CN114351383B - Safe dyeing device for textile fabric - Google Patents

Abstract

The invention discloses a safe dyeing device for textile fabrics, which belongs to the technical field of modern textiles and comprises a manipulator, a workbench, a winding device, a dyeing adjusting device, a rotating device, a moving device and a tie-dyeing device.

Description

Safe dyeing device for textile fabric

Technical Field

The invention relates to the technical field of modern textiles, in particular to a safe dyeing device for textile fabrics.

Background

The textile industry is a traditional dominant industry in China, textile products are also important foreign trade products in China, the textile products are used as main raw materials of daily products such as clothing and the like, the development speed of the textile industry also determines the supply and demand relation and price change of the industries such as clothing, spinning machines and the like, the rapid development of the textile industry has important significance for the economic and stable running and the maintenance of stable price of the China, dyeing is an important step for textile, and the dyeing method of the existing textile fabric is that a complete textile fabric is put into a plurality of dye vats to be respectively soaked for a period of time, generally more than 12 hours, after the dyeing is carried out, the dye is put out, and then rinsed, and the dye is put into dyeing for repeated times.

The tie dyeing process is divided into two parts of tie and dyeing. The fabric is dyed after being combined in various modes such as binding, sewing, binding, attaching, clamping and the like by means of yarn, thread, rope and the like. The technology is characterized in that the yarn is used for printing and dyeing after the dyed fabric is twisted into knots, and then the twisted knots are removed. It has more than one hundred kinds of variation techniques and features. If the product is twisted on the roll, the halation is rich, the variation is natural, and the interest is endless. It is even more surprising that every flower, if thousands of flowers, will not appear the same after dyeing.

In the prior art, the fabric is fed manually in the tie-dyeing process, and meanwhile, the tie-dyeing cannot be performed on a plurality of fabrics, the tightness of the twisting of the fabric after the winding is finished cannot be controlled, and the artistic effect is single.

Disclosure of Invention

The embodiment of the invention provides a safe dyeing device for textile fabrics, which aims to solve the technical problems that in the prior art, the fabrics are fed manually in the tie-dyeing process, meanwhile, tie-dyeing cannot be carried out on a plurality of fabrics, the tightness of the twisting of the fabrics after winding is finished cannot be controlled, and the artistic effect is single.

The embodiment of the invention adopts the following technical scheme: including manipulator and workstation, still include wind, dyeing adjusting device, rotary device, mobile device and tie-dyeing device, the manipulator sets up on the workstation, wind sets up on the workstation, dyeing adjusting device sets up in one side of wind, rotary device sets up the side at dyeing adjusting device, mobile device sets up the side at rotary device, tie-dyeing device sets up on the mobile device, dyeing adjusting device includes corotation subassembly and reversal subassembly, corotation subassembly sets up on rotary device, reversal subassembly sets up on corotation subassembly.

Further, forward rotating assembly includes forward swivel mount, dyeing accommodate motor, first gear, second gear, forward swivel mount, forward pivot, forward rotary drum and forward rotary rod, forward swivel mount is located wind, dyeing accommodate motor sets up on forward swivel mount, first gear sets up on dyeing accommodate motor's output, forward swivel mount sets up on forward swivel mount, forward rotary shaft runs through forward swivel mount, forward rotary shaft's inside is hollow structure, the second gear sets up on forward rotary shaft's one end, first gear and second gear engagement, forward rotary drum is located forward rotary shaft's the other end, forward rotary rod is equipped with a plurality of, a plurality of forward rotary rod all sets up on forward rotary drum.

Further, the reversing assembly comprises a reversing sleeve frame, a third gear, a fourth gear, a reversing shaft, a reversing cylinder, a reversing rod and a reversing frame, wherein grooves are formed in the second gear and the reversing cylinder, the reversing shaft penetrates through the grooves and the reversing shaft, the third gear is arranged at one end of the reversing shaft, the reversing frame is located at the other end of the reversing shaft, the reversing sleeve frame is sleeved on the reversing shaft and the reversing shaft, a rotating shaft is arranged on the reversing sleeve frame, the fourth gear is sleeved on the rotating shaft, the first gear is meshed with the fourth gear, the third gear is meshed with the fourth gear, the reversing cylinder is sleeved on the reversing shaft, a plurality of reversing rods are arranged on the reversing rod, and the reversing rods are arranged on the reversing cylinder.

Further, a plurality of positive bull stick on the positive rotary drum all is the one-to-one setting with a plurality of reverse bull stick on the reverse rotary drum, tooth interval on first gear, second gear, third gear and the fourth gear is the same.

Further, a dye collecting box is arranged below the forward rotating rod and the reverse rotating rod, and a discharge pipeline is arranged on the dye collecting box.

Further, winding device includes winding seat, winding motor, winding gear, winding piece, winding post, winding frame and winding board gear, the winding seat sets up on the workstation, winding motor sets up in the below of winding seat and is located the workstation, winding motor's output passes the winding seat, winding gear sets up on winding motor's output, the winding piece is equipped with two, two winding piece equal symmetry sets up the upper end at the winding seat, the winding frame is located the top of winding seat, the winding post is equipped with two, two the winding post all corresponds pass two winding pieces, two the one end of winding piece is all connected in the left and right sides of winding frame, the inboard of winding frame is equipped with sliding groove, winding board gear sets up in the sliding groove of winding frame inboard, winding board gear and winding gear meshing.

Further, the inside ellipse that is of winding board gear, be equipped with the winding frame on the winding board gear, be equipped with the winding axle on the end of winding frame.

Further, rotary device includes roating seat, rotating electrical machines, rotation axis, rotary rod and swivel mount, the roating seat is located dyeing accommodate motor's side, the rotating electrical machines sets up on the roating seat, the rotation axis sets up on the output of rotating electrical machines, the swivel mount sets up the side at positive swivel mount, the rotation axis passes the swivel mount and connects on positive swivel mount, the rotation axis cover is established on the rotation axis.

Further, mobile device includes removal track, removal rack, removes frame, axis of rotation and rotation rim plate, it is located the side of roating seat to remove the track, be equipped with the removal recess on the removal track, it sets up in the removal recess on removing the track to remove the rack, it is located the orbital side to remove the frame, the axis of rotation sets up on removing the frame, the rotation rim plate cover is established in the axis of rotation, be equipped with the removal rack on the rotation rim plate, still be equipped with a plurality of movable rod on the rotation rim plate, the rotary rod is located between a plurality of movable rod.

Further, the tie-dyeing device comprises a tie-dyeing plate, a tie-dyeing air pump and a tie-dyeing spray head, wherein the tie-dyeing plate is arranged on the movable rack, the tie-dyeing air pump is arranged at the side end of the movable track, the tie-dyeing spray head is arranged on the tie-dyeing plate, the tie-dyeing spray head is connected with the tie-dyeing air pump through a pipeline, and a valve is arranged on the tie-dyeing spray head.

The above at least one technical scheme adopted by the embodiment of the invention can achieve the following beneficial effects:

firstly, the dyeing adjusting motor is operated to drive the forward rotating rod on the forward rotating cylinder to rotate forward and the reverse rotating rod on the reverse rotating cylinder to twist the fabric wound on the forward rotating rod and the reverse rotating rod into knots, meanwhile, the tightness of the knots of the fabric can be adjusted, the area of the fabric subjected to the dye is reduced in the tightly twisted state of the fabric, otherwise, the area of the fabric subjected to the dye is enlarged in the loosely twisted state of the fabric, so that the tie-dyeing state of the fabric is adjusted, and different artistic effects of the fabric can be achieved.

Secondly, firstly, the wound fabric is sleeved on the winding shaft, then one end of the fabric sleeved on the winding shaft is clamped to the side end of the reverse rotating rod through the operation of the mechanical arm, at this time, the winding motor is operated to drive the winding gear on the output end of the winding plate motor to rotate, the winding gear is rotated to drive the winding plate gear to move, the winding column on the winding frame is driven to move on the winding block through the movement of the winding plate gear, and the winding shaft is driven to move around the outer sides of the forward rotating rod and the reverse rotating rod through the rotation of the winding plate gear, so that the fabric positioned on the winding shaft is wound on the forward rotating rod and the reverse rotating rod, after the fabric is wound on the forward rotating rod and the reverse rotating rod, the dyeing adjusting device is driven to rotate through the operation of the rotating device, the other group of forward rotating rod and the reverse rotating rod are enabled to wind the fabric through the specified angle, and the repeated circulation is enabled to be wound on the forward rotating rod and the reverse rotating rod, and the fabric is automatically fed.

And thirdly, the dyeing adjusting device and the moving device can be driven to operate through the rotating device, the dyeing adjusting device rotates and the moving device moves, the moving device operates to drive the tie-dyeing device to move, the fabric wound on the positive rotating rod and the reverse rotating rod is driven to rotate, meanwhile, the tie-dyeing device moves in the tie-dyeing process of the fabric, dye is sucked into the tie-dyeing spray head through the operation of the tie-dyeing air pump and discharged through the tie-dyeing spray head, tie-dyeing is carried out on the fabric, and therefore production efficiency is increased.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:

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

FIG. 2 is a schematic diagram of a second perspective structure of the present invention;

FIG. 3 is a schematic perspective view of a forward rotating assembly according to the present invention;

FIG. 4 is a schematic perspective view of a dyeing adjusting device according to the present invention;

FIG. 5 is a schematic perspective view of a first state of the dyeing adjusting device according to the present invention;

FIG. 6 is a schematic perspective view of a second state of the dyeing adjusting device according to the present invention;

FIG. 7 is a schematic perspective view of a mobile device according to the present invention;

FIG. 8 is a schematic perspective view of a mobile device and a rotary device according to the present invention;

FIG. 9 is a schematic perspective view of a tie dyeing apparatus according to the present invention;

FIG. 10 is a schematic perspective view showing a first state of the winding device according to the present invention;

fig. 11 is a schematic perspective view showing a second state of the winding device according to the present invention.

Reference numerals

Manipulator 1, table 11, dyeing adjustment device 2, forward rotation unit 21, forward rotation base 211, dyeing adjustment motor 212, first gear 213, second gear 214, forward rotation frame 215, forward rotation shaft 216, forward rotation cylinder 217, forward rotation rod 218, reverse rotation unit 22, reverse rotation sleeve frame 221, third gear 222, fourth gear 223, reverse rotation shaft 224, reverse rotation cylinder 225, reverse rotation rod 226, reverse rotation frame 227, dye collection tank 23, discharge pipe 24, winding device 3, winding base 31, winding motor 32, winding gear 33, winding block 34, winding column 35, winding frame 36, winding plate gear 37, winding frame 38, winding shaft 39, rotating device 4, rotating base 41, rotating motor 42, rotating shaft 43, rotating rod 44, rotating frame 45, moving device 5, moving rail 51, moving rack 52, moving frame 53, rotating shaft 54, rotating wheel disc 55, tie-dyeing device 6, tie-plate 61, tie-dyeing air pump 62, tie-dyeing head 63.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The following describes in detail the technical solutions provided by the embodiments of the present invention with reference to the accompanying drawings.

The embodiment of the invention provides a safe dyeing device for textile fabrics, which comprises a manipulator 1, a workbench 11, a winding device 3, a dyeing adjusting device 2, a rotating device 4, a moving device 5 and a tie dyeing device 6, wherein the manipulator 1 is arranged on the workbench 11, the winding device 3 is arranged on the workbench 11, the dyeing adjusting device 2 is arranged at one side of the winding device 3, the rotating device 4 is arranged at the side end of the dyeing adjusting device 2, the moving device 5 is arranged at the side end of the rotating device 4, the tie dyeing device 6 is arranged on the moving device 5, the dyeing adjusting device 2 comprises a forward rotating component 21 and a reverse rotating component 22, the forward rotating component 21 is arranged on the rotating device 4, the reverse rotating component 22 is arranged on the forward rotating component 21, the invention can automatically wind a plurality of fabrics on the dyeing adjusting device 2 one by one through the winding device 3, and can control the twisting strength of the fabrics so that the fabrics can present different artistic effects in the tie dyeing process, and the arranged on the winding device 3 can be sleeved on one end of the winding device 2 when the fabrics are used for adjusting the fabrics by one, and the fabrics can be conveniently clamped on one end of the winding device 2 when the fabrics are arranged.

Preferably, the forward rotating assembly 21 comprises a forward rotating seat 211, a dyeing adjusting motor 212, a first gear 213, a second gear 214, a forward rotating frame 215, a forward rotating shaft 216, a forward rotating drum 217 and a forward rotating rod 218, wherein the forward rotating seat 211 is located on the winding device 3, the dyeing adjusting motor 212 is arranged on the forward rotating seat 211, the first gear 213 is arranged at the output end of the dyeing adjusting motor 212, the forward rotating frame 215 is arranged on the forward rotating seat 211, the forward rotating shaft 216 penetrates through the forward rotating frame 215, the inside of the forward rotating shaft 216 is of a hollow structure, the second gear 214 is arranged at one end of the forward rotating shaft 216, the first gear 213 is meshed with the second gear 214, the forward rotating drum 217 is located at the other end of the forward rotating shaft 216, the forward rotating rod 218 is provided with a plurality of forward rotating rods 218, the forward rotating rods 218 are arranged on the forward rotating drum 217, the first gear 213 is driven to rotate through the operation of the dyeing adjusting motor 212, the first gear 213 is driven to rotate, the second gear 214 is driven to rotate, the forward rotating drum 216 is driven to rotate, the forward rotating shaft 216 is driven to rotate, the forward rotating drum 218 is driven to rotate, and the forward rotating assembly is driven to rotate, and the forward rotating drum 22 is driven to rotate, thereby, and the forward rotating assembly can be driven to rotate.

Preferably, the reversing assembly 22 includes a reversing rack 221, a third gear 222, a fourth gear 223, a reversing shaft 224, a reversing cylinder 225, a reversing rod 226 and a reversing rack 227, grooves are formed in the second gear 214 and the reversing cylinder 217, the reversing shaft 224 passes through the grooves and the reversing shaft 216, the third gear 222 is arranged at one end of the reversing shaft 224, the reversing rack 227 is positioned at the other end of the reversing shaft 224, the reversing rack 221 is sleeved on the reversing shaft 224 and the reversing shaft 216, a rotating shaft 54 is arranged on the reversing rack 221, the fourth gear 223 is sleeved on the rotating shaft 54, the first gear 213 is meshed with the fourth gear 223, the third gear 222 is meshed with the fourth gear 223, the reversing cylinder 225 is sleeved on the reversing shaft 224, the reversing rod 226 is provided with a plurality of reversing rods 226, the reversing rods 226 are arranged on the reversing cylinder 225, the reversing cylinder 225 is driven to rotate through the rotation of the first gear 213, the fourth gear 223 drives the third gear 222 to rotate, and the reversing rod 222 is driven to rotate through the rotation of the first gear 213, and the reversing rod 223 is driven to rotate along with the fourth gear 223, so that the reversing rod 223 and the reversing cylinder 225 and the reversing cylinder 218 can be reversely rotated in the forward and reverse, and the reversing rod 223 is also driven to rotate in the forward and reverse, and the reversing rod can be rotated in the forward and reverse, and the reversing direction, and the fabric can be adjusted.

Preferably, the plurality of forward rotating rods 218 on the forward rotating cylinder 217 and the plurality of reverse rotating rods 226 on the reverse rotating cylinder 225 are arranged in a one-to-one correspondence manner, tooth spaces on the first gear 213, the second gear 214, the third gear 222 and the fourth gear 223 are the same, and tooth spaces on the first gear 213, the second gear 214, the third gear 222 and the fourth gear 223 are the same, so that the rotating speeds of the forward rotating rod 218 and the reverse rotating rod 226 are the same, and after the forward rotating rod 218 and the reverse rotating rod 226 rotate to a specified number of turns, the forward rotating rod 218 and the reverse rotating rod 226 are in one-to-one correspondence, so that the fabric is wound on the forward rotating rod 218 and the reverse rotating rod 226, and tie dyeing operation is realized.

Preferably, the below of the forward rod 218 and the reverse rod 226 is provided with a dye collecting box 23, the dye collecting box 23 is provided with a discharge pipeline 24, and the dye can be collected by dripping on the fabric in the tie-dyeing process of the fabric through the dye collecting box 23, so that waste is avoided, and meanwhile, the environment pollution caused by random dripping of the dye is avoided, and the dye collected in the dye collecting box 23 can be discharged through the discharge pipeline 24.

Preferably, the winding device 3 comprises a winding seat 31, a winding motor 32, winding gears 33, winding blocks 34, winding columns 35, winding frames 36 and winding plate gears 37, the winding seat 31 is arranged on the workbench 11, the winding motor 32 is arranged below the winding seat 31 and is located on the workbench 11, the output end of the winding motor 32 passes through the winding seat 31, the winding gears 33 are arranged on the output end of the winding motor 32, the winding blocks 34 are provided with two, the two winding blocks 34 are symmetrically arranged at the upper end of the winding seat 31, the winding frames 36 are located above the winding seats 31, the two winding columns 35 are provided with two winding blocks 34, one ends of the winding blocks 34 are connected to the left side and the right side of the winding frames 36, the inner side of the winding frames 36 is provided with sliding grooves, the winding plate gears 37 are meshed with the winding gears 33, the winding gears 33 are driven by the arranged winding motor 32 to rotate on the winding frames 33, the winding plates 33 are driven by the winding motor 32, and the winding plates 33 are driven to rotate, and the winding frames 35 can be driven to rotate, and the winding frames 2 can be driven to rotate, and the winding plates are driven by the winding frames 33.

Preferably, the inside of the winding plate gear 37 is oval, a winding frame 38 is arranged on the winding plate gear 37, a winding shaft 39 is arranged at the tail end of the winding frame 38, the winding plate gear 37 is oval, the winding plate gear 37 is enabled to move in an oval state in the winding frame 36, the winding shaft 39 on the winding frame 38 is driven to move through rotation of the winding plate gear 37, and accordingly the winding shaft 39 can move around the outer sides of the forward rotating rod 218 and the reverse rotating rod 226, and winding of the fabric on the forward rotating rod 218 and the reverse rotating rod 226 is achieved.

Preferably, the rotating device 4 includes a rotating base 41, a rotating motor 42, a rotating shaft 43, a rotating rod 44 and a rotating frame 45, the rotating base 41 is located at a side end of the dyeing adjusting motor 212, the rotating motor 42 is arranged on the rotating base 41, the rotating shaft 43 is arranged at an output end of the rotating motor 42, the rotating frame 45 is arranged at a side end of the rotating base 211, the rotating shaft 43 penetrates through the rotating frame 45 to be connected to the rotating base 211, the rotating rod 44 is sleeved on the rotating shaft 43, the rotating shaft 43 on an output end of the rotating motor 42 is driven to rotate through the arranged rotating motor 42, the rotating shaft 43 rotates to drive the rotating rod 44 and the rotating base 211 to rotate, and the dyeing adjusting device 2 and the moving device 5 can be driven to operate through the arranged rotating device 4.

Preferably, the moving device 5 includes a moving track 51, a moving rack 52, a moving frame 53, a rotating shaft 54 and a rotating wheel 55, the moving track 51 is located at a side end of the rotating seat 41, a moving groove is formed in the moving track 51, the moving rack 52 is disposed in the moving groove on the moving track 51, the moving frame 53 is located at a side end of the moving track 51, the rotating shaft 54 is disposed on the moving frame 53, the rotating wheel 55 is sleeved on the rotating shaft 54, the rotating wheel 55 is provided with the moving rack 52, a plurality of moving rods are further disposed on the rotating wheel 55, the rotating rod 44 is located among the plurality of moving rods, the rotating rod 44 can collide with the plurality of moving rods in a moving state, the moving rod on the rotating wheel 55 is driven to rotate through the operation of the rotating rod 44, so that the moving rack 52 on the rotating wheel 55 is driven to rotate, the moving rack 52 is driven to move on the moving track 51, and the tie-dyeing device 6 can be driven to move through the disposed moving device 5.

Preferably, the tie-dyeing device 6 comprises a tie-dyeing plate 61, a tie-dyeing air pump 62 and a tie-dyeing spray head 63, the tie-dyeing plate 61 is arranged on the movable rack 52, the tie-dyeing air pump 62 is arranged at the side end of the movable track 51, the tie-dyeing spray head 63 is arranged on the tie-dyeing plate 61, the tie-dyeing spray head 63 is connected with the tie-dyeing air pump 62 through a pipeline, a valve is arranged on the tie-dyeing spray head 63, dye can be sucked into the tie-dyeing spray head 63 through the tie-dyeing air pump 62 and is discharged through the tie-dyeing spray head 63, the tie-dyeing spray head 63 can be controlled to be closed and opened through the valve, the tie-dyeing plate 61 can be driven to move through the movable rack 52, and the tie-dyeing spray head 63 is driven to move, so that the tie-dyeing of fabrics wound on the positive rotating rod 218 and the reverse rotating rod 226 is realized.

Working principle: when the fabric is ready to be operated, firstly, the wound fabric is sleeved on the winding shaft 39, then one end of the fabric sleeved on the winding shaft 39 is clamped to the side end of the reverse rotating rod 226 by the operation of the manipulator 1, at the moment, the winding gear 33 on the output end of the winding plate motor is driven to rotate by the operation of the winding motor 32, the winding gear 33 is driven to rotate by the rotation of the winding plate gear 37, the winding column 35 on the winding frame 36 is driven to move on the winding block 34 by the movement of the winding plate gear 37, the winding shaft 39 on the winding frame 38 is driven to move by the rotation of the winding plate gear 37, so that the winding shaft 39 can move around the outer sides of the forward rotating rod 218 and the reverse rotating rod 226 to wind the fabric on the forward rotating rod 218 and the reverse rotating rod 226, and after the winding of the fabric on the forward rotating rod 218 and the reverse rotating rod 226 is completed, the dyeing adjusting device 2 can be driven to rotate by the operation of the rotating device 4, the forward rotating rod 218 and the reverse rotating rod 226 rotate for a designated angle to wind the other group of forward rotating rod 218 and reverse rotating rod 226, after the fabrics are wound on the forward rotating rod 218 and the reverse rotating rod 226 in a repeated cycle, when the fabrics need to be tie-dyed in different states in the tie-dyeing process, the forward rotating rod 218 on the forward rotating rod 217 can be driven by the operation of the dyeing adjusting motor 212 to rotate the reverse rotating rod 226 on the forward rotating rod 225 and the reverse rotating rod 225 in a reverse rotating mode, so that the fabrics wound on the forward rotating rod 218 and the reverse rotating rod 226 are twisted, meanwhile, the tightness of the twisted fabrics can be adjusted, the area of the fabrics which are subjected to dye is reduced in the state of being twisted tightly, otherwise, the area of the fabrics which are subjected to dye is enlarged in the state of being twisted loosely, so that the tie-dyeing state of the fabrics is adjusted in the tie-dyeing process, the operation of the rotary device 4 can drive the dyeing adjusting device 2 and the moving device 5 to operate, so that the dyeing adjusting device 2 rotates and the moving device 5 moves, the moving device 5 operates to drive the tie-dyeing device 6 to move, thereby driving the fabric wound on the forward rotating rod 218 and the reverse rotating rod 226 to rotate, and simultaneously, in the tie-dyeing process of the fabric, the fabric moves through the tie-dyeing device 6, dye is sucked into the tie-dyeing spray head 63 through the operation of the tie-dyeing air pump 62 and is discharged through the tie-dyeing spray head 63, tie-dyeing of the fabric is realized, and the production efficiency is increased.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. Various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are to be included in the scope of the claims of the present invention.

Claims (4)

1. The utility model provides a safe dyeing apparatus for textile fabric, includes manipulator (1) and workstation (11), its characterized in that still includes wind (3), dyeing adjusting device (2), rotary device (4), mobile device (5) and tie dyeing device (6), manipulator (1) set up on workstation (11), wind (3) set up on workstation (11), dyeing adjusting device (2) set up in one side of wind (3), rotary device (4) set up the side of dyeing adjusting device (2), mobile device (5) set up in the side of rotary device (4), tie dyeing device (6) set up on mobile device (5), dyeing adjusting device (2) include corotation subassembly (21) and reversing subassembly (22), corotation subassembly (21) set up on rotary device (4), reversing subassembly (22) set up on corotation subassembly (21), corotation subassembly (21) include corotation motor (211), dyeing adjusting motor (212), first gear (213), second gear (216), corotation (218) are located on swivel (218), corotation drum (3) are located, the dyeing adjusting motor (212) is arranged on the forward rotating base (211), the first gear (213) is arranged at the output end of the dyeing adjusting motor (212), the forward rotating base (215) is arranged on the forward rotating base (211), the forward rotating shaft (216) penetrates through the forward rotating base (215), the inside of the forward rotating shaft (216) is of a hollow structure, the second gear (214) is arranged at one end of the forward rotating shaft (216), the first gear (213) is meshed with the second gear (214), the forward rotating base (217) is arranged at the other end of the forward rotating shaft (216), the forward rotating rod (218) is provided with a plurality of forward rotating rods (218) which are arranged on the forward rotating base (217), the reversing assembly (22) comprises a reversing sleeve frame (221), a third gear (222), a fourth gear (223), a reversing shaft (224), a reversing rod (226) and a reversing frame (227), grooves are formed in the second gear (214) and the forward rotating base (217), the reversing shaft (216) and the reversing assembly is arranged at one end of the reversing shaft (224) and the reversing shaft (224), the reversing sleeve frame (221) is provided with a rotating shaft (54), a fourth gear (223) is sleeved on the rotating shaft (54), a first gear (213) is meshed with the fourth gear (223), a third gear (222) is meshed with the fourth gear (223), a reversing cylinder (225) is sleeved on the reversing shaft (224), a plurality of reversing rods (226) are arranged on the reversing cylinder (225), a plurality of reversing rods (218) on the reversing cylinder (217) and a plurality of reversing rods (226) on the reversing cylinder (225) are arranged in a one-to-one correspondence manner, tooth pitches on the first gear (213), the second gear (214), the third gear (222) and the fourth gear (223) are the same, dye collecting boxes (23) are arranged below the reversing cylinder (218) and the reversing rod (226), a discharge pipeline (24) is arranged on the dye collecting boxes (23), the winding device (3) comprises a motor seat (31), a winding block (31), a winding table (37) and a winding table (31), the utility model discloses a fabric winding machine, which is characterized in that a winding motor (32) is arranged below a winding seat (31) and is positioned on a workbench (11), the output end of the winding motor (32) passes through the winding seat (31), winding gears (33) are arranged on the output end of the winding motor (32), two winding blocks (34) are arranged at the upper end of the winding seat (31) symmetrically, a winding frame (36) is positioned above the winding seat (31), winding columns (35) are provided with two winding blocks (34) corresponding to the two winding columns (35), one ends of the two winding blocks (34) are connected to the left side and the right side of the winding frame (36), sliding grooves are formed in the inner side of the winding frame (36), winding plate gears (37) are arranged in the sliding grooves in the inner side of the winding frame (36), the winding plate gears (37) are meshed with the winding gears (33), the inner parts of the winding plate gears (37) are elliptical, the winding plate gears (37) are respectively arranged above the winding frame (37), one end of the winding shaft (39) is arranged on the winding shaft (39), one end of the winding shaft (39) is sleeved on the fabric winding machine, and the fabric winding shaft (39) is wound on the fabric winding shaft (39) in turn, at this time, the winding motor (32) is used for running to drive the winding gear (33) on the output end of the winding plate motor to rotate, the winding gear (33) is used for rotating to drive the winding plate gear (37) to move, the winding post (35) on the winding frame (36) is driven to move on the winding block (34), the winding shaft (39) on the winding frame 38 is driven to move through the rotation of the winding plate gear (37), so that the winding shaft (39) can move around the outer sides of the forward rotating rod (218) and the reverse rotating rod (226), the fabric on the winding shaft (39) is wound on the forward rotating rod (218) and the reverse rotating rod (226), after the fabric is wound on the forward rotating rod (218) and the reverse rotating rod (226), the dyeing adjusting device (2) can be driven to rotate through the operation of the rotating device (4), the other group of forward rotating rod (218) and the reverse rotating rod (226) are wound by a designated angle, the fabric is repeatedly wound on the forward rotating rod (218) and the reverse rotating rod (226) and the fabric (226) in a tie-dyeing process, and the fabric can be dyed by the forward rotating rod (218) and the reverse rotating rod (226) in a different dyeing process, therefore, the fabric wound on the forward rotating rod (218) and the reverse rotating rod (226) is twisted, the tightness of the twisted knot of the fabric can be adjusted, the area of the fabric, which is subjected to dye, is reduced when the fabric is twisted to be tight, and otherwise, the area of the fabric, which is subjected to dye, is increased when the fabric is twisted to be loose, so that the tie-dyeing state of the fabric is adjusted.

2. The safe dyeing device for textile fabric according to claim 1, wherein the rotating device (4) comprises a rotating seat (41), a rotating motor (42), a rotating shaft (43), a rotating rod (44) and a rotating frame (45), the rotating seat (41) is positioned at the side end of the dyeing adjusting motor (212), the rotating motor (42) is arranged on the rotating seat (41), the rotating shaft (43) is arranged at the output end of the rotating motor (42), the rotating frame (45) is arranged at the side end of the positive rotating seat (211), the rotating shaft (43) penetrates through the rotating frame (45) to be connected to the positive rotating seat (211), and the rotating rod (44) is sleeved on the rotating shaft (43).

3. The safe dyeing device for textile fabric according to claim 2, wherein the moving device (5) comprises a moving rail (51), a moving rack (52), a moving frame (53), a rotating shaft (54) and a rotating wheel disc (55), the moving rail (51) is located at the side end of the rotating seat (41), a moving groove is formed in the moving rail (51), the moving rack (52) is arranged in the moving groove in the moving rail (51), the moving frame (53) is located at the side end of the moving rail (51), the rotating shaft (54) is arranged on the moving frame (53), the rotating wheel disc (55) is sleeved on the rotating shaft (54), the moving rack (52) is arranged on the rotating wheel disc (55), a plurality of moving rods are further arranged on the rotating wheel disc (55), and the rotating rod (44) is located between the plurality of moving rods.

4. A safety dyeing device for textile fabrics according to claim 3, characterized in that the tie-dyeing device (6) comprises a tie-dyeing plate (61), a tie-dyeing air pump (62) and a tie-dyeing spray head (63), the tie-dyeing plate (61) is arranged on the movable rack (52), the tie-dyeing air pump (62) is arranged at the side end of the movable track (51), the tie-dyeing spray head (63) is arranged on the tie-dyeing plate (61), the tie-dyeing spray head (63) and the tie-dyeing air pump (62) are connected by a pipeline, and a valve is arranged on the tie-dyeing spray head (63).