CN113622040A

CN113622040A - Low-temperature silk drafting arrangement for wig production line

Info

Publication number: CN113622040A
Application number: CN202110781889.1A
Authority: CN
Inventors: 朱文统
Original assignee: Xuchang Hongyang Biochemical Industrial Development Co ltd
Current assignee: Xuchang Hongyang Biochemical Industrial Development Co ltd
Priority date: 2021-07-12
Filing date: 2021-07-12
Publication date: 2021-11-09

Abstract

The invention particularly relates to a low-temperature silk drafting device for a wig production line, which comprises a support mechanism, wherein the support mechanism comprises a bottom plate, a vertical support, an inclined support, a cross beam, a support rod, a placing box, a motor and a driving wheel; the upper surface of the right part of the crossbeam is provided with a vertical drafting mechanism, the upper surface of the left part of the crossbeam is provided with a horizontal drafting mechanism, a strut at the rightmost end is provided with a first tensioning mechanism, a middle strut is provided with a second tensioning mechanism, and a controller is arranged between the inclined bracket and the crossbeam; the device solves the problems that the wig silk is easy to knot in the process of producing the wig silk, the tensioning device is not arranged in the existing equipment, and the gap between the compression rollers cannot be adjusted.

Description

Low-temperature silk drafting arrangement for wig production line

Technical Field

The invention belongs to the technical field of fiber production equipment for wigs, and particularly relates to a low-temperature silk drafting device for a wig production line.

Background

At present, most of the artificial fibers for producing wigs are fiber products, the artificial fibers are made of synthetic high molecular compounds, the common synthetic fibers include terylene, chinlon, acrylon, clolon, vinylon, spandex, polyolefin stretch yarn, and the like, in the production process of the artificial fibers, melt or concentrated solution of fiber-forming high polymer is continuously, quantitatively and uniformly extruded from capillary holes of a spinneret by a spinning pump to form liquid fine flow, then the liquid fine flow is solidified into nascent fibers in air, water or a specific medium, the nascent fibers are called as fiber forming, after the forming, water cooling is carried out, after the water cooling, a stretching process needs to be carried out on the nascent fibers, on one hand, the moisture in the nascent fibers is filtered out, on the other hand, the nascent fibers are stretched again to reach the preset quality requirement, but in the stretching process, because the filament fibers are too long, the filament fibers are loose, and the stretching unevenness of the filament fibers is easily caused, easy knotting and need to adjust the stretching force for different silk fibers; the invention discloses a low-temperature silk drafting device for a wig production line, which is characterized in that the traditional silk fiber stretching mode in the market is relatively traditional, the two compression rollers stretch the silk fiber, the tensioning of the silk fiber cannot be realized, the silk fiber is often knotted and is not uniformly stretched, the gap between the compression rollers needs to be adjusted for different silk fibers, and the gap between the compression rollers cannot be adjusted by the traditional compression rollers.

Disclosure of Invention

The invention aims to solve the problems in the prior production equipment technology and provides a low-temperature silk drafting device for a wig production line.

The purpose of the invention is realized as follows: a low-temperature filament drafting device for a wig production line comprises a support mechanism, wherein the support mechanism comprises a bottom plate, a vertical support, an inclined support, cross beams, support rods, a placing box, a motor and a driving wheel; the upper surface of the right part of the cross beam is provided with a vertical drafting mechanism, the upper surface of the left part of the cross beam is provided with a horizontal drafting mechanism, the support rod at the rightmost end is provided with a first tensioning mechanism, the middle support rod is provided with a second tensioning mechanism, and a controller is arranged between the inclined bracket and the cross beam.

Further, the vertical drafting mechanism comprises vertical plates, a water tank, a vertical driving roller, a vertical driven roller, a vertical driving roller shaft, a vertical driven roller shaft, a vertical driving bearing, a vertical driven bearing, a second driven wheel, a vertical sliding plate, a vertical sliding groove, a vertical lifting shaft, a vertical handle and a vertical bearing, wherein a rectangular hole is formed in the upper part of each vertical plate, vertical sliding grooves are formed in the vertical plates on the left side and the right side of each rectangular hole, the vertical sliding plate is arranged between the vertical sliding grooves, the vertical lifting shaft is arranged in the middle of the upper end face of each vertical sliding plate and connected with the vertical sliding plate through the vertical bearing, the vertical lifting shaft penetrates through the upper parts of the vertical plates and is in threaded connection with the vertical plates, and the vertical handle is fixedly connected to the upper ends of the vertical lifting shafts; the water tank is positioned at the lower part between the vertical plates, the vertical driving roller is positioned right above the water tank, the middle part of the vertical driving roller is connected with a vertical driving shaft, the vertical driving shaft is connected with the vertical plates through vertical driving bearings, and the front end of the vertical driving shaft is connected with a second driven wheel; the vertical driven roller is positioned right above the vertical driving roller, the middle part of the vertical driven roller is connected with a vertical driven shaft, and the vertical driven shaft is connected with the vertical sliding plate through a vertical driven bearing.

Further, the horizontal drafting mechanism comprises a transverse plate, a horizontal driving roller, a horizontal driven roller, a horizontal driving roller shaft, a horizontal driven roller shaft, a horizontal driving bearing, a horizontal driven bearing, a first driven wheel, a horizontal sliding plate, a horizontal sliding groove, a horizontal screw shaft, a horizontal handle and a horizontal bearing, wherein a rectangular hole is formed in one end of the transverse plate, which is far away from the vertical drafting mechanism, the transverse sliding grooves are formed in the transverse plate on the upper side and the lower side of the rectangular hole, the horizontal sliding plate is arranged between the horizontal sliding grooves, the middle part of the right end face of the horizontal sliding plate is provided with the horizontal screw shaft, the horizontal screw shaft is connected with the horizontal sliding plate through the horizontal bearing, the horizontal screw shaft penetrates through the right part of the transverse plate and is in threaded connection with the transverse plate, and the right end of the horizontal screw shaft is fixedly connected with the horizontal handle; the horizontal driving roller is positioned between the left parts of the transverse plates, the middle parts of the horizontal driving rollers are connected with a horizontal driving shaft, the horizontal driving shaft is connected with the transverse plates through horizontal driving bearings, and the front ends of the horizontal driving shafts are connected with a first driven wheel; the horizontal driven roller is positioned at the right side of the horizontal driving roller, the middle part of the horizontal driven roller is connected with a horizontal driven shaft, and the horizontal driven shaft is connected with the horizontal sliding plate through a horizontal driven bearing.

Further, first straining device including pole setting, spring holder, spring, otic placode, the pivot, the pulley, pulley bearing, the pulley shaft, pole setting lower part fixed connection is on the vaulting pole, the pole setting leading flank is provided with the spring holder, the upper portion of pole setting is provided with the otic placode, the otic placode passes through pivot swing joint with the pole setting, the otic placode can revolute the axle and rotate relatively, be connected with the spring between otic placode and the spring holder, otic placode upper portion is provided with the pulley, be connected through pulley bearing between pulley and the pulley shaft, pulley shaft and otic placode fixed connection.

Further, the second tensioning mechanism is the same as the first tensioning mechanism in structure.

Furthermore, the vertical sliding plate can slide up and down in the vertical sliding groove.

Furthermore, the horizontal sliding plate can slide left and right in the horizontal sliding groove.

Furthermore, the first driven wheel is provided with two wheel grooves, the outer wheel groove is connected with the driving wheel through a belt, and the inner wheel groove is connected with the second driven wheel through a belt.

When the device is used, the controller controls the starting and stopping of the motor, the wig threads pass through the first tensioning mechanism, the pulley is provided with a groove, the wig threads are positioned in the groove on the pulley, when the wig threads are tight, the pulley can rotate around the rotating shaft, the spring can stretch at the moment, and when the wig threads are loose, the pulley moves upwards around the rotating shaft under the action of the tension of the spring so as to achieve the tensioning effect on the wig threads; then, the wig silk penetrates through the vertical drafting mechanism, the wig silk is located between the vertical driving roller and the vertical driven roller, the vertical lifting shaft is driven to move up and down by rotating the vertical handle, the vertical sliding plate is further controlled to move up and down along the vertical sliding groove, and the vertical driven roller shaft is arranged on the vertical sliding plate, so that the gap between the vertical driving roller and the vertical driven roller is adjusted, different compression degrees of the wig silk are achieved, the residual moisture on the wig silk can be extruded after the wig silk is rolled, and the extruded moisture can enter the water tank;

the wig silk passes through second straining device behind vertical drafting device again, the wig silk of being between vertical drafting device and the horizontal drafting device is tensioned by second straining device, the wig silk passes through horizontal drafting device again, the wig silk is located between horizontal drive roll and the horizontal driven voller, drive horizontal screw shaft through rotating horizontal handle and reciprocate, and then control horizontal slide and remove about the horizontal spout, because horizontal driven roller setting has consequently adjusted the clearance between horizontal drive roll and the horizontal driven voller on horizontal slide, in order to reach the different degree that compresses tightly to the wig silk, be convenient for realize compressing tightly the wig silk, and the roll through the roller drives the wig silk and arranges in and place the incasement.

The device solves the problems that the wig silk is easy to knot in the process of producing the wig silk, the tensioning device is not arranged in the existing equipment, and the gap between the compression rollers cannot be adjusted.

Drawings

Fig. 1 is a schematic front side structure of the invention.

Fig. 2 is a rear side structure diagram of the invention.

Fig. 3 is a schematic structural view of the inventive tensioning mechanism.

Fig. 4 is a schematic structural view of the horizontal drafting mechanism of the invention.

Fig. 5 is a schematic structural diagram of the vertical drafting mechanism of the invention.

List of reference numerals

1. The vertical drafting mechanism comprises a support mechanism, 2, a first tensioning mechanism, 3, a vertical drafting mechanism, 4, a horizontal drafting mechanism, 5, a second tensioning mechanism, 6, a controller, 101, a bottom plate, 102, a vertical support, 103, a cross beam, 104, a motor, 105, a tilting support, 106, a support rod, 107, a placing box, 108, a driving wheel, 201, a vertical rod, 202, a spring seat, 203, a spring, 204, an ear plate, 205, a rotating shaft, 206, a pulley, 207, a pulley shaft, 208, a pulley bearing, 301, a vertical plate, 302, a vertical sliding plate, 303, a vertical handle, 304, a vertical driven bearing, 305, a second driven wheel, 306, a vertical driven roller shaft, 307, a vertical driven bearing, 308, a vertical driving roller shaft, 309, a vertical bearing, 310, a vertical sliding chute, 311, a vertical lifting shaft, 312, a vertical driving roller, 313, a vertical driven roller, 314, a water tank, 401, a first driven wheel, 402, a horizontal sliding plate, 402, a vertical driven roller, 309, a vertical driven roller shaft, a vertical driven roller, a vertical sliding plate, a sliding, 403. The horizontal type driving mechanism comprises a horizontal type handle, 404, a horizontal type driven bearing, 405, a horizontal plate, 406, a horizontal type driven roller shaft, 407, a horizontal type driving bearing, 408, a horizontal type driving roller shaft, 409, a horizontal type bearing, 410, a horizontal type sliding groove, 411, a horizontal type screw shaft, 412, a horizontal type driving roller and 413, a horizontal type driven roller.

Detailed Description

Embodiment 1, as shown in fig. 1 to 5, a low temperature filament drafting device for a wig production line includes a support mechanism 1, where the support mechanism 1 includes a bottom plate 101, a vertical support 102, an inclined support 105, a cross beam 103, a support rod 106, a placing box 107, a motor 104, and a driving wheel 108, the vertical support 102 is vertically disposed on the upper surface of the bottom plate 101, the inclined support 105 is disposed on the left end surface of the bottom plate 101, the cross beam 103 is disposed at the upper ends of the inclined support 105 and the vertical support 102, the support rod 106 is disposed between the cross beams 103, the motor 104 is disposed in the middle of the upper surface of the bottom plate 101, the motor 104 is preferably a siemens 1LE0001 motor, and the driving wheel 108 is disposed at the output end of the motor 104.

The upper surface of the right part of the cross beam 103 is provided with a vertical drafting mechanism 3, the vertical drafting mechanism 3 comprises a vertical plate 301, a water tank 314, a vertical driving roller 312, a vertical driven roller 313, a vertical driving roller shaft 308, a vertical driven roller shaft 306, a vertical driving bearing 307, a vertical driven bearing 304, a second driven roller 305, a vertical sliding plate 302, a vertical sliding groove 310, a vertical lifting shaft 311, a vertical handle 303 and a vertical bearing 309, a rectangular hole is formed in the upper part of the vertical plate 301, vertical sliding grooves 310 are formed in the vertical plate 301 on the left side and the right side of the rectangular hole, the vertical sliding plate 302 is arranged between the vertical sliding grooves 310, and the vertical sliding plate 302 can slide up and down in the vertical sliding groove 310. A vertical lifting shaft 311 is arranged in the middle of the upper end face of the vertical sliding plate 302, the vertical lifting shaft 311 is connected with the vertical sliding plate 302 through a vertical bearing 309, the vertical lifting shaft 311 penetrates through the upper part of the vertical plate 301 and is in threaded connection with the vertical plate 301, and a vertical handle 303 is fixedly connected to the upper end of the vertical lifting shaft 311; the water tank 314 is positioned at the lower part between the vertical plates 301, the vertical driving roller 312 is positioned right above the water tank 314, the middle part of the vertical driving roller 312 is connected with a vertical driving roller shaft 308, the vertical driving roller shaft 308 is connected with the vertical plates 301 through a vertical driving bearing 307, and the front end of the vertical driving roller shaft 308 is connected with a second driven wheel 305; the vertical driven roller 313 is positioned right above the vertical driving roller 312, the middle part of the vertical driven roller 313 is connected with a vertical driven roller shaft 306, and the vertical driven roller shaft 306 is connected with the vertical sliding plate 302 through a vertical driven bearing 304.

The upper surface of the left part of the crossbeam 103 is provided with a horizontal drafting mechanism 4, the horizontal drafting mechanism 4 comprises a horizontal plate 405, a horizontal driving roller 412, a horizontal driven roller 413, a horizontal driving roller shaft 408, a horizontal driven roller shaft 406, a horizontal driving bearing 407, a horizontal driven bearing 404, a first driven wheel 401, a horizontal sliding plate 402, a horizontal sliding groove 410, a horizontal screw shaft 411, a horizontal handle 403 and a horizontal bearing 409, one end of the horizontal plate 405, which is far away from the vertical drafting mechanism 3, is provided with a rectangular hole, the horizontal sliding grooves 410 are arranged on the horizontal plate 405 on the upper side and the lower side of the rectangular hole, the horizontal sliding plate 402 is arranged between the horizontal sliding grooves 410, and the horizontal sliding plate 402 can slide left and right in the horizontal sliding groove 410. A transverse screw shaft 411 is arranged in the middle of the right end face of the transverse sliding plate 402, the transverse screw shaft 411 is connected with the transverse sliding plate 402 through a transverse bearing 409, the transverse screw shaft 411 penetrates through the right part of the transverse plate 405 and is in threaded connection with the transverse plate 405, and a transverse handle 403 is fixedly connected with the right end of the transverse screw shaft 411; the horizontal driving roller 412 is positioned between the left parts of the transverse plates 405, the middle part of the horizontal driving roller 412 is connected with a horizontal driving roller shaft 408, the horizontal driving roller shaft 408 is connected with the transverse plates 405 through a horizontal driving bearing 407, the front end of the horizontal driving roller shaft 408 is connected with a first driven wheel 401, the first driven wheel 401 is provided with two wheel grooves, the outer wheel groove is connected with the driving wheel 108 through a belt, and the inner wheel groove is connected with a second driven wheel 305 through a belt; the horizontal driven roller 413 is positioned at the right side of the horizontal driving roller 412, a horizontal driven roller shaft 406 is connected to the middle part of the horizontal driven roller 413, and the horizontal driven roller shaft 406 and the horizontal sliding plate 402 are connected through a horizontal driven bearing 404.

The rightmost end support rod 106 is provided with a first tensioning mechanism 2, the middle support rod 106 is provided with a second tensioning mechanism 5, the second tensioning mechanism 5 and the first tensioning mechanism 2 are identical in structure, the first tensioning mechanism 2 comprises a vertical rod 201, a spring seat 202, a spring 203, an ear plate 204, a rotating shaft 205, a pulley 206, a pulley bearing 208 and a pulley shaft 207, the lower portion of the vertical rod 201 is fixedly connected to the support rod 106, the front side surface of the vertical rod 201 is provided with the spring seat 202, the upper portion of the vertical rod 201 is provided with the ear plate 204, the ear plate 204 is movably connected with the vertical rod 201 through the rotating shaft 205, the ear plate 204 can relatively rotate around the rotating shaft 205, the spring 203 is connected between the ear plate 204 and the spring seat 202, the upper portion of the ear plate 204 is provided with the pulley 206, the pulley 206 is connected with the pulley shaft 207 through the pulley bearing 208, and the pulley shaft 207 is fixedly connected with the ear plate 204; a controller 6 is arranged between the inclined bracket 105 and the cross beam 103, and the controller 6 is preferably a siemens S7-200PLC controller 6 and is used for controlling the starting and stopping of the motor 104.

When the wig silk tensioning device is used, the controller 6 controls the starting and stopping of the motor 104, the wig silk passes through the first tensioning mechanism 2, the pulley 206 is provided with a groove, the wig silk is positioned in the groove on the pulley 206, when the wig silk is tight, the pulley 206 rotates around the rotating shaft 205, the spring 203 stretches at the moment, and when the wig silk is loose, the pulley 206 moves upwards around the rotating shaft 205 under the action of the tension of the spring 203 so as to achieve the tensioning effect on the wig silk; then, the wig silk penetrates through the vertical drafting mechanism 3, the wig silk is positioned between a vertical driving roller 312 and a vertical driven roller 313, the vertical lifting shaft 311 is driven to move up and down by rotating the vertical handle 303, and then the vertical sliding plate 302 is controlled to move up and down along the vertical sliding chute 310, because the vertical driven roller shaft 306 is arranged on the vertical sliding plate 302, the gap between the vertical driving roller 312 and the vertical driven roller 313 is adjusted, so that different compression degrees of the wig silk are achieved, the residual moisture on the wig silk after the wig silk is rolled can be extruded out, and the extruded moisture can enter the water tank 314;

the wig silk passes through second straining device 5 behind vertical draft mechanism 3 again, the wig silk of being between vertical draft mechanism 3 and horizontal draft mechanism 4 is tensioned by second straining device 5, the wig silk passes through horizontal draft mechanism 4 again, the wig silk is located between horizontal drive roll 412 and horizontal driven voller 413, it reciprocates to drive horizontal screw shaft 411 through rotating horizontal handle 403, and then control horizontal slide 402 and remove about along horizontal spout 410, because horizontal driven roller 406 sets up the clearance between horizontal drive roll 412 and the horizontal driven voller 413 on horizontal slide 402, with reach the different degree of compressing tightly to the wig silk, be convenient for realize compressing tightly the wig silk, and the roll through the roller drives the wig silk and arranges in placing the case 107.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a wig is low temperature silk draft device for production line, includes gimbal mechanism (1), its characterized in that: the support mechanism (1) comprises a bottom plate (101), a vertical support (102), an inclined support (105), a cross beam (103), a support rod (106), a placing box (107), a motor (104) and a driving wheel (108), wherein the vertical support (102) is vertically arranged on the upper surface of the bottom plate (101), the inclined support (105) is arranged on the left end surface of the bottom plate (101), the cross beam (103) is arranged at the upper ends of the inclined support (105) and the vertical support (102), the support rod (106) is arranged between the cross beams (103), the motor (104) is arranged in the middle of the upper surface of the bottom plate (101), and the driving wheel (108) is arranged at the output end of the motor (104); the upper surface of the right part of the crossbeam (103) is provided with a vertical drafting mechanism (3), the upper surface of the left part of the crossbeam (103) is provided with a horizontal drafting mechanism (4), the stay bar (106) at the rightmost end is provided with a first tensioning mechanism (2), the middle stay bar (106) is provided with a second tensioning mechanism (5), and a controller (6) is arranged between the inclined bracket (105) and the crossbeam (103).

2. The low-temperature yarn drafting device for the wig production line according to claim 1, wherein: the vertical drafting mechanism (3) comprises a vertical plate (301), a water tank (314), a vertical driving roller (312), a vertical driven roller (313), a vertical driving roller shaft (308), a vertical driven roller shaft (306), a vertical driving bearing (307), a vertical driven bearing (304), a second driven roller (305), a vertical sliding plate (302), a vertical sliding groove (310), a vertical lifting shaft (311), a vertical handle (303) and a vertical bearing (309), wherein a rectangular hole is formed in the upper part of the vertical plate (301), vertical sliding grooves (310) are formed in the vertical plate (301) on the left side and the right side of the rectangular hole, the vertical sliding plate (302) is arranged between the vertical sliding grooves (310), the vertical lifting shaft (311) is arranged in the middle of the upper end face of the vertical sliding plate (302), the vertical lifting shaft (311) is connected with the vertical sliding plate (302) through the vertical bearing (309), and the vertical lifting shaft (311) penetrates through the upper part of the vertical plate (301), the upper end of the vertical lifting shaft (311) is fixedly connected with a vertical handle (303); the water tank (314) is positioned at the lower part between the vertical plates (301), the vertical driving roller (312) is positioned right above the water tank (314), the middle part of the vertical driving roller (312) is connected with a vertical driving roller shaft (308), the vertical driving roller shaft (308) is connected with the vertical plates (301) through a vertical driving bearing (307), and the front end of the vertical driving shaft is connected with a second driven wheel (305); the vertical driven roller (313) is positioned right above the vertical driving roller (312), the middle part of the vertical driven roller (313) is connected with a vertical driven roller shaft (306), and the vertical driven roller shaft (306) is connected with the vertical sliding plate (302) through a vertical driven bearing (304).

3. The low-temperature yarn drafting device for the wig production line according to claim 1, wherein: the transverse drafting mechanism (4) comprises a transverse plate (405), a transverse driving roller (412), a transverse driven roller (413), a transverse driving roller shaft (408), a transverse driven roller shaft (406), a transverse driving bearing (407), a transverse driven bearing (404), a first driven wheel (401), a transverse sliding plate (402), a transverse sliding groove (410), a transverse screw shaft (411), a transverse handle (403) and a transverse bearing (409), wherein one end of the transverse plate (405) far away from the vertical drafting mechanism (3) is provided with a rectangular hole, the transverse plate (405) on the upper side and the lower side of the rectangular hole is provided with the transverse sliding groove (410), the transverse sliding plate (402) is arranged between the transverse sliding grooves (410), the middle part of the right end surface of the transverse sliding plate (402) is provided with the transverse screw shaft (411), the transverse screw shaft (411) is connected with the transverse sliding plate (402) through the transverse bearing (409), and the transverse screw shaft (411) penetrates through the right part of the transverse plate (405), and is in threaded connection with the transverse plate (405), and the right end of the transverse screw shaft (411) is fixedly connected with a transverse handle (403); the horizontal driving roller (412) is positioned between the left parts of the horizontal plates (405), the middle part of the horizontal driving roller (412) is connected with a horizontal driving roller shaft (408), the horizontal driving roller shaft (408) is connected with the horizontal plates (405) through a horizontal driving bearing (407), and the front end of the horizontal driving shaft is connected with a first driven wheel (401); the horizontal driven roller (413) is positioned on the right side of the horizontal driving roller (412), a horizontal driven roller shaft (406) is connected to the middle of the horizontal driven roller (413), and the horizontal driven roller shaft (406) is connected with the horizontal sliding plate (402) through a horizontal driven bearing (404).

4. The low-temperature yarn drafting device for the wig production line according to claim 1, wherein: the first tensioning mechanism (2) comprises an upright rod (201), a spring seat (202), a spring (203), an ear plate (204), a rotating shaft (205), a pulley (206), a pulley bearing (208) and a pulley shaft (207), wherein the lower part of the upright rod (201) is fixedly connected to a support rod (106), the spring seat (202) is arranged on the front side surface of the upright rod (201), the ear plate (204) is arranged on the upper part of the upright rod (201), the ear plate (204) is movably connected with the upright rod (201) through the rotating shaft (205), the ear plate (204) can rotate around the rotating shaft (205) relatively, the spring (203) is connected between the ear plate (204) and the spring seat (202), the pulley (206) is arranged on the upper part of the ear plate (204), the pulley (206) is connected with the pulley shaft (207) through the pulley bearing (208), and the pulley shaft (207) is fixedly connected with the ear plate (204).

5. The low-temperature yarn drafting device for the wig production line according to claim 1, wherein: the second tensioning mechanism (5) has the same structure as the first tensioning mechanism (2).

6. The low-temperature yarn drafting device for the wig production line according to claim 2, wherein: the vertical sliding plate (302) can slide up and down in the vertical sliding groove (310).

7. The low-temperature yarn drafting device for the wig production line according to claim 3, wherein: the transverse sliding plate (402) can slide left and right in the transverse sliding groove (410).

8. The low-temperature yarn drafting device for the wig production line according to claim 3, wherein: the first driven wheel (401) is provided with two wheel grooves, the outer wheel groove is connected with the driving wheel (108) through a belt, and the inner wheel groove is connected with the second driven wheel (305) through a belt.