CN116084112B - Cloth dyeing equipment - Google Patents

Abstract

The invention discloses cloth dyeing equipment, which relates to the field of cloth dyeing and solves the problem that the inside and outside of thick cloth cannot be uniformly dyed in the prior art.

Description

Cloth dyeing equipment

Technical Field

The invention relates to the field of cloth dyeing, in particular to cloth dyeing equipment.

Background

Dyeing of cloth is one of the most basic processing flows of the cloth, and various different cloth is subjected to dip dyeing according to the requirements of users, so that the dip dyed cloth can be used for making clothing customization and other textile products, and the dip dyeing of the cloth is generally carried out by using special dyeing equipment.

The prior China publication (CN 112064243A) describes a rolling type cloth dyeing device, wherein the uniform dyeing treatment can be carried out on the cloth by rolling the cloth when the cloth is dip dyed, so that the problems of uneven dyeing, insufficient dye utilization rate and waste caused by the traditional dye are solved;

in the prior art, sponge is used for extruding the cloth downwards, so that the dye is fully impregnated into the cloth, the pressure impregnation mode has obvious impregnation effect for thinner cloth, but if thicker cloth (such as chenille fabric, woolen sweater fabric and the like) is dyed, the inner part of the thick cloth cannot be uniformly dyed through one-time pressure impregnation treatment, and when the thick cloth is dyed, long-time soaking or back and forth repeated pressure impregnation is usually required to fully and uniformly dye the thick cloth, so that the dyeing efficiency is poor.

Disclosure of Invention

The invention aims to provide cloth dyeing equipment capable of dyeing cloth in a mode of kneading and pressing the cloth for multiple times, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the cloth dyeing equipment comprises a dip dyeing tank and a supporting plate fixedly mounted on the inner side of the dip dyeing tank, wherein a hanging rod is fixedly mounted on the top of the dip dyeing tank, a retainer is mounted on the lower portion of the hanging rod in a hanging manner, two symmetrically distributed optical axes are rotationally embedded in the bottom of the retainer, a gear roller is sleeved on the outer surface of the optical axes in a sliding manner, two first limiting plates are movably sleeved on the outer sides of the optical axes, the two first limiting plates are correspondingly and movably attached to the end parts of the two gear rollers, a conveying toothed belt is arranged on the outer surfaces of the two gear rollers in a transmission manner, the conveying toothed belt is positioned between the two first limiting plates, a plurality of inverted trapezoid pressing blocks are fixedly arranged on the outer surfaces of the conveying toothed belt at equal intervals, a supporting frame is fixedly mounted between the two first limiting plates, the upper end surface and the lower end surface of the supporting frame are movably sleeved on the inner surfaces of the conveying toothed belt, a component is arranged between the optical axes and the gear roller, a retaining frame is correspondingly attached to the inner surfaces of the two gear roller, a motor is fixedly sleeved on the inner surfaces of the two gear frames, and the two gear frames are fixedly attached to the inner surfaces of the two gear frames, and the two gear shafts are fixedly attached to the inner surfaces of the two gear frames; the poking assembly is driven by the sideslip assembly and is arranged on one side, far away from the toothed belt II, of the optical axis, and a heave assembly which enables the retainer to move up and down is further arranged between the suspender and the retainer.

Preferably, the sideslip assembly comprises a slideway arranged inside each gear roller, a limiting sleeve block horizontally sliding with the slideway is sleeved on the outer surface of the optical axis, a first spring is arranged between two ends of the limiting sleeve block and the slideway, and the gear rollers can slide in a small amplitude on the outer surface of the optical axis through the embedding of the limiting sleeve block and the slideway.

Preferably, the toggle assembly comprises round bars distributed at one end of the toothed belt II, the round bars are fixedly arranged on the side walls of the first limiting plates, the two round bars are rotatably sleeved on the outer surfaces of the optical axes, the two limiting plates are distributed at two ends of the optical axes, the optical axes are close to one end of the round bars, the two limiting plates correspond to each other, the outer surface of the optical axes is fixedly sleeved with a first gear, the two outer side of the first gear is provided with a first toothed belt, the two inner parts of the second limiting plates are rotatably sleeved with a third gear which is movably meshed with the toothed belt, the lower part of the worm is fixedly arranged on a bracket arranged on the side walls of the two limiting plates, the bracket is positioned between the round bars and the second limiting plates, a rotating shaft is rotatably sleeved on the inner part of the bracket, the outer surface of the rotating shaft is fixedly sleeved with the worm, the two ends of the rotating shaft are fixedly sleeved with a convex gear ring which is movably attached to the worm gear, and the convex gear ring which is movably attached to the worm gear is driven by the worm wheel, so that the convex gear can not be meshed with the arc-shaped toothed ring when the worm is driven by the worm, and the arc-shaped toothed ring is not driven by the arc-shaped toothed ring.

Preferably, the fluctuation component comprises a touch plate arranged in an inner cavity of the retainer, two symmetrically distributed positioning rods are fixedly arranged between the upper part of the touch plate and the hanging rod, the positioning rods penetrate through the retainer in a sliding mode, two springs are arranged between the upper part of the touch plate and the retainer, the springs are distributed outside the positioning rods, a connecting rod is rotationally embedded in the inner side of the retainer, the connecting rod is located below the touch plate, a gear IV is fixedly sleeved on the outer surface of the output end of the motor, a gear V which is movably meshed with the gear IV is fixedly sleeved on one end of the connecting rod, a reciprocating screw rod is fixedly sleeved on the outer surface of the connecting rod, a protruding block is sleeved on the outer thread of the reciprocating screw rod, a plurality of trapezoid grooves which are linearly distributed at equal intervals are formed in the bottom of the touch plate, and the bottom surface of the protruding block is attached to the inner wall of the cavity of the retainer, namely, when the reciprocating screw rod rotates, the protruding block can slide on the outer surface of the reciprocating screw rod.

Preferably, the extension edges at the two ends of the top of the protruding block are provided with round chamfers, and the design of the round chamfers is convenient for the protruding block to separate from the trapezoid groove in the sliding process.

Preferably, a plurality of vertical pores are formed in the inner side of the supporting plate, a liquid filling sleeve frame is fixedly mounted at the bottom of the supporting plate, an upper space of the liquid filling sleeve frame is communicated with the pores, a liquid filling assembly is arranged between the liquid filling sleeve frame and the connecting rod, the liquid filling assembly comprises a sealing cylinder fixedly mounted on the side wall of the dip dyeing tank, a piston rod is slidably embedded in the upper part of the sealing cylinder, a piston block which is slidably embedded with the inner wall of the sealing cylinder is fixedly mounted at the bottom of the piston rod, a linkage rod is hinged at the upper part of the piston rod, a single swing arm is fixedly sleeved at one end, close to the sealing cylinder, of the connecting rod, one end, far away from the single swing arm, is movably hinged with the linkage rod, a liquid conveying pipe communicated with the liquid filling sleeve frame is arranged at the outer side of the lower end of the sealing cylinder, a liquid inlet pipe embedded in the interior of the dip dyeing tank is arranged at the bottom of the sealing cylinder, and the piston block continuously moves up and down in the interior of the sealing cylinder when the sealing cylinder rotates, and the dyeing liquid is filled into the interior of the liquid filling sleeve frame.

Preferably, the infusion tube and the outside of the liquid inlet tube are correspondingly provided with a first check valve and a second check valve, the first check valve enables the sealing cylinder to flow unidirectionally to the liquid filling sleeve frame, and the second check valve enables the dip dyeing tank to flow unidirectionally to the sealing cylinder.

Preferably, the bottom of feed liquor pipe still is equipped with mixing subassembly, mixing subassembly including fixed mounting in the U type flow tube of feed liquor pipe bottom port, just the center department of U type flow tube is equipped with ring portion, the inside activity of ring portion is run through and is installed the center pin, just the bottom of center pin rotate inlay in the inboard of dip dyeing pond, the surface of center pin corresponds the inboard of ring portion is fixed to have cup jointed driving impeller, just the top of center pin is fixed to have cup jointed oblique blade wheel, and the feed liquor pipe enables driving impeller at the inside rotation of ring portion in the suction process.

Preferably, the outer diameter of the gear IV is larger than that of the gear V, so that a differential speed is formed between the gear IV and the gear V, and the connecting rod is enabled to rotate rapidly.

Compared with the prior art, the invention has the beneficial effects that:

the invention is characterized in that the cloth is arranged between the conveying toothed belt and the supporting plate when the cloth is dip-dyed, the output power of the motor is controlled, the rotating speed of the conveying toothed belt is consistent with the moving speed of the cloth, and the cloth can be dip-dyed by repeatedly pressing and rubbing the cloth in a small range under the cooperation of the stirring component, the sideslip component and the fluctuating component, namely, the cloth has better dip-dyeing effect on thick cloth, and the dye can fully dip-dye the cloth under the action of repeatedly pressing and rubbing.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of another view angle structure of the whole present invention;

FIG. 3 is a schematic view showing the position distribution of the second limiting plate and the first toothed belt;

FIG. 4 is a schematic view of a gear three-structure of the present invention;

FIG. 5 is a schematic view of a stop collar block and spring of the present invention;

FIG. 6 is an enlarged view of FIG. 5A in accordance with the present invention;

FIG. 7 is a schematic view of a touch panel structure according to the present invention;

FIG. 8 is an enlarged view of the invention at B in FIG. 7;

FIG. 9 is a schematic view of a seal cartridge of the present invention;

FIG. 10 is a schematic view of the drive impeller and pitched blade wheel configuration of the present invention.

In the figure: 1. a dip dyeing pond; 2. a bearing plate; 3. a boom; 4. a retainer; 5. an optical axis; 6. a first limiting plate; 7. a support frame; 8. a gear roller; 9. conveying a toothed belt; 10. pressing blocks with inverted trapezoids; 11. the assembly is stirred; 12. a heave component; 13. a liquid charging assembly; 14. mixing the components uniformly; 15. a positioning rod; 16. a limiting plate II; 17. toothed belt one; 18. a liquid filling sleeve frame; 19. fine pores; 20. a motor; 21. a second gear; 22. toothed belt II; 23. a stop collar block; 24. a first spring; 25. a worm; 26. a bracket; 27. a rotating shaft; 28. an arc-shaped convex toothed ring; 29. a round bar; 30. a connecting rod; 31. a reciprocating screw rod; 32. a fourth gear; 33. a fifth gear; 34. a touch plate; 35. a trapezoidal groove; 36. a protruding block; 37. a second spring; 38. a linkage rod; 39. a piston rod; 40. a sealing cylinder; 41. a piston block; 42. an infusion tube; 43. a liquid inlet pipe; 44. a U-shaped flow tube; 45. a central shaft; 46. a circular ring portion; 47. driving the impeller; 48. oblique vane wheel; 49. a first gear; 50. a third gear; 51. a single swing arm.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Example 1

Referring to fig. 1, 2 and 5, a cloth dyeing device in the drawings comprises a dip dyeing tank 1 and a supporting plate 2 fixedly installed on the inner side of the dip dyeing tank 1, wherein a hanging rod 3 is fixedly installed on the top of the dip dyeing tank 1, a retainer 4 is hung on the lower portion of the hanging rod 3, two symmetrically distributed optical axes 5 are rotationally embedded at the bottom of the retainer 4, a gear roller 8 is sleeved on the outer surface of the optical axes 5 in a sliding manner, two first limiting plates 6 are movably sleeved on the outer portions of the two optical axes 5, the two first limiting plates 6 are correspondingly and movably attached to the end portions of the two gear rollers 8, a conveying toothed belt 9 is arranged on the outer surfaces of the two gear rollers 8 in a transmission manner, a plurality of inverted trapezoid pressing blocks 10 are fixedly and equidistantly arranged on the outer surfaces of the conveying toothed belt 9, the dip dyed cloth is positioned between the conveying toothed belt 9 and the supporting plate 2, a supporting frame 7 is fixedly installed between the two first limiting plates 6, the upper end surfaces and the lower end surfaces of the supporting frame 7 are movably attached to the inner surfaces of the conveying toothed belt 9, two first limiting plates 6 are movably sleeved on the outer surfaces of the two gear roller 8, two inner side-sliding components 4 are respectively provided with two gear assemblies 21, two inner side-shaped gear frames 20 are fixedly installed on the inner sides of the two gear frames 4 and two outer surfaces of the two gear frames 20 are fixedly sleeved on the two inner sides of the two gear frames 20, and two inner side-shaped cavities 21 are fixedly arranged on the two outer sides of the two gear frames 20 are respectively, and the two inner side surfaces of the two side frames 20 are fixedly arranged on the inner sides of the inner side of the gear frames and are respectively; the poking component 11 is arranged on one side of the optical axis 5 far away from the toothed belt II 22, and a heave component 12 which enables the retainer 4 to move up and down is arranged between the suspender 3 and the retainer 4.

Referring to fig. 5, the sideslip assembly in the illustration includes a slideway arranged inside each gear roller 8, a stop collar block 23 horizontally sliding with the slideway is fixedly sleeved on the outer surface of the optical axis 5, a first spring 24 is arranged between two ends of the stop collar block 23 and the slideway, and the gear rollers 8 can slide on the outer surface of the optical axis 5 in a small extent through the jogging of the stop collar block 23 and the slideway.

Referring to fig. 3-6, the toggle assembly 11 in the drawings includes a round bar 29 disposed at one end of the optical axis 5 far away from the toothed belt two 22, the round bar 29 is fixedly disposed on a side wall of the first limiting plate 6, two limiting plates two 16 are rotatably sleeved on an outer surface of the two optical axes 5, the limiting plates two 16 are disposed at one end of the optical axis 5 near the round bar 29, a first gear 49 is fixedly sleeved on an outer surface of the corresponding optical axis 5 between the two limiting plates two 16, the toothed belt one 17 is disposed on an outer side of the two gears one 49, a worm 25 is rotatably embedded in an inner portion of the two limiting plates two 16, a third gear 50 movably engaged with the toothed belt one 17 is fixedly sleeved on an outer surface of the worm 25, a bracket 26 fixedly mounted on a side wall of the limiting plates two 16 is disposed below the worm 25, the bracket 26 is disposed between the round bar 29 and the limiting plates two 16, a rotating shaft 27 is rotatably embedded in an inner portion of the bracket 26, the outer surface of the rotating shaft 27 is fixedly sleeved with an arc-shaped convex ring 28 movably engaged with the worm 25, and the worm wheel 25 is enabled to be meshed with the arc-shaped convex ring 28 when the worm wheel 25 is driven by the optical axis 5.

Referring to fig. 7 and 8, the relief assembly 12 in the drawings includes a touch plate 34 disposed in an inner cavity of the holder 4, two symmetrically distributed positioning rods 15 are fixedly disposed between an upper portion of the touch plate 34 and the hanger rod 3, the positioning rods 15 slidably penetrate through the holder 4, two springs 37 are disposed between an upper portion of the touch plate 34 and the holder 4, the springs 37 are disposed outside the positioning rods 15, a connecting rod 30 is rotatably embedded in an inner side of the holder 4, the connecting rod 30 is disposed below the touch plate 34, a gear four 32 is fixedly sleeved on an outer surface of an output end of the motor 20, a gear five 33 movably meshed with the gear four 32 is fixedly sleeved on one end of the connecting rod 30, a reciprocating screw 31 is fixedly sleeved on an outer surface of the connecting rod 30, a protruding block 36 is sleeved on an outer thread of the reciprocating screw 31, a plurality of trapezoid grooves 35 which are linearly equidistantly distributed are formed at a bottom of the touch plate 34, and a bottom surface of the protruding block 36 is attached to an inner wall of the cavity of the holder 4, namely, when the reciprocating screw 31 rotates, the protruding block 36 can slide back and forth on an outer surface of the reciprocating screw 31.

Referring to fig. 8, the extension edges at the two ends of the top of the protruding block 36 are provided with rounded corners, which are designed to facilitate the protruding block 36 to separate from the trapezoid groove 35 during sliding.

Referring to fig. 8, the outer diameter of the fourth gear 32 is larger than the outer diameter of the fifth gear 33, so that a differential speed is formed between the fourth gear and the fifth gear, and the connecting rod 30 rotates rapidly.

Working principle of dyeing in a mode of kneading and pressing cloth for many times: the worker places the cloth to be subjected to dip dyeing between the supporting plate 2 and the conveying toothed belt 9, and makes two ends of the cloth on the releasing reel and the collecting reel, and in the cloth dyeing process, the motor 20 is started by the rotation of the two drums, so that the rotation speed of the conveying toothed belt 9 is consistent with the movement speed of the cloth, and the motor 20 drives the optical axis 5 to rotate through the gear II 21 and the toothed belt II 22, so that the conveying toothed belt 9 is driven;

in the transmission process of the optical axis 5, the gear III 50 and the worm 25 can be rotated, the round bar 29 of the convex part of the arc-shaped convex tooth ring 28 is pushed by the driving of the worm 25 to the worm wheel, so that the whole limiting plate I6, the supporting frame 7, namely the external conveying toothed belt 9 and the inverted trapezoid pressing block 10 can be laterally moved, and the frequent small-amplitude lateral movement is realized;

meanwhile, the motor 20 is driven, the connecting rod 30 can rotate with the reciprocating screw rod 31 through the meshing of the gear IV 32 and the gear V33, so that the protruding block 36 outside the reciprocating screw rod 31 slides back and forth in a reciprocating manner, in the sliding process, when the protruding block 36 slides out of the trapezoid groove 35, the touch plate 34 is pushed, so that the whole retainer 4 and a structure below the retainer are integrally moved downwards due to the fact that the hanging rod 3 is fixed, and the whole retainer 4 and the structure below the retainer 34 are integrally moved downwards due to the fact that the protruding block 36 pushes the touch plate 34, and due to the fact that the trapezoid grooves 35 are formed in a plurality of the trapezoid grooves, the protruding block 36 can enable the retainer 4 to frequently move up and down in the reciprocating manner, and the retainer 4 can be pressed by the inverted trapezoid pressing block 10 when the retainer moves downwards each time;

when the conveying toothed belt 9 moves at the same speed as the cloth, the cloth can be frequently pressed by the inverted trapezoid pressing block 10, and the cloth can be frequently laterally moved in the pressing process, so that the rubbing effect is realized.

Example 2

Referring to fig. 3, in this embodiment, for further description of example 1, a plurality of vertical holes 19 are formed on the inner side of the support plate 2, a filling sleeve frame 18 is fixedly installed at the bottom of the support plate 2, an upper space of the filling sleeve frame 18 is communicated with the holes 19, a filling assembly 13 is disposed between the filling sleeve frame 18 and the connecting rod 30, the filling assembly 13 includes a sealing cylinder 40 fixedly installed on the side wall of the dip tank 1, a piston rod 39 is slidably embedded in the upper portion of the sealing cylinder 40, a piston block 41 slidably embedded in the inner wall of the sealing cylinder 40 is fixedly installed at the bottom of the piston rod 39, a linkage rod 38 is hinged at the upper portion of the piston rod 39, a single swing arm 51 is fixedly sleeved at one end of the connecting rod 30 close to the sealing cylinder 40, a transfusion tube 42 is movably hinged at the outer side of the lower end of the sealing cylinder 40 and is communicated with the filling sleeve frame 18, a liquid inlet tube 43 embedded in the interior of the dip tank 1 is disposed at the bottom of the sealing cylinder 40, and when the connecting rod 30 rotates, the piston block 41 continuously moves up and down in the interior of the sealing cylinder 40 to charge the interior of the dyeing liquid 18.

Referring to fig. 9, the outside of the infusion tube 42 and the liquid inlet tube 43 in the drawing is correspondingly provided with a first check valve and a second check valve, wherein the first check valve enables the sealing cylinder 40 to flow unidirectionally to the liquid filling sleeve frame 18, and the second check valve enables the dip dyeing pool 1 to flow unidirectionally to the sealing cylinder 40.

In this embodiment: in the process of pressing and rubbing the cloth to dip, the connecting rod 30 continuously enables the piston block 41 to move up and down under the action of the single swing arm 51 and the linkage rod 38, and the interior of the liquid filling sleeve frame 18 is continuously filled with the dip, when the cloth is pressed, most of the corresponding pores 19 at the upper part of the liquid filling sleeve frame 18 are blocked, and only a small part of the pores 19 can be discharged, so that the pressurized dip can quickly impact the thick cloth just pressed when the cloth is not pressed, and the thick cloth has good adsorptivity and rebound resilience, namely, can be quickly absorbed into the dip in the process of recovering the thick cloth, thereby ensuring that the dip fully dips the interior of the thick cloth.

Example 3

Referring to fig. 9 and 10, for further explanation of this embodiment, the bottom of the liquid inlet pipe 43 is further provided with a mixing component 14, the mixing component 14 includes a U-shaped flow pipe 44 fixedly installed at a bottom port of the liquid inlet pipe 43, a circular ring portion 46 is provided at a center of the U-shaped flow pipe 44, a central shaft 45 is movably installed inside the circular ring portion 46 in a penetrating manner, the bottom of the central shaft 45 is rotationally embedded inside the dip tank 1, a driving impeller 47 is fixedly sleeved on an outer surface of the central shaft 45 corresponding to the inner side of the circular ring portion 46, an inclined vane wheel 48 is fixedly sleeved on a top of the central shaft 45, and the driving impeller 47 can rotate inside the circular ring portion 46 during the suction process of the liquid inlet pipe 43.

In this embodiment: in the process of extracting the dip dyeing liquid from the liquid inlet pipe 43 through the other port of the U-shaped flow pipe 44, the flow of the liquid triggers the rotation of the driving impeller 47, so that the central shaft 45 rotates with the inclined blade wheel 48, the rotation of the inclined blade wheel 48 can convey the liquid at the bottom of the dip dyeing tank 1 upwards, the pigment precipitation is avoided, and the uniformity of the color of the dip dyeing liquid is ensured.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Cloth dyeing equipment, including dip tank (1) and fixed mounting in inboard carrier plate (2) of dip tank (1), its characterized in that: the top of the dip dyeing pond (1) is fixedly provided with a hanging rod (3), the lower part of the hanging rod (3) is hung and provided with a retainer (4), the bottom of the retainer (4) is rotationally embedded with two symmetrically distributed optical shafts (5), the outer surfaces of the optical shafts (5) are slidably sleeved with gear rollers (8), the outer parts of the optical shafts (5) are movably sleeved with two limiting plates (6), the two limiting plates (6) are correspondingly and movably attached to the end parts of the gear rollers (8), the outer surfaces of the gear rollers (8) are provided with conveying toothed belts (9), the conveying toothed belts (9) are positioned between the two limiting plates (6), the outer surface fixing of the conveying toothed belts (9) is equidistantly provided with a plurality of inverted trapezoid pressing blocks (10), the dip dyed cloth is positioned between the conveying toothed belts (9) and the bearing plates (2), a supporting frame (7) is fixedly mounted between the two limiting plates (6), the upper end surfaces of the supporting frame (7) are correspondingly attached to the end surfaces of the gear rollers (8), the inner surfaces of the supporting frame (4) are fixedly attached to the inner surfaces of the retaining plates (4), the output end of the motor (20) and the outer surface of one optical axis (5) are fixedly sleeved with a gear II (21), a toothed belt II (22) is arranged outside the two gears (21), and the gear II (21) and the toothed belt II (22) are both positioned in the cavity of the retainer (4);

the poking assembly (11) is used for installing the poking assembly (11) driven by the sideslip assembly on one side of the optical axis (5) far away from the toothed belt II (22), and a heave assembly (12) for enabling the retainer (4) to move up and down is further arranged between the suspender (3) and the retainer (4);

the sideslip assembly comprises a slideway arranged inside each gear roller (8), a limiting sleeve block (23) horizontally sliding with the slideway is fixedly sleeved on the outer surface of the optical axis (5), and a first spring (24) is arranged between two ends of the limiting sleeve block (23) and the slideway;

the toggle assembly (11) comprises round rods (29) which are distributed at one end, far away from the toothed belt II (22), of the optical axis (5), the round rods (29) are fixedly arranged on the side walls of the first limiting plates (6), two second limiting plates (16) are rotatably sleeved on the outer surfaces of the two optical axes (5), the second limiting plates (16) are distributed at one end, close to the round rods (29), of the optical axis (5), a first gear (49) is fixedly sleeved on the outer surfaces of the two limiting plates (16) corresponding to the optical axis (5), a first toothed belt (17) is arranged on the outer sides of the two first gears (49) in a transmission mode, a worm (25) is fixedly sleeved on the outer surfaces of the two limiting plates (16), three gears (50) which are movably meshed with the first toothed belt (17) are fixedly sleeved on the outer surfaces of the worm (25), a bracket (26) fixedly arranged on the side walls of the limiting plates (16), a second gear (26) is fixedly sleeved on the outer surfaces of the bracket (26) and is positioned between the bracket (29) and the second gear (27) and the rotating shaft (27) which is fixedly sleeved on the outer surfaces of the rotating shaft (27), arc-shaped convex toothed rings (28) movably attached to the round rods (29) are fixedly sleeved at two ends of the rotating shaft (27);

the fluctuation assembly (12) comprises a touch plate (34) arranged in an inner cavity of the retainer (4), two symmetrically-distributed positioning rods (15) are fixedly arranged between the upper part of the touch plate (34) and the hanging rod (3), the positioning rods (15) penetrate through the retainer (4) in a sliding mode, two springs (37) are arranged between the upper part of the touch plate (34) and the retainer (4), the springs (37) are distributed outside the positioning rods (15), a connecting rod (30) is rotationally embedded in the inner side of the retainer (4), the connecting rod (30) is located below the touch plate (34), gears (32) are fixedly sleeved on the outer surface of the output end of the motor (20), a reciprocating screw (31) is fixedly sleeved on the outer surface of one end of the connecting rod (30), a plurality of trapezoidal protruding blocks (36) are movably meshed with the gears (33), and a plurality of straight-line grooves (35) are formed in the outer surface of the connecting rod (30) in a sleeved mode.

2. A cloth dyeing apparatus according to claim 1, characterized in that: the extended edges at the two ends of the top of the protruding block (36) are provided with round chamfers.

3. A cloth dyeing apparatus according to claim 1, characterized in that: the inner side of the supporting plate (2) is provided with a plurality of vertical fine holes (19), the bottom of the supporting plate (2) is fixedly provided with a liquid filling sleeve frame (18), the upper space of the liquid filling sleeve frame (18) is communicated with the fine holes (19), a liquid filling assembly (13) is arranged between the liquid filling sleeve frame (18) and the connecting rod (30), the liquid filling assembly (13) comprises a sealing cylinder (40) fixedly arranged on the side wall of the dip dyeing tank (1), the upper part of the sealing cylinder (40) is slidably embedded with a piston rod (39), the bottom of the piston rod (39) is fixedly provided with a piston block (41) which is slidably embedded with the inner wall of the sealing cylinder (40), the upper part of the piston rod (39) is hinged with a linkage rod (38), one end of the connecting rod (30) close to the sealing cylinder (40) is fixedly sleeved with a single swinging arm (51), one end of the connecting rod (30) is movably hinged with the linkage rod (38), the lower end of the sealing cylinder (40) is provided with a linkage rod (40), and the lower end of the sealing cylinder (40) is provided with a linkage rod (42) which is in the inner side of the sealing cylinder (1), and the inner side of the sealing cylinder (42) is provided with a liquid filling tank.

4. A cloth dyeing apparatus according to claim 3, characterized in that: the infusion tube (42) and the outside of the liquid inlet tube (43) are correspondingly provided with a first check valve and a second check valve, the first check valve enables the sealing cylinder (40) to flow unidirectionally to the liquid filling sleeve frame (18), and the second check valve enables the dip dyeing tank (1) to flow unidirectionally to the sealing cylinder (40).

5. A cloth dyeing apparatus according to claim 3, characterized in that: the bottom of feed liquor pipe (43) still is equipped with mixing subassembly (14), mixing subassembly (14) including fixed mounting in U type flow tube (44) of feed liquor pipe (43) bottom port, just the center department of U type flow tube (44) is equipped with ring portion (46), center pin (45) are installed in the inside activity run-through of ring portion (46), just the bottom rotation of center pin (45) inlay in the inboard of dip tank (1), the surface of center pin (45) corresponds drive impeller (47) have been cup jointed to the inboard of ring portion (46), just inclined vane wheel (48) have been cup jointed to the fixed cover in top of center pin (45).

6. A cloth dyeing apparatus according to claim 1, characterized in that: the outer diameter of the gear IV (32) is larger than the outer diameter of the gear V (33).