CN115613335A

CN115613335A - Processing method of anti-static fabric for clothing

Info

Publication number: CN115613335A
Application number: CN202211224671.7A
Authority: CN
Inventors: 廖进军; 孙昱炜; 卫新
Original assignee: Nanjing Yiruiwei Fabric Technology Co ltd
Current assignee: Nanjing Yiruiwei Fabric Technology Co ltd
Priority date: 2022-10-09
Filing date: 2022-10-09
Publication date: 2023-01-17

Abstract

The invention discloses a processing method of a garment antistatic fabric, which comprises the following steps: s1, placing the fabric in a rack, rolling the fabric onto a winding roller after the fabric passes through a first guide roller, a roller and a second guide roller, and then introducing water into a water inlet of the roller to enable the water to flow out through pores on the circumferential side wall of the roller; s2, controlling a power assembly to drive an electrostatic elimination assembly to eliminate charges and impurities on two sides of the fabric and drive a winding roller to rotate; s3, controlling the roller to wet the fabric passing through the roller; s4, controlling a power assembly to drive a leveling assembly to eliminate wrinkles on the fabric; s5, after the fabric is processed, taking down the fabric by taking down a wind-up roller; the processing method of the anti-static fabric for the clothes is simple to operate and can efficiently realize the processing of the anti-static fabric for the clothes.

Description

Processing method of anti-static fabric for clothing

Technical Field

The invention relates to the technical field of garment materials, in particular to a processing method of an anti-static garment material.

Background

Garment materials are materials used to make garments. As one of the three elements of the garment, the fabric not only can explain the style and the characteristics of the garment, but also directly controls the expression effects of the color and the shape of the garment. With the continuous development of society and the continuous improvement of technical level, the requirements of people on dressing are also continuously improved, and the following problems exist in the production of the garment materials at present:

1. at present, when the fabric is produced, a large amount of static electricity is generated on the surface of the fabric, so that workers can be influenced by the static electricity when carrying the fabric in the production process, production accidents can be caused when the workers are serious, and when the garment fabric is used for producing clothes, if the fabric has the static electricity, the fabric can be greatly influenced;

2. at present, when the fabric is produced, dust wool is adhered to the surface of the fabric after the fabric is processed by each procedure, and if the impurities are not cleaned, the dust wool is easily sucked into the lung of a worker and damages the health of the worker to a certain extent;

3. at present, when the fabric is produced, some wrinkles can be generated on the surface of the fabric after preparation, and if the wrinkles are not flattened, the subsequent production of clothes can be influenced.

Disclosure of Invention

The invention aims to provide a processing method of a garment anti-static fabric, which is simple to operate and can efficiently process the garment anti-static fabric.

In order to achieve the purpose, the invention provides the following technical scheme: a processing method of a garment antistatic fabric comprises the following steps:

s1, placing the fabric in a rack, rolling the fabric onto a winding roller after the fabric passes through a first guide roller, a roller and a second guide roller, and then introducing water into a water inlet of the roller to enable the water to flow out through pores on the circumferential side wall of the roller;

s2, controlling a power assembly to drive an electrostatic elimination assembly to eliminate charges and impurities on two sides of the fabric and drive a winding roller to rotate;

s3, controlling the roller to wet the fabric passing through the roller;

s4, controlling a power assembly to drive a leveling assembly to eliminate wrinkles on the fabric;

and S5, after the fabric is processed, taking down the fabric by taking down the winding roller.

Furthermore, the first guide roller is rotatably connected in the rack and is arranged near the bottom of the rack along the front-back direction, and the roller is rotatably connected in the rack and is arranged right above the first guide roller along the front-back direction; the second guide roller rotates in the rack and is arranged on the right side of the roller along the front-back direction; the winding roller rotates in the rack and is arranged under the second guide roller along the front-back direction; the lateral wall of roller is equipped with a plurality of pores along circumference, the rear end center department of roller is equipped with the water inlet.

Further, power component includes first motor, first motor fixed mounting is on the rear side wall of frame, the output shaft of first motor stretches out the frame backward and fixes being equipped with first band pulley to and with the coaxial first incomplete gear of first band pulley, the fixed rolling gear that is equipped with of one end that the frame was stretched out to the wind-up roll, when first incomplete gear and rolling gear meshing, first incomplete gear drive rolling gear rotated, and rolling gear drive wind-up roll rotates.

Further, the static elimination assembly comprises a left scraper assembly and a right scraper assembly, and the moving directions of the left scraper assembly and the right scraper assembly are opposite; the left scraper component comprises a left sliding frame, a left sliding plate extending leftwards is arranged on the left side of the rack, the left sliding frame is connected to the left sliding plate in a sliding mode along the left-right direction, a left spring used for forcing the left sliding frame to move rightwards is arranged at the left end of the left sliding plate, a left collecting groove is formed in the left sliding frame, a left vertical sliding groove is formed in the left sliding frame and is arranged above the left collecting groove along the vertical direction, a left scraper is connected to the inside of the left vertical sliding groove in a sliding mode along the vertical direction, the left scraper is grounded through a conducting wire, a first vertical plate is arranged on the right side of the left scraper in the rack, and the fabric is located on the left side of the first vertical plate; a left positioning assembly matched with the left scraper is arranged in the left sliding frame; the upper end of the left sliding frame is provided with a left rotating wheel, the left scraper is provided with a left pull rope, the other end of the left pull rope is fixedly connected with the rack after bypassing the left rotating wheel, and the left sliding frame is provided with a left two-spring for forcing the left scraper to move downwards; when the left sliding frame moves to the left end position leftwards, the left pull rope pulls the left scraper to compress the left two springs to move upwards to the upper end position, and the left scraper is positioned at the upper end position by the left positioning assembly; when left balladeur train moves right to the right-hand member position, the right-hand member of left scraper is contradicted on the surface fabric, and left locating component is left scraper unblock, and left scraper moves down under two spring action on the left side and scrapes into left collecting vat with the left impurity of surface fabric.

Furthermore, the left positioning assembly comprises a left positioning sliding block, a left sliding groove is formed in the left side of the left sliding frame, the left positioning sliding block is connected into the left sliding groove in a sliding mode along the left-right direction, a left three springs used for forcing the left positioning sliding block to move rightwards are arranged in the left sliding groove, a left protruding block extending into the left vertical sliding groove is arranged on the left positioning sliding block, a left inclined surface is arranged on the left protruding block, when the left scraper moves upwards, the left scraper pushes the left protruding block to drive the left positioning sliding block to move leftwards through the left inclined surface, and when the left scraper moves to the position above the left protruding block, the left protruding block moves rightwards to the position below the left scraper; the left positioning sliding block is provided with a left convex plate extending rightwards, and when the left sliding frame moves rightwards to the right end position, the right end of the left convex plate abuts against the first vertical plate to push the left positioning sliding block to drive the left convex block to move leftwards to leave the lower part of the left scraper.

Further, the right scraper component comprises a right sliding frame, a right sliding plate extending rightwards is arranged on the right side of the rack, the right sliding frame is connected to the right sliding plate in a sliding mode along the left-right direction, a right spring used for forcing the right sliding frame to move leftwards is arranged at the right end of the right sliding plate, a right collecting groove is formed in the right sliding frame, a right vertical sliding groove is formed in the right sliding frame above the right collecting groove along the vertical direction, a right scraper is connected to the inside of the right vertical sliding groove in a sliding mode along the vertical direction, the right scraper is grounded through a conducting wire, a second vertical plate is arranged on the left side of the right scraper in the rack, and the fabric is located on the right side of the second vertical plate; a right positioning component matched with the right scraper is arranged in the right sliding frame; the upper end of the right sliding frame is provided with a right rotating wheel, the right scraper is provided with a right pull rope, the other end of the right pull rope is fixedly connected with the rack after bypassing the right rotating wheel, and the right sliding frame is provided with a right two-spring for forcing the right scraper to move downwards; when the right sliding frame moves rightwards to the right end position, the right pull rope pulls the right scraper to compress the right two springs to move upwards to the upper end position, and the right scraper is positioned at the upper end position by the right positioning assembly; when right balladeur train moves left to the left end position, the left end of right scraper is contradicted on the surface fabric, and right locating component is with right scraper unblock, and right scraper moves down under two spring action on the right side and scrapes into right collecting vat with the impurity on surface fabric right side.

Furthermore, the right positioning assembly comprises a right positioning sliding block, a right sliding groove is formed in the right side of the right sliding frame, the right positioning sliding block is connected into the right sliding groove in a sliding mode along the left-right direction, a right three springs used for forcing the right positioning sliding block to move leftwards are arranged in the right sliding groove, a right protruding block extending into the right vertical sliding groove is arranged on the right positioning sliding block, a right inclined surface is arranged on the right protruding block, when the right scraper moves upwards, the right scraper pushes the right protruding block to drive the right positioning sliding block to move rightwards through the right inclined surface, and when the right scraper moves to the position above the right protruding block, the right protruding block moves rightwards to the position below the right scraper; the right positioning sliding block is provided with a right convex plate extending leftwards, and when the right sliding frame moves leftwards to the left end position, the left end of the right convex plate abuts against the second vertical plate to push the right positioning sliding block to drive the right convex block to move rightwards to leave the lower part of the right scraper.

Further, be equipped with the left rack that the level extends to the right on the balladeur train of a left side, be equipped with the right rack that the level extends to a left side on the balladeur train of the right side, the rear side rotation of frame is connected with the second band pulley and with the coaxial just fixed connection's of second incomplete gear of second band pulley, be equipped with first driving belt between first band pulley and the second band pulley, between the incomplete gear position left side rack of second and the right rack, when first incomplete gear and rolling gear meshing, first incomplete gear and left rack and right rack meshing, when first incomplete gear and rolling gear break away from the meshing, first incomplete gear and left rack and right rack break away from the meshing.

Further, the leveling component comprises a first rack, a transverse plate arranged in the front-back direction is fixedly arranged in the rack, the first rack is connected in the transverse plate in a sliding manner in the left-right direction, the left end of the first rack is fixedly connected with the right carriage, a sliding plate is connected in the rack in the right side of the transverse plate in a sliding manner, a first spring for forcing the sliding plate to move rightwards is arranged between the transverse plate and the sliding plate, an installation hole is formed in the rear side of the rack, a positioning ball and a positioning spring for forcing the positioning ball to tightly press the rear end of the sliding plate are arranged in the installation hole, a positioning hole is formed in the rear end of the sliding plate, and when the sliding plate is located at the left end position, the positioning ball enters the positioning hole to position the sliding plate; the left side of the sliding plate on the first rack is provided with a left convex edge, and the right end of the first rack is provided with a right convex edge; when the first rack moves rightwards, the left convex edge pushes the sliding plate to move rightwards to the right end position, and when the first rack moves leftwards, the right convex edge pushes the sliding plate to move leftwards to the left end position and the positioning ball enters the positioning hole; the right side of the sliding plate is provided with compression roller assemblies on the front side and the rear side of the first rack, a heating plate is arranged at the right end of the first rack in the rack, the fabric is located on the left side of the heating plate, and when the first rack moves rightwards to the right end, the right convex edge and the two compression roller assemblies compress the fabric on the heating plate and tension the fabric in the front-rear direction.

Furthermore, the compression roller assembly comprises a stretching roller, a support frame extending rightwards is arranged on the right side of the sliding plate, and the stretching roller is rotatably connected to the support frame and arranged along the vertical direction; a third belt wheel is fixedly arranged at the upper end of the stretching roller, a first rotating shaft is rotatably connected to the support frame at a position close to the first rack, the first rotating shaft is arranged along the vertical direction, a fourth belt wheel is fixedly arranged at the upper end of the first rotating shaft, a second transmission belt is arranged between the fourth belt wheel and the third belt wheel, and the rotating directions of the fourth belt wheel and the third belt wheel are opposite; a ratchet gear is fixedly arranged at the lower end of the first rotating shaft, and the fourth belt wheel is driven to rotate through the first rotating shaft when the ratchet gear rotates; the outer side of the ratchet gear is rotatably connected with a gear ring meshed with the first rack, the side wall of an inner hole of the gear ring is provided with an installation groove, a pawl and a spring sheet for forcing the pawl to be tightly pressed on the ratchet gear are arranged in the installation groove; when the first rack moves rightwards, the gear ring does not drive the ratchet wheel to rotate, and when the first rack moves rightwards, the gear ring drives the ratchet wheel to rotate; the support frame is provided with a stop block, and when the first rack moves leftwards, the right convex edge pushes the sliding plate to move leftwards through the stop block.

Advantageous effects

Compared with the prior art, the technical scheme of the invention has the following advantages:

1. the left and right surfaces of the fabric are scraped by the aid of the grounded metal left scraper and the grounded metal right scraper, charges accumulated on the fabric are discharged, static electricity generated on the fabric is removed, and influence on production and subsequent processing of the fabric is avoided;

2. through the arrangement of the left scraper blade and the left collecting groove which can move back and forth and the matching of the right scraper blade and the right collecting groove, impurities on the surface of the fabric can be cleaned through scraping the left surface and the right surface of the fabric by the left scraper blade and the right scraper blade, so that the impurities on the surface of the fabric cannot float in a processing environment along with the flowing of air, and the health of workers is protected;

3. by arranging the roller with the fine holes and introducing water into the roller, water passes through the fine-hole runner fabric, static electricity on the surface of the fabric is eliminated by wetting of the water, and the wet fabric is beneficial to straightening the wrinkle part of the fabric in the follow-up process;

4. by arranging the stretching rollers and the heating plate, the fabric is pulled to the front side and the rear side by the rotation of the two stretching rollers, the wet fabric can be dried by the heating plate, and the fabric with folds can be straightened, so that the treatment of the folds on the surface of the fabric is completed;

5. through setting up power component, just can control action such as surface fabric rolling, surface cleaning, static elimination, fold elimination through a first motor for it is high to set up the integrated level, reduce cost.

Drawings

FIG. 1 is a cross-sectional view of the present invention;

FIG. 2 isbase:Sub>A sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a sectional view taken along line B-B of FIG. 1 in accordance with the present invention;

FIG. 4 is a cross-sectional view of the mating of the first rack and the ring gear of the present invention;

fig. 5 is a sectional view of the power unit transmission portion of the present invention.

Detailed Description

Referring to fig. 1-5, a method for processing a garment antistatic fabric includes the following steps:

s1, placing the fabric 8 in a frame 1, rolling the fabric to a winding roller 13 after passing through a first guide roller 112, a roller 12 and a second guide roller 113, and then introducing water into a water inlet 12a of the roller 12 to enable the water to flow out through pores 121 on the circumferential side wall of the roller;

s2, controlling a power assembly to drive an electrostatic elimination assembly to eliminate charges and impurities on two sides of the fabric 8 and drive a winding roller to rotate;

s3, controlling the roller to wet the fabric 8 passing through the roller;

s4, controlling a power assembly to drive a leveling assembly to eliminate wrinkles on the fabric 8;

and S5, after the fabric 8 is processed, taking down the wind-up roll 13 to take down the fabric 8.

In this embodiment, the first guide roller 112 is rotatably connected in the frame 1 and is disposed near the bottom of the frame 1 along the front-back direction, and the roller 12 is rotatably connected in the frame 1 and is disposed right above the first guide roller 112 along the front-back direction; the second guide roller 113 rotates in the frame 1 and is arranged on the right side of the roller 12 along the front-back direction; the winding roller 13 rotates in the frame 1 and is arranged under the second guide roller 113 along the front-back direction; the side wall of the roller 12 is provided with a plurality of pores 121 along the circumferential direction, and the center of the rear end of the roller 12 is provided with a water inlet 12a.

Power component includes first motor 4, 4 fixed mounting of first motor are on the rear side wall of frame 1, the output shaft of first motor 4 stretches out frame 1 backward and fixes being equipped with first band pulley 61 to and with the coaxial first incomplete gear 64 of first band pulley 61, the fixed rolling gear 66 that is equipped with of one end that frame 1 was stretched out to wind-up roll 13, when first incomplete gear 64 and rolling gear 66 mesh, first incomplete gear 64 drive rolling gear 66 rotated, and rolling gear 66 drive wind-up roll 13 rotates.

The static elimination assembly comprises a left scraper assembly and a right scraper assembly, and the left scraper assembly and the right scraper assembly have opposite movement directions; the left scraper component comprises a left sliding frame 21, a left sliding plate 1a extending leftwards is arranged on the left side of the rack 1, the left sliding frame 21 is connected to the left sliding plate 1a in a sliding mode along the left-right direction, a left spring 221 for forcing the left sliding frame 21 to move rightwards is arranged at the left end of the left sliding plate 1a, a left collecting groove 211 is arranged on the left sliding frame 21, a left vertical sliding groove 21a is arranged above the left collecting groove 211 along the vertical direction on the left sliding frame 21, a left scraper 241 is connected to the inside of the left vertical sliding groove 21a in a sliding mode along the vertical direction, the left scraper 241 is grounded through a conducting wire, a first vertical plate 143 is arranged on the right side of the left scraper 241 in the rack 1, and the fabric 8 is located on the left side of the first vertical plate 143; a left positioning component matched with the left scraper 241 is arranged in the left sliding frame 21; the upper end of the left sliding frame 21 is provided with a left rotating wheel 261, the left scraper 241 is provided with a left pulling rope 271, the other end of the left pulling rope 271 bypasses the left rotating wheel 261 and is fixedly connected with the frame 1, and the left sliding frame 21 is provided with a left second spring 251 used for forcing the left scraper 241 to move downwards; when the left carriage 21 moves to the left end position, the left pull rope 271 pulls the left scraper 241 to compress the left second spring 251 to move upwards to the upper end position, and the left positioning assembly positions the left scraper 241 to the upper end position; when the left sliding frame 21 moves rightwards to the right end position, the right end of the left scraper 241 props against the fabric 8, the left positioning component unlocks the left scraper 241, and the left scraper 241 moves downwards under the action of the left two springs 251 to scrape impurities on the left side of the fabric 8 into the left collecting tank 211. The left positioning assembly comprises a left positioning sliding block 231, a left sliding groove 21b is formed in the left side of the left sliding frame 21, the left positioning sliding block 231 is connected into the left sliding groove 21b in a left-right sliding mode, a left three springs 281 for forcing the left positioning sliding block 231 to move rightwards are arranged in the left sliding groove 21b, a left convex block 2a extending into the left vertical sliding groove 21a is arranged on the left positioning sliding block 231, a left inclined surface 2b is arranged on the left convex block 2a, when the left scraper 241 moves upwards, the left scraper 241 pushes the left convex block 2a through the left inclined surface 2b to drive the left positioning sliding block 231 to move leftwards, and when the left scraper 241 moves to the upper side of the left convex block 2a, the left convex block 2a moves rightwards to the lower side of the left scraper 241; the left positioning slide block 231 is provided with a left convex plate 2c extending rightwards, when the left sliding frame 21 moves rightwards to the right end position, the right end of the left convex plate 2c is abutted against the first vertical plate 143 to push the left positioning slide block 231 to drive the left convex block 2a to move leftwards to leave the lower part of the left scraper 241.

The right scraper component comprises a right sliding frame 2d, a right sliding plate 1b extending rightwards is arranged on the right side of the rack 1, the right sliding frame 2d is connected to the right sliding plate 1b in a sliding mode along the left-right direction, a right spring 222 used for forcing the right sliding frame 2d to move leftwards is arranged at the right end of the right sliding plate 1b, a right collecting groove 212 is arranged on the right sliding frame 2d, a right vertical sliding groove 2e is arranged above the right collecting groove 212 on the right sliding frame 2d along the vertical direction, a right scraper 242 is connected in the right vertical sliding groove 2e in a sliding mode along the vertical direction, the right scraper 242 is grounded through a conducting wire, a second vertical plate 142 is arranged on the left side of the right scraper 242 in the rack 1, and the fabric 8 is located on the right side of the second vertical plate 142; a right positioning component matched with the right scraper 242 is arranged in the right sliding frame 2 d; a right rotating wheel 262 is arranged at the upper end of the right sliding frame 2d, a right pull rope 272 is arranged on the right scraper 242, the other end of the right pull rope 272 bypasses the right rotating wheel 262 and is fixedly connected with the rack 1, and a right two-spring 252 for forcing the right scraper 242 to move downwards is arranged on the right sliding frame 2 d; when the right carriage 2d moves rightward to the right end position, the right pull rope 272 pulls the right scraper 242 to compress the right two springs 252 to move upward to the upper end position, and the right positioning assembly positions the right scraper 242 at the upper end position; when the right carriage 2d moves to the left end position leftwards, the left end of the right scraper 242 abuts against the fabric 8, the right positioning component unlocks the right scraper 242, and the right scraper 242 moves downwards under the action of the two right springs 252 to scrape impurities on the right side of the fabric 8 into the right collecting tank 212. The right positioning assembly comprises a right positioning sliding block 232, a right sliding groove 23b is formed in the right side of the right sliding frame 2d, the right positioning sliding block 232 is connected into the right sliding groove 23b in a left-right sliding mode, three right springs 282 used for forcing the right positioning sliding block 232 to move leftwards are arranged in the right sliding groove 23b, a right protruding block 2f extending into the right vertical sliding groove 2e is arranged on the right positioning sliding block 232, a right inclined plane 2g is formed in the right protruding block 2f, when the right scraper 242 moves upwards, the right scraper 242 pushes the right protruding block 2f to drive the right positioning sliding block 232 to move rightwards through the right inclined plane 2g, and when the right scraper 242 moves to the position above the right protruding block 2f, the right protruding block 2f moves rightwards to the position below the right scraper 242; the right positioning sliding block 232 is provided with a right convex plate 2h extending leftwards, and when the right sliding frame 2d moves leftwards to the left end position, the left end of the right convex plate 2h abuts against the second vertical plate 142 to push the right positioning sliding block 232 to drive the right convex block 2f to move rightwards to leave the lower part of the right scraper 242.

Be equipped with the left rack 71 that the level extends to the right on the carriage 21 of a left side, be equipped with the right rack 72 that the level extends to the left on the carriage 2d of the right side, the rear side swivelling joint of frame 1 has second band pulley 62 and with the coaxial and fixed connection's of second band pulley 62 incomplete gear 65, be equipped with first driving belt 63 between first band pulley 61 and the second band pulley 62, between the left rack 71 of second incomplete gear 65 position and the right rack 72, when first incomplete gear 64 and rolling gear 66 mesh, first incomplete gear 64 and left rack 71 and right rack 72 mesh, when first incomplete gear 64 and rolling gear 66 disengage, first incomplete gear 64 and left rack 71 and right rack 72 disengage.

The leveling assembly comprises a first rack 31, a transverse plate 15 arranged in the front-back direction is fixedly arranged in the rack 1, the first rack 31 is connected in the transverse plate 15 in a sliding manner in the left-right direction, the left end of the first rack 31 is fixedly connected with a right sliding frame 2d, a sliding plate 32 is connected in the rack 1 on the right side of the transverse plate 15 in a sliding manner, a first spring 38 used for forcing the sliding plate 32 to move rightwards is arranged between the transverse plate 15 and the sliding plate 32, the rear side of the rack 1 is provided with a mounting hole 3c, a positioning ball 39 and a positioning spring 3b used for forcing the positioning ball 39 to be tightly pressed on the rear end of the sliding plate 32 are arranged in the mounting hole 3c, the rear end of the sliding plate 32 is provided with a positioning hole 3a, and when the sliding plate 32 is at the left end position, the positioning ball 39 enters the positioning hole 3a to position the sliding plate 32; a left convex edge 312 is arranged on the left side of the sliding plate 32 on the first rack 31, and a right convex edge 311 is arranged on the right end of the first rack 31; when the first rack 31 moves to the right, the left flange 312 pushes the sliding plate 32 to move to the right end position, and when the first rack 31 moves to the left, the right flange 311 pushes the sliding plate 32 to move to the left end position and the positioning ball 39 enters the positioning hole 3 a; the right side of the sliding plate 32 is provided with compression roller assemblies at the front and rear sides of the first rack 31, the right end of the first rack 31 in the frame 1 is provided with a heating plate 16, the fabric 8 is positioned at the left side of the heating plate 16, and when the first rack 31 moves to the right end position, the right flange 311 and the two compression roller assemblies compress the fabric 8 on the heating plate 16 and tension the fabric in the front and rear directions.

The compression roller assembly comprises a stretching roller 331, a support frame 32a extending rightwards is arranged on the right side of the sliding plate 32, and the stretching roller 331 is rotatably connected to the support frame 32a and is arranged along the vertical direction; a third belt wheel 341 is fixedly arranged at the upper end of the stretching roller 331, a first rotating shaft 5a is rotatably connected to the supporting frame 32a at a position close to the first rack 31, the first rotating shaft 5a is arranged along the vertical direction, a fourth belt wheel 351 is fixedly arranged at the upper end of the first rotating shaft 5a, a second transmission belt 361 is arranged between the fourth belt wheel 351 and the third belt wheel 341, and the rotating directions of the fourth belt wheel 351 and the third belt wheel 341 are opposite; a ratchet gear 511 is fixedly arranged at the lower end of the first rotating shaft 5a, and the ratchet gear 511 drives the fourth pulley 351 to rotate through the first rotating shaft 5a when rotating; the outer side of the ratchet gear 511 is rotatably connected with a gear ring 371 engaged with the first rack 31, the side wall of the inner hole of the gear ring 371 is provided with a mounting groove 5b, a pawl 521 and a spring 531 for forcing the pawl 521 to press the ratchet gear 511 are arranged in the mounting groove 5 b; when the first rack 31 moves to the right, the gear ring 371 does not drive the ratchet gear 511 to rotate, and when the first rack 31 moves to the right, the gear ring 371 drives the ratchet gear 511 to rotate; a stopper is arranged on the support frame 32a, and when the first rack 31 moves leftwards, the right flange 311 pushes the sliding plate 32 to move leftwards through the stopper.

In the above S2 of this embodiment, when the power assembly is controlled to drive the static eliminating assembly to eliminate charges and impurities on two sides of the fabric 8 and drive the wind-up roll to rotate, the first motor 4 is started to drive the first incomplete gear 64 and the first belt pulley 61 to rotate counterclockwise, when a toothed portion of the first incomplete gear 64 is meshed with the wind-up gear 66, the wind-up roll 13 is driven to rotate and further wind up the fabric 8, and simultaneously the first belt pulley 61 is driven to rotate counterclockwise by the transmission of the first transmission belt 63, and further the second incomplete gear 65 is driven to rotate counterclockwise, and when the toothed portion of the first incomplete gear 64 is meshed with the wind-up gear 66, the toothed portion of the second incomplete gear 65 is respectively meshed with the left rack 71 and the right rack 72, and further the left rack 71 and the right rack 72 are driven to move to opposite left and right sides, the left collecting tank 211 and the right collecting tank 212 are driven to move to opposite left and right sides, and when the left carriage 21 drives the left collecting tank 211 to move to left, the left scraper 241 is driven to pull the left scraper 241 to move upwards by the left scraper 271 to overcome the left spring 251, and drive the left positioning lug 241 to compress the left positioning lug 281 a; similarly, when the right sliding frame 2d drives the right collecting groove 212 to move to the right, the right scraper 242 is pulled by the right pull rope 272 to overcome the right two springs 252 to move upward, and when the right scraper 242 moves to the upper end position, the right scraper 242 pushes the right protrusion 2f through the right inclined plane 2g to drive the right positioning slider 232 to compress the right three springs 282 to the right, so that the right protrusion 2f positions the right scraper 242 at the upper end position. When the first incomplete gear 64 rotates to be not meshed with the winding gear 66, the winding roller 13 stops winding, the fabric 8 stops moving, at this time, the second incomplete gear 65 is separated from the left rack 71 and the right rack 72, the left carriage 21 is pushed under the action of the left spring 221 to drive the left scraper 241 to move rightwards, and the right carriage 2d is pushed under the action of the right spring 222 to drive the right scraper 242 to move leftwards; when the left sliding frame 21 drives the left convex plate 2c to abut against the first vertical plate 143, the left convex block 2a leaves the lower part of the left scraper 241 leftwards, the left scraper 241 moves downwards under the action of the left second spring 251 to scrape the left side of the fabric 8, as the left scraper 241 is grounded through a lead, the charge on the upper left of the fabric 8 is eliminated, and the impurities on the left side of the fabric 8 enter the left collecting tank 211 through scraping; similarly, when right balladeur train 2d drives right flange 2h and contradicts on the vertical board 142 of second, the below of right scraper 242 is left to right lug 2f, right scraper 242 moves down under the effect of two right springs 252, strike off the right side of surface fabric 8, because right scraper 242 passes through wire ground connection, make the charge on surface fabric 8 the right side eliminate, and the impurity on surface fabric 8 the right side gets into right collecting vat 212 through striking off in, through incessantly rotating of first motor 4, just can realize clearing up the static-removing treatment to one section of surface fabric 8.

In the above-mentioned S3 of this embodiment, because to water inlet 12a for water flows out through pore 121, makes the surface of surface fabric 8 through roller 12 constantly wet, not only can realize the elimination to static, but also is favorable to the processing to surface fabric 8 fold.

In the above S4 of this embodiment, when the power assembly is controlled to drive the leveling assembly to eliminate the wrinkles on the fabric 8, when the toothed portion of the first incomplete gear 64 is engaged with the winding gear 66, the fabric 8 is wound while the right carriage 2d moves rightwards, the first rack 31 is pushed rightwards, the two gear rings 371 on the sliding plate 32 are driven to rotate, due to the cooperation between the pawl 521 and the elastic piece 531, the ratchet gear 511 does not rotate, and when the left flange 312 contacts the sliding plate 32, the sliding plate 32 is pushed to release the positioning of the positioning ball 39, so that the two stretching rollers 331 in front of and behind the first rack 31 press the fabric 8, at this time, the toothed portion of the first incomplete gear 64 is separated from the winding gear 66, the fabric 8 stops winding, the heating plate 16 is heated, drying fabric 8, drive first rack 31 and remove left under the effect of right spring 222, cooperation between pawl 521 and shell fragment 531, drive ratchet wheel 511 and follow the rotation, and then through first pivot 5a, fourth band pulley 351, second drive belt 361, third band pulley 341 drives stretching roller 331 and rotates, because two stretching roller 331 rotate opposite direction and then stretch the fabric 8 that lies in on hot plate 16, eliminate the fold, when the dog on right chimb 311 and the sliding plate 32 touches, promote the sliding plate 32 and remove left, and fix a position through location ball 39, form the circulation, make and constantly rotate through first motor 4, just can accomplish and dry and fold and draw the tie up to fabric 8 one section, accomplish the process.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. A processing method of a garment antistatic fabric is characterized by comprising the following steps:

s3, controlling the roller to wet the fabric passing through the roller;

2. The processing method of the clothing antistatic fabric according to claim 1, wherein the first guide roller is rotatably connected in the frame and is arranged near the bottom of the frame along the front-back direction, and the roller is rotatably connected in the frame and is arranged right above the first guide roller along the front-back direction; the second guide roller rotates in the rack and is arranged on the right side of the roller along the front-back direction; the winding roller rotates in the rack and is arranged under the second guide roller along the front-back direction; the lateral wall of roller is equipped with a plurality of pores along circumference, the rear end center department of roller is equipped with the water inlet.

3. The processing method of the anti-static fabric for clothing according to claim 2, wherein the power assembly comprises a first motor, the first motor is fixedly installed on the rear side wall of the rack, an output shaft of the first motor extends backwards out of the rack and is fixedly provided with a first belt wheel and a first incomplete gear coaxial with the first belt wheel, a winding gear is fixedly arranged at one end of the winding roller extending out of the rack, when the first incomplete gear is meshed with the winding gear, the first incomplete gear drives the winding gear to rotate, and the winding gear drives the winding roller to rotate.

4. The processing method of the clothing antistatic fabric according to claim 3, wherein the static eliminating component comprises a left scraper component and a right scraper component, and the left scraper component and the right scraper component move in opposite directions; the left scraper component comprises a left sliding frame, a left sliding plate extending leftwards is arranged on the left side of the rack, the left sliding frame is connected to the left sliding plate in a sliding mode along the left-right direction, a left spring used for forcing the left sliding frame to move rightwards is arranged at the left end of the left sliding plate, a left collecting groove is formed in the left sliding frame, a left vertical sliding groove is formed in the left sliding frame above the left collecting groove along the vertical direction, a left scraper is connected to the inside of the left vertical sliding groove in a sliding mode along the vertical direction, the left scraper is grounded through a conducting wire, a first vertical plate is arranged on the right side of the left scraper in the rack, and the fabric is located on the left side of the first vertical plate; a left positioning assembly matched with the left scraper is arranged in the left sliding frame; the upper end of the left sliding frame is provided with a left rotating wheel, the left scraper is provided with a left pull rope, the other end of the left pull rope winds around the left rotating wheel and then is fixedly connected with the rack, and the left sliding frame is provided with a left two-spring for forcing the left scraper to move downwards; when the left sliding frame moves to the left end position leftwards, the left pull rope pulls the left scraper to compress the left two springs to move upwards to the upper end position, and the left scraper is positioned at the upper end position by the left positioning assembly; when left balladeur train moves right to the right-hand member position, the right-hand member of left scraper is contradicted on the surface fabric, and left locating component is left scraper unblock, and left scraper moves down under two spring action on the left side and scrapes into left collecting vat with the left impurity of surface fabric.

5. The processing method of the antistatic garment material according to claim 4, wherein the left positioning assembly comprises a left positioning sliding block, a left sliding groove is formed in the left side of the left sliding frame, the left positioning sliding block is connected into the left sliding groove in a sliding mode in the left-right direction, three left springs for forcing the left positioning sliding block to move rightwards are arranged in the left sliding groove, a left protruding block extending into the left vertical sliding groove is arranged on the left positioning sliding block, a left inclined surface is arranged on the left protruding block, when the left scraper moves upwards, the left scraper pushes the left protruding block through the left inclined surface to drive the left positioning sliding block to move leftwards, and when the left scraper moves to the position above the left protruding block, the left protruding block moves rightwards to the position below the left scraper; the left positioning sliding block is provided with a left convex plate extending rightwards, and when the left sliding frame moves rightwards to the right end position, the right end of the left convex plate abuts against the first vertical plate to push the left positioning sliding block to drive the left convex block to move leftwards to leave the lower part of the left scraper.

6. The garment antistatic fabric processing method according to claim 4, wherein the right scraper component comprises a right sliding frame, a right sliding plate extending rightwards is arranged on the right side of the rack, the right sliding frame is connected to the right sliding plate in a sliding mode in the left-right direction, a right spring for forcing the right sliding frame to move leftwards is arranged at the right end of the right sliding plate, a right collecting groove is arranged on the right sliding frame, a right vertical sliding groove is arranged above the right collecting groove in the vertical direction on the right sliding frame, a right scraper is connected to the inside of the right vertical sliding groove in a sliding mode in the vertical direction, the right scraper is grounded through a conducting wire, a second vertical plate is arranged on the left side of the right scraper in the rack, and the fabric is located on the right side of the second vertical plate; a right positioning component matched with the right scraper is arranged in the right sliding frame; the upper end of the right sliding frame is provided with a right rotating wheel, the right scraper is provided with a right pull rope, the other end of the right pull rope winds around the right rotating wheel and then is fixedly connected with the rack, and the right sliding frame is provided with two right springs for forcing the right scraper to move downwards; when the right sliding frame moves rightwards to the right end position, the right pull rope pulls the right scraper to compress the right two springs to move upwards to the upper end position, and the right scraper is positioned at the upper end position by the right positioning assembly; when right balladeur train moved left to the left end position, the left end of right scraper is contradicted on the surface fabric, and right locating component is right scraper unblock, and right scraper moves down under two spring actions of right side and scrapes into right collecting vat with the impurity on surface fabric right side.

7. The processing method of the antistatic garment material according to claim 6, wherein the right positioning assembly comprises a right positioning slider, a right sliding groove is formed in the right side of the right sliding frame, the right positioning slider is connected into the right sliding groove in a sliding manner along the left-right direction, three right springs for forcing the right positioning slider to move leftwards are arranged in the right sliding groove, a right protruding block extending into the right vertical sliding groove is arranged on the right positioning slider, a right inclined surface is arranged on the right protruding block, when the right scraper moves upwards, the right scraper pushes the right protruding block to drive the right positioning slider to move rightwards through the right inclined surface, and when the right scraper moves to the position above the right protruding block, the right protruding block moves rightwards to the position below the right scraper; the right positioning sliding block is provided with a right convex plate extending leftwards, and when the right sliding frame moves leftwards to the left end position, the left end of the right convex plate abuts against the vertical plate of the second to push the right positioning sliding block to drive the right convex block to move rightwards to leave the lower part of the right scraper.

8. The processing method of the antistatic garment material as claimed in claim 6, wherein a left rack extending horizontally to the right is arranged on the left carriage, a right rack extending horizontally to the left is arranged on the right carriage, a second belt wheel and a second incomplete gear which is coaxial with and fixedly connected with the second belt wheel are rotatably connected to the rear side of the rack, a first transmission belt is arranged between the first belt wheel and the second belt wheel, the second incomplete gear is arranged between the left rack and the right rack, the first incomplete gear is meshed with the left rack and the right rack when the first incomplete gear is meshed with the winding gear, and the first incomplete gear is disengaged from the left rack and the right rack when the first incomplete gear is disengaged from the winding gear.

9. The processing method of the antistatic garment material as claimed in claim 6, wherein the leveling component comprises a first rack, a transverse plate arranged in the front-back direction is fixedly arranged in the rack, the first rack is connected in the transverse plate in a sliding manner in the left-right direction, the left end of the first rack is fixedly connected with the right sliding frame, a sliding plate is connected in the rack in a sliding manner on the right side of the transverse plate, a first spring for forcing the sliding plate to move rightwards is arranged between the transverse plate and the sliding plate, a mounting hole is arranged on the rear side of the rack, a positioning ball and a positioning spring for forcing the positioning ball to press against the rear end of the sliding plate are arranged in the mounting hole, a positioning hole is arranged on the rear end of the sliding plate, and when the sliding plate is at the left end position, the positioning ball enters the positioning hole to position the sliding plate; the left side of the sliding plate on the first rack is provided with a left convex edge, and the right end of the first rack is provided with a right convex edge; when the first rack moves rightwards, the left convex edge pushes the sliding plate to move rightwards to a right end position, and when the first rack moves leftwards, the right convex edge pushes the sliding plate to move leftwards to a left end position and the positioning ball enters the positioning hole; the right side of the sliding plate is provided with compression roller assemblies on the front side and the rear side of the first rack, a heating plate is arranged at the right end of the first rack in the rack, the fabric is located on the left side of the heating plate, and when the first rack moves rightwards to the right end, the right convex edge and the two compression roller assemblies compress the fabric on the heating plate and tension the fabric in the front-rear direction.

10. The processing method of the antistatic garment material as claimed in claim 9, wherein the compression roller assembly comprises a stretching roller, a support frame extending rightwards is arranged on the right side of the sliding plate, and the stretching roller is rotatably connected to the support frame and is arranged in the vertical direction; a third belt wheel is fixedly arranged at the upper end of the stretching roller, a first rotating shaft is rotatably connected to the support frame at a position close to the first rack, the first rotating shaft is arranged along the vertical direction, a fourth belt wheel is fixedly arranged at the upper end of the first rotating shaft, a second transmission belt is arranged between the fourth belt wheel and the third belt wheel, and the rotating directions of the fourth belt wheel and the third belt wheel are opposite; a ratchet wheel is fixedly arranged at the lower end of the first rotating shaft, and the ratchet wheel drives the fourth belt wheel to rotate through the first rotating shaft when rotating; the outer side of the ratchet gear is rotatably connected with a gear ring meshed with the first rack, the side wall of an inner hole of the gear ring is provided with a mounting groove, a pawl and a spring plate for forcing the pawl to be tightly pressed on the ratchet gear are arranged in the mounting groove; when the first rack moves rightwards, the gear ring does not drive the ratchet wheel to rotate, and when the first rack moves rightwards, the gear ring drives the ratchet wheel to rotate; the support frame is provided with a stop block, and when the first rack moves leftwards, the right convex edge pushes the sliding plate to move leftwards through the stop block.