CN114735537A

CN114735537A - Automatic reel changing device for chemical fiber coiled wires

Info

Publication number: CN114735537A
Application number: CN202210469793.6A
Authority: CN
Inventors: 季锴
Original assignee: Jiangsu Yilan Intelligent Technology Co ltd
Current assignee: Jiangsu Yilan Intelligent Technology Co ltd
Priority date: 2022-04-28
Filing date: 2022-04-28
Publication date: 2022-07-12

Abstract

The invention discloses an automatic chemical fiber winding wire changing device, which relates to the field of chemical fiber processing equipment and comprises a supporting device, a winding device, a transfer device and a loading and unloading device, wherein a winding barrel after winding is conveyed to the loading and unloading device through the transfer device, then the winding barrel after winding is conveyed away by the loading and unloading device, the winding barrel which is not wound is installed on the winding device through the transfer device, and the winding barrel is disassembled and installed through the cooperation of the transfer device and the loading and unloading device, so that the energy is saved, the operation is simple, the time is saved, and the labor is saved.

Description

Automatic reel changing device for chemical fiber coiled wires

Technical Field

The invention relates to the field of chemical fiber processing equipment, in particular to an automatic chemical fiber winding wire changing device.

Background

Chemical fiber is a general name of chemical fiber yarn which is manufactured by using chemical fiber as a raw material, the chemical fiber is manufactured by using natural or artificial high molecular substances as the raw material and processing the natural or artificial high molecular substances through a chemical or physical method, and the chemical fiber can be divided into artificial fiber which uses natural high molecular substances as the raw material and synthetic fiber which uses synthetic high molecular substances as the raw material, namely chemical fiber for short, in the chemical fiber processing process, the processed chemical fiber needs to be wound and stored, and the traditional mode is to stop the machine for replacing after the chemical fiber is wound, so that the production efficiency is influenced, and the labor amount of workers is increased.

The invention patent with publication number CN107310959B discloses an automatic roll changing device, comprising: the automatic roll changing device provided by the invention optimizes the traditional double-cantilever discharging mechanism, realizes auxiliary replacement of the roll by the material taking manipulator, simplifies operation, reduces operation intensity, can avoid hidden danger of people injury caused by falling when the roll is manually replaced, greatly improves safety, has higher automation degree and better safety, increases the production cost of enterprises and is not beneficial to production, and can realize winding, material returning and roll changing by a single power source, reduce the production and maintenance cost and realize automatic roll changing.

Disclosure of Invention

The invention discloses an automatic chemical fiber winding wire changing device, which comprises a supporting device, a winding device, a transfer device and a feeding and discharging device, wherein the winding device, the transfer device and the feeding and discharging device are arranged on the supporting device, the transfer device comprises a sliding frame, the sliding frame is connected with the supporting device, a transmission assembly is arranged on the sliding frame, a carrying assembly is arranged on the transmission assembly, the carrying assembly is connected with the winding device, the transmission assembly comprises a third rotating rod, the third rotating rod is connected with the winding device, a fifth gear is fixedly arranged on the third rotating rod, the transmission assembly also comprises a second rotating rod, the second rotating rod is connected with the third rotating rod through a universal joint, the transmission assembly also comprises a first rotating rod, the first rotating rod is connected with the feeding and discharging device, and the first rotating rod is connected with the second rotating rod through the universal joint, the novel belt winding device is characterized in that a belt transmission mechanism is installed on the first rotating rod, the winding device comprises an embedded part, the embedded part is pre-embedded into the wall for one section, a mounting plate is fixedly installed on the embedded part, the mounting plate is connected with the sliding frame, a gear assembly is installed on the mounting plate, a winding barrel assembly is installed on the gear assembly, a damping assembly is installed on the mounting plate, a plurality of damping assemblies are arranged on the winding device, and the damping assemblies are circumferentially distributed on the mounting plate.

Further, the carrying assembly comprises a connecting frame, the connecting frame is connected with the mounting plate, a sliding rod is fixedly mounted on the connecting frame, the two ends of the sliding rod are mounted on the connecting frame, the sliding rod is connected with the belt transmission mechanism, a second spring is arranged on the sliding rod, a first end of the second spring is fixedly mounted at a position close to a first end of the sliding rod, a second end of the second spring is connected with the belt transmission mechanism, a third spring is arranged on the sliding rod, a first end of the third spring is fixedly mounted at a position close to a second end of the sliding rod, and a second end of the third spring is connected with the belt transmission mechanism.

Further, the belt transmission mechanism comprises a transmission piece which is arranged on the sliding frame in a sliding way, the transmission part is connected with the sliding rod, the sliding rod is connected with the rotating rod I, the belt transmission mechanism further comprises a gear IV, the gear IV is rotatably arranged on the sliding frame, the sliding frame is meshed with the transmission part, a bevel gear II is fixedly arranged on the gear IV, the belt transmission mechanism also comprises a first belt pulley, the first belt pulley is rotatably arranged on the sliding frame, the first rotating rod is provided with a key, the first belt pulley is internally provided with a key groove and is connected with the first rotating rod through a key, a belt is arranged on the first belt pulley, a second belt pulley is arranged in the belt, the second belt pulley is rotatably arranged on the sliding frame, and a first bevel gear is fixedly mounted on the second belt pulley, and the first bevel gear is meshed with the second bevel gear.

Further, the gear assembly includes motor one, a fixed mounting of motor is in the first face of mounting panel, fixed mounting has gear one on the output shaft of motor one, install the ring gear in the first face of mounting panel, ring gear and the meshing of gear one, ring gear internally mounted has a plurality of gears two, the ring gear is inside to have the tooth, and ring gear and the meshing of a plurality of gears two, the meshing of ring gear and five gears, rotate on the first face of mounting panel and install the fixed axle, fixed mounting has gear three on the fixed axle, the meshing of gear three and a plurality of gears two, fixed mounting has the axis of rotation on the gear two, axis of rotation and winding bucket subassembly are connected, be provided with the locking piece in the axis of rotation.

Further, the winding bucket subassembly is including the winding bucket, be provided with a plurality of butterfly grooves on the first face of winding bucket, the axis of rotation injects inside the winding bucket through the butterfly groove, epaxial baffle of axis of rotation and the contact of butterfly groove, winding bucket and link are connected, damper includes slide bar one, slide bar one slidable mounting is on the mounting panel, slide bar one is last to be provided with spring one, a first end fixed mounting of spring is served at a second end fixed mounting of spring on the first face of mounting panel.

Further, strutting arrangement includes the chassis, fixed mounting has two support frames on the chassis, fixed mounting has platform one on the chassis, platform one is connected with two support frames, platform one buries one section in the wall in advance, the carriage is connected with the chassis, platform one is connected with the mounting panel.

Furthermore, the loading and unloading device comprises an unloading assembly, the unloading assembly is connected with the first platform, the unloading assembly is provided with a loading assembly, and the loading assembly is connected with the underframe.

Compared with the prior art, the invention has the beneficial effects that: (1) according to the invention, the winding barrel without winding chemical fiber filaments is automatically installed and the winding barrel after winding is removed through the transfer device, so that the power source is less, the maintenance cost is reduced, and the automation degree of the device is improved; (2) the feeding and discharging device provided by the invention can be used for carrying the winding barrel without winding the chemical fiber filaments and the winding barrel after winding, so that the labor is saved; (3) the supporting device and the winding device are pre-buried in the wall, so that production accidents caused by movement are avoided, and the safety is improved.

Drawings

Fig. 1 is a first structural diagram of the present invention.

FIG. 2 is a second schematic structural diagram of the present invention.

Fig. 3 is a first structural schematic diagram of the turning device of the present invention.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 3.

Fig. 5 is a schematic structural view of the winding device of the present invention.

Fig. 6 is an enlarged view of the structure at B in fig. 5.

FIG. 7 is a schematic view of a part of the winding device of the present invention.

Fig. 8 is an enlarged view of the structure at C in fig. 7.

FIG. 9 is a schematic view of a part of the winding apparatus of the present invention.

Fig. 10 is an enlarged view of the structure at D in fig. 9.

FIG. 11 is a schematic structural view of a supporting device according to the present invention.

Fig. 12 is a schematic structural view of the feeding and discharging device of the invention.

Fig. 13 is a schematic view of a part of the structure of the loading and unloading device of the invention.

Fig. 14 is a schematic view of a part of the structure of the loading and unloading device of the invention.

Fig. 15 is a schematic structural diagram III of a part of the feeding and discharging device.

Fig. 16 is an enlarged view of the structure at E in fig. 15.

Reference numerals: 1-a support device; 2-a winding device; 3-a transfer device; 4-a loading and unloading device; 101-a chassis; 102-a support frame; 103-platform one; 201-embedded parts; 202-a mounting plate; 203-motor one; 204-sliding rod one; 205-winding the barrel; 206-gear one; 207-gear ring; 208-gear two; 209-gear three; 210-a fixed shaft; 211-rotating shaft; 212-spring one; 301-a carriage; 302-a transmission; 303-a connecting frame; 304-rotating the first rod; 305-spring two; 306-spring three; 307-sliding rod; 308-a first belt pulley; 309-pulley II; 310-a belt; 311-bevel gear one; 312-bevel gear two; 313-gear four; 314-rotating the second rod; 315-gear five; 316-rotating the third rod; 401-motor two; 402-conveyor one; 403-conveyor belt two; 404-gear six; 405-gear seven; 406 — drive link one; 407-drive link two; 408-driving rod III; 409-connecting plate one; 410-driving rod four; 411-connecting plate two; 412-connecting plate three; 413-a movable plate; 414-spring four; 415-spring five; 416-a lifter; 417-shaft key sleeve; 418-gear eight; 419-platform two.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1-5, an automatic chemical fiber winding device comprises a supporting device 1, a winding device 2, a transfer device 3, a loading and unloading device 4, wherein the winding device 2, the transfer device 3, and the loading and unloading device 4 are mounted on the supporting device 1, the transfer device 3 comprises a sliding frame 301, the sliding frame 301 is connected with the supporting device 1, a transmission assembly is mounted on the sliding frame 301, a carrying assembly is mounted on the transmission assembly, the carrying assembly is connected with the winding device 2, the transmission assembly comprises a rotating rod three 316, the rotating rod three 316 is connected with the winding device 2, a gear five 315 is fixedly mounted on the rotating rod three 316, the transmission assembly further comprises a rotating rod two 314, the rotating rod two 314 is connected with the rotating rod three 316 through a universal joint, the transmission assembly further comprises a rotating rod one 304, the rotating rod one 304 is connected with the loading and unloading device 4, the rotating rod one 304 is connected with the rotating rod two 314 through a universal joint, install belt drive on dwang 304, winding device 2 includes built-in fitting 201, and one section in the built-in fitting 201 is pre-buried into the wall, and fixed mounting has mounting panel 202 on the built-in fitting 201, and mounting panel 202 and carriage 301 are connected, installs the gear assembly on the mounting panel 202, installs winding bucket subassembly on the gear assembly, installs damper on the mounting panel 202, is provided with a plurality of damper on the winding device 2, and the damper circumference distributes on mounting panel 202.

The carrying assembly comprises a connecting frame 303, the connecting frame 303 is connected with the mounting plate 202, a sliding rod 307 is fixedly mounted on the connecting frame 303, two ends of the sliding rod 307 are mounted on the connecting frame 303, the sliding rod 307 is connected with the belt transmission mechanism, a second spring 305 is arranged on the sliding rod 307, a first end of the second spring 305 is fixedly mounted at a first end close to the sliding rod 307, a second end of the second spring 305 is connected with the belt transmission mechanism, a third spring 306 is arranged on the sliding rod 307, a first end of the third spring 306 is fixedly mounted at a second end close to the sliding rod 307, and a second end of the third spring 306 is connected with the belt transmission mechanism.

The belt transmission mechanism comprises a transmission piece 302, the transmission piece 302 is slidably mounted on the sliding frame 301, the transmission piece 302 is connected with a sliding rod 307, the sliding rod 307 is connected with a first rotating rod 304, the belt transmission mechanism further comprises a fourth gear 313, the fourth gear 313 is rotatably mounted on the sliding frame 301, the sliding frame 301 is meshed with the transmission piece 302, a second bevel gear 312 is fixedly mounted on the fourth gear 313, the belt transmission mechanism further comprises a first belt pulley 308, the first belt pulley 308 is rotatably mounted on the sliding frame 301, a key is arranged on the first rotating rod 304, a key groove is formed in the first belt pulley 308, the first belt pulley 308 is connected with the first rotating rod 304, a belt 310 is mounted on the first belt pulley 308, a second belt pulley 309 is mounted inside the belt 310, the second belt pulley 309 is rotatably mounted on the sliding frame 301, a first bevel gear 311 is fixedly mounted on the second belt 309, and the first bevel gear 311 is meshed with the second bevel gear 312.

The fifth gear 315 drives the third rotating rod 316 to rotate, the third rotating rod 316 drives the second rotating rod 314 to move through a universal joint, the second rotating rod 314 drives the first rotating rod 304 to move through the universal joint, the first rotating rod 304 drives the first belt pulley 308 to move through a key, the first belt pulley 308 drives the second belt pulley 309 to move through a belt 310, the second belt pulley 309 drives the second bevel gear 312 to move through the first bevel gear 311, the second bevel gear 312 drives the fourth gear 313 to move, the fourth gear 313 drives the transmission piece 302 to move, and the transmission piece 302 drives the connecting frame 303 to move through the second spring 305 or the third spring 306.

As shown in fig. 5-10, the gear assembly includes a first motor 203, the first motor 203 is fixedly mounted on the first surface of the mounting plate 202, a first gear 206 is fixedly mounted on an output shaft of the first motor 203, a first gear ring 207 is mounted on the first surface of the mounting plate 202, the first gear ring 207 is meshed with the first gear 206, a plurality of second gears 208 are mounted inside the gear ring 207, teeth are formed inside the gear ring 207, the gear ring 207 is meshed with the plurality of second gears 208, the gear ring 207 is meshed with a fifth gear 315, a fixed shaft 210 is rotatably mounted on the first surface of the mounting plate 202, a third gear 209 is fixedly mounted on the fixed shaft 210, the third gear 209 is meshed with the plurality of second gears 208, a rotating shaft 211 is fixedly mounted on the second gears 208, the rotating shaft 211 is connected with the winding barrel assembly, and a locking block is disposed on the rotating shaft 211.

The winding bucket subassembly is including winding bucket 205, be provided with a plurality of butterfly grooves on winding bucket 205's the first face, the butterfly groove on the winding bucket is middle thin both ends, the butterfly groove both ends are the arc, axis of rotation 211 injects winding bucket 205 inside through the butterfly groove, the last baffle of axis of rotation 211 and the contact of butterfly groove, winding bucket 205 and link 303 are connected, damper includes first slide bar 204, first slide bar 204 slidable mounting is on mounting panel 202, be provided with first spring 212 on the first slide bar 204, the first end fixed mounting of first spring 212 is on mounting panel 202 first face, first 212 second end fixed mounting of spring is served at first slide bar 204 second.

Starting the first motor 203, the output end of the first motor 203 drives the first gear 206 to rotate, the first gear 206 drives the gear ring 207 to rotate, the gear ring 207 drives the fifth gear 315 to rotate, the gear ring 207 drives the second gears 208 to rotate, the second gears 208 drive the third gears 209 to rotate, and the second gears 208 drive the winding barrel 205 to rotate through the rotating shafts 211.

As shown in fig. 11, the supporting device 1 includes a base frame 101, two supporting frames 102 are fixedly mounted on the base frame 101, a first platform 103 is fixedly mounted on the base frame 101, the first platform 103 is connected with the two supporting frames 102, the first platform 103 is embedded into a wall, a sliding frame 301 is connected with the base frame 101, and the first platform 103 is connected with a mounting plate 202.

As shown in fig. 12-16, the loading and unloading device 4 includes a discharging assembly, the discharging assembly is connected to the first platform 103, the loading assembly is mounted on the discharging assembly, the loading assembly is connected to the base frame 101, the discharging assembly includes a movable plate 413, the movable plate 413 is rotatably mounted on the first platform 103, a plurality of springs four 414 are disposed on the movable plate 413, first ends of the springs four 414 are fixedly mounted on the movable plate 413, second ends of the springs four 414 are fixedly mounted on the base frame 101, a connecting plate three 412 is fixedly mounted on the base frame 101, a first end of the driving rod four 410 is rotatably mounted on the connecting plate three 412 near the second end, a connecting plate two 411 is rotatably mounted on the second end of the driving rod four 410, the connecting plate two 411 is fixedly mounted on the base frame 101, a driving rod two 407 and a driving rod 406 are rotatably mounted on the connecting plate three 412 near the second end, a second end of the driving rod two 407 is rotatably mounted on the connecting plate 411, the first transmission rod 406 penetrates through the second connecting plate 411, a sixth gear 404 is fixedly mounted at the second end of the first transmission rod 406, a seventh gear 405 is fixedly mounted at the first end of the second transmission rod 407, the seventh gear 405 is meshed with the sixth gear 404, and the second transmission rod 407 is connected with the fourth transmission rod 410 through a second conveyor belt 403.

The second motor 401 is started, the output end of the second motor 401 drives the first transmission rod 406 to move, the first transmission rod 406 drives the seventh gear 405 to move through the sixth gear 404, the seventh gear 405 drives the second transmission rod 407 to move, the second transmission rod 407 drives the fourth transmission rod 410 to move through the second conveyor belt 403, when the winding barrel 205 moves to the movable plate 413, the winding barrel 205 drives the movable plate 413 to move through self gravity, the winding barrel 205 rolls to the second conveyor belt 403, and the fourth spring 414 drives the movable plate 413 to reset through self elasticity.

The feeding assembly comprises a second motor 401, a first connecting plate 409 is fixedly installed on the second motor 401, the first connecting plate 409 is fixedly installed on the base frame 101, a first end of a transmission rod three 408 is rotatably installed on the first connecting plate 409, a second end of the transmission rod three 408 is rotatably installed on a second connecting plate 411, the transmission rod three 408 is connected with the first transmission rod 406 through a first conveyor belt 402, an output end of the second motor 401 is connected with a first end of the first transmission rod 406, the feeding assembly further comprises a lifting piece 416, the lifting piece 416 is slidably installed on the base frame 101, a plurality of springs fifth 415 are arranged on the lifting piece 416, first ends of the plurality of springs fifth 415 are fixedly installed on the lifting piece 416, a second platform 419 is fixedly installed on second ends of the plurality of springs fifth 415, the second platform 419 is slidably installed on the base frame 101, the feeding assembly further comprises a shaft key sleeve 417, a gear eight 418 is fixedly installed on the shaft key sleeve 417, the gear eight 418 is meshed with the lifting piece 416, the shaft key sleeve 417 is rotatably installed on the base frame 101, a slot is formed on the shaft key sleeve 417, and the shaft key sleeve 417 is connected with the rotating rod I304 in a key mode.

And starting the second motor 401, driving a first transmission rod 406 to move by the output end of the second motor 401, driving a third transmission rod 408 to move by the first transmission rod 406 through a first conveyor belt 402, driving the winding barrel 205 which is not wound with chemical fiber filaments to a second platform 419, inserting the first transmission rod 304 into a shaft key sleeve 417, driving the shaft key sleeve 417 to move by the first transmission rod 304 through a key, driving a gear eight 418 to move by the shaft key sleeve 417, driving a lifting piece 416 to move by the gear eight 418, and driving the second platform 419 to move by the lifting piece 416.

The working principle is as follows: starting the first motor 203, driving the first gear 206 to move by the output end of the first motor 203, driving the gear ring 207 to move by the first gear 206, driving the fifth gear 315 to move by the gear ring 207, driving the plurality of second gears 208 to move, driving the third gear 209 to move by the plurality of second gears 208, driving the plurality of rotating shafts 211 to move by the plurality of second gears 211, driving the winding barrel 205 to move by the plurality of rotating shafts 211, starting the first motor 203, reversing the first motor 203, driving the first gear 206 to move by the output end of the first motor 203, driving the gear ring 207 to move by the first gear 207, driving the fifth gear 315 to move by the fifth gear 315, driving the third rotating rod 316 to move by the third rotating rod 316 through the universal joint, driving the second rotating rod 314 to move by the universal joint, driving the first rotating rod 304 to move by the first belt pulley 308 through the key, the belt pulley I308 drives the belt pulley II 309 to move through the belt 310, the belt pulley II 309 drives the bevel gear II 312 to move through the bevel gear I311, the bevel gear II 312 drives the transmission piece 302 to move through the gear IV 313, the transmission piece 302 drives the connecting frame 303 to move, the connecting frame 303 drives the winding barrel 205 to move, when the winding barrel 205 moves onto the movable plate 413, the winding barrel 205 compresses the spring IV 414 through self gravity, the winding barrel 205 rolls onto the transmission belt II 403, the motor I203 is turned off, the motor II 401 is started, the output end of the motor II 401 drives the transmission rod I406 to move, the transmission rod I406 drives the gear VII 405 through the gear VI 404, the transmission rod II 407 drives the transmission rod II 407 to move, the transmission rod II 407 drives the transmission rod IV 410 through the transmission rod II, the transmission belt II drives the winding barrel 205 to move, the output end of the motor II 401 drives the transmission rod I406 to move, the transmission rod I403 drives the transmission rod III 408 through the transmission rod I402, the winding barrel 205 of the non-wound chemical fiber moves to the second platform 419 through the first conveyor belt 402, the winding barrel 205 of the non-wound chemical fiber compresses a plurality of springs 415 through self gravity, the first motor 203 is started, the first motor 203 rotates reversely, the first rotating rod 304 moves, when the first rotating rod 304 is inserted into the shaft key sleeve 417, the first rotating rod 304 drives the shaft key sleeve 417 to move through a key, the shaft key sleeve 417 drives the gear eight 418 to move, the gear eight 418 drives the lifting piece 416 to move, the lifting piece 416 drives the second platform 419 to move, the first motor 203 rotates forwards, the first rotating rod 304 is separated from the shaft key sleeve 417, the connecting frame 303 drives the winding barrel 205 of the non-wound chemical fiber to move, and a plurality of rotating shafts 211 are inserted into the winding barrel 205 of the non-wound chemical fiber to start winding.

Claims

1. The utility model provides an automatic change of chemical fibre rolled up silk device, includes strutting arrangement (1), wind (2), transfer device (3), material loading discharge apparatus (4), install on strutting arrangement (1) wind (2), transfer device (3), material loading discharge apparatus (4), its characterized in that: transfer device (3) includes carriage (301), carriage (301) and strutting arrangement (1) are connected, install drive assembly on carriage (301), the last installation of drive assembly carries the subassembly, it connects to carry subassembly and wind device (2), drive assembly includes dwang three (316), dwang three (316) and wind device (2) are connected, fixed mounting has five (315) of gear on dwang three (316), drive assembly still includes dwang two (314), dwang two (314) and dwang three (316) are connected through the universal joint, drive assembly still includes dwang one (304), dwang one (304) and material loading discharge apparatus (4) are connected, dwang one (304) and dwang two (314) are connected through the universal joint, install belt drive mechanism on dwang one (304), winding device (2) are including built-in fitting (201), built-in fitting (201) is pre-buried one section in advancing the wall, fixed mounting has mounting panel (202) on built-in fitting (201), mounting panel (202) and carriage (301) are connected, install the gear assembly on mounting panel (202), install winding bucket subassembly on the gear assembly, install damper on mounting panel (202), be provided with a plurality of damper on winding device (2), the damper circumference distributes on mounting panel (202).

2. The automatic chemical fiber winding machine of claim 1, wherein: the carrying assembly comprises a connecting frame (303), the connecting frame (303) is connected with a mounting plate (202), a sliding rod (307) is fixedly mounted on the connecting frame (303), two ends of the sliding rod (307) are mounted on the connecting frame (303), the sliding rod (307) is connected with a belt transmission mechanism, a second spring (305) is arranged on the sliding rod (307), a first end of the second spring (305) is fixedly mounted at a position close to a first end of the sliding rod (307), a second end of the second spring (305) is connected with the belt transmission mechanism, a third spring (306) is arranged on the sliding rod (307), a first end of the third spring (306) is fixedly mounted at a position close to a second end of the sliding rod (307), and the second end of the third spring (306) is connected with the belt transmission mechanism.

3. The automatic chemical fiber winding machine of claim 1, wherein: the belt transmission mechanism comprises a transmission piece (302), the transmission piece (302) is slidably mounted on the sliding frame (301), the transmission piece (302) is connected with the sliding rod (307), the sliding rod (307) is connected with the rotating rod I (304), the belt transmission mechanism further comprises a gear IV (313), the gear IV (313) is rotatably mounted on the sliding frame (301), the sliding frame (301) is meshed with the transmission piece (302), a bevel gear II (312) is fixedly mounted on the gear IV (313), the belt transmission mechanism further comprises a belt pulley I (308), the belt pulley I (308) is rotatably mounted on the sliding frame (301), a key is arranged on the rotating rod I (304), a key groove is formed in the belt pulley I (308), the belt pulley I (308) is connected with the rotating rod I (304) through a key, and a belt (310) is mounted on the belt pulley I (308), the belt (310) is internally provided with a second belt pulley (309), the second belt pulley (309) is rotatably arranged on the sliding frame (301), the second belt pulley (309) is fixedly provided with a first bevel gear (311), and the first bevel gear (311) is meshed with the second bevel gear (312).

4. The automatic chemical fiber winding machine of claim 1, wherein: the gear assembly comprises a first motor (203), the first motor (203) is fixedly installed on the first surface of the installation plate (202), a first gear (206) is fixedly installed on an output shaft of the first motor (203), a second gear (207) is installed on the first surface of the installation plate (202), the first gear (207) is meshed with the first gear (206), a plurality of second gears (208) are installed inside the gear ring (207), teeth are arranged inside the gear ring (207), the gear ring (207) is meshed with the second gears (208), the gear ring (207) is meshed with the fifth gears (315), a fixed shaft (210) is installed on the first surface of the installation plate (202) in a rotating mode, a third gear (209) is fixedly installed on the fixed shaft (210), the third gear (209) is meshed with the second gears (208), a rotating shaft (211) is fixedly installed on the second gears (208), and the rotating shaft (211) is connected with the winding barrel assembly, and a locking block is arranged on the rotating shaft (211).

5. The automatic chemical fiber winding machine of claim 4, wherein: the winding bucket subassembly is including winding bucket (205), be provided with a plurality of butterfly grooves on the first face of winding bucket (205), rotation axis (211) are gone into winding bucket (205) inside through the butterfly groove, baffle and the butterfly groove contact on rotation axis (211), winding bucket (205) and link (303) are connected, damper includes first slide bar (204), slide bar (204) slidable mounting is on mounting panel (202), be provided with first spring (212) on slide bar (204), first spring (212) first end fixed mounting is on mounting panel (202) first face, and first spring (212) second end fixed mounting is served at first slide bar (204) second.

6. The automatic chemical fiber winding machine of claim 1, wherein: the supporting device (1) comprises a base frame (101), two supporting frames (102) are fixedly mounted on the base frame (101), a first platform (103) is fixedly mounted on the base frame (101), the first platform (103) is connected with the two supporting frames (102), the first platform (103) is embedded into a wall, the sliding frame (301) is connected with the base frame (101), and the first platform (103) is connected with a mounting plate (202).

7. The automatic chemical fiber winding machine of claim 1, wherein: the feeding and discharging device (4) comprises a discharging assembly, the discharging assembly is connected with the first platform (103), the discharging assembly is provided with a feeding assembly, and the feeding assembly is connected with the bottom frame (101).