CN217709930U - Continuous processing device for open-width light and thin cloth - Google Patents

Abstract

The utility model relates to a continuous processing device for flat-width light and thin cloth, which comprises a plurality of feeding components, feeding guide cylinders, and a padding component, a drying component, a plurality of material receiving guide cylinders and a plurality of winding components which are arranged in sequence along the advancing direction of the light and thin cloth, wherein the feeding guide cylinders are respectively connected on the feeding components in a rolling way, and the light and thin cloth wound by the feeding guide cylinders is in a flat-width shape, sequentially bypasses the padding component and the drying component, and is respectively wound on the material receiving guide cylinders; the plurality of material receiving guide cylinders are respectively connected to the plurality of winding assemblies in a rolling manner. The utility model discloses a twine frivolous cloth respectively on the pay-off guide cylinder to with a plurality of pay-off guide cylinder roll connection on a plurality of pay-off subassemblies, because follow-up adoption is received the material and is led a roll connection and a plurality of frivolous cloth through padding and stoving respectively on a plurality of receipts material subassemblies, can avoid the transition to draw the light and thin cloth in a plurality of light and thin cloth of serialization processing arrangement, avoid frivolous cloth size deformation or disconnected cloth.

Description

Continuous processing device for open-width light and thin cloth

Technical Field

The utility model relates to a weaving dyeing and finishing technical field, in particular to open width form light thin cloth serialization processingequipment.

Background

Generally, the weight of each square meter is less than 100 g, the thin cloth has low transverse and vertical strength, if the cloth needs to be finished in an open-width continuous manner, such as washing, dyeing, soft finishing, functional finishing and the like, and when the open-width continuous finishing is carried out, the tension of the cloth in the vertical direction is high, the problems of size deformation and even cloth breakage of the cloth can occur due to low strength of the cloth, and the production quality of the open-width continuous processing and finishing of the cloth is difficult to ensure.

At present, most of the processing and finishing modes of light and thin cloth are non-open-width production of the cloth in a rope state in a cylinder, and the cloth is contracted into the rope state in the method, so that the straight integral strength of the thin cloth is greatly enhanced, and the smooth processing and finishing of the cloth are ensured, but the cloth is easy to wrinkle during rope production, and the product quality is seriously influenced for the cloth which cannot be subjected to tentering and setting in the subsequent process, if the fabric wrinkles; the method for processing and finishing the light and thin cloth in a flat-width shape can reduce the problem of crease by using a jig dyeing machine, a beam dyeing machine and other methods for processing and finishing the light and thin cloth at present, but the methods can only process the cloth in a winding mode, belong to discontinuous processing and finishing methods, and have quality risks such as figured cloth, color difference and the like in the processing process.

Therefore, the continuous processing and finishing production of light and thin fabrics in a flat and continuous manner with high efficiency and high quality is a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model provides a continuous processing device for open-width light and thin cloth, which solves the technical problem that the existing light and thin cloth cannot be continuously processed in open-width manner.

The technical scheme of the utility model for solving the technical problems is that the continuous processing device for the open width light and thin cloth comprises a plurality of feeding components, a plurality of feeding guide cylinders wound with the light and thin cloth, and a padding component, a drying component, a plurality of receiving guide cylinders and a plurality of rolling components which are arranged in sequence along the advancing direction of the light and thin cloth,

the feeding guide cylinders are respectively connected to the feeding assemblies in a rolling mode, and the wound light thin cloth sequentially bypasses the padding assembly and the drying assembly in an open-width mode and is respectively wound on the receiving guide cylinders; and the material receiving guide barrels are respectively connected to the plurality of winding components in a rolling manner.

The beneficial effects of the utility model are that: through will frivolous cloth winding respectively on the pay-off guide cylinder to with a plurality of pay-off guide cylinder roll connection on a plurality of pay-off subassemblies, because follow-up adoption is received and is expected a plurality of frivolous cloth through padding and stoving of guide cylinder roll connection on a plurality of receipts material subassemblies and rolling respectively, can avoid the transition to draw the light and thin cloth, avoid frivolous cloth size deformation or disconnected cloth when processing a plurality of light and thin cloth of arrangement in succession.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Furthermore, each feeding assembly comprises a feeding frame, a feeding driving roller and a feeding driven roller, wherein the feeding driving roller and the feeding driven roller are arranged in parallel at intervals, and two ends of the feeding driving roller and the feeding driven roller are respectively and rotatably connected to two opposite sides of the feeding frame; the feeding guide cylinder is connected between the feeding driving roller and the feeding driven roller in a rolling mode.

The feeding guide cylinder is connected between the feeding driving roller and the feeding driven roller in a rolling mode, so that the feeding guide cylinder can provide rotating power for the feeding guide cylinder and can avoid excessive pulling force on light and thin cloth.

Further comprises a plurality of feeding and transferring components, each feeding and transferring component comprises a feeding and transferring frame, a first driven roller, a second driven roller, a feeding tension induction roller, a third driven roller and a fourth driven roller,

the feeding transfer frames are all positioned on one side of the feeding frame; the first driven roller, the second driven roller, the feeding tension sensing roller, the third driven roller and the fourth driven roller are arranged in parallel at intervals, two ends of the first driven roller and the fourth driven roller are respectively and rotatably connected to the feeding transport frame corresponding to the first driven roller and the second driven roller, and the first driven roller, the second driven roller, the feeding tension sensing roller, the third driven roller and the fourth driven roller are sequentially stacked on the feeding transport frame in an S shape and sequentially pass by the light and thin cloth of the feeding guide cylinders.

The feeding and conveying frame has the advantages that multiple groups of feeding and conveying frames, the first driven roller, the second driven roller, the feeding tension sensing roller and the third driven roller are designed, multiple light and thin fabrics can be leveled, and meanwhile, the feeding tension sensing roller is designed, so that the tension borne by the light and thin fabrics can be measured, and the light and thin fabrics are prevented from being pulled in a transition mode.

Further, the padding assembly comprises a padding groove body, a plurality of driven rollers V, a plurality of wire separating rollers and a plurality of driven rollers VI,

the padding tank body is positioned on one side of the feeding transport frame away from the feeding frame, and padding solution is contained in the padding tank body; a plurality of driven rollers are arranged above the padding solution at intervals, and two ends of the driven rollers are respectively and rotatably connected to two opposite inner side walls of the padding tank body; the filament separating rollers correspond to the lower parts of the driven rollers respectively, and two ends of the filament separating rollers are rotatably connected to two opposite inner side walls of the padding groove body; the six passive rollers are correspondingly arranged in the padding solution and are parallelly arranged between every two of the five passive rollers, and two ends of the six passive rollers are respectively and rotatably connected to the opposite inner side walls of the padding tank body; the light thin cloth penetrating through the driven rollers IV sequentially penetrates through the driven rollers V and the driven rollers VI in an S shape, and the light thin cloth between the driven rollers V and the driven rollers VI bypasses the corresponding filament dividing rollers and finally enters a drying assembly.

The adoption of the further beneficial effect is that a plurality of light and thin fabrics sequentially pass through the adjacent rolling roller IV and the driven roller V in an S shape, so that the light and thin fabrics can be immersed in the mangle to complete the infection work of the light and thin fabrics.

Further, the padding assembly further comprises a padder, the padder comprises a rolling mill base, a rolling mill driving roller and a rolling mill driven roller, and the rolling mill base is positioned on one side, away from the feeding transfer frame, of the padding groove body; the rolling mill driving roller and the rolling mill driven roller are arranged up and down correspondingly, and two ends of the rolling mill driving roller and two ends of the rolling mill driven roller are respectively and rotatably connected to the rolling mill base; and the light and thin cloth penetrating through the padding groove body penetrates through a space between the driving roller and the driven roller of the rolling mill.

The novel fabric rolling machine has the further beneficial effects that the light and thin fabric penetrates through the space between the padder driving roller and the padder driven roller and can continuously advance under the driving of the padder driving roller and the padder driven roller.

Further, the drying component comprises a drying box, a plurality of heating lamps and a transmission belt assembly, wherein the drying box is positioned on one side of the rolling mill base far away from the padding groove body, and a material inlet and a material outlet are respectively formed in two ends of the drying box close to the rolling mill base and far away from the rolling mill base; a plurality of heating lamps are arranged at the top of the drying box at intervals; the transmission belt assembly is rotatably arranged in the drying box, and the transmission direction of the transmission belt assembly is arranged along the direction from the material inlet of the drying box to the material outlet of the drying box; and the light and thin cloth materials penetrating out of the driving roller and the driven roller of the rolling mill fall onto the transmission belt assembly and move along the transmission direction of the transmission belt assembly.

The light and thin cloth drying machine has the further beneficial effects that a plurality of light and thin cloth materials fall on the conveyor belt assembly, and are sequentially irradiated by the plurality of heating lamps under the driving of the conveyor belt, so that the light and thin cloth materials can be continuously dried.

Furthermore, each winding assembly comprises a material receiving frame, a material receiving driving roller and a material receiving driven roller, and the material receiving frames are positioned on one side of the drying box, which is far away from the rolling mill base; the material receiving driving roller and the material receiving driven roller are arranged in parallel, and two ends of the material receiving driving roller and the two ends of the material receiving driven roller are respectively and rotatably connected to the material receiving frames corresponding to the material receiving driving roller and the material receiving driven rollers; the receiving guide cylinders are respectively connected between the receiving driving rollers and the receiving driven rollers on the receiving racks in a parallel rolling manner; and the light and thin cloth penetrating out of the drying box is wound on the material receiving guide cylinders respectively.

The material receiving guide cylinders are connected to the material receiving frames in a rolling mode, so that the light and thin cloth is prevented from being pulled in a transition mode when the material receiving guide cylinders roll to receive materials.

Further comprises a receiving and transferring assembly, wherein the receiving and transferring assembly comprises a receiving and transferring frame and a plurality of transferring roller groups, each transferring roller group comprises a driven roller seven, a receiving tension induction roller, a driven roller eight, a driven roller nine and a driven roller ten,

the material receiving transfer frame is arranged on the outer peripheral side of the material receiving frame; the driven roller seven, the material receiving tension roller responding roller and the driven roller seven are arranged at intervals up and down, and two ends of the driven roller seven are respectively connected to two opposite sides of the material receiving transport frame in a rotating manner; the driven rollers nine are respectively and rotatably connected to the collecting frames; the plurality of light and thin cloth penetrating out of the drying box sequentially passes through the driven rollers seven, the material receiving tension rolling rollers seven, the driven rollers seven and the driven rollers nine of the transfer roller groups in an S shape, and is wound on the plurality of material receiving guide cylinders respectively.

Further, the device also comprises a plurality of centering devices,

the centering devices respectively comprise a centering base, a centering motor, a spur rack and a centering sensor, and the centering bases are respectively correspondingly arranged below the feeding frames and the collecting frames and are respectively in sliding connection with the feeding frames and the collecting frames; the centering motors are respectively fixed on the top surfaces of the centering bases, and output shafts of the centering motors are in transmission connection with driving gears; the plurality of straight racks are respectively fixed on the bottom surfaces of the plurality of feeding frames and the plurality of material receiving frames along the length direction of the feeding guide cylinder or the material receiving guide cylinder and are respectively meshed with the plurality of driving gears; the plurality of centering sensors are respectively fixed at one end of the feeding frame or the material collecting frame close to the end face of the feeding guide cylinder or one end of the material collecting frame close to the end face of the material collecting roller and are electrically connected with the centering motor.

The material receiving rack has the further beneficial effects that the driving gear in transmission connection with the output shaft of the centering motor is meshed with the straight rack fixed at the bottom end of the feeding rack or the bottom end of the material receiving rack, and the centering motor can drive the feeding rack or the material receiving rack to move along the length direction of the feeding guide cylinder or the material receiving guide cylinder, so that the feeding driving roller and the feeding driven roller in the feeding rack can be aligned with the feeding guide cylinder, or the material receiving driving roller and the material receiving driven roller in the material receiving rack can be aligned with the material receiving guide cylinder.

Furthermore, the material receiving and centering device also comprises a plurality of pulleys and a plurality of slide rails, and the slide rails are fixed on the top surface of the centering base; the pulleys are respectively fixed on the bottom surfaces of the feeding frames and the receiving frames and are respectively connected to the sliding rails in a sliding mode.

Drawings

FIG. 1 is a schematic structural view of a continuous processing device for open width light and thin cloth of the present invention;

FIG. 2 is a schematic structural view of a feeding assembly and a feeding transfer assembly in the continuous processing device for open-width light and thin cloth of the present invention;

FIG. 3 is a schematic view of a padding assembly of the continuous processing device for open width light and thin cloth of the present invention;

FIG. 4 is a schematic structural view of a drying assembly in the continuous processing device for open-width light and thin cloth of the present invention;

FIG. 5 is a schematic structural view of a material collecting and transferring assembly of the continuous processing device for open width light and thin cloth of the present invention;

fig. 6 is a schematic structural view of a centering device in the continuous processing device for open-width light and thin cloth of the present invention.

In the drawings, the reference numbers indicate the following list of parts:

1. a feeding component 11, a feeding frame 12, a feeding driving roller 13 and a feeding driven roller,

2. the light and thin cloth is made of light and thin cloth,

3. a feeding guide cylinder is arranged on the feeding guide cylinder,

4. a padding component 41, a padding groove body 42, a driven roller five, 43, a wire separating roller 44, a driven roller six, 45, a rolling mill base 46, a rolling mill driving roller 47 and a rolling mill driven roller,

5. a drying component 51, a drying box 52, a heating lamp 53 and a conveyor belt assembly,

6. a material receiving guide cylinder,

7. a winding component 71, a material receiving frame 72, a material receiving driving roller 73 and a material receiving driven roller,

8. a feeding transfer component 81, a feeding transfer frame 82, a first driven roller 83, a second driven roller 84, a feeding tension induction roller 85, a third driven roller 86 and a fourth driven roller,

9. a material receiving and transferring assembly 91, a material receiving and transferring frame 92, driven rollers seven and 93, a material receiving tension sensing roller 94, driven rollers eight and 95, driven rollers nine and 96 and a driven roller ten,

10. the centering device comprises a centering base 101, a centering base 102, a centering motor 103, a spur rack 104, a centering sensor 105, a pulley 106 and a sliding rail.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

As shown in figure 1, the continuous processing device for the open-width light and thin cloth comprises a plurality of feeding components 1, a plurality of feeding guide cylinders 3 wound with the light and thin cloth 2, a padding component 4, a drying component 5, a plurality of receiving guide cylinders 6 and a plurality of winding components 7 which are sequentially arranged along the advancing direction of the light and thin cloth 2,

the feeding guide cylinders 3 are respectively connected to the feeding assemblies 1 in a rolling manner, and the wound light and thin cloth 2 sequentially bypasses the padding assembly 4 and the drying assembly 5 in an open-width manner and is respectively wound on the receiving guide cylinders 6; a plurality of receipts are received material guide cylinder 6 and are rolled connection respectively on a plurality of rolling components 7.

In some specific embodiments, each feeding assembly 1 may include a feeding frame 11, a feeding driving roller 12 and a feeding driven roller 13, wherein the feeding driving roller 12 and the feeding driven roller 13 are arranged in parallel at intervals, and two ends of the feeding driving roller 12 and the feeding driven roller 13 are respectively and rotatably connected to two opposite sides of the feeding frame 11; the feeding guide cylinder 3 is connected between the feeding driving roller 12 and the feeding driven roller 13 in a rolling way.

In some embodiments, a plurality of feeding and transferring assemblies 8 can be further included, each feeding and transferring assembly 8 comprises a feeding and transferring frame 81, a first driven roller 82, a second driven roller 83, a feeding tension sensing roller 84, a third driven roller 85 and a fourth driven roller 86,

the plurality of feeding transfer racks 81 are all positioned at one side of the feeding rack 11; the first driven roller 82, the second driven roller 83, the feeding tension sensing roller 84, the third driven roller 85 and the fourth driven roller 86 are arranged in parallel at intervals, two ends of the driven roller are respectively and rotatably connected to the corresponding feeding transport frames 81, and the light and thin cloth 2 respectively wound on the feeding guide rollers 3 sequentially bypasses the first driven roller 82, the second driven roller 83, the feeding tension sensing roller 84, the third driven roller 85 and the fourth driven roller 86 on the feeding transport frames 81 in an S shape and respectively enters the padding component 4 in a stacked mode.

In some embodiments, the padding assembly 4 may include a padding bath 41, a plurality of passive rollers five 42, a plurality of splitter rollers 43 and a plurality of passive rollers six 44,

the padding tank body 41 is positioned on one side of the feeding transfer frame 81 far away from the feeding frame 11, and padding solution is contained in the padding tank body 41; a plurality of driven rollers five 42 are arranged above the padding solution at intervals and two ends of the driven rollers five are respectively and rotatably connected to two opposite inner side walls of the padding groove body 41; the wire dividing rollers 43 respectively correspond to the lower parts of the driven rollers five 42, and two ends of the wire dividing rollers are rotatably connected to two opposite inner side walls of the padding groove body 41; the driven rollers six 44 are correspondingly arranged in the padding solution and are arranged between every two driven rollers five 42 in parallel, and two ends of the driven rollers six 44 are respectively and rotatably connected to the opposite inner side walls of the padding groove body 41; the light thin cloth 2 passing through the plurality of driven rollers four 86 sequentially passes through the plurality of adjacent driven rollers five 42 and six driven rollers 44 in an S shape, and the light thin cloth 2 between the corresponding driven rollers five 42 and six driven rollers 44 bypasses the corresponding yarn separating roller 43 and finally enters the drying assembly 5.

In some embodiments, the padding assembly 4 may further include a padder, the padder including a rolling mill base 45, a rolling mill active roller 46 and a rolling mill passive roller 47, the rolling mill base 45 being located on a side of the padding trough body 41 away from the feeding transport frame 81; the rolling mill driving roller 46 and the rolling mill driven roller 47 are arranged up and down correspondingly, and two ends of the rolling mill driving roller and two ends of the rolling mill driven roller are respectively and rotatably connected to the rolling mill base 45; the light and thin cloth 2 passing through the padding trough 41 passes through between the rolling mill driving roller 46 and the rolling mill driven roller 47.

In some embodiments, the drying assembly 5 includes a drying box 51, a plurality of heating lamps 52 and a belt assembly 53, the drying box 51 is located on one side of the rolling mill base 45 away from the padding bath body 41, and two ends of the drying box close to the rolling mill base 45 and far away from the rolling mill base 45 are respectively provided with a material inlet and a material outlet; a plurality of heating lamps 52 are installed at intervals at the inner top of the drying box 51; the transmission belt assembly 53 is rotatably installed in the drying box 51 and the transmission direction thereof is arranged along the direction from the material inlet of the drying box 51 to the material outlet thereof; the plurality of light and thin cloth materials 2 which pass out of the rolling mill driving roller 46 and the rolling mill driven roller 47 all fall onto the belt assembly 53 and move in the driving direction of the belt assembly 53.

In some embodiments, each rolling assembly 7 comprises a receiving rack 71, a receiving active roller 72 and a receiving passive roller 73, and a plurality of receiving racks 71 are located on one side of drying box 51 away from rolling mill base 45; the material receiving driving roller 72 and the material receiving driven roller 73 are arranged in parallel, and two ends of the material receiving driving roller and two ends of the material receiving driven roller are respectively and rotatably connected to the corresponding material receiving frames 71; the receiving guide cylinders 6 are respectively connected between the receiving driving rollers 72 and the receiving driven rollers 73 on the receiving frames 71 in a parallel rolling manner; the plurality of light and thin cloth materials 2 which pass out of the drying box 51 are respectively wound on the plurality of material receiving guide cylinders 6.

In some embodiments, the collecting and transferring assembly 9 is further included, the collecting and transferring assembly 9 includes a collecting and transferring frame 91 and a plurality of transferring roller sets, each transferring roller set includes a driven roller seven 92, a collecting tension induction roller 93, a driven roller eight 94, a driven roller nine 95 and a driven roller ten 96,

the material receiving transfer frame 91 is arranged on the outer peripheral side of the material receiving frame 71; the driven roller seven 92, the material receiving tension rolling roller and the driven roller seven are arranged at intervals up and down, and two ends of the driven roller seven are respectively and rotatably connected to two opposite sides of the material receiving transport frame 91; the driven rollers nine 95 are respectively and rotatably connected to the receiving frames 71; the plurality of light thin cloth 2 which penetrates out of the drying box 51 sequentially pass through a driven roller seven 92, a receiving tension roller seven, a driven roller seven and a driven roller nine 95 of the plurality of transfer roller groups in an S shape respectively and are wound on the plurality of receiving guide cylinders 6 respectively.

In some embodiments, a plurality of centering devices 10 are also included,

the centering devices 10 respectively comprise a centering base 101, a centering motor 102, a spur rack 103 and a centering sensor 104, and the centering bases 101 are respectively and correspondingly arranged below the feeding racks 11 and the collecting racks 71 and are respectively in sliding connection with the feeding racks 11 and the collecting racks 71; the centering motors 102 are respectively fixed on the top surfaces of the centering bases 101, and output shafts of the centering motors are in transmission connection with driving gears; the plurality of straight racks 103 are respectively fixed on the bottom surfaces of the plurality of feeding frames 11 and the plurality of material receiving frames 71 along the length direction of the feeding guide cylinder 3 or the material receiving guide cylinder 6 and are respectively meshed with the plurality of driving gears; the centering sensors 104 are respectively fixed at one end of the feeding frame 11 or the receiving frame 71 close to the end surface of the feeding guide cylinder 3 or one end of the receiving roller and are electrically connected with the centering motor 102.

In some embodiments, the material collecting and centering device 10 further includes a plurality of pulleys 105 and a plurality of sliding rails 106, and the plurality of sliding rails 106 are fixed on the top surface of the centering base 101; the pulleys 105 are fixed to the bottom surfaces of the plurality of feeding racks 11 and the plurality of collecting racks 71, and are slidably connected to the plurality of slide rails 106.

The above description is only for the preferred embodiment of the present invention, and should not be construed as limiting the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A continuous processing device for open-width light and thin cloth is characterized by comprising a plurality of feeding assemblies (1), a plurality of feeding guide cylinders (3) wound with the light and thin cloth (2), and a padding assembly (4), a drying assembly (5), a plurality of receiving guide cylinders (6) and a plurality of winding assemblies (7) which are sequentially arranged along the advancing direction of the light and thin cloth (2),

the feeding guide cylinders (3) are respectively connected to the feeding assemblies (1) in a rolling mode, and the wound light and thin cloth (2) sequentially bypasses the padding assembly (4) and the drying assembly (5) in an open-width mode and is respectively wound on the receiving guide cylinders (6); the plurality of material receiving guide cylinders (6) are respectively connected to the plurality of winding components (7) in a rolling manner.

2. The continuous processing device for the open-width light and thin cloth according to claim 1, wherein each feeding assembly (1) comprises a feeding frame (11), a feeding driving roller (12) and a feeding driven roller (13), the feeding driving roller (12) and the feeding driven roller (13) are arranged in parallel at intervals, and two ends of the feeding driving roller (12) and two ends of the feeding driven roller are respectively connected to two opposite sides of the feeding frame (11) in a rotating manner; the feeding guide cylinder (3) is connected between the feeding driving roller (12) and the feeding driven roller (13) in a rolling manner.

3. The continuous processing device for the open-width light and thin cloth material as claimed in claim 2, further comprising a plurality of feeding and transporting assemblies (8), wherein each feeding and transporting assembly (8) comprises a feeding and transporting frame (81), a first driven roller (82), a second driven roller (83), a feeding tension induction roller (84), a third driven roller (85) and a fourth driven roller (86),

the feeding transfer racks (81) are all positioned at one side of the feeding rack (11); the first driven roller (82), the second driven roller (83), the feeding tension sensing roller (84), the third driven roller (85) and the fourth driven roller (86) are arranged in parallel at intervals, two ends of the third driven roller are respectively and rotatably connected to the corresponding feeding transport frame (81), and the light and thin cloth (2) of the feeding guide cylinder (3) is wound on the feeding transport frame (81) in an S shape and sequentially bypasses the first driven roller (82), the second driven roller (83), the feeding tension sensing roller (84), the third driven roller (85) and the fourth driven roller (86) to enter the padding assembly (4) in a stacking mode.

4. The continuous processing device for the open-width light and thin cloth according to claim 3, wherein the padding assembly (4) comprises a padding trough body (41), a plurality of driven rollers five (42), a plurality of filament separating rollers (43) and a plurality of driven rollers six (44),

the padding groove body (41) is positioned on one side of the feeding transfer frame (81) far away from the feeding frame (11), and padding solution is contained in the padding groove body (41); a plurality of driven rollers five (42) are arranged above the padding solution at intervals, and two ends of the driven rollers five (42) are respectively and rotatably connected to two opposite inner side walls of the padding groove body (41); the plurality of the wire dividing rollers (43) correspond to the lower parts of the plurality of driven rollers (42) respectively, and two ends of the wire dividing rollers are rotatably connected to two opposite inner side walls of the padding groove body (41); the six passive rollers (44) are correspondingly arranged in the padding solution and are parallelly arranged between every two five passive rollers (42), and two ends of the six passive rollers (44) are respectively and rotatably connected to the opposite inner side walls of the padding groove body (41); the light thin cloth (2) penetrating through the driven rollers IV (86) sequentially penetrates through the driven rollers V (42) and the driven rollers VI (44) in an S shape, the light thin cloth (2) between the driven rollers V (42) and the driven rollers VI (44) correspondingly bypasses the corresponding filament separating rollers (43), and finally enters the drying assembly (5).

5. The continuous processing device for the open-width light and thin cloth according to claim 4, wherein the padding assembly (4) further comprises a padder, the padder comprises a rolling mill base (45), a rolling mill driving roller (46) and a rolling mill driven roller (47), and the rolling mill base (45) is positioned on one side of the padding trough body (41) far away from the feeding transport frame (81); the rolling mill driving roller (46) and the rolling mill driven roller (47) are arranged up and down correspondingly, and two ends of the rolling mill driving roller and two ends of the rolling mill driven roller are respectively and rotatably connected to the rolling mill base (45); the light thin cloth (2) penetrating through the padding trough body (41) penetrates between the rolling mill driving roller (46) and the rolling mill driven roller (47).

6. The continuous processing device for the open-width light and thin cloth material as claimed in claim 5, wherein the drying assembly (5) comprises a drying box (51), a plurality of heating lamps (52) and a transmission belt assembly (53), the drying box (51) is positioned on one side of the rolling mill base (45) far away from the padding trough body (41), and a material inlet and a material outlet are respectively formed in two ends of the drying box (51) close to the rolling mill base (45) and far away from the rolling mill base (45); a plurality of heating lamps (52) are arranged at intervals on the inner top of the drying box (51); the transmission belt assembly (53) is rotatably arranged in the drying box (51) and the transmission direction of the transmission belt assembly is arranged along the direction from the material inlet of the drying box (51) to the material outlet of the drying box; the light and thin cloth materials (2) which penetrate out of the rolling mill driving roller (46) and the rolling mill driven roller (47) all fall onto the transmission belt assembly (53) and move along the transmission direction of the transmission belt assembly (53).

7. The continuous processing device for open-width light and thin cloth according to claim 6, wherein each winding assembly (7) comprises a material receiving rack (71), a material receiving driving roller (72) and a material receiving driven roller (73), and a plurality of material receiving racks (71) are positioned on one side of the drying box (51) far away from the rolling mill base (45); the material receiving driving roller (72) and the material receiving driven roller (73) are arranged in parallel, and two ends of the material receiving driving roller and two ends of the material receiving driven roller are respectively and rotatably connected to the corresponding material receiving frames (71); the receiving guide barrels (6) are respectively connected between the receiving driving roller (72) and the receiving driven roller (73) on the receiving frames (71) in a parallel rolling manner; the light thin cloth materials (2) which penetrate out of the drying box (51) are respectively wound on the material receiving guide cylinders (6).

8. The continuous processing device for the open-width light and thin cloth according to claim 7, further comprising a material receiving and transferring assembly (9), wherein the material receiving and transferring assembly (9) comprises a material receiving and transferring frame (91) and a plurality of transferring roller sets, each transferring roller set comprises a driven roller seven (92), a material receiving tension sensing roller (93), a driven roller eight (94), a driven roller nine (95) and a driven roller ten (96),

the receiving transfer frame (91) is arranged on the outer periphery side of the receiving frame (71); the driven roller seven (92), the material receiving tension rolling roller and the driven roller seven are arranged at intervals up and down, and two ends of the driven roller seven are respectively and rotatably connected to two opposite sides of the material receiving transfer frame (91); the driven rollers nine (95) are respectively and rotatably connected to the collecting frames (71); the plurality of light and thin cloth (2) penetrating out of the drying box (51) sequentially pass through the driven rollers seven (92), the material receiving tension rolling rollers seven, the driven rollers seven and the driven rollers nine (95) of the transfer roller groups in an S shape respectively and are wound on the plurality of material receiving guide cylinders (6) respectively.

9. The continuous processing device for open width light and thin cloth according to claim 8, characterized by further comprising a plurality of centering devices (10),

the centering devices (10) respectively comprise a centering base (101), a centering motor (102), a spur rack (103) and a centering sensor (104), and the centering bases (101) are respectively correspondingly arranged below the feeding racks (11) and the material receiving racks (71) and are respectively connected with the feeding racks (11) and the material receiving racks (71) in a sliding manner; the centering motors (102) are respectively fixed on the top surfaces of the centering bases (101), and output shafts of the centering motors are in transmission connection with driving gears; the plurality of straight racks (103) are respectively fixed on the bottom surfaces of the plurality of feeding frames (11) and the plurality of material receiving frames (71) along the length direction of the feeding guide cylinder (3) or the material receiving guide cylinder (6) and are respectively meshed with the plurality of driving gears; the centering sensors (104) are respectively fixed at one end of the feeding frame (11) or the material receiving frame (71) close to the end face of the feeding guide cylinder (3) or one end of the material receiving frame (71) close to the end face of the material receiving roller and are electrically connected with the centering motor (102).

10. The continuous processing device for the open-width light and thin cloth according to claim 9, wherein the material collecting and centering device (10) further comprises a plurality of pulleys (105) and a plurality of slide rails (106), and the plurality of slide rails (106) are fixed on the top surface of the centering base (101); the pulleys (105) are respectively fixed on the bottom surfaces of the feeding frames (11) and the collecting frames (71) and are respectively connected to the slide rails (106) in a sliding manner.

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