when the length of the winding roller is longer, the winding roller can cover a larger area in the swinging process by increasing the swinging radius, the length of the winding roller is fully utilized, the winding efficiency is improved, when the length of the winding roller is shorter, the swinging radius is reduced, the plastic wire cannot exceed the range of the winding roller, the winding is kept neat and stable, the flexible adjustment of the swinging radius of the winding roller is realized, the winding roller with different lengths is adapted, the full utilization of the winding roller is ensured, and the problem that the plastic wire exceeds the range of the winding roller is avoided.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims

1. The deviation correcting device for winding of the plastic wire drawing machine comprises a bottom plate (1) and is characterized by further comprising a central positioning shaft (2), a deviation correcting mechanism (3), a winding mechanism (4) and a monitoring mechanism (5);

The center positioning shaft (2) is vertically arranged in the middle of the bottom plate (1);

the deviation correcting mechanism (3) is arranged on one side of the central positioning shaft (2), the deviation correcting mechanism (3) is used for adjusting the moving path of the plastic wire, and the deviation correcting mechanism (3) comprises a guide structure (31) and a first linear moving structure (32);

The guide structure (31) comprises a guide frame (311) and three guide rollers (312), wherein the three guide rollers (312) are mutually parallel and are arranged at equal intervals, the axis of each guide roller (312) is parallel to the axis of each guide wheel (52), and two ends of each guide roller (312) are respectively connected with two ends of the guide frame (311);

the first linear movement structure (32) is arranged at the lower end of the guide frame (311), the first linear movement structure (32) comprises a first guide structure (321) and a first linear driver (322), the guide direction of the first guide structure (321) is parallel to the axis of the guide wheel (52), the first linear driver (322) is arranged on the first transverse plate (3111), and the first linear driver (322) is used for pushing the guide structure (31) to move along the guide direction of the first guide structure (321). ;

The winding mechanism (4) is arranged on the other side of the central positioning shaft (2), the winding mechanism (4) comprises a swinging plate (41) and a winding component (42), one end of the swinging plate (41) is sleeved on the central positioning shaft (2), the swinging plate (41) can swing around the axis of the central positioning shaft (2), the winding component (42) is arranged at the other end of the swinging plate (41), and the winding component (42) is used for driving a winding roller to wind plastic wires;

the monitoring mechanism (5) is arranged on the central positioning shaft (2), the plastic wires sequentially pass through the deviation correcting mechanism (3), the monitoring mechanism (5) and the winding mechanism (4), and the deviation correcting mechanism (3) adjusts the moving path of the plastic wires according to the deviation data of the plastic wires monitored by the monitoring mechanism (5).

2. The deviation correcting device for winding of the plastic wire drawing machine according to claim 1, wherein the monitoring mechanism (5) comprises a monitoring frame (51), a guide wheel (52) and a monitoring assembly (53);

the monitoring rack (51) is arranged at the upper end of the center positioning shaft (2);

The guide wheel (52) is arranged in the monitoring rack (51), the plastic wire is tightly attached to the upper end of the guide wheel (52), and the thickness of the guide wheel (52) is the same as the width of the plastic wire;

The monitoring component (53) is arranged at the upper end of the guide wheel (52).

3. The deviation correcting device for winding of plastic wire drawing machine according to claim 2, characterized in that the monitoring mechanism (5) further comprises a centering adjusting structure (54), the centering adjusting structure (54) is arranged at the lower end of the guide wheel (52), and the centering adjusting structure (54) comprises two centering clamping components (541) and a second linear moving structure (542);

The two centering clamping assemblies (541) are symmetrically arranged on two sides of the guide wheel (52);

The second linear moving structure (542) is arranged at the lower end of the guide wheel (52), and the second linear moving structure (542) is used for driving the two centering clamping assemblies (541) to be close to or far away from each other.

4. A deviation correcting device for winding a plastic wire drawing machine according to claim 3, characterized in that the centering clamping assembly (541) comprises a connecting block (5411), a second fixed shaft (5412) and a rotating wheel (5413);

the connecting block (5411) is connected with the second linear moving structure (542);

The second fixed shaft (5412) is vertically arranged at one end of the connecting block (5411);

the rotating wheel (5413) is arranged on the second fixed shaft (5412), and the side surface of the rotating wheel (5413) is tangential to the bottom surface of the guide wheel (52).

5. The deviation correcting device for winding of plastic wire drawing machine according to claim 4, characterized in that the deviation correcting mechanism (3) further comprises two tension adjusting structures (33), the two tension adjusting structures (33) are respectively arranged at two ends of the guiding frame (311), and the tension adjusting structures (33) comprise an adjusting disc (331), three first driving arms (332) and three second guiding structures (333);

The adjusting disc (331) is arranged on the outer side of the guide frame (311), the adjusting disc (331) is in an isosceles triangle shape, a first rotating shaft (3311) is arranged on one side of the adjusting disc (331), the axis of the first rotating shaft (3311) is parallel to the axis of the guide roller (312), and one end of the first rotating shaft (3311) extends into the guide frame (311);

The three first driving arms (332) are respectively arranged at three corners of the adjusting disc (331), one end of each first driving arm (332) is in shaft connection with the adjusting disc (331), and the other end of each first driving arm (332) is connected with the guide roller (312);

The three second guide structures (333) correspond to the three guide rollers (312), respectively, and the guide rollers (312) move along the second guide structures (333) under the action of the first driving arms (332).

6. The deviation correcting device for winding of plastic wire drawing machine according to claim 5, characterized in that the deviation correcting mechanism (3) further comprises a driving bracket (34) and a first driving structure (35);

The driving bracket (34) is arranged in the guide frame (311), and two ends of the driving bracket (34) are respectively connected with the two adjusting discs (331);

the first driving structure (35) is arranged at the lower end of the driving bracket (34), and the first driving structure (35) drives the two adjusting discs (331) to rotate simultaneously through the driving bracket (34).

7. The deviation correcting device for winding of a plastic wire drawing machine according to claim 1, wherein the winding mechanism (4) further comprises a swinging structure (43), and the swinging structure (43) comprises a half gear (431), a rack (432), a third guiding structure (433) and a second driving structure (434);

The half gear (431) is sleeved on the central positioning shaft (2), and the half gear (431) is fixedly connected with the swinging plate (41);

the rack (432) is arranged on the toothed side of the half gear (431), and the rack (432) is meshed with the half gear (431);

The third guide structure (433) is arranged on one side of the rack (432), and the third guide structure (433) limits the moving direction of the rack (432) and keeps the rack (432) meshed with the half gear (431);

The second driving structure (434) is disposed at one end of the third guiding structure (433), and the second driving structure (434) is used for driving the rack (432) to move along the guiding direction of the third guiding structure (433).

8. The deviation correcting device for winding of plastic wire drawing machine according to claim 7, wherein the swinging structure (43) further comprises an angle limiting structure (435), the angle limiting structure (435) is arranged on the toothless side of the half gear (431), and the angle limiting structure (435) is used for limiting the swinging range of the half gear (431).

9. The deviation correcting device for winding of plastic wire drawing machine according to claim 7, wherein the winding mechanism (4) further comprises a swing radius adjusting structure (44), the swing radius adjusting structure (44) is arranged on the swing plate (41), and the swing radius adjusting structure (44) is used for adjusting the distance between the winding assembly (42) and the center positioning shaft (2).