CN112030512A

CN112030512A - Integrated processing device for textile fabric

Info

Publication number: CN112030512A
Application number: CN202010983511.5A
Authority: CN
Inventors: 张毅; 宋娟
Original assignee: Anhui Hanlian Colour Spin Co ltd
Current assignee: Anhui Hanlian Colour Spin Co ltd
Priority date: 2020-09-18
Filing date: 2020-09-18
Publication date: 2020-12-04

Abstract

The invention discloses an integrated treatment device for textile fabrics, which comprises a conveying assembly, wherein a brushing assembly, an electrostatic elimination assembly and a dust removal assembly distributed in a mirror image mode are arranged on the conveying assembly, the brushing assembly comprises a hairbrush long belt, a hairbrush short belt is arranged above the hairbrush long belt, the electrostatic elimination assembly comprises an ion fan, the dust removal assembly comprises a dust collection mounting plate, and a dust collection box and a spray box are arranged on the dust collection mounting plate. The integrated treatment device for the textile fabric is reliable in structure, practical in function and high in integration degree, the long hairbrush line belt and the short hairbrush line belt are matched to treat the brush lines, the upper and lower matched treatment effects are good, the residual cotton fibers can be effectively removed, the ion fan can effectively eliminate static electricity on the textile fabric, the spraying box performs air injection treatment on the textile fabric, the dust absorption box absorbs dust of the fabric subjected to air injection treatment, the dust absorption effect is improved, and the number of devices is reduced.

Description

Integrated processing device for textile fabric

Technical Field

The invention relates to the field of spinning, in particular to a textile fabric integrated processing device.

Background

The textile origin is a general name taken from spinning and weaving, but with the continuous development and perfection of a textile knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, the textile is not only produced by traditional hand spinning and weaving, but also produced by non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-web forming technology and the like, and is used for clothing, industry and decoration. Modern spinning therefore refers to a technique for the multi-scale structural processing of fibers or fiber assemblies. The existing integrated processing device for the textile fabric is required to be used for processing the fabric after the production of the existing textile fabric is finished, so that the residual batting, static electricity, dust and the like in the fabric are removed, the existing equipment cannot synchronously process the fabric, the equipment is required to be large in quantity and low in efficiency, and the integrated processing device for the textile fabric is provided for the situation.

Disclosure of Invention

The invention aims to provide an integrated treatment device for textile fabrics, which solves the problems that the existing textile fabrics need to be treated after production is finished, residual floc, static electricity, dust and the like in the fabrics are removed, the existing equipment cannot synchronously realize fabric treatment, the required quantity of the equipment is large, and the efficiency is low.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a textile fabric integration processing apparatus, textile fabric integration processing apparatus includes conveyor assembly, the last dust removal component that is equipped with brush material subassembly, static elimination subassembly and mirror image distribution of conveyor assembly, brush material subassembly includes brush line length belt, and brush line length belt top is equipped with brush line short belt, and static elimination subassembly includes the ion fan, and the dust removal subassembly includes the dust absorption mounting panel, is equipped with suction box and spray box on the dust absorption mounting panel.

Further, conveying component includes first support, first support has the stabilizer blade of array distribution, be equipped with the first bracing piece of array distribution on the first support, first bracing piece both ends all are equipped with first installation piece, be equipped with the first pivot of array distribution between the first installation piece, the first pivot one end of one side wherein is equipped with first gear, one of them first bracing piece one side is equipped with first mounting panel, the fastener passes the second installation piece of array distribution who is equipped with on the first mounting panel and fixes in first bracing piece side, be equipped with first motor on the first mounting panel, first motor one end is equipped with the second gear, first gear has first chain with the second gear community together, first motor drives the first pivot of one side and rotates, be equipped with the receipts material book on the first pivot of powered, be equipped with on the first pivot of unpowered and go into.

Furthermore, the brushing component comprises second support rods distributed in an array, the second support rods distributed in the array are fixedly connected through first connecting rods distributed in the array, one ends of the second support rods are respectively provided with a third installation block, the other ends of the second support rods are provided with an eighth installation block, a first roller is arranged between the third installation blocks and between the eighth installation blocks, the first rollers are jointly provided with a hairbrush line long belt, a first mandrel is arranged in the first roller, the first mandrel is arranged on the third installation block and the eighth installation block, one end of the first mandrel is provided with a first roller, one side of each second support rod is provided with a second installation plate, the second installation plates are respectively provided with first installation holes, first grooves and second installation holes distributed in the array, fasteners pass through the first installation holes and are fixed on the second support rods, the fasteners pass through the second installation holes and are fixed on the first support rods, the two sides of the long belt of the hairbrush are provided with first baffle plates distributed in a mirror image mode, the first baffle plates are provided with second slots distributed in an array mode, and the fasteners penetrate through the second slots to fix the first baffle plates on the first connecting rods.

Further, still be equipped with the third bracing piece of array distribution between the second mounting panel, second connecting rod fixed connection through array distribution between the third bracing piece of array distribution, third bracing piece one end all is equipped with fourth installation piece, the third bracing piece other end all is equipped with fifth installation piece, all be equipped with the second cylinder between the fourth installation piece and between the fifth installation piece, be equipped with the second dabber in the second cylinder, second dabber one end is equipped with the second gyro wheel, be equipped with the short belt of brush line jointly on the second cylinder, the short belt both sides of brush line are equipped with the second baffle of mirror image distribution, be equipped with the third fluting of array distribution on the second baffle, the fastener passes the third fluting and fixes the second baffle on the second connecting rod.

Further, first bracing piece one side all is equipped with the third mounting panel, is equipped with array distribution's third mounting hole on the third mounting panel, and the fastener passes the third mounting hole to be fixed on first bracing piece, all is equipped with the second motor on the third mounting panel, and second motor one end is equipped with the third gyro wheel, is equipped with first hold-in range jointly on the first gyro wheel of one side and the third gyro wheel, has the second hold-in range jointly on the second gyro wheel of one side and the third gyro wheel, and the second motor drives brush line long belt and brush line short belt and rotates the brush line.

Further, the static elimination subassembly includes first backup pad, is equipped with the fourth mounting hole of array distribution in the first backup pad, and first backup pad below is equipped with the first fixed plate of array distribution, is equipped with spliced pole and the fifth mounting hole of array distribution on the first fixed plate, and the fastener passes the fourth mounting hole to fix the spliced pole in first backup pad below, and the fastener passes the fifth mounting hole to fix first fixed plate on first bracing piece, is equipped with the ion fan in the first backup pad.

Furthermore, the dust removing component comprises fourth supporting rods distributed in an array, wherein one end of each fourth supporting rod is provided with a sixth mounting block, the other end of each fourth supporting rod is provided with a seventh mounting block, the fourth supporting rods are fixedly connected through third connecting rods distributed in an array, third rollers are arranged between the sixth mounting blocks and between the seventh mounting blocks, one side of each third roller is provided with a fifth roller, one side of each group of fourth supporting rods is provided with a fourth mounting plate, the fourth mounting plate is provided with a third motor, one end of each third motor is provided with a sixth roller, the fifth rollers and the sixth rollers are jointly provided with a third synchronous belt, a supporting frame distributed in a mirror image array is arranged under each fourth supporting rod, the fourth rollers are arranged between the supporting frames, the third rollers and the fourth rollers are jointly provided with first press belts and second press belts distributed in a mirror image array, and adjusting rods distributed in a mirror image array are further arranged on the fourth supporting rods, adjust the pole lower extreme and be equipped with first connecting block, first connecting block is fixed on first bracing piece, is equipped with the second connecting block on adjusting the pole, and the second connecting block is fixed on the fourth bracing piece, rotates to adjust the pole and can adjust dust removal subassembly and first bracing piece height

Further, a dust collection mounting plate is arranged below the fourth supporting rod, a fourth groove and a fifth groove which are distributed in an array mode are formed in the dust collection mounting plate, sixth mounting holes which are distributed in the array mode are formed in the periphery of the fourth groove, seventh mounting holes which are distributed in the array mode are formed in the periphery of the fifth groove, fixed side plates which are distributed in the array mode are arranged on the two sides of the dust collection mounting plate, a fastener penetrates through eighth mounting holes which are distributed in the array mode and are formed in the fixed side plates to be fixed to the side face of the dust collection mounting plate, fixed blocks are arranged on the fixed side plates and are fixed to the side face of the first supporting rod, a dust collection box and a spray box which are distributed in the array mode are further arranged on the dust collection mounting plate, a ninth mounting hole which is distributed in the array mode is formed in the dust collection box, an air suction hole.

The invention has the beneficial effects that:

1. the invention has reliable structure, practical function and high integration degree, the long hairbrush line belt and the short hairbrush line belt are matched to process the hairbrush line, the upper and lower matching processing effect is good, and the residual cotton can be effectively removed;

2. the invention is provided with the ion fan, which can effectively eliminate static electricity on the textile fabric, the spraying box carries out air injection treatment on the textile fabric, and the dust collection box collects dust on the fabric after the air injection treatment, thereby improving the dust collection effect and reducing the number of devices.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of an integrated textile fabric processing device of the present invention;

FIG. 2 is a schematic structural view of a part of the integrated textile fabric processing device of the invention;

FIG. 3 is a schematic structural view of a part of the integrated textile fabric processing device of the invention;

FIG. 4 is a schematic view of a partial explosion structure of the integrated textile fabric processing apparatus of the present invention;

FIG. 5 is a schematic structural view of a part of the integrated textile fabric processing device of the invention;

FIG. 6 is a schematic structural view of a part of the integrated textile fabric processing device of the invention;

FIG. 7 is a schematic structural view of a part of the integrated textile fabric processing device of the invention;

fig. 8 is a schematic diagram of a part of an explosion structure of the integrated processing device for textile fabrics.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

The utility model provides a textile fabric integration processing apparatus, textile fabric integration processing apparatus includes conveyor assembly 1, as shown in fig. 1, fig. 2, fig. 3, fig. 6, conveyor assembly 1 is last to be equipped with brush material subassembly 2, the dust removal subassembly 4 of static elimination subassembly 3 and mirror image distribution, brush material subassembly 2 includes brush line long belt 24, brush line short belt 28 is equipped with above brush line long belt 24, static elimination subassembly 3 includes ion fan 34, dust removal subassembly 4 includes dust absorption mounting panel 47, be equipped with dust suction box 49 and spray box 493 on the dust absorption mounting panel 47.

The conveying component 1 comprises a first bracket 11, as shown in fig. 2, support legs 12 distributed in an array are arranged below the first bracket 11, first support rods 13 distributed in an array are arranged on the first bracket 11, first mounting blocks 14 are arranged at two ends of each first support rod 13, first rotating shafts 15 distributed in an array are arranged between the first mounting blocks 14, a first gear 16 is arranged at one end of each first rotating shaft 15 on one side, a first mounting plate 17 is arranged at one side of one first support rod 13, a fastener penetrates through second mounting blocks 171 distributed in an array and arranged on the first mounting plate 17 and fixed on the side surface of the first support rod 13, a first motor 18 is arranged on the first mounting plate 17, a second gear 181 is arranged at one end of the first motor 18, a first chain 182 is shared by the first gear 16 and the second gear 181, the first motor 18 drives the first rotating shaft 15 on one side to rotate, a material collecting roll is arranged on the powered first rotating shaft 15, the first unpowered rotating shaft 15 is provided with a material feeding roll.

The brushing assembly 2 comprises second support rods 21 distributed in an array, as shown in fig. 3 and 4, the second support rods 21 distributed in an array are fixedly connected through first connecting rods 211 distributed in an array, one end of each second support rod 21 is provided with a third mounting block 212, the other end of each second support rod 21 is provided with an eighth mounting block 313, first rollers 22 are arranged between the third mounting blocks 212 and between the eighth mounting blocks 313, the first rollers 22 are provided with a hairbrush line long belt 24, the first rollers 22 are internally provided with first mandrels 221, the first mandrels 221 are mounted on the third mounting blocks 212 and the eighth mounting blocks 313, one end of each first mandrel 221 is provided with a first roller 222, one side of each second support rod 21 is provided with a second mounting plate 23, the second mounting plate 23 is provided with first mounting holes 231, first slots 232 and second mounting holes 233 distributed in an array, fasteners pass through the first mounting holes 231 and are fixed on the second support rods 21, the fastener passes through the second mounting hole 233 to be fixed on the first support rod 13, the first baffle plates 25 distributed in a mirror image manner are arranged on two sides of the hairbrush line-shaped long belt 24, the first baffle plates 25 are provided with second slots 251 distributed in an array manner, and the fastener passes through the second slots 251 to fix the first baffle plates 25 on the first connecting rod 211;

third support rods 26 distributed in an array are further arranged between the second mounting plates 23, the third support rods 26 distributed in an array are fixedly connected through second connecting rods 261 distributed in an array, a fourth mounting block 262 is arranged at one end of each third support rod 26, a fifth mounting block 263 is arranged at the other end of each third support rod 26, second rollers 27 are arranged between the fourth mounting blocks 262 and between the fifth mounting blocks 263, second mandrels 271 are arranged in the second rollers 27, second rollers 272 are arranged at one ends of the second mandrels 271, short hairbrush line belts 28 are arranged on the second rollers 27, second baffle plates 29 distributed in a mirror image mode are arranged on two sides of each short hairbrush line belt 28, third grooves 291 distributed in an array are formed in the second baffle plates 29, and fasteners penetrate through the third grooves 291 to fix the second baffle plates 29 on the second connecting rods 261;

the third mounting plate 223 is arranged on one side of the first support rod 13, third mounting holes 2231 distributed in an array are formed in the third mounting plate 223, fasteners penetrate through the third mounting holes 2231 and are fixed on the first support rod 13, the second motor 224 is arranged on the third mounting plate 223, one end of the second motor 224 is provided with a third roller 2241, the first roller 222 and the third roller 2241 on one side are provided with a first synchronous belt 225, the second roller 272 and the third roller 2241 on one side are provided with a second synchronous belt 226, and the second motor 224 drives the brush line long belt 24 and the brush line short belt 28 to rotate to brush lines.

The static elimination component 3 comprises a first supporting plate 31, as shown in fig. 5, fourth mounting holes 32 distributed in an array are formed in the first supporting plate 31, a first fixing plate 33 distributed in an array is arranged below the first supporting plate 31, connecting columns 331 and fifth mounting holes 332 distributed in an array are formed in the first fixing plate 33, fasteners penetrate through the fourth mounting holes 32 to fix the connecting columns 331 below the first supporting plate 31, the fasteners penetrate through the fifth mounting holes 332 to fix the first fixing plate 33 on the first supporting rod 13, and ion fans 34 are arranged on the first supporting plate 31.

The dust removing assembly 4 comprises fourth supporting rods 41 distributed in an array, as shown in fig. 6, 7 and 8, one end of each fourth supporting rod 41 is provided with a sixth mounting block 411, the other end of each fourth supporting rod 41 is provided with a seventh mounting block 412, the fourth supporting rods 41 are fixedly connected through third connecting rods 42 distributed in an array, a third roller 43 is arranged between the sixth mounting blocks 411 and the seventh mounting blocks 412, one side of the third roller 43 is provided with a fifth roller 431, one side of a group of the fourth supporting rods 41 is provided with a fourth mounting plate 413, the fourth mounting plate 413 is provided with a third motor 414, one end of the third motor 414 is provided with a sixth roller 415, the fifth roller 431 and the sixth roller 415 are provided with a third synchronous belt 416 together, a supporting frame 44 distributed in a mirror array is arranged below the fourth supporting rod 41, a fourth roller 45 is arranged between the supporting frames 44, the third roller 43 and the fourth roller 45 are provided with a first press belt 451 and a second press belt 452 distributed in a mirror distribution together, the fourth supporting rod 41 is further provided with adjusting rods 46 distributed in a mirror image array, a first connecting block 461 is arranged at the lower end of each adjusting rod 46, the first connecting block 461 is fixed on the first supporting rod 13, a second connecting block 462 is arranged on each adjusting rod 46, the second connecting block 462 is fixed on the fourth supporting rod 41, and the heights of the dust removing assembly 4 and the first supporting rod 13 can be adjusted by rotating the adjusting rods 46;

a dust collection mounting plate 47 is arranged below the fourth supporting rod 41, fourth slots 471 and fifth slots 472 which are distributed in an array are arranged on the dust collection mounting plate 47, sixth mounting holes 473 which are distributed in an array are arranged on the periphery of the fourth slot 471, seventh mounting holes 474 which are distributed in an array are arranged on the periphery of the fifth slot 472, fixed side plates 48 which are distributed in an array are arranged on both sides of the dust collection mounting plate 47, fasteners penetrate through eighth mounting holes 481 which are distributed in an array and are arranged on the fixed side plates 48 and are fixed on the side surface of the dust collection mounting plate 47, fixed blocks 482 are arranged on the fixed side plates 48 and are fixed on the side surface of the first supporting rod 13, dust collection boxes 49 and spray boxes 493 which are distributed in an array are also arranged on the dust collection mounting plate 47, ninth mounting holes 491 which are distributed in an array are arranged on the dust collection boxes 49, an air suction hole 492 is arranged at one end of the dust collection boxes 49, tenth, an air inlet 496 is provided at one end of the spray box 493.

During the use, first motor 18 drives first pivot 15 and rotates, and textile fabric passes between brush line long belt 24 and the short belt 28 of brush line, and brush line long belt 24 and the short belt 28 of brush line remove the incomplete wadding to textile fabric, and then the surface fabric passes from under ion fan 34, and ion fan 34 carries out the static elimination to the surface fabric, then gets into between the dust removal component 4 that the mirror image distributes, and dust collection box 49 and spray box 493 carry out dust removal processing to the surface fabric.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. The utility model provides a textile fabric integration processing apparatus, textile fabric integration processing apparatus includes conveyor assembly (1), a serial communication port, be equipped with brush material subassembly (2), electrostatic elimination subassembly (3) and dust removal subassembly (4) that the mirror image distributes on conveyor assembly (1), brush material subassembly (2) are including brush line long belt (24), brush line short belt (28) are equipped with to brush line long belt (24) top, electrostatic elimination subassembly (3) are including ion fan (34), dust removal subassembly (4) are including dust absorption mounting panel (47), be equipped with on dust absorption mounting panel (47) suction box (49) and spray box (493).

2. The integrated processing device of the textile fabric according to claim 1, wherein the conveying assembly (1) comprises a first support (11), support legs (12) distributed in an array are arranged below the first support (11), first support rods (13) distributed in an array are arranged on the first support (11), first mounting blocks (14) are arranged at two ends of each first support rod (13), first rotating shafts (15) distributed in an array are arranged between the first mounting blocks (14), a first gear (16) is arranged at one end of each first rotating shaft (15) at one side, a first mounting plate (17) is arranged at one side of one first support rod (13), fasteners penetrate through second mounting blocks (171) distributed in an array and arranged on the first mounting plate (17) and are fixed on the side surface of the first support rod (13), a first motor (18) is arranged on the first mounting plate (17), a second gear (181) is arranged at one end of the first motor (18), the first gear (16) and the second gear (181) jointly have a first chain (182), the first motor (18) drives the first rotating shaft (15) on one side to rotate, the powered first rotating shaft (15) is provided with a material receiving roll, and the unpowered first rotating shaft (15) is provided with a material feeding roll.

3. The integrated processing device for the textile fabrics as claimed in claim 1, wherein the brushing assembly (2) comprises second support rods (21) distributed in an array, the second support rods (21) distributed in the array are fixedly connected through first connecting rods (211) distributed in the array, one ends of the second support rods (21) are respectively provided with a third mounting block (212), the other end of the second support rods (21) is provided with an eighth mounting block (313), first rollers (22) are respectively arranged between the third mounting blocks (212) and between the eighth mounting blocks (313), the first rollers (22) are respectively provided with a hairbrush wire long belt (24), a first mandrel (221) is arranged in the first roller (22), the first mandrel (221) is arranged on the third mounting block (212) and the eighth mounting block (313), one end of the first mandrel (221) is provided with a first roller (222), second bracing piece (21) one side all is equipped with second mounting panel (23), all be equipped with first mounting hole (231) that the array distributes on second mounting panel (23), first fluting (232) and second mounting hole (233), the fastener passes first mounting hole (231) and fixes on second bracing piece (21), the fastener passes second mounting hole (233) and fixes on first bracing piece (13), brush line length belt (24) both sides are equipped with first baffle (25) that the mirror image distributes, be equipped with second fluting (251) that the array distributes on first baffle (25), the fastener passes second fluting (251) and fixes first baffle (25) on head rod (211).

4. The integrated treatment device for the textile fabrics as claimed in claim 3, wherein third support rods (26) distributed in an array are further arranged between the second mounting plates (23), the third support rods (26) distributed in an array are fixedly connected through second connecting rods (261) distributed in an array, one end of each third support rod (26) is provided with a fourth mounting block (262), the other end of each third support rod (26) is provided with a fifth mounting block (263), a second roller (27) is arranged between each fourth mounting block (262) and each fifth mounting block (263), a second mandrel (271) is arranged in each second roller (27), one end of each second mandrel (271) is provided with a second roller (272), each second roller (27) is provided with a short brush wire belt (28), the two sides of each short brush wire belt (28) are provided with second baffles (29) distributed in a mirror image manner, third slots (291) distributed in an array are formed in the second baffle plate (29), and fasteners penetrate through the third slots (291) to fix the second baffle plate (29) on the second connecting rod (261).

5. A textile fabric integrated processing device according to claim 2, wherein a third mounting plate (223) is arranged on one side of each first supporting rod (13), third mounting holes (2231) distributed in an array are formed in the third mounting plate (223), a fastener penetrates through the third mounting holes (2231) and is fixed on the first supporting rod (13), a second motor (224) is arranged on each third mounting plate (223), a third roller (2241) is arranged at one end of each second motor (224), a first synchronous belt (225) is arranged on each first roller (222) and each third roller (2241), a second synchronous belt (226) is arranged on each second roller (272) and each third roller (2241), and the second motor (224) drives a long hairbrush line belt (24) and a short hairline belt (28) to rotate and brush lines.

6. An integrated treatment device for textile fabrics according to claim 1, characterized in that the static elimination component (3) comprises a first support plate (31), fourth mounting holes (32) are arranged on the first support plate (31) in an array distribution, a first fixing plate (33) is arranged below the first support plate (31) in an array distribution, connecting columns (331) and fifth mounting holes (332) are arranged on the first fixing plate (33) in an array distribution, a fastener penetrates through the fourth mounting holes (32) to fix the connecting columns (331) below the first support plate (31), the fastener penetrates through the fifth mounting holes (332) to fix the first fixing plate (33) on the first support rods (13), and an ion blower (34) is arranged on the first support plate (31).

7. The integrated treatment device for the textile fabrics according to claim 1, wherein the dust removal component (4) comprises fourth support rods (41) distributed in an array, one end of each fourth support rod (41) is provided with a sixth installation block (411), the other end of each fourth support rod (41) is provided with a seventh installation block (412), the fourth support rods (41) are fixedly connected through third connecting rods (42) distributed in an array, a third roller (43) is arranged between the sixth installation blocks (411) and between the seventh installation blocks (412), one side of each third roller (43) is provided with a fifth roller (431), one side of one group of fourth support rods (41) is provided with a fourth installation plate (413), the fourth installation plate (413) is provided with a third motor (414), one end of the third motor (414) is provided with a sixth roller (415), the fifth rollers (431) and the sixth rollers (415) are provided with a third synchronous belt (416), fourth bracing piece (41) have support frame (44) that the mirror image array distributes, all be equipped with fourth cylinder (45) between support frame (44), be equipped with first press area (451) and second press area (452) that the mirror image distributes on third cylinder (43) and fourth cylinder (45) jointly, fourth bracing piece (41) still are equipped with regulation pole (46) that the mirror image array distributes, it is equipped with first connecting block (461) to adjust pole (46) lower extreme, first connecting block (461) are fixed on first bracing piece (13), be equipped with second connecting block (462) on adjusting pole (46), second connecting block (462) are fixed on fourth bracing piece (41), it can adjust dust removal subassembly (4) and first bracing piece (13) height to rotate regulation pole (46).

8. The integrated processing device of the textile fabric according to claim 7, wherein a dust collection mounting plate (47) is arranged below the fourth supporting rod (41), fourth slots (471) and fifth slots (472) are arranged on the dust collection mounting plate (47) in an array distribution manner, sixth mounting holes (473) are arranged around the fourth slots (471) in an array distribution manner, seventh mounting holes (474) are arranged around the fifth slots (472) in an array distribution manner, fixed side plates (48) are arranged on both sides of the dust collection mounting plate (47) in an array distribution manner, fasteners penetrate through eighth mounting holes (481) arranged on the fixed side plates (48) in an array distribution manner and are fixed on the side surface of the dust collection mounting plate (47), fixed blocks (482) are arranged on the fixed side plates (48), the fixed blocks (482) are fixed on the side surface of the first supporting rod (13), dust collection boxes (49) and spraying boxes (493) are further arranged on the dust collection mounting plate (47) in an array distribution manner, be equipped with ninth mounting hole (491) of array distribution on suction box (49), suction box (49) one end is equipped with aspirating hole (492), is equipped with tenth mounting hole (494) of array distribution on spray box (493), and spray box (493) have spout groove (495), and spray box (493) one end is equipped with inlet port (496).