CN114517366B - Fabric treatment process and processing device for clothing processing - Google Patents

Abstract

The invention discloses a fabric treatment process and a fabric treatment device for clothing processing, which have the beneficial effects that the fabric is tensioned and transported stably by adjusting the matching of a limiting structure and a transport structure, so that the glue on the fabric is cleaned, the coupling agent is soaked on the fabric, the fabric is soaked by a stirring structure, and the fabric is soaked quickly by changing the temperature.

Description

Fabric treatment process and processing device for clothing processing

Technical Field

The invention relates to the technical field of fabric treatment, in particular to a fabric treatment process for clothing processing and a processing device.

Background

The garment is made of the fabric, the fabric is used for making the garment, and as one of three factors of the garment, the fabric can not only explain the style and the characteristics of the garment, but also directly look at the colors and the modeling of the garment, the appearance effect of the garment is noble and perfect, the hand feeling is soft, and in the world of the garment, the fabric of the garment is confetti and all-round, but in general, the high-quality and high-grade fabric has the characteristics of comfort in wearing, sweat absorption and ventilation, draping and stiff, noble vision, soft touch and the like. Along with the pursuit of people to fashion becoming higher, people are to the color and luster demand of surface fabric becoming higher and higher, not only need the surface fabric to dye back bright-colored, and the surface fabric after dyeing needs to have fine washing fastness moreover, current equipment all carries out separately processing with the surface fabric, and a large amount of materials are carried easily, extravagant manpower and material resources, in view of this, to above-mentioned problem intensive study, has had the proposal to produce.

Disclosure of Invention

The technical scheme of the invention for achieving the purpose is as follows: a fabric processing device for clothing processing, comprising: the device comprises a desizing concave table and an auxiliary support, wherein the auxiliary support is arranged on the desizing concave table, the auxiliary support and the desizing concave table are provided with adjusting and limiting structures, and the desizing concave table is arranged on a repeated cleaning structure, a stirring temperature control structure and a transportation structure;

the adjusting and limiting structure comprises: the device comprises a plurality of conveying rollers, a plurality of conveying chain wheels, a conveying driver, a conveying chain, a plurality of daily-type adjusting lifting blocks, a plurality of adjusting threaded pipes, a plurality of adjusting threaded rods, a plurality of adjusting chain wheels, a plurality of adjusting chains, a plurality of adjusting driver, a plurality of adjusting spring columns, a plurality of adjusting bearing blocks and a plurality of adjusting extrusion rollers;

the conveying roller is uniformly inserted into the desizing concave table and the repeated cleaning structure through a bearing, the conveying driver is installed on the desizing concave table, the conveying chain wheels are respectively installed on the conveying roller and the driving end of the conveying driver, the auxiliary bracket is provided with a plurality of lifting ports, the daily adjusting lifting blocks are respectively movably inserted into the inner sides of the lifting ports, the daily adjusting threaded pipes are respectively inserted into the auxiliary bracket through the bearing, the adjusting threaded rods are respectively movably inserted into the inner sides of the daily adjusting threaded pipes, the adjusting threaded rods are respectively connected onto the daily adjusting lifting blocks through bearings, the adjusting chain wheels are respectively installed on the auxiliary bracket, the adjusting chain wheels are respectively installed on the driving ends of the daily adjusting threaded pipes and the daily adjusting driver, the daily adjusting chain wheels are respectively movably inserted into the daily adjusting spring blocks, and the daily adjusting chain wheels are respectively installed on the inner sides of the daily adjusting column.

Preferably, the repeated washing structure comprises: a plurality of concave inner boxes, a plurality of high-temperature coil pipes, a plurality of coolers, a plurality of heat dissipation boxes and a plurality of heat radiators;

the concave inner boxes are evenly arranged on the inner sides of the desizing concave tables, the conveying rollers are inserted on the concave inner boxes through bearings respectively, the high-temperature coiled pipes and the coolers are arranged on the inner sides of the concave inner boxes in a staggered mode respectively, the radiators are arranged on the outer sides of the desizing concave tables respectively, the radiators are connected to the heat dissipation boxes respectively, and the radiators are arranged on the heat dissipation boxes respectively.

Preferably, the stirring structure comprises: a plurality of stirring driving machines, a plurality of stirring driving shafts, a plurality of stirring shafts, a plurality of conducting discs, a plurality of stirring rotating sheets and a plurality of conducting magnet blocks;

the stirring driving shafts are respectively inserted on the central lines of the concave inner boxes through bearings, the stirring shafts are respectively and evenly inserted on the concave inner boxes through bearings, the stirring driving machines are respectively installed on the concave inner boxes, the stirring driving machines are respectively connected on the stirring driving shafts, the conducting discs are respectively installed on the stirring shafts and the stirring driving shafts, the conducting discs are respectively staggered, the conducting magnet blocks are respectively installed on the conducting discs, and the stirring rotating pieces are respectively installed on the stirring driving shafts and the conducting discs.

Preferably, the transport structure comprises: two pairs of transportation screw modules, two pairs of concave extrusion transportation blocks, four pairs of lifting concave blocks, four pairs of lifting convex blocks, a hydraulic box, a liquid pump, a split valve pipe, four pairs of drainage pipes and two pairs of lifting extrusion rods;

the two pairs of the conveying screw modules are arranged on the auxiliary support, the two pairs of the concave extrusion conveying blocks are respectively arranged on the moving ends of the two pairs of the conveying screw modules, the four pairs of the lifting concave blocks are respectively arranged on the inner sides of the concave extrusion conveying blocks, the four pairs of the lifting convex blocks are respectively movably inserted on the four pairs of the lifting concave blocks, the two pairs of the lifting extrusion rods are respectively arranged on the four pairs of the lifting convex blocks, the hydraulic tank is arranged on the desizing concave table, the liquid pump is arranged on the hydraulic tank, the flow distribution valve pipe is arranged on the liquid pump, the four pairs of the drainage pipes are arranged on the flow distribution valve pipe, and the four pairs of the drainage pipes are respectively connected on the four pairs of the lifting concave blocks.

Preferably, a plurality of fabric tightness sensors are respectively arranged on the concave inner boxes.

Preferably, the inner sides of the daily-type adjusting lifting blocks and the inner sides of the lifting openings are respectively provided with lifting slide ways, the outer sides of the daily-type adjusting lifting blocks and the adjusting bearing blocks are respectively provided with lifting slide blocks, and the lifting slide blocks are respectively movably inserted into the inner sides of the lifting slide ways.

Preferably, two pairs of lifting extrusion rods are respectively provided with rubber pads.

Preferably, the auxiliary support is provided with a plurality of high Wen Jingzhuang electric heating pipes and a plurality of air drying fans.

The fabric treatment process for clothing processing comprises the following operation steps: step S1, desizing; s2, repeatedly flushing; s3, drying; s4, modification treatment; s5, cleaning after treatment; s6, drying after treatment;

step S1: desizing the fabric to be treated by adopting amylase and high-temperature water washing, draining the fabric to the inner side of a concave inner box, and carrying out transportation soaking;

step S2: the concave inner boxes are heated and cooled in a segmented mode through the repeated cleaning structure, and hot water and cold water in the concave inner boxes are used for sequentially and repeatedly cleaning the fabric subjected to desizing treatment;

step S3: drying the cleaned cloth through a plurality of high Wen Jingzhuang electric heating pipes, wherein the drying temperature is 110-115 ℃;

step S4: using dopamine as a biological adhesive, taking polysaccharide microcrystals as a coupling agent, combining amino-containing polyethylene glycol, uniformly mixing nano titanium dioxide with water to prepare a hybridization treatment solution, immersing a fabric to be treated in the hybridization treatment solution, fully soaking for bionic modification treatment, and forming a titanium dioxide/polydopamine hybridization system on the surface of the fabric;

step S5: conveying the fabric subjected to modification treatment by using clear water to the inner side of the concave inner box, and repeatedly cleaning;

step S6: and airing the fabric subjected to post-treatment to be semi-dry, and drying the fabric at the drying temperature of 100-110 ℃.

Step S4, 3-7% of dopamine; polysaccharide microcrystals 2-3%; 0.5 to 1 percent of polyethylene glycol containing amino; 10-14% of nano titanium dioxide; 20-25% of water; dopamine 5%; polysaccharide microcrystals 2.5%; 0.8% of amino group-containing polyethylene glycol; 12% of nano titanium dioxide.

The fabric treatment process and the processing device for clothing processing, which are manufactured by the technical scheme of the invention, are used for tensioning and stably transporting the fabric by adjusting the coordination of the limiting structure and the transport structure, so that the glue on the fabric is cleaned, the coupling agent is soaked on the fabric, the fabric is soaked by the stirring structure, and the fabric is soaked by changing the temperature.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a fabric treatment process and a processing device for clothing processing according to the present invention.

Fig. 2 is a schematic top view of a fabric treatment process and a processing device for clothing processing according to the present invention.

Fig. 3 is an enlarged view of the structure of the "a" portion in fig. 1.

Fig. 4 is an enlarged view of the structure of the "B" portion in fig. 1.

Fig. 5 is an enlarged view of the structure of the "C" portion in fig. 2.

In the figure: 1. desizing concave tables; 2. an auxiliary bracket; 3. a transport drum; 4. a transport sprocket; 5. a transport drive; 6. a transport chain; 7. a daily-type adjusting lifting block; 8. adjusting the threaded pipe; 9. adjusting a threaded rod; 10. an adjusting sprocket; 11. adjusting a chain; 12. adjusting a driving machine; 13. adjusting the spring column; 14. adjusting the bearing block; 15. adjusting the extrusion roller; 16. a concave inner box; 17. a high temperature coil tube; 18. a cooler; 19. a heat radiation box; 20. a heat sink; 21. a stirring driver; 22. a stirring drive shaft; 23. a stirring shaft; 24. a conductive disc; 25. stirring the rotary piece; 26. conducting a magnetic iron block; 27. transporting a screw module; 28. a concave extrusion transport block; 29. lifting the concave block; 30. lifting the convex block; 31. a hydraulic tank; 32. a liquid pump; 33. a diverter valve tube; 34. a drainage tube; 35. lifting the extrusion rod.

Detailed Description

All electric components in the scheme are connected with an adaptive power supply through wires by a person skilled in the art, and an appropriate controller is selected according to actual conditions so as to meet control requirements, specific connection and control sequences, and the electric connection is completed by referring to the following working principles in the working sequence among the electric components, wherein the detailed connection means are known in the art, and the following main description of the working principles and processes is omitted from the description of electric control.

Example 1

As shown in fig. 1-5, the auxiliary stand 2 is mounted on the desizing female stage: 1, the auxiliary support 2 and the desizing concave table: 1 is provided with an adjusting and limiting structure, and the desizing concave table is provided with: 1 is arranged on the repeated cleaning structure, the stirring temperature control structure and the transportation structure;

specifically, the adjusting and limiting structure comprises: a plurality of transport rollers 3, a plurality of transport chain wheels 4, a transport driver 5, a transport chain 6, a plurality of daily adjustment lifting blocks 7, a plurality of adjustment threaded pipes 8, a plurality of adjustment threaded rods 9, a plurality of adjustment chain wheels 10, a plurality of adjustment chains 11, a plurality of adjustment drivers 12, a plurality of adjustment spring posts 13, a plurality of adjustment bearing blocks 14 and a plurality of adjustment extrusion rollers 15;

specifically, a plurality of transport cylinder 3 pass through the even cartridge of bearing in the concave platform of desizing: 1 and the repeated cleaning structure, wherein the transport driving machine 5 is arranged on the desizing concave table: 1, a plurality of transportation sprocket 4 install respectively in a plurality of transportation cylinder 3 and on the transportation driving machine 5 driving end, offer a plurality of lift mouth on the auxiliary stand 2, a plurality of day type regulation elevating block 7 respectively movable cartridge in a plurality of the inboard of lift mouth, a plurality of regulation screwed pipe 8 respectively through the bearing cartridge in on the auxiliary stand 2, a plurality of regulation threaded rod 9 respectively movable cartridge in a plurality of the inboard of regulation screwed pipe 8, and a plurality of regulation threaded rod 9 respectively through the bearing connect in a plurality of on the day type regulation elevating block 7, a plurality of the regulation driving machine 12 even install in on the auxiliary stand 2, a plurality of regulation sprocket 10 respectively install in a plurality of regulation screwed pipe 8 and a plurality of on the driving end of the regulator 12, a plurality of regulation chain 11 suit is in a plurality of on regulation sprocket 10, a plurality of regulation bearing block 14 respectively movable cartridge is in a plurality of day type regulation elevating block 7 respectively the inboard regulation elevating block 7, a plurality of in a plurality of regulation post 13 are installed respectively in a plurality of regulation post 13 on the bearing post 13 respectively the regulation post is installed to a plurality of regulation post 13.

During the use, stretch the surface fabric through transport structure, simultaneously through transport driving machine 5 operation, drive transport sprocket 4 rotation on the transport driving machine 5 driving end, transport sprocket 6 rotation on it is driven through transport sprocket 4, drive a plurality of transport sprocket 4 rotation on it through transport sprocket 6, drive the transport cylinder 3 rotation on it respectively through a plurality of transport sprocket 4, drive the surface fabric removal on it through the rotation of a plurality of transport cylinder 3, operate through a plurality of adjustment driving machine 12, drive the regulation sprocket 10 rotation on the drive of a plurality of adjustment driving machine 12 respectively, drive the regulation chain 11 rotation on it through regulation sprocket 10, drive the rotation of another pair of transport sprocket 4 on it through regulation chain 11, drive the rotation of regulation screwed pipe 8 through a pair of transport sprocket 4, drive the internal adjustment threaded rod 9 respectively through the rotation of regulation screwed pipe 8, drive the day type regulation lifter 7 on it respectively through a pair of regulation threaded rod 9, drive the day type lifter 7 respectively along the inboard lift of a plurality of lift mouth, drive its regulation block on the roller 15 respectively and squeeze the roller 15, reach the surface fabric through the regulation cylinder 15, reach and push the surface fabric, reach and stretch the surface fabric through the regulation cylinder 15, reach the regulation cylinder 15.

Example 2

As shown in fig. 1 to 5, the repetitive cleaning structure comprises: a plurality of concave inner boxes 16, a plurality of high Wen Panrao pipes 17, a plurality of coolers 18, a plurality of heat-dissipating boxes 19 and a plurality of heat-dissipating devices 20;

specifically, the plurality of concave inner boxes 16 are uniformly installed on the desizing concave table: 1, a plurality of the transport rollers 3 are respectively inserted on the concave inner boxes 16 through bearings, a plurality of the high-temperature coiled pipes 17 and a plurality of the coolers 18 are respectively installed on the inner sides of the concave inner boxes 16 in a staggered manner, and a plurality of the radiators 20 are respectively installed on a plurality of the desizing concave tables: 1, and a plurality of heat sinks 20 are respectively connected to a plurality of heat dissipation boxes 19, and a plurality of heat sinks 20 are respectively installed on a plurality of heat dissipation boxes 19.

During the use, soak the surface fabric through a plurality of concave inner box 16 respectively according to different demands, wash the rubberizing on the surface fabric, carry out high temperature heating and cooling to the surface fabric through high Wen Panrao pipe 17 or cooler 18 simultaneously, later distribute away the heat through the cooperation of radiator box 19 and radiator 20.

Example 3

As shown in fig. 1 to 5, the stirring structure comprises: a plurality of stirring drivers 21, a plurality of stirring driving shafts 22, a plurality of stirring shafts 23, a plurality of conducting disks 24, a plurality of stirring rotary pieces 25 and a plurality of conducting magnet blocks 26;

specifically, the stirring driving shafts 22 are respectively inserted on the central lines of the concave inner boxes 16 through bearings, the stirring shafts 23 are respectively and uniformly inserted on the concave inner boxes 16 through bearings, the stirring driving machines 21 are respectively installed on the concave inner boxes 16, the stirring driving machines 21 are respectively connected to the stirring driving shafts 22, the conducting discs 24 are respectively installed on the stirring shafts 23 and the stirring driving shafts 22, the conducting discs 24 are respectively staggered, the conducting magnetic iron blocks 26 are respectively installed on the conducting discs 24, and the stirring rotating pieces 25 are respectively installed on the stirring driving shafts 22 and the conducting discs 24.

When the novel fabric cleaning machine is used, the stirring driving machine 21 is operated to drive the stirring driving shaft 22 on the stirring driving machine 21 to rotate, the stirring driving shaft 22 is used to drive the conducting disc 24 on the stirring driving shaft to rotate, the conducting disc 24 is used to drive the conducting magnet blocks 26 on the conducting disc 24, the conducting magnet blocks 26 on the other conducting disc 24 are driven by the principle of a magnetic transmission, so that the conducting discs 24 are magnetically conducted, the conducting discs 24 are magnetically driven to rotate, the stirring rotating pieces 25 on the conducting discs 24 are respectively driven to rotate by the conducting discs 24, stirring water flow is generated by the concave inner boxes 16, and the fabric is rapidly cleaned and temperature is regulated.

Example 4

As shown in fig. 1-5, the transport structure comprises: two pairs of conveying screw modules 27, two pairs of concave extrusion conveying blocks 28, four pairs of lifting concave blocks 29, four pairs of lifting convex blocks 30, a hydraulic tank 31, a liquid pump 32, a split valve pipe 33, four pairs of drainage pipes 34 and two pairs of lifting extrusion rods 35;

specifically, two pairs of the transporting screw modules 27 are installed on the auxiliary support 2, two pairs of the concave extrusion transporting blocks 28 are installed on the moving ends of the two pairs of the transporting screw modules 27, four pairs of the lifting concave blocks 29 are respectively arranged on the inner sides of the two pairs of the concave extrusion transporting blocks 28, four pairs of the lifting convex blocks 30 are respectively movably inserted on the four pairs of the lifting concave blocks 29, two pairs of the lifting extrusion rods 35 are respectively installed on the four pairs of the lifting convex blocks 30, and the hydraulic tank 31 is installed on the desizing concave table: 1, the liquid pump 32 is mounted on the hydraulic tank 31, the shunt valve tube 33 is mounted on the liquid pump 32, four pairs of drainage tubes 34 are mounted on the shunt valve tube 33, and the four pairs of drainage tubes 34 are respectively connected to the four pairs of lifting concave blocks 29.

When the fabric extrusion and transportation device is used, the two pairs of transportation screw modules 27 are operated, the concave extrusion transportation blocks 28 on the movable ends of the two pairs of transportation screw modules 27 are respectively driven, liquid in the hydraulic tank 31 is pumped to the inner sides of the split valve pipes 33 through the liquid pumping pumps 32, the liquid is led to the inner sides of the four pairs of drainage pipes 34 through the split valve pipes 33, the liquid is led to the inner sides of the two pairs of lifting concave blocks 29 through the four pairs of drainage pipes 34, the lifting convex blocks 30 on the two pairs of lifting concave blocks 29 are driven by the hydraulic pressure in the two pairs of lifting concave blocks 29, the lifting extrusion rods 35 on the lifting convex blocks are respectively driven by the four pairs of lifting convex blocks 30, and the fabric extrusion and transportation is achieved by respectively extruding and fixing the plurality of lifting extrusion rods 35 on the two sides of the fabric.

Preferably, a plurality of fabric tightness sensors are respectively arranged on the concave inner boxes 16.

As a preferred scheme, further, a plurality of the inner sides of the daily-shaped adjusting lifting blocks 7 and a plurality of the inner sides of the lifting openings are respectively provided with lifting slide ways, a plurality of the daily-shaped adjusting lifting blocks 7 and a plurality of the outer sides of the adjusting bearing blocks 14 are respectively provided with lifting slide blocks, and a plurality of the lifting slide blocks are respectively movably inserted into the inner sides of a plurality of the lifting slide ways.

Preferably, rubber pads are respectively disposed on the two pairs of lifting extrusion rods 35.

As a preferable scheme, a plurality of high Wen Jingzhuang electrothermal tubes and a plurality of air drying fans are arranged on the auxiliary bracket 2.

The fabric treatment process for clothing processing comprises the following operation steps: step S1, desizing; s2, repeatedly flushing; s3, drying; s4, modification treatment; s5, cleaning after treatment; s6, drying after treatment;

step S1: desizing the fabric to be treated by adopting amylase and high-temperature water washing, draining the fabric to the inner side of the concave inner box 16, and carrying out transportation soaking;

step S2: the concave inner boxes 16 are heated and cooled in a segmented mode through the repeated cleaning structure, and hot water and cold water in the concave inner boxes 16 are used for sequentially and repeatedly cleaning the fabric subjected to desizing treatment;

step S3: drying the cleaned cloth through a plurality of high Wen Jingzhuang electric heating pipes, wherein the drying temperature is 110-115 ℃;

step S4: using dopamine as a biological adhesive, taking polysaccharide microcrystals as a coupling agent, combining amino-containing polyethylene glycol, uniformly mixing nano titanium dioxide with water to prepare a hybridization treatment solution, immersing a fabric to be treated in the hybridization treatment solution, fully soaking for bionic modification treatment, and forming a titanium dioxide/polydopamine hybridization system on the surface of the fabric;

step S5: conveying the fabric subjected to modification treatment by using clean water to the inner side of the concave inner box 16, and repeatedly cleaning;

step S6: and airing the fabric subjected to post-treatment to be semi-dry, and drying the fabric at the drying temperature of 100-110 ℃.

Step S4, 3-7% of dopamine; polysaccharide microcrystals 2-3%; 0.5 to 1 percent of polyethylene glycol containing amino; 10-14% of nano titanium dioxide; 20-25% of water; dopamine 5%; polysaccharide microcrystals 2.5%; 0.8% of amino group-containing polyethylene glycol; 12% of nano titanium dioxide.

The above technical solution only represents the preferred technical solution of the present invention, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present invention, and the technical solution falls within the scope of the present invention.

Claims (5)

1. A fabric processing device for clothing processing, comprising: the device comprises a desizing concave table and an auxiliary support, and is characterized in that the auxiliary support is arranged on the desizing concave table, the auxiliary support and the desizing concave table are provided with adjusting and limiting structures, and the desizing concave table is arranged on a repeated cleaning structure, a stirring structure and a conveying structure;

the adjusting and limiting structure comprises: the device comprises a plurality of conveying rollers, a plurality of conveying chain wheels, a conveying driver, a conveying chain, a plurality of daily-type adjusting lifting blocks, a plurality of adjusting threaded pipes, a plurality of adjusting threaded rods, a plurality of adjusting chain wheels, a plurality of adjusting chains, a plurality of adjusting driver, a plurality of adjusting spring columns, a plurality of adjusting bearing blocks and a plurality of adjusting extrusion rollers;

the conveying rollers are uniformly inserted and mounted on the desizing concave table and the repeated cleaning structure through bearings, the conveying driving machine is mounted on the desizing concave table, the conveying chain wheels are respectively mounted on the conveying rollers and the driving end of the conveying driving machine, the auxiliary bracket is provided with a plurality of lifting ports, the daily-type adjusting lifting blocks are respectively movably inserted and mounted on the inner sides of the lifting ports, the daily-type adjusting threaded pipes are respectively inserted and mounted on the auxiliary bracket through bearings, the adjusting threaded rods are respectively movably inserted and mounted on the inner sides of the daily-type adjusting threaded pipes, the adjusting threaded rods are respectively connected to the daily-type adjusting lifting blocks through bearings, the adjusting chain wheels are respectively mounted on the driving end of the daily-type adjusting threaded pipes and the driving end of the daily-type adjusting machine, the daily-type adjusting chain wheels are respectively mounted on the daily-type adjusting blocks, the daily-type adjusting chain wheels are respectively movably inserted and mounted on the inner sides of the daily-type adjusting cylinders, and the daily-type adjusting column is respectively connected to the daily-type adjusting cylinders; the repeated cleaning structure comprises: a plurality of concave inner boxes, a plurality of high-temperature coil pipes, a plurality of coolers, a plurality of heat dissipation boxes and a plurality of heat radiators;

the plurality of concave inner boxes are uniformly arranged on the inner sides of the desizing concave tables, the plurality of conveying rollers are respectively inserted on the concave inner boxes through bearings, the plurality of high-temperature coiled pipes and the plurality of coolers are respectively and alternately arranged on the inner sides of the plurality of concave inner boxes, the plurality of radiators are respectively arranged on the outer sides of the plurality of desizing concave tables, the plurality of radiators are respectively connected to the plurality of heat dissipation boxes, and the plurality of radiators are respectively arranged on the plurality of heat dissipation boxes; the stirring structure comprises: a plurality of stirring driving machines, a plurality of stirring driving shafts, a plurality of stirring shafts, a plurality of conducting discs, a plurality of stirring rotating sheets and a plurality of conducting magnet blocks;

the stirring driving shafts are respectively inserted on the central lines of the concave inner boxes through bearings, the stirring shafts are respectively and uniformly inserted on the concave inner boxes through bearings, the stirring driving machines are respectively installed on the concave inner boxes and are respectively connected with the stirring driving shafts, the conducting disks are respectively installed on the stirring shafts and the stirring driving shafts and are respectively staggered, the conducting magnet blocks are respectively installed on the conducting disks, and the stirring rotary pieces are respectively installed on the stirring driving shafts and the conducting disks; the transport structure comprises: two pairs of transportation screw modules, two pairs of concave extrusion transportation blocks, four pairs of lifting concave blocks, four pairs of lifting convex blocks, a hydraulic box, a liquid pump, a split valve pipe, four pairs of drainage pipes and two pairs of lifting extrusion rods;

the two pairs of the conveying screw modules are arranged on the auxiliary support, the two pairs of the concave extrusion conveying blocks are respectively arranged on the moving ends of the two pairs of the conveying screw modules, the four pairs of the lifting concave blocks are respectively arranged on the inner sides of the concave extrusion conveying blocks, the four pairs of the lifting convex blocks are respectively movably inserted on the four pairs of the lifting concave blocks, the two pairs of the lifting extrusion rods are respectively arranged on the four pairs of the lifting convex blocks, the hydraulic tank is arranged on the desizing concave table, the liquid pump is arranged on the hydraulic tank, the flow distribution valve pipe is arranged on the liquid pump, the four pairs of the drainage pipes are arranged on the flow distribution valve pipe, and the four pairs of the drainage pipes are respectively connected on the four pairs of the lifting concave blocks.

2. The fabric processing device for clothing processing according to claim 1, wherein fabric tightness sensors are respectively arranged on the concave inner boxes.

3. The fabric processing device for clothing processing according to claim 2, wherein lifting slides are respectively arranged on the inner sides of the daily-shaped adjusting lifting blocks and the inner sides of the lifting openings, lifting sliding blocks are respectively arranged on the outer sides of the daily-shaped adjusting lifting blocks and the adjusting bearing blocks, and the lifting sliding blocks are respectively movably inserted into the inner sides of the lifting slides.

4. A fabric processing apparatus for clothing processing according to claim 3, wherein rubber pads are provided on the two pairs of lifting and pressing rods, respectively.

5. The fabric processing device for clothing processing according to claim 4, wherein the auxiliary support is provided with a plurality of high Wen Jingzhuang electric heating pipes and a plurality of air drying fans.