CN115432512A - Intelligent hank forming machine for producing polyester embroidery threads - Google Patents

Abstract

The invention relates to the technical field of knitting yarn winding equipment, in particular to an intelligent hank former for producing polyester embroidery yarns, which comprises a machine body and a roller changing mechanism, wherein the roller changing mechanism comprises a main roller and an auxiliary roller parallel to the main roller, silk yarns are wound on the outer side of the main roller and are arranged along the length direction of the machine body, a plurality of reels are sleeved on the outer side of the auxiliary roller, and the reels can pull the silk yarns on the main roller to rotate along the axial direction of the reels. According to the invention, the plurality of reels are arranged on the auxiliary roller, the reels are fixed one by utilizing the traction piece capable of guiding and moving along the length direction of the auxiliary roller, when the clamping jaw on the traction piece is pressed against one side of each reel, the reel is driven to rotate by rotating the limiting ring in the clamping jaw, the embroidery thread on the main roller is dragged and wound on the outer side of each reel, and after the winding process is finished, the push rod is separated from each reel, so that the constraint on one side of each reel can be conveniently loosened, and the wound reel barrel can be taken down.

Description

Intelligent hank forming machine for producing polyester embroidery threads

Technical Field

The invention relates to the technical field of yarn weaving and winding equipment, in particular to an intelligent hank forming machine for producing polyester embroidery threads.

Background

After the polyester embroidery thread is spun, in order to facilitate secondary use or storage, the rolled embroidery thread needs to be wound outside a plurality of winding shaft cylinders for subpackage, and a reaming machine is generally adopted in the prior art to complete the process.

Usually, the reel is installed at the rotating position of the reaming machine, the embroidery thread is wound on the reel drum in advance for a certain number of turns and then is wound in a rotating manner, however, after the winding of one reel drum is completed, the equipment needs to be stopped, the next reel drum is supplemented manually, the manual replacement efficiency is low, and the efficiency of the whole subpackaging process is affected.

Therefore, an intelligent twisting machine for producing polyester embroidery threads is provided to solve the problems.

Disclosure of Invention

Solves the technical problem

Aiming at the defects in the prior art, the invention provides an intelligent hank-forming machine for producing polyester embroidery threads, which can effectively solve the problem that the replacement efficiency of a reel for winding the embroidery threads in the prior art is low.

Technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme:

the invention provides an intelligent hank-forming machine for producing polyester embroidery threads, which comprises a machine body and a roll changing mechanism, wherein the roll changing mechanism comprises a main roll and an auxiliary roll which is arranged in parallel with the main roll, silk threads are wound on the outer side of the main roll and are arranged along the length direction of the machine body, a plurality of reels are sleeved on the outer side of the auxiliary roll, the reels can pull the silk threads on the main roll to rotate along the axial direction of the reels, a traction piece which can guide and move along the length direction of the auxiliary roll is arranged on the machine body, the traction piece comprises push rods and clamping jaws which can be abutted against the two sides of the reels, a rotatable limiting ring is arranged in the clamping jaws, a plurality of arc sheets are hinged to one side of each limiting ring, which faces the reel, and the plurality of arc sheets can be abutted against the inner side surfaces of the reels at the same time, and the friction force between the arc sheets and the inner side surfaces of the reels is increased along with the reduction of the distance between the reels and the arc sheets.

Further, the push rod is including slider and telescopic link, the slider slides along the direction of auxiliary roller length direction, telescopic link movable mounting is in one side of slider towards the spool, and the both sides of telescopic link extend toward organism width direction respectively, and its one side extendible to the spool of facing the auxiliary roller and promote the spool along with the removal of slider and remove, and wherein, the one side end that lies in the telescopic link and keep away from the spool is equipped with one and can supports rolling leading wheel on the organism, be equipped with a rail that supplies the leading wheel rolling on the organism, towards keeping away from spool one side indent on the track between corresponding two spools.

Further, the push rod is including slider and telescopic link, the slider slides along the direction of auxiliary roller length direction, telescopic link movable mounting is in one side of slider towards the spool, and the both sides of telescopic link extend toward organism width direction respectively, and its one side extendible to the spool of facing the auxiliary roller and promote the spool along with the removal of slider and remove, and wherein, one side end that lies in the telescopic link and keep away from the spool is equipped with one and can supports rolling leading wheel on the organism, be equipped with a rail that supplies the leading wheel rolling on the organism, towards keeping away from spool one side indent between two spools of correspondence on the track.

Furthermore, a plurality of arc piece circumference distributes in the spacing collar towards the one end of spool, all is equipped with the torsional spring between every arc piece and the spacing collar.

Furthermore, the machine body further comprises a glue coating mechanism, the glue coating mechanism comprises a rotating roller in a V-shaped structure, the concave surface of the rotating roller faces one side of the reel, a glue brushing wheel and a stretching wheel are respectively arranged on two sides of the rotating roller, the motion track of the glue brushing wheel is intersected with the outer side of the reel, and the stretching wheel is arranged above the glue brushing wheel and can stretch threads when the glue brushing wheel is intersected with the outer end of the reel.

Further, the machine body further comprises a rubber box, glue is injected into the rubber box, a friction path is formed in the inner side of the rubber box along the movement track of the rubber brushing wheel, and a layer of sponge ring is sleeved on the outer side of the rubber brushing wheel.

Furthermore, the stretching wheels are symmetrically distributed along the length direction of the reel, and one stretching wheel can move towards the other stretching wheel and clamp the silk between the two stretching wheels.

Further, it still includes the deflector to cover gluey mechanism, an arc wall has been seted up along the rotation orbit of changeing the roller to the deflector, stretch tight round elastic mounting on changeing the roller, and its one end that extends into in the arc wall is installed a spin, wherein, establish to two-layer with the contact terminal surface of spin in the arc wall, and thickness increases gradually.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

according to the invention, the plurality of reels are arranged on the auxiliary roller, the reels are fixed one by utilizing the traction piece which can be guided to move along the length direction of the auxiliary roller, when the clamping jaw on the traction piece is abutted against one side of the reel, the limiting ring in the clamping jaw is rotated to drive the reel to rotate, the embroidery thread on the main roller is pulled and wound on the outer side of the reel, at the moment, the push rod pushes the whole reel to slide by moving the traction piece, and after the winding process is completed, the push rod is not in contact with the reel and is separated from the reel, so that the constraint on one side of the reel can be conveniently loosened, and the wound reel barrel can be taken down.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a rear side view overall structure, a top view partial structure, in accordance with an embodiment of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic illustration of an exploded view of a traction element in an embodiment of the present invention;

FIG. 5 is a schematic view of a roll changing structure in the embodiment of the present invention;

FIG. 6 is a schematic view of a glue application mechanism in an embodiment of the invention;

FIG. 7 is a schematic view of the glue-coated state in the embodiment of the present invention;

FIG. 8 is a schematic diagram of a rubber box and an internal friction channel thereof according to an embodiment of the present invention;

FIG. 9 is an exploded view of the stretching wheel according to the embodiment of the present invention;

FIG. 10 is a schematic view of the structure of the arc-shaped groove in the guide plate according to the embodiment of the present invention.

The reference numerals in the drawings denote: 1. a body; 11. a track; 12. a glue box; 121. rubbing the road; 13. a guide bar; 14. a stopper; 141. a slide shaft; 142. a return spring; 15. a discharge rail; 16. a partition plate; 2. a roll changing mechanism; 21. a main roller; 22. a secondary roll; 221. a reel; 222. a plastic sheath; 3. a traction member; 31. a push rod; 312. a telescopic rod; 313. a guide wheel; 314. a slide bar; 315. a spring; 32. a clamping jaw; 321. a limiting ring; 322. an arc sheet; 323. a torsion spring; 4. a glue coating mechanism; 41. rotating the roller; 411. brushing a rubber wheel; 412. stretching wheels; 413. a sponge ring; 414. rolling a ball; 42. a guide plate; 421. an arc-shaped groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present invention will be further described with reference to the following examples.

The embodiment is as follows:

the embroidery thread is wound on the main roller after the spinning process, and the embroidery thread wound on the main roller needs to be wound on the reel in the subsequent winding process, so that the embroidery thread is convenient to transport and use.

Traditional branch that is used for embroidery thread is around adopting into the hinge machine to realize, becomes the hinge machine utilization usually and lets the spool rotate, twines the embroidery thread on the home roll on the spool, but become the hinge machine among the prior art and need artifically to overlap the spool on revolution mechanic when fixed to the spool, need artifically lift off the spool after accomplishing the winding to a new spool of replacement again, efficiency is lower.

Therefore, with reference to fig. 1-10, the invention provides a related structure for automatically replacing a reel 221 in an intelligent twisting machine for producing polyester embroidery threads to realize the function of intelligently replacing the reel 221, the twisting machine mainly comprises a machine body 1 and a roller changing mechanism 2, the roller changing mechanism 2 comprises two parallel main rollers 21 and auxiliary rollers 22, silk threads are wound on the main rollers 21, the rollers after spinning can be directly adopted in the actual use process, the present example does not give much details on the replacement and replacement of the main rollers 21 in the prior art, but it is noted that after the main rollers 21 are replaced, one end of the silk threads needs to be manually wound on a guide rod 13 on the machine body 1, and the specific arrangement of the guide rod 13 is shown in the following text.

The plurality of reels 221 are sleeved outside the sub-roller 22, the empty reels 221 can be sleeved from one side of the machine body 1 along the outside of the sub-roller 22 and can be fed into the machine body 1, the same technology for feeding the reels 221 at equal intervals is the prior art, in the embodiment, the reels 221 are fed at equal intervals in a manual arrangement mode, but the induction technology in the prior art (a sensor senses the feeding position of the reels 221 and drives a certain pushing structure to push the reels 221 to a preset position) can be combined, a certain intelligent structure can be arranged to realize feeding and equidistant arrangement of the reels 221, the technology is well known, and the embodiment is not repeated.

When the winding shaft 221 is fed to a predetermined position, the traction member 3 on the machine body 1 starts to move, the traction member 3 comprises a push rod 31 and a clamping jaw 32 which can respectively abut against two sides of the winding shaft 221, when the push rod 31 reaches between two empty winding shafts 221, a telescopic rod 312 on the push rod 31 extends to one side of the two empty winding shafts 221, when the push rod 31 moves, the clamping jaw 32 abuts against the other side of the empty winding shaft 221 and is tightly attached to the inner side end surface of the empty winding shaft 221, a rotatable limiting ring 321 is arranged in the clamping jaw 32, and when the limiting ring 321 rotates, the empty winding shaft 221 rotates around the axial direction of the auxiliary roller 22 by using the friction force between the limiting ring 321 and the empty winding shaft 221. (since the embroidery thread has been stuck on the outer side of the spool 221 before this time, the embroidery thread is wound on the empty spool 221 when the empty spool 221 is rotated).

And after the empty reel 221 is inserted into the auxiliary roller 22, a plastic sleeve 222 is sleeved on one side of the empty reel 221, the outer side of the plastic sleeve 222 is subjected to smoothing treatment and is concentric and coaxial with the reel 221, so that the friction force generated when the empty reel 221 rubs is reduced, in the embodiment, the plastic sleeve 222 is sleeved on the empty reel 221 before the empty reel 221 is arranged, and after winding is completed, the empty reel is taken down for secondary use, and lubricating oil can be further coated on the end face of the empty reel 221 so as to reduce the friction force.

It should be noted that the distance between the clamping jaw 32 and the pushing rod 31 in this embodiment is adjustable, specifically, the pulling member 3 is in a plate shape as a whole and is matched with the screw rod of the machine body 1, the pushing rod 31 and the clamping jaw 32 are respectively arranged at two sides of the pulling member 3, but a stopper 14 is arranged on the pulling member 3 of the machine body 1 between the pushing rod 31 and the clamping jaw 32, a sliding shaft 141 is arranged on the stopper 14 along the length direction of the sub-roller 22, the clamping jaw 32 is sleeved on the sliding shaft 141, a return spring 142 is sleeved outside the sliding shaft 141 and abuts against one side of the clamping jaw 32 away from the roller 221, when the pulling member 3 starts to move, the pushing rod 31 gradually moves, and the clamping jaw 32 is divided into two parts, one is a housing part connected with the pulling member 3, and the other is a limiting ring 321 rotatably arranged in the housing, when the pulling member 3 moves, the limiting ring 321 is driven to move, and the limiting ring 321 can also rotate.

The three arc pieces 322 are hinged to one side of the limiting ring 321 facing the winding shaft 221, and the plurality of arc pieces 322 can simultaneously abut against the inner end surface of the winding shaft 221, and increase the friction force between the end surface and the inner end surface of the winding shaft 221 as the distance between the end surface and the winding shaft 221 decreases.

Meanwhile, the other side of the limiting ring 321 is connected with a set of rollers, the set of rollers are connected with a driving shaft providing a rotary power source in a guiding way, and the driving shaft can be connected with a corresponding driving motor, which is a well-known technology and is not described in too much detail in this embodiment,

it is to be noted that the sub-roll 22 in this example is divided into a thick portion, i.e., a portion where the empty reel 221 is arranged, at a portion where the gripper 32 is squeezed, the sub-roll 22 and reaches the thin portion, while the rear side of the empty reel 221 remains at the thick portion of the sub-roll 22, and when completely separated from the thick portion, the empty reel 221 starts to rotate.

When the traction piece 3 moves with the limiting ring 321, at this time, the spools 221 are arranged, the spool 221 located at the head is manually fed towards the direction of the clamping jaw 32, the three arc pieces 322 start to extrude into the inner side end of the spool 221, and gradually press the arc pieces 322 towards the central axis direction of the traction piece 3, the hinged part of each arc piece 322 and the limiting ring 321 is provided with a torsion spring 323, when the arc pieces 322 reach the maximum extrusion force (when the spool 221 cannot be pushed), the traction piece 3 starts to move at this time, when moving, the telescopic rod 312 moves towards one side of the spool 221 and drives the spool 221 to move in a guiding way, and simultaneously, the rotation of the limiting ring 321 is driven to wind the embroidery thread, in this example, the winding of the embroidery thread is in a layer-by-layer mode, the processed embroidery thread roller is in a circular table shape, and the moving frequency of the traction piece 3 or finished embroidery thread spools with different shapes can be controlled according to actual needs.

It should be noted that in this embodiment, the three arc pieces 322 are circumferentially distributed at one end of the limiting ring 321 facing the winding shaft 221, each arc piece 322 is in an inclined state when the torsion spring 323 does not receive a torsion force, and the three arc pieces 322 are integrally in a circular truncated cone shape (the narrow surface faces the direction of the winding shaft 221) with a left wide diameter and a right narrow diameter.

After winding, the traction piece 3 starts to be separated from the reel 221, the inclined discharging rail 15 is arranged on the machine body 1, when the traction piece 3 reaches the upper part of the discharging rail 15, the telescopic rod 312 does not contact one side of the reel 221 again, so that the reel 221 can be peeled off from the clamping jaw 32, the whole roll changing operation is completed, the traction piece 3 is reset, and the next filling process is waited.

The reciprocating structure of the telescopic rod 312 is realized in this embodiment by arranging two sliding rods 314 in the width direction of the machine body 1 in the push rod 31, wherein each sliding rod 314 is sleeved with a spring 315, the telescopic rod 312 is sleeved on the two sliding rods 314, and the spring 315 abuts against one side end of the telescopic rod 312 facing the winding shaft 221.

Meanwhile, a guide wheel 313 capable of rolling on the machine body 1 is arranged at one side end of the telescopic rod 312 far away from the reel 221, a rail 11 for the guide wheel 313 to roll is arranged on the machine body 1, the rail 11 is concave towards one side far away from the reel 221 corresponding to the space between the two reels 221, when the guide wheel 313 moves towards the concave position, the whole telescopic rod 312 moves towards the direction far away from the reel 221, the reel 221 is filled and pushed, when filling is completed, the traction piece 3 moves, the guide wheel 313 breaks away from the concave position, the telescopic rod 312 moves towards the side end of the reel 221 at the moment, and the reel 221 is pushed to move along with the movement of the traction piece 3, in the embodiment, one end, attached to the reel 221, of the telescopic rod 312 is of a concave structure, and the two side edges are vertically symmetrical in the axial direction of the reel 221.

When the blanking process is performed, that is, the spool 221 wound with the embroidery thread is separated from the traction member 3, the same indent is also provided on the rail 11, and when the guide wheel 313 moves to the place, the telescopic rod 312 will also retract, which is the same as the principle of the previous process and will not be described in detail herein.

Simultaneously at present to spool 221 preliminary winding all carry out the winding of certain number of turns through the manual work, influence efficiency very much, for this reason, further proposed in this embodiment and cooperated the automatic winding structure of automatic roll change, when accomplishing to fill spool 221 promptly, the stand immediately is to the outside end rubber coating of new spool 221 to glue embroidery line and twine along with the rotation of spool 221 automatically on it. (after the winding of the previous spool 221 is completed, the thread needs to be cut at a certain distance, in this example, manually cut, and the cut portion is shown in the following description)

The machine body 1 and one side of the auxiliary roller 22 further comprises a glue coating mechanism 4, the glue coating mechanism 4 comprises a rotating roller 41 in a V-shaped structure, the concave surface of the rotating roller 41 faces one side of the scroll 221, the focus of the rotating roller is rotatably installed on a partition board 16 arranged at the upper end of the machine body 1 through a rotating shaft, the other side of the partition board 16 is connected with the rotating shaft through a motor, a glue brushing wheel 411 and a tension wheel 412 are respectively arranged at two sides of the rotating roller 41, the motion track of the glue brushing wheel 411 is intersected with the outer side of the scroll 221, and the tension wheel 412 is arranged above the glue brushing wheel 411 and can tension the silk threads when the glue brushing wheel 411 is intersected with the outer side end of the scroll 221.

In this embodiment, four guide rods 13 (mentioned above) are provided on the partition 16, and two of the four guide rods 13 are grouped, and the embroidery thread on the main roller 21 is wound on the four guide rods 13, and the embroidery thread on one guide rod 13 closest to the winding shaft 221 falls downward and is tangent to the winding shaft 221, and the optimal position is 1-2cm below the tangent position, which, in combination with the aforementioned cutting position, ensures a length that at least the end of the embroidery thread is tangent to the outside of the winding shaft 221.

The outer side of the glue brushing wheel 411 is covered with glue, the reel 221 in this example is made of PVC plastic, the outer side is smooth, when the glue brushing wheel 411 contacts the reel 221, glue can be attached to the reel 221 therebetween, but the adhesive force between the glue brushing wheel and the reel 221 is not enough to affect the rotation of the reel 221, a rectangular glue box 12 is further arranged on the machine body 1, glue is injected into the glue box 12, a friction channel 121 is arranged on the inner side of the glue box 12 along the movement track of the glue brushing wheel 411, and a layer of sponge ring 413 is sleeved on the outer side of the glue brushing wheel 411.

The sponge ring 413 in this embodiment has a certain elasticity, when the sponge ring contacts the friction track 121, a certain compression is generated, the sponge ring is submerged below the glue solution level, and when the glue brushing wheel 411 contacts the reel 221 along with the rotation of the roller 41, a certain pressure is generated between the sponge ring 413 and the reel 221, the sponge ring 413 is also compressed, in this embodiment, quick-drying glue can be used as the base material of the glue solution in this embodiment (the maximum bonding time is 3-10 s), during this period, the reel 221 rotates clockwise about 350 ° based on the tangent point, when the glue brushing wheel 411 contacts the reel 221, the reel 221 rotates, and an offset is left at the outer end of the reel 221, when the tangent point is reached, the glue brushing wheel adheres to the embroidery thread and drives the embroidery thread to rotate and wind, in order to achieve the best gluing effect, the rotation speed of the reel 221 can be increased after multiple rotations, or the length of the glue brushing wheel 411 can be changed (in order to ensure that the sponge ring keeps a certain softness, the sponge ring 413 needs to be changed periodically).

In order to avoid that the embroidery thread moves too much in the tangential direction when the spool 221 rotates due to dragging, when the glue brushing wheel 411 contacts the spool 221, the embroidery thread wound on the guide rod 13 is fixed, so that the length of the embroidery thread on the other side of the tangent point of the embroidery thread and the spool 221 is kept the same (too much embroidery thread length on the bonding point is too long, which affects the gluing effect under the action of self weight and centrifugal force), two stretching wheels 412 are arranged symmetrically along the length direction of the spool 221, and one stretching wheel 412 can move towards the other stretching wheel 412 and clamp the embroidery thread between the two stretching wheels 412.

The glue coating mechanism 4 further comprises a guide plate 42, the guide plate 42 is provided with an arc-shaped groove 421 along the rotating track of the rotating roller 41, the stretching wheel 412 is elastically installed on the rotating roller 41, one end of the stretching wheel extending into the arc-shaped groove 421 is provided with a rolling ball 414, wherein the contact end surfaces of the arc-shaped groove 421 and the rolling ball 414 are two layers, and the thickness is gradually increased.

Specifically, in this embodiment, the movable tension wheel 412 is sleeved on the sliding rod on the rotating roller 41, and the sliding rod is sleeved with a resistance spring, one side of the resistance spring is abutted against one side of the tension wheel 412, when the rolling ball 414 on the tension wheel 412 becomes thicker due to the thicker track, the whole tension wheel 412 can slide on the sliding rod, so as to achieve the purpose of moving, at this time, the resistance is elastically compressed and deformed, and when the track contacted by the rolling ball 414 becomes thinner, the whole tension wheel 412 can be reset under the action of the resistance spring.

In summary, the steps of the roller 41 stroke can be roughly divided into the following steps:

step 1: at this time, the glue brushing wheel 411 on the rotating roller 41 does not contact with the reel 221, and when the embroidery thread on the previous reel 221 is cut off, the glue brushing wheel 411 is rotated into the glue box 12 for glue filling;

step 2: after the step 1 is completed, the rotating roller 41 is reversed, the movable stretching wheels 412 on the rotating roller 41 move in the arc-shaped groove 421 along with the rotation of the rotating roller 41, and when the rolling balls 414 move to the end surface of the thicker arc-shaped groove 421, the whole stretching wheel 412 moves towards the other stretching wheel 412 to clamp the embroidery thread between the two stretching wheels 412;

and step 3: at this time, at the end of step 2, the glue brushing wheel 411 contacts with the reel 221, a glue line is left by brushing the outside of the reel 221, after a certain time, the glue line contacts with the embroidery thread, at this time, the rotating roller 41 is rotated, the stretching wheel 412 no longer clamps the embroidery thread, at this time, the embroidery thread rotates on the reel 221 along with the bonding with the glue, and the whole glue brushing process is completed.

The above examples are only intended to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not depart from the essence of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a production of dacron embroidery line is with intelligent hank-forming machine which characterized in that includes:

a body;

the roller changing mechanism comprises a main roller and an auxiliary roller arranged in parallel with the main roller, silk threads are wound on the outer side of the main roller and are arranged along the length direction of the machine body, a plurality of reels are sleeved on the outer side of the auxiliary roller, and the reels can pull the silk threads on the main roller to rotate along the axial direction of the reels;

wherein, be located and be equipped with one on the organism and follow the piece that pulls of vice roller length direction activity, pull the piece including can support push rod and the clamping jaw in the spool both sides, be equipped with a rotatable spacing collar in the clamping jaw, the spacing collar articulates towards one side of spool has a plurality of arc piece, and a plurality of arc piece can support simultaneously on the medial surface of spool, and along with the reduction of the distance between the spool and increase the frictional force between the medial surface of spool.

2. The intelligent hank former for polyester embroidery thread production according to claim 1, wherein the push rod comprises:

the sliding block slides in a guiding manner along the length direction of the auxiliary roller;

the telescopic rod is movably arranged on one side of the sliding block facing the scroll, two sides of the telescopic rod respectively extend towards the width direction of the machine body, and one side of the telescopic rod facing the auxiliary roller can extend to one side of the scroll and push the scroll to move along with the movement of the sliding block;

wherein, the one side end that is located the telescopic link and keeps away from the spool is equipped with one and can supports the leading wheel that rolls on the organism, be equipped with a rail that supplies the leading wheel rolling on the organism, it is towards keeping away from spool one side indent to correspond between two spools on the rail.

3. The intelligent hank-forming machine for producing polyester embroidery threads as claimed in claim 2, wherein a plastic sleeve is inserted into each side of each reel contacting with the telescopic rod, and the outer side of each plastic sleeve is smoothed and is concentric and coaxial with the reel.

4. The intelligent hank reel for polyester embroidery thread production according to claim 1, wherein a plurality of the arc pieces are circumferentially distributed at one end of the limiting ring facing the reel, and a torsion spring is arranged between each arc piece and the limiting ring.

5. The intelligent hank reel for polyester embroidery thread production according to claim 1 or 4, characterized in that the machine body further comprises:

the glue coating mechanism comprises a rotating roller in a V-shaped structure, and the concave surface of the rotating roller faces one side of the scroll;

the two sides of the rotating roller are respectively provided with a rubber brushing wheel and a stretching wheel, the motion track of the rubber brushing wheel is intersected with the outer side of the reel, and the stretching wheel is arranged above the rubber brushing wheel and can stretch the silk when the rubber brushing wheel is intersected with the outer side end of the reel.

6. The intelligent hank reel for polyester embroidery thread production of claim 5, wherein the machine body further comprises:

the glue box is internally injected with glue solution, and the inner side of the glue box is provided with a friction path along the motion track of the glue brushing wheel;

wherein, the outer side of the rubber brushing wheel is sleeved with a layer of sponge ring.

7. The intelligent hank reel for polyester embroidery thread production according to claim 5, wherein the stretching wheels are arranged in two and symmetrical distribution along the length direction of the reel, and one of the stretching wheels can move towards the other stretching wheel and clamp the yarn between the two stretching wheels.

8. The intelligent hank reel for polyester embroidery thread production of claim 7, wherein the glue coating mechanism further comprises:

the stretching wheel is elastically installed on the rotating roller, and a rolling ball is installed at one end of the stretching wheel extending into the arc-shaped groove;

the contact end surfaces of the arc-shaped grooves and the rolling balls are arranged into two layers, and the thickness of the arc-shaped grooves is gradually increased.

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