CN117550409B - Shoe material non-woven fabric winding system, processing equipment and shoe material non-woven fabric winding method - Google Patents

Abstract

The invention provides a shoe material non-woven fabric winding system, processing equipment and a shoe material non-woven fabric winding method, belonging to the technical field of shoe material non-woven fabric winding; the shoe material non-woven fabric winding system comprises a workbench, two mounting plates, an adjusting winding assembly and a cloth conveying assembly, wherein the two mounting plates are connected to the workbench, the adjusting winding assembly is arranged between the two mounting plates, and the cloth conveying assembly is connected with the workbench. According to the invention, the non-woven fabric can be flattened when being wound, the folds generated when the non-woven fabric is wound are reduced, so that the non-woven fabric is wound more tightly, dust adsorbed on the surface of the non-woven fabric can be vibrated and collected in the winding process, the product quality and winding quality of the non-woven fabric are improved, the wound non-woven fabric is discharged more quickly and conveniently, and a worker can quickly find a notch when the non-woven fabric is used; the invention is suitable for winding non-woven fabrics with different thicknesses, and has wider application range and higher compatibility.

Description

Shoe material non-woven fabric winding system, processing equipment and shoe material non-woven fabric winding method

Technical Field

The invention belongs to the technical field of shoe material non-woven fabric winding, and particularly relates to a shoe material non-woven fabric winding system, processing equipment and a shoe material non-woven fabric winding method.

Background

The shoe material non-woven fabric is also called non-woven fabric and is produced by adopting polyester fiber, the rolling process is the last process of the shoe material non-woven fabric production, and the quality control of the rolling process has an important influence on the subsequent processing links of the non-woven fabric.

At present, when the shoe material non-woven fabric is wound, most of the shoe material non-woven fabric is wound by sleeving a paper tube on a winding roller, then placing the winding roller on winding equipment for winding, and after the winding of the shoe material non-woven fabric is completed, transferring the wound shoe material non-woven fabric onto a transfer trolley from the winding equipment by utilizing a lifting device. Because the shoe material non-woven fabric is loose in the rolling process, the shoe material non-woven fabric is easy to generate wrinkles in the rolling process, and the rolling quality is affected. When wrinkles are generated on the surface of the rolled shoe material non-woven fabric, the wrinkles of the non-woven fabric are difficult to be eliminated by using the electric heating roller or the flattening roller alone before the shoe material non-woven fabric is processed and produced subsequently, so that in the subsequent processing and production of the shoe material non-woven fabric, if non-woven fabric raw materials which are not completely eliminated in wrinkles are used, adverse effects on the product quality can be generated.

Disclosure of Invention

The technical problems to be solved are as follows: aiming at the defects of the prior art, the invention provides a shoe material non-woven fabric rolling system, processing equipment and a shoe material non-woven fabric rolling method, wherein the non-woven fabric is flattened when being rolled, wrinkles generated when the non-woven fabric is rolled are reduced, the non-woven fabric is rolled more tightly, dust adsorbed on the surface of the non-woven fabric is vibrated in the rolling process, and the product quality and rolling quality of the non-woven fabric are improved.

The technical scheme is as follows: the invention provides a shoe material non-woven fabric winding system which comprises a working machine table, two mounting plates, an adjusting winding assembly and a cloth conveying assembly, wherein the two mounting plates are connected to the working machine table, the adjusting winding assembly is arranged between the two mounting plates, and the cloth conveying assembly is connected with the working machine table; the adjusting winding component comprises an elastic roller, a winding roller, an electric heating roller, a flattening roller and a cutting knife; the elastic roller, the winding roller, the electric heating roller, the flattening roller and the cutting knife are all arranged between the two mounting plates; the outer side of the winding roller is sleeved with a paper tube; the cloth conveying assembly comprises a feeding roller, a vibrating device and a dust collection device, wherein the feeding roller and the vibrating device are arranged on a workbench, and the dust collection device is connected with the vibrating device.

Further, the first electronic jar is installed to mounting panel one side, spacing slide bar is installed to the mounting panel opposite side, two equal slidable mounting in spacing slide bar outside has the backup pad, two rotate between the backup pad bottom and install the elasticity roller, install pressure sensor between elasticity roller both ends and the adjacent backup pad, install the fifth electronic jar in the middle of the mounting panel, two the output opposite direction of fifth electronic jar, the fifth electronic jar output is connected with the lift sleeve pipe, the inside sliding connection of lift sleeve pipe has lift loop bar, the toper section of thick bamboo has been cup jointed at elasticity roller outside both ends, the traction hole has evenly been seted up in the toper section of thick bamboo outside, toper section of thick bamboo one end rotates and is connected with the rotation connector, rotation connector one end is connected with external trachea, the external trachea other end is connected with outside air pump suction end, rotation connector one end bottom is connected with adjacent lift loop bar top.

Further, a limiting opening is formed in one side of each mounting plate in a penetrating manner, a discharging rotating rod is arranged on one side of each mounting plate, a U-shaped seat is arranged at the top of each discharging rotating rod, pulleys are rotatably arranged on the inner sides of the U-shaped seats, a telescopic outer tube is welded at the bottom of each discharging rotating rod, a telescopic inner rod is slidably arranged in each telescopic outer tube, a pull rod is rotatably connected to the bottom of each telescopic inner rod, a second electric cylinder is arranged on one side of each mounting plate, and the top end of each pull rod penetrates through the limiting opening and is connected with the output end of each adjacent second electric cylinder;

Further, a rolling roller is arranged between the U-shaped seats, adsorption holes are uniformly formed in the outer side of the rolling roller, two ends of the rolling roller are sequentially connected with a positioning wheel and a butt joint female head, a third electric cylinder is arranged on one side of the mounting plate, the output end of the third electric cylinder is connected with a rolling motor, the output end of the other electric cylinder is connected with a communication head, a connecting vent hole is uniformly formed in the inner side of the communication head, a sealing cover is correspondingly and rotatably connected to the outer side of the communication vent hole, an air suction hose is connected to one side of the sealing cover, a vent pipe is arranged on one side of the mounting plate, one end of the vent pipe is connected with the opening end of the adjacent air suction hose, and the output end of the rolling motor and the top end of the communication head are both connected with the butt joint male head; the top and the bottom of the inner side of the limiting opening are tightly attached to the top and the bottom of the adjacent pull rod, the outer side of the limiting opening and the outer side of the pull rod are smooth planes, and the telescopic inner rod is in transition fit with the adjacent telescopic outer tube;

further, the positioning wheel is lapped inside the corresponding U-shaped seat, and the butt joint male head and the butt joint female head are in clearance fit.

Further, the fourth electric cylinder is installed to mounting panel one side, the fourth electric cylinder output is connected with the linkage frame, two it installs the electric heating roller to rotate between the linkage frame bottom, the regulation rail is installed at the linkage frame top, the inside slidable mounting of regulation rail has the regulation slider, the inside rotation of regulation rail is installed adjusting screw, be connected through the screw thread between adjusting screw and the adjacent regulation slider, regulation slider top slidable mounting has the connection slide bar, the connection slide bar bottom is connected with the mount pad, be connected with coupling spring between regulation slider bottom surface and the adjacent mount pad top surface, two it installs the leveling roller to rotate between the mount pad.

Further, the second electric cylinder output is connected with the linkage rack, the linkage slide bar is installed to mounting panel one side, linkage slide bar outside slidable mounting has the lifting rack, the linkage gear is installed in the rotation of mounting panel one side, intermesh between linkage gear and the adjacent linkage rack and the lifting rack, two be connected with the connecting plate between the lifting rack top, the cutting off knife is installed to the connecting plate bottom, the sword groove is installed to electric heat roller one side, the cutting off knife is located same vertical plane with the sword groove.

Further, the feeding roller is rotatably arranged inside the workbench, a feeding motor is arranged at one end of the outer side of the workbench, the output end of the feeding motor is connected with one end of the feeding roller, limiting grooves are formed in two ends of the outer side of the feeding roller, fixing lugs are slidably connected inside the limiting grooves, limiting rings are welded between the two fixing lugs on the same side, the inner sides of the limiting rings are attached to the outer side of the feeding roller, a positioning motor is arranged at one end of the outer side of the workbench, a supporting sliding rod is arranged inside the workbench, a bidirectional screw rod is rotatably arranged inside the workbench, the output end of the positioning motor is connected with one end of the bidirectional screw rod, positioning frames are respectively connected with two ends of the supporting sliding rod and the bidirectional screw rod, clamping plates are connected to the tops of the positioning frames, and the bottoms of the limiting rings are positioned inside the corresponding clamping plates; the feeding roller is characterized in that the other end of the feeding roller is connected with a driving wheel, a rotating shaft is rotatably arranged at the top of the workbench, one end of the rotating shaft is connected with a driven wheel, a driving belt is wrapped between the driving wheel and the driven wheel, and a poking wheel is uniformly arranged on the outer side of the rotating shaft.

Further, vibrating device includes the vibration frame, the vibration frame is installed in workstation top, even slidable mounting in vibration frame top has the vibration slide bar, the welding has the toggle plate between the vibration slide bar top, vibration slide bar bottom is connected with the vibrating plate, evenly be connected with return spring between vibrating plate top surface and the inside top of vibration frame, the vibrating plate both sides laminate mutually with the inside both sides of vibration frame.

Further, dust extraction includes the dust absorption pipe, the dust absorption pipe is installed in vibration frame one side, two dust absorption pipe one side is connected with the dust absorption head, two the dust absorption pipe open end is connected in the three-way pipe both ends, the storage box is installed to work machine outside one end, the three-way pipe other end is connected with the storage box top, storage box internally mounted has the filter bucket, the suction pump is installed to work machine outside one end, be connected with the breathing pipe between suction end of suction pump and the storage box bottom, the breather pipe other end is connected with breathing pipe one side.

The invention also provides shoe material non-woven fabric processing equipment which comprises the shoe material non-woven fabric winding system.

The invention also provides a rolling method of the shoe material non-woven fabric, which comprises the step of rolling by using the shoe material non-woven fabric rolling system:

S1, a roller preparation step, namely sleeving a paper tube on the outer side of a winding roller, and installing the winding roller;

s2, a cloth dedusting step, namely starting a vibrating device of the cloth conveying assembly, so that the vibrating device drives the non-woven fabric to vibrate, and dust adsorbed on the non-woven fabric is vibrated; the dust collection device collects the vibrated dust;

s3, a cloth conveying step, namely starting a cloth conveying assembly to translate on a feeding roller, and limiting two sides of the non-woven fabric by a limiting ring;

s4, a cloth flattening step, namely changing the acting force between the elastic roller and the non-woven fabric through up-and-down movement of the elastic roller, wherein the flattening roller applies pressure to the non-woven fabric, and the electric heating roller is electrified to iron the non-woven fabric;

s5, a cloth roll discharging step, namely feeding the wound non-woven fabric roll to a side skip car, and simultaneously lowering a cutting knife, wherein the cutting knife cuts off the non-woven fabric; and after receiving, the winding roller is pulled out from the paper tube and reinstalled.

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

the two sides of the non-woven fabric are limited by arranging the limiting rings, so that the non-woven fabric cannot move left and right during conveying, and the quality of non-woven fabric coiling is improved;

by arranging the suction pump and the adsorption hole, the winding motor drives the paper cylinder to stably rotate under the adsorption action, so that the friction force between the paper cylinder and the winding roller is increased, the slipping phenomenon is reduced, and the non-woven fabric winding process is smoother;

Vibrating dust adsorbed on the non-woven fabric by arranging a vibrating device; the dust vibrated off from the non-woven fabric is absorbed by the dust absorption device, so that the dust is more convenient to clean, and the secondary pollution of the dust to the non-woven fabric is reduced;

the pressure sensor is matched with the first electric cylinder, so that the pressure between the elastic roller and the non-woven fabric is regulated, the non-woven fabric is more compact and is not easy to break during rolling, and the rolling quality is improved;

when the non-woven fabric is wrinkled, the non-woven fabric which is wrinkled can be flattened under the traction action of the conical cylinder, and the non-woven fabric is flattened under the dual actions of the flattening roller and the electric heating roller, so that the wrinkling of the rolled non-woven fabric is prevented, and the rolling quality of a product is improved; and the non-woven fabrics between the electric heating roller and the flattening roller are always level with the top of the non-woven fabrics wound into a roll at the outer side of the paper cylinder, so that the flattened non-woven fabrics are prevented from being wrinkled again,

the flattening roller can adjust pressure according to non-woven fabrics with different thicknesses, so that the non-woven fabrics with different thicknesses can be flattened on the premise of not damaging the non-woven fabrics, the application range is wide, and the equipment compatibility is high;

the discharging rotating rod and the U-shaped seat are driven to rotate under the connection effect of the telescopic inner rod and the telescopic outer tube, the wound non-woven fabric roll is sent to the material receiving trolley, the cloth roll discharging is completed, and the rolled non-woven fabric roll discharging is faster and more convenient;

The cutter descends to cut off the non-woven fabrics, and a part of non-coiled cloth is left between the notch of the non-woven fabrics and the coiled non-woven fabrics, and when the non-woven fabrics are packed, the non-coiled cloth is marked, so that a worker can quickly find the notch when the non-woven fabrics are used.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the structure of the adjustable take-up assembly of the present invention;

FIG. 3 is a schematic view of the installation structure of the dancer of the present invention;

FIG. 4 is an enlarged view of area A from FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of the mounting structure of the winding drum of the present invention;

FIG. 6 is an enlarged view of region B from FIG. 5 in accordance with the present invention;

FIG. 7 is a schematic view of the mounting structure of the linked rack of the present invention;

FIG. 8 is a schematic view of the mounting structure of a fifth electric cylinder of the present invention;

FIG. 9 is a schematic view of the cloth transport assembly of the present invention;

FIG. 10 is a schematic view of the mounting structure of the stop collar of the present invention;

FIG. 11 is a schematic view of the mounting structure of the vibration plate of the present invention;

reference numerals in the drawings: 1. a working machine; 2. a mounting plate;

3. adjusting the winding assembly; 301. a first electric cylinder; 302. a limit slide bar; 303. a support plate; 304. an elastic roller; 305. a pressure sensor; 306. a limit opening; 307. a discharging rotating rod; 308. a U-shaped seat; 309. a pulley; 310. a telescopic outer tube; 311. a telescopic inner rod; 312. a pull rod; 313. a second electric cylinder; 314. a winding roller; 315. a positioning wheel; 316. butting the female heads; 317. a third electric cylinder; 318. a winding motor; 319. butting a male head; 320. a communication head; 321. communicating the air holes; 322. a sealing cover; 323. an air suction hose; 324. a paper tube; 325. a fourth electric cylinder; 326. a linkage frame; 327. an electric heating roller; 328. an adjustment rail; 329. an adjusting slide block; 330. adjusting a screw; 331. connecting a slide bar; 332. a mounting base; 333. a connecting spring; 334. a flattening roller; 335. adsorption holes; 336. a linkage rack; 337. a linkage slide bar; 338. lifting the rack; 339. a linkage gear; 340. a connecting plate; 341. a cutting knife; 342. a knife slot; 343. a vent pipe; 344. a fifth electric cylinder; 345. lifting the sleeve; 346. lifting the loop bar; 347. rotating the connector; 348. a conical cylinder; 349. a traction hole; 350. externally connected air pipes;

4. A cloth conveying assembly; 401. a feed roller; 402. a limit groove; 403. a fixed ear; 404. a limiting ring; 405. positioning a motor; 406. supporting a slide bar; 407. a two-way screw rod; 408. a positioning frame; 409. a clamping plate; 410. a driving wheel; 411. a rotating shaft; 412. driven wheel; 413. a drive belt; 414. a poking wheel; 415. a vibration frame; 416. vibrating the slide bar; 417. a toggle plate; 418. a vibration plate; 419. a return spring; 420. a dust collection pipe; 421. a dust collection head; 422. a three-way pipe; 423. a storage box; 424. a filter bucket; 425. a getter pump; 426. an air suction pipe; 427. and a feeding motor.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

As shown in fig. 1-11, the invention provides a shoe material non-woven fabric winding system, which comprises a working machine table 1, a mounting plate 2, an adjusting winding assembly 3 and a cloth conveying assembly 4, wherein the mounting plate 2 is arranged on one side of the working machine table 1, the adjusting winding assembly 3 is arranged between the two mounting plates 2, and the adjusting winding assembly 3 comprises an elastic roller 304, a winding roller 314, an electric heating roller 327, a flattening roller 334 and a cutting knife 341; a first electric cylinder 301 is arranged on one side of the mounting plate 2, a limit slide rod 302 is arranged on the other side of the mounting plate 2, support plates 303 are slidably arranged on the outer sides of the two limit slide rods 302, an elastic roller 304 is rotatably arranged between the bottoms of the two support plates 303, and a pressure sensor 305 is arranged between two ends of the elastic roller 304 and the adjacent support plates 303;

When the non-woven fabric is wound, the non-woven fabric passes through the bottom of the elastic roller 304 and is attached to the elastic roller 304, the non-woven fabric applies pressure to the elastic roller 304, the pressure sensor 305 senses the pressure between the elastic roller 304 and the non-woven fabric, the elastic roller 304 is driven to move up and down through the first electric cylinder 301, the acting force between the elastic roller 304 and the non-woven fabric is changed, when the pressure between the elastic roller 304 and the non-woven fabric is larger, the first electric cylinder 301 drives the elastic roller 304 to rise, the pressure between the elastic roller 304 and the non-woven fabric is reduced, the non-woven fabric is prevented from being broken due to overlarge stress of the non-woven fabric, otherwise, the first electric cylinder 301 drives the elastic roller 304 to descend, the pressure between the elastic roller 304 and the non-woven fabric is increased, and the non-woven fabric is prevented from being loose when the non-woven fabric is wound, and the winding quality is prevented from being reduced; namely, the first electric cylinder 301 can drive the elastic roller 304 to move, and the pressure between the elastic roller 304 and the non-woven fabric is regulated, so that the non-woven fabric is more compact and is not easy to break when being wound, and the winding quality is improved;

a limiting opening 306 is formed in one side of the mounting plate 2 in a penetrating manner, a discharging rotating rod 307 is arranged on one side of the mounting plate 2, U-shaped seats 308 are arranged at the tops of the two discharging rotating rods 307, pulleys 309 are rotatably arranged on the inner sides of the U-shaped seats 308, telescopic outer pipes 310 are welded at the bottoms of the discharging rotating rods 307, telescopic inner rods 311 are slidably arranged in the telescopic outer pipes 310, and the telescopic inner rods 311 are in transition fit with adjacent telescopic outer pipes 310, so that the telescopic inner rods 311 can smoothly move in the telescopic outer pipes 310;

The bottom of the telescopic inner rod 311 is rotationally connected with a pull rod 312, one side of the mounting plate 2 is provided with a second electric cylinder 313, and the top end of the pull rod 312 passes through the limit opening 306 to be connected with the output end of the adjacent second electric cylinder 313;

the top and the bottom of the inner side of the limit opening 306 are tightly attached to the top and the bottom of the adjacent pull rod 312, the limit opening 306 limits the pull rod 312, so that the pull rod 312 can stably move in the limit opening 306, the outer side of the limit opening 306 and the outer side of the pull rod 312 are uniformly smooth, and the friction resistance between the limit opening 306 and the pull rod 312 is small;

a rolling roller 314 is arranged between the U-shaped seats 308, adsorption holes 335 are uniformly formed on the outer side of the rolling roller 314, two ends of the rolling roller 314 are sequentially connected with a positioning wheel 315 and a butt joint female head 316, the positioning wheel 315 is lapped inside the corresponding U-shaped seat 308, one side of the mounting plate 2 is provided with a third electric cylinder 317, the output end of one third electric cylinder 317 is connected with a rolling motor 318, the output end of the other third electric cylinder 317 is connected with a communicating head 320, communicating holes 321 are uniformly formed on the inner side of the communicating head 320, a sealing cover 322 is rotatably connected on the outer side of the communicating head 320 corresponding to the communicating holes 321, one side of the sealing cover 322 is connected with an air suction hose 323,

one side of the mounting plate 2 is provided with a vent pipe 343, and one end of the vent pipe 343 is connected with the opening end of the adjacent air suction hose 323;

The output end of the winding motor 318 and the top end of the communicating head 320 are both connected with a butt joint male head 319, the outer side of the winding roller 314 is sleeved with a paper tube 324, and the butt joint male head 319 is in clearance fit with the butt joint female head 316, so that the butt joint male head 319 can be inserted into the butt joint female head 316 to fix the winding roller 314;

a fifth electric cylinder 344 is arranged in the middle of the mounting plate 2, the output directions of the two fifth electric cylinders 344 are opposite, the output end of the fifth electric cylinder 344 is connected with a lifting sleeve 345, a lifting sleeve rod 346 is connected inside the lifting sleeve 345 in a sliding manner, two ends of the outer side of the elastic roller 304 are sleeved with a conical cylinder 348, traction holes 349 are uniformly formed in the outer side of the conical cylinder 348, one end of the conical cylinder 348 is rotationally connected with a rotary connector 347, one end of the rotary connector 347 is connected with an external air pipe 350, the other end of the external air pipe 350 is connected with the air suction end of an external air pump, and the bottom of one end of the rotary connector 347 is connected with the top of the adjacent lifting sleeve rod 346;

the positions of the conical barrels 348 at the two ends of the elastic roller 304 are adjusted by controlling the fifth electric cylinder 344, so that the two sides of the non-woven fabrics attached to the bottom of the elastic roller 304 can be attached to the outer sides of the conical barrels 348, an external air pump sucks air in the conical barrels 348, under the action of pressure difference, traction holes 349 adsorb the two sides of the non-woven fabrics, the conical barrels 348 adsorb the two sides of the non-woven fabrics in conveying, the radian of the conical barrels 348 is utilized to guide and expand the passing non-woven fabrics, and when the subsequent non-woven fabrics are folded, the folded non-woven fabrics can be leveled under the expansion traction action of the conical barrels 348;

A fourth electric cylinder 325 is arranged on one side of the mounting plate 2, the output end of the fourth electric cylinder 325 is connected with a linkage frame 326, an electric heating roller 327 is rotatably arranged between the bottoms of the two linkage frames 326, an adjusting rail 328 is arranged at the top of the linkage frame 326, an adjusting slide block 329 is slidably arranged in the adjusting rail 328, the cross section between the adjusting slide block 329 and the adjusting rail 328 is in a T shape which is mutually matched, the inner side of the adjusting rail 328 and the outer side of the adjusting slide block 329 are smooth surfaces, the friction resistance between the adjusting rail 328 and the adjusting slide block 329 is small, and the adjusting slide block 329 can smoothly and stably move up and down in the adjusting rail 328 under the limit action of the adjusting rail 328;

the adjusting rail 328 is internally provided with an adjusting screw 330 in a rotating way, the adjusting screw 330 is connected with the adjacent adjusting sliding blocks 329 through threads, the top ends of the adjusting sliding blocks 329 are provided with connecting sliding rods 331 in a sliding way, the bottoms of the connecting sliding rods 331 are connected with mounting seats 332, a connecting spring 333 is connected between the bottom surface of each adjusting sliding block 329 and the top surface of each adjacent mounting seat 332, and a flattening roller 334 is rotatably arranged between the two mounting seats 332;

when the non-woven fabric is wound, the non-woven fabric passes through the space between the electric heating roller 327 and the flattening roller 334, the flattening roller 334 applies pressure to the non-woven fabric under the action of the elastic force of the connecting spring 333, meanwhile, the electric heating roller 327 is electrified, the non-woven fabric is flattened under the dual actions of the flattening roller 334 and the electric heating roller 327, the wound non-woven fabric is prevented from being wrinkled, and the winding quality of a product is improved;

Meanwhile, when the non-woven fabric is wound, the fourth electric cylinder 325 drives the electric heating roller 327 and the flattening roller 334 to rise, so that the non-woven fabric between the electric heating roller 327 and the flattening roller 334 is always level with the top of the non-woven fabric wound on the outer side of the paper cylinder 324, and the flattened non-woven fabric is prevented from being wrinkled again;

the output end of the second electric cylinder 313 is connected with a linkage rack 336, one side of the mounting plate 2 is provided with a linkage slide rod 337, the outer side of the linkage slide rod 337 is slidably provided with a lifting rack 338, one side of the mounting plate 2 is rotatably provided with a linkage gear 339, the linkage gear 339 is meshed with the adjacent linkage rack 336 and the lifting rack 338, a connecting plate 340 is connected between the tops of the two lifting racks 338, the bottom of the connecting plate 340 is provided with a cutting knife 341, one side of the electric heating roller 327 is provided with a knife groove 342, and the cutting knife 341 and the knife groove 342 are positioned on the same vertical plane;

after the non-woven fabric on the outer side of the paper tube 324 is rolled, a material receiving vehicle is placed on one side of a rolled non-woven fabric roll, a second electric cylinder 313 drives a pull rod 312 to move along the inside of a limiting opening 306, under the connecting effect of a telescopic inner rod 311 and a telescopic outer tube 310, the pull rod 312 pulls the telescopic inner rod 311 to move out of the telescopic outer tube 310 and simultaneously drives a material discharging rotating rod 307 and a U-shaped seat 308 to rotate, and the rotation of the U-shaped seat 308 sends the inner rolled non-woven fabric roll to the material receiving vehicle to finish cloth roll material discharging;

Meanwhile, the second electric cylinder 313 also drives the linkage rack 336 to move, and under the connection of the linkage gear 339, the lifting rack 338 is driven to descend along the linkage slide rod 337, so as to drive the cutter 341 to descend, the cutter 341 descends to cut off the non-woven fabric, at the moment, the coiled non-woven fabric is already dropped onto the material receiving trolley, at the moment, a part of non-coiled cloth is left between the notch of the non-woven fabric and the coiled non-woven fabric, when the non-coiled cloth is packed, the left non-coiled cloth is marked, when the non-coiled cloth is used, a worker can quickly find the notch, and after the material receiving is completed, the winding roller 314 is pulled out from the paper drum 324 and placed back to the original position;

the input ends of the first electric cylinder 301, the pressure sensor 305, the second electric cylinder 313, the third electric cylinder 317, the winding motor 318, the fourth electric cylinder 325, the electric heating roller 327 and the fifth electric cylinder 344 are electrically connected with the output end of an external controller, the input end of the external controller is electrically connected with the output end of an external power supply, and each electric element can be controlled through the external controller, so that the automation degree of the equipment is higher;

a feeding roller 401 is rotatably arranged in the working machine table 1, a feeding motor 427 is arranged at one end of the outer side of the working machine table 1, the output end of the feeding motor 427 is connected with one end of the feeding roller 401, limiting grooves 402 are formed in the two ends of the outer side of the feeding roller 401, fixing lugs 403 are slidably connected in the limiting grooves 402, a limiting ring 404 is welded between the two fixing lugs 403 on the same side, the inner side of the limiting ring 404 is attached to the outer side of the feeding roller 401, a positioning motor 405 is arranged at one end of the outer side of the working machine table 1, a supporting slide rod 406 is arranged in the working machine table 1, a bidirectional screw rod 407 is rotatably arranged in the working machine table 1, the output end of the positioning motor 405 is connected with one end of the bidirectional screw rod 407, positioning frames 408 are respectively connected with the two ends of the supporting slide rod 406, clamping plates 409 are connected at the top of the positioning frames 408, the bottoms of the limiting rings 404 are positioned in the corresponding clamping plates 409, the supporting slide rods 406 are slidably connected with the positioning frames 408, the bidirectional screw rod 407 are connected with the positioning frames 408 through threads, and the positioning frames 408 are rotatably supported by the limiting rods 406 under the limiting supporting action of the supporting slide rods 406;

The other end of the feeding roller 401 is connected with a driving wheel 410, the top of the workbench 1 is rotatably provided with a rotating shaft 411, one end of the rotating shaft 411 is connected with a driven wheel 412, a driving belt 413 is wrapped between the driving wheel 410 and the driven wheel 412, a poking wheel 414 is uniformly arranged on the outer side of the rotating shaft 411, a vibrating frame 415 is arranged on the top of the workbench 1, a vibrating slide rod 416 is uniformly and slidably arranged on the top of the vibrating frame 415, a poking plate 417 is welded between the tops of the vibrating slide rod 416, the bottom of the vibrating slide rod 416 is connected with a vibrating plate 418, a return spring 419 is uniformly connected between the top surface of the vibrating plate 418 and the top of the inner side of the vibrating frame 415, two sides of the vibrating plate 418 are attached to two sides of the inside of the vibrating frame 415, so that the vibrating plate 418 can stably move up and down in the vibrating frame 415, and the input ends of a positioning motor 405, a suction pump 425 and a feeding motor 427 are electrically connected with the output end of an external controller, so that manual control is facilitated;

the dust absorption pipes 420 are arranged on one side of the vibration frame 415, dust absorption heads 421 are connected to one side of the two dust absorption pipes 420, the opening ends of the two dust absorption pipes 420 are connected to two ends of a three-way pipe 422, a storage box 423 is arranged at one end of the outer side of the workbench 1, the other end of the three-way pipe 422 is connected with the top of the storage box 423, a filter bucket 424 is arranged in the storage box 423, an air suction pump 425 is arranged at one end of the outer side of the workbench 1, an air suction pipe 426 is connected between the air suction end of the air suction pump 425 and the bottom of the storage box 423, and the other end of the air suction pipe 343 is connected with one side of the air suction pipe 426;

The vibration board 418 is located the non-woven fabrics top in carrying, and the reciprocating of vibration board 418 drives the non-woven fabrics of carrying and vibrates, and the non-woven fabrics of vibration shakes the dust that the non-woven fabrics adsorbed, and the dust that shakes off gets into dust absorption pipe 420 inside from dust absorption head 421, gets into the inside filter bucket 424 inside storage box 423 at last and accomplishes the collection.

The invention also provides shoe material non-woven fabric processing equipment which comprises the shoe material non-woven fabric winding system.

The invention also provides a rolling method of the shoe material non-woven fabric, which uses the rolling system to conduct rolling operation and comprises the following steps:

s1, a roller preparation step, namely sleeving a paper tube 324 on the outer side of a winding roller 314, overlapping positioning wheels 315 at two ends of the winding roller 314 in a U-shaped seat 308, starting a third electric cylinder 317, and controlling the third electric cylinder 317 to drive a butt joint male connector 319 to be embedded in a butt joint female connector 316 at two ends of the winding roller 314;

s2, a cloth dedusting step, wherein a feeding motor 427 drives a rotating shaft 411 and a poking wheel 414 to rotate, the poking wheel 414 drives a vibrating plate 418 to rapidly move up and down in a vibrating frame 415, the vibrating plate 418 drives a conveyed non-woven fabric to vibrate, and the vibrating non-woven fabric vibrates dust adsorbed on the non-woven fabric; the suction pump 425 sends the vibrated dust into the dust collection pipe 420 from the dust collection head 421, and finally into the filter bucket 424 in the storage box 423 to complete collection under the connection of the three-way pipe 422;

S3, a cloth conveying step, namely starting a positioning motor 405, controlling the positioning motor 405 to drive a bi-directional screw rod 407 to rotate, enabling a limiting ring 404 to move by moving a positioning frame 408, enabling the limiting ring 404 to translate on a feeding roller 401, and limiting two sides of a non-woven fabric by the limiting ring 404;

s4, a cloth flattening step, namely driving the elastic roller 304 to move up and down through the first electric cylinder 301, changing the acting force between the elastic roller 304 and the non-woven fabric, applying pressure to the non-woven fabric by the flattening roller 334, and electrifying the electric heating roller 327 to iron the non-woven fabric;

s5, in a cloth roll discharging step, a second electric cylinder 313 is started to drive a discharging rotating rod 307 and a U-shaped seat 308 to rotate, the rotation of the U-shaped seat 308 rolls the inside wound non-woven fabric on a side material receiving vehicle, the second electric cylinder 313 drives a linkage rack 336 to move, and under the connection effect of the linkage gear 339, the lifting rack 338 is driven to descend along the linkage sliding rod 337 and a cutting knife 341, and the cutting knife 341 cuts off the non-woven fabric.

The working principle and the using flow of the invention are as follows: when the device is used, the paper cylinder 324 is sleeved on the outer side of the winding roller 314, the positioning wheels 315 at the two ends of the winding roller 314 are lapped inside the U-shaped seat 308, the third electric cylinder 317 is started, and the third electric cylinder 317 is controlled to drive the butt joint male heads 319 to be embedded into the butt joint female heads 316 at the two ends of the winding roller 314;

The open end of the non-woven fabric sequentially passes through the bottom of the vibrating plate 418, the top of the feeding roller 401, the bottom of the elastic roller 304 and between the flattening roller 334 and the electric heating roller 327, the open end of the non-woven fabric is wound on the outer side of the paper tube 324, the positioning motor 405 is started, the positioning motor 405 is controlled to drive the bi-directional screw rod 407 to rotate, the bi-directional screw rod 407 drives the positioning frame 408 to approach each other under the limiting supporting action of the supporting slide rod 406, the movement of the positioning frame 408 pushes the limiting ring 404 to move, the limiting ring 404 stably translates on the feeding roller 401 under the limiting action of the fixing lug 403 and the limiting groove 402, and the limiting ring 404 limits the two sides of the non-woven fabric, so that the non-woven fabric can not move left and right during the conveying of the non-woven fabric, and the quality of the non-woven fabric coiling is improved;

after the limiting ring 404 is adjusted, a feeding motor 427, a winding motor 318 and an air suction pump 425 are started, the feeding motor 427 drives a feeding roller 401 to rotate, the absorbing winding motor 318 drives a winding drum 314 to rotate, under the connection effect of an air pipe 343 and an air suction hose 323, an adsorption hole 335 pumps air in a gap between the winding drum 314 and a paper drum 324 into the winding drum 314, the air in the winding drum 314 sequentially flows through a positioning wheel 315 at one end of the winding drum 314, a butt joint female head 316, a butt joint male head 319 and an air communication hole 321, enters a sealing cover 322, finally flows through the air pipe 343 and the air suction hose 323 and is discharged from the exhaust end of the air suction pump 425, and under the adsorption effect of the adsorption hole 335, the winding motor 318 drives the paper drum 324 to stably rotate, so that the friction force of the paper drum 324 on the winding drum 314 is increased, the slipping phenomenon is reduced, and the non-woven fabric winding process is smoother;

Meanwhile, the feeding motor 427 drives the driving wheel 410 to rotate in the process of driving the feeding roller 401 to rotate, under the connection effect of the driving belt 413, the driving wheel 410 drives the driven wheel 412 and the rotating shaft 411 to rotate, the rotating shaft 411 rotates to drive the poking wheel 414 to rotate, the poking wheel 414 drives the poking plate 417 and the vibrating slide rod 416 to descend, the poking wheel 414 is elliptical, when the poking wheel 414 rotates, the vibrating plate 418 moves up and down rapidly in the vibrating frame 415 under the elastic force of the return spring 419, and the vibrating plate 418 moves up and down to drive the conveyed non-woven fabric to vibrate, so that dust adsorbed on the non-woven fabric is vibrated;

the suction pump 425 sucks the air in the dust suction pipe 420, under the action of pressure difference, the external air enters the dust suction pipe 420, the external air drives the vibrated dust to enter the dust suction pipe 420 from the dust suction head 421 when entering the dust suction pipe 420, the dust is finally collected in the filter bucket 424 in the storage box 423 under the connection of the three-way pipe 422, the filter bucket 424 collects the dust and prevents the dust from entering the suction pump 425 from damaging the suction pump 425 from the dust suction pipe 420, and the filter bucket 424 is taken out from the storage box 423 to clean after the non-woven fabric is wound; the dust is more convenient to clean, and the secondary pollution of the dust to the non-woven fabric is reduced;

When the non-woven fabric is wound, the non-woven fabric passes through the bottom of the elastic roller 304 and is attached to the elastic roller 304, the non-woven fabric applies pressure to the elastic roller 304, the pressure sensor 305 senses the pressure between the elastic roller 304 and the non-woven fabric, the elastic roller 304 is driven to move up and down through the first electric cylinder 301, the acting force between the elastic roller 304 and the non-woven fabric is changed, when the pressure between the elastic roller 304 and the non-woven fabric is larger, the first electric cylinder 301 drives the elastic roller 304 to rise, the pressure between the elastic roller 304 and the non-woven fabric is reduced, the non-woven fabric is prevented from being broken due to overlarge stress of the non-woven fabric, otherwise, the first electric cylinder 301 drives the elastic roller 304 to descend, the pressure between the elastic roller 304 and the non-woven fabric is increased, and the non-woven fabric is prevented from being loose when the non-woven fabric is wound, and the winding quality is prevented from being reduced;

meanwhile, the positions of the conical barrels 348 at the two ends of the elastic roller 304 are adjusted by controlling the fifth electric cylinder 344, so that the two sides of the non-woven fabrics attached to the bottom of the elastic roller 304 can be attached to the outer sides of the conical barrels 348, an external air pump sucks air in the conical barrels 348, under the action of pressure difference, traction holes 349 adsorb the two sides of the non-woven fabrics, the conical barrels 348 adsorb the two sides of the non-woven fabrics in conveying, the radian of the conical barrels 348 is utilized to guide and expand the passing non-woven fabrics, when the following non-woven fabrics are folded, the folded non-woven fabrics can be leveled under the traction action of the conical barrels 348, and the product quality is improved by matching with the following heat setting;

Meanwhile, when the non-woven fabric passes through the space between the electric heating roller 327 and the flattening roller 334, the flattening roller 334 applies pressure to the non-woven fabric under the action of the elasticity of the connecting spring 333, the electric heating roller 327 is electrified, the electric heating roller 327 smoothes the non-woven fabric, the non-woven fabric is flattened under the dual actions of the flattening roller 334 and the electric heating roller 327, the coiled non-woven fabric is prevented from being wrinkled, and the coiling quality of a product is improved;

meanwhile, when the non-woven fabric is wound, the fourth electric cylinder 325 drives the electric heating roller 327, the knife slot 342 and the flattening roller 334 to rise, so that the non-woven fabric between the electric heating roller 327 and the flattening roller 334 is always level with the top of the non-woven fabric wound into a roll outside the paper tube 324, the flattened non-woven fabric is prevented from being wrinkled again, the position of the adjusting sliding block 329 in the adjusting rail 328 is adjusted by rotating the adjusting screw 330, the pressure of the flattening roller 334 is further adjusted, the flattening roller 334 can adjust the pressure according to the non-woven fabrics with different thicknesses, and the non-woven fabrics with different thicknesses can be flattened on the premise that the non-woven fabrics are not damaged, the application range is wide, and the equipment compatibility is high;

after the non-woven fabric on the outer side of the paper tube 324 is rolled, a material receiving vehicle is placed on one side of the rolled non-woven fabric roll, the second electric cylinder 313 drives the pull rod 312 to move along the inside of the limiting opening 306, under the connecting effect of the telescopic inner rod 311 and the telescopic outer tube 310, the pull rod 312 pulls the telescopic inner rod 311 to move out of the telescopic outer tube 310 and simultaneously drives the material discharging rotating rod 307 and the U-shaped seat 308 to rotate, the rotation of the U-shaped seat 308 sends the inner rolled non-woven fabric roll to the material receiving vehicle, the material discharging of the cloth roll is completed, and the material discharging of the rolled non-woven fabric roll is faster and more convenient;

Meanwhile, the second electric cylinder 313 also drives the linkage rack 336 to move, and under the connection of the linkage gear 339, the lifting rack 338 is driven to descend along the linkage slide rod 337, so as to drive the cutter 341 to descend, the cutter 341 descends to cut off the non-woven fabric, at the moment, the coiled non-woven fabric is already dropped onto the material receiving trolley, at the moment, a part of non-coiled cloth is left between the notch of the non-woven fabric and the coiled non-woven fabric, when the non-woven fabric is packaged, the left non-coiled cloth is marked, when the non-coiled cloth is used, a worker can quickly find the notch, and after the material receiving is completed, the winding roller 314 is pulled out from the paper drum 324 to be placed back to the original position.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The shoe material non-woven fabric winding system comprises a working machine table (1), two mounting plates (2), an adjusting winding assembly (3) and a cloth conveying assembly (4), and is characterized in that the two mounting plates (2) are connected to the working machine table (1), the adjusting winding assembly (3) is arranged between the two mounting plates (2), and the cloth conveying assembly (4) is connected with the working machine table (1); the adjusting winding component (3) comprises an elastic roller (304), a winding roller (314), an electric heating roller (327), a flattening roller (334) and a cutting knife (341); the elastic roller (304), the winding roller (314), the electric heating roller (327), the flattening roller (334) and the cutting knife (341) are all arranged between the two mounting plates (2); the outer side of the winding roller (314) is sleeved with a paper tube (324); the cloth conveying assembly (4) comprises a feeding roller (401), a vibrating device and a dust collection device, wherein the feeding roller (401) and the vibrating device are both arranged on the workbench (1), and the dust collection device is connected with the vibrating device; the vibrating device comprises a vibrating frame (415), the vibrating frame (415) is arranged at the top of a workbench (1), vibrating slide bars (416) are uniformly and slidably arranged at the top of the vibrating frame (415), stirring plates (417) are welded between the tops of the vibrating slide bars (416), vibrating plates (418) are connected to the bottoms of the vibrating slide bars (416), return springs (419) are uniformly connected between the top surfaces of the vibrating plates (418) and the tops of the inner sides of the vibrating frame (415), and two sides of the vibrating plates (418) are attached to two sides of the inside of the vibrating frame (415);

The utility model discloses a pneumatic lifting device for a vehicle, including mounting panel (2) and mounting panel (2), first electronic jar (301) is installed to mounting panel (2) one side, limit slide bar (302) is installed to mounting panel (2) opposite side, two limit slide bar (302) outside is equal slidable mounting has backup pad (303), two rotate between backup pad (303) bottom and install elasticity roller (304), install pressure sensor (305) between elasticity roller (304) both ends and adjacent backup pad (303), install fifth electronic jar (344) in the middle of mounting panel (2), two the output opposite direction of fifth electronic jar (344), fifth electronic jar (344) output is connected with lift sleeve (345), inside sliding connection of lift sleeve (345) has lift sleeve (346), taper cylinder (348) have been cup jointed at elasticity roller (304) outside both ends, traction hole (349) have evenly been seted up in the outside taper cylinder (348), taper cylinder (347) one end rotation is connected with rotation connector (347), rotation connector (347) one end is connected with external air pipe (350), the other end is connected with external air pipe (344) and outside is connected with lift sleeve (348) and top phase is connected with lift sleeve (346).

2. The shoe material nonwoven fabric winding system according to claim 1, wherein: each mounting plate (2) is provided with a limiting opening (306) in a penetrating mode, each mounting plate (2) is provided with a discharging rotating rod (307) on one side, two U-shaped seats (308) are arranged at the tops of the discharging rotating rods (307), pulleys (309) are rotatably arranged on the inner sides of the U-shaped seats (308), telescopic outer pipes (310) are welded at the bottoms of the discharging rotating rods (307), telescopic inner rods (311) are slidably arranged in the telescopic outer pipes (310), pull rods (312) are rotatably connected to the bottoms of the telescopic inner rods (311), one side of each mounting plate (2) is provided with a second electric cylinder (313), and the tops of the pull rods (312) penetrate through the limiting openings (306) and are connected with the output ends of the adjacent second electric cylinders (313);

a winding roller (314) is arranged between the U-shaped seats (308), adsorption holes (335) are uniformly formed in the outer side of the winding roller (314), two ends of the winding roller (314) are sequentially connected with a positioning wheel (315) and a butt joint female joint (316), a third electric cylinder (317) is arranged on one side of a mounting plate (2), the output end of the third electric cylinder (317) is connected with a winding motor (318), the output end of the other third electric cylinder (317) is connected with a communicating head (320), communicating air holes (321) are uniformly formed in the inner side of the communicating head (320), a sealing cover (322) is correspondingly connected with the outer side of the communicating air holes (321) in a rotating mode, one side of the sealing cover (322) is connected with an air suction hose (323), an air pipe (343) is arranged on one side of the mounting plate (2), one end of the air pipe (343) is connected with the opening end of the adjacent air suction hose (323), and the top end of the communicating head (320) is connected with the butt joint male joint (319); the top and the bottom of the inner side of the limit opening (306) are tightly attached to the top and the bottom of the adjacent pull rod (312), the outer side of the limit opening (306) and the outer side of the pull rod (312) are smooth planes, and the telescopic inner rod (311) is in transition fit with the adjacent telescopic outer tube (310);

The positioning wheel (315) is lapped inside the corresponding U-shaped seat (308), and the butt joint male head (319) and the butt joint female head (316) are in clearance fit.

3. The shoe material nonwoven fabric winding system according to claim 1, wherein: the utility model discloses a motor-driven roller (332) is installed to mounting panel (2) one side, fourth electronic jar (325) output is connected linkage frame (326), two it installs electric heat roller (327) to rotate between linkage frame (326) bottom, regulation rail (328) are installed at linkage frame (326) top, regulation rail (328) inside slidable mounting has regulation slider (329), regulation rail (328) inside rotation is installed adjusting screw (330), be connected through the screw thread between adjusting screw (330) and the adjacent regulation slider (329), the connection slide bar (331) are connected in regulation slider (329) top slidable mounting, connection slide bar (331) bottom is connected with mount pad (332), be connected with connecting spring (333) between regulation slider (329) bottom surface and the adjacent mount pad (332) top surface, two it installs flattening roller (334) to rotate between mount pad (332).

4. The shoe material nonwoven fabric winding system according to claim 2, wherein: the utility model discloses a cutting device for electric roller, including mounting panel (327), second electronic jar (313) output is connected with linkage rack (336), linkage slide bar (337) are installed to mounting panel (2) one side, linkage slide bar (337) outside slidable mounting has lifting rack (338), linkage gear (339) are installed in rotation of mounting panel (2) one side, intermeshing between linkage gear (339) and adjacent linkage rack (336) and lifting rack (338), two be connected with connecting plate (340) between lifting rack (338) top, cutting off knife (341) are installed to connecting plate (340) bottom, knife groove (342) are installed to electrothermal roller (327) one side, cutting off knife (341) and knife groove (342) are located same vertical plane.

5. The shoe material nonwoven fabric winding system according to claim 1, wherein: the feeding roller (401) is rotatably arranged inside the workbench (1), a feeding motor (427) is arranged at one end of the outer side of the workbench (1), the output end of the feeding motor (427) is connected with one end of the feeding roller (401), limit grooves (402) are formed in two ends of the outer side of the feeding roller (401), fixing lugs (403) are slidably connected inside the limit grooves (402), a limit ring (404) is welded between the two fixing lugs (403) on the same side, the inner side of the limit ring (404) is attached to the outer side of the feeding roller (401), a positioning motor (405) is arranged at one end of the outer side of the workbench (1), a supporting slide rod (406) is arranged inside the workbench (1), a bidirectional screw (407) is rotatably arranged inside the workbench (1), the output end of the positioning motor (405) is connected with one end of the bidirectional screw (407), two ends of the supporting slide rod (406) are connected with positioning frames (408), the top of each positioning frame (408) is connected with a clamping plate (409), and the bottom of each positioning frame (408) is positioned inside the corresponding to the clamping plate (409); the feeding roller (401) other end is connected with drive wheel (410), axis of rotation (411) are installed in rotation of workstation (1) top, axis of rotation (411) one end is connected with from driving wheel (412), cladding has drive belt (413) between drive wheel (410) and from driving wheel (412), driving wheel (414) are evenly installed in the axis of rotation (411) outside.

6. The shoe material nonwoven fabric winding system according to claim 2, wherein: the dust collection device comprises dust collection pipes (420), the dust collection pipes (420) are arranged on one side of a vibration frame (415), two dust collection pipes (420) are connected with dust collection heads (421), two dust collection pipes (420) are connected to two ends of a three-way pipe (422) at the opening end, a storage box (423) is arranged at one end of the outer side of a workbench (1), the other end of the three-way pipe (422) is connected with the top of the storage box (423), a filter hopper (424) is arranged in the storage box (423), an air suction pump (425) is arranged at one end of the outer side of the workbench (1), an air suction pipe (426) is connected between the air suction end of the air suction pump (425) and the bottom of the storage box (423), and the other end of the air pipe (343) is connected with one side of the air suction pipe (426).

7. Shoe material non-woven fabrics processing equipment, its characterized in that: comprising the shoe material nonwoven fabric winding system according to any one of claims 1 to 6.

8. A rolling method of shoe material non-woven fabrics is characterized in that: performing a winding operation with the shoe material nonwoven fabric winding system according to any one of claims 1 to 6:

S1, a roller preparation step, namely sleeving a paper tube (324) on the outer side of a winding roller (314), and installing the winding roller (314);

s2, a cloth dedusting step, namely starting a vibrating device of the cloth conveying assembly (4) to enable the vibrating device to drive the non-woven fabric to vibrate, so that dust adsorbed on the non-woven fabric is vibrated; the dust collection device collects the vibrated dust;

s3, a cloth conveying step, namely starting a cloth conveying assembly (4), translating on a feeding roller (401), and limiting two sides of the non-woven fabric by a limiting ring (404);

s4, cloth flattening, namely, changing the acting force between the elastic roller (304) and the non-woven fabric through up-and-down movement of the elastic roller (304), wherein the flattening roller (334) applies pressure to the non-woven fabric, the electric heating roller (327) is electrified, and the electric heating roller (327) smoothes the non-woven fabric;

s5, a cloth roll discharging step, namely feeding the wound non-woven fabric roll to a side skip, and simultaneously lowering a cutting knife (341), wherein the cutting knife (341) cuts off the non-woven fabric; after the material receiving is completed, the winding roller (314) is pulled out from the paper tube (324) and reinstalled.