CN214268263U

CN214268263U - Hang tag rope threading knotting device

Info

Publication number: CN214268263U
Application number: CN202023083783.4U
Authority: CN
Inventors: 苏丹
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-18
Filing date: 2020-12-18
Publication date: 2021-09-24
Anticipated expiration: 2030-12-18

Abstract

The utility model relates to a rope threading and knotting device for a hang tag, which comprises a rolling mechanism, a rope pulling mechanism, a knotting mechanism and a cutting mechanism; the winding and unwinding mechanism comprises a rope feeding assembly, a rope feeding needle and a first clamping assembly; the rope pulling mechanism comprises a first driving component, a second driving component and a second clamping component; the knotting mechanism comprises a third driving component, a rotary driving component and a knotting kit, the rotary driving component is connected with the third driving component, the third driving component is used for driving the rotary driving component to move along a third direction, and the third direction is perpendicular to the first direction and the second direction; the knotting kit is connected with the rotary driving part, the knotting kit comprises a sharp-mouth-shaped rotary chuck, and the rotary driving part is used for driving the rotary chuck to rotate so as to form a knot; the cutting mechanism is used for cutting off the hanging rope between the hanging tag and the rope feeding needle. The utility model discloses a hang tag stringing knotting device can realize the automatic stringing and the knot of hang tag, has improved production efficiency.

Description

Hang tag rope threading knotting device

Technical Field

The utility model relates to an automation equipment field, concretely relates to hang tag rope threading knotting device.

Background

Hang tags are commonly used in the field of clothing and the like, and the flat design on the hang tags can record contents such as advertisements, ingredient descriptions, washing instructions, bar codes, authentication marks and the like. One or more of the swing tickets can be threaded through the lanyard and hung onto the garment. There are some automatic drop reeving devices at present, can realize piling up and the reeving of a drop reeving or a plurality of drop cards, include drop conveyor and reeving device etc. usually, can send the reeving position through sending the rope mechanism with the drop that separates in advance, rethread one or more drop conveyor carry one or more drop cards to the reeving position and penetrate the drop. However, the existing drop stringing device is difficult to directly use the coiled hanging rope for stringing, and when the coiled hanging rope is used for stringing, the hanging ropes on the two sides of the drop are knotted, so that the drop is prevented from falling off from the hanging rope after the hanging rope is cut off. At present, most of the lifting ropes wound into coils can be manually threaded and knotted manually, so that the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hang tag stringing knotting device, the device can realize automatic hang tag stringing and knotting operation, improves production efficiency.

In order to realize the purpose of the utility model, the utility model provides a rope threading and knotting device for a hang tag, which comprises a rolling mechanism, a rope pulling mechanism, a knotting mechanism and a cutting mechanism; the rolling and releasing mechanism comprises a rope feeding assembly, a rope feeding needle and a first clamping assembly, wherein the rope feeding assembly conveys a lifting rope to the rope feeding needle, the rope feeding needle is used for moving back and forth so as to penetrate the lifting rope into a tag, and the first clamping assembly is used for clamping or loosening the tail end of the lifting rope penetrating into the tag; the rope pulling mechanism comprises a first driving assembly, a second driving assembly and a second clamping assembly, the second driving assembly is connected with the first driving assembly, and the first driving assembly is used for driving the second driving assembly to move along a first direction; the second clamping assembly is connected with the second driving assembly, and the second driving assembly is used for driving the second clamping assembly to move along a second direction, wherein the second direction is perpendicular to the first direction; the second clamping assembly is used for clamping or loosening the swing ticket; when the hanging rope penetrates into the hanging tag and the second clamping assembly clamps the hanging tag, the first driving assembly and/or the second driving assembly can move to drive the hanging rope to move; the knotting mechanism comprises a third driving component, a rotary driving component and a knotting kit, wherein the rotary driving component is connected with the third driving component, the third driving component is used for driving the rotary driving component to move along a third direction, and the third direction is perpendicular to the first direction and the second direction; the knotting kit is connected with the rotary driving part, the knotting kit comprises a sharp-mouth-shaped rotary chuck, and the rotary driving part is used for driving the rotary chuck to rotate; when the first driving assembly and/or the second driving assembly move and drive the lifting rope to move, the lifting rope can rotate along with the rotating chuck and is wound to form a lifting rope ring on the outer side of the rotating chuck, the rotating chuck can rotate along with the rotating chuck to clamp the outer end of the lifting rope ring, then the lifting rope ring can be separated from the rotating chuck, and the rotating chuck rotates along with the rotating chuck to loosen the outer end of the ring to form a rope knot; the cutting mechanism is located between the rolling and unrolling mechanism and the knotting mechanism and is used for cutting the hanging rope between the hanging tag and the rope feeding needle.

Preferably, the rotary driving member comprises a mounting seat and a motor, the motor and the knotting kit are mounted on the mounting seat, and the motor is connected with a first gear; the knotting kit is connected with a second gear, a third gear and a fourth gear, the second gear is meshed with the first gear, the second gear is connected with the third gear in a circumferential linkage mode, the fourth gear is matched with the third gear, the fourth gear is connected with the rotating chuck in a circumferential linkage mode, and the third gear and the fourth gear are bevel gears.

Preferably, be connected with the inductive switch board on the first gear, still be equipped with on the mount pad be used for with inductive switch board complex inductive switch mounting bracket.

Preferably, the knotting kit further comprises a main body and a chuck take-up switch, wherein the chuck take-up switch and the rotating chuck are rotatably connected to the main body; the chuck elastic switch comprises a rotating button and a first lug connected with the rotating button, and the first lug is always abutted against one side of the rotating chuck; the tail end of the rotating chuck comprises a second lug, the second lug is used for pushing the first lug to move so as to enable the rotating button to rotate, and the rotating chuck is loosened or clamped along with the rotation of the rotating button.

Preferably, the rolling and unrolling mechanism further comprises a rope roll placing frame, a lifting rope reversing pipeline, a driving wheel and a guide wheel, wherein the rope roll placing frame is used for placing the lifting rope wound into a roll, the lifting rope reversing pipeline supplies the lifting rope to pass through and faces the direction of the lifting rope towards the driving wheel, the driving wheel is used for driving the lifting rope to move out of the lifting rope reversing pipeline, the guide wheel supplies the lifting rope to go out of the driving wheel to be wound around, and the lifting rope passes through the guide wheel and then extends to the rope feeding needle.

Preferably, the reel-up and reel-down mechanism further comprises a driven wheel, the driven wheel is positioned on one side of the driving wheel, and the lifting rope passes through the driving wheel and the driven wheel; the guide wheels comprise an upper guide wheel set, a lower guide wheel set and a lower guide wheel set driving piece, the lower guide wheel set is one guide wheel less than the upper guide wheel set, and the lower guide wheel set driving piece is used for driving the lower guide wheel set to move up and down; the lifting rope coming out of the driving wheel passes through the guide wheels of the upper guide wheel set and the lower guide wheel set alternately in sequence, then extends out of the upper guide wheel set and extends to the rope feeding needle.

Preferably, the winding and unwinding mechanism further comprises a main mounting plate, a first support plate, a second support plate, a telescopic driving member and a clamping driving member, the main mounting plate is vertically arranged, and the lifting rope reversing pipeline, the driving wheel, the driven wheel, the guide wheel and the first support plate are mounted on the side surface of the main mounting plate; the second supporting plate is connected to the main mounting plate, the clamping driving piece is mounted on the second supporting plate and used for driving the first clamping assembly to clamp or unclamp, and an opening of the first clamping assembly faces upwards and is aligned with the rope feeding needle; the rope feeding needle is installed on the first supporting plate, and the telescopic driving piece is used for driving the first supporting plate to move up and down.

Preferably, the cutting mechanism further comprises pneumatic shears capable of cutting and releasing and a shear movement driving member, wherein the shear movement driving member is used for driving the pneumatic shears to move along the third direction.

Preferably, the hang tag stringing and knotting device further comprises a workbench, the reeling and unreeling mechanism, the first driving assembly and the third driving assembly are installed on the workbench, and the scissors moving driving piece is installed on a main installation plate of the reeling and unreeling mechanism or the workbench.

The utility model discloses a device can realize a drop wire rope handling knotting method, the method is based on above-mentioned arbitrary scheme drop wire rope handling knotting device and implement, the method includes that the following step of repetition is at least once: firstly, a hang tag is moved to a position where a through hole of the hang tag is aligned with a rope feeding needle, wherein the hang tag is a single hang tag or a hang tag group formed by stacking a plurality of hang tags; secondly, the rope feeding needle moves in the through hole so as to penetrate the tail end of the lifting rope into the tag, then the rope feeding needle moves out, and the first clamping assembly clamps the tail end of the lifting rope; step three, the pull rope mechanism drives the hanging tag to move, the third driving component drives the knotting suite to move, so that the hanging ropes on any side or two sides of the hanging tag are in contact with the rotary chuck, and the rotary driving component drives the rotary chuck to rotate, so that the hanging ropes on any side or two sides of the hanging tag are knotted; and step four, the cutting mechanism cuts off the lifting rope between the knot and the rope feeding needle.

Compared with the prior art, the utility model discloses can gain following beneficial effect:

the utility model discloses a hang tag stringing knotting device has realized using the automatic stringing of the lifting rope of winding lapping through rolling up and putting the mechanism to realized automatic knotting through the cooperation of knotting mechanism and stay cord mechanism, the device is whole can realize continuous automatic hang tag stringing and knot the operation, can greatly improve production efficiency.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of an embodiment of the device for stringing and knotting a tag of the present invention.

Fig. 2 is a schematic perspective view of a knotting mechanism in an embodiment of the device for stringing and knotting a tag of the present invention.

Fig. 3 is a schematic view of the three-dimensional structure of the rolling mechanism and the cutting mechanism in the embodiment of the device for stringing and knotting the tag of the present invention.

Fig. 4 is a schematic perspective view of a rope pulling mechanism in an embodiment of the device for stringing and knotting a tag of the present invention.

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Detailed Description

As shown in fig. 1 to 4, the present embodiment provides a hang tag threading and knotting device, which includes a reel-up mechanism 100, a rope pulling mechanism 200, a knotting mechanism 300, and a cutting mechanism 400. Wherein the reeling and unreeling mechanism 100 is used for threading, the rope pulling mechanism 200 is used for pulling the hanging rope to facilitate knotting, the knotting mechanism 300 is used for knotting the hanging rope, and the cutting mechanism 400 is used for cutting the hanging rope which is threaded with the hanging tag and is knotted.

Wherein, the winding and unwinding mechanism 100 includes a rope feeding assembly for feeding the hanging rope to the rope feeding needle 110, a rope feeding needle 110 for moving back and forth to penetrate the hanging rope into the through hole of the tag, and a first clamping assembly 120. The first clamping assembly 120 is used for clamping or loosening the tail end of a hanging rope penetrating into the tag, so that when the pull rope mechanism 200 clamps the tag and moves, the hanging ropes on both sides of the tag can move along with the pull rope mechanism 200 to contact the knotting mechanism 300, and the hanging ropes on either side or both sides of the tag can be knotted as required.

Specifically, the winding and unwinding mechanism 100 further includes a rope winding rack 130, a lifting rope reversing pipe 140, a driving wheel 150 and a guide wheel 160, the rope winding rack 130 is used for placing the lifting rope wound into a coil, the lifting rope reversing pipe 140 is used for the lifting rope to pass through and enables the direction of the lifting rope to face the driving wheel 150, and the situation that the lifting rope is easy to slip off from the driving wheel 150 due to the fact that the pulling direction of the lifting rope is different from the driving wheel 150 is avoided. The driving wheel 150 is used for driving the lifting rope coming out from the lifting rope reversing pipe 140 to move, the guide wheel 160 is used for the lifting rope coming out from the driving wheel 150 to pass by, and the lifting rope passes through the guide wheel 160 and then extends to the rope feeding needle 110. The guide wheel 160 is preferably a ceramic guide wheel having the advantages of smooth surface, wear resistance, etc.

Specifically, the winding and unwinding mechanism 100 further includes a driven wheel 151, the driven wheel 151 is located at one side of the driving wheel 150, the lifting rope passes through between the driving wheel 150 and the driven wheel 151, and the driven wheel 151 is used for pressing the lifting rope against the driving wheel 150 to prevent the lifting rope from sliding on the driving wheel 150 and being incapable of being driven by the driving wheel 150.

Specifically, the guide wheel 160 includes an upper guide wheel set 161, a lower guide wheel set 162 and a lower guide wheel set driving element 163, the lower guide wheel set 162 has one less guide wheel than the upper guide wheel set 161, the lower guide wheel set driving element 163 is used for driving the lower guide wheel set 162 to move up and down, when the rope feeding needle 110 passes the hanging tag with the hanging rope or the rope pulling mechanism 200 pulls the hanging rope, the lower guide wheel set driving element 163 can drive the lower guide wheel set 162 to move up to cooperate with the pulling rope, so as to play a role of buffering, reduce the pressure of the driving wheel 150 moving the hanging rope, and when the hanging rope is not pulled or the pulling speed is slow, the lower guide wheel set driving element 163 can drive the lower guide wheel set 162 to move down, so as to play a role of storing the hanging rope. The hoist rope coming out from the driving pulley 150 passes through the guide pulley of the upper guide pulley block 161 and the guide pulley of the lower guide pulley block 162 alternately in turn, and then extends from the upper guide pulley block 161 to the rope feeding needle 110.

Specifically, the reel-up and reel-out mechanism 100 further includes a main mounting plate 170, a first support plate 171, a second support plate 172, a telescopic driving member 173, and a clamping driving member 174, the main mounting plate 170 being vertically disposed, and the hoist rope reversing pipe 140, the driving wheel 150, the driven wheel 151, the guide wheel 160, and the telescopic driving member 173 being mounted to a side surface of the main mounting plate 170. The second support plate 172 is attached to the main mounting plate 170, the clamping actuator 174 is mounted to the second support plate 172, and the clamping actuator 172 is used to actuate the first clamping assembly 120 to clamp or unclamp, with the opening of the first clamping assembly 120 facing upward and aligned with the feed pin 110. The rope feeding needle 110 is installed on the first support plate 171, and the telescopic driving member 173 is used for driving the first support plate 171 to move up and down.

The rope pulling mechanism 200 includes a first driving component 210, a second driving component 220 and a second clamping component 230, wherein the second driving component 220 is connected to the first driving component 210, and the first driving component 210 is used for driving the second driving component 220 to move along a first direction, for example, a horizontal transverse direction. The second clamping assembly 230 is connected to the second driving assembly 220, and the second driving assembly 220 is used for driving the second clamping assembly 230 to move along a second direction, which is perpendicular to the first direction, for example, the vertical direction. The second clamping assembly 230 is used for clamping or releasing the tag, and when the second clamping assembly 230 clamps the tag after the hanging rope penetrates into the tag, the first driving assembly 210 and/or the second driving assembly 220 move to drive the hanging rope to move. The second clamping assembly 230 is capable of clamping a horizontally placed swing ticket from above and below. The swing ticket may be a set of swing tickets stacked with a single swing ticket and a plurality of swing tickets in through hole alignment, and the swing ticket may be moved by the pull mechanism 200 to a threading position corresponding to the feed pin 110.

The knotting mechanism 300 comprises a third driving assembly 310, a rotary driver 320 and a knotting kit 330, wherein the rotary driver 320 is connected with the third driving assembly 310, the third driving assembly 310 is used for driving the rotary driver 320 to move along a third direction, and the third direction is perpendicular to the first direction and the second direction; the knotting assembly 330 is connected to the rotary driving member 320, and the knotting assembly 330 includes a rotating chuck 331 with a sharp-pointed shape, and the rotary driving member 320 is used for driving the rotating chuck 331 to rotate. When the first driving assembly 210 and/or the second driving assembly 220 move and drive the lifting rope to move, the lifting rope can be wound into a lifting rope ring on the outer side of the rotating chuck 320 along with the rotation of the rotating chuck 320, the rotating chuck 320 can clamp the outer end of the lifting rope ring along with the rotation of the rotating chuck, then the lifting rope ring can be separated from the rotating chuck 320, and the rotating chuck 320 rotates along with the rotating chuck 320 to loosen the outer end of the lifting rope ring to form a rope knot. Disengagement of the sling loop from the rotating chuck 320 may be accomplished by the third drive assembly 310 retracting the knotting kit 330.

Specifically, the rotary driving member 320 includes a mounting seat 321 and a motor 322, the motor 322 and the knotting kit 330 are mounted to the mounting seat 321, and the motor 322 is connected with a first gear 323. The knotting kit 330 is connected with a second gear 332, a third gear 333 and a fourth gear 334, the second gear 332 is meshed with the first gear 323, the second gear 332 is connected with the third gear 333 in a circumferential linkage manner, the fourth gear 334 is meshed with the third gear 333, the fourth gear 334 is connected with the rotating chuck 331 in a circumferential linkage manner, the third gear 333 and the fourth gear 334 are both conical gears, and the direction of the rotating chuck 331 relative to the first gear 323 can be changed.

Specifically, the first gear 323 is connected to an inductive switch board 324, and the mounting base 321 is further provided with an inductive switch mounting bracket 325 for matching with the inductive switch board 324. The inductive switch mounting bracket 325 is used for mounting an inductive switch, and the inductive switch is used for detecting the rotation of the inductive switch board 324 and controlling the motor 322 to be turned on or off, so as to better control the rotation of the motor 322 and the rotary chuck 331 driven by the motor 322.

Specifically, the knotting kit 330 further includes a main body 335 and a cartridge release switch 336, the cartridge release switch 336 and the rotary cartridge 331 each being rotatably coupled to the main body 335. The collet tensioner 336 includes a knob 337 and a first projection 338 connected to the knob 337, and the first projection 338 is always abutted against one side of the rotary collet 336, and is pressed against one side of the rotary collet 336 by an elastic force provided by a spring or the like, for example. The end of the rotating collet 336 includes a second protrusion 339, the second protrusion 339 is used to push the first protrusion 338 to move and rotate the knob 337, and the rotating collet 336 is loosened or clamped with the rotation of the knob 336. For example, the rotating knob 336 and the two clamping blocks of the rotating chuck 336 can be in transmission connection through a pawl, a ratchet wheel, a cam and the like, the second lug 339 pushes the first lug 338 each time, the rotating knob 336 drives the pawl to slide, after the second lug 339 rotates and is removed, the rotating knob 336 and the first lug 338 can be restored to the original positions under the action of the spring force, the ratchet wheel in the main body 335 or on the main body 335 moves for one grid, the ratchet wheel drives the cam which is in circumferential linkage with the ratchet wheel to rotate for one grid, the cam is adjacent to one clamping block of the rotating chuck 336, the cam is alternately provided with bulges and recesses on different grids, when the cam rotates to one grid, the bulges of the cam can push one clamping block of the rotating chuck 336 to the other clamping block, so that the clamping of the rotating chuck 336 is realized, when the cam rotates to the next grid, the recesses of the cam can release the force of pushing one clamping block of the rotating chuck 336 to the other clamping block, so that the two clamping blocks can be released, for example, under the action of a spring force. The structure for realizing the unclamping or clamping of the rotating chuck 336 with the rotation of the rotating knob 336 is not limited to the above example, as long as the rotating knob 336 can make the clamping or unclamping between the two clamping blocks of the rotating chuck 336 when the rotation and the reset of the rotating knob 336 are completed.

The cutting mechanism 400 is located between the rolling and unrolling mechanism 100 and the knotting mechanism 300, and the cutting mechanism 400 is used for cutting the hanging rope between the hanging tag and the rope feeding needle 110. The cutting mechanism 400 further comprises a pair of pneumatic scissors 410 capable of cutting and releasing and a scissors moving driving member 420, the scissors moving driving member 420 is used for driving the pneumatic scissors 410 to move along a third direction, and the pneumatic scissors 410 can extend out to cut the lifting rope and can also retract so as to avoid mistakenly touching the lifting rope.

Specifically, the swing ticket stringing and knotting apparatus further includes a table on which the winding and unwinding mechanism 100, the first driving assembly 210 and the third driving assembly 310 are mounted, and the scissors moving driving member 420 is mounted to the main mounting plate 170 of the winding and unwinding mechanism 100 or the table.

On the basis of the device of the embodiment, a method for stringing and knotting the hang tag can be realized, and the method comprises the following steps:

firstly, the hang tag is moved to the position where the through hole of the hang tag is aligned with the rope feeding needle 110, and the hang tag is a single hang tag or a hang tag group formed by stacking a plurality of hang tags;

step two, the rope feeding needle 110 moves in the through hole so as to penetrate the tail end of the lifting rope into the tag, then the rope feeding needle 110 moves out, and the first clamping component 120 clamps the tail end of the lifting rope;

and thirdly, the pull rope mechanism 200 drives the swing ticket to move, the third driving component 310 drives the knotting kit 330 to move, so that the swing ropes on any side or two sides of the swing ticket are in contact with the rotating chuck 331, and the rotating driving component 320 drives the rotating chuck 331 to rotate, so that the swing ropes on any side or two sides of the swing ticket are knotted.

Finally, it should be emphasized that the above-described embodiments are merely preferred embodiments of the present invention, and are not intended to limit the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A rope threading and knotting device for a hang tag is characterized by comprising a rolling mechanism, a rope pulling mechanism, a knotting mechanism and a cutting mechanism;

the rolling and releasing mechanism comprises a rope feeding assembly, a rope feeding needle and a first clamping assembly, wherein the rope feeding assembly conveys a lifting rope to the rope feeding needle, the rope feeding needle is used for moving back and forth so as to penetrate the lifting rope into a tag, and the first clamping assembly is used for clamping or loosening the tail end of the lifting rope penetrating into the tag;

the rope pulling mechanism comprises a first driving assembly, a second driving assembly and a second clamping assembly, the second driving assembly is connected with the first driving assembly, and the first driving assembly is used for driving the second driving assembly to move along a first direction; the second clamping assembly is connected with the second driving assembly, and the second driving assembly is used for driving the second clamping assembly to move along a second direction, wherein the second direction is perpendicular to the first direction; the second clamping assembly is used for clamping or loosening the swing ticket; when the hanging rope penetrates into the hanging tag and the second clamping assembly clamps the hanging tag, the first driving assembly and/or the second driving assembly can move to drive the hanging rope to move;

the knotting mechanism comprises a third driving component, a rotary driving component and a knotting kit, wherein the rotary driving component is connected with the third driving component, the third driving component is used for driving the rotary driving component to move along a third direction, and the third direction is perpendicular to the first direction and the second direction; the knotting kit is connected with the rotary driving part, the knotting kit comprises a sharp-mouth-shaped rotary chuck, and the rotary driving part is used for driving the rotary chuck to rotate; when the first driving assembly and/or the second driving assembly move and drive the lifting rope to move, the lifting rope can rotate along with the rotating chuck and is wound to form a lifting rope ring on the outer side of the rotating chuck, the rotating chuck can rotate along with the rotating chuck to clamp the outer end of the lifting rope ring, then the lifting rope ring can be separated from the rotating chuck, and the rotating chuck rotates along with the rotating chuck to loosen the outer end of the ring to form a rope knot;

the cutting mechanism is located between the rolling and unrolling mechanism and the knotting mechanism and is used for cutting the hanging rope between the hanging tag and the rope feeding needle.

2. The drop stringing and knotting device of claim 1, wherein:

the rotary driving piece comprises an installation seat and a motor, the motor and the knotting suite are installed on the installation seat, and the motor is connected with a first gear; the knotting kit is connected with a second gear, a third gear and a fourth gear, the second gear is meshed with the first gear, the second gear is connected with the third gear in a circumferential linkage mode, the fourth gear is meshed with the third gear, the fourth gear is connected with the rotating chuck in a circumferential linkage mode, and the third gear and the fourth gear are bevel gears.

3. The drop stringing and knotting apparatus of claim 2, wherein:

the first gear is connected with an induction switch plate, and the mounting seat is further provided with an induction switch mounting frame matched with the induction switch plate.

4. A hang tag threading and knot tying device as claimed in any one of claims 1 to 3, wherein:

the knotting kit also comprises a main body and a chuck take-up switch, wherein the chuck take-up switch and the rotating chuck are rotatably connected to the main body; the chuck elastic switch comprises a rotating button and a first lug connected with the rotating button, and the first lug is always abutted against one side of the rotating chuck; the tail end of the rotating chuck comprises a second lug, the second lug is used for pushing the first lug to move so as to enable the rotating knob to rotate, and the rotating chuck is loosened or clamped along with the rotation of the rotating knob.

5. A hang tag threading and knot tying device as claimed in any one of claims 1 to 3, wherein:

the winding and unwinding mechanism further comprises a rope winding rack, a lifting rope reversing pipeline, a driving wheel and a guide wheel, wherein the rope winding rack is used for placing the lifting rope wound into a coil, the lifting rope reversing pipeline supplies the lifting rope to pass through and face the direction of the lifting rope to the driving wheel, the driving wheel is used for driving the lifting rope to move out of the lifting rope reversing pipeline, the guide wheel supplies the lifting rope to go out of the driving wheel to be wound, and the lifting rope passes through the guide wheel and then extends to the rope feeding needle.

6. The drop stringing and knotting device of claim 5, wherein:

the winding and unwinding mechanism further comprises a driven wheel, the driven wheel is located on one side of the driving wheel, and the lifting rope penetrates through the driving wheel and the driven wheel; the guide wheels comprise an upper guide wheel set, a lower guide wheel set and a lower guide wheel set driving piece, the lower guide wheel set is one guide wheel less than the upper guide wheel set, and the lower guide wheel set driving piece is used for driving the lower guide wheel set to move up and down; the lifting rope coming out of the driving wheel passes through the guide wheels of the upper guide wheel set and the lower guide wheel set alternately in sequence, then extends out of the upper guide wheel set and extends to the rope feeding needle.

7. The drop stringing and knotting device of claim 6, wherein:

the winding and unwinding mechanism further comprises a main mounting plate, a first supporting plate, a second supporting plate, a telescopic driving piece and a clamping driving piece, wherein the main mounting plate is vertically arranged, and the lifting rope reversing pipeline, the driving wheel, the driven wheel, the guide wheel and the first supporting plate are mounted on the side surface of the main mounting plate; the second supporting plate is connected to the main mounting plate, the clamping driving piece is mounted on the second supporting plate and used for driving the first clamping assembly to clamp or unclamp, and an opening of the first clamping assembly faces upwards and is aligned with the rope feeding needle; the rope feeding needle is installed on the first supporting plate, and the telescopic driving piece is used for driving the first supporting plate to move up and down.

8. A hang tag threading and knot tying device as claimed in any one of claims 1 to 3, wherein:

the cutting mechanism further comprises pneumatic scissors capable of cutting and loosening and a scissors moving driving piece, and the scissors moving driving piece is used for driving the pneumatic scissors to move along the third direction.

9. The drop stringing and knotting device of claim 8, wherein:

the device for stringing and knotting the hanging tag further comprises a workbench, the reeling and unreeling mechanism, the first driving assembly and the third driving assembly are installed on the workbench, and the scissors moving driving piece is installed on a main installation plate of the reeling and unreeling mechanism or the workbench.